Index: vendor/clang/dist-release_60/docs/UsersManual.rst =================================================================== --- vendor/clang/dist-release_60/docs/UsersManual.rst (revision 335721) +++ vendor/clang/dist-release_60/docs/UsersManual.rst (revision 335722) @@ -1,2930 +1,2930 @@ ============================ Clang Compiler User's Manual ============================ .. include:: .. contents:: :local: Introduction ============ The Clang Compiler is an open-source compiler for the C family of programming languages, aiming to be the best in class implementation of these languages. Clang builds on the LLVM optimizer and code generator, allowing it to provide high-quality optimization and code generation support for many targets. For more general information, please see the `Clang Web Site `_ or the `LLVM Web Site `_. This document describes important notes about using Clang as a compiler for an end-user, documenting the supported features, command line options, etc. If you are interested in using Clang to build a tool that processes code, please see :doc:`InternalsManual`. If you are interested in the `Clang Static Analyzer `_, please see its web page. Clang is one component in a complete toolchain for C family languages. A separate document describes the other pieces necessary to :doc:`assemble a complete toolchain `. Clang is designed to support the C family of programming languages, which includes :ref:`C `, :ref:`Objective-C `, :ref:`C++ `, and :ref:`Objective-C++ ` as well as many dialects of those. For language-specific information, please see the corresponding language specific section: - :ref:`C Language `: K&R C, ANSI C89, ISO C90, ISO C94 (C89+AMD1), ISO C99 (+TC1, TC2, TC3). - :ref:`Objective-C Language `: ObjC 1, ObjC 2, ObjC 2.1, plus variants depending on base language. - :ref:`C++ Language ` - :ref:`Objective C++ Language ` - :ref:`OpenCL C Language `: v1.0, v1.1, v1.2, v2.0. In addition to these base languages and their dialects, Clang supports a broad variety of language extensions, which are documented in the corresponding language section. These extensions are provided to be compatible with the GCC, Microsoft, and other popular compilers as well as to improve functionality through Clang-specific features. The Clang driver and language features are intentionally designed to be as compatible with the GNU GCC compiler as reasonably possible, easing migration from GCC to Clang. In most cases, code "just works". Clang also provides an alternative driver, :ref:`clang-cl`, that is designed to be compatible with the Visual C++ compiler, cl.exe. In addition to language specific features, Clang has a variety of features that depend on what CPU architecture or operating system is being compiled for. Please see the :ref:`Target-Specific Features and Limitations ` section for more details. The rest of the introduction introduces some basic :ref:`compiler terminology ` that is used throughout this manual and contains a basic :ref:`introduction to using Clang ` as a command line compiler. .. _terminology: Terminology ----------- Front end, parser, backend, preprocessor, undefined behavior, diagnostic, optimizer .. _basicusage: Basic Usage ----------- Intro to how to use a C compiler for newbies. compile + link compile then link debug info enabling optimizations picking a language to use, defaults to C11 by default. Autosenses based on extension. using a makefile Command Line Options ==================== This section is generally an index into other sections. It does not go into depth on the ones that are covered by other sections. However, the first part introduces the language selection and other high level options like :option:`-c`, :option:`-g`, etc. Options to Control Error and Warning Messages --------------------------------------------- .. option:: -Werror Turn warnings into errors. .. This is in plain monospaced font because it generates the same label as .. -Werror, and Sphinx complains. ``-Werror=foo`` Turn warning "foo" into an error. .. option:: -Wno-error=foo Turn warning "foo" into a warning even if :option:`-Werror` is specified. .. option:: -Wfoo Enable warning "foo". See the :doc:`diagnostics reference ` for a complete list of the warning flags that can be specified in this way. .. option:: -Wno-foo Disable warning "foo". .. option:: -w Disable all diagnostics. .. option:: -Weverything :ref:`Enable all diagnostics. ` .. option:: -pedantic Warn on language extensions. .. option:: -pedantic-errors Error on language extensions. .. option:: -Wsystem-headers Enable warnings from system headers. .. option:: -ferror-limit=123 Stop emitting diagnostics after 123 errors have been produced. The default is 20, and the error limit can be disabled with `-ferror-limit=0`. .. option:: -ftemplate-backtrace-limit=123 Only emit up to 123 template instantiation notes within the template instantiation backtrace for a single warning or error. The default is 10, and the limit can be disabled with `-ftemplate-backtrace-limit=0`. .. _cl_diag_formatting: Formatting of Diagnostics ^^^^^^^^^^^^^^^^^^^^^^^^^ Clang aims to produce beautiful diagnostics by default, particularly for new users that first come to Clang. However, different people have different preferences, and sometimes Clang is driven not by a human, but by a program that wants consistent and easily parsable output. For these cases, Clang provides a wide range of options to control the exact output format of the diagnostics that it generates. .. _opt_fshow-column: **-f[no-]show-column** Print column number in diagnostic. This option, which defaults to on, controls whether or not Clang prints the column number of a diagnostic. For example, when this is enabled, Clang will print something like: :: test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ // When this is disabled, Clang will print "test.c:28: warning..." with no column number. The printed column numbers count bytes from the beginning of the line; take care if your source contains multibyte characters. .. _opt_fshow-source-location: **-f[no-]show-source-location** Print source file/line/column information in diagnostic. This option, which defaults to on, controls whether or not Clang prints the filename, line number and column number of a diagnostic. For example, when this is enabled, Clang will print something like: :: test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ // When this is disabled, Clang will not print the "test.c:28:8: " part. .. _opt_fcaret-diagnostics: **-f[no-]caret-diagnostics** Print source line and ranges from source code in diagnostic. This option, which defaults to on, controls whether or not Clang prints the source line, source ranges, and caret when emitting a diagnostic. For example, when this is enabled, Clang will print something like: :: test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ // **-f[no-]color-diagnostics** This option, which defaults to on when a color-capable terminal is detected, controls whether or not Clang prints diagnostics in color. When this option is enabled, Clang will use colors to highlight specific parts of the diagnostic, e.g., .. nasty hack to not lose our dignity .. raw:: html 
          test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens]
          #endif bad
                 ^
                 //
When this is disabled, Clang will just print: :: test.c:2:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ // **-fansi-escape-codes** Controls whether ANSI escape codes are used instead of the Windows Console API to output colored diagnostics. This option is only used on Windows and defaults to off. .. option:: -fdiagnostics-format=clang/msvc/vi Changes diagnostic output format to better match IDEs and command line tools. This option controls the output format of the filename, line number, and column printed in diagnostic messages. The options, and their affect on formatting a simple conversion diagnostic, follow: **clang** (default) :: t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' **msvc** :: t.c(3,11) : warning: conversion specifies type 'char *' but the argument has type 'int' **vi** :: t.c +3:11: warning: conversion specifies type 'char *' but the argument has type 'int' .. _opt_fdiagnostics-show-option: **-f[no-]diagnostics-show-option** Enable ``[-Woption]`` information in diagnostic line. This option, which defaults to on, controls whether or not Clang prints the associated :ref:`warning group ` option name when outputting a warning diagnostic. For example, in this output: :: test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ // Passing **-fno-diagnostics-show-option** will prevent Clang from printing the [:ref:`-Wextra-tokens `] information in the diagnostic. This information tells you the flag needed to enable or disable the diagnostic, either from the command line or through :ref:`#pragma GCC diagnostic `. .. _opt_fdiagnostics-show-category: .. option:: -fdiagnostics-show-category=none/id/name Enable printing category information in diagnostic line. This option, which defaults to "none", controls whether or not Clang prints the category associated with a diagnostic when emitting it. Each diagnostic may or many not have an associated category, if it has one, it is listed in the diagnostic categorization field of the diagnostic line (in the []'s). For example, a format string warning will produce these three renditions based on the setting of this option: :: t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' [-Wformat] t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' [-Wformat,1] t.c:3:11: warning: conversion specifies type 'char *' but the argument has type 'int' [-Wformat,Format String] This category can be used by clients that want to group diagnostics by category, so it should be a high level category. We want dozens of these, not hundreds or thousands of them. .. _opt_fsave-optimization-record: **-fsave-optimization-record** Write optimization remarks to a YAML file. This option, which defaults to off, controls whether Clang writes optimization reports to a YAML file. By recording diagnostics in a file, using a structured YAML format, users can parse or sort the remarks in a convenient way. .. _opt_foptimization-record-file: **-foptimization-record-file** Control the file to which optimization reports are written. When optimization reports are being output (see :ref:`-fsave-optimization-record `), this option controls the file to which those reports are written. If this option is not used, optimization records are output to a file named after the primary file being compiled. If that's "foo.c", for example, optimization records are output to "foo.opt.yaml". .. _opt_fdiagnostics-show-hotness: **-f[no-]diagnostics-show-hotness** Enable profile hotness information in diagnostic line. This option controls whether Clang prints the profile hotness associated with diagnostics in the presence of profile-guided optimization information. This is currently supported with optimization remarks (see :ref:`Options to Emit Optimization Reports `). The hotness information allows users to focus on the hot optimization remarks that are likely to be more relevant for run-time performance. For example, in this output, the block containing the callsite of `foo` was executed 3000 times according to the profile data: :: s.c:7:10: remark: foo inlined into bar (hotness: 3000) [-Rpass-analysis=inline] sum += foo(x, x - 2); ^ This option is implied when :ref:`-fsave-optimization-record ` is used. Otherwise, it defaults to off. .. _opt_fdiagnostics-hotness-threshold: **-fdiagnostics-hotness-threshold** Prevent optimization remarks from being output if they do not have at least this hotness value. This option, which defaults to zero, controls the minimum hotness an optimization remark would need in order to be output by Clang. This is currently supported with optimization remarks (see :ref:`Options to Emit Optimization Reports `) when profile hotness information in diagnostics is enabled (see :ref:`-fdiagnostics-show-hotness `). .. _opt_fdiagnostics-fixit-info: **-f[no-]diagnostics-fixit-info** Enable "FixIt" information in the diagnostics output. This option, which defaults to on, controls whether or not Clang prints the information on how to fix a specific diagnostic underneath it when it knows. For example, in this output: :: test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ // Passing **-fno-diagnostics-fixit-info** will prevent Clang from printing the "//" line at the end of the message. This information is useful for users who may not understand what is wrong, but can be confusing for machine parsing. .. _opt_fdiagnostics-print-source-range-info: **-fdiagnostics-print-source-range-info** Print machine parsable information about source ranges. This option makes Clang print information about source ranges in a machine parsable format after the file/line/column number information. The information is a simple sequence of brace enclosed ranges, where each range lists the start and end line/column locations. For example, in this output: :: exprs.c:47:15:{47:8-47:14}{47:17-47:24}: error: invalid operands to binary expression ('int *' and '_Complex float') P = (P-42) + Gamma*4; ~~~~~~ ^ ~~~~~~~ The {}'s are generated by -fdiagnostics-print-source-range-info. The printed column numbers count bytes from the beginning of the line; take care if your source contains multibyte characters. .. option:: -fdiagnostics-parseable-fixits Print Fix-Its in a machine parseable form. This option makes Clang print available Fix-Its in a machine parseable format at the end of diagnostics. The following example illustrates the format: :: fix-it:"t.cpp":{7:25-7:29}:"Gamma" The range printed is a half-open range, so in this example the characters at column 25 up to but not including column 29 on line 7 in t.cpp should be replaced with the string "Gamma". Either the range or the replacement string may be empty (representing strict insertions and strict erasures, respectively). Both the file name and the insertion string escape backslash (as "\\\\"), tabs (as "\\t"), newlines (as "\\n"), double quotes(as "\\"") and non-printable characters (as octal "\\xxx"). The printed column numbers count bytes from the beginning of the line; take care if your source contains multibyte characters. .. option:: -fno-elide-type Turns off elision in template type printing. The default for template type printing is to elide as many template arguments as possible, removing those which are the same in both template types, leaving only the differences. Adding this flag will print all the template arguments. If supported by the terminal, highlighting will still appear on differing arguments. Default: :: t.cc:4:5: note: candidate function not viable: no known conversion from 'vector>>' to 'vector>>' for 1st argument; -fno-elide-type: :: t.cc:4:5: note: candidate function not viable: no known conversion from 'vector>>' to 'vector>>' for 1st argument; .. option:: -fdiagnostics-show-template-tree Template type diffing prints a text tree. For diffing large templated types, this option will cause Clang to display the templates as an indented text tree, one argument per line, with differences marked inline. This is compatible with -fno-elide-type. Default: :: t.cc:4:5: note: candidate function not viable: no known conversion from 'vector>>' to 'vector>>' for 1st argument; With :option:`-fdiagnostics-show-template-tree`: :: t.cc:4:5: note: candidate function not viable: no known conversion for 1st argument; vector< map< [...], map< [float != double], [...]>>> .. _cl_diag_warning_groups: Individual Warning Groups ^^^^^^^^^^^^^^^^^^^^^^^^^ TODO: Generate this from tblgen. Define one anchor per warning group. .. _opt_wextra-tokens: .. option:: -Wextra-tokens Warn about excess tokens at the end of a preprocessor directive. This option, which defaults to on, enables warnings about extra tokens at the end of preprocessor directives. For example: :: test.c:28:8: warning: extra tokens at end of #endif directive [-Wextra-tokens] #endif bad ^ These extra tokens are not strictly conforming, and are usually best handled by commenting them out. .. option:: -Wambiguous-member-template Warn about unqualified uses of a member template whose name resolves to another template at the location of the use. This option, which defaults to on, enables a warning in the following code: :: template struct set{}; template struct trait { typedef const T& type; }; struct Value { template void set(typename trait::type value) {} }; void foo() { Value v; v.set(3.2); } C++ [basic.lookup.classref] requires this to be an error, but, because it's hard to work around, Clang downgrades it to a warning as an extension. .. option:: -Wbind-to-temporary-copy Warn about an unusable copy constructor when binding a reference to a temporary. This option enables warnings about binding a reference to a temporary when the temporary doesn't have a usable copy constructor. For example: :: struct NonCopyable { NonCopyable(); private: NonCopyable(const NonCopyable&); }; void foo(const NonCopyable&); void bar() { foo(NonCopyable()); // Disallowed in C++98; allowed in C++11. } :: struct NonCopyable2 { NonCopyable2(); NonCopyable2(NonCopyable2&); }; void foo(const NonCopyable2&); void bar() { foo(NonCopyable2()); // Disallowed in C++98; allowed in C++11. } Note that if ``NonCopyable2::NonCopyable2()`` has a default argument whose instantiation produces a compile error, that error will still be a hard error in C++98 mode even if this warning is turned off. Options to Control Clang Crash Diagnostics ------------------------------------------ As unbelievable as it may sound, Clang does crash from time to time. Generally, this only occurs to those living on the `bleeding edge `_. Clang goes to great lengths to assist you in filing a bug report. Specifically, Clang generates preprocessed source file(s) and associated run script(s) upon a crash. These files should be attached to a bug report to ease reproducibility of the failure. Below are the command line options to control the crash diagnostics. .. option:: -fno-crash-diagnostics Disable auto-generation of preprocessed source files during a clang crash. The -fno-crash-diagnostics flag can be helpful for speeding the process of generating a delta reduced test case. Clang is also capable of generating preprocessed source file(s) and associated run script(s) even without a crash. This is specially useful when trying to generate a reproducer for warnings or errors while using modules. .. option:: -gen-reproducer Generates preprocessed source files, a reproducer script and if relevant, a cache containing: built module pcm's and all headers needed to rebuilt the same modules. .. _rpass: Options to Emit Optimization Reports ------------------------------------ Optimization reports trace, at a high-level, all the major decisions done by compiler transformations. For instance, when the inliner decides to inline function ``foo()`` into ``bar()``, or the loop unroller decides to unroll a loop N times, or the vectorizer decides to vectorize a loop body. Clang offers a family of flags which the optimizers can use to emit a diagnostic in three cases: 1. When the pass makes a transformation (`-Rpass`). 2. When the pass fails to make a transformation (`-Rpass-missed`). 3. When the pass determines whether or not to make a transformation (`-Rpass-analysis`). NOTE: Although the discussion below focuses on `-Rpass`, the exact same options apply to `-Rpass-missed` and `-Rpass-analysis`. Since there are dozens of passes inside the compiler, each of these flags take a regular expression that identifies the name of the pass which should emit the associated diagnostic. For example, to get a report from the inliner, compile the code with: .. code-block:: console $ clang -O2 -Rpass=inline code.cc -o code code.cc:4:25: remark: foo inlined into bar [-Rpass=inline] int bar(int j) { return foo(j, j - 2); } ^ Note that remarks from the inliner are identified with `[-Rpass=inline]`. To request a report from every optimization pass, you should use `-Rpass=.*` (in fact, you can use any valid POSIX regular expression). However, do not expect a report from every transformation made by the compiler. Optimization remarks do not really make sense outside of the major transformations (e.g., inlining, vectorization, loop optimizations) and not every optimization pass supports this feature. Note that when using profile-guided optimization information, profile hotness information can be included in the remarks (see :ref:`-fdiagnostics-show-hotness `). Current limitations ^^^^^^^^^^^^^^^^^^^ 1. Optimization remarks that refer to function names will display the mangled name of the function. Since these remarks are emitted by the back end of the compiler, it does not know anything about the input language, nor its mangling rules. 2. Some source locations are not displayed correctly. The front end has a more detailed source location tracking than the locations included in the debug info (e.g., the front end can locate code inside macro expansions). However, the locations used by `-Rpass` are translated from debug annotations. That translation can be lossy, which results in some remarks having no location information. Other Options ------------- Clang options that don't fit neatly into other categories. .. option:: -MV When emitting a dependency file, use formatting conventions appropriate for NMake or Jom. Ignored unless another option causes Clang to emit a dependency file. When Clang emits a dependency file (e.g., you supplied the -M option) most filenames can be written to the file without any special formatting. Different Make tools will treat different sets of characters as "special" and use different conventions for telling the Make tool that the character is actually part of the filename. Normally Clang uses backslash to "escape" a special character, which is the convention used by GNU Make. The -MV option tells Clang to put double-quotes around the entire filename, which is the convention used by NMake and Jom. Configuration files ------------------- Configuration files group command-line options and allow all of them to be specified just by referencing the configuration file. They may be used, for example, to collect options required to tune compilation for particular target, such as -L, -I, -l, --sysroot, codegen options, etc. The command line option `--config` can be used to specify configuration file in a Clang invocation. For example: :: clang --config /home/user/cfgs/testing.txt clang --config debug.cfg If the provided argument contains a directory separator, it is considered as a file path, and options are read from that file. Otherwise the argument is treated as a file name and is searched for sequentially in the directories: - user directory, - system directory, - the directory where Clang executable resides. Both user and system directories for configuration files are specified during clang build using CMake parameters, CLANG_CONFIG_FILE_USER_DIR and CLANG_CONFIG_FILE_SYSTEM_DIR respectively. The first file found is used. It is an error if the required file cannot be found. Another way to specify a configuration file is to encode it in executable name. For example, if the Clang executable is named `armv7l-clang` (it may be a symbolic link to `clang`), then Clang will search for file `armv7l.cfg` in the directory where Clang resides. If a driver mode is specified in invocation, Clang tries to find a file specific for the specified mode. For example, if the executable file is named `x86_64-clang-cl`, Clang first looks for `x86_64-cl.cfg` and if it is not found, looks for `x86_64.cfg`. If the command line contains options that effectively change target architecture (these are -m32, -EL, and some others) and the configuration file starts with an architecture name, Clang tries to load the configuration file for the effective architecture. For example, invocation: :: x86_64-clang -m32 abc.c causes Clang search for a file `i368.cfg` first, and if no such file is found, Clang looks for the file `x86_64.cfg`. The configuration file consists of command-line options specified on one or more lines. Lines composed of whitespace characters only are ignored as well as lines in which the first non-blank character is `#`. Long options may be split between several lines by a trailing backslash. Here is example of a configuration file: :: # Several options on line -c --target=x86_64-unknown-linux-gnu # Long option split between lines -I/usr/lib/gcc/x86_64-linux-gnu/5.4.0/../../../../\ include/c++/5.4.0 # other config files may be included @linux.options Files included by `@file` directives in configuration files are resolved relative to the including file. For example, if a configuration file `~/.llvm/target.cfg` contains the directive `@os/linux.opts`, the file `linux.opts` is searched for in the directory `~/.llvm/os`. Language and Target-Independent Features ======================================== Controlling Errors and Warnings ------------------------------- Clang provides a number of ways to control which code constructs cause it to emit errors and warning messages, and how they are displayed to the console. Controlling How Clang Displays Diagnostics ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ When Clang emits a diagnostic, it includes rich information in the output, and gives you fine-grain control over which information is printed. Clang has the ability to print this information, and these are the options that control it: #. A file/line/column indicator that shows exactly where the diagnostic occurs in your code [:ref:`-fshow-column `, :ref:`-fshow-source-location `]. #. A categorization of the diagnostic as a note, warning, error, or fatal error. #. A text string that describes what the problem is. #. An option that indicates how to control the diagnostic (for diagnostics that support it) [:ref:`-fdiagnostics-show-option `]. #. A :ref:`high-level category ` for the diagnostic for clients that want to group diagnostics by class (for diagnostics that support it) [:ref:`-fdiagnostics-show-category `]. #. The line of source code that the issue occurs on, along with a caret and ranges that indicate the important locations [:ref:`-fcaret-diagnostics `]. #. "FixIt" information, which is a concise explanation of how to fix the problem (when Clang is certain it knows) [:ref:`-fdiagnostics-fixit-info `]. #. A machine-parsable representation of the ranges involved (off by default) [:ref:`-fdiagnostics-print-source-range-info `]. For more information please see :ref:`Formatting of Diagnostics `. Diagnostic Mappings ^^^^^^^^^^^^^^^^^^^ All diagnostics are mapped into one of these 6 classes: - Ignored - Note - Remark - Warning - Error - Fatal .. _diagnostics_categories: Diagnostic Categories ^^^^^^^^^^^^^^^^^^^^^ Though not shown by default, diagnostics may each be associated with a high-level category. This category is intended to make it possible to triage builds that produce a large number of errors or warnings in a grouped way. Categories are not shown by default, but they can be turned on with the :ref:`-fdiagnostics-show-category ` option. When set to "``name``", the category is printed textually in the diagnostic output. When it is set to "``id``", a category number is printed. The mapping of category names to category id's can be obtained by running '``clang --print-diagnostic-categories``'. Controlling Diagnostics via Command Line Flags ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ TODO: -W flags, -pedantic, etc .. _pragma_gcc_diagnostic: Controlling Diagnostics via Pragmas ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Clang can also control what diagnostics are enabled through the use of pragmas in the source code. This is useful for turning off specific warnings in a section of source code. Clang supports GCC's pragma for compatibility with existing source code, as well as several extensions. The pragma may control any warning that can be used from the command line. Warnings may be set to ignored, warning, error, or fatal. The following example code will tell Clang or GCC to ignore the -Wall warnings: .. code-block:: c #pragma GCC diagnostic ignored "-Wall" In addition to all of the functionality provided by GCC's pragma, Clang also allows you to push and pop the current warning state. This is particularly useful when writing a header file that will be compiled by other people, because you don't know what warning flags they build with. In the below example :option:`-Wextra-tokens` is ignored for only a single line of code, after which the diagnostics return to whatever state had previously existed. .. code-block:: c #if foo #endif foo // warning: extra tokens at end of #endif directive #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wextra-tokens" #if foo #endif foo // no warning #pragma clang diagnostic pop The push and pop pragmas will save and restore the full diagnostic state of the compiler, regardless of how it was set. That means that it is possible to use push and pop around GCC compatible diagnostics and Clang will push and pop them appropriately, while GCC will ignore the pushes and pops as unknown pragmas. It should be noted that while Clang supports the GCC pragma, Clang and GCC do not support the exact same set of warnings, so even when using GCC compatible #pragmas there is no guarantee that they will have identical behaviour on both compilers. In addition to controlling warnings and errors generated by the compiler, it is possible to generate custom warning and error messages through the following pragmas: .. code-block:: c // The following will produce warning messages #pragma message "some diagnostic message" #pragma GCC warning "TODO: replace deprecated feature" // The following will produce an error message #pragma GCC error "Not supported" These pragmas operate similarly to the ``#warning`` and ``#error`` preprocessor directives, except that they may also be embedded into preprocessor macros via the C99 ``_Pragma`` operator, for example: .. code-block:: c #define STR(X) #X #define DEFER(M,...) M(__VA_ARGS__) #define CUSTOM_ERROR(X) _Pragma(STR(GCC error(X " at line " DEFER(STR,__LINE__)))) CUSTOM_ERROR("Feature not available"); Controlling Diagnostics in System Headers ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Warnings are suppressed when they occur in system headers. By default, an included file is treated as a system header if it is found in an include path specified by ``-isystem``, but this can be overridden in several ways. The ``system_header`` pragma can be used to mark the current file as being a system header. No warnings will be produced from the location of the pragma onwards within the same file. .. code-block:: c #if foo #endif foo // warning: extra tokens at end of #endif directive #pragma clang system_header #if foo #endif foo // no warning The `--system-header-prefix=` and `--no-system-header-prefix=` command-line arguments can be used to override whether subsets of an include path are treated as system headers. When the name in a ``#include`` directive is found within a header search path and starts with a system prefix, the header is treated as a system header. The last prefix on the command-line which matches the specified header name takes precedence. For instance: .. code-block:: console $ clang -Ifoo -isystem bar --system-header-prefix=x/ \ --no-system-header-prefix=x/y/ Here, ``#include "x/a.h"`` is treated as including a system header, even if the header is found in ``foo``, and ``#include "x/y/b.h"`` is treated as not including a system header, even if the header is found in ``bar``. A ``#include`` directive which finds a file relative to the current directory is treated as including a system header if the including file is treated as a system header. .. _diagnostics_enable_everything: Enabling All Diagnostics ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In addition to the traditional ``-W`` flags, one can enable **all** diagnostics by passing :option:`-Weverything`. This works as expected with :option:`-Werror`, and also includes the warnings from :option:`-pedantic`. Note that when combined with :option:`-w` (which disables all warnings), that flag wins. Controlling Static Analyzer Diagnostics ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ While not strictly part of the compiler, the diagnostics from Clang's `static analyzer `_ can also be influenced by the user via changes to the source code. See the available `annotations `_ and the analyzer's `FAQ page `_ for more information. .. _usersmanual-precompiled-headers: Precompiled Headers ------------------- `Precompiled headers `__ are a general approach employed by many compilers to reduce compilation time. The underlying motivation of the approach is that it is common for the same (and often large) header files to be included by multiple source files. Consequently, compile times can often be greatly improved by caching some of the (redundant) work done by a compiler to process headers. Precompiled header files, which represent one of many ways to implement this optimization, are literally files that represent an on-disk cache that contains the vital information necessary to reduce some of the work needed to process a corresponding header file. While details of precompiled headers vary between compilers, precompiled headers have been shown to be highly effective at speeding up program compilation on systems with very large system headers (e.g., Mac OS X). Generating a PCH File ^^^^^^^^^^^^^^^^^^^^^ To generate a PCH file using Clang, one invokes Clang with the `-x -header` option. This mirrors the interface in GCC for generating PCH files: .. code-block:: console $ gcc -x c-header test.h -o test.h.gch $ clang -x c-header test.h -o test.h.pch Using a PCH File ^^^^^^^^^^^^^^^^ A PCH file can then be used as a prefix header when a :option:`-include` option is passed to ``clang``: .. code-block:: console $ clang -include test.h test.c -o test The ``clang`` driver will first check if a PCH file for ``test.h`` is available; if so, the contents of ``test.h`` (and the files it includes) will be processed from the PCH file. Otherwise, Clang falls back to directly processing the content of ``test.h``. This mirrors the behavior of GCC. .. note:: Clang does *not* automatically use PCH files for headers that are directly included within a source file. For example: .. code-block:: console $ clang -x c-header test.h -o test.h.pch $ cat test.c #include "test.h" $ clang test.c -o test In this example, ``clang`` will not automatically use the PCH file for ``test.h`` since ``test.h`` was included directly in the source file and not specified on the command line using :option:`-include`. Relocatable PCH Files ^^^^^^^^^^^^^^^^^^^^^ It is sometimes necessary to build a precompiled header from headers that are not yet in their final, installed locations. For example, one might build a precompiled header within the build tree that is then meant to be installed alongside the headers. Clang permits the creation of "relocatable" precompiled headers, which are built with a given path (into the build directory) and can later be used from an installed location. To build a relocatable precompiled header, place your headers into a subdirectory whose structure mimics the installed location. For example, if you want to build a precompiled header for the header ``mylib.h`` that will be installed into ``/usr/include``, create a subdirectory ``build/usr/include`` and place the header ``mylib.h`` into that subdirectory. If ``mylib.h`` depends on other headers, then they can be stored within ``build/usr/include`` in a way that mimics the installed location. Building a relocatable precompiled header requires two additional arguments. First, pass the ``--relocatable-pch`` flag to indicate that the resulting PCH file should be relocatable. Second, pass `-isysroot /path/to/build`, which makes all includes for your library relative to the build directory. For example: .. code-block:: console # clang -x c-header --relocatable-pch -isysroot /path/to/build /path/to/build/mylib.h mylib.h.pch When loading the relocatable PCH file, the various headers used in the PCH file are found from the system header root. For example, ``mylib.h`` can be found in ``/usr/include/mylib.h``. If the headers are installed in some other system root, the `-isysroot` option can be used provide a different system root from which the headers will be based. For example, `-isysroot /Developer/SDKs/MacOSX10.4u.sdk` will look for ``mylib.h`` in ``/Developer/SDKs/MacOSX10.4u.sdk/usr/include/mylib.h``. Relocatable precompiled headers are intended to be used in a limited number of cases where the compilation environment is tightly controlled and the precompiled header cannot be generated after headers have been installed. .. _controlling-code-generation: Controlling Code Generation --------------------------- Clang provides a number of ways to control code generation. The options are listed below. **-f[no-]sanitize=check1,check2,...** Turn on runtime checks for various forms of undefined or suspicious behavior. This option controls whether Clang adds runtime checks for various forms of undefined or suspicious behavior, and is disabled by default. If a check fails, a diagnostic message is produced at runtime explaining the problem. The main checks are: - .. _opt_fsanitize_address: ``-fsanitize=address``: :doc:`AddressSanitizer`, a memory error detector. - .. _opt_fsanitize_thread: ``-fsanitize=thread``: :doc:`ThreadSanitizer`, a data race detector. - .. _opt_fsanitize_memory: ``-fsanitize=memory``: :doc:`MemorySanitizer`, a detector of uninitialized reads. Requires instrumentation of all program code. - .. _opt_fsanitize_undefined: ``-fsanitize=undefined``: :doc:`UndefinedBehaviorSanitizer`, a fast and compatible undefined behavior checker. - ``-fsanitize=dataflow``: :doc:`DataFlowSanitizer`, a general data flow analysis. - ``-fsanitize=cfi``: :doc:`control flow integrity ` checks. Requires ``-flto``. - ``-fsanitize=safe-stack``: :doc:`safe stack ` protection against stack-based memory corruption errors. There are more fine-grained checks available: see the :ref:`list ` of specific kinds of undefined behavior that can be detected and the :ref:`list ` of control flow integrity schemes. The ``-fsanitize=`` argument must also be provided when linking, in order to link to the appropriate runtime library. It is not possible to combine more than one of the ``-fsanitize=address``, ``-fsanitize=thread``, and ``-fsanitize=memory`` checkers in the same program. **-f[no-]sanitize-recover=check1,check2,...** **-f[no-]sanitize-recover=all** Controls which checks enabled by ``-fsanitize=`` flag are non-fatal. If the check is fatal, program will halt after the first error of this kind is detected and error report is printed. By default, non-fatal checks are those enabled by :doc:`UndefinedBehaviorSanitizer`, except for ``-fsanitize=return`` and ``-fsanitize=unreachable``. Some sanitizers may not support recovery (or not support it by default e.g. :doc:`AddressSanitizer`), and always crash the program after the issue is detected. Note that the ``-fsanitize-trap`` flag has precedence over this flag. This means that if a check has been configured to trap elsewhere on the command line, or if the check traps by default, this flag will not have any effect unless that sanitizer's trapping behavior is disabled with ``-fno-sanitize-trap``. For example, if a command line contains the flags ``-fsanitize=undefined -fsanitize-trap=undefined``, the flag ``-fsanitize-recover=alignment`` will have no effect on its own; it will need to be accompanied by ``-fno-sanitize-trap=alignment``. **-f[no-]sanitize-trap=check1,check2,...** Controls which checks enabled by the ``-fsanitize=`` flag trap. This option is intended for use in cases where the sanitizer runtime cannot be used (for instance, when building libc or a kernel module), or where the binary size increase caused by the sanitizer runtime is a concern. This flag is only compatible with :doc:`control flow integrity ` schemes and :doc:`UndefinedBehaviorSanitizer` checks other than ``vptr``. If this flag is supplied together with ``-fsanitize=undefined``, the ``vptr`` sanitizer will be implicitly disabled. This flag is enabled by default for sanitizers in the ``cfi`` group. .. option:: -fsanitize-blacklist=/path/to/blacklist/file Disable or modify sanitizer checks for objects (source files, functions, variables, types) listed in the file. See :doc:`SanitizerSpecialCaseList` for file format description. .. option:: -fno-sanitize-blacklist Don't use blacklist file, if it was specified earlier in the command line. **-f[no-]sanitize-coverage=[type,features,...]** Enable simple code coverage in addition to certain sanitizers. See :doc:`SanitizerCoverage` for more details. **-f[no-]sanitize-stats** Enable simple statistics gathering for the enabled sanitizers. See :doc:`SanitizerStats` for more details. .. option:: -fsanitize-undefined-trap-on-error Deprecated alias for ``-fsanitize-trap=undefined``. .. option:: -fsanitize-cfi-cross-dso Enable cross-DSO control flow integrity checks. This flag modifies the behavior of sanitizers in the ``cfi`` group to allow checking of cross-DSO virtual and indirect calls. .. option:: -fsanitize-cfi-icall-generalize-pointers Generalize pointers in return and argument types in function type signatures checked by Control Flow Integrity indirect call checking. See :doc:`ControlFlowIntegrity` for more details. .. option:: -fstrict-vtable-pointers Enable optimizations based on the strict rules for overwriting polymorphic C++ objects, i.e. the vptr is invariant during an object's lifetime. This enables better devirtualization. Turned off by default, because it is still experimental. .. option:: -ffast-math Enable fast-math mode. This defines the ``__FAST_MATH__`` preprocessor macro, and lets the compiler make aggressive, potentially-lossy assumptions about floating-point math. These include: * Floating-point math obeys regular algebraic rules for real numbers (e.g. ``+`` and ``*`` are associative, ``x/y == x * (1/y)``, and ``(a + b) * c == a * c + b * c``), * operands to floating-point operations are not equal to ``NaN`` and ``Inf``, and * ``+0`` and ``-0`` are interchangeable. .. option:: -fdenormal-fp-math=[values] Select which denormal numbers the code is permitted to require. Valid values are: ``ieee``, ``preserve-sign``, and ``positive-zero``, which correspond to IEEE 754 denormal numbers, the sign of a flushed-to-zero number is preserved in the sign of 0, denormals are flushed to positive zero, respectively. .. option:: -fwhole-program-vtables Enable whole-program vtable optimizations, such as single-implementation devirtualization and virtual constant propagation, for classes with :doc:`hidden LTO visibility `. Requires ``-flto``. .. option:: -fno-assume-sane-operator-new Don't assume that the C++'s new operator is sane. This option tells the compiler to do not assume that C++'s global new operator will always return a pointer that does not alias any other pointer when the function returns. .. option:: -ftrap-function=[name] Instruct code generator to emit a function call to the specified function name for ``__builtin_trap()``. LLVM code generator translates ``__builtin_trap()`` to a trap instruction if it is supported by the target ISA. Otherwise, the builtin is translated into a call to ``abort``. If this option is set, then the code generator will always lower the builtin to a call to the specified function regardless of whether the target ISA has a trap instruction. This option is useful for environments (e.g. deeply embedded) where a trap cannot be properly handled, or when some custom behavior is desired. .. option:: -ftls-model=[model] Select which TLS model to use. Valid values are: ``global-dynamic``, ``local-dynamic``, ``initial-exec`` and ``local-exec``. The default value is ``global-dynamic``. The compiler may use a different model if the selected model is not supported by the target, or if a more efficient model can be used. The TLS model can be overridden per variable using the ``tls_model`` attribute. .. option:: -femulated-tls Select emulated TLS model, which overrides all -ftls-model choices. In emulated TLS mode, all access to TLS variables are converted to calls to __emutls_get_address in the runtime library. .. option:: -mhwdiv=[values] Select the ARM modes (arm or thumb) that support hardware division instructions. Valid values are: ``arm``, ``thumb`` and ``arm,thumb``. This option is used to indicate which mode (arm or thumb) supports hardware division instructions. This only applies to the ARM architecture. .. option:: -m[no-]crc Enable or disable CRC instructions. This option is used to indicate whether CRC instructions are to be generated. This only applies to the ARM architecture. CRC instructions are enabled by default on ARMv8. .. option:: -mgeneral-regs-only Generate code which only uses the general purpose registers. This option restricts the generated code to use general registers only. This only applies to the AArch64 architecture. .. option:: -mcompact-branches=[values] Control the usage of compact branches for MIPSR6. Valid values are: ``never``, ``optimal`` and ``always``. The default value is ``optimal`` which generates compact branches when a delay slot cannot be filled. ``never`` disables the usage of compact branches and ``always`` generates compact branches whenever possible. **-f[no-]max-type-align=[number]** Instruct the code generator to not enforce a higher alignment than the given number (of bytes) when accessing memory via an opaque pointer or reference. This cap is ignored when directly accessing a variable or when the pointee type has an explicit “aligned” attribute. The value should usually be determined by the properties of the system allocator. Some builtin types, especially vector types, have very high natural alignments; when working with values of those types, Clang usually wants to use instructions that take advantage of that alignment. However, many system allocators do not promise to return memory that is more than 8-byte or 16-byte-aligned. Use this option to limit the alignment that the compiler can assume for an arbitrary pointer, which may point onto the heap. This option does not affect the ABI alignment of types; the layout of structs and unions and the value returned by the alignof operator remain the same. This option can be overridden on a case-by-case basis by putting an explicit “aligned” alignment on a struct, union, or typedef. For example: .. code-block:: console #include // Make an aligned typedef of the AVX-512 16-int vector type. typedef __v16si __aligned_v16si __attribute__((aligned(64))); void initialize_vector(__aligned_v16si *v) { // The compiler may assume that ‘v’ is 64-byte aligned, regardless of the // value of -fmax-type-align. } Profile Guided Optimization --------------------------- Profile information enables better optimization. For example, knowing that a branch is taken very frequently helps the compiler make better decisions when ordering basic blocks. Knowing that a function ``foo`` is called more frequently than another function ``bar`` helps the inliner. Clang supports profile guided optimization with two different kinds of profiling. A sampling profiler can generate a profile with very low runtime overhead, or you can build an instrumented version of the code that collects more detailed profile information. Both kinds of profiles can provide execution counts for instructions in the code and information on branches taken and function invocation. Regardless of which kind of profiling you use, be careful to collect profiles by running your code with inputs that are representative of the typical behavior. Code that is not exercised in the profile will be optimized as if it is unimportant, and the compiler may make poor optimization choices for code that is disproportionately used while profiling. Differences Between Sampling and Instrumentation ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Although both techniques are used for similar purposes, there are important differences between the two: 1. Profile data generated with one cannot be used by the other, and there is no conversion tool that can convert one to the other. So, a profile generated via ``-fprofile-instr-generate`` must be used with ``-fprofile-instr-use``. Similarly, sampling profiles generated by external profilers must be converted and used with ``-fprofile-sample-use``. 2. Instrumentation profile data can be used for code coverage analysis and optimization. 3. Sampling profiles can only be used for optimization. They cannot be used for code coverage analysis. Although it would be technically possible to use sampling profiles for code coverage, sample-based profiles are too coarse-grained for code coverage purposes; it would yield poor results. 4. Sampling profiles must be generated by an external tool. The profile generated by that tool must then be converted into a format that can be read by LLVM. The section on sampling profilers describes one of the supported sampling profile formats. Using Sampling Profilers ^^^^^^^^^^^^^^^^^^^^^^^^ Sampling profilers are used to collect runtime information, such as hardware counters, while your application executes. They are typically very efficient and do not incur a large runtime overhead. The sample data collected by the profiler can be used during compilation to determine what the most executed areas of the code are. Using the data from a sample profiler requires some changes in the way a program is built. Before the compiler can use profiling information, the code needs to execute under the profiler. The following is the usual build cycle when using sample profilers for optimization: 1. Build the code with source line table information. You can use all the usual build flags that you always build your application with. The only requirement is that you add ``-gline-tables-only`` or ``-g`` to the command line. This is important for the profiler to be able to map instructions back to source line locations. .. code-block:: console $ clang++ -O2 -gline-tables-only code.cc -o code 2. Run the executable under a sampling profiler. The specific profiler you use does not really matter, as long as its output can be converted into the format that the LLVM optimizer understands. Currently, there exists a conversion tool for the Linux Perf profiler (https://perf.wiki.kernel.org/), so these examples assume that you are using Linux Perf to profile your code. .. code-block:: console $ perf record -b ./code Note the use of the ``-b`` flag. This tells Perf to use the Last Branch Record (LBR) to record call chains. While this is not strictly required, it provides better call information, which improves the accuracy of the profile data. 3. Convert the collected profile data to LLVM's sample profile format. This is currently supported via the AutoFDO converter ``create_llvm_prof``. It is available at http://github.com/google/autofdo. Once built and installed, you can convert the ``perf.data`` file to LLVM using the command: .. code-block:: console $ create_llvm_prof --binary=./code --out=code.prof This will read ``perf.data`` and the binary file ``./code`` and emit the profile data in ``code.prof``. Note that if you ran ``perf`` without the ``-b`` flag, you need to use ``--use_lbr=false`` when calling ``create_llvm_prof``. 4. Build the code again using the collected profile. This step feeds the profile back to the optimizers. This should result in a binary that executes faster than the original one. Note that you are not required to build the code with the exact same arguments that you used in the first step. The only requirement is that you build the code with ``-gline-tables-only`` and ``-fprofile-sample-use``. .. code-block:: console $ clang++ -O2 -gline-tables-only -fprofile-sample-use=code.prof code.cc -o code Sample Profile Formats """""""""""""""""""""" Since external profilers generate profile data in a variety of custom formats, the data generated by the profiler must be converted into a format that can be read by the backend. LLVM supports three different sample profile formats: 1. ASCII text. This is the easiest one to generate. The file is divided into sections, which correspond to each of the functions with profile information. The format is described below. It can also be generated from the binary or gcov formats using the ``llvm-profdata`` tool. 2. Binary encoding. This uses a more efficient encoding that yields smaller profile files. This is the format generated by the ``create_llvm_prof`` tool in http://github.com/google/autofdo. 3. GCC encoding. This is based on the gcov format, which is accepted by GCC. It is only interesting in environments where GCC and Clang co-exist. This encoding is only generated by the ``create_gcov`` tool in http://github.com/google/autofdo. It can be read by LLVM and ``llvm-profdata``, but it cannot be generated by either. If you are using Linux Perf to generate sampling profiles, you can use the conversion tool ``create_llvm_prof`` described in the previous section. Otherwise, you will need to write a conversion tool that converts your profiler's native format into one of these three. Sample Profile Text Format """""""""""""""""""""""""" This section describes the ASCII text format for sampling profiles. It is, arguably, the easiest one to generate. If you are interested in generating any of the other two, consult the ``ProfileData`` library in LLVM's source tree (specifically, ``include/llvm/ProfileData/SampleProfReader.h``). .. code-block:: console function1:total_samples:total_head_samples offset1[.discriminator]: number_of_samples [fn1:num fn2:num ... ] offset2[.discriminator]: number_of_samples [fn3:num fn4:num ... ] ... offsetN[.discriminator]: number_of_samples [fn5:num fn6:num ... ] offsetA[.discriminator]: fnA:num_of_total_samples offsetA1[.discriminator]: number_of_samples [fn7:num fn8:num ... ] offsetA1[.discriminator]: number_of_samples [fn9:num fn10:num ... ] offsetB[.discriminator]: fnB:num_of_total_samples offsetB1[.discriminator]: number_of_samples [fn11:num fn12:num ... ] This is a nested tree in which the indentation represents the nesting level of the inline stack. There are no blank lines in the file. And the spacing within a single line is fixed. Additional spaces will result in an error while reading the file. Any line starting with the '#' character is completely ignored. Inlined calls are represented with indentation. The Inline stack is a stack of source locations in which the top of the stack represents the leaf function, and the bottom of the stack represents the actual symbol to which the instruction belongs. Function names must be mangled in order for the profile loader to match them in the current translation unit. The two numbers in the function header specify how many total samples were accumulated in the function (first number), and the total number of samples accumulated in the prologue of the function (second number). This head sample count provides an indicator of how frequently the function is invoked. There are two types of lines in the function body. - Sampled line represents the profile information of a source location. ``offsetN[.discriminator]: number_of_samples [fn5:num fn6:num ... ]`` - Callsite line represents the profile information of an inlined callsite. ``offsetA[.discriminator]: fnA:num_of_total_samples`` Each sampled line may contain several items. Some are optional (marked below): a. Source line offset. This number represents the line number in the function where the sample was collected. The line number is always relative to the line where symbol of the function is defined. So, if the function has its header at line 280, the offset 13 is at line 293 in the file. Note that this offset should never be a negative number. This could happen in cases like macros. The debug machinery will register the line number at the point of macro expansion. So, if the macro was expanded in a line before the start of the function, the profile converter should emit a 0 as the offset (this means that the optimizers will not be able to associate a meaningful weight to the instructions in the macro). b. [OPTIONAL] Discriminator. This is used if the sampled program was compiled with DWARF discriminator support (http://wiki.dwarfstd.org/index.php?title=Path_Discriminators). DWARF discriminators are unsigned integer values that allow the compiler to distinguish between multiple execution paths on the same source line location. For example, consider the line of code ``if (cond) foo(); else bar();``. If the predicate ``cond`` is true 80% of the time, then the edge into function ``foo`` should be considered to be taken most of the time. But both calls to ``foo`` and ``bar`` are at the same source line, so a sample count at that line is not sufficient. The compiler needs to know which part of that line is taken more frequently. This is what discriminators provide. In this case, the calls to ``foo`` and ``bar`` will be at the same line, but will have different discriminator values. This allows the compiler to correctly set edge weights into ``foo`` and ``bar``. c. Number of samples. This is an integer quantity representing the number of samples collected by the profiler at this source location. d. [OPTIONAL] Potential call targets and samples. If present, this line contains a call instruction. This models both direct and number of samples. For example, .. code-block:: console 130: 7 foo:3 bar:2 baz:7 The above means that at relative line offset 130 there is a call instruction that calls one of ``foo()``, ``bar()`` and ``baz()``, with ``baz()`` being the relatively more frequently called target. As an example, consider a program with the call chain ``main -> foo -> bar``. When built with optimizations enabled, the compiler may inline the calls to ``bar`` and ``foo`` inside ``main``. The generated profile could then be something like this: .. code-block:: console main:35504:0 1: _Z3foov:35504 2: _Z32bari:31977 1.1: 31977 2: 0 This profile indicates that there were a total of 35,504 samples collected in main. All of those were at line 1 (the call to ``foo``). Of those, 31,977 were spent inside the body of ``bar``. The last line of the profile (``2: 0``) corresponds to line 2 inside ``main``. No samples were collected there. Profiling with Instrumentation ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Clang also supports profiling via instrumentation. This requires building a special instrumented version of the code and has some runtime overhead during the profiling, but it provides more detailed results than a sampling profiler. It also provides reproducible results, at least to the extent that the code behaves consistently across runs. Here are the steps for using profile guided optimization with instrumentation: 1. Build an instrumented version of the code by compiling and linking with the ``-fprofile-instr-generate`` option. .. code-block:: console $ clang++ -O2 -fprofile-instr-generate code.cc -o code 2. Run the instrumented executable with inputs that reflect the typical usage. By default, the profile data will be written to a ``default.profraw`` file in the current directory. You can override that default by using option ``-fprofile-instr-generate=`` or by setting the ``LLVM_PROFILE_FILE`` environment variable to specify an alternate file. If non-default file name is specified by both the environment variable and the command line option, the environment variable takes precedence. The file name pattern specified can include different modifiers: ``%p``, ``%h``, and ``%m``. Any instance of ``%p`` in that file name will be replaced by the process ID, so that you can easily distinguish the profile output from multiple runs. .. code-block:: console $ LLVM_PROFILE_FILE="code-%p.profraw" ./code The modifier ``%h`` can be used in scenarios where the same instrumented binary is run in multiple different host machines dumping profile data to a shared network based storage. The ``%h`` specifier will be substituted with the hostname so that profiles collected from different hosts do not clobber each other. While the use of ``%p`` specifier can reduce the likelihood for the profiles dumped from different processes to clobber each other, such clobbering can still happen because of the ``pid`` re-use by the OS. Another side-effect of using ``%p`` is that the storage requirement for raw profile data files is greatly increased. To avoid issues like this, the ``%m`` specifier can used in the profile name. When this specifier is used, the profiler runtime will substitute ``%m`` with a unique integer identifier associated with the instrumented binary. Additionally, multiple raw profiles dumped from different processes that share a file system (can be on different hosts) will be automatically merged by the profiler runtime during the dumping. If the program links in multiple instrumented shared libraries, each library will dump the profile data into its own profile data file (with its unique integer id embedded in the profile name). Note that the merging enabled by ``%m`` is for raw profile data generated by profiler runtime. The resulting merged "raw" profile data file still needs to be converted to a different format expected by the compiler ( see step 3 below). .. code-block:: console $ LLVM_PROFILE_FILE="code-%m.profraw" ./code 3. Combine profiles from multiple runs and convert the "raw" profile format to the input expected by clang. Use the ``merge`` command of the ``llvm-profdata`` tool to do this. .. code-block:: console $ llvm-profdata merge -output=code.profdata code-*.profraw Note that this step is necessary even when there is only one "raw" profile, since the merge operation also changes the file format. 4. Build the code again using the ``-fprofile-instr-use`` option to specify the collected profile data. .. code-block:: console $ clang++ -O2 -fprofile-instr-use=code.profdata code.cc -o code You can repeat step 4 as often as you like without regenerating the profile. As you make changes to your code, clang may no longer be able to use the profile data. It will warn you when this happens. Profile generation using an alternative instrumentation method can be controlled by the GCC-compatible flags ``-fprofile-generate`` and ``-fprofile-use``. Although these flags are semantically equivalent to their GCC counterparts, they *do not* handle GCC-compatible profiles. They are only meant to implement GCC's semantics with respect to profile creation and use. .. option:: -fprofile-generate[=] The ``-fprofile-generate`` and ``-fprofile-generate=`` flags will use an alterantive instrumentation method for profile generation. When given a directory name, it generates the profile file ``default_%m.profraw`` in the directory named ``dirname`` if specified. If ``dirname`` does not exist, it will be created at runtime. ``%m`` specifier will be substibuted with a unique id documented in step 2 above. In other words, with ``-fprofile-generate[=]`` option, the "raw" profile data automatic merging is turned on by default, so there will no longer any risk of profile clobbering from different running processes. For example, .. code-block:: console $ clang++ -O2 -fprofile-generate=yyy/zzz code.cc -o code When ``code`` is executed, the profile will be written to the file ``yyy/zzz/default_xxxx.profraw``. To generate the profile data file with the compiler readable format, the ``llvm-profdata`` tool can be used with the profile directory as the input: .. code-block:: console $ llvm-profdata merge -output=code.profdata yyy/zzz/ If the user wants to turn off the auto-merging feature, or simply override the the profile dumping path specified at command line, the environment variable ``LLVM_PROFILE_FILE`` can still be used to override the directory and filename for the profile file at runtime. .. option:: -fprofile-use[=] Without any other arguments, ``-fprofile-use`` behaves identically to ``-fprofile-instr-use``. Otherwise, if ``pathname`` is the full path to a profile file, it reads from that file. If ``pathname`` is a directory name, it reads from ``pathname/default.profdata``. Disabling Instrumentation ^^^^^^^^^^^^^^^^^^^^^^^^^ In certain situations, it may be useful to disable profile generation or use for specific files in a build, without affecting the main compilation flags used for the other files in the project. In these cases, you can use the flag ``-fno-profile-instr-generate`` (or ``-fno-profile-generate``) to disable profile generation, and ``-fno-profile-instr-use`` (or ``-fno-profile-use``) to disable profile use. Note that these flags should appear after the corresponding profile flags to have an effect. Controlling Debug Information ----------------------------- Controlling Size of Debug Information ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Debug info kind generated by Clang can be set by one of the flags listed below. If multiple flags are present, the last one is used. .. option:: -g0 Don't generate any debug info (default). .. option:: -gline-tables-only Generate line number tables only. This kind of debug info allows to obtain stack traces with function names, file names and line numbers (by such tools as ``gdb`` or ``addr2line``). It doesn't contain any other data (e.g. description of local variables or function parameters). .. option:: -fstandalone-debug Clang supports a number of optimizations to reduce the size of debug information in the binary. They work based on the assumption that the debug type information can be spread out over multiple compilation units. For instance, Clang will not emit type definitions for types that are not needed by a module and could be replaced with a forward declaration. Further, Clang will only emit type info for a dynamic C++ class in the module that contains the vtable for the class. The **-fstandalone-debug** option turns off these optimizations. This is useful when working with 3rd-party libraries that don't come with debug information. Note that Clang will never emit type information for types that are not referenced at all by the program. .. option:: -fno-standalone-debug On Darwin **-fstandalone-debug** is enabled by default. The **-fno-standalone-debug** option can be used to get to turn on the vtable-based optimization described above. .. option:: -g Generate complete debug info. Controlling Macro Debug Info Generation ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Debug info for C preprocessor macros increases the size of debug information in the binary. Macro debug info generated by Clang can be controlled by the flags listed below. .. option:: -fdebug-macro Generate debug info for preprocessor macros. This flag is discarded when **-g0** is enabled. .. option:: -fno-debug-macro Do not generate debug info for preprocessor macros (default). Controlling Debugger "Tuning" ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ While Clang generally emits standard DWARF debug info (http://dwarfstd.org), different debuggers may know how to take advantage of different specific DWARF features. You can "tune" the debug info for one of several different debuggers. .. option:: -ggdb, -glldb, -gsce Tune the debug info for the ``gdb``, ``lldb``, or Sony PlayStation\ |reg| debugger, respectively. Each of these options implies **-g**. (Therefore, if you want both **-gline-tables-only** and debugger tuning, the tuning option must come first.) Comment Parsing Options ----------------------- Clang parses Doxygen and non-Doxygen style documentation comments and attaches them to the appropriate declaration nodes. By default, it only parses Doxygen-style comments and ignores ordinary comments starting with ``//`` and ``/*``. .. option:: -Wdocumentation Emit warnings about use of documentation comments. This warning group is off by default. This includes checking that ``\param`` commands name parameters that actually present in the function signature, checking that ``\returns`` is used only on functions that actually return a value etc. .. option:: -Wno-documentation-unknown-command Don't warn when encountering an unknown Doxygen command. .. option:: -fparse-all-comments Parse all comments as documentation comments (including ordinary comments starting with ``//`` and ``/*``). .. option:: -fcomment-block-commands=[commands] Define custom documentation commands as block commands. This allows Clang to construct the correct AST for these custom commands, and silences warnings about unknown commands. Several commands must be separated by a comma *without trailing space*; e.g. ``-fcomment-block-commands=foo,bar`` defines custom commands ``\foo`` and ``\bar``. It is also possible to use ``-fcomment-block-commands`` several times; e.g. ``-fcomment-block-commands=foo -fcomment-block-commands=bar`` does the same as above. .. _c: C Language Features =================== The support for standard C in clang is feature-complete except for the C99 floating-point pragmas. Extensions supported by clang ----------------------------- See :doc:`LanguageExtensions`. Differences between various standard modes ------------------------------------------ clang supports the -std option, which changes what language mode clang uses. The supported modes for C are c89, gnu89, c94, c99, gnu99, c11, gnu11, and various aliases for those modes. If no -std option is specified, clang defaults to gnu11 mode. Many C99 and C11 features are supported in earlier modes as a conforming extension, with a warning. Use ``-pedantic-errors`` to request an error if a feature from a later standard revision is used in an earlier mode. Differences between all ``c*`` and ``gnu*`` modes: - ``c*`` modes define "``__STRICT_ANSI__``". - Target-specific defines not prefixed by underscores, like "linux", are defined in ``gnu*`` modes. - Trigraphs default to being off in ``gnu*`` modes; they can be enabled by the -trigraphs option. - The parser recognizes "asm" and "typeof" as keywords in ``gnu*`` modes; the variants "``__asm__``" and "``__typeof__``" are recognized in all modes. - The Apple "blocks" extension is recognized by default in ``gnu*`` modes on some platforms; it can be enabled in any mode with the "-fblocks" option. - Arrays that are VLA's according to the standard, but which can be constant folded by the frontend are treated as fixed size arrays. This occurs for things like "int X[(1, 2)];", which is technically a VLA. ``c*`` modes are strictly compliant and treat these as VLAs. Differences between ``*89`` and ``*99`` modes: - The ``*99`` modes default to implementing "inline" as specified in C99, while the ``*89`` modes implement the GNU version. This can be overridden for individual functions with the ``__gnu_inline__`` attribute. - Digraphs are not recognized in c89 mode. - The scope of names defined inside a "for", "if", "switch", "while", or "do" statement is different. (example: "``if ((struct x {int x;}*)0) {}``".) - ``__STDC_VERSION__`` is not defined in ``*89`` modes. - "inline" is not recognized as a keyword in c89 mode. - "restrict" is not recognized as a keyword in ``*89`` modes. - Commas are allowed in integer constant expressions in ``*99`` modes. - Arrays which are not lvalues are not implicitly promoted to pointers in ``*89`` modes. - Some warnings are different. Differences between ``*99`` and ``*11`` modes: - Warnings for use of C11 features are disabled. - ``__STDC_VERSION__`` is defined to ``201112L`` rather than ``199901L``. c94 mode is identical to c89 mode except that digraphs are enabled in c94 mode (FIXME: And ``__STDC_VERSION__`` should be defined!). GCC extensions not implemented yet ---------------------------------- clang tries to be compatible with gcc as much as possible, but some gcc extensions are not implemented yet: - clang does not support decimal floating point types (``_Decimal32`` and friends) or fixed-point types (``_Fract`` and friends); nobody has expressed interest in these features yet, so it's hard to say when they will be implemented. - clang does not support nested functions; this is a complex feature which is infrequently used, so it is unlikely to be implemented anytime soon. In C++11 it can be emulated by assigning lambda functions to local variables, e.g: .. code-block:: cpp auto const local_function = [&](int parameter) { // Do something }; ... local_function(1); - clang only supports global register variables when the register specified is non-allocatable (e.g. the stack pointer). Support for general global register variables is unlikely to be implemented soon because it requires additional LLVM backend support. - clang does not support static initialization of flexible array members. This appears to be a rarely used extension, but could be implemented pending user demand. - clang does not support ``__builtin_va_arg_pack``/``__builtin_va_arg_pack_len``. This is used rarely, but in some potentially interesting places, like the glibc headers, so it may be implemented pending user demand. Note that because clang pretends to be like GCC 4.2, and this extension was introduced in 4.3, the glibc headers will not try to use this extension with clang at the moment. - clang does not support the gcc extension for forward-declaring function parameters; this has not shown up in any real-world code yet, though, so it might never be implemented. This is not a complete list; if you find an unsupported extension missing from this list, please send an e-mail to cfe-dev. This list currently excludes C++; see :ref:`C++ Language Features `. Also, this list does not include bugs in mostly-implemented features; please see the `bug tracker `_ for known existing bugs (FIXME: Is there a section for bug-reporting guidelines somewhere?). Intentionally unsupported GCC extensions ---------------------------------------- - clang does not support the gcc extension that allows variable-length arrays in structures. This is for a few reasons: one, it is tricky to implement, two, the extension is completely undocumented, and three, the extension appears to be rarely used. Note that clang *does* support flexible array members (arrays with a zero or unspecified size at the end of a structure). - clang does not have an equivalent to gcc's "fold"; this means that clang doesn't accept some constructs gcc might accept in contexts where a constant expression is required, like "x-x" where x is a variable. - clang does not support ``__builtin_apply`` and friends; this extension is extremely obscure and difficult to implement reliably. .. _c_ms: Microsoft extensions -------------------- clang has support for many extensions from Microsoft Visual C++. To enable these extensions, use the ``-fms-extensions`` command-line option. This is the default for Windows targets. Clang does not implement every pragma or declspec provided by MSVC, but the popular ones, such as ``__declspec(dllexport)`` and ``#pragma comment(lib)`` are well supported. clang has a ``-fms-compatibility`` flag that makes clang accept enough invalid C++ to be able to parse most Microsoft headers. For example, it allows `unqualified lookup of dependent base class members `_, which is a common compatibility issue with clang. This flag is enabled by default for Windows targets. ``-fdelayed-template-parsing`` lets clang delay parsing of function template definitions until the end of a translation unit. This flag is enabled by default for Windows targets. For compatibility with existing code that compiles with MSVC, clang defines the ``_MSC_VER`` and ``_MSC_FULL_VER`` macros. These default to the values of 1800 and 180000000 respectively, making clang look like an early release of Visual C++ 2013. The ``-fms-compatibility-version=`` flag overrides these values. It accepts a dotted version tuple, such as 19.00.23506. Changing the MSVC compatibility version makes clang behave more like that version of MSVC. For example, ``-fms-compatibility-version=19`` will enable C++14 features and define ``char16_t`` and ``char32_t`` as builtin types. .. _cxx: C++ Language Features ===================== clang fully implements all of standard C++98 except for exported templates (which were removed in C++11), and all of standard C++11 and the current draft standard for C++1y. Controlling implementation limits --------------------------------- .. option:: -fbracket-depth=N Sets the limit for nested parentheses, brackets, and braces to N. The default is 256. .. option:: -fconstexpr-depth=N Sets the limit for recursive constexpr function invocations to N. The default is 512. .. option:: -ftemplate-depth=N Sets the limit for recursively nested template instantiations to N. The default is 256. .. option:: -foperator-arrow-depth=N Sets the limit for iterative calls to 'operator->' functions to N. The default is 256. .. _objc: Objective-C Language Features ============================= .. _objcxx: Objective-C++ Language Features =============================== .. _openmp: OpenMP Features =============== Clang supports all OpenMP 3.1 directives and clauses. In addition, some features of OpenMP 4.0 are supported. For example, ``#pragma omp simd``, ``#pragma omp for simd``, ``#pragma omp parallel for simd`` directives, extended set of atomic constructs, ``proc_bind`` clause for all parallel-based directives, ``depend`` clause for ``#pragma omp task`` directive (except for array sections), ``#pragma omp cancel`` and ``#pragma omp cancellation point`` directives, and ``#pragma omp taskgroup`` directive. Use `-fopenmp` to enable OpenMP. Support for OpenMP can be disabled with `-fno-openmp`. Use `-fopenmp-simd` to enable OpenMP simd features only, without linking the runtime library; for combined constructs (e.g. ``#pragma omp parallel for simd``) the non-simd directives and clauses will be ignored. This can be disabled with `-fno-openmp-simd`. Controlling implementation limits --------------------------------- .. option:: -fopenmp-use-tls Controls code generation for OpenMP threadprivate variables. In presence of this option all threadprivate variables are generated the same way as thread local variables, using TLS support. If `-fno-openmp-use-tls` is provided or target does not support TLS, code generation for threadprivate variables relies on OpenMP runtime library. .. _opencl: OpenCL Features =============== Clang can be used to compile OpenCL kernels for execution on a device (e.g. GPU). It is possible to compile the kernel into a binary (e.g. for AMD or Nvidia targets) that can be uploaded to run directly on a device (e.g. using `clCreateProgramWithBinary `_) or into generic bitcode files loadable into other toolchains. Compiling to a binary using the default target from the installation can be done as follows: .. code-block:: console $ echo "kernel void k(){}" > test.cl $ clang test.cl Compiling for a specific target can be done by specifying the triple corresponding to the target, for example: .. code-block:: console $ clang -target nvptx64-unknown-unknown test.cl $ clang -target amdgcn-amd-amdhsa-opencl test.cl Compiling to bitcode can be done as follows: .. code-block:: console $ clang -c -emit-llvm test.cl This will produce a generic test.bc file that can be used in vendor toolchains to perform machine code generation. Clang currently supports OpenCL C language standards up to v2.0. OpenCL Specific Options ----------------------- Most of the OpenCL build options from `the specification v2.0 section 5.8.4 `_ are available. Examples: .. code-block:: console $ clang -cl-std=CL2.0 -cl-single-precision-constant test.cl Some extra options are available to support special OpenCL features. .. option:: -finclude-default-header Loads standard includes during compilations. By default OpenCL headers are not loaded and therefore standard library includes are not available. To load them automatically a flag has been added to the frontend (see also :ref:`the section on the OpenCL Header `): .. code-block:: console $ clang -Xclang -finclude-default-header test.cl Alternatively ``-include`` or ``-I`` followed by the path to the header location can be given manually. .. code-block:: console $ clang -I/lib/Headers/opencl-c.h test.cl In this case the kernel code should contain ``#include `` just as a regular C include. .. _opencl_cl_ext: .. option:: -cl-ext Disables support of OpenCL extensions. All OpenCL targets provide a list of extensions that they support. Clang allows to amend this using the ``-cl-ext`` flag with a comma-separated list of extensions prefixed with ``'+'`` or ``'-'``. The syntax: ``-cl-ext=<(['-'|'+'][,])+>``, where extensions can be either one of `the OpenCL specification extensions `_ or any known vendor extension. Alternatively, ``'all'`` can be used to enable or disable all known extensions. Example disabling double support for the 64-bit SPIR target: .. code-block:: console $ clang -cc1 -triple spir64-unknown-unknown -cl-ext=-cl_khr_fp64 test.cl Enabling all extensions except double support in R600 AMD GPU can be done using: .. code-block:: console $ clang -cc1 -triple r600-unknown-unknown -cl-ext=-all,+cl_khr_fp16 test.cl .. _opencl_fake_address_space_map: .. option:: -ffake-address-space-map Overrides the target address space map with a fake map. This allows adding explicit address space IDs to the bitcode for non-segmented memory architectures that don't have separate IDs for each of the OpenCL logical address spaces by default. Passing ``-ffake-address-space-map`` will add/override address spaces of the target compiled for with the following values: ``1-global``, ``2-constant``, ``3-local``, ``4-generic``. The private address space is represented by the absence of an address space attribute in the IR (see also :ref:`the section on the address space attribute `). .. code-block:: console $ clang -ffake-address-space-map test.cl Some other flags used for the compilation for C can also be passed while compiling for OpenCL, examples: ``-c``, ``-O<1-4|s>``, ``-o``, ``-emit-llvm``, etc. OpenCL Targets -------------- OpenCL targets are derived from the regular Clang target classes. The OpenCL specific parts of the target representation provide address space mapping as well as a set of supported extensions. Specific Targets ^^^^^^^^^^^^^^^^ There is a set of concrete HW architectures that OpenCL can be compiled for. - For AMD target: .. code-block:: console $ clang -target amdgcn-amd-amdhsa-opencl test.cl - For Nvidia architectures: .. code-block:: console $ clang -target nvptx64-unknown-unknown test.cl Generic Targets ^^^^^^^^^^^^^^^ - SPIR is available as a generic target to allow portable bitcode to be produced that can be used across GPU toolchains. The implementation follows `the SPIR specification `_. There are two flavors available for 32 and 64 bits. .. code-block:: console $ clang -target spir-unknown-unknown test.cl $ clang -target spir64-unknown-unknown test.cl All known OpenCL extensions are supported in the SPIR targets. Clang will generate SPIR v1.2 compatible IR for OpenCL versions up to 2.0 and SPIR v2.0 for OpenCL v2.0. - x86 is used by some implementations that are x86 compatible and currently remains for backwards compatibility (with older implementations prior to SPIR target support). For "non-SPMD" targets which cannot spawn multiple work-items on the fly using hardware, which covers practically all non-GPU devices such as CPUs and DSPs, additional processing is needed for the kernels to support multiple work-item execution. For this, a 3rd party toolchain, such as for example `POCL `_, can be used. This target does not support multiple memory segments and, therefore, the fake address space map can be added using the :ref:`-ffake-address-space-map ` flag. .. _opencl_header: OpenCL Header ------------- By default Clang will not include standard headers and therefore OpenCL builtin functions and some types (i.e. vectors) are unknown. The default CL header is, however, provided in the Clang installation and can be enabled by passing the ``-finclude-default-header`` flag to the Clang frontend. .. code-block:: console $ echo "bool is_wg_uniform(int i){return get_enqueued_local_size(i)==get_local_size(i);}" > test.cl $ clang -Xclang -finclude-default-header -cl-std=CL2.0 test.cl Because the header is very large and long to parse, PCH (:doc:`PCHInternals`) and modules (:doc:`Modules`) are used internally to improve the compilation speed. To enable modules for OpenCL: .. code-block:: console $ clang -target spir-unknown-unknown -c -emit-llvm -Xclang -finclude-default-header -fmodules -fimplicit-module-maps -fmodules-cache-path= test.cl OpenCL Extensions ----------------- All of the ``cl_khr_*`` extensions from `the official OpenCL specification `_ up to and including version 2.0 are available and set per target depending on the support available in the specific architecture. It is possible to alter the default extensions setting per target using ``-cl-ext`` flag. (See :ref:`flags description ` for more details). Vendor extensions can be added flexibly by declaring the list of types and functions associated with each extensions enclosed within the following compiler pragma directives: .. code-block:: c #pragma OPENCL EXTENSION the_new_extension_name : begin // declare types and functions associated with the extension here #pragma OPENCL EXTENSION the_new_extension_name : end For example, parsing the following code adds ``my_t`` type and ``my_func`` function to the custom ``my_ext`` extension. .. code-block:: c #pragma OPENCL EXTENSION my_ext : begin typedef struct{ int a; }my_t; void my_func(my_t); #pragma OPENCL EXTENSION my_ext : end Declaring the same types in different vendor extensions is disallowed. OpenCL Metadata --------------- Clang uses metadata to provide additional OpenCL semantics in IR needed for backends and OpenCL runtime. Each kernel will have function metadata attached to it, specifying the arguments. Kernel argument metadata is used to provide source level information for querying at runtime, for example using the `clGetKernelArgInfo `_ call. Note that ``-cl-kernel-arg-info`` enables more information about the original CL code to be added e.g. kernel parameter names will appear in the OpenCL metadata along with other information. The IDs used to encode the OpenCL's logical address spaces in the argument info metadata follows the SPIR address space mapping as defined in the SPIR specification `section 2.2 `_ OpenCL-Specific Attributes -------------------------- OpenCL support in Clang contains a set of attribute taken directly from the specification as well as additional attributes. See also :doc:`AttributeReference`. nosvm ^^^^^ Clang supports this attribute to comply to OpenCL v2.0 conformance, but it does not have any effect on the IR. For more details reffer to the specification `section 6.7.2 `_ opencl_unroll_hint ^^^^^^^^^^^^^^^^^^ The implementation of this feature mirrors the unroll hint for C. More details on the syntax can be found in the specification `section 6.11.5 `_ convergent ^^^^^^^^^^ To make sure no invalid optimizations occur for single program multiple data (SPMD) / single instruction multiple thread (SIMT) Clang provides attributes that can be used for special functions that have cross work item semantics. An example is the subgroup operations such as `intel_sub_group_shuffle `_ .. code-block:: c // Define custom my_sub_group_shuffle(data, c) // that makes use of intel_sub_group_shuffle r1 = ... if (r0) r1 = computeA(); // Shuffle data from r1 into r3 // of threads id r2. r3 = my_sub_group_shuffle(r1, r2); if (r0) r3 = computeB(); with non-SPMD semantics this is optimized to the following equivalent code: .. code-block:: c r1 = ... if (!r0) // Incorrect functionality! The data in r1 // have not been computed by all threads yet. r3 = my_sub_group_shuffle(r1, r2); else { r1 = computeA(); r3 = my_sub_group_shuffle(r1, r2); r3 = computeB(); } Declaring the function ``my_sub_group_shuffle`` with the convergent attribute would prevent this: .. code-block:: c my_sub_group_shuffle() __attribute__((convergent)); Using ``convergent`` guarantees correct execution by keeping CFG equivalence wrt operations marked as ``convergent``. CFG ``G´`` is equivalent to ``G`` wrt node ``Ni`` : ``iff ∀ Nj (i≠j)`` domination and post-domination relations with respect to ``Ni`` remain the same in both ``G`` and ``G´``. noduplicate ^^^^^^^^^^^ ``noduplicate`` is more restrictive with respect to optimizations than ``convergent`` because a convergent function only preserves CFG equivalence. This allows some optimizations to happen as long as the control flow remains unmodified. .. code-block:: c for (int i=0; i<4; i++) my_sub_group_shuffle() can be modified to: .. code-block:: c my_sub_group_shuffle(); my_sub_group_shuffle(); my_sub_group_shuffle(); my_sub_group_shuffle(); while using ``noduplicate`` would disallow this. Also ``noduplicate`` doesn't have the same safe semantics of CFG as ``convergent`` and can cause changes in CFG that modify semantics of the original program. ``noduplicate`` is kept for backwards compatibility only and it considered to be deprecated for future uses. .. _opencl_addrsp: address_space ^^^^^^^^^^^^^ Clang has arbitrary address space support using the ``address_space(N)`` attribute, where ``N`` is an integer number in the range ``0`` to ``16777215`` (``0xffffffu``). An OpenCL implementation provides a list of standard address spaces using keywords: ``private``, ``local``, ``global``, and ``generic``. In the AST and in the IR local, global, or generic will be represented by the address space attribute with the corresponding unique number. Note that private does not have any corresponding attribute added and, therefore, is represented by the absence of an address space number. The specific IDs for an address space do not have to match between the AST and the IR. Typically in the AST address space numbers represent logical segments while in the IR they represent physical segments. Therefore, machines with flat memory segments can map all AST address space numbers to the same physical segment ID or skip address space attribute completely while generating the IR. However, if the address space information is needed by the IR passes e.g. to improve alias analysis, it is recommended to keep it and only lower to reflect physical memory segments in the late machine passes. OpenCL builtins --------------- There are some standard OpenCL functions that are implemented as Clang builtins: - All pipe functions from `section 6.13.16.2/6.13.16.3 `_ of the OpenCL v2.0 kernel language specification. ` - Address space qualifier conversion functions ``to_global``/``to_local``/``to_private`` from `section 6.13.9 `_. - All the ``enqueue_kernel`` functions from `section 6.13.17.1 `_ and enqueue query functions from `section 6.13.17.5 `_. .. _target_features: Target-Specific Features and Limitations ======================================== CPU Architectures Features and Limitations ------------------------------------------ X86 ^^^ The support for X86 (both 32-bit and 64-bit) is considered stable on Darwin (Mac OS X), Linux, FreeBSD, and Dragonfly BSD: it has been tested to correctly compile many large C, C++, Objective-C, and Objective-C++ codebases. On ``x86_64-mingw32``, passing i128(by value) is incompatible with the Microsoft x64 calling convention. You might need to tweak ``WinX86_64ABIInfo::classify()`` in lib/CodeGen/TargetInfo.cpp. For the X86 target, clang supports the `-m16` command line argument which enables 16-bit code output. This is broadly similar to using ``asm(".code16gcc")`` with the GNU toolchain. The generated code and the ABI remains 32-bit but the assembler emits instructions appropriate for a CPU running in 16-bit mode, with address-size and operand-size prefixes to enable 32-bit addressing and operations. ARM ^^^ The support for ARM (specifically ARMv6 and ARMv7) is considered stable on Darwin (iOS): it has been tested to correctly compile many large C, C++, Objective-C, and Objective-C++ codebases. Clang only supports a limited number of ARM architectures. It does not yet fully support ARMv5, for example. PowerPC ^^^^^^^ The support for PowerPC (especially PowerPC64) is considered stable on Linux and FreeBSD: it has been tested to correctly compile many large C and C++ codebases. PowerPC (32bit) is still missing certain features (e.g. PIC code on ELF platforms). Other platforms ^^^^^^^^^^^^^^^ clang currently contains some support for other architectures (e.g. Sparc); however, significant pieces of code generation are still missing, and they haven't undergone significant testing. clang contains limited support for the MSP430 embedded processor, but both the clang support and the LLVM backend support are highly experimental. Other platforms are completely unsupported at the moment. Adding the minimal support needed for parsing and semantic analysis on a new platform is quite easy; see ``lib/Basic/Targets.cpp`` in the clang source tree. This level of support is also sufficient for conversion to LLVM IR for simple programs. Proper support for conversion to LLVM IR requires adding code to ``lib/CodeGen/CGCall.cpp`` at the moment; this is likely to change soon, though. Generating assembly requires a suitable LLVM backend. Operating System Features and Limitations ----------------------------------------- Darwin (Mac OS X) ^^^^^^^^^^^^^^^^^ Thread Sanitizer is not supported. Windows ^^^^^^^ Clang has experimental support for targeting "Cygming" (Cygwin / MinGW) platforms. See also :ref:`Microsoft Extensions `. Cygwin """""" Clang works on Cygwin-1.7. MinGW32 """"""" Clang works on some mingw32 distributions. Clang assumes directories as below; - ``C:/mingw/include`` - ``C:/mingw/lib`` - ``C:/mingw/lib/gcc/mingw32/4.[3-5].0/include/c++`` On MSYS, a few tests might fail. MinGW-w64 """"""""" For 32-bit (i686-w64-mingw32), and 64-bit (x86\_64-w64-mingw32), Clang assumes as below; - ``GCC versions 4.5.0 to 4.5.3, 4.6.0 to 4.6.2, or 4.7.0 (for the C++ header search path)`` - ``some_directory/bin/gcc.exe`` - ``some_directory/bin/clang.exe`` - ``some_directory/bin/clang++.exe`` - ``some_directory/bin/../include/c++/GCC_version`` - ``some_directory/bin/../include/c++/GCC_version/x86_64-w64-mingw32`` - ``some_directory/bin/../include/c++/GCC_version/i686-w64-mingw32`` - ``some_directory/bin/../include/c++/GCC_version/backward`` - ``some_directory/bin/../x86_64-w64-mingw32/include`` - ``some_directory/bin/../i686-w64-mingw32/include`` - ``some_directory/bin/../include`` This directory layout is standard for any toolchain you will find on the official `MinGW-w64 website `_. Clang expects the GCC executable "gcc.exe" compiled for ``i686-w64-mingw32`` (or ``x86_64-w64-mingw32``) to be present on PATH. `Some tests might fail `_ on ``x86_64-w64-mingw32``. .. _clang-cl: clang-cl ======== clang-cl is an alternative command-line interface to Clang, designed for compatibility with the Visual C++ compiler, cl.exe. To enable clang-cl to find system headers, libraries, and the linker when run from the command-line, it should be executed inside a Visual Studio Native Tools Command Prompt or a regular Command Prompt where the environment has been set up using e.g. `vcvars32.bat `_. clang-cl can also be used from inside Visual Studio by using an LLVM Platform Toolset. Command-Line Options -------------------- To be compatible with cl.exe, clang-cl supports most of the same command-line options. Those options can start with either ``/`` or ``-``. It also supports some of Clang's core options, such as the ``-W`` options. Options that are known to clang-cl, but not currently supported, are ignored with a warning. For example: :: clang-cl.exe: warning: argument unused during compilation: '/AI' To suppress warnings about unused arguments, use the ``-Qunused-arguments`` option. Options that are not known to clang-cl will be ignored by default. Use the ``-Werror=unknown-argument`` option in order to treat them as errors. If these options are spelled with a leading ``/``, they will be mistaken for a filename: :: clang-cl.exe: error: no such file or directory: '/foobar' Please `file a bug `_ for any valid cl.exe flags that clang-cl does not understand. Execute ``clang-cl /?`` to see a list of supported options: :: CL.EXE COMPATIBILITY OPTIONS: /? Display available options /arch: Set architecture for code generation /Brepro- Emit an object file which cannot be reproduced over time /Brepro Emit an object file which can be reproduced over time /C Don't discard comments when preprocessing /c Compile only /d1reportAllClassLayout Dump record layout information /diagnostics:caret Enable caret and column diagnostics (on by default) /diagnostics:classic Disable column and caret diagnostics /diagnostics:column Disable caret diagnostics but keep column info /D Define macro /EH Exception handling model /EP Disable linemarker output and preprocess to stdout /execution-charset: Runtime encoding, supports only UTF-8 /E Preprocess to stdout /fallback Fall back to cl.exe if clang-cl fails to compile /FA Output assembly code file during compilation /Fa Output assembly code to this file during compilation (with /FA) /Fe Set output executable file or directory (ends in / or \) /FI Include file before parsing /Fi Set preprocess output file name (with /P) /Fo Set output object file, or directory (ends in / or \) (with /c) /fp:except- /fp:except /fp:fast /fp:precise /fp:strict /Fp Set pch filename (with /Yc and /Yu) /GA Assume thread-local variables are defined in the executable /Gd Set __cdecl as a default calling convention /GF- Disable string pooling /GR- Disable emission of RTTI data /Gregcall Set __regcall as a default calling convention /GR Enable emission of RTTI data /Gr Set __fastcall as a default calling convention /GS- Disable buffer security check /GS Enable buffer security check /Gs Set stack probe size /Gv Set __vectorcall as a default calling convention /Gw- Don't put each data item in its own section /Gw Put each data item in its own section - /GX- Enable exception handling + /GX- Disable exception handling /GX Enable exception handling /Gy- Don't put each function in its own section /Gy Put each function in its own section /Gz Set __stdcall as a default calling convention /help Display available options /imsvc Add directory to system include search path, as if part of %INCLUDE% /I Add directory to include search path /J Make char type unsigned /LDd Create debug DLL /LD Create DLL /link Forward options to the linker /MDd Use DLL debug run-time /MD Use DLL run-time /MTd Use static debug run-time /MT Use static run-time /Od Disable optimization /Oi- Disable use of builtin functions /Oi Enable use of builtin functions /Os Optimize for size /Ot Optimize for speed /O Optimization level /o Set output file or directory (ends in / or \) /P Preprocess to file /Qvec- Disable the loop vectorization passes /Qvec Enable the loop vectorization passes /showIncludes Print info about included files to stderr /source-charset: Source encoding, supports only UTF-8 /std: Language standard to compile for /TC Treat all source files as C /Tc Specify a C source file /TP Treat all source files as C++ /Tp Specify a C++ source file /utf-8 Set source and runtime encoding to UTF-8 (default) /U Undefine macro /vd Control vtordisp placement /vmb Use a best-case representation method for member pointers /vmg Use a most-general representation for member pointers /vmm Set the default most-general representation to multiple inheritance /vms Set the default most-general representation to single inheritance /vmv Set the default most-general representation to virtual inheritance /volatile:iso Volatile loads and stores have standard semantics /volatile:ms Volatile loads and stores have acquire and release semantics /W0 Disable all warnings /W1 Enable -Wall /W2 Enable -Wall /W3 Enable -Wall /W4 Enable -Wall and -Wextra /Wall Enable -Weverything /WX- Do not treat warnings as errors /WX Treat warnings as errors /w Disable all warnings /Y- Disable precompiled headers, overrides /Yc and /Yu /Yc Generate a pch file for all code up to and including /Yu Load a pch file and use it instead of all code up to and including /Z7 Enable CodeView debug information in object files /Zc:sizedDealloc- Disable C++14 sized global deallocation functions /Zc:sizedDealloc Enable C++14 sized global deallocation functions /Zc:strictStrings Treat string literals as const /Zc:threadSafeInit- Disable thread-safe initialization of static variables /Zc:threadSafeInit Enable thread-safe initialization of static variables /Zc:trigraphs- Disable trigraphs (default) /Zc:trigraphs Enable trigraphs /Zc:twoPhase- Disable two-phase name lookup in templates /Zc:twoPhase Enable two-phase name lookup in templates /Zd Emit debug line number tables only /Zi Alias for /Z7. Does not produce PDBs. /Zl Don't mention any default libraries in the object file /Zp Set the default maximum struct packing alignment to 1 /Zp Specify the default maximum struct packing alignment /Zs Syntax-check only OPTIONS: -### Print (but do not run) the commands to run for this compilation --analyze Run the static analyzer -fansi-escape-codes Use ANSI escape codes for diagnostics -fcolor-diagnostics Use colors in diagnostics -fdebug-macro Emit macro debug information -fdelayed-template-parsing Parse templated function definitions at the end of the translation unit -fdiagnostics-absolute-paths Print absolute paths in diagnostics -fdiagnostics-parseable-fixits Print fix-its in machine parseable form -flto= Set LTO mode to either 'full' or 'thin' -flto Enable LTO in 'full' mode -fms-compatibility-version= Dot-separated value representing the Microsoft compiler version number to report in _MSC_VER (0 = don't define it (default)) -fms-compatibility Enable full Microsoft Visual C++ compatibility -fms-extensions Accept some non-standard constructs supported by the Microsoft compiler -fmsc-version= Microsoft compiler version number to report in _MSC_VER (0 = don't define it (default)) -fno-debug-macro Do not emit macro debug information -fno-delayed-template-parsing Disable delayed template parsing -fno-sanitize-address-use-after-scope Disable use-after-scope detection in AddressSanitizer -fno-sanitize-blacklist Don't use blacklist file for sanitizers -fno-sanitize-cfi-cross-dso Disable control flow integrity (CFI) checks for cross-DSO calls. -fno-sanitize-coverage= Disable specified features of coverage instrumentation for Sanitizers -fno-sanitize-memory-track-origins Disable origins tracking in MemorySanitizer -fno-sanitize-memory-use-after-dtor Disable use-after-destroy detection in MemorySanitizer -fno-sanitize-recover= Disable recovery for specified sanitizers -fno-sanitize-stats Disable sanitizer statistics gathering. -fno-sanitize-thread-atomics Disable atomic operations instrumentation in ThreadSanitizer -fno-sanitize-thread-func-entry-exit Disable function entry/exit instrumentation in ThreadSanitizer -fno-sanitize-thread-memory-access Disable memory access instrumentation in ThreadSanitizer -fno-sanitize-trap= Disable trapping for specified sanitizers -fno-standalone-debug Limit debug information produced to reduce size of debug binary -fprofile-instr-generate= Generate instrumented code to collect execution counts into (overridden by LLVM_PROFILE_FILE env var) -fprofile-instr-generate Generate instrumented code to collect execution counts into default.profraw file (overridden by '=' form of option or LLVM_PROFILE_FILE env var) -fprofile-instr-use= Use instrumentation data for profile-guided optimization -fsanitize-address-field-padding= Level of field padding for AddressSanitizer -fsanitize-address-globals-dead-stripping Enable linker dead stripping of globals in AddressSanitizer -fsanitize-address-use-after-scope Enable use-after-scope detection in AddressSanitizer -fsanitize-blacklist= Path to blacklist file for sanitizers -fsanitize-cfi-cross-dso Enable control flow integrity (CFI) checks for cross-DSO calls. -fsanitize-cfi-icall-generalize-pointers Generalize pointers in CFI indirect call type signature checks -fsanitize-coverage= Specify the type of coverage instrumentation for Sanitizers -fsanitize-memory-track-origins= Enable origins tracking in MemorySanitizer -fsanitize-memory-track-origins Enable origins tracking in MemorySanitizer -fsanitize-memory-use-after-dtor Enable use-after-destroy detection in MemorySanitizer -fsanitize-recover= Enable recovery for specified sanitizers -fsanitize-stats Enable sanitizer statistics gathering. -fsanitize-thread-atomics Enable atomic operations instrumentation in ThreadSanitizer (default) -fsanitize-thread-func-entry-exit Enable function entry/exit instrumentation in ThreadSanitizer (default) -fsanitize-thread-memory-access Enable memory access instrumentation in ThreadSanitizer (default) -fsanitize-trap= Enable trapping for specified sanitizers -fsanitize-undefined-strip-path-components= Strip (or keep only, if negative) a given number of path components when emitting check metadata. -fsanitize= Turn on runtime checks for various forms of undefined or suspicious behavior. See user manual for available checks -fstandalone-debug Emit full debug info for all types used by the program -fwhole-program-vtables Enables whole-program vtable optimization. Requires -flto -gcodeview Generate CodeView debug information -gline-tables-only Emit debug line number tables only -miamcu Use Intel MCU ABI -mllvm Additional arguments to forward to LLVM's option processing -nobuiltininc Disable builtin #include directories -Qunused-arguments Don't emit warning for unused driver arguments -R Enable the specified remark --target= Generate code for the given target --version Print version information -v Show commands to run and use verbose output -W Enable the specified warning -Xclang Pass to the clang compiler The /fallback Option ^^^^^^^^^^^^^^^^^^^^ When clang-cl is run with the ``/fallback`` option, it will first try to compile files itself. For any file that it fails to compile, it will fall back and try to compile the file by invoking cl.exe. This option is intended to be used as a temporary means to build projects where clang-cl cannot successfully compile all the files. clang-cl may fail to compile a file either because it cannot generate code for some C++ feature, or because it cannot parse some Microsoft language extension. Index: vendor/clang/dist-release_60/include/clang/Basic/DiagnosticDriverKinds.td =================================================================== --- vendor/clang/dist-release_60/include/clang/Basic/DiagnosticDriverKinds.td (revision 335721) +++ vendor/clang/dist-release_60/include/clang/Basic/DiagnosticDriverKinds.td (revision 335722) @@ -1,365 +1,369 @@ //==--- DiagnosticDriverKinds.td - libdriver diagnostics ------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// let Component = "Driver" in { def err_drv_no_such_file : Error<"no such file or directory: '%0'">; def err_drv_unsupported_opt : Error<"unsupported option '%0'">; def err_drv_unsupported_opt_for_target : Error< "unsupported option '%0' for target '%1'">; def err_drv_unsupported_option_argument : Error< "unsupported argument '%1' to option '%0'">; def err_drv_unknown_stdin_type : Error< "-E or -x required when input is from standard input">; def err_drv_unknown_stdin_type_clang_cl : Error< "use /Tc or /Tp to set input type for standard input">; def err_drv_unknown_language : Error<"language not recognized: '%0'">; def err_drv_invalid_arch_name : Error< "invalid arch name '%0'">; def err_drv_cuda_bad_gpu_arch : Error<"Unsupported CUDA gpu architecture: %0">; def err_drv_no_cuda_installation : Error< "cannot find CUDA installation. Provide its path via --cuda-path, or pass " "-nocudainc to build without CUDA includes.">; def err_drv_no_cuda_libdevice : Error< "cannot find libdevice for %0. Provide path to different CUDA installation " "via --cuda-path, or pass -nocudalib to build without linking with libdevice.">; def err_drv_cuda_version_unsupported : Error< "GPU arch %0 is supported by CUDA versions between %1 and %2 (inclusive), " "but installation at %3 is %4. Use --cuda-path to specify a different CUDA " "install, pass a different GPU arch with --cuda-gpu-arch, or pass " "--no-cuda-version-check.">; def err_drv_cuda_nvptx_host : Error<"unsupported use of NVPTX for host compilation.">; def err_drv_invalid_thread_model_for_target : Error< "invalid thread model '%0' in '%1' for this target">; def err_drv_invalid_linker_name : Error< "invalid linker name in argument '%0'">; def err_drv_invalid_pgo_instrumentor : Error< "invalid PGO instrumentor in argument '%0'">; def err_drv_invalid_rtlib_name : Error< "invalid runtime library name in argument '%0'">; def err_drv_unsupported_rtlib_for_platform : Error< "unsupported runtime library '%0' for platform '%1'">; def err_drv_invalid_stdlib_name : Error< "invalid library name in argument '%0'">; def err_drv_invalid_output_with_multiple_archs : Error< "cannot use '%0' output with multiple -arch options">; def err_drv_no_input_files : Error<"no input files">; def err_drv_use_of_Z_option : Error< "unsupported use of internal gcc -Z option '%0'">; def err_drv_output_argument_with_multiple_files : Error< "cannot specify -o when generating multiple output files">; def err_drv_out_file_argument_with_multiple_sources : Error< "cannot specify '%0%1' when compiling multiple source files">; def err_no_external_assembler : Error< "there is no external assembler that can be used on this platform">; def err_drv_unable_to_remove_file : Error< "unable to remove file: %0">; def err_drv_command_failure : Error< "unable to execute command: %0">; def err_drv_invalid_darwin_version : Error< "invalid Darwin version number: %0">; def err_drv_missing_argument : Error< "argument to '%0' is missing (expected %1 value%s1)">; def err_drv_invalid_Xarch_argument_with_args : Error< "invalid Xarch argument: '%0', options requiring arguments are unsupported">; def err_drv_invalid_Xarch_argument_isdriver : Error< "invalid Xarch argument: '%0', cannot change driver behavior inside Xarch argument">; def err_drv_Xopenmp_target_missing_triple : Error< "cannot deduce implicit triple value for -Xopenmp-target, specify triple using -Xopenmp-target=">; def err_drv_invalid_Xopenmp_target_with_args : Error< "invalid -Xopenmp-target argument: '%0', options requiring arguments are unsupported">; def err_drv_argument_only_allowed_with : Error< "invalid argument '%0' only allowed with '%1'">; def err_drv_argument_not_allowed_with : Error< "invalid argument '%0' not allowed with '%1'">; def err_drv_invalid_version_number : Error< "invalid version number in '%0'">; def err_drv_no_linker_llvm_support : Error< "'%0': unable to pass LLVM bit-code files to linker">; def err_drv_no_ast_support : Error< "'%0': unable to use AST files with this tool">; def err_drv_no_module_support : Error< "'%0': unable to use module files with this tool">; def err_drv_clang_unsupported : Error< "the clang compiler does not support '%0'">; def err_drv_clang_unsupported_opt_cxx_darwin_i386 : Error< "the clang compiler does not support '%0' for C++ on Darwin/i386">; def err_drv_clang_unsupported_opt_faltivec : Error< "the clang compiler does not support '%0', %1">; def err_drv_command_failed : Error< "%0 command failed with exit code %1 (use -v to see invocation)">; def err_drv_compilationdatabase : Error< "compilation database '%0' could not be opened: %1">; def err_drv_command_signalled : Error< "%0 command failed due to signal (use -v to see invocation)">; def err_drv_force_crash : Error< "failing because %select{environment variable 'FORCE_CLANG_DIAGNOSTICS_CRASH' is set|'-gen-reproducer' is used}0">; def err_drv_invalid_mfloat_abi : Error< "invalid float ABI '%0'">; def err_drv_invalid_mtp : Error< "invalid thread pointer reading mode '%0'">; def err_drv_missing_arg_mtp : Error< "missing argument to '%0'">; def err_drv_invalid_libcxx_deployment : Error< "invalid deployment target for -stdlib=libc++ (requires %0 or later)">; def err_drv_invalid_argument_to_fdebug_prefix_map : Error< "invalid argument '%0' to -fdebug-prefix-map">; def err_drv_malformed_sanitizer_blacklist : Error< "malformed sanitizer blacklist: '%0'">; def err_drv_duplicate_config : Error< "no more than one option '--config' is allowed">; def err_drv_config_file_not_exist : Error< "configuration file '%0' does not exist">; def err_drv_config_file_not_found : Error< "configuration file '%0' cannot be found">; def note_drv_config_file_searched_in : Note< "was searched for in the directory: %0">; def err_drv_cannot_read_config_file : Error< "cannot read configuration file '%0'">; def err_drv_nested_config_file: Error< "option '--config' is not allowed inside configuration file">; def err_target_unsupported_arch : Error<"the target architecture '%0' is not supported by the target '%1'">; def err_cpu_unsupported_isa : Error<"CPU '%0' does not support '%1' execution mode">; def err_arch_unsupported_isa : Error<"Architecture '%0' does not support '%1' execution mode">; def err_drv_I_dash_not_supported : Error< "'%0' not supported, please use -iquote instead">; def err_drv_unknown_argument : Error<"unknown argument: '%0'">; def warn_drv_unknown_argument_clang_cl : Warning< "unknown argument ignored in clang-cl: '%0'">, InGroup; def warn_drv_ycyu_no_arg_clang_cl : Warning< "support for '%0' without a filename not implemented yet; flag ignored">, InGroup; def warn_drv_ycyu_different_arg_clang_cl : Warning< "support for '/Yc' and '/Yu' with different filenames not implemented yet; flags ignored">, InGroup; def warn_drv_ycyu_no_fi_arg_clang_cl : Warning< "support for '%0' without a corresponding /FI flag not implemented yet; flag ignored">, InGroup; def warn_drv_yc_multiple_inputs_clang_cl : Warning< "support for '/Yc' with more than one source file not implemented yet; flag ignored">, InGroup; def err_drv_invalid_value : Error<"invalid value '%1' in '%0'">; def err_drv_invalid_int_value : Error<"invalid integral value '%1' in '%0'">; def err_drv_invalid_remap_file : Error< "invalid option '%0' not of the form ;">; def err_drv_invalid_gcc_output_type : Error< "invalid output type '%0' for use with gcc tool">; def err_drv_cc_print_options_failure : Error< "unable to open CC_PRINT_OPTIONS file: %0">; def err_drv_lto_without_lld : Error<"LTO requires -fuse-ld=lld">; def err_drv_preamble_format : Error< "incorrect format for -preamble-bytes=N,END">; def warn_invalid_ios_deployment_target : Warning< "invalid iOS deployment version '%0', iOS 10 is the maximum deployment " "target for 32-bit targets">, InGroup, DefaultError; def err_drv_conflicting_deployment_targets : Error< "conflicting deployment targets, both '%0' and '%1' are present in environment">; def err_arc_unsupported_on_runtime : Error< "-fobjc-arc is not supported on platforms using the legacy runtime">; def err_arc_unsupported_on_toolchain : Error< // feel free to generalize this "-fobjc-arc is not supported on versions of OS X prior to 10.6">; def err_objc_weak_with_gc : Error< "-fobjc-weak is not supported in Objective-C garbage collection">; def err_objc_weak_unsupported : Error< "-fobjc-weak is not supported on the current deployment target">; def err_drv_mg_requires_m_or_mm : Error< "option '-MG' requires '-M' or '-MM'">; def err_drv_unknown_objc_runtime : Error< "unknown or ill-formed Objective-C runtime '%0'">; def err_drv_emit_llvm_link : Error< "-emit-llvm cannot be used when linking">; def err_drv_optimization_remark_pattern : Error< "%0 in '%1'">; def err_drv_no_neon_modifier : Error<"[no]neon is not accepted as modifier, please use [no]simd instead">; def err_drv_invalid_omp_target : Error<"OpenMP target is invalid: '%0'">; def err_drv_omp_host_ir_file_not_found : Error< "The provided host compiler IR file '%0' is required to generate code for OpenMP target regions but cannot be found.">; def err_drv_omp_host_target_not_supported : Error< "The target '%0' is not a supported OpenMP host target.">; def err_drv_expecting_fopenmp_with_fopenmp_targets : Error< "The option -fopenmp-targets must be used in conjunction with a -fopenmp option compatible with offloading, please use -fopenmp=libomp or -fopenmp=libiomp5.">; def warn_drv_omp_offload_target_duplicate : Warning< "The OpenMP offloading target '%0' is similar to target '%1' already specified - will be ignored.">, InGroup; def err_drv_bitcode_unsupported_on_toolchain : Error< "-fembed-bitcode is not supported on versions of iOS prior to 6.0">; def warn_O4_is_O3 : Warning<"-O4 is equivalent to -O3">, InGroup; def warn_drv_optimization_value : Warning<"optimization level '%0' is not supported; using '%1%2' instead">, InGroup; def warn_ignored_gcc_optimization : Warning<"optimization flag '%0' is not supported">, InGroup; def warn_ignored_clang_option : Warning<"the flag '%0' has been deprecated and will be ignored">, InGroup; def warn_drv_unsupported_opt_for_target : Warning< "optimization flag '%0' is not supported for target '%1'">, InGroup; def warn_c_kext : Warning< "ignoring -fapple-kext which is valid for C++ and Objective-C++ only">; def warn_drv_input_file_unused : Warning< "%0: '%1' input unused%select{ when '%3' is present|}2">, InGroup; def warn_drv_input_file_unused_by_cpp : Warning< "%0: '%1' input unused in cpp mode">, InGroup; def warn_drv_preprocessed_input_file_unused : Warning< "%0: previously preprocessed input%select{ unused when '%2' is present|}1">, InGroup; def warn_drv_unused_argument : Warning< "argument unused during compilation: '%0'">, InGroup; def warn_drv_empty_joined_argument : Warning< "joined argument expects additional value: '%0'">, InGroup; def warn_drv_diagnostics_hotness_requires_pgo : Warning< "argument '%0' requires profile-guided optimization information">, InGroup; def warn_drv_clang_unsupported : Warning< "the clang compiler does not support '%0'">; def warn_drv_deprecated_arg : Warning< "argument '%0' is deprecated, use '%1' instead">, InGroup; def warn_drv_assuming_mfloat_abi_is : Warning< "unknown platform, assuming -mfloat-abi=%0">; def warn_ignoring_ftabstop_value : Warning< "ignoring invalid -ftabstop value '%0', using default value %1">; def warn_drv_overriding_flag_option : Warning< "overriding '%0' option with '%1'">, InGroup>; def warn_drv_treating_input_as_cxx : Warning< "treating '%0' input as '%1' when in C++ mode, this behavior is deprecated">, InGroup; def warn_drv_pch_not_first_include : Warning< "precompiled header '%0' was ignored because '%1' is not first '-include'">; def warn_missing_sysroot : Warning<"no such sysroot directory: '%0'">, InGroup>; def warn_incompatible_sysroot : Warning<"using sysroot for '%0' but targeting '%1'">, InGroup>; def warn_debug_compression_unavailable : Warning<"cannot compress debug sections (zlib not installed)">, InGroup>; def warn_drv_enabling_rtti_with_exceptions : Warning< "implicitly enabling rtti for exception handling">, InGroup>; def warn_drv_disabling_vptr_no_rtti_default : Warning< "implicitly disabling vptr sanitizer because rtti wasn't enabled">, InGroup; def warn_drv_object_size_disabled_O0 : Warning< "the object size sanitizer has no effect at -O0, but is explicitly enabled: %0">, InGroup; def note_drv_command_failed_diag_msg : Note< "diagnostic msg: %0">; def note_drv_t_option_is_global : Note< "The last /TC or /TP option takes precedence over earlier instances">; def note_drv_address_sanitizer_debug_runtime : Note< "AddressSanitizer doesn't support linking with debug runtime libraries yet">; def note_drv_use_standard : Note<"use '%0'" "%select{| or '%3'|, '%3', or '%4'|, '%3', '%4', or '%5'}2 " "for '%1' standard">; def err_analyzer_config_no_value : Error< "analyzer-config option '%0' has a key but no value">; def err_analyzer_config_multiple_values : Error< "analyzer-config option '%0' should contain only one '='">; def err_drv_invalid_hvx_length : Error< "-mhvx-length is not supported without a -mhvx/-mhvx= flag">; def err_drv_modules_validate_once_requires_timestamp : Error< "option '-fmodules-validate-once-per-build-session' requires " "'-fbuild-session-timestamp=' or '-fbuild-session-file='">; def err_test_module_file_extension_format : Error< "-ftest-module-file-extension argument '%0' is not of the required form " "'blockname:major:minor:hashed:user info'">; def warn_drv_invoking_fallback : Warning<"falling back to %0">, InGroup; def warn_slash_u_filename : Warning<"'/U%0' treated as the '/U' option">, InGroup>; def note_use_dashdash : Note<"Use '--' to treat subsequent arguments as filenames">; def err_drv_ropi_rwpi_incompatible_with_pic : Error< "embedded and GOT-based position independence are incompatible">; def err_drv_ropi_incompatible_with_cxx : Error< "ROPI is not compatible with c++">; def warn_target_unsupported_nan2008 : Warning< "ignoring '-mnan=2008' option because the '%0' architecture does not support it">, InGroup; def warn_target_unsupported_nanlegacy : Warning< "ignoring '-mnan=legacy' option because the '%0' architecture does not support it">, InGroup; def warn_target_unsupported_abslegacy : Warning< "ignoring '-mabs=legacy' option because the '%0' architecture does not support it">, InGroup; def warn_target_unsupported_abs2008 : Warning< "ignoring '-mabs=2008' option because the '%0' architecture does not support it">, InGroup; def warn_target_unsupported_compact_branches : Warning< "ignoring '-mcompact-branches=' option because the '%0' architecture does not" " support it">, InGroup; def warn_drv_unsupported_gpopt : Warning< "ignoring '-mgpopt' option as it cannot be used with %select{|the implicit" " usage of }0-mabicalls">, InGroup; def warn_drv_unsupported_longcalls : Warning< "ignoring '-mlong-calls' option as it is not currently supported with " "%select{|the implicit usage of }0-mabicalls">, InGroup; def warn_drv_unsupported_abicalls : Warning< "ignoring '-mabicalls' option as it cannot be used with " "non position-independent code and the N64 ABI">, InGroup; +def err_drv_unsupported_indirect_jump_opt : Error< + "'-mindirect-jump=%0' is unsupported with the '%1' architecture">; +def err_drv_unknown_indirect_jump_opt : Error< + "unknown '-mindirect-jump=' option '%0'">; def warn_drv_unable_to_find_directory_expected : Warning< "unable to find %0 directory, expected to be in '%1'">, InGroup, DefaultIgnore; def warn_drv_ps4_force_pic : Warning< "option '%0' was ignored by the PS4 toolchain, using '-fPIC'">, InGroup; def warn_drv_ps4_sdk_dir : Warning< "environment variable SCE_ORBIS_SDK_DIR is set, but points to invalid or nonexistent directory '%0'">, InGroup; def err_drv_unsupported_linker : Error<"unsupported value '%0' for -linker option">; def err_drv_defsym_invalid_format : Error<"defsym must be of the form: sym=value: %0">; def err_drv_defsym_invalid_symval : Error<"Value is not an integer: %0">; def warn_drv_msvc_not_found : Warning< "unable to find a Visual Studio installation; " "try running Clang from a developer command prompt">, InGroup>; def warn_drv_fine_grained_bitfield_accesses_ignored : Warning< "option '-ffine-grained-bitfield-accesses' cannot be enabled together with a sanitizer; flag ignored">, InGroup; def note_drv_verify_prefix_spelling : Note< "-verify prefixes must start with a letter and contain only alphanumeric" " characters, hyphens, and underscores">; def warn_drv_experimental_isel_incomplete : Warning< "-fexperimental-isel support for the '%0' architecture is incomplete">, InGroup; def warn_drv_experimental_isel_incomplete_opt : Warning< "-fexperimental-isel support is incomplete for this architecture at the current optimization level">, InGroup; } Index: vendor/clang/dist-release_60/include/clang/Basic/DiagnosticSemaKinds.td =================================================================== --- vendor/clang/dist-release_60/include/clang/Basic/DiagnosticSemaKinds.td (revision 335721) +++ vendor/clang/dist-release_60/include/clang/Basic/DiagnosticSemaKinds.td (revision 335722) @@ -1,9331 +1,9335 @@ //==--- DiagnosticSemaKinds.td - libsema diagnostics ----------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // Semantic Analysis //===----------------------------------------------------------------------===// let Component = "Sema" in { let CategoryName = "Semantic Issue" in { def note_previous_decl : Note<"%0 declared here">; def note_entity_declared_at : Note<"%0 declared here">; def note_callee_decl : Note<"%0 declared here">; def note_defined_here : Note<"%0 defined here">; // For loop analysis def warn_variables_not_in_loop_body : Warning< "variable%select{s| %1|s %1 and %2|s %1, %2, and %3|s %1, %2, %3, and %4}0 " "used in loop condition not modified in loop body">, InGroup, DefaultIgnore; def warn_redundant_loop_iteration : Warning< "variable %0 is %select{decremented|incremented}1 both in the loop header " "and in the loop body">, InGroup, DefaultIgnore; def note_loop_iteration_here : Note<"%select{decremented|incremented}0 here">; def warn_duplicate_enum_values : Warning< "element %0 has been implicitly assigned %1 which another element has " "been assigned">, InGroup>, DefaultIgnore; def note_duplicate_element : Note<"element %0 also has value %1">; // Absolute value functions def warn_unsigned_abs : Warning< "taking the absolute value of unsigned type %0 has no effect">, InGroup; def note_remove_abs : Note< "remove the call to '%0' since unsigned values cannot be negative">; def warn_abs_too_small : Warning< "absolute value function %0 given an argument of type %1 but has parameter " "of type %2 which may cause truncation of value">, InGroup; def warn_wrong_absolute_value_type : Warning< "using %select{integer|floating point|complex}1 absolute value function %0 " "when argument is of %select{integer|floating point|complex}2 type">, InGroup; def note_replace_abs_function : Note<"use function '%0' instead">; def warn_pointer_abs : Warning< "taking the absolute value of %select{pointer|function|array}0 type %1 is suspicious">, InGroup; def warn_max_unsigned_zero : Warning< "taking the max of " "%select{a value and unsigned zero|unsigned zero and a value}0 " "is always equal to the other value">, InGroup; def note_remove_max_call : Note< "remove call to max function and unsigned zero argument">; def warn_infinite_recursive_function : Warning< "all paths through this function will call itself">, InGroup, DefaultIgnore; def warn_comma_operator : Warning<"possible misuse of comma operator here">, InGroup>, DefaultIgnore; def note_cast_to_void : Note<"cast expression to void to silence warning">; // Constant expressions def err_expr_not_ice : Error< "expression is not an %select{integer|integral}0 constant expression">; def ext_expr_not_ice : Extension< "expression is not an %select{integer|integral}0 constant expression; " "folding it to a constant is a GNU extension">, InGroup; def err_typecheck_converted_constant_expression : Error< "value of type %0 is not implicitly convertible to %1">; def err_typecheck_converted_constant_expression_disallowed : Error< "conversion from %0 to %1 is not allowed in a converted constant expression">; def err_typecheck_converted_constant_expression_indirect : Error< "conversion from %0 to %1 in converted constant expression would " "bind reference to a temporary">; def err_expr_not_cce : Error< "%select{case value|enumerator value|non-type template argument|" "array size|constexpr if condition}0 " "is not a constant expression">; def ext_cce_narrowing : ExtWarn< "%select{case value|enumerator value|non-type template argument|" "array size|constexpr if condition}0 " "%select{cannot be narrowed from type %2 to %3|" "evaluates to %2, which cannot be narrowed to type %3}1">, InGroup, DefaultError, SFINAEFailure; def err_ice_not_integral : Error< "integral constant expression must have integral or unscoped enumeration " "type, not %0">; def err_ice_incomplete_type : Error< "integral constant expression has incomplete class type %0">; def err_ice_explicit_conversion : Error< "integral constant expression requires explicit conversion from %0 to %1">; def note_ice_conversion_here : Note< "conversion to %select{integral|enumeration}0 type %1 declared here">; def err_ice_ambiguous_conversion : Error< "ambiguous conversion from type %0 to an integral or unscoped " "enumeration type">; def err_ice_too_large : Error< "integer constant expression evaluates to value %0 that cannot be " "represented in a %1-bit %select{signed|unsigned}2 integer type">; def err_expr_not_string_literal : Error<"expression is not a string literal">; // Semantic analysis of constant literals. def ext_predef_outside_function : Warning< "predefined identifier is only valid inside function">, InGroup>; def warn_float_overflow : Warning< "magnitude of floating-point constant too large for type %0; maximum is %1">, InGroup; def warn_float_underflow : Warning< "magnitude of floating-point constant too small for type %0; minimum is %1">, InGroup; def warn_double_const_requires_fp64 : Warning< "double precision constant requires cl_khr_fp64, casting to single precision">; def err_half_const_requires_fp16 : Error< "half precision constant requires cl_khr_fp16">; // C99 variable-length arrays def ext_vla : Extension<"variable length arrays are a C99 feature">, InGroup; def warn_vla_used : Warning<"variable length array used">, InGroup, DefaultIgnore; def err_vla_in_sfinae : Error< "variable length array cannot be formed during template argument deduction">; def err_array_star_in_function_definition : Error< "variable length array must be bound in function definition">; def err_vla_decl_in_file_scope : Error< "variable length array declaration not allowed at file scope">; def err_vla_decl_has_static_storage : Error< "variable length array declaration cannot have 'static' storage duration">; def err_vla_decl_has_extern_linkage : Error< "variable length array declaration cannot have 'extern' linkage">; def ext_vla_folded_to_constant : Extension< "variable length array folded to constant array as an extension">, InGroup; def err_vla_unsupported : Error< "variable length arrays are not supported for the current target">; def note_vla_unsupported : Note< "variable length arrays are not supported for the current target">; // C99 variably modified types def err_variably_modified_template_arg : Error< "variably modified type %0 cannot be used as a template argument">; def err_variably_modified_nontype_template_param : Error< "non-type template parameter of variably modified type %0">; def err_variably_modified_new_type : Error< "'new' cannot allocate object of variably modified type %0">; // C99 Designated Initializers def ext_designated_init : Extension< "designated initializers are a C99 feature">, InGroup; def err_array_designator_negative : Error< "array designator value '%0' is negative">; def err_array_designator_empty_range : Error< "array designator range [%0, %1] is empty">; def err_array_designator_non_array : Error< "array designator cannot initialize non-array type %0">; def err_array_designator_too_large : Error< "array designator index (%0) exceeds array bounds (%1)">; def err_field_designator_non_aggr : Error< "field designator cannot initialize a " "%select{non-struct, non-union|non-class}0 type %1">; def err_field_designator_unknown : Error< "field designator %0 does not refer to any field in type %1">; def err_field_designator_nonfield : Error< "field designator %0 does not refer to a non-static data member">; def note_field_designator_found : Note<"field designator refers here">; def err_designator_for_scalar_init : Error< "designator in initializer for scalar type %0">; def warn_subobject_initializer_overrides : Warning< "subobject initialization overrides initialization of other fields " "within its enclosing subobject">, InGroup; def warn_initializer_overrides : Warning< "initializer overrides prior initialization of this subobject">, InGroup; def note_previous_initializer : Note< "previous initialization %select{|with side effects }0is here" "%select{| (side effects may not occur at run time)}0">; def err_designator_into_flexible_array_member : Error< "designator into flexible array member subobject">; def note_flexible_array_member : Note< "initialized flexible array member %0 is here">; def ext_flexible_array_init : Extension< "flexible array initialization is a GNU extension">, InGroup; // Declarations. def ext_duplicate_declspec : ExtWarn<"duplicate '%0' declaration specifier">, InGroup; def warn_duplicate_declspec : Warning<"duplicate '%0' declaration specifier">, InGroup; def ext_plain_complex : ExtWarn< "plain '_Complex' requires a type specifier; assuming '_Complex double'">; def ext_imaginary_constant : Extension< "imaginary constants are a GNU extension">, InGroup; def ext_integer_complex : Extension< "complex integer types are a GNU extension">, InGroup; def err_invalid_sign_spec : Error<"'%0' cannot be signed or unsigned">; def err_invalid_width_spec : Error< "'%select{|short|long|long long}0 %1' is invalid">; def err_invalid_complex_spec : Error<"'_Complex %0' is invalid">; def err_friend_decl_spec : Error<"'%0' is invalid in friend declarations">; def ext_auto_type_specifier : ExtWarn< "'auto' type specifier is a C++11 extension">, InGroup; def warn_auto_storage_class : Warning< "'auto' storage class specifier is redundant and incompatible with C++11">, InGroup, DefaultIgnore; def warn_deprecated_register : Warning< "'register' storage class specifier is deprecated " "and incompatible with C++17">, InGroup; def ext_register_storage_class : ExtWarn< "ISO C++17 does not allow 'register' storage class specifier">, DefaultError, InGroup; def err_invalid_decl_spec_combination : Error< "cannot combine with previous '%0' declaration specifier">; def err_invalid_vector_decl_spec_combination : Error< "cannot combine with previous '%0' declaration specifier. " "'__vector' must be first">; def err_invalid_pixel_decl_spec_combination : Error< "'__pixel' must be preceded by '__vector'. " "'%0' declaration specifier not allowed here">; def err_invalid_vector_bool_decl_spec : Error< "cannot use '%0' with '__vector bool'">; def err_invalid_vector_long_decl_spec : Error< "cannot use 'long' with '__vector'">; def err_invalid_vector_float_decl_spec : Error< "cannot use 'float' with '__vector'">; def err_invalid_vector_double_decl_spec : Error < "use of 'double' with '__vector' requires VSX support to be enabled " "(available on POWER7 or later)">; def err_invalid_vector_long_long_decl_spec : Error < "use of 'long long' with '__vector bool' requires VSX support (available on " "POWER7 or later) or extended Altivec support (available on POWER8 or later) " "to be enabled">; def err_invalid_vector_long_double_decl_spec : Error< "cannot use 'long double' with '__vector'">; def warn_vector_long_decl_spec_combination : Warning< "Use of 'long' with '__vector' is deprecated">, InGroup; def err_use_of_tag_name_without_tag : Error< "must use '%1' tag to refer to type %0%select{| in this scope}2">; def err_redeclaration_different_type : Error< "redeclaration of %0 with a different type%diff{: $ vs $|}1,2">; def err_bad_variable_name : Error< "%0 cannot be the name of a variable or data member">; def err_bad_parameter_name : Error< "%0 cannot be the name of a parameter">; def err_parameter_name_omitted : Error<"parameter name omitted">; def err_anyx86_interrupt_attribute : Error< "%select{x86|x86-64}0 'interrupt' attribute only applies to functions that " "have %select{a 'void' return type|" "only a pointer parameter optionally followed by an integer parameter|" "a pointer as the first parameter|a %2 type as the second parameter}1">; def err_anyx86_interrupt_called : Error< "interrupt service routine cannot be called directly">; def warn_arm_interrupt_calling_convention : Warning< "call to function without interrupt attribute could clobber interruptee's VFP registers">, InGroup; def warn_mips_interrupt_attribute : Warning< "MIPS 'interrupt' attribute only applies to functions that have " "%select{no parameters|a 'void' return type}0">, InGroup; def warn_unused_parameter : Warning<"unused parameter %0">, InGroup, DefaultIgnore; def warn_unused_variable : Warning<"unused variable %0">, InGroup, DefaultIgnore; def warn_unused_local_typedef : Warning< "unused %select{typedef|type alias}0 %1">, InGroup, DefaultIgnore; def warn_unused_property_backing_ivar : Warning<"ivar %0 which backs the property is not " "referenced in this property's accessor">, InGroup, DefaultIgnore; def warn_unused_const_variable : Warning<"unused variable %0">, InGroup, DefaultIgnore; def warn_unused_exception_param : Warning<"unused exception parameter %0">, InGroup, DefaultIgnore; def warn_decl_in_param_list : Warning< "declaration of %0 will not be visible outside of this function">, InGroup; def warn_redefinition_in_param_list : Warning< "redefinition of %0 will not be visible outside of this function">, InGroup; def warn_empty_parens_are_function_decl : Warning< "empty parentheses interpreted as a function declaration">, InGroup; def warn_parens_disambiguated_as_function_declaration : Warning< "parentheses were disambiguated as a function declaration">, InGroup; def warn_parens_disambiguated_as_variable_declaration : Warning< "parentheses were disambiguated as redundant parentheses around declaration " "of variable named %0">, InGroup; def warn_redundant_parens_around_declarator : Warning< "redundant parentheses surrounding declarator">, InGroup>, DefaultIgnore; def note_additional_parens_for_variable_declaration : Note< "add a pair of parentheses to declare a variable">; def note_raii_guard_add_name : Note< "add a variable name to declare a %0 initialized with %1">; def note_function_style_cast_add_parentheses : Note< "add enclosing parentheses to perform a function-style cast">; def note_remove_parens_for_variable_declaration : Note< "remove parentheses to silence this warning">; def note_empty_parens_function_call : Note< "change this ',' to a ';' to call %0">; def note_empty_parens_default_ctor : Note< "remove parentheses to declare a variable">; def note_empty_parens_zero_initialize : Note< "replace parentheses with an initializer to declare a variable">; def warn_unused_function : Warning<"unused function %0">, InGroup, DefaultIgnore; def warn_unused_template : Warning<"unused %select{function|variable}0 template %1">, InGroup, DefaultIgnore; def warn_unused_member_function : Warning<"unused member function %0">, InGroup, DefaultIgnore; def warn_used_but_marked_unused: Warning<"%0 was marked unused but was used">, InGroup, DefaultIgnore; def warn_unneeded_internal_decl : Warning< "%select{function|variable}0 %1 is not needed and will not be emitted">, InGroup, DefaultIgnore; def warn_unneeded_static_internal_decl : Warning< "'static' function %0 declared in header file " "should be declared 'static inline'">, InGroup, DefaultIgnore; def warn_unneeded_member_function : Warning< "member function %0 is not needed and will not be emitted">, InGroup, DefaultIgnore; def warn_unused_private_field: Warning<"private field %0 is not used">, InGroup, DefaultIgnore; def warn_unused_lambda_capture: Warning<"lambda capture %0 is not " "%select{used|required to be captured for this use}1">, InGroup, DefaultIgnore; def warn_parameter_size: Warning< "%0 is a large (%1 bytes) pass-by-value argument; " "pass it by reference instead ?">, InGroup; def warn_return_value_size: Warning< "return value of %0 is a large (%1 bytes) pass-by-value object; " "pass it by reference instead ?">, InGroup; def warn_return_value_udt: Warning< "%0 has C-linkage specified, but returns user-defined type %1 which is " "incompatible with C">, InGroup; def warn_return_value_udt_incomplete: Warning< "%0 has C-linkage specified, but returns incomplete type %1 which could be " "incompatible with C">, InGroup; def warn_implicit_function_decl : Warning< "implicit declaration of function %0">, InGroup, DefaultIgnore; def ext_implicit_function_decl : ExtWarn< "implicit declaration of function %0 is invalid in %select{C99|OpenCL}1">, InGroup; def note_function_suggestion : Note<"did you mean %0?">; def err_ellipsis_first_param : Error< "ISO C requires a named parameter before '...'">; def err_declarator_need_ident : Error<"declarator requires an identifier">; def err_language_linkage_spec_unknown : Error<"unknown linkage language">; def err_language_linkage_spec_not_ascii : Error< "string literal in language linkage specifier cannot have an " "encoding-prefix">; def ext_use_out_of_scope_declaration : ExtWarn< "use of out-of-scope declaration of %0%select{| whose type is not " "compatible with that of an implicit declaration}1">, InGroup>; def err_inline_non_function : Error< "'inline' can only appear on functions%select{| and non-local variables}0">; def err_noreturn_non_function : Error< "'_Noreturn' can only appear on functions">; def warn_qual_return_type : Warning< "'%0' type qualifier%s1 on return type %plural{1:has|:have}1 no effect">, InGroup, DefaultIgnore; def warn_deprecated_redundant_constexpr_static_def : Warning< "out-of-line definition of constexpr static data member is redundant " "in C++17 and is deprecated">, InGroup, DefaultIgnore; def warn_decl_shadow : Warning<"declaration shadows a %select{" "local variable|" "variable in %2|" "static data member of %2|" "field of %2|" "typedef in %2|" "type alias in %2}1">, InGroup, DefaultIgnore; def warn_decl_shadow_uncaptured_local : Warning, InGroup, DefaultIgnore; def warn_ctor_parm_shadows_field: Warning<"constructor parameter %0 shadows the field %1 of %2">, InGroup, DefaultIgnore; def warn_modifying_shadowing_decl : Warning<"modifying constructor parameter %0 that shadows a " "field of %1">, InGroup, DefaultIgnore; // C++ decomposition declarations def err_decomp_decl_context : Error< "decomposition declaration not permitted in this context">; def warn_cxx14_compat_decomp_decl : Warning< "decomposition declarations are incompatible with " "C++ standards before C++17">, DefaultIgnore, InGroup; def ext_decomp_decl : ExtWarn< "decomposition declarations are a C++17 extension">, InGroup; def ext_decomp_decl_cond : ExtWarn< "ISO C++17 does not permit structured binding declaration in a condition">, InGroup>; def err_decomp_decl_spec : Error< "decomposition declaration cannot be declared " "%plural{1:'%1'|:with '%1' specifiers}0">; def err_decomp_decl_type : Error< "decomposition declaration cannot be declared with type %0; " "declared type must be 'auto' or reference to 'auto'">; def err_decomp_decl_parens : Error< "decomposition declaration cannot be declared with parentheses">; def err_decomp_decl_template : Error< "decomposition declaration template not supported">; def err_decomp_decl_not_alone : Error< "decomposition declaration must be the only declaration in its group">; def err_decomp_decl_requires_init : Error< "decomposition declaration %0 requires an initializer">; def err_decomp_decl_wrong_number_bindings : Error< "type %0 decomposes into %2 elements, but %select{only |}3%1 " "names were provided">; def err_decomp_decl_unbindable_type : Error< "cannot decompose %select{union|non-class, non-array}1 type %2">; def err_decomp_decl_multiple_bases_with_members : Error< "cannot decompose class type %1: " "%select{its base classes %2 and|both it and its base class}0 %3 " "have non-static data members">; def err_decomp_decl_ambiguous_base : Error< "cannot decompose members of ambiguous base class %1 of %0:%2">; def err_decomp_decl_non_public_base : Error< "cannot decompose members of non-public base class %1 of %0">; def err_decomp_decl_non_public_member : Error< "cannot decompose non-public member %0 of %1">; def err_decomp_decl_anon_union_member : Error< "cannot decompose class type %0 because it has an anonymous " "%select{struct|union}1 member">; def err_decomp_decl_std_tuple_element_not_specialized : Error< "cannot decompose this type; 'std::tuple_element<%0>::type' " "does not name a type">; def err_decomp_decl_std_tuple_size_not_constant : Error< "cannot decompose this type; 'std::tuple_size<%0>::value' " "is not a valid integral constant expression">; def note_in_binding_decl_init : Note< "in implicit initialization of binding declaration %0">; def err_std_type_trait_not_class_template : Error< "unsupported standard library implementation: " "'std::%0' is not a class template">; // C++ using declarations def err_using_requires_qualname : Error< "using declaration requires a qualified name">; def err_using_typename_non_type : Error< "'typename' keyword used on a non-type">; def err_using_dependent_value_is_type : Error< "dependent using declaration resolved to type without 'typename'">; def err_using_decl_nested_name_specifier_is_not_class : Error< "using declaration in class refers into '%0', which is not a class">; def err_using_decl_nested_name_specifier_is_current_class : Error< "using declaration refers to its own class">; def err_using_decl_nested_name_specifier_is_not_base_class : Error< "using declaration refers into '%0', which is not a base class of %1">; def err_using_decl_constructor_not_in_direct_base : Error< "%0 is not a direct base of %1, cannot inherit constructors">; def err_using_decl_can_not_refer_to_class_member : Error< "using declaration cannot refer to class member">; def err_ambiguous_inherited_constructor : Error< "constructor of %0 inherited from multiple base class subobjects">; def note_ambiguous_inherited_constructor_using : Note< "inherited from base class %0 here">; def note_using_decl_class_member_workaround : Note< "use %select{an alias declaration|a typedef declaration|a reference|" "a const variable|a constexpr variable}0 instead">; def err_using_decl_can_not_refer_to_namespace : Error< "using declaration cannot refer to a namespace">; def err_using_decl_can_not_refer_to_scoped_enum : Error< "using declaration cannot refer to a scoped enumerator">; def err_using_decl_constructor : Error< "using declaration cannot refer to a constructor">; def warn_cxx98_compat_using_decl_constructor : Warning< "inheriting constructors are incompatible with C++98">, InGroup, DefaultIgnore; def err_using_decl_destructor : Error< "using declaration cannot refer to a destructor">; def err_using_decl_template_id : Error< "using declaration cannot refer to a template specialization">; def note_using_decl_target : Note<"target of using declaration">; def note_using_decl_conflict : Note<"conflicting declaration">; def err_using_decl_redeclaration : Error<"redeclaration of using declaration">; def err_using_decl_conflict : Error< "target of using declaration conflicts with declaration already in scope">; def err_using_decl_conflict_reverse : Error< "declaration conflicts with target of using declaration already in scope">; def note_using_decl : Note<"%select{|previous }0using declaration">; def err_using_decl_redeclaration_expansion : Error< "using declaration pack expansion at block scope produces multiple values">; def warn_access_decl_deprecated : Warning< "access declarations are deprecated; use using declarations instead">, InGroup; def err_access_decl : Error< "ISO C++11 does not allow access declarations; " "use using declarations instead">; def ext_dynamic_exception_spec : ExtWarn< "ISO C++17 does not allow dynamic exception specifications">, InGroup, DefaultError; def warn_exception_spec_deprecated : Warning< "dynamic exception specifications are deprecated">, InGroup, DefaultIgnore; def note_exception_spec_deprecated : Note<"use '%0' instead">; def warn_deprecated_copy_operation : Warning< "definition of implicit copy %select{constructor|assignment operator}1 " "for %0 is deprecated because it has a user-declared " "%select{copy %select{assignment operator|constructor}1|destructor}2">, InGroup, DefaultIgnore; def warn_cxx17_compat_exception_spec_in_signature : Warning< "mangled name of %0 will change in C++17 due to non-throwing exception " "specification in function signature">, InGroup; def warn_global_constructor : Warning< "declaration requires a global constructor">, InGroup, DefaultIgnore; def warn_global_destructor : Warning< "declaration requires a global destructor">, InGroup, DefaultIgnore; def warn_exit_time_destructor : Warning< "declaration requires an exit-time destructor">, InGroup, DefaultIgnore; def err_invalid_thread : Error< "'%0' is only allowed on variable declarations">; def err_thread_non_global : Error< "'%0' variables must have global storage">; def err_thread_unsupported : Error< "thread-local storage is not supported for the current target">; def warn_maybe_falloff_nonvoid_function : Warning< "control may reach end of non-void function">, InGroup; def warn_falloff_nonvoid_function : Warning< "control reaches end of non-void function">, InGroup; def err_maybe_falloff_nonvoid_block : Error< "control may reach end of non-void block">; def err_falloff_nonvoid_block : Error< "control reaches end of non-void block">; def warn_maybe_falloff_nonvoid_coroutine : Warning< "control may reach end of coroutine; which is undefined behavior because the promise type %0 does not declare 'return_void()'">, InGroup; def warn_falloff_nonvoid_coroutine : Warning< "control reaches end of coroutine; which is undefined behavior because the promise type %0 does not declare 'return_void()'">, InGroup; def warn_suggest_noreturn_function : Warning< "%select{function|method}0 %1 could be declared with attribute 'noreturn'">, InGroup, DefaultIgnore; def warn_suggest_noreturn_block : Warning< "block could be declared with attribute 'noreturn'">, InGroup, DefaultIgnore; // Unreachable code. def warn_unreachable : Warning< "code will never be executed">, InGroup, DefaultIgnore; def warn_unreachable_break : Warning< "'break' will never be executed">, InGroup, DefaultIgnore; def warn_unreachable_return : Warning< "'return' will never be executed">, InGroup, DefaultIgnore; def warn_unreachable_loop_increment : Warning< "loop will run at most once (loop increment never executed)">, InGroup, DefaultIgnore; def note_unreachable_silence : Note< "silence by adding parentheses to mark code as explicitly dead">; /// Built-in functions. def ext_implicit_lib_function_decl : ExtWarn< "implicitly declaring library function '%0' with type %1">, InGroup; def note_include_header_or_declare : Note< "include the header <%0> or explicitly provide a declaration for '%1'">; def note_previous_builtin_declaration : Note<"%0 is a builtin with type %1">; def warn_implicit_decl_requires_sysheader : Warning< "declaration of built-in function '%1' requires inclusion of the header <%0>">, InGroup; def warn_redecl_library_builtin : Warning< "incompatible redeclaration of library function %0">, InGroup>; def err_builtin_definition : Error<"definition of builtin function %0">; def err_arm_invalid_specialreg : Error<"invalid special register for builtin">; def err_invalid_cpu_supports : Error<"invalid cpu feature string for builtin">; def err_invalid_cpu_is : Error<"invalid cpu name for builtin">; def err_builtin_needs_feature : Error<"%0 needs target feature %1">; def err_function_needs_feature : Error<"always_inline function %1 requires target feature '%2', but would " "be inlined into function %0 that is compiled without support for " "'%2'">; def warn_builtin_unknown : Warning<"use of unknown builtin %0">, InGroup, DefaultError; def warn_dyn_class_memaccess : Warning< "%select{destination for|source of|first operand of|second operand of}0 this " "%1 call is a pointer to %select{|class containing a }2dynamic class %3; " "vtable pointer will be %select{overwritten|copied|moved|compared}4">, InGroup>; def note_bad_memaccess_silence : Note< "explicitly cast the pointer to silence this warning">; def warn_sizeof_pointer_expr_memaccess : Warning< "'%0' call operates on objects of type %1 while the size is based on a " "different type %2">, InGroup; def warn_sizeof_pointer_expr_memaccess_note : Note< "did you mean to %select{dereference the argument to 'sizeof' (and multiply " "it by the number of elements)|remove the addressof in the argument to " "'sizeof' (and multiply it by the number of elements)|provide an explicit " "length}0?">; def warn_sizeof_pointer_type_memaccess : Warning< "argument to 'sizeof' in %0 call is the same pointer type %1 as the " "%select{destination|source}2; expected %3 or an explicit length">, InGroup; def warn_strlcpycat_wrong_size : Warning< "size argument in %0 call appears to be size of the source; " "expected the size of the destination">, InGroup>; def note_strlcpycat_wrong_size : Note< "change size argument to be the size of the destination">; def warn_memsize_comparison : Warning< "size argument in %0 call is a comparison">, InGroup>; def note_memsize_comparison_paren : Note< "did you mean to compare the result of %0 instead?">; def note_memsize_comparison_cast_silence : Note< "explicitly cast the argument to size_t to silence this warning">; def warn_strncat_large_size : Warning< "the value of the size argument in 'strncat' is too large, might lead to a " "buffer overflow">, InGroup; def warn_strncat_src_size : Warning<"size argument in 'strncat' call appears " "to be size of the source">, InGroup; def warn_strncat_wrong_size : Warning< "the value of the size argument to 'strncat' is wrong">, InGroup; def note_strncat_wrong_size : Note< "change the argument to be the free space in the destination buffer minus " "the terminating null byte">; def warn_assume_side_effects : Warning< "the argument to %0 has side effects that will be discarded">, InGroup>; def warn_memcpy_chk_overflow : Warning< "%0 will always overflow destination buffer">, InGroup>; /// main() // static main() is not an error in C, just in C++. def warn_static_main : Warning<"'main' should not be declared static">, InGroup
; def err_static_main : Error<"'main' is not allowed to be declared static">; def err_inline_main : Error<"'main' is not allowed to be declared inline">; def ext_variadic_main : ExtWarn< "'main' is not allowed to be declared variadic">, InGroup
; def ext_noreturn_main : ExtWarn< "'main' is not allowed to be declared _Noreturn">, InGroup
; def note_main_remove_noreturn : Note<"remove '_Noreturn'">; def err_constexpr_main : Error< "'main' is not allowed to be declared constexpr">; def err_deleted_main : Error<"'main' is not allowed to be deleted">; def err_mainlike_template_decl : Error<"%0 cannot be a template">; def err_main_returns_nonint : Error<"'main' must return 'int'">; def ext_main_returns_nonint : ExtWarn<"return type of 'main' is not 'int'">, InGroup; def note_main_change_return_type : Note<"change return type to 'int'">; def err_main_surplus_args : Error<"too many parameters (%0) for 'main': " "must be 0, 2, or 3">; def warn_main_one_arg : Warning<"only one parameter on 'main' declaration">, InGroup
; def err_main_arg_wrong : Error<"%select{first|second|third|fourth}0 " "parameter of 'main' (%select{argument count|argument array|environment|" "platform-specific data}0) must be of type %1">; def warn_main_returns_bool_literal : Warning<"bool literal returned from " "'main'">, InGroup
; def err_main_global_variable : Error<"main cannot be declared as global variable">; def warn_main_redefined : Warning<"variable named 'main' with external linkage " "has undefined behavior">, InGroup
; def ext_main_used : Extension< "ISO C++ does not allow 'main' to be used by a program">, InGroup
; /// parser diagnostics def ext_no_declarators : ExtWarn<"declaration does not declare anything">, InGroup; def ext_typedef_without_a_name : ExtWarn<"typedef requires a name">, InGroup; def err_typedef_not_identifier : Error<"typedef name must be an identifier">; def err_typedef_changes_linkage : Error<"unsupported: typedef changes linkage" " of anonymous type, but linkage was already computed">; def note_typedef_changes_linkage : Note<"use a tag name here to establish " "linkage prior to definition">; def err_statically_allocated_object : Error< "interface type cannot be statically allocated">; def err_object_cannot_be_passed_returned_by_value : Error< "interface type %1 cannot be %select{returned|passed}0 by value" "; did you forget * in %1?">; def err_parameters_retval_cannot_have_fp16_type : Error< "%select{parameters|function return value}0 cannot have __fp16 type; did you forget * ?">; def err_opencl_half_load_store : Error< "%select{loading directly from|assigning directly to}0 pointer to type %1 requires " "cl_khr_fp16. Use vector data %select{load|store}0 builtin functions instead">; def err_opencl_cast_to_half : Error<"casting to type %0 is not allowed">; def err_opencl_half_declaration : Error< "declaring variable of type %0 is not allowed">; def err_opencl_half_param : Error< "declaring function parameter of type %0 is not allowed; did you forget * ?">; def err_opencl_invalid_return : Error< "declaring function return value of type %0 is not allowed %select{; did you forget * ?|}1">; def warn_enum_value_overflow : Warning<"overflow in enumeration value">; def warn_pragma_options_align_reset_failed : Warning< "#pragma options align=reset failed: %0">, InGroup; def err_pragma_options_align_mac68k_target_unsupported : Error< "mac68k alignment pragma is not supported on this target">; def warn_pragma_pack_invalid_alignment : Warning< "expected #pragma pack parameter to be '1', '2', '4', '8', or '16'">, InGroup; def warn_pragma_pack_non_default_at_include : Warning< "non-default #pragma pack value changes the alignment of struct or union " "members in the included file">, InGroup, DefaultIgnore; def warn_pragma_pack_modified_after_include : Warning< "the current #pragma pack aligment value is modified in the included " "file">, InGroup; def warn_pragma_pack_no_pop_eof : Warning<"unterminated " "'#pragma pack (push, ...)' at end of file">, InGroup; def note_pragma_pack_here : Note< "previous '#pragma pack' directive that modifies alignment is here">; def note_pragma_pack_pop_instead_reset : Note< "did you intend to use '#pragma pack (pop)' instead of '#pragma pack()'?">; // Follow the Microsoft implementation. def warn_pragma_pack_show : Warning<"value of #pragma pack(show) == %0">; def warn_pragma_pack_pop_identifer_and_alignment : Warning< "specifying both a name and alignment to 'pop' is undefined">; def warn_pragma_pop_failed : Warning<"#pragma %0(pop, ...) failed: %1">, InGroup; def warn_cxx_ms_struct : Warning<"ms_struct may not produce Microsoft-compatible layouts for classes " "with base classes or virtual functions">, DefaultError, InGroup; +def warn_npot_ms_struct : + Warning<"ms_struct may not produce Microsoft-compatible layouts with fundamental " + "data types with sizes that aren't a power of two">, + DefaultError, InGroup; def err_section_conflict : Error<"%0 causes a section type conflict with %1">; def err_no_base_classes : Error<"invalid use of '__super', %0 has no base classes">; def err_invalid_super_scope : Error<"invalid use of '__super', " "this keyword can only be used inside class or member function scope">; def err_super_in_lambda_unsupported : Error< "use of '__super' inside a lambda is unsupported">; def warn_pragma_unused_undeclared_var : Warning< "undeclared variable %0 used as an argument for '#pragma unused'">, InGroup; def warn_atl_uuid_deprecated : Warning< "specifying 'uuid' as an ATL attribute is deprecated; use __declspec instead">, InGroup; def warn_pragma_unused_expected_var_arg : Warning< "only variables can be arguments to '#pragma unused'">, InGroup; def err_pragma_push_visibility_mismatch : Error< "#pragma visibility push with no matching #pragma visibility pop">; def note_surrounding_namespace_ends_here : Note< "surrounding namespace with visibility attribute ends here">; def err_pragma_pop_visibility_mismatch : Error< "#pragma visibility pop with no matching #pragma visibility push">; def note_surrounding_namespace_starts_here : Note< "surrounding namespace with visibility attribute starts here">; def err_pragma_loop_invalid_argument_type : Error< "invalid argument of type %0; expected an integer type">; def err_pragma_loop_invalid_argument_value : Error< "%select{invalid value '%0'; must be positive|value '%0' is too large}1">; def err_pragma_loop_compatibility : Error< "%select{incompatible|duplicate}0 directives '%1' and '%2'">; def err_pragma_loop_precedes_nonloop : Error< "expected a for, while, or do-while loop to follow '%0'">; def err_pragma_attribute_matcher_subrule_contradicts_rule : Error< "redundant attribute subject matcher sub-rule '%0'; '%1' already matches " "those declarations">; def err_pragma_attribute_matcher_negated_subrule_contradicts_subrule : Error< "negated attribute subject matcher sub-rule '%0' contradicts sub-rule '%1'">; def err_pragma_attribute_invalid_matchers : Error< "attribute %0 can't be applied to %1">; def err_pragma_attribute_stack_mismatch : Error< "'#pragma clang attribute pop' with no matching '#pragma clang attribute push'">; def warn_pragma_attribute_unused : Warning< "unused attribute %0 in '#pragma clang attribute push' region">, InGroup; def note_pragma_attribute_region_ends_here : Note< "'#pragma clang attribute push' regions ends here">; def err_pragma_attribute_no_pop_eof : Error<"unterminated " "'#pragma clang attribute push' at end of file">; def note_pragma_attribute_applied_decl_here : Note< "when applied to this declaration">; /// Objective-C parser diagnostics def err_duplicate_class_def : Error< "duplicate interface definition for class %0">; def err_undef_superclass : Error< "cannot find interface declaration for %0, superclass of %1">; def err_forward_superclass : Error< "attempting to use the forward class %0 as superclass of %1">; def err_no_nsconstant_string_class : Error< "cannot find interface declaration for %0">; def err_recursive_superclass : Error< "trying to recursively use %0 as superclass of %1">; def err_conflicting_aliasing_type : Error<"conflicting types for alias %0">; def warn_undef_interface : Warning<"cannot find interface declaration for %0">; def warn_duplicate_protocol_def : Warning< "duplicate protocol definition of %0 is ignored">, InGroup>; def err_protocol_has_circular_dependency : Error< "protocol has circular dependency">; def err_undeclared_protocol : Error<"cannot find protocol declaration for %0">; def warn_undef_protocolref : Warning<"cannot find protocol definition for %0">; def warn_atprotocol_protocol : Warning< "@protocol is using a forward protocol declaration of %0">, InGroup; def warn_readonly_property : Warning< "attribute 'readonly' of property %0 restricts attribute " "'readwrite' of property inherited from %1">, InGroup; def warn_property_attribute : Warning< "'%1' attribute on property %0 does not match the property inherited from %2">, InGroup; def warn_property_types_are_incompatible : Warning< "property type %0 is incompatible with type %1 inherited from %2">, InGroup>; def warn_protocol_property_mismatch : Warning< "property %select{of type %1|with attribute '%1'|without attribute '%1'|with " "getter %1|with setter %1}0 was selected for synthesis">, InGroup>; def err_protocol_property_mismatch: Error; def err_undef_interface : Error<"cannot find interface declaration for %0">; def err_category_forward_interface : Error< "cannot define %select{category|class extension}0 for undefined class %1">; def err_class_extension_after_impl : Error< "cannot declare class extension for %0 after class implementation">; def note_implementation_declared : Note< "class implementation is declared here">; def note_while_in_implementation : Note< "detected while default synthesizing properties in class implementation">; def note_class_declared : Note< "class is declared here">; def note_receiver_class_declared : Note< "receiver is instance of class declared here">; def note_receiver_expr_here : Note< "receiver expression is here">; def note_receiver_is_id : Note< "receiver is treated with 'id' type for purpose of method lookup">; def note_suppressed_class_declare : Note< "class with specified objc_requires_property_definitions attribute is declared here">; def err_objc_root_class_subclass : Error< "objc_root_class attribute may only be specified on a root class declaration">; def err_restricted_superclass_mismatch : Error< "cannot subclass a class that was declared with the " "'objc_subclassing_restricted' attribute">; def warn_objc_root_class_missing : Warning< "class %0 defined without specifying a base class">, InGroup; def err_objc_runtime_visible_category : Error< "cannot implement a category for class %0 that is only visible via the " "Objective-C runtime">; def err_objc_runtime_visible_subclass : Error< "cannot implement subclass %0 of a superclass %1 that is only visible via the " "Objective-C runtime">; def note_objc_needs_superclass : Note< "add a super class to fix this problem">; def warn_dup_category_def : Warning< "duplicate definition of category %1 on interface %0">; def err_conflicting_super_class : Error<"conflicting super class name %0">; def err_dup_implementation_class : Error<"reimplementation of class %0">; def err_dup_implementation_category : Error< "reimplementation of category %1 for class %0">; def err_conflicting_ivar_type : Error< "instance variable %0 has conflicting type%diff{: $ vs $|}1,2">; def err_duplicate_ivar_declaration : Error< "instance variable is already declared">; def warn_on_superclass_use : Warning< "class implementation may not have super class">; def err_conflicting_ivar_bitwidth : Error< "instance variable %0 has conflicting bit-field width">; def err_conflicting_ivar_name : Error< "conflicting instance variable names: %0 vs %1">; def err_inconsistent_ivar_count : Error< "inconsistent number of instance variables specified">; def warn_undef_method_impl : Warning<"method definition for %0 not found">, InGroup>; def warn_conflicting_overriding_ret_types : Warning< "conflicting return type in " "declaration of %0%diff{: $ vs $|}1,2">, InGroup, DefaultIgnore; def warn_conflicting_ret_types : Warning< "conflicting return type in " "implementation of %0%diff{: $ vs $|}1,2">, InGroup; def warn_conflicting_overriding_ret_type_modifiers : Warning< "conflicting distributed object modifiers on return type " "in declaration of %0">, InGroup, DefaultIgnore; def warn_conflicting_ret_type_modifiers : Warning< "conflicting distributed object modifiers on return type " "in implementation of %0">, InGroup; def warn_non_covariant_overriding_ret_types : Warning< "conflicting return type in " "declaration of %0: %1 vs %2">, InGroup, DefaultIgnore; def warn_non_covariant_ret_types : Warning< "conflicting return type in " "implementation of %0: %1 vs %2">, InGroup, DefaultIgnore; def warn_conflicting_overriding_param_types : Warning< "conflicting parameter types in " "declaration of %0%diff{: $ vs $|}1,2">, InGroup, DefaultIgnore; def warn_conflicting_param_types : Warning< "conflicting parameter types in " "implementation of %0%diff{: $ vs $|}1,2">, InGroup; def warn_conflicting_param_modifiers : Warning< "conflicting distributed object modifiers on parameter type " "in implementation of %0">, InGroup; def warn_conflicting_overriding_param_modifiers : Warning< "conflicting distributed object modifiers on parameter type " "in declaration of %0">, InGroup, DefaultIgnore; def warn_non_contravariant_overriding_param_types : Warning< "conflicting parameter types in " "declaration of %0: %1 vs %2">, InGroup, DefaultIgnore; def warn_non_contravariant_param_types : Warning< "conflicting parameter types in " "implementation of %0: %1 vs %2">, InGroup, DefaultIgnore; def warn_conflicting_overriding_variadic :Warning< "conflicting variadic declaration of method and its " "implementation">, InGroup, DefaultIgnore; def warn_conflicting_variadic :Warning< "conflicting variadic declaration of method and its " "implementation">; def warn_category_method_impl_match:Warning< "category is implementing a method which will also be implemented" " by its primary class">, InGroup; def warn_implements_nscopying : Warning< "default assign attribute on property %0 which implements " "NSCopying protocol is not appropriate with -fobjc-gc[-only]">; def warn_multiple_method_decl : Warning<"multiple methods named %0 found">, InGroup; def warn_strict_multiple_method_decl : Warning< "multiple methods named %0 found">, InGroup, DefaultIgnore; def warn_accessor_property_type_mismatch : Warning< "type of property %0 does not match type of accessor %1">; def note_conv_function_declared_at : Note<"type conversion function declared here">; def note_method_declared_at : Note<"method %0 declared here">; def note_property_attribute : Note<"property %0 is declared " "%select{deprecated|unavailable|partial}1 here">; def err_setter_type_void : Error<"type of setter must be void">; def err_duplicate_method_decl : Error<"duplicate declaration of method %0">; def warn_duplicate_method_decl : Warning<"multiple declarations of method %0 found and ignored">, InGroup, DefaultIgnore; def warn_objc_cdirective_format_string : Warning<"using %0 directive in %select{NSString|CFString}1 " "which is being passed as a formatting argument to the formatting " "%select{method|CFfunction}2">, InGroup, DefaultIgnore; def err_objc_var_decl_inclass : Error<"cannot declare variable inside @interface or @protocol">; def err_missing_method_context : Error< "missing context for method declaration">; def err_objc_property_attr_mutually_exclusive : Error< "property attributes '%0' and '%1' are mutually exclusive">; def err_objc_property_requires_object : Error< "property with '%0' attribute must be of object type">; def warn_objc_property_no_assignment_attribute : Warning< "no 'assign', 'retain', or 'copy' attribute is specified - " "'assign' is assumed">, InGroup; def warn_objc_isa_use : Warning< "direct access to Objective-C's isa is deprecated in favor of " "object_getClass()">, InGroup; def warn_objc_isa_assign : Warning< "assignment to Objective-C's isa is deprecated in favor of " "object_setClass()">, InGroup; def warn_objc_pointer_masking : Warning< "bitmasking for introspection of Objective-C object pointers is strongly " "discouraged">, InGroup; def warn_objc_pointer_masking_performSelector : Warning, InGroup; def warn_objc_property_default_assign_on_object : Warning< "default property attribute 'assign' not appropriate for non-GC object">, InGroup; def warn_property_attr_mismatch : Warning< "property attribute in class extension does not match the primary class">, InGroup; def warn_property_implicitly_mismatched : Warning < "primary property declaration is implicitly strong while redeclaration " "in class extension is weak">, InGroup>; def warn_objc_property_copy_missing_on_block : Warning< "'copy' attribute must be specified for the block property " "when -fobjc-gc-only is specified">; def warn_objc_property_retain_of_block : Warning< "retain'ed block property does not copy the block " "- use copy attribute instead">, InGroup; def warn_objc_readonly_property_has_setter : Warning< "setter cannot be specified for a readonly property">, InGroup; def warn_atomic_property_rule : Warning< "writable atomic property %0 cannot pair a synthesized %select{getter|setter}1 " "with a user defined %select{getter|setter}2">, InGroup>; def note_atomic_property_fixup_suggest : Note<"setter and getter must both be " "synthesized, or both be user defined,or the property must be nonatomic">; def err_atomic_property_nontrivial_assign_op : Error< "atomic property of reference type %0 cannot have non-trivial assignment" " operator">; def warn_cocoa_naming_owned_rule : Warning< "property follows Cocoa naming" " convention for returning 'owned' objects">, InGroup>; def err_cocoa_naming_owned_rule : Error< "property follows Cocoa naming" " convention for returning 'owned' objects">; def note_cocoa_naming_declare_family : Note< "explicitly declare getter %objcinstance0 with '%1' to return an 'unowned' " "object">; def warn_auto_synthesizing_protocol_property :Warning< "auto property synthesis will not synthesize property %0" " declared in protocol %1">, InGroup>; def note_add_synthesize_directive : Note< "add a '@synthesize' directive">; def warn_no_autosynthesis_shared_ivar_property : Warning < "auto property synthesis will not synthesize property " "%0 because it cannot share an ivar with another synthesized property">, InGroup; def warn_no_autosynthesis_property : Warning< "auto property synthesis will not synthesize property " "%0 because it is 'readwrite' but it will be synthesized 'readonly' " "via another property">, InGroup; def warn_autosynthesis_property_in_superclass : Warning< "auto property synthesis will not synthesize property " "%0; it will be implemented by its superclass, use @dynamic to " "acknowledge intention">, InGroup; def warn_autosynthesis_property_ivar_match :Warning< "autosynthesized property %0 will use %select{|synthesized}1 instance variable " "%2, not existing instance variable %3">, InGroup>; def warn_missing_explicit_synthesis : Warning < "auto property synthesis is synthesizing property not explicitly synthesized">, InGroup>, DefaultIgnore; def warn_property_getter_owning_mismatch : Warning< "property declared as returning non-retained objects" "; getter returning retained objects">; def warn_property_redecl_getter_mismatch : Warning< "getter name mismatch between property redeclaration (%1) and its original " "declaration (%0)">, InGroup; def err_property_setter_ambiguous_use : Error< "synthesized properties %0 and %1 both claim setter %2 -" " use of this setter will cause unexpected behavior">; def warn_default_atomic_custom_getter_setter : Warning< "atomic by default property %0 has a user defined %select{getter|setter}1 " "(property should be marked 'atomic' if this is intended)">, InGroup, DefaultIgnore; def err_use_continuation_class : Error< "illegal redeclaration of property in class extension %0" " (attribute must be 'readwrite', while its primary must be 'readonly')">; def err_type_mismatch_continuation_class : Error< "type of property %0 in class extension does not match " "property type in primary class">; def err_use_continuation_class_redeclaration_readwrite : Error< "illegal redeclaration of 'readwrite' property in class extension %0" " (perhaps you intended this to be a 'readwrite' redeclaration of a " "'readonly' public property?)">; def err_continuation_class : Error<"class extension has no primary class">; def err_property_type : Error<"property cannot have array or function type %0">; def err_missing_property_context : Error< "missing context for property implementation declaration">; def err_bad_property_decl : Error< "property implementation must have its declaration in interface %0 or one of " "its extensions">; def err_category_property : Error< "property declared in category %0 cannot be implemented in " "class implementation">; def note_property_declare : Note< "property declared here">; def note_protocol_property_declare : Note< "it could also be property " "%select{of type %1|without attribute '%1'|with attribute '%1'|with getter " "%1|with setter %1}0 declared here">; def note_property_synthesize : Note< "property synthesized here">; def err_synthesize_category_decl : Error< "@synthesize not allowed in a category's implementation">; def err_synthesize_on_class_property : Error< "@synthesize not allowed on a class property %0">; def err_missing_property_interface : Error< "property implementation in a category with no category declaration">; def err_bad_category_property_decl : Error< "property implementation must have its declaration in the category %0">; def err_bad_property_context : Error< "property implementation must be in a class or category implementation">; def err_missing_property_ivar_decl : Error< "synthesized property %0 must either be named the same as a compatible" " instance variable or must explicitly name an instance variable">; def err_arc_perform_selector_retains : Error< "performSelector names a selector which retains the object">; def warn_arc_perform_selector_leaks : Warning< "performSelector may cause a leak because its selector is unknown">, InGroup>; def warn_dealloc_in_category : Warning< "-dealloc is being overridden in a category">, InGroup; def err_gc_weak_property_strong_type : Error< "weak attribute declared on a __strong type property in GC mode">; def warn_arc_repeated_use_of_weak : Warning < "weak %select{variable|property|implicit property|instance variable}0 %1 is " "accessed multiple times in this %select{function|method|block|lambda}2 " "but may be unpredictably set to nil; assign to a strong variable to keep " "the object alive">, InGroup, DefaultIgnore; def warn_implicitly_retains_self : Warning < "block implicitly retains 'self'; explicitly mention 'self' to indicate " "this is intended behavior">, InGroup>, DefaultIgnore; def warn_arc_possible_repeated_use_of_weak : Warning < "weak %select{variable|property|implicit property|instance variable}0 %1 may " "be accessed multiple times in this %select{function|method|block|lambda}2 " "and may be unpredictably set to nil; assign to a strong variable to keep " "the object alive">, InGroup, DefaultIgnore; def note_arc_weak_also_accessed_here : Note< "also accessed here">; def err_incomplete_synthesized_property : Error< "cannot synthesize property %0 with incomplete type %1">; def err_property_ivar_type : Error< "type of property %0 (%1) does not match type of instance variable %2 (%3)">; def err_property_accessor_type : Error< "type of property %0 (%1) does not match type of accessor %2 (%3)">; def err_ivar_in_superclass_use : Error< "property %0 attempting to use instance variable %1 declared in super class %2">; def err_weak_property : Error< "existing instance variable %1 for __weak property %0 must be __weak">; def err_strong_property : Error< "existing instance variable %1 for strong property %0 may not be __weak">; def err_dynamic_property_ivar_decl : Error< "dynamic property cannot have instance variable specification">; def err_duplicate_ivar_use : Error< "synthesized properties %0 and %1 both claim instance variable %2">; def err_property_implemented : Error<"property %0 is already implemented">; def warn_objc_missing_super_call : Warning< "method possibly missing a [super %0] call">, InGroup; def err_dealloc_bad_result_type : Error< "dealloc return type must be correctly specified as 'void' under ARC, " "instead of %0">; def warn_undeclared_selector : Warning< "undeclared selector %0">, InGroup, DefaultIgnore; def warn_undeclared_selector_with_typo : Warning< "undeclared selector %0; did you mean %1?">, InGroup, DefaultIgnore; def warn_implicit_atomic_property : Warning< "property is assumed atomic by default">, InGroup, DefaultIgnore; def note_auto_readonly_iboutlet_fixup_suggest : Note< "property should be changed to be readwrite">; def warn_auto_readonly_iboutlet_property : Warning< "readonly IBOutlet property %0 when auto-synthesized may " "not work correctly with 'nib' loader">, InGroup>; def warn_auto_implicit_atomic_property : Warning< "property is assumed atomic when auto-synthesizing the property">, InGroup, DefaultIgnore; def warn_unimplemented_selector: Warning< "no method with selector %0 is implemented in this translation unit">, InGroup, DefaultIgnore; def warn_unimplemented_protocol_method : Warning< "method %0 in protocol %1 not implemented">, InGroup; def warn_multiple_selectors: Warning< "several methods with selector %0 of mismatched types are found " "for the @selector expression">, InGroup, DefaultIgnore; def err_objc_kindof_nonobject : Error< "'__kindof' specifier cannot be applied to non-object type %0">; def err_objc_kindof_wrong_position : Error< "'__kindof' type specifier must precede the declarator">; def err_objc_method_unsupported_param_ret_type : Error< "%0 %select{parameter|return}1 type is unsupported; " "support for vector types for this target is introduced in %2">; def warn_messaging_unqualified_id : Warning< "messaging unqualified id">, DefaultIgnore, InGroup>; // C++ declarations def err_static_assert_expression_is_not_constant : Error< "static_assert expression is not an integral constant expression">; def err_static_assert_failed : Error<"static_assert failed%select{ %1|}0">; def err_static_assert_requirement_failed : Error< "static_assert failed due to requirement '%0'%select{ %2|}1">; def ext_static_assert_no_message : ExtWarn< "static_assert with no message is a C++17 extension">, InGroup; def warn_cxx14_compat_static_assert_no_message : Warning< "static_assert with no message is incompatible with C++ standards before C++17">, DefaultIgnore, InGroup; def ext_inline_variable : ExtWarn< "inline variables are a C++17 extension">, InGroup; def warn_cxx14_compat_inline_variable : Warning< "inline variables are incompatible with C++ standards before C++17">, DefaultIgnore, InGroup; def warn_inline_namespace_reopened_noninline : Warning< "inline namespace reopened as a non-inline namespace">; def err_inline_namespace_mismatch : Error< "non-inline namespace cannot be reopened as inline">; def err_unexpected_friend : Error< "friends can only be classes or functions">; def ext_enum_friend : ExtWarn< "befriending enumeration type %0 is a C++11 extension">, InGroup; def warn_cxx98_compat_enum_friend : Warning< "befriending enumeration type %0 is incompatible with C++98">, InGroup, DefaultIgnore; def ext_nonclass_type_friend : ExtWarn< "non-class friend type %0 is a C++11 extension">, InGroup; def warn_cxx98_compat_nonclass_type_friend : Warning< "non-class friend type %0 is incompatible with C++98">, InGroup, DefaultIgnore; def err_friend_is_member : Error< "friends cannot be members of the declaring class">; def warn_cxx98_compat_friend_is_member : Warning< "friend declaration naming a member of the declaring class is incompatible " "with C++98">, InGroup, DefaultIgnore; def ext_unelaborated_friend_type : ExtWarn< "unelaborated friend declaration is a C++11 extension; specify " "'%select{struct|interface|union|class|enum}0' to befriend %1">, InGroup; def warn_cxx98_compat_unelaborated_friend_type : Warning< "befriending %1 without '%select{struct|interface|union|class|enum}0' " "keyword is incompatible with C++98">, InGroup, DefaultIgnore; def err_qualified_friend_not_found : Error< "no function named %0 with type %1 was found in the specified scope">; def err_introducing_special_friend : Error< "%plural{[0,2]:must use a qualified name when declaring|3:cannot declare}0" " a %select{constructor|destructor|conversion operator|deduction guide}0 " "as a friend">; def err_tagless_friend_type_template : Error< "friend type templates must use an elaborated type">; def err_no_matching_local_friend : Error< "no matching function found in local scope">; def err_no_matching_local_friend_suggest : Error< "no matching function %0 found in local scope; did you mean %3?">; def err_partial_specialization_friend : Error< "partial specialization cannot be declared as a friend">; def err_qualified_friend_def : Error< "friend function definition cannot be qualified with '%0'">; def err_friend_def_in_local_class : Error< "friend function cannot be defined in a local class">; def err_friend_not_first_in_declaration : Error< "'friend' must appear first in a non-function declaration">; def err_using_decl_friend : Error< "cannot befriend target of using declaration">; def warn_template_qualified_friend_unsupported : Warning< "dependent nested name specifier '%0' for friend class declaration is " "not supported; turning off access control for %1">, InGroup; def warn_template_qualified_friend_ignored : Warning< "dependent nested name specifier '%0' for friend template declaration is " "not supported; ignoring this friend declaration">, InGroup; def ext_friend_tag_redecl_outside_namespace : ExtWarn< "unqualified friend declaration referring to type outside of the nearest " "enclosing namespace is a Microsoft extension; add a nested name specifier">, InGroup; def err_pure_friend : Error<"friend declaration cannot have a pure-specifier">; def err_invalid_member_in_interface : Error< "%select{data member |non-public member function |static member function |" "user-declared constructor|user-declared destructor|operator |" "nested class }0%1 is not permitted within an interface type">; def err_invalid_base_in_interface : Error< "interface type cannot inherit from " "%select{'struct|non-public 'interface|'class}0 %1'">; def err_abstract_type_in_decl : Error< "%select{return|parameter|variable|field|instance variable|" "synthesized instance variable}0 type %1 is an abstract class">; def err_allocation_of_abstract_type : Error< "allocating an object of abstract class type %0">; def err_throw_abstract_type : Error< "cannot throw an object of abstract type %0">; def err_array_of_abstract_type : Error<"array of abstract class type %0">; def err_capture_of_abstract_type : Error< "by-copy capture of value of abstract type %0">; def err_capture_of_incomplete_type : Error< "by-copy capture of variable %0 with incomplete type %1">; def err_capture_default_non_local : Error< "non-local lambda expression cannot have a capture-default">; def err_multiple_final_overriders : Error< "virtual function %q0 has more than one final overrider in %1">; def note_final_overrider : Note<"final overrider of %q0 in %1">; def err_type_defined_in_type_specifier : Error< "%0 cannot be defined in a type specifier">; def err_type_defined_in_result_type : Error< "%0 cannot be defined in the result type of a function">; def err_type_defined_in_param_type : Error< "%0 cannot be defined in a parameter type">; def err_type_defined_in_alias_template : Error< "%0 cannot be defined in a type alias template">; def err_type_defined_in_condition : Error< "%0 cannot be defined in a condition">; def err_type_defined_in_enum : Error< "%0 cannot be defined in an enumeration">; def note_pure_virtual_function : Note< "unimplemented pure virtual method %0 in %1">; def note_pure_qualified_call_kext : Note< "qualified call to %0::%1 is treated as a virtual call to %1 due to -fapple-kext">; def err_deleted_decl_not_first : Error< "deleted definition must be first declaration">; def err_deleted_override : Error< "deleted function %0 cannot override a non-deleted function">; def err_non_deleted_override : Error< "non-deleted function %0 cannot override a deleted function">; def warn_weak_vtable : Warning< "%0 has no out-of-line virtual method definitions; its vtable will be " "emitted in every translation unit">, InGroup>, DefaultIgnore; def warn_weak_template_vtable : Warning< "explicit template instantiation %0 will emit a vtable in every " "translation unit">, InGroup>, DefaultIgnore; def ext_using_undefined_std : ExtWarn< "using directive refers to implicitly-defined namespace 'std'">; // C++ exception specifications def err_exception_spec_in_typedef : Error< "exception specifications are not allowed in %select{typedefs|type aliases}0">; def err_distant_exception_spec : Error< "exception specifications are not allowed beyond a single level " "of indirection">; def err_incomplete_in_exception_spec : Error< "%select{|pointer to |reference to }0incomplete type %1 is not allowed " "in exception specification">; def ext_incomplete_in_exception_spec : ExtWarn, InGroup; def err_rref_in_exception_spec : Error< "rvalue reference type %0 is not allowed in exception specification">; def err_mismatched_exception_spec : Error< "exception specification in declaration does not match previous declaration">; def ext_mismatched_exception_spec : ExtWarn, InGroup; def err_override_exception_spec : Error< "exception specification of overriding function is more lax than " "base version">; def ext_override_exception_spec : ExtWarn, InGroup; def err_incompatible_exception_specs : Error< "target exception specification is not superset of source">; def warn_incompatible_exception_specs : Warning< err_incompatible_exception_specs.Text>, InGroup; def err_deep_exception_specs_differ : Error< "exception specifications of %select{return|argument}0 types differ">; def warn_deep_exception_specs_differ : Warning< err_deep_exception_specs_differ.Text>, InGroup; def err_missing_exception_specification : Error< "%0 is missing exception specification '%1'">; def ext_missing_exception_specification : ExtWarn< err_missing_exception_specification.Text>, InGroup>; def ext_ms_missing_exception_specification : ExtWarn< err_missing_exception_specification.Text>, InGroup; def err_noexcept_needs_constant_expression : Error< "argument to noexcept specifier must be a constant expression">; def err_exception_spec_not_parsed : Error< "exception specification is not available until end of class definition">; // C++ access checking def err_class_redeclared_with_different_access : Error< "%0 redeclared with '%1' access">; def err_access : Error< "%1 is a %select{private|protected}0 member of %3">, AccessControl; def ext_ms_using_declaration_inaccessible : ExtWarn< "using declaration referring to inaccessible member '%0' (which refers " "to accessible member '%1') is a Microsoft compatibility extension">, AccessControl, InGroup; def err_access_ctor : Error< "calling a %select{private|protected}0 constructor of class %2">, AccessControl; def ext_rvalue_to_reference_access_ctor : Extension< "C++98 requires an accessible copy constructor for class %2 when binding " "a reference to a temporary; was %select{private|protected}0">, AccessControl, InGroup; def err_access_base_ctor : Error< // The ERRORs represent other special members that aren't constructors, in // hopes that someone will bother noticing and reporting if they appear "%select{base class|inherited virtual base class}0 %1 has %select{private|" "protected}3 %select{default |copy |move |*ERROR* |*ERROR* " "|*ERROR*|}2constructor">, AccessControl; def err_access_field_ctor : Error< // The ERRORs represent other special members that aren't constructors, in // hopes that someone will bother noticing and reporting if they appear "field of type %0 has %select{private|protected}2 " "%select{default |copy |move |*ERROR* |*ERROR* |*ERROR* |}1constructor">, AccessControl; def err_access_friend_function : Error< "friend function %1 is a %select{private|protected}0 member of %3">, AccessControl; def err_access_dtor : Error< "calling a %select{private|protected}1 destructor of class %0">, AccessControl; def err_access_dtor_base : Error<"base class %0 has %select{private|protected}1 destructor">, AccessControl; def err_access_dtor_vbase : Error<"inherited virtual base class %1 has " "%select{private|protected}2 destructor">, AccessControl; def err_access_dtor_temp : Error<"temporary of type %0 has %select{private|protected}1 destructor">, AccessControl; def err_access_dtor_exception : Error<"exception object of type %0 has %select{private|protected}1 " "destructor">, AccessControl; def err_access_dtor_field : Error<"field of type %1 has %select{private|protected}2 destructor">, AccessControl; def err_access_dtor_var : Error<"variable of type %1 has %select{private|protected}2 destructor">, AccessControl; def err_access_dtor_ivar : Error<"instance variable of type %0 has %select{private|protected}1 " "destructor">, AccessControl; def note_previous_access_declaration : Note< "previously declared '%1' here">; def note_access_natural : Note< "%select{|implicitly }1declared %select{private|protected}0 here">; def note_access_constrained_by_path : Note< "constrained by %select{|implicitly }1%select{private|protected}0" " inheritance here">; def note_access_protected_restricted_noobject : Note< "must name member using the type of the current context %0">; def note_access_protected_restricted_ctordtor : Note< "protected %select{constructor|destructor}0 can only be used to " "%select{construct|destroy}0 a base class subobject">; def note_access_protected_restricted_object : Note< "can only access this member on an object of type %0">; def warn_cxx98_compat_sfinae_access_control : Warning< "substitution failure due to access control is incompatible with C++98">, InGroup, DefaultIgnore, NoSFINAE; // C++ name lookup def err_incomplete_nested_name_spec : Error< "incomplete type %0 named in nested name specifier">; def err_dependent_nested_name_spec : Error< "nested name specifier for a declaration cannot depend on a template " "parameter">; def err_nested_name_member_ref_lookup_ambiguous : Error< "lookup of %0 in member access expression is ambiguous">; def ext_nested_name_member_ref_lookup_ambiguous : ExtWarn< "lookup of %0 in member access expression is ambiguous; using member of %1">, InGroup; def note_ambig_member_ref_object_type : Note< "lookup in the object type %0 refers here">; def note_ambig_member_ref_scope : Note< "lookup from the current scope refers here">; def err_qualified_member_nonclass : Error< "qualified member access refers to a member in %0">; def err_incomplete_member_access : Error< "member access into incomplete type %0">; def err_incomplete_type : Error< "incomplete type %0 where a complete type is required">; def warn_cxx98_compat_enum_nested_name_spec : Warning< "enumeration type in nested name specifier is incompatible with C++98">, InGroup, DefaultIgnore; def err_nested_name_spec_is_not_class : Error< "%0 cannot appear before '::' because it is not a class" "%select{ or namespace|, namespace, or enumeration}1; did you mean ':'?">; def ext_nested_name_spec_is_enum : ExtWarn< "use of enumeration in a nested name specifier is a C++11 extension">, InGroup; def err_out_of_line_qualified_id_type_names_constructor : Error< "qualified reference to %0 is a constructor name rather than a " "%select{template name|type}1 in this context">; def ext_out_of_line_qualified_id_type_names_constructor : ExtWarn< "ISO C++ specifies that " "qualified reference to %0 is a constructor name rather than a " "%select{template name|type}1 in this context, despite preceding " "%select{'typename'|'template'}2 keyword">, SFINAEFailure, InGroup>; // C++ class members def err_storageclass_invalid_for_member : Error< "storage class specified for a member declaration">; def err_mutable_function : Error<"'mutable' cannot be applied to functions">; def err_mutable_reference : Error<"'mutable' cannot be applied to references">; def ext_mutable_reference : ExtWarn< "'mutable' on a reference type is a Microsoft extension">, InGroup; def err_mutable_const : Error<"'mutable' and 'const' cannot be mixed">; def err_mutable_nonmember : Error< "'mutable' can only be applied to member variables">; def err_virtual_in_union : Error< "unions cannot have virtual functions">; def err_virtual_non_function : Error< "'virtual' can only appear on non-static member functions">; def err_virtual_out_of_class : Error< "'virtual' can only be specified inside the class definition">; def err_virtual_member_function_template : Error< "'virtual' cannot be specified on member function templates">; def err_static_overrides_virtual : Error< "'static' member function %0 overrides a virtual function in a base class">; def err_explicit_non_function : Error< "'explicit' can only appear on non-static member functions">; def err_explicit_out_of_class : Error< "'explicit' can only be specified inside the class definition">; def err_explicit_non_ctor_or_conv_function : Error< "'explicit' can only be applied to a constructor or conversion function">; def err_static_not_bitfield : Error<"static member %0 cannot be a bit-field">; def err_static_out_of_line : Error< "'static' can only be specified inside the class definition">; def err_storage_class_for_static_member : Error< "static data member definition cannot specify a storage class">; def err_typedef_not_bitfield : Error<"typedef member %0 cannot be a bit-field">; def err_not_integral_type_bitfield : Error< "bit-field %0 has non-integral type %1">; def err_not_integral_type_anon_bitfield : Error< "anonymous bit-field has non-integral type %0">; def err_member_function_initialization : Error< "initializer on function does not look like a pure-specifier">; def err_non_virtual_pure : Error< "%0 is not virtual and cannot be declared pure">; def ext_pure_function_definition : ExtWarn< "function definition with pure-specifier is a Microsoft extension">, InGroup; def err_qualified_member_of_unrelated : Error< "%q0 is not a member of class %1">; def err_member_function_call_bad_cvr : Error< "'this' argument to member function %0 has type %1, but function is not marked " "%select{const|restrict|const or restrict|volatile|const or volatile|" "volatile or restrict|const, volatile, or restrict}2">; def err_member_function_call_bad_ref : Error< "'this' argument to member function %0 is an %select{lvalue|rvalue}1, " "but function has %select{non-const lvalue|rvalue}2 ref-qualifier">; def err_member_function_call_bad_type : Error< "cannot initialize object parameter of type %0 with an expression " "of type %1">; def warn_call_to_pure_virtual_member_function_from_ctor_dtor : Warning< "call to pure virtual member function %0 has undefined behavior; " "overrides of %0 in subclasses are not available in the " "%select{constructor|destructor}1 of %2">; def note_member_declared_at : Note<"member is declared here">; def note_ivar_decl : Note<"instance variable is declared here">; def note_bitfield_decl : Note<"bit-field is declared here">; def note_implicit_param_decl : Note<"%0 is an implicit parameter">; def note_member_synthesized_at : Note< "in implicit %select{default constructor|copy constructor|move constructor|" "copy assignment operator|move assignment operator|destructor}0 for %1 " "first required here">; def err_missing_default_ctor : Error< "%select{constructor for %1 must explicitly initialize the|" "implicit default constructor for %1 must explicitly initialize the|" "cannot use constructor inherited from base class %4;}0 " "%select{base class|member}2 %3 %select{which|which|of %1}0 " "does not have a default constructor">; def note_due_to_dllexported_class : Note< "due to '%0' being dllexported%select{|; try compiling in C++11 mode}1">; def err_illegal_union_or_anon_struct_member : Error< "%select{anonymous struct|union}0 member %1 has a non-trivial " "%select{constructor|copy constructor|move constructor|copy assignment " "operator|move assignment operator|destructor}2">; def warn_cxx98_compat_nontrivial_union_or_anon_struct_member : Warning< "%select{anonymous struct|union}0 member %1 with a non-trivial " "%select{constructor|copy constructor|move constructor|copy assignment " "operator|move assignment operator|destructor}2 is incompatible with C++98">, InGroup, DefaultIgnore; def note_nontrivial_virtual_dtor : Note< "destructor for %0 is not trivial because it is virtual">; def note_nontrivial_has_virtual : Note< "because type %0 has a virtual %select{member function|base class}1">; def note_nontrivial_no_def_ctor : Note< "because %select{base class of |field of |}0type %1 has no " "default constructor">; def note_user_declared_ctor : Note< "implicit default constructor suppressed by user-declared constructor">; def note_nontrivial_no_copy : Note< "because no %select{<>|constructor|constructor|assignment operator|" "assignment operator|<>}2 can be used to " "%select{<>|copy|move|copy|move|<>}2 " "%select{base class|field|an object}0 of type %3">; def note_nontrivial_user_provided : Note< "because %select{base class of |field of |}0type %1 has a user-provided " "%select{default constructor|copy constructor|move constructor|" "copy assignment operator|move assignment operator|destructor}2">; def note_nontrivial_in_class_init : Note< "because field %0 has an initializer">; def note_nontrivial_param_type : Note< "because its parameter is %diff{of type $, not $|of the wrong type}2,3">; def note_nontrivial_default_arg : Note<"because it has a default argument">; def note_nontrivial_variadic : Note<"because it is a variadic function">; def note_nontrivial_subobject : Note< "because the function selected to %select{construct|copy|move|copy|move|" "destroy}2 %select{base class|field}0 of type %1 is not trivial">; def note_nontrivial_objc_ownership : Note< "because type %0 has a member with %select{no|no|__strong|__weak|" "__autoreleasing}1 ownership">; def err_static_data_member_not_allowed_in_anon_struct : Error< "static data member %0 not allowed in anonymous struct">; def ext_static_data_member_in_union : ExtWarn< "static data member %0 in union is a C++11 extension">, InGroup; def warn_cxx98_compat_static_data_member_in_union : Warning< "static data member %0 in union is incompatible with C++98">, InGroup, DefaultIgnore; def ext_union_member_of_reference_type : ExtWarn< "union member %0 has reference type %1, which is a Microsoft extension">, InGroup; def err_union_member_of_reference_type : Error< "union member %0 has reference type %1">; def ext_anonymous_struct_union_qualified : Extension< "anonymous %select{struct|union}0 cannot be '%1'">; def err_different_return_type_for_overriding_virtual_function : Error< "virtual function %0 has a different return type " "%diff{($) than the function it overrides (which has return type $)|" "than the function it overrides}1,2">; def note_overridden_virtual_function : Note< "overridden virtual function is here">; def err_conflicting_overriding_cc_attributes : Error< "virtual function %0 has different calling convention attributes " "%diff{($) than the function it overrides (which has calling convention $)|" "than the function it overrides}1,2">; def warn_overriding_method_missing_noescape : Warning< "parameter of overriding method should be annotated with " "__attribute__((noescape))">, InGroup; def note_overridden_marked_noescape : Note< "parameter of overridden method is annotated with __attribute__((noescape))">; def err_covariant_return_inaccessible_base : Error< "invalid covariant return for virtual function: %1 is a " "%select{private|protected}2 base class of %0">, AccessControl; def err_covariant_return_ambiguous_derived_to_base_conv : Error< "return type of virtual function %3 is not covariant with the return type of " "the function it overrides (ambiguous conversion from derived class " "%0 to base class %1:%2)">; def err_covariant_return_not_derived : Error< "return type of virtual function %0 is not covariant with the return type of " "the function it overrides (%1 is not derived from %2)">; def err_covariant_return_incomplete : Error< "return type of virtual function %0 is not covariant with the return type of " "the function it overrides (%1 is incomplete)">; def err_covariant_return_type_different_qualifications : Error< "return type of virtual function %0 is not covariant with the return type of " "the function it overrides (%1 has different qualifiers than %2)">; def err_covariant_return_type_class_type_more_qualified : Error< "return type of virtual function %0 is not covariant with the return type of " "the function it overrides (class type %1 is more qualified than class " "type %2">; // C++ implicit special member functions def note_in_declaration_of_implicit_special_member : Note< "while declaring the implicit " "%select{default constructor|copy constructor|move constructor|" "copy assignment operator|move assignment operator|destructor}1" " for %0">; // C++ constructors def err_constructor_cannot_be : Error<"constructor cannot be declared '%0'">; def err_invalid_qualified_constructor : Error< "'%0' qualifier is not allowed on a constructor">; def err_ref_qualifier_constructor : Error< "ref-qualifier '%select{&&|&}0' is not allowed on a constructor">; def err_constructor_return_type : Error< "constructor cannot have a return type">; def err_constructor_redeclared : Error<"constructor cannot be redeclared">; def err_constructor_byvalue_arg : Error< "copy constructor must pass its first argument by reference">; def warn_no_constructor_for_refconst : Warning< "%select{struct|interface|union|class|enum}0 %1 does not declare any " "constructor to initialize its non-modifiable members">; def note_refconst_member_not_initialized : Note< "%select{const|reference}0 member %1 will never be initialized">; def ext_ms_explicit_constructor_call : ExtWarn< "explicit constructor calls are a Microsoft extension">, InGroup; // C++ destructors def err_destructor_not_member : Error< "destructor must be a non-static member function">; def err_destructor_cannot_be : Error<"destructor cannot be declared '%0'">; def err_invalid_qualified_destructor : Error< "'%0' qualifier is not allowed on a destructor">; def err_ref_qualifier_destructor : Error< "ref-qualifier '%select{&&|&}0' is not allowed on a destructor">; def err_destructor_return_type : Error<"destructor cannot have a return type">; def err_destructor_redeclared : Error<"destructor cannot be redeclared">; def err_destructor_with_params : Error<"destructor cannot have any parameters">; def err_destructor_variadic : Error<"destructor cannot be variadic">; def err_destructor_typedef_name : Error< "destructor cannot be declared using a %select{typedef|type alias}1 %0 of the class name">; def err_destructor_name : Error< "expected the class name after '~' to name the enclosing class">; def err_destructor_class_name : Error< "expected the class name after '~' to name a destructor">; def err_ident_in_dtor_not_a_type : Error< "identifier %0 in object destruction expression does not name a type">; def err_destructor_expr_type_mismatch : Error< "destructor type %0 in object destruction expression does not match the " "type %1 of the object being destroyed">; def note_destructor_type_here : Note< "type %0 is declared here">; def err_destructor_template : Error< "destructor cannot be declared as a template">; // C++ initialization def err_init_conversion_failed : Error< "cannot initialize %select{a variable|a parameter|return object|an " "exception object|a member subobject|an array element|a new value|a value|a " "base class|a constructor delegation|a vector element|a block element|a " "block element|a complex element|a lambda capture|a compound literal " "initializer|a related result|a parameter of CF audited function}0 " "%diff{of type $ with an %select{rvalue|lvalue}2 of type $|" "with an %select{rvalue|lvalue}2 of incompatible type}1,3" "%select{|: different classes%diff{ ($ vs $)|}5,6" "|: different number of parameters (%5 vs %6)" "|: type mismatch at %ordinal5 parameter%diff{ ($ vs $)|}6,7" "|: different return type%diff{ ($ vs $)|}5,6" "|: different qualifiers (" "%select{none|const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}5 vs " "%select{none|const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}6)" "|: different exception specifications}4">; def err_lvalue_to_rvalue_ref : Error<"rvalue reference %diff{to type $ cannot " "bind to lvalue of type $|cannot bind to incompatible lvalue}0,1">; def err_lvalue_reference_bind_to_initlist : Error< "%select{non-const|volatile}0 lvalue reference to type %1 cannot bind to an " "initializer list temporary">; def err_lvalue_reference_bind_to_temporary : Error< "%select{non-const|volatile}0 lvalue reference %diff{to type $ cannot bind " "to a temporary of type $|cannot bind to incompatible temporary}1,2">; def err_lvalue_reference_bind_to_unrelated : Error< "%select{non-const|volatile}0 lvalue reference " "%diff{to type $ cannot bind to a value of unrelated type $|" "cannot bind to a value of unrelated type}1,2">; def err_reference_bind_drops_quals : Error< "binding value %diff{of type $ to reference to type $|to reference}0,1 " "drops %select{<>|'const'|'restrict'|'const' and 'restrict'|" "'volatile'|'const' and 'volatile'|'restrict' and 'volatile'|" "'const', 'restrict', and 'volatile'}2 qualifier%plural{1:|2:|4:|:s}2">; def err_reference_bind_failed : Error< "reference %diff{to type $ could not bind to an %select{rvalue|lvalue}1 of " "type $|could not bind to %select{rvalue|lvalue}1 of incompatible type}0,2">; def err_reference_bind_init_list : Error< "reference to type %0 cannot bind to an initializer list">; def warn_temporary_array_to_pointer_decay : Warning< "pointer is initialized by a temporary array, which will be destroyed at the " "end of the full-expression">, InGroup>; def err_init_list_bad_dest_type : Error< "%select{|non-aggregate }0type %1 cannot be initialized with an initializer " "list">; def err_reference_bind_to_bitfield : Error< "%select{non-const|volatile}0 reference cannot bind to " "bit-field%select{| %1}2">; def err_reference_bind_to_vector_element : Error< "%select{non-const|volatile}0 reference cannot bind to vector element">; def err_reference_var_requires_init : Error< "declaration of reference variable %0 requires an initializer">; def err_reference_without_init : Error< "reference to type %0 requires an initializer">; def note_value_initialization_here : Note< "in value-initialization of type %0 here">; def err_reference_has_multiple_inits : Error< "reference cannot be initialized with multiple values">; def err_init_non_aggr_init_list : Error< "initialization of non-aggregate type %0 with an initializer list">; def err_init_reference_member_uninitialized : Error< "reference member of type %0 uninitialized">; def note_uninit_reference_member : Note< "uninitialized reference member is here">; def warn_field_is_uninit : Warning<"field %0 is uninitialized when used here">, InGroup; def warn_base_class_is_uninit : Warning< "base class %0 is uninitialized when used here to access %q1">, InGroup; def warn_reference_field_is_uninit : Warning< "reference %0 is not yet bound to a value when used here">, InGroup; def note_uninit_in_this_constructor : Note< "during field initialization in %select{this|the implicit default}0 " "constructor">; def warn_static_self_reference_in_init : Warning< "static variable %0 is suspiciously used within its own initialization">, InGroup; def warn_uninit_self_reference_in_init : Warning< "variable %0 is uninitialized when used within its own initialization">, InGroup; def warn_uninit_self_reference_in_reference_init : Warning< "reference %0 is not yet bound to a value when used within its own" " initialization">, InGroup; def warn_uninit_var : Warning< "variable %0 is uninitialized when %select{used here|captured by block}1">, InGroup, DefaultIgnore; def warn_sometimes_uninit_var : Warning< "variable %0 is %select{used|captured}1 uninitialized whenever " "%select{'%3' condition is %select{true|false}4|" "'%3' loop %select{is entered|exits because its condition is false}4|" "'%3' loop %select{condition is true|exits because its condition is false}4|" "switch %3 is taken|" "its declaration is reached|" "%3 is called}2">, InGroup, DefaultIgnore; def warn_maybe_uninit_var : Warning< "variable %0 may be uninitialized when " "%select{used here|captured by block}1">, InGroup, DefaultIgnore; def note_var_declared_here : Note<"variable %0 is declared here">; def note_uninit_var_use : Note< "%select{uninitialized use occurs|variable is captured by block}0 here">; def warn_uninit_byref_blockvar_captured_by_block : Warning< "block pointer variable %0 is uninitialized when captured by block">, InGroup, DefaultIgnore; def note_block_var_fixit_add_initialization : Note< "did you mean to use __block %0?">; def note_in_omitted_aggregate_initializer : Note< "in implicit initialization of %select{" "array element %1 with omitted initializer|" "field %1 with omitted initializer|" "trailing array elements in runtime-sized array new}0">; def note_in_reference_temporary_list_initializer : Note< "in initialization of temporary of type %0 created to " "list-initialize this reference">; def note_var_fixit_add_initialization : Note< "initialize the variable %0 to silence this warning">; def note_uninit_fixit_remove_cond : Note< "remove the %select{'%1' if its condition|condition if it}0 " "is always %select{false|true}2">; def err_init_incomplete_type : Error<"initialization of incomplete type %0">; def err_list_init_in_parens : Error< "cannot initialize %select{non-class|reference}0 type %1 with a " "parenthesized initializer list">; def warn_unsequenced_mod_mod : Warning< "multiple unsequenced modifications to %0">, InGroup; def warn_unsequenced_mod_use : Warning< "unsequenced modification and access to %0">, InGroup; def err_temp_copy_no_viable : Error< "no viable constructor %select{copying variable|copying parameter|" "returning object|throwing object|copying member subobject|copying array " "element|allocating object|copying temporary|initializing base subobject|" "initializing vector element|capturing value}0 of type %1">; def ext_rvalue_to_reference_temp_copy_no_viable : Extension< "no viable constructor %select{copying variable|copying parameter|" "returning object|throwing object|copying member subobject|copying array " "element|allocating object|copying temporary|initializing base subobject|" "initializing vector element|capturing value}0 of type %1; C++98 requires a copy " "constructor when binding a reference to a temporary">, InGroup; def err_temp_copy_ambiguous : Error< "ambiguous constructor call when %select{copying variable|copying " "parameter|returning object|throwing object|copying member subobject|copying " "array element|allocating object|copying temporary|initializing base subobject|" "initializing vector element|capturing value}0 of type %1">; def err_temp_copy_deleted : Error< "%select{copying variable|copying parameter|returning object|throwing " "object|copying member subobject|copying array element|allocating object|" "copying temporary|initializing base subobject|initializing vector element|" "capturing value}0 of type %1 invokes deleted constructor">; def err_temp_copy_incomplete : Error< "copying a temporary object of incomplete type %0">; def warn_cxx98_compat_temp_copy : Warning< "%select{copying variable|copying parameter|returning object|throwing " "object|copying member subobject|copying array element|allocating object|" "copying temporary|initializing base subobject|initializing vector element}1 " "of type %2 when binding a reference to a temporary would %select{invoke " "an inaccessible constructor|find no viable constructor|find ambiguous " "constructors|invoke a deleted constructor}0 in C++98">, InGroup, DefaultIgnore; def err_selected_explicit_constructor : Error< "chosen constructor is explicit in copy-initialization">; def note_explicit_ctor_deduction_guide_here : Note< "explicit %select{constructor|deduction guide}0 declared here">; // C++11 decltype def err_decltype_in_declarator : Error< "'decltype' cannot be used to name a declaration">; // C++11 auto def warn_cxx98_compat_auto_type_specifier : Warning< "'auto' type specifier is incompatible with C++98">, InGroup, DefaultIgnore; def err_auto_variable_cannot_appear_in_own_initializer : Error< "variable %0 declared with deduced type %1 " "cannot appear in its own initializer">; def err_binding_cannot_appear_in_own_initializer : Error< "binding %0 cannot appear in the initializer of its own " "decomposition declaration">; def err_illegal_decl_array_of_auto : Error< "'%0' declared as array of %1">; def err_new_array_of_auto : Error< "cannot allocate array of 'auto'">; def err_auto_not_allowed : Error< "%select{'auto'|'decltype(auto)'|'__auto_type'|" "use of " "%select{class template|function template|variable template|alias template|" "template template parameter|template}2 %3 requires template arguments; " "argument deduction}0 not allowed " "%select{in function prototype" "|in non-static struct member|in struct member" "|in non-static union member|in union member" "|in non-static class member|in interface member" "|in exception declaration|in template parameter until C++17|in block literal" "|in template argument|in typedef|in type alias|in function return type" "|in conversion function type|here|in lambda parameter" "|in type allocated by 'new'|in K&R-style function parameter" "|in template parameter|in friend declaration}1">; def err_dependent_deduced_tst : Error< "typename specifier refers to " "%select{class template|function template|variable template|alias template|" "template template parameter|template}0 member in %1; " "argument deduction not allowed here">; def err_auto_not_allowed_var_inst : Error< "'auto' variable template instantiation is not allowed">; def err_auto_var_requires_init : Error< "declaration of variable %0 with deduced type %1 requires an initializer">; def err_auto_new_requires_ctor_arg : Error< "new expression for type %0 requires a constructor argument">; def ext_auto_new_list_init : Extension< "ISO C++ standards before C++17 do not allow new expression for " "type %0 to use list-initialization">, InGroup; def err_auto_var_init_no_expression : Error< "initializer for variable %0 with type %1 is empty">; def err_auto_var_init_multiple_expressions : Error< "initializer for variable %0 with type %1 contains multiple expressions">; def err_auto_var_init_paren_braces : Error< "cannot deduce type for variable %1 with type %2 from " "%select{parenthesized|nested}0 initializer list">; def err_auto_new_ctor_multiple_expressions : Error< "new expression for type %0 contains multiple constructor arguments">; def err_auto_missing_trailing_return : Error< "'auto' return without trailing return type; deduced return types are a " "C++14 extension">; def err_deduced_return_type : Error< "deduced return types are a C++14 extension">; def err_trailing_return_without_auto : Error< "function with trailing return type must specify return type 'auto', not %0">; def err_trailing_return_in_parens : Error< "trailing return type may not be nested within parentheses">; def err_auto_var_deduction_failure : Error< "variable %0 with type %1 has incompatible initializer of type %2">; def err_auto_var_deduction_failure_from_init_list : Error< "cannot deduce actual type for variable %0 with type %1 from initializer list">; def err_auto_new_deduction_failure : Error< "new expression for type %0 has incompatible constructor argument of type %1">; def err_auto_inconsistent_deduction : Error< "deduced conflicting types %diff{($ vs $) |}0,1" "for initializer list element type">; def err_auto_different_deductions : Error< "%select{'auto'|'decltype(auto)'|'__auto_type'|template arguments}0 " "deduced as %1 in declaration of %2 and " "deduced as %3 in declaration of %4">; def err_auto_non_deduced_not_alone : Error< "%select{function with deduced return type|" "declaration with trailing return type}0 " "must be the only declaration in its group">; def err_implied_std_initializer_list_not_found : Error< "cannot deduce type of initializer list because std::initializer_list was " "not found; include ">; def err_malformed_std_initializer_list : Error< "std::initializer_list must be a class template with a single type parameter">; def warn_dangling_std_initializer_list : Warning< "array backing the initializer list will be destroyed at the end of " "%select{the full-expression|the constructor}0">, InGroup>; def err_auto_init_list_from_c : Error< "cannot use __auto_type with initializer list in C">; def err_auto_bitfield : Error< "cannot pass bit-field as __auto_type initializer in C">; // C++1y decltype(auto) type def err_decltype_auto_invalid : Error< "'decltype(auto)' not allowed here">; def err_decltype_auto_cannot_be_combined : Error< "'decltype(auto)' cannot be combined with other type specifiers">; def err_decltype_auto_function_declarator_not_declaration : Error< "'decltype(auto)' can only be used as a return type " "in a function declaration">; def err_decltype_auto_compound_type : Error< "cannot form %select{pointer to|reference to|array of}0 'decltype(auto)'">; def err_decltype_auto_initializer_list : Error< "cannot deduce 'decltype(auto)' from initializer list">; // C++17 deduced class template specialization types def err_deduced_class_template_compound_type : Error< "cannot %select{form pointer to|form reference to|form array of|" "form function returning|use parentheses when declaring variable with}0 " "deduced class template specialization type">; def err_deduced_non_class_template_specialization_type : Error< "%select{|function template|variable template|alias template|" "template template parameter|template}0 %1 requires template arguments; " "argument deduction only allowed for class templates">; def err_deduced_class_template_ctor_ambiguous : Error< "ambiguous deduction for template arguments of %0">; def err_deduced_class_template_ctor_no_viable : Error< "no viable constructor or deduction guide for deduction of " "template arguments of %0">; def err_deduced_class_template_incomplete : Error< "template %0 has no definition and no %select{|viable }1deduction guides " "for deduction of template arguments">; def err_deduced_class_template_deleted : Error< "class template argument deduction for %0 selected a deleted constructor">; def err_deduced_class_template_explicit : Error< "class template argument deduction for %0 selected an explicit " "%select{constructor|deduction guide}1 for copy-list-initialization">; def err_deduction_guide_no_trailing_return_type : Error< "deduction guide declaration without trailing return type">; def err_deduction_guide_bad_trailing_return_type : Error< "deduced type %1 of deduction guide is not %select{|written as }2" "a specialization of template %0">; def err_deduction_guide_with_complex_decl : Error< "cannot specify any part of a return type in the " "declaration of a deduction guide">; def err_deduction_guide_invalid_specifier : Error< "deduction guide cannot be declared '%0'">; def err_deduction_guide_name_not_class_template : Error< "cannot specify deduction guide for " "%select{|function template|variable template|alias template|" "template template parameter|dependent template name}0 %1">; def err_deduction_guide_wrong_scope : Error< "deduction guide must be declared in the same scope as template %q0">; def err_deduction_guide_defines_function : Error< "deduction guide cannot have a function definition">; def err_deduction_guide_explicit_mismatch : Error< "deduction guide is %select{not |}0declared 'explicit' but " "previous declaration was%select{ not|}0">; def err_deduction_guide_specialized : Error<"deduction guide cannot be " "%select{explicitly instantiated|explicitly specialized}0">; def err_deduction_guide_template_not_deducible : Error< "deduction guide template contains " "%select{a template parameter|template parameters}0 that cannot be " "deduced">; // C++1y deduced return types def err_auto_fn_deduction_failure : Error< "cannot deduce return type %0 from returned value of type %1">; def err_auto_fn_different_deductions : Error< "'%select{auto|decltype(auto)}0' in return type deduced as %1 here but " "deduced as %2 in earlier return statement">; def err_auto_fn_used_before_defined : Error< "function %0 with deduced return type cannot be used before it is defined">; def err_auto_fn_no_return_but_not_auto : Error< "cannot deduce return type %0 for function with no return statements">; def err_auto_fn_return_void_but_not_auto : Error< "cannot deduce return type %0 from omitted return expression">; def err_auto_fn_return_init_list : Error< "cannot deduce return type from initializer list">; def err_auto_fn_virtual : Error< "function with deduced return type cannot be virtual">; // C++11 override control def override_keyword_only_allowed_on_virtual_member_functions : Error< "only virtual member functions can be marked '%0'">; def override_keyword_hides_virtual_member_function : Error< "non-virtual member function marked '%0' hides virtual member " "%select{function|functions}1">; def err_function_marked_override_not_overriding : Error< "%0 marked 'override' but does not override any member functions">; def warn_destructor_marked_not_override_overriding : Warning < "%0 overrides a destructor but is not marked 'override'">, InGroup, DefaultIgnore; def warn_function_marked_not_override_overriding : Warning < "%0 overrides a member function but is not marked 'override'">, InGroup; def err_class_marked_final_used_as_base : Error< "base %0 is marked '%select{final|sealed}1'">; def warn_abstract_final_class : Warning< "abstract class is marked '%select{final|sealed}0'">, InGroup; // C++11 attributes def err_repeat_attribute : Error<"%0 attribute cannot be repeated">; // C++11 final def err_final_function_overridden : Error< "declaration of %0 overrides a '%select{final|sealed}1' function">; // C++11 scoped enumerations def err_enum_invalid_underlying : Error< "non-integral type %0 is an invalid underlying type">; def err_enumerator_too_large : Error< "enumerator value is not representable in the underlying type %0">; def ext_enumerator_too_large : Extension< "enumerator value is not representable in the underlying type %0">, InGroup; def err_enumerator_wrapped : Error< "enumerator value %0 is not representable in the underlying type %1">; def err_enum_redeclare_type_mismatch : Error< "enumeration redeclared with different underlying type %0 (was %1)">; def err_enum_redeclare_fixed_mismatch : Error< "enumeration previously declared with %select{non|}0fixed underlying type">; def err_enum_redeclare_scoped_mismatch : Error< "enumeration previously declared as %select{un|}0scoped">; def err_enum_class_reference : Error< "reference to %select{|scoped }0enumeration must use 'enum' " "not 'enum class'">; def err_only_enums_have_underlying_types : Error< "only enumeration types have underlying types">; def err_underlying_type_of_incomplete_enum : Error< "cannot determine underlying type of incomplete enumeration type %0">; // C++11 delegating constructors def err_delegating_ctor : Error< "delegating constructors are permitted only in C++11">; def warn_cxx98_compat_delegating_ctor : Warning< "delegating constructors are incompatible with C++98">, InGroup, DefaultIgnore; def err_delegating_initializer_alone : Error< "an initializer for a delegating constructor must appear alone">; def warn_delegating_ctor_cycle : Warning< "constructor for %0 creates a delegation cycle">, DefaultError, InGroup; def note_it_delegates_to : Note<"it delegates to">; def note_which_delegates_to : Note<"which delegates to">; // C++11 range-based for loop def err_for_range_decl_must_be_var : Error< "for range declaration must declare a variable">; def err_for_range_storage_class : Error< "loop variable %0 may not be declared %select{'extern'|'static'|" "'__private_extern__'|'auto'|'register'|'constexpr'}1">; def err_type_defined_in_for_range : Error< "types may not be defined in a for range declaration">; def err_for_range_deduction_failure : Error< "cannot use type %0 as a range">; def err_for_range_incomplete_type : Error< "cannot use incomplete type %0 as a range">; def err_for_range_iter_deduction_failure : Error< "cannot use type %0 as an iterator">; def err_for_range_member_begin_end_mismatch : Error< "range type %0 has '%select{begin|end}1' member but no '%select{end|begin}1' member">; def ext_for_range_begin_end_types_differ : ExtWarn< "'begin' and 'end' returning different types (%0 and %1) is a C++17 extension">, InGroup; def warn_for_range_begin_end_types_differ : Warning< "'begin' and 'end' returning different types (%0 and %1) is incompatible " "with C++ standards before C++17">, InGroup, DefaultIgnore; def note_in_for_range: Note< "when looking up '%select{begin|end}0' function for range expression " "of type %1">; def err_for_range_invalid: Error< "invalid range expression of type %0; no viable '%select{begin|end}1' " "function available">; def err_range_on_array_parameter : Error< "cannot build range expression with array function parameter %0 since " "parameter with array type %1 is treated as pointer type %2">; def err_for_range_dereference : Error< "invalid range expression of type %0; did you mean to dereference it " "with '*'?">; def note_for_range_invalid_iterator : Note < "in implicit call to 'operator%select{!=|*|++}0' for iterator of type %1">; def note_for_range_begin_end : Note< "selected '%select{begin|end}0' %select{function|template }1%2 with iterator type %3">; def warn_for_range_const_reference_copy : Warning< "loop variable %0 " "%diff{has type $ but is initialized with type $" "| is initialized with a value of a different type}1,2 resulting in a copy">, InGroup, DefaultIgnore; def note_use_type_or_non_reference : Note< "use non-reference type %0 to keep the copy or type %1 to prevent copying">; def warn_for_range_variable_always_copy : Warning< "loop variable %0 is always a copy because the range of type %1 does not " "return a reference">, InGroup, DefaultIgnore; def note_use_non_reference_type : Note<"use non-reference type %0">; def warn_for_range_copy : Warning< "loop variable %0 of type %1 creates a copy from type %2">, InGroup, DefaultIgnore; def note_use_reference_type : Note<"use reference type %0 to prevent copying">; // C++11 constexpr def warn_cxx98_compat_constexpr : Warning< "'constexpr' specifier is incompatible with C++98">, InGroup, DefaultIgnore; // FIXME: Maybe this should also go in -Wc++14-compat? def warn_cxx14_compat_constexpr_not_const : Warning< "'constexpr' non-static member function will not be implicitly 'const' " "in C++14; add 'const' to avoid a change in behavior">, InGroup>; def err_invalid_constexpr : Error< "%select{function parameter|typedef|non-static data member}0 " "cannot be constexpr">; def err_invalid_constexpr_member : Error<"non-static data member cannot be " "constexpr%select{; did you intend to make it %select{const|static}0?|}1">; def err_constexpr_tag : Error< "%select{class|struct|interface|union|enum}0 cannot be marked constexpr">; def err_constexpr_dtor : Error<"destructor cannot be marked constexpr">; def err_constexpr_no_declarators : Error< "constexpr can only be used in variable and function declarations">; def err_invalid_constexpr_var_decl : Error< "constexpr variable declaration must be a definition">; def err_constexpr_static_mem_var_requires_init : Error< "declaration of constexpr static data member %0 requires an initializer">; def err_constexpr_var_non_literal : Error< "constexpr variable cannot have non-literal type %0">; def err_constexpr_var_requires_const_init : Error< "constexpr variable %0 must be initialized by a constant expression">; def err_constexpr_redecl_mismatch : Error< "%select{non-constexpr declaration of %0 follows constexpr declaration" "|constexpr declaration of %0 follows non-constexpr declaration}1">; def err_constexpr_virtual : Error<"virtual function cannot be constexpr">; def err_constexpr_virtual_base : Error< "constexpr %select{member function|constructor}0 not allowed in " "%select{struct|interface|class}1 with virtual base " "%plural{1:class|:classes}2">; def note_non_literal_incomplete : Note< "incomplete type %0 is not a literal type">; def note_non_literal_virtual_base : Note<"%select{struct|interface|class}0 " "with virtual base %plural{1:class|:classes}1 is not a literal type">; def note_constexpr_virtual_base_here : Note<"virtual base class declared here">; def err_constexpr_non_literal_return : Error< "constexpr function's return type %0 is not a literal type">; def err_constexpr_non_literal_param : Error< "constexpr %select{function|constructor}1's %ordinal0 parameter type %2 is " "not a literal type">; def err_constexpr_body_invalid_stmt : Error< "statement not allowed in constexpr %select{function|constructor}0">; def ext_constexpr_body_invalid_stmt : ExtWarn< "use of this statement in a constexpr %select{function|constructor}0 " "is a C++14 extension">, InGroup; def warn_cxx11_compat_constexpr_body_invalid_stmt : Warning< "use of this statement in a constexpr %select{function|constructor}0 " "is incompatible with C++ standards before C++14">, InGroup, DefaultIgnore; def ext_constexpr_type_definition : ExtWarn< "type definition in a constexpr %select{function|constructor}0 " "is a C++14 extension">, InGroup; def warn_cxx11_compat_constexpr_type_definition : Warning< "type definition in a constexpr %select{function|constructor}0 " "is incompatible with C++ standards before C++14">, InGroup, DefaultIgnore; def err_constexpr_vla : Error< "variably-modified type %0 cannot be used in a constexpr " "%select{function|constructor}1">; def ext_constexpr_local_var : ExtWarn< "variable declaration in a constexpr %select{function|constructor}0 " "is a C++14 extension">, InGroup; def warn_cxx11_compat_constexpr_local_var : Warning< "variable declaration in a constexpr %select{function|constructor}0 " "is incompatible with C++ standards before C++14">, InGroup, DefaultIgnore; def err_constexpr_local_var_static : Error< "%select{static|thread_local}1 variable not permitted in a constexpr " "%select{function|constructor}0">; def err_constexpr_local_var_non_literal_type : Error< "variable of non-literal type %1 cannot be defined in a constexpr " "%select{function|constructor}0">; def err_constexpr_local_var_no_init : Error< "variables defined in a constexpr %select{function|constructor}0 must be " "initialized">; def ext_constexpr_function_never_constant_expr : ExtWarn< "constexpr %select{function|constructor}0 never produces a " "constant expression">, InGroup>, DefaultError; def err_attr_cond_never_constant_expr : Error< "%0 attribute expression never produces a constant expression">; def err_diagnose_if_invalid_diagnostic_type : Error< "invalid diagnostic type for 'diagnose_if'; use \"error\" or \"warning\" " "instead">; def err_constexpr_body_no_return : Error< "no return statement in constexpr function">; def err_constexpr_return_missing_expr : Error< "non-void constexpr function %0 should return a value">; def warn_cxx11_compat_constexpr_body_no_return : Warning< "constexpr function with no return statements is incompatible with C++ " "standards before C++14">, InGroup, DefaultIgnore; def ext_constexpr_body_multiple_return : ExtWarn< "multiple return statements in constexpr function is a C++14 extension">, InGroup; def warn_cxx11_compat_constexpr_body_multiple_return : Warning< "multiple return statements in constexpr function " "is incompatible with C++ standards before C++14">, InGroup, DefaultIgnore; def note_constexpr_body_previous_return : Note< "previous return statement is here">; def err_constexpr_function_try_block : Error< "function try block not allowed in constexpr %select{function|constructor}0">; def err_constexpr_union_ctor_no_init : Error< "constexpr union constructor does not initialize any member">; def err_constexpr_ctor_missing_init : Error< "constexpr constructor must initialize all members">; def note_constexpr_ctor_missing_init : Note< "member not initialized by constructor">; def note_non_literal_no_constexpr_ctors : Note< "%0 is not literal because it is not an aggregate and has no constexpr " "constructors other than copy or move constructors">; def note_non_literal_base_class : Note< "%0 is not literal because it has base class %1 of non-literal type">; def note_non_literal_field : Note< "%0 is not literal because it has data member %1 of " "%select{non-literal|volatile}3 type %2">; def note_non_literal_user_provided_dtor : Note< "%0 is not literal because it has a user-provided destructor">; def note_non_literal_nontrivial_dtor : Note< "%0 is not literal because it has a non-trivial destructor">; def warn_private_extern : Warning< "use of __private_extern__ on a declaration may not produce external symbol " "private to the linkage unit and is deprecated">, InGroup; def note_private_extern : Note< "use __attribute__((visibility(\"hidden\"))) attribute instead">; // C++ Concepts TS def err_concept_wrong_decl_kind : Error< "'concept' can only appear on the definition of a function template or variable template">; def err_concept_decls_may_only_appear_in_namespace_scope : Error< "concept declarations may only appear in namespace scope">; def err_function_concept_not_defined : Error< "function concept declaration must be a definition">; def err_var_concept_not_initialized : Error< "variable concept declaration must be initialized">; def err_function_concept_exception_spec : Error< "function concept cannot have exception specification">; def err_concept_decl_invalid_specifiers : Error< "%select{variable|function}0 concept cannot be declared " "'%select{thread_local|inline|friend|constexpr}1'">; def err_function_concept_with_params : Error< "function concept cannot have any parameters">; def err_function_concept_bool_ret : Error< "declared return type of function concept must be 'bool'">; def err_variable_concept_bool_decl : Error< "declared type of variable concept must be 'bool'">; def err_concept_specified_specialization : Error< "'concept' cannot be applied on an " "%select{explicit instantiation|explicit specialization|partial specialization}0">; def err_concept_specialized : Error< "%select{function|variable}0 concept cannot be " "%select{explicitly instantiated|explicitly specialized|partially specialized}1">; def err_template_different_associated_constraints : Error< "associated constraints differ in template redeclaration">; // C++11 char16_t/char32_t def warn_cxx98_compat_unicode_type : Warning< "'%0' type specifier is incompatible with C++98">, InGroup, DefaultIgnore; // __make_integer_seq def err_integer_sequence_negative_length : Error< "integer sequences must have non-negative sequence length">; def err_integer_sequence_integral_element_type : Error< "integer sequences must have integral element type">; // __type_pack_element def err_type_pack_element_out_of_bounds : Error< "a parameter pack may not be accessed at an out of bounds index">; // Objective-C++ def err_objc_decls_may_only_appear_in_global_scope : Error< "Objective-C declarations may only appear in global scope">; def warn_auto_var_is_id : Warning< "'auto' deduced as 'id' in declaration of %0">, InGroup>; // Attributes def err_nsobject_attribute : Error< "'NSObject' attribute is for pointer types only">; def err_attributes_are_not_compatible : Error< "%0 and %1 attributes are not compatible">; def err_attribute_wrong_number_arguments : Error< "%0 attribute %plural{0:takes no arguments|1:takes one argument|" ":requires exactly %1 arguments}1">; def err_attribute_too_many_arguments : Error< "%0 attribute takes no more than %1 argument%s1">; def err_attribute_too_few_arguments : Error< "%0 attribute takes at least %1 argument%s1">; def err_attribute_invalid_vector_type : Error<"invalid vector element type %0">; def err_attribute_bad_neon_vector_size : Error< "Neon vector size must be 64 or 128 bits">; def err_attribute_requires_positive_integer : Error< "%0 attribute requires a positive integral compile time constant expression">; def err_attribute_requires_opencl_version : Error< "%0 attribute requires OpenCL version %1%select{| or above}2">; def warn_unsupported_target_attribute : Warning<"ignoring %select{unsupported|duplicate}0" "%select{| architecture}1 '%2' in the target attribute string">, InGroup; def err_attribute_unsupported : Error<"%0 attribute is not supported for this target">; // The err_*_attribute_argument_not_int are separate because they're used by // VerifyIntegerConstantExpression. def err_aligned_attribute_argument_not_int : Error< "'aligned' attribute requires integer constant">; def err_align_value_attribute_argument_not_int : Error< "'align_value' attribute requires integer constant">; def err_alignas_attribute_wrong_decl_type : Error< "%0 attribute cannot be applied to a %select{function parameter|" "variable with 'register' storage class|'catch' variable|bit-field}1">; def err_alignas_missing_on_definition : Error< "%0 must be specified on definition if it is specified on any declaration">; def note_alignas_on_declaration : Note<"declared with %0 attribute here">; def err_alignas_mismatch : Error< "redeclaration has different alignment requirement (%1 vs %0)">; def err_alignas_underaligned : Error< "requested alignment is less than minimum alignment of %1 for type %0">; def err_attribute_argument_n_type : Error< "%0 attribute requires parameter %1 to be %select{int or bool|an integer " "constant|a string|an identifier}2">; def err_attribute_argument_type : Error< "%0 attribute requires %select{int or bool|an integer " "constant|a string|an identifier}1">; def err_attribute_argument_outof_range : Error< "%0 attribute requires integer constant between %1 and %2 inclusive">; def err_init_priority_object_attr : Error< "can only use 'init_priority' attribute on file-scope definitions " "of objects of class type">; def err_attribute_argument_vec_type_hint : Error< "invalid attribute argument %0 - expecting a vector or vectorizable scalar type">; def err_attribute_argument_out_of_bounds : Error< "%0 attribute parameter %1 is out of bounds">; def err_attribute_only_once_per_parameter : Error< "%0 attribute can only be applied once per parameter">; def err_attribute_uuid_malformed_guid : Error< "uuid attribute contains a malformed GUID">; def err_mismatched_uuid : Error<"uuid does not match previous declaration">; def note_previous_uuid : Note<"previous uuid specified here">; def warn_attribute_pointers_only : Warning< "%0 attribute only applies to%select{| constant}1 pointer arguments">, InGroup; def err_attribute_pointers_only : Error; def err_attribute_integers_only : Error< "%0 attribute argument may only refer to a function parameter of integer " "type">; def warn_attribute_return_pointers_only : Warning< "%0 attribute only applies to return values that are pointers">, InGroup; def warn_attribute_return_pointers_refs_only : Warning< "%0 attribute only applies to return values that are pointers or references">, InGroup; def warn_attribute_pointer_or_reference_only : Warning< "%0 attribute only applies to a pointer or reference (%1 is invalid)">, InGroup; def err_attribute_no_member_pointers : Error< "%0 attribute cannot be used with pointers to members">; def err_attribute_invalid_implicit_this_argument : Error< "%0 attribute is invalid for the implicit this argument">; def err_ownership_type : Error< "%0 attribute only applies to %select{pointer|integer}1 arguments">; def err_ownership_returns_index_mismatch : Error< "'ownership_returns' attribute index does not match; here it is %0">; def note_ownership_returns_index_mismatch : Note< "declared with index %0 here">; def err_format_strftime_third_parameter : Error< "strftime format attribute requires 3rd parameter to be 0">; def err_format_attribute_requires_variadic : Error< "format attribute requires variadic function">; def err_format_attribute_not : Error<"format argument not %0">; def err_format_attribute_result_not : Error<"function does not return %0">; def err_format_attribute_implicit_this_format_string : Error< "format attribute cannot specify the implicit this argument as the format " "string">; def err_init_method_bad_return_type : Error< "init methods must return an object pointer type, not %0">; def err_attribute_invalid_size : Error< "vector size not an integral multiple of component size">; def err_attribute_zero_size : Error<"zero vector size">; def err_attribute_size_too_large : Error<"vector size too large">; def err_typecheck_vector_not_convertable_implict_truncation : Error< "cannot convert between %select{scalar|vector}0 type %1 and vector type" " %2 as implicit conversion would cause truncation">; def err_typecheck_vector_not_convertable : Error< "cannot convert between vector values of different size (%0 and %1)">; def err_typecheck_vector_not_convertable_non_scalar : Error< "cannot convert between vector and non-scalar values (%0 and %1)">; def err_typecheck_vector_lengths_not_equal : Error< "vector operands do not have the same number of elements (%0 and %1)">; def warn_typecheck_vector_element_sizes_not_equal : Warning< "vector operands do not have the same elements sizes (%0 and %1)">, InGroup>, DefaultError; def err_ext_vector_component_exceeds_length : Error< "vector component access exceeds type %0">; def err_ext_vector_component_name_illegal : Error< "illegal vector component name '%0'">; def err_attribute_address_space_negative : Error< "address space is negative">; def err_attribute_address_space_too_high : Error< "address space is larger than the maximum supported (%0)">; def err_attribute_address_multiple_qualifiers : Error< "multiple address spaces specified for type">; def err_attribute_address_function_type : Error< "function type may not be qualified with an address space">; def err_as_qualified_auto_decl : Error< "automatic variable qualified with an%select{| invalid}0 address space">; def err_arg_with_address_space : Error< "parameter may not be qualified with an address space">; def err_field_with_address_space : Error< "field may not be qualified with an address space">; def err_attr_objc_ownership_redundant : Error< "the type %0 is already explicitly ownership-qualified">; def err_invalid_nsnumber_type : Error< "%0 is not a valid literal type for NSNumber">; def err_objc_illegal_boxed_expression_type : Error< "illegal type %0 used in a boxed expression">; def err_objc_non_trivially_copyable_boxed_expression_type : Error< "non-trivially copyable type %0 cannot be used in a boxed expression">; def err_objc_incomplete_boxed_expression_type : Error< "incomplete type %0 used in a boxed expression">; def err_undeclared_objc_literal_class : Error< "definition of class %0 must be available to use Objective-C " "%select{array literals|dictionary literals|numeric literals|boxed expressions|" "string literals}1">; def err_undeclared_boxing_method : Error< "declaration of %0 is missing in %1 class">; def err_objc_literal_method_sig : Error< "literal construction method %0 has incompatible signature">; def note_objc_literal_method_param : Note< "%select{first|second|third}0 parameter has unexpected type %1 " "(should be %2)">; def note_objc_literal_method_return : Note< "method returns unexpected type %0 (should be an object type)">; def err_invalid_collection_element : Error< "collection element of type %0 is not an Objective-C object">; def err_box_literal_collection : Error< "%select{string|character|boolean|numeric}0 literal must be prefixed by '@' " "in a collection">; def warn_objc_literal_comparison : Warning< "direct comparison of %select{an array literal|a dictionary literal|" "a numeric literal|a boxed expression|}0 has undefined behavior">, InGroup; def err_missing_atsign_prefix : Error< "string literal must be prefixed by '@' ">; def warn_objc_string_literal_comparison : Warning< "direct comparison of a string literal has undefined behavior">, InGroup; def warn_concatenated_nsarray_literal : Warning< "concatenated NSString literal for an NSArray expression - " "possibly missing a comma">, InGroup; def note_objc_literal_comparison_isequal : Note< "use 'isEqual:' instead">; def warn_objc_collection_literal_element : Warning< "object of type %0 is not compatible with " "%select{array element type|dictionary key type|dictionary value type}1 %2">, InGroup; def err_swift_param_attr_not_swiftcall : Error< "'%0' parameter can only be used with swiftcall calling convention">; def err_swift_indirect_result_not_first : Error< "'swift_indirect_result' parameters must be first parameters of function">; def err_swift_error_result_not_after_swift_context : Error< "'swift_error_result' parameter must follow 'swift_context' parameter">; def err_swift_abi_parameter_wrong_type : Error< "'%0' parameter must have pointer%select{| to unqualified pointer}1 type; " "type here is %2">; def err_attribute_argument_invalid : Error< "%0 attribute argument is invalid: %select{max must be 0 since min is 0|" "min must not be greater than max}1">; def err_attribute_argument_is_zero : Error< "%0 attribute must be greater than 0">; def warn_attribute_argument_n_negative : Warning< "%0 attribute parameter %1 is negative and will be ignored">, InGroup; def err_property_function_in_objc_container : Error< "use of Objective-C property in function nested in Objective-C " "container not supported, move function outside its container">; let CategoryName = "Cocoa API Issue" in { def warn_objc_redundant_literal_use : Warning< "using %0 with a literal is redundant">, InGroup; } def err_attr_tlsmodel_arg : Error<"tls_model must be \"global-dynamic\", " "\"local-dynamic\", \"initial-exec\" or \"local-exec\"">; def err_tls_var_aligned_over_maximum : Error< "alignment (%0) of thread-local variable %1 is greater than the maximum supported " "alignment (%2) for a thread-local variable on this target">; def err_only_annotate_after_access_spec : Error< "access specifier can only have annotation attributes">; def err_attribute_section_invalid_for_target : Error< "argument to 'section' attribute is not valid for this target: %0">; def warn_mismatched_section : Warning< "section does not match previous declaration">, InGroup
; def warn_attribute_section_on_redeclaration : Warning< "section attribute is specified on redeclared variable">, InGroup
; def err_anonymous_property: Error< "anonymous property is not supported">; def err_property_is_variably_modified : Error< "property %0 has a variably modified type">; def err_no_accessor_for_property : Error< "no %select{getter|setter}0 defined for property %1">; def err_cannot_find_suitable_accessor : Error< "cannot find suitable %select{getter|setter}0 for property %1">; def warn_alloca_align_alignof : Warning< "second argument to __builtin_alloca_with_align is supposed to be in bits">, InGroup>; def err_alignment_too_small : Error< "requested alignment must be %0 or greater">; def err_alignment_too_big : Error< "requested alignment must be %0 or smaller">; def err_alignment_not_power_of_two : Error< "requested alignment is not a power of 2">; def err_alignment_dependent_typedef_name : Error< "requested alignment is dependent but declaration is not dependent">; def err_attribute_aligned_too_great : Error< "requested alignment must be %0 bytes or smaller">; def warn_redeclaration_without_attribute_prev_attribute_ignored : Warning< "%q0 redeclared without %1 attribute: previous %1 ignored">, InGroup; def warn_redeclaration_without_import_attribute : Warning< "%q0 redeclared without 'dllimport' attribute: 'dllexport' attribute added">, InGroup; def warn_dllimport_dropped_from_inline_function : Warning< "%q0 redeclared inline; %1 attribute ignored">, InGroup; def warn_attribute_ignored : Warning<"%0 attribute ignored">, InGroup; def warn_attribute_ignored_on_inline : Warning<"%0 attribute ignored on inline function">, InGroup; def warn_attribute_after_definition_ignored : Warning< "attribute %0 after definition is ignored">, InGroup; def warn_unknown_attribute_ignored : Warning< "unknown attribute %0 ignored">, InGroup; def warn_cxx11_gnu_attribute_on_type : Warning< "attribute %0 ignored, because it cannot be applied to a type">, InGroup; def warn_unhandled_ms_attribute_ignored : Warning< "__declspec attribute %0 is not supported">, InGroup; def err_decl_attribute_invalid_on_stmt : Error< "%0 attribute cannot be applied to a statement">; def err_stmt_attribute_invalid_on_decl : Error< "%0 attribute cannot be applied to a declaration">; def warn_declspec_attribute_ignored : Warning< "attribute %0 is ignored, place it after " "\"%select{class|struct|interface|union|enum}1\" to apply attribute to " "type declaration">, InGroup; def warn_attribute_precede_definition : Warning< "attribute declaration must precede definition">, InGroup; def warn_attribute_void_function_method : Warning< "attribute %0 cannot be applied to " "%select{functions|Objective-C method}1 without return value">, InGroup; def warn_attribute_weak_on_field : Warning< "__weak attribute cannot be specified on a field declaration">, InGroup; def warn_gc_attribute_weak_on_local : Warning< "Objective-C GC does not allow weak variables on the stack">, InGroup; def warn_nsobject_attribute : Warning< "'NSObject' attribute may be put on a typedef only; attribute is ignored">, InGroup; def warn_independentclass_attribute : Warning< "'objc_independent_class' attribute may be put on a typedef only; " "attribute is ignored">, InGroup; def warn_ptr_independentclass_attribute : Warning< "'objc_independent_class' attribute may be put on Objective-C object " "pointer type only; attribute is ignored">, InGroup; def warn_attribute_weak_on_local : Warning< "__weak attribute cannot be specified on an automatic variable when ARC " "is not enabled">, InGroup; def warn_weak_identifier_undeclared : Warning< "weak identifier %0 never declared">; def err_attribute_weak_static : Error< "weak declaration cannot have internal linkage">; def err_attribute_selectany_non_extern_data : Error< "'selectany' can only be applied to data items with external linkage">; def err_declspec_thread_on_thread_variable : Error< "'__declspec(thread)' applied to variable that already has a " "thread-local storage specifier">; def err_attribute_dll_not_extern : Error< "%q0 must have external linkage when declared %q1">; def err_attribute_dll_thread_local : Error< "%q0 cannot be thread local when declared %q1">; def err_attribute_dll_lambda : Error< "lambda cannot be declared %0">; def warn_attribute_invalid_on_definition : Warning< "'%0' attribute cannot be specified on a definition">, InGroup; def err_attribute_dll_redeclaration : Error< "redeclaration of %q0 cannot add %q1 attribute">; def warn_attribute_dll_redeclaration : Warning< "redeclaration of %q0 should not add %q1 attribute">, InGroup>; def err_attribute_dllimport_function_definition : Error< "dllimport cannot be applied to non-inline function definition">; def err_attribute_dll_deleted : Error< "attribute %q0 cannot be applied to a deleted function">; def err_attribute_dllimport_data_definition : Error< "definition of dllimport data">; def err_attribute_dllimport_static_field_definition : Error< "definition of dllimport static field not allowed">; def warn_attribute_dllimport_static_field_definition : Warning< "definition of dllimport static field">, InGroup>; def warn_attribute_dllexport_explicit_instantiation_decl : Warning< "explicit instantiation declaration should not be 'dllexport'">, InGroup>; def warn_invalid_initializer_from_system_header : Warning< "invalid constructor form class in system header, should not be explicit">, InGroup>; def note_used_in_initialization_here : Note<"used in initialization here">; def err_attribute_dll_member_of_dll_class : Error< "attribute %q0 cannot be applied to member of %q1 class">; def warn_attribute_dll_instantiated_base_class : Warning< "propagating dll attribute to %select{already instantiated|explicitly specialized}0 " "base class template without dll attribute is not supported">, InGroup>, DefaultIgnore; def err_attribute_dll_ambiguous_default_ctor : Error< "'__declspec(dllexport)' cannot be applied to more than one default constructor in %0">; def err_attribute_weakref_not_static : Error< "weakref declaration must have internal linkage">; def err_attribute_weakref_not_global_context : Error< "weakref declaration of %0 must be in a global context">; def err_attribute_weakref_without_alias : Error< "weakref declaration of %0 must also have an alias attribute">; def err_alias_not_supported_on_darwin : Error < "aliases are not supported on darwin">; def err_alias_to_undefined : Error< "%select{alias|ifunc}0 must point to a defined %select{variable or |}1function">; def warn_alias_to_weak_alias : Warning< "%select{alias|ifunc}2 will always resolve to %0 even if weak definition of %1 is overridden">, InGroup; def warn_alias_with_section : Warning< "%select{alias|ifunc}1 will not be in section '%0' but in the same section as the %select{aliasee|resolver}2">, InGroup; def err_duplicate_mangled_name : Error< "definition with same mangled name as another definition">; def err_cyclic_alias : Error< "%select{alias|ifunc}0 definition is part of a cycle">; def err_ifunc_resolver_return : Error< "ifunc resolver function must return a pointer">; def err_ifunc_resolver_params : Error< "ifunc resolver function must have no parameters">; def warn_attribute_wrong_decl_type_str : Warning< "%0 attribute only applies to %1">, InGroup; def err_attribute_wrong_decl_type_str : Error< warn_attribute_wrong_decl_type_str.Text>; def warn_attribute_wrong_decl_type : Warning< "%0 attribute only applies to %select{" "functions" "|unions" "|variables and functions" "|functions and methods" "|functions, methods and blocks" "|functions, methods, and parameters" "|variables" "|variables and fields" "|variables, data members and tag types" "|types and namespaces" "|variables, functions and classes" "|kernel functions" "|non-K&R-style functions" "|variables, functions, methods, types, enumerations, enumerators, labels, and non-static data members}1">, InGroup; def err_attribute_wrong_decl_type : Error; def warn_type_attribute_wrong_type : Warning< "'%0' only applies to %select{function|pointer|" "Objective-C object or block pointer}1 types; type here is %2">, InGroup; def warn_incomplete_encoded_type : Warning< "encoding of %0 type is incomplete because %1 component has unknown encoding">, InGroup>; def warn_gnu_inline_attribute_requires_inline : Warning< "'gnu_inline' attribute requires function to be marked 'inline'," " attribute ignored">, InGroup; def err_attribute_vecreturn_only_vector_member : Error< "the vecreturn attribute can only be used on a class or structure with one member, which must be a vector">; def err_attribute_vecreturn_only_pod_record : Error< "the vecreturn attribute can only be used on a POD (plain old data) class or structure (i.e. no virtual functions)">; def err_cconv_change : Error< "function declared '%0' here was previously declared " "%select{'%2'|without calling convention}1">; def warn_cconv_ignored : Warning< "calling convention %0 ignored for this target">, InGroup; def err_cconv_knr : Error< "function with no prototype cannot use the %0 calling convention">; def warn_cconv_knr : Warning< err_cconv_knr.Text>, InGroup>; def err_cconv_varargs : Error< "variadic function cannot use %0 calling convention">; def warn_cconv_varargs : Warning< "%0 calling convention ignored on variadic function">, InGroup; def warn_cconv_structors : Warning< "%0 calling convention ignored on constructor/destructor">, InGroup; def err_regparm_mismatch : Error<"function declared with regparm(%0) " "attribute was previously declared " "%plural{0:without the regparm|:with the regparm(%1)}1 attribute">; def err_function_attribute_mismatch : Error< "function declared with %0 attribute " "was previously declared without the %0 attribute">; def err_objc_precise_lifetime_bad_type : Error< "objc_precise_lifetime only applies to retainable types; type here is %0">; def warn_objc_precise_lifetime_meaningless : Error< "objc_precise_lifetime is not meaningful for " "%select{__unsafe_unretained|__autoreleasing}0 objects">; def err_invalid_pcs : Error<"invalid PCS type">; def warn_attribute_not_on_decl : Warning< "%0 attribute ignored when parsing type">, InGroup; def err_base_specifier_attribute : Error< "%0 attribute cannot be applied to a base specifier">; def err_invalid_attribute_on_virtual_function : Error< "%0 attribute cannot be applied to virtual functions">; // Availability attribute def warn_availability_unknown_platform : Warning< "unknown platform %0 in availability macro">, InGroup; def warn_availability_version_ordering : Warning< "feature cannot be %select{introduced|deprecated|obsoleted}0 in %1 version " "%2 before it was %select{introduced|deprecated|obsoleted}3 in version %4; " "attribute ignored">, InGroup; def warn_mismatched_availability: Warning< "availability does not match previous declaration">, InGroup; def warn_mismatched_availability_override : Warning< "%select{|overriding }4method %select{introduced after|" "deprecated before|obsoleted before}0 " "%select{the protocol method it implements|overridden method}4 " "on %1 (%2 vs. %3)">, InGroup; def warn_mismatched_availability_override_unavail : Warning< "%select{|overriding }1method cannot be unavailable on %0 when " "%select{the protocol method it implements|its overridden method}1 is " "available">, InGroup; def note_overridden_method : Note< "overridden method is here">; def note_protocol_method : Note< "protocol method is here">; def warn_unguarded_availability : Warning<"%0 is only available on %1 %2 or newer">, InGroup, DefaultIgnore; def warn_unguarded_availability_new : Warning, InGroup; def note_decl_unguarded_availability_silence : Note< "annotate %select{%1|anonymous %1}0 with an availability attribute to silence this warning">; def note_unguarded_available_silence : Note< "enclose %0 in %select{an @available|a __builtin_available}1 check to silence" " this warning">; def warn_at_available_unchecked_use : Warning< "%select{@available|__builtin_available}0 does not guard availability here; " "use if (%select{@available|__builtin_available}0) instead">, InGroup>; // Thread Safety Attributes def warn_invalid_capability_name : Warning< "invalid capability name '%0'; capability name must be 'mutex' or 'role'">, InGroup, DefaultIgnore; def warn_thread_attribute_ignored : Warning< "ignoring %0 attribute because its argument is invalid">, InGroup, DefaultIgnore; def warn_thread_attribute_argument_not_lockable : Warning< "%0 attribute requires arguments whose type is annotated " "with 'capability' attribute; type here is %1">, InGroup, DefaultIgnore; def warn_thread_attribute_decl_not_lockable : Warning< "%0 attribute can only be applied in a context annotated " "with 'capability(\"mutex\")' attribute">, InGroup, DefaultIgnore; def warn_thread_attribute_decl_not_pointer : Warning< "%0 only applies to pointer types; type here is %1">, InGroup, DefaultIgnore; def err_attribute_argument_out_of_range : Error< "%0 attribute parameter %1 is out of bounds: " "%plural{0:no parameters to index into|" "1:can only be 1, since there is one parameter|" ":must be between 1 and %2}2">; // Thread Safety Analysis def warn_unlock_but_no_lock : Warning<"releasing %0 '%1' that was not held">, InGroup, DefaultIgnore; def warn_unlock_kind_mismatch : Warning< "releasing %0 '%1' using %select{shared|exclusive}2 access, expected " "%select{shared|exclusive}3 access">, InGroup, DefaultIgnore; def warn_double_lock : Warning<"acquiring %0 '%1' that is already held">, InGroup, DefaultIgnore; def warn_no_unlock : Warning< "%0 '%1' is still held at the end of function">, InGroup, DefaultIgnore; def warn_expecting_locked : Warning< "expecting %0 '%1' to be held at the end of function">, InGroup, DefaultIgnore; // FIXME: improve the error message about locks not in scope def warn_lock_some_predecessors : Warning< "%0 '%1' is not held on every path through here">, InGroup, DefaultIgnore; def warn_expecting_lock_held_on_loop : Warning< "expecting %0 '%1' to be held at start of each loop">, InGroup, DefaultIgnore; def note_locked_here : Note<"%0 acquired here">; def warn_lock_exclusive_and_shared : Warning< "%0 '%1' is acquired exclusively and shared in the same scope">, InGroup, DefaultIgnore; def note_lock_exclusive_and_shared : Note< "the other acquisition of %0 '%1' is here">; def warn_variable_requires_any_lock : Warning< "%select{reading|writing}1 variable '%0' requires holding " "%select{any mutex|any mutex exclusively}1">, InGroup, DefaultIgnore; def warn_var_deref_requires_any_lock : Warning< "%select{reading|writing}1 the value pointed to by '%0' requires holding " "%select{any mutex|any mutex exclusively}1">, InGroup, DefaultIgnore; def warn_fun_excludes_mutex : Warning< "cannot call function '%1' while %0 '%2' is held">, InGroup, DefaultIgnore; def warn_cannot_resolve_lock : Warning< "cannot resolve lock expression">, InGroup, DefaultIgnore; def warn_acquired_before : Warning< "%0 '%1' must be acquired before '%2'">, InGroup, DefaultIgnore; def warn_acquired_before_after_cycle : Warning< "Cycle in acquired_before/after dependencies, starting with '%0'">, InGroup, DefaultIgnore; // Thread safety warnings negative capabilities def warn_acquire_requires_negative_cap : Warning< "acquiring %0 '%1' requires negative capability '%2'">, InGroup, DefaultIgnore; // Thread safety warnings on pass by reference def warn_guarded_pass_by_reference : Warning< "passing variable '%1' by reference requires holding %0 " "%select{'%2'|'%2' exclusively}3">, InGroup, DefaultIgnore; def warn_pt_guarded_pass_by_reference : Warning< "passing the value that '%1' points to by reference requires holding %0 " "%select{'%2'|'%2' exclusively}3">, InGroup, DefaultIgnore; // Imprecise thread safety warnings def warn_variable_requires_lock : Warning< "%select{reading|writing}3 variable '%1' requires holding %0 " "%select{'%2'|'%2' exclusively}3">, InGroup, DefaultIgnore; def warn_var_deref_requires_lock : Warning< "%select{reading|writing}3 the value pointed to by '%1' requires " "holding %0 %select{'%2'|'%2' exclusively}3">, InGroup, DefaultIgnore; def warn_fun_requires_lock : Warning< "calling function '%1' requires holding %0 %select{'%2'|'%2' exclusively}3">, InGroup, DefaultIgnore; // Precise thread safety warnings def warn_variable_requires_lock_precise : Warning, InGroup, DefaultIgnore; def warn_var_deref_requires_lock_precise : Warning, InGroup, DefaultIgnore; def warn_fun_requires_lock_precise : Warning, InGroup, DefaultIgnore; def note_found_mutex_near_match : Note<"found near match '%0'">; // Verbose thread safety warnings def warn_thread_safety_verbose : Warning<"Thread safety verbose warning.">, InGroup, DefaultIgnore; def note_thread_warning_in_fun : Note<"Thread warning in function '%0'">; def note_guarded_by_declared_here : Note<"Guarded_by declared here.">; // Dummy warning that will trigger "beta" warnings from the analysis if enabled. def warn_thread_safety_beta : Warning<"Thread safety beta warning.">, InGroup, DefaultIgnore; // Consumed warnings def warn_use_in_invalid_state : Warning< "invalid invocation of method '%0' on object '%1' while it is in the '%2' " "state">, InGroup, DefaultIgnore; def warn_use_of_temp_in_invalid_state : Warning< "invalid invocation of method '%0' on a temporary object while it is in the " "'%1' state">, InGroup, DefaultIgnore; def warn_attr_on_unconsumable_class : Warning< "consumed analysis attribute is attached to member of class '%0' which isn't " "marked as consumable">, InGroup, DefaultIgnore; def warn_return_typestate_for_unconsumable_type : Warning< "return state set for an unconsumable type '%0'">, InGroup, DefaultIgnore; def warn_return_typestate_mismatch : Warning< "return value not in expected state; expected '%0', observed '%1'">, InGroup, DefaultIgnore; def warn_loop_state_mismatch : Warning< "state of variable '%0' must match at the entry and exit of loop">, InGroup, DefaultIgnore; def warn_param_return_typestate_mismatch : Warning< "parameter '%0' not in expected state when the function returns: expected " "'%1', observed '%2'">, InGroup, DefaultIgnore; def warn_param_typestate_mismatch : Warning< "argument not in expected state; expected '%0', observed '%1'">, InGroup, DefaultIgnore; // no_sanitize attribute def warn_unknown_sanitizer_ignored : Warning< "unknown sanitizer '%0' ignored">, InGroup; def warn_impcast_vector_scalar : Warning< "implicit conversion turns vector to scalar: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_complex_scalar : Warning< "implicit conversion discards imaginary component: %0 to %1">, InGroup, DefaultIgnore; def err_impcast_complex_scalar : Error< "implicit conversion from %0 to %1 is not permitted in C++">; def warn_impcast_float_precision : Warning< "implicit conversion loses floating-point precision: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_double_promotion : Warning< "implicit conversion increases floating-point precision: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_integer_sign : Warning< "implicit conversion changes signedness: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_integer_sign_conditional : Warning< "operand of ? changes signedness: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_integer_precision : Warning< "implicit conversion loses integer precision: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_integer_64_32 : Warning< "implicit conversion loses integer precision: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_integer_precision_constant : Warning< "implicit conversion from %2 to %3 changes value from %0 to %1">, InGroup; def warn_impcast_bitfield_precision_constant : Warning< "implicit truncation from %2 to bit-field changes value from %0 to %1">, InGroup; def warn_impcast_literal_float_to_integer : Warning< "implicit conversion from %0 to %1 changes value from %2 to %3">, InGroup; def warn_impcast_float_integer : Warning< "implicit conversion turns floating-point number into integer: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_float_to_integer : Warning< "implicit conversion of out of range value from %0 to %1 changes value " "from %2 to %3">, InGroup, DefaultIgnore; def warn_impcast_float_to_integer_zero : Warning< "implicit conversion from %0 to %1 changes non-zero value from %2 to %3">, InGroup, DefaultIgnore; def warn_impcast_string_literal_to_bool : Warning< "implicit conversion turns string literal into bool: %0 to %1">, InGroup, DefaultIgnore; def warn_impcast_different_enum_types : Warning< "implicit conversion from enumeration type %0 to different enumeration type " "%1">, InGroup; def warn_impcast_bool_to_null_pointer : Warning< "initialization of pointer of type %0 to null from a constant boolean " "expression">, InGroup; def warn_non_literal_null_pointer : Warning< "expression which evaluates to zero treated as a null pointer constant of " "type %0">, InGroup; def warn_impcast_null_pointer_to_integer : Warning< "implicit conversion of %select{NULL|nullptr}0 constant to %1">, InGroup; def warn_impcast_floating_point_to_bool : Warning< "implicit conversion turns floating-point number into bool: %0 to %1">, InGroup; def ext_ms_impcast_fn_obj : ExtWarn< "implicit conversion between pointer-to-function and pointer-to-object is a " "Microsoft extension">, InGroup; def warn_impcast_pointer_to_bool : Warning< "address of%select{| function| array}0 '%1' will always evaluate to " "'true'">, InGroup; def warn_cast_nonnull_to_bool : Warning< "nonnull %select{function call|parameter}0 '%1' will evaluate to " "'true' on first encounter">, InGroup; def warn_this_bool_conversion : Warning< "'this' pointer cannot be null in well-defined C++ code; pointer may be " "assumed to always convert to true">, InGroup; def warn_address_of_reference_bool_conversion : Warning< "reference cannot be bound to dereferenced null pointer in well-defined C++ " "code; pointer may be assumed to always convert to true">, InGroup; def warn_null_pointer_compare : Warning< "comparison of %select{address of|function|array}0 '%1' %select{not |}2" "equal to a null pointer is always %select{true|false}2">, InGroup; def warn_nonnull_expr_compare : Warning< "comparison of nonnull %select{function call|parameter}0 '%1' " "%select{not |}2equal to a null pointer is '%select{true|false}2' on first " "encounter">, InGroup; def warn_this_null_compare : Warning< "'this' pointer cannot be null in well-defined C++ code; comparison may be " "assumed to always evaluate to %select{true|false}0">, InGroup; def warn_address_of_reference_null_compare : Warning< "reference cannot be bound to dereferenced null pointer in well-defined C++ " "code; comparison may be assumed to always evaluate to " "%select{true|false}0">, InGroup; def note_reference_is_return_value : Note<"%0 returns a reference">; def note_function_warning_silence : Note< "prefix with the address-of operator to silence this warning">; def note_function_to_function_call : Note< "suffix with parentheses to turn this into a function call">; def warn_impcast_objective_c_literal_to_bool : Warning< "implicit boolean conversion of Objective-C object literal always " "evaluates to true">, InGroup; def warn_cast_align : Warning< "cast from %0 to %1 increases required alignment from %2 to %3">, InGroup, DefaultIgnore; def warn_old_style_cast : Warning< "use of old-style cast">, InGroup, DefaultIgnore; // Separate between casts to void* and non-void* pointers. // Some APIs use (abuse) void* for something like a user context, // and often that value is an integer even if it isn't a pointer itself. // Having a separate warning flag allows users to control the warning // for their workflow. def warn_int_to_pointer_cast : Warning< "cast to %1 from smaller integer type %0">, InGroup; def warn_int_to_void_pointer_cast : Warning< "cast to %1 from smaller integer type %0">, InGroup; def warn_attribute_ignored_for_field_of_type : Warning< "%0 attribute ignored for field of type %1">, InGroup; def warn_no_underlying_type_specified_for_enum_bitfield : Warning< "enums in the Microsoft ABI are signed integers by default; consider giving " "the enum %0 an unsigned underlying type to make this code portable">, InGroup, DefaultIgnore; def warn_attribute_packed_for_bitfield : Warning< "'packed' attribute was ignored on bit-fields with single-byte alignment " "in older versions of GCC and Clang">, InGroup>; def warn_transparent_union_attribute_field_size_align : Warning< "%select{alignment|size}0 of field %1 (%2 bits) does not match the " "%select{alignment|size}0 of the first field in transparent union; " "transparent_union attribute ignored">, InGroup; def note_transparent_union_first_field_size_align : Note< "%select{alignment|size}0 of first field is %1 bits">; def warn_transparent_union_attribute_not_definition : Warning< "transparent_union attribute can only be applied to a union definition; " "attribute ignored">, InGroup; def warn_transparent_union_attribute_floating : Warning< "first field of a transparent union cannot have %select{floating point|" "vector}0 type %1; transparent_union attribute ignored">, InGroup; def warn_transparent_union_attribute_zero_fields : Warning< "transparent union definition must contain at least one field; " "transparent_union attribute ignored">, InGroup; def warn_attribute_type_not_supported : Warning< "%0 attribute argument not supported: %1">, InGroup; def warn_attribute_unknown_visibility : Warning<"unknown visibility %0">, InGroup; def warn_attribute_protected_visibility : Warning<"target does not support 'protected' visibility; using 'default'">, InGroup>; def err_mismatched_visibility: Error<"visibility does not match previous declaration">; def note_previous_attribute : Note<"previous attribute is here">; def note_conflicting_attribute : Note<"conflicting attribute is here">; def note_attribute : Note<"attribute is here">; def err_mismatched_ms_inheritance : Error< "inheritance model does not match %select{definition|previous declaration}0">; def warn_ignored_ms_inheritance : Warning< "inheritance model ignored on %select{primary template|partial specialization}0">, InGroup; def note_previous_ms_inheritance : Note< "previous inheritance model specified here">; def err_machine_mode : Error<"%select{unknown|unsupported}0 machine mode %1">; def err_mode_not_primitive : Error< "mode attribute only supported for integer and floating-point types">; def err_mode_wrong_type : Error< "type of machine mode does not match type of base type">; def warn_vector_mode_deprecated : Warning< "specifying vector types with the 'mode' attribute is deprecated; " "use the 'vector_size' attribute instead">, InGroup; def err_complex_mode_vector_type : Error< "type of machine mode does not support base vector types">; def err_enum_mode_vector_type : Error< "mode %0 is not supported for enumeration types">; def warn_attribute_nonnull_no_pointers : Warning< "'nonnull' attribute applied to function with no pointer arguments">, InGroup; def warn_attribute_nonnull_parm_no_args : Warning< "'nonnull' attribute when used on parameters takes no arguments">, InGroup; def note_declared_nonnull : Note< "declared %select{'returns_nonnull'|'nonnull'}0 here">; def warn_attribute_sentinel_named_arguments : Warning< "'sentinel' attribute requires named arguments">, InGroup; def warn_attribute_sentinel_not_variadic : Warning< "'sentinel' attribute only supported for variadic %select{functions|blocks}0">, InGroup; def err_attribute_sentinel_less_than_zero : Error< "'sentinel' parameter 1 less than zero">; def err_attribute_sentinel_not_zero_or_one : Error< "'sentinel' parameter 2 not 0 or 1">; def warn_cleanup_ext : Warning< "GCC does not allow the 'cleanup' attribute argument to be anything other " "than a simple identifier">, InGroup; def err_attribute_cleanup_arg_not_function : Error< "'cleanup' argument %select{|%1 |%1 }0is not a %select{||single }0function">; def err_attribute_cleanup_func_must_take_one_arg : Error< "'cleanup' function %0 must take 1 parameter">; def err_attribute_cleanup_func_arg_incompatible_type : Error< "'cleanup' function %0 parameter has " "%diff{type $ which is incompatible with type $|incompatible type}1,2">; def err_attribute_regparm_wrong_platform : Error< "'regparm' is not valid on this platform">; def err_attribute_regparm_invalid_number : Error< "'regparm' parameter must be between 0 and %0 inclusive">; def err_attribute_not_supported_in_lang : Error< "%0 attribute is not supported in %select{C|C++|Objective-C}1">; def err_attribute_not_supported_on_arch : Error<"%0 attribute is not supported on '%1'">; // Clang-Specific Attributes def warn_attribute_iboutlet : Warning< "%0 attribute can only be applied to instance variables or properties">, InGroup; def err_iboutletcollection_type : Error< "invalid type %0 as argument of iboutletcollection attribute">; def err_iboutletcollection_builtintype : Error< "type argument of iboutletcollection attribute cannot be a builtin type">; def warn_iboutlet_object_type : Warning< "%select{instance variable|property}2 with %0 attribute must " "be an object type (invalid %1)">, InGroup; def warn_iboutletcollection_property_assign : Warning< "IBOutletCollection properties should be copy/strong and not assign">, InGroup; def err_attribute_overloadable_mismatch : Error< "redeclaration of %0 must %select{not |}1have the 'overloadable' attribute">; def note_attribute_overloadable_prev_overload : Note< "previous %select{unmarked |}0overload of function is here">; def err_attribute_overloadable_no_prototype : Error< "'overloadable' function %0 must have a prototype">; def err_attribute_overloadable_multiple_unmarked_overloads : Error< "at most one overload for a given name may lack the 'overloadable' " "attribute">; def warn_ns_attribute_wrong_return_type : Warning< "%0 attribute only applies to %select{functions|methods|properties}1 that " "return %select{an Objective-C object|a pointer|a non-retainable pointer}2">, InGroup; def err_ns_attribute_wrong_parameter_type : Error< "%0 attribute only applies to " "%select{Objective-C object|pointer|pointer-to-CF-pointer}1 parameters">; def warn_ns_attribute_wrong_parameter_type : Warning< "%0 attribute only applies to " "%select{Objective-C object|pointer|pointer-to-CF-pointer}1 parameters">, InGroup; def warn_objc_requires_super_protocol : Warning< "%0 attribute cannot be applied to %select{methods in protocols|dealloc}1">, InGroup>; def note_protocol_decl : Note< "protocol is declared here">; def note_protocol_decl_undefined : Note< "protocol %0 has no definition">; // objc_designated_initializer attribute diagnostics. def warn_objc_designated_init_missing_super_call : Warning< "designated initializer missing a 'super' call to a designated initializer of the super class">, InGroup; def note_objc_designated_init_marked_here : Note< "method marked as designated initializer of the class here">; def warn_objc_designated_init_non_super_designated_init_call : Warning< "designated initializer should only invoke a designated initializer on 'super'">, InGroup; def warn_objc_designated_init_non_designated_init_call : Warning< "designated initializer invoked a non-designated initializer">, InGroup; def warn_objc_secondary_init_super_init_call : Warning< "convenience initializer should not invoke an initializer on 'super'">, InGroup; def warn_objc_secondary_init_missing_init_call : Warning< "convenience initializer missing a 'self' call to another initializer">, InGroup; def warn_objc_implementation_missing_designated_init_override : Warning< "method override for the designated initializer of the superclass %objcinstance0 not found">, InGroup; // objc_bridge attribute diagnostics. def err_objc_attr_not_id : Error< "parameter of %0 attribute must be a single name of an Objective-C %select{class|protocol}1">; def err_objc_attr_typedef_not_id : Error< "parameter of %0 attribute must be 'id' when used on a typedef">; def err_objc_attr_typedef_not_void_pointer : Error< "'objc_bridge(id)' is only allowed on structs and typedefs of void pointers">; def err_objc_cf_bridged_not_interface : Error< "CF object of type %0 is bridged to %1, which is not an Objective-C class">; def err_objc_ns_bridged_invalid_cfobject : Error< "ObjectiveC object of type %0 is bridged to %1, which is not valid CF object">; def warn_objc_invalid_bridge : Warning< "%0 bridges to %1, not %2">, InGroup; def warn_objc_invalid_bridge_to_cf : Warning< "%0 cannot bridge to %1">, InGroup; // objc_bridge_related attribute diagnostics. def err_objc_bridged_related_invalid_class : Error< "could not find Objective-C class %0 to convert %1 to %2">; def err_objc_bridged_related_invalid_class_name : Error< "%0 must be name of an Objective-C class to be able to convert %1 to %2">; def err_objc_bridged_related_known_method : Error< "%0 must be explicitly converted to %1; use %select{%objcclass2|%objcinstance2}3 " "method for this conversion">; def err_objc_attr_protocol_requires_definition : Error< "attribute %0 can only be applied to @protocol definitions, not forward declarations">; // Function Parameter Semantic Analysis. def err_param_with_void_type : Error<"argument may not have 'void' type">; def err_void_only_param : Error< "'void' must be the first and only parameter if specified">; def err_void_param_qualified : Error< "'void' as parameter must not have type qualifiers">; def err_ident_list_in_fn_declaration : Error< "a parameter list without types is only allowed in a function definition">; def ext_param_not_declared : Extension< "parameter %0 was not declared, defaulting to type 'int'">; def err_param_default_argument : Error< "C does not support default arguments">; def err_param_default_argument_redefinition : Error< "redefinition of default argument">; def ext_param_default_argument_redefinition : ExtWarn< err_param_default_argument_redefinition.Text>, InGroup; def err_param_default_argument_missing : Error< "missing default argument on parameter">; def err_param_default_argument_missing_name : Error< "missing default argument on parameter %0">; def err_param_default_argument_references_param : Error< "default argument references parameter %0">; def err_param_default_argument_references_local : Error< "default argument references local variable %0 of enclosing function">; def err_param_default_argument_references_this : Error< "default argument references 'this'">; def err_param_default_argument_nonfunc : Error< "default arguments can only be specified for parameters in a function " "declaration">; def err_param_default_argument_template_redecl : Error< "default arguments cannot be added to a function template that has already " "been declared">; def err_param_default_argument_member_template_redecl : Error< "default arguments cannot be added to an out-of-line definition of a member " "of a %select{class template|class template partial specialization|nested " "class in a template}0">; def err_param_default_argument_on_parameter_pack : Error< "parameter pack cannot have a default argument">; def err_uninitialized_member_for_assign : Error< "cannot define the implicit copy assignment operator for %0, because " "non-static %select{reference|const}1 member %2 cannot use copy " "assignment operator">; def err_uninitialized_member_in_ctor : Error< "%select{constructor for %1|" "implicit default constructor for %1|" "cannot use constructor inherited from %1:}0 must explicitly " "initialize the %select{reference|const}2 member %3">; def err_default_arg_makes_ctor_special : Error< "addition of default argument on redeclaration makes this constructor a " "%select{default|copy|move}0 constructor">; def err_use_of_default_argument_to_function_declared_later : Error< "use of default argument to function %0 that is declared later in class %1">; def note_default_argument_declared_here : Note< "default argument declared here">; def err_recursive_default_argument : Error<"recursive evaluation of default argument">; def ext_param_promoted_not_compatible_with_prototype : ExtWarn< "%diff{promoted type $ of K&R function parameter is not compatible with the " "parameter type $|promoted type of K&R function parameter is not compatible " "with parameter type}0,1 declared in a previous prototype">, InGroup; // C++ Overloading Semantic Analysis. def err_ovl_diff_return_type : Error< "functions that differ only in their return type cannot be overloaded">; def err_ovl_static_nonstatic_member : Error< "static and non-static member functions with the same parameter types " "cannot be overloaded">; def err_ovl_no_viable_function_in_call : Error< "no matching function for call to %0">; def err_ovl_no_viable_member_function_in_call : Error< "no matching member function for call to %0">; def err_ovl_ambiguous_call : Error< "call to %0 is ambiguous">; def err_ovl_deleted_call : Error< "call to %select{unavailable|deleted}0 function %1%2">; def err_ovl_ambiguous_member_call : Error< "call to member function %0 is ambiguous">; def err_ovl_deleted_member_call : Error< "call to %select{unavailable|deleted}0 member function %1%2">; def note_ovl_too_many_candidates : Note< "remaining %0 candidate%s0 omitted; " "pass -fshow-overloads=all to show them">; def note_ovl_candidate : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "is the implicit default constructor|" "is the implicit copy constructor|" "is the implicit move constructor|" "is the implicit copy assignment operator|" "is the implicit move assignment operator|" "inherited constructor|" "inherited constructor }0%2" "%select{| has different class%diff{ (expected $ but has $)|}4,5" "| has different number of parameters (expected %4 but has %5)" "| has type mismatch at %ordinal4 parameter" "%diff{ (expected $ but has $)|}5,6" "| has different return type%diff{ ($ expected but has $)|}4,5" "| has different qualifiers (expected " "%select{none|const|restrict|const and restrict|volatile|const and volatile" "|volatile and restrict|const, volatile, and restrict}4 but found " "%select{none|const|restrict|const and restrict|volatile|const and volatile" "|volatile and restrict|const, volatile, and restrict}5)" "| has different exception specification}3">; def note_ovl_candidate_inherited_constructor : Note< "constructor from base class %0 inherited here">; def note_ovl_candidate_inherited_constructor_slice : Note< "candidate %select{constructor|template}0 ignored: " "inherited constructor cannot be used to %select{copy|move}1 object">; def note_ovl_candidate_illegal_constructor : Note< "candidate %select{constructor|template}0 ignored: " "instantiation %select{takes|would take}0 its own class type by value">; def note_ovl_candidate_bad_deduction : Note< "candidate template ignored: failed template argument deduction">; def note_ovl_candidate_incomplete_deduction : Note<"candidate template ignored: " "couldn't infer template argument %0">; def note_ovl_candidate_inconsistent_deduction : Note< "candidate template ignored: deduced conflicting %select{types|values|" "templates}0 for parameter %1%diff{ ($ vs. $)|}2,3">; def note_ovl_candidate_inconsistent_deduction_types : Note< "candidate template ignored: deduced values %diff{" "of conflicting types for parameter %0 (%1 of type $ vs. %3 of type $)|" "%1 and %3 of conflicting types for parameter %0}2,4">; def note_ovl_candidate_explicit_arg_mismatch_named : Note< "candidate template ignored: invalid explicitly-specified argument " "for template parameter %0">; def note_ovl_candidate_explicit_arg_mismatch_unnamed : Note< "candidate template ignored: invalid explicitly-specified argument " "for %ordinal0 template parameter">; def note_ovl_candidate_instantiation_depth : Note< "candidate template ignored: substitution exceeded maximum template " "instantiation depth">; def note_ovl_candidate_underqualified : Note< "candidate template ignored: cannot deduce a type for %0 that would " "make %2 equal %1">; def note_ovl_candidate_substitution_failure : Note< "candidate template ignored: substitution failure%0%1">; def note_ovl_candidate_disabled_by_enable_if : Note< "candidate template ignored: disabled by %0%1">; def note_ovl_candidate_disabled_by_requirement : Note< "candidate template ignored: requirement '%0' was not satisfied%1">; def note_ovl_candidate_has_pass_object_size_params: Note< "candidate address cannot be taken because parameter %0 has " "pass_object_size attribute">; def err_diagnose_if_succeeded : Error<"%0">; def warn_diagnose_if_succeeded : Warning<"%0">, InGroup, ShowInSystemHeader; def note_ovl_candidate_disabled_by_function_cond_attr : Note< "candidate disabled: %0">; def note_ovl_candidate_disabled_by_extension : Note< "candidate disabled due to OpenCL extension">; def err_addrof_function_disabled_by_enable_if_attr : Error< "cannot take address of function %0 because it has one or more " "non-tautological enable_if conditions">; def note_addrof_ovl_candidate_disabled_by_enable_if_attr : Note< "candidate function made ineligible by enable_if">; def note_ovl_candidate_deduced_mismatch : Note< "candidate template ignored: deduced type " "%diff{$ of %select{|element of }4%ordinal0 parameter does not match " "adjusted type $ of %select{|element of }4argument" "|of %select{|element of }4%ordinal0 parameter does not match " "adjusted type of %select{|element of }4argument}1,2%3">; def note_ovl_candidate_non_deduced_mismatch : Note< "candidate template ignored: could not match %diff{$ against $|types}0,1">; // This note is needed because the above note would sometimes print two // different types with the same name. Remove this note when the above note // can handle that case properly. def note_ovl_candidate_non_deduced_mismatch_qualified : Note< "candidate template ignored: could not match %q0 against %q1">; // Note that we don't treat templates differently for this diagnostic. def note_ovl_candidate_arity : Note<"candidate " "%select{function|function|constructor|function|function|constructor|" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor}0 %select{|template }1" "not viable: requires%select{ at least| at most|}2 %3 argument%s3, but %4 " "%plural{1:was|:were}4 provided">; def note_ovl_candidate_arity_one : Note<"candidate " "%select{function|function|constructor|function|function|constructor|" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor}0 %select{|template }1not viable: " "%select{requires at least|allows at most single|requires single}2 " "argument %3, but %plural{0:no|:%4}4 arguments were provided">; def note_ovl_candidate_deleted : Note< "candidate %select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 has been " "%select{explicitly made unavailable|explicitly deleted|" "implicitly deleted}2">; // Giving the index of the bad argument really clutters this message, and // it's relatively unimportant because 1) it's generally obvious which // argument(s) are of the given object type and 2) the fix is usually // to complete the type, which doesn't involve changes to the call line // anyway. If people complain, we can change it. def note_ovl_candidate_bad_conv_incomplete : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 " "not viable: cannot convert argument of incomplete type " "%diff{$ to $|to parameter type}2,3 for " "%select{%ordinal5 argument|object argument}4" "%select{|; dereference the argument with *|" "; take the address of the argument with &|" "; remove *|" "; remove &}6">; def note_ovl_candidate_bad_list_argument : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 " "not viable: cannot convert initializer list argument to %3">; def note_ovl_candidate_bad_overload : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1" " not viable: no overload of %3 matching %2 for %ordinal4 argument">; def note_ovl_candidate_bad_conv : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1" " not viable: no known conversion " "%diff{from $ to $|from argument type to parameter type}2,3 for " "%select{%ordinal5 argument|object argument}4" "%select{|; dereference the argument with *|" "; take the address of the argument with &|" "; remove *|" "; remove &}6">; def note_ovl_candidate_bad_arc_conv : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1" " not viable: cannot implicitly convert argument " "%diff{of type $ to $|type to parameter type}2,3 for " "%select{%ordinal5 argument|object argument}4 under ARC">; def note_ovl_candidate_bad_lvalue : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1" " not viable: expects an l-value for " "%select{%ordinal3 argument|object argument}2">; def note_ovl_candidate_bad_addrspace : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 not viable: " "%select{%ordinal6|'this'}5 argument (%2) is in " "address space %3, but parameter must be in address space %4">; def note_ovl_candidate_bad_gc : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 not viable: " "%select{%ordinal6|'this'}5 argument (%2) has %select{no|__weak|__strong}3 " "ownership, but parameter has %select{no|__weak|__strong}4 ownership">; def note_ovl_candidate_bad_ownership : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 not viable: " "%select{%ordinal6|'this'}5 argument (%2) has " "%select{no|__unsafe_unretained|__strong|__weak|__autoreleasing}3 ownership," " but parameter has %select{no|__unsafe_unretained|__strong|__weak|" "__autoreleasing}4 ownership">; def note_ovl_candidate_bad_cvr_this : Note<"candidate " "%select{|function|||function|||||" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)||}0 not viable: " "'this' argument has type %2, but method is not marked " "%select{const|restrict|const or restrict|volatile|const or volatile|" "volatile or restrict|const, volatile, or restrict}3">; def note_ovl_candidate_bad_cvr : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 not viable: " "%ordinal4 argument (%2) would lose " "%select{const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}3 qualifier" "%select{||s||s|s|s}3">; def note_ovl_candidate_bad_unaligned : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 not viable: " "%ordinal4 argument (%2) would lose __unaligned qualifier">; def note_ovl_candidate_bad_base_to_derived_conv : Note<"candidate " "%select{function|function|constructor|" "function |function |constructor |" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor }0%1 not viable: " "cannot %select{convert from|convert from|bind}2 " "%select{base class pointer|superclass|base class object of type}2 %3 to " "%select{derived class pointer|subclass|derived class reference}2 %4 for " "%ordinal5 argument">; def note_ovl_candidate_bad_target : Note< "candidate %select{function|function|constructor|" "function|function|constructor|" "constructor (the implicit default constructor)|" "constructor (the implicit copy constructor)|" "constructor (the implicit move constructor)|" "function (the implicit copy assignment operator)|" "function (the implicit move assignment operator)|" "inherited constructor|" "inherited constructor}0 not viable: " "call to " "%select{__device__|__global__|__host__|__host__ __device__|invalid}1 function from" " %select{__device__|__global__|__host__|__host__ __device__|invalid}2 function">; def note_implicit_member_target_infer_collision : Note< "implicit %select{" "default constructor|" "copy constructor|" "move constructor|" "copy assignment operator|" "move assignment operator|" "destructor}0 inferred target collision: call to both " "%select{__device__|__global__|__host__|__host__ __device__}1 and " "%select{__device__|__global__|__host__|__host__ __device__}2 members">; def note_ambiguous_type_conversion: Note< "because of ambiguity in conversion %diff{of $ to $|between types}0,1">; def note_ovl_builtin_binary_candidate : Note< "built-in candidate %0">; def note_ovl_builtin_unary_candidate : Note< "built-in candidate %0">; def err_ovl_no_viable_function_in_init : Error< "no matching constructor for initialization of %0">; def err_ovl_no_conversion_in_cast : Error< "cannot convert %1 to %2 without a conversion operator">; def err_ovl_no_viable_conversion_in_cast : Error< "no matching conversion for %select{|static_cast|reinterpret_cast|" "dynamic_cast|C-style cast|functional-style cast}0 from %1 to %2">; def err_ovl_ambiguous_conversion_in_cast : Error< "ambiguous conversion for %select{|static_cast|reinterpret_cast|" "dynamic_cast|C-style cast|functional-style cast}0 from %1 to %2">; def err_ovl_deleted_conversion_in_cast : Error< "%select{|static_cast|reinterpret_cast|dynamic_cast|C-style cast|" "functional-style cast}0 from %1 to %2 uses deleted function">; def err_ovl_ambiguous_init : Error<"call to constructor of %0 is ambiguous">; def err_ref_init_ambiguous : Error< "reference initialization of type %0 with initializer of type %1 is ambiguous">; def err_ovl_deleted_init : Error< "call to %select{unavailable|deleted}0 constructor of %1">; def err_ovl_deleted_special_init : Error< "call to implicitly-deleted %select{default constructor|copy constructor|" "move constructor|copy assignment operator|move assignment operator|" "destructor|function}0 of %1">; def err_ovl_ambiguous_oper_unary : Error< "use of overloaded operator '%0' is ambiguous (operand type %1)">; def err_ovl_ambiguous_oper_binary : Error< "use of overloaded operator '%0' is ambiguous (with operand types %1 and %2)">; def err_ovl_no_viable_oper : Error<"no viable overloaded '%0'">; def note_assign_lhs_incomplete : Note<"type %0 is incomplete">; def err_ovl_deleted_oper : Error< "overload resolution selected %select{unavailable|deleted}0 operator '%1'%2">; def err_ovl_deleted_special_oper : Error< "object of type %0 cannot be %select{constructed|copied|moved|assigned|" "assigned|destroyed}1 because its %select{default constructor|" "copy constructor|move constructor|copy assignment operator|" "move assignment operator|destructor}1 is implicitly deleted">; def err_ovl_no_viable_subscript : Error<"no viable overloaded operator[] for type %0">; def err_ovl_no_oper : Error<"type %0 does not provide a %select{subscript|call}1 operator">; def err_ovl_unresolvable : Error< "reference to overloaded function could not be resolved; " "did you mean to call it%select{| with no arguments}0?">; def err_bound_member_function : Error< "reference to non-static member function must be called" "%select{|; did you mean to call it with no arguments?}0">; def note_possible_target_of_call : Note<"possible target for call">; def err_ovl_no_viable_object_call : Error< "no matching function for call to object of type %0">; def err_ovl_ambiguous_object_call : Error< "call to object of type %0 is ambiguous">; def err_ovl_deleted_object_call : Error< "call to %select{unavailable|deleted}0 function call operator in type %1%2">; def note_ovl_surrogate_cand : Note<"conversion candidate of type %0">; def err_member_call_without_object : Error< "call to non-static member function without an object argument">; // C++ Address of Overloaded Function def err_addr_ovl_no_viable : Error< "address of overloaded function %0 does not match required type %1">; def err_addr_ovl_ambiguous : Error< "address of overloaded function %0 is ambiguous">; def err_addr_ovl_not_func_ptrref : Error< "address of overloaded function %0 cannot be converted to type %1">; def err_addr_ovl_no_qualifier : Error< "cannot form member pointer of type %0 without '&' and class name">; // C++11 Literal Operators def err_ovl_no_viable_literal_operator : Error< "no matching literal operator for call to %0" "%select{| with argument of type %2| with arguments of types %2 and %3}1" "%select{| or 'const char *'}4" "%select{|, and no matching literal operator template}5">; // C++ Template Declarations def err_template_param_shadow : Error< "declaration of %0 shadows template parameter">; def note_template_param_here : Note<"template parameter is declared here">; def warn_template_export_unsupported : Warning< "exported templates are unsupported">; def err_template_outside_namespace_or_class_scope : Error< "templates can only be declared in namespace or class scope">; def err_template_inside_local_class : Error< "templates cannot be declared inside of a local class">; def err_template_linkage : Error<"templates must have C++ linkage">; def err_template_typedef : Error<"a typedef cannot be a template">; def err_template_unnamed_class : Error< "cannot declare a class template with no name">; def err_template_param_list_different_arity : Error< "%select{too few|too many}0 template parameters in template " "%select{|template parameter }1redeclaration">; def note_template_param_list_different_arity : Note< "%select{too few|too many}0 template parameters in template template " "argument">; def note_template_prev_declaration : Note< "previous template %select{declaration|template parameter}0 is here">; def err_template_param_different_kind : Error< "template parameter has a different kind in template " "%select{|template parameter }0redeclaration">; def note_template_param_different_kind : Note< "template parameter has a different kind in template argument">; def err_invalid_decl_specifier_in_nontype_parm : Error< "invalid declaration specifier in template non-type parameter">; def err_template_nontype_parm_different_type : Error< "template non-type parameter has a different type %0 in template " "%select{|template parameter }1redeclaration">; def note_template_nontype_parm_different_type : Note< "template non-type parameter has a different type %0 in template argument">; def note_template_nontype_parm_prev_declaration : Note< "previous non-type template parameter with type %0 is here">; def err_template_nontype_parm_bad_type : Error< "a non-type template parameter cannot have type %0">; def warn_cxx14_compat_template_nontype_parm_auto_type : Warning< "non-type template parameters declared with %0 are incompatible with C++ " "standards before C++17">, DefaultIgnore, InGroup; def err_template_param_default_arg_redefinition : Error< "template parameter redefines default argument">; def note_template_param_prev_default_arg : Note< "previous default template argument defined here">; def err_template_param_default_arg_missing : Error< "template parameter missing a default argument">; def ext_template_parameter_default_in_function_template : ExtWarn< "default template arguments for a function template are a C++11 extension">, InGroup; def warn_cxx98_compat_template_parameter_default_in_function_template : Warning< "default template arguments for a function template are incompatible with C++98">, InGroup, DefaultIgnore; def err_template_parameter_default_template_member : Error< "cannot add a default template argument to the definition of a member of a " "class template">; def err_template_parameter_default_friend_template : Error< "default template argument not permitted on a friend template">; def err_template_template_parm_no_parms : Error< "template template parameter must have its own template parameters">; def ext_variable_template : ExtWarn<"variable templates are a C++14 extension">, InGroup; def warn_cxx11_compat_variable_template : Warning< "variable templates are incompatible with C++ standards before C++14">, InGroup, DefaultIgnore; def err_template_variable_noparams : Error< "extraneous 'template<>' in declaration of variable %0">; def err_template_member : Error<"member %0 declared as a template">; def err_template_member_noparams : Error< "extraneous 'template<>' in declaration of member %0">; def err_template_tag_noparams : Error< "extraneous 'template<>' in declaration of %0 %1">; def err_template_decl_ref : Error< "cannot refer to %select{class|variable}0 template %1 without a template argument list">; // C++ Template Argument Lists def err_template_missing_args : Error< "use of " "%select{class template|function template|variable template|alias template|" "template template parameter|template}0 %1 requires template arguments">; def err_template_arg_list_different_arity : Error< "%select{too few|too many}0 template arguments for " "%select{class template|function template|variable template|alias template|" "template template parameter|template}1 %2">; def note_template_decl_here : Note<"template is declared here">; def err_template_arg_must_be_type : Error< "template argument for template type parameter must be a type">; def err_template_arg_must_be_type_suggest : Error< "template argument for template type parameter must be a type; " "did you forget 'typename'?">; def ext_ms_template_type_arg_missing_typename : ExtWarn< "template argument for template type parameter must be a type; " "omitted 'typename' is a Microsoft extension">, InGroup; def err_template_arg_must_be_expr : Error< "template argument for non-type template parameter must be an expression">; def err_template_arg_nontype_ambig : Error< "template argument for non-type template parameter is treated as function type %0">; def err_template_arg_must_be_template : Error< "template argument for template template parameter must be a class template%select{| or type alias template}0">; def ext_template_arg_local_type : ExtWarn< "template argument uses local type %0">, InGroup; def ext_template_arg_unnamed_type : ExtWarn< "template argument uses unnamed type">, InGroup; def warn_cxx98_compat_template_arg_local_type : Warning< "local type %0 as template argument is incompatible with C++98">, InGroup, DefaultIgnore; def warn_cxx98_compat_template_arg_unnamed_type : Warning< "unnamed type as template argument is incompatible with C++98">, InGroup, DefaultIgnore; def note_template_unnamed_type_here : Note< "unnamed type used in template argument was declared here">; def err_template_arg_overload_type : Error< "template argument is the type of an unresolved overloaded function">; def err_template_arg_not_valid_template : Error< "template argument does not refer to a class or alias template, or template " "template parameter">; def note_template_arg_refers_here_func : Note< "template argument refers to function template %0, here">; def err_template_arg_template_params_mismatch : Error< "template template argument has different template parameters than its " "corresponding template template parameter">; def err_template_arg_not_integral_or_enumeral : Error< "non-type template argument of type %0 must have an integral or enumeration" " type">; def err_template_arg_not_ice : Error< "non-type template argument of type %0 is not an integral constant " "expression">; def err_template_arg_not_address_constant : Error< "non-type template argument of type %0 is not a constant expression">; def warn_cxx98_compat_template_arg_null : Warning< "use of null pointer as non-type template argument is incompatible with " "C++98">, InGroup, DefaultIgnore; def err_template_arg_untyped_null_constant : Error< "null non-type template argument must be cast to template parameter type %0">; def err_template_arg_wrongtype_null_constant : Error< "null non-type template argument of type %0 does not match template parameter " "of type %1">; def err_non_type_template_parm_type_deduction_failure : Error< "non-type template parameter %0 with type %1 has incompatible initializer of type %2">; def err_deduced_non_type_template_arg_type_mismatch : Error< "deduced non-type template argument does not have the same type as the " "corresponding template parameter%diff{ ($ vs $)|}0,1">; def err_non_type_template_arg_subobject : Error< "non-type template argument refers to subobject '%0'">; def err_non_type_template_arg_addr_label_diff : Error< "template argument / label address difference / what did you expect?">; def err_template_arg_not_convertible : Error< "non-type template argument of type %0 cannot be converted to a value " "of type %1">; def warn_template_arg_negative : Warning< "non-type template argument with value '%0' converted to '%1' for unsigned " "template parameter of type %2">, InGroup, DefaultIgnore; def warn_template_arg_too_large : Warning< "non-type template argument value '%0' truncated to '%1' for " "template parameter of type %2">, InGroup, DefaultIgnore; def err_template_arg_no_ref_bind : Error< "non-type template parameter of reference type " "%diff{$ cannot bind to template argument of type $" "|cannot bind to template of incompatible argument type}0,1">; def err_template_arg_ref_bind_ignores_quals : Error< "reference binding of non-type template parameter " "%diff{of type $ to template argument of type $|to template argument}0,1 " "ignores qualifiers">; def err_template_arg_not_decl_ref : Error< "non-type template argument does not refer to any declaration">; def err_template_arg_not_address_of : Error< "non-type template argument for template parameter of pointer type %0 must " "have its address taken">; def err_template_arg_address_of_non_pointer : Error< "address taken in non-type template argument for template parameter of " "reference type %0">; def err_template_arg_reference_var : Error< "non-type template argument of reference type %0 is not an object">; def err_template_arg_field : Error< "non-type template argument refers to non-static data member %0">; def err_template_arg_method : Error< "non-type template argument refers to non-static member function %0">; def err_template_arg_object_no_linkage : Error< "non-type template argument refers to %select{function|object}0 %1 that " "does not have linkage">; def warn_cxx98_compat_template_arg_object_internal : Warning< "non-type template argument referring to %select{function|object}0 %1 with " "internal linkage is incompatible with C++98">, InGroup, DefaultIgnore; def ext_template_arg_object_internal : ExtWarn< "non-type template argument referring to %select{function|object}0 %1 with " "internal linkage is a C++11 extension">, InGroup; def err_template_arg_thread_local : Error< "non-type template argument refers to thread-local object">; def note_template_arg_internal_object : Note< "non-type template argument refers to %select{function|object}0 here">; def note_template_arg_refers_here : Note< "non-type template argument refers here">; def err_template_arg_not_object_or_func : Error< "non-type template argument does not refer to an object or function">; def err_template_arg_not_pointer_to_member_form : Error< "non-type template argument is not a pointer to member constant">; def err_template_arg_member_ptr_base_derived_not_supported : Error< "sorry, non-type template argument of pointer-to-member type %1 that refers " "to member %q0 of a different class is not supported yet">; def ext_template_arg_extra_parens : ExtWarn< "address non-type template argument cannot be surrounded by parentheses">; def warn_cxx98_compat_template_arg_extra_parens : Warning< "redundant parentheses surrounding address non-type template argument are " "incompatible with C++98">, InGroup, DefaultIgnore; def err_pointer_to_member_type : Error< "invalid use of pointer to member type after %select{.*|->*}0">; def err_pointer_to_member_call_drops_quals : Error< "call to pointer to member function of type %0 drops '%1' qualifier%s2">; def err_pointer_to_member_oper_value_classify: Error< "pointer-to-member function type %0 can only be called on an " "%select{rvalue|lvalue}1">; def ext_pointer_to_const_ref_member_on_rvalue : Extension< "invoking a pointer to a 'const &' member function on an rvalue is a C++2a extension">, InGroup, SFINAEFailure; def warn_cxx17_compat_pointer_to_const_ref_member_on_rvalue : Warning< "invoking a pointer to a 'const &' member function on an rvalue is " "incompatible with C++ standards before C++2a">, InGroup, DefaultIgnore; def ext_ms_deref_template_argument: ExtWarn< "non-type template argument containing a dereference operation is a " "Microsoft extension">, InGroup; def ext_ms_delayed_template_argument: ExtWarn< "using the undeclared type %0 as a default template argument is a " "Microsoft extension">, InGroup; def err_template_arg_deduced_incomplete_pack : Error< "deduced incomplete pack %0 for template parameter %1">; // C++ template specialization def err_template_spec_unknown_kind : Error< "can only provide an explicit specialization for a class template, function " "template, variable template, or a member function, static data member, " "%select{or member class|member class, or member enumeration}0 of a " "class template">; def note_specialized_entity : Note< "explicitly specialized declaration is here">; def note_explicit_specialization_declared_here : Note< "explicit specialization declared here">; def err_template_spec_decl_function_scope : Error< "explicit specialization of %0 in function scope">; def err_template_spec_decl_class_scope : Error< "explicit specialization of %0 in class scope">; def err_template_spec_decl_friend : Error< "cannot declare an explicit specialization in a friend">; def err_template_spec_decl_out_of_scope_global : Error< "%select{class template|class template partial|variable template|" "variable template partial|function template|member function|" "static data member|member class|member enumeration}0 " "specialization of %1 must originally be declared in the global scope">; def err_template_spec_decl_out_of_scope : Error< "%select{class template|class template partial|variable template|" "variable template partial|function template|member " "function|static data member|member class|member enumeration}0 " "specialization of %1 must originally be declared in namespace %2">; def ext_template_spec_decl_out_of_scope : ExtWarn< "first declaration of %select{class template|class template partial|" "variable template|variable template partial|" "function template|member function|static data member|member class|" "member enumeration}0 specialization of %1 outside namespace %2 is a " "C++11 extension">, InGroup; def warn_cxx98_compat_template_spec_decl_out_of_scope : Warning< "%select{class template|class template partial|variable template|" "variable template partial|function template|member " "function|static data member|member class|member enumeration}0 " "specialization of %1 outside namespace %2 is incompatible with C++98">, InGroup, DefaultIgnore; def err_template_spec_redecl_out_of_scope : Error< "%select{class template|class template partial|variable template|" "variable template partial|function template|member " "function|static data member|member class|member enumeration}0 " "specialization of %1 not in a namespace enclosing %2">; def ext_ms_template_spec_redecl_out_of_scope: ExtWarn< "%select{class template|class template partial|variable template|" "variable template partial|function template|member " "function|static data member|member class|member enumeration}0 " "specialization of %1 outside namespace enclosing %2 " "is a Microsoft extension">, InGroup; def err_template_spec_redecl_global_scope : Error< "%select{class template|class template partial|variable template|" "variable template partial|function template|member " "function|static data member|member class|member enumeration}0 " "specialization of %1 must occur at global scope">; def err_spec_member_not_instantiated : Error< "specialization of member %q0 does not specialize an instantiated member">; def note_specialized_decl : Note<"attempt to specialize declaration here">; def err_specialization_after_instantiation : Error< "explicit specialization of %0 after instantiation">; def note_instantiation_required_here : Note< "%select{implicit|explicit}0 instantiation first required here">; def err_template_spec_friend : Error< "template specialization declaration cannot be a friend">; def err_template_spec_default_arg : Error< "default argument not permitted on an explicit " "%select{instantiation|specialization}0 of function %1">; def err_not_class_template_specialization : Error< "cannot specialize a %select{dependent template|template template " "parameter}0">; def err_function_specialization_in_class : Error< "cannot specialize a function %0 within class scope">; def ext_function_specialization_in_class : ExtWarn< "explicit specialization of %0 within class scope is a Microsoft extension">, InGroup; def ext_explicit_specialization_storage_class : ExtWarn< "explicit specialization cannot have a storage class">; def err_explicit_specialization_inconsistent_storage_class : Error< "explicit specialization has extraneous, inconsistent storage class " "'%select{none|extern|static|__private_extern__|auto|register}0'">; // C++ class template specializations and out-of-line definitions def err_template_spec_needs_header : Error< "template specialization requires 'template<>'">; def err_template_spec_needs_template_parameters : Error< "template specialization or definition requires a template parameter list " "corresponding to the nested type %0">; def err_template_param_list_matches_nontemplate : Error< "template parameter list matching the non-templated nested type %0 should " "be empty ('template<>')">; def err_alias_template_extra_headers : Error< "extraneous template parameter list in alias template declaration">; def err_template_spec_extra_headers : Error< "extraneous template parameter list in template specialization or " "out-of-line template definition">; def warn_template_spec_extra_headers : Warning< "extraneous template parameter list in template specialization">; def note_explicit_template_spec_does_not_need_header : Note< "'template<>' header not required for explicitly-specialized class %0 " "declared here">; def err_template_qualified_declarator_no_match : Error< "nested name specifier '%0' for declaration does not refer into a class, " "class template or class template partial specialization">; def err_specialize_member_of_template : Error< "cannot specialize %select{|(with 'template<>') }0a member of an " "unspecialized template">; // C++ Class Template Partial Specialization def err_default_arg_in_partial_spec : Error< "default template argument in a class template partial specialization">; def err_dependent_non_type_arg_in_partial_spec : Error< "type of specialized non-type template argument depends on a template " "parameter of the partial specialization">; def note_dependent_non_type_default_arg_in_partial_spec : Note< "template parameter is used in default argument declared here">; def err_dependent_typed_non_type_arg_in_partial_spec : Error< "non-type template argument specializes a template parameter with " "dependent type %0">; def err_partial_spec_args_match_primary_template : Error< "%select{class|variable}0 template partial specialization does not " "specialize any template argument; to %select{declare|define}1 the " "primary template, remove the template argument list">; def ext_partial_spec_not_more_specialized_than_primary : ExtWarn< "%select{class|variable}0 template partial specialization is not " "more specialized than the primary template">, DefaultError, InGroup>; def note_partial_spec_not_more_specialized_than_primary : Note<"%0">; def ext_partial_specs_not_deducible : ExtWarn< "%select{class|variable}0 template partial specialization contains " "%select{a template parameter|template parameters}1 that cannot be " "deduced; this partial specialization will never be used">, DefaultError, InGroup>; def note_non_deducible_parameter : Note< "non-deducible template parameter %0">; def err_partial_spec_ordering_ambiguous : Error< "ambiguous partial specializations of %0">; def note_partial_spec_match : Note<"partial specialization matches %0">; def err_partial_spec_redeclared : Error< "class template partial specialization %0 cannot be redeclared">; def note_partial_specialization_declared_here : Note< "explicit specialization declared here">; def note_prev_partial_spec_here : Note< "previous declaration of class template partial specialization %0 is here">; def err_partial_spec_fully_specialized : Error< "partial specialization of %0 does not use any of its template parameters">; // C++ Variable Template Partial Specialization def err_var_partial_spec_redeclared : Error< "variable template partial specialization %0 cannot be redefined">; def note_var_prev_partial_spec_here : Note< "previous declaration of variable template partial specialization is here">; def err_var_spec_no_template : Error< "no variable template matches%select{| partial}0 specialization">; def err_var_spec_no_template_but_method : Error< "no variable template matches specialization; " "did you mean to use %0 as function template instead?">; // C++ Function template specializations def err_function_template_spec_no_match : Error< "no function template matches function template specialization %0">; def err_function_template_spec_ambiguous : Error< "function template specialization %0 ambiguously refers to more than one " "function template; explicitly specify%select{| additional}1 template " "arguments to identify a particular function template">; def note_function_template_spec_matched : Note< "function template %q0 matches specialization %1">; def err_function_template_partial_spec : Error< "function template partial specialization is not allowed">; // C++ Template Instantiation def err_template_recursion_depth_exceeded : Error< "recursive template instantiation exceeded maximum depth of %0">, DefaultFatal, NoSFINAE; def note_template_recursion_depth : Note< "use -ftemplate-depth=N to increase recursive template instantiation depth">; def err_template_instantiate_within_definition : Error< "%select{implicit|explicit}0 instantiation of template %1 within its" " own definition">; def err_template_instantiate_undefined : Error< "%select{implicit|explicit}0 instantiation of undefined template %1">; def err_implicit_instantiate_member_undefined : Error< "implicit instantiation of undefined member %0">; def note_template_class_instantiation_was_here : Note< "class template %0 was instantiated here">; def note_template_class_explicit_specialization_was_here : Note< "class template %0 was explicitly specialized here">; def note_template_class_instantiation_here : Note< "in instantiation of template class %q0 requested here">; def note_template_member_class_here : Note< "in instantiation of member class %q0 requested here">; def note_template_member_function_here : Note< "in instantiation of member function %q0 requested here">; def note_function_template_spec_here : Note< "in instantiation of function template specialization %q0 requested here">; def note_template_static_data_member_def_here : Note< "in instantiation of static data member %q0 requested here">; def note_template_variable_def_here : Note< "in instantiation of variable template specialization %q0 requested here">; def note_template_enum_def_here : Note< "in instantiation of enumeration %q0 requested here">; def note_template_nsdmi_here : Note< "in instantiation of default member initializer %q0 requested here">; def note_template_type_alias_instantiation_here : Note< "in instantiation of template type alias %0 requested here">; def note_template_exception_spec_instantiation_here : Note< "in instantiation of exception specification for %0 requested here">; def warn_var_template_missing : Warning<"instantiation of variable %q0 " "required here, but no definition is available">, InGroup; def warn_func_template_missing : Warning<"instantiation of function %q0 " "required here, but no definition is available">, InGroup, DefaultIgnore; def note_forward_template_decl : Note< "forward declaration of template entity is here">; def note_inst_declaration_hint : Note<"add an explicit instantiation " "declaration to suppress this warning if %q0 is explicitly instantiated in " "another translation unit">; def note_default_arg_instantiation_here : Note< "in instantiation of default argument for '%0' required here">; def note_default_function_arg_instantiation_here : Note< "in instantiation of default function argument expression " "for '%0' required here">; def note_explicit_template_arg_substitution_here : Note< "while substituting explicitly-specified template arguments into function " "template %0 %1">; def note_function_template_deduction_instantiation_here : Note< "while substituting deduced template arguments into function template %0 " "%1">; def note_deduced_template_arg_substitution_here : Note< "during template argument deduction for %select{class|variable}0 template " "%select{partial specialization |}1%2 %3">; def note_prior_template_arg_substitution : Note< "while substituting prior template arguments into %select{non-type|template}0" " template parameter%1 %2">; def note_template_default_arg_checking : Note< "while checking a default template argument used here">; def note_instantiation_contexts_suppressed : Note< "(skipping %0 context%s0 in backtrace; use -ftemplate-backtrace-limit=0 to " "see all)">; def err_field_instantiates_to_function : Error< "data member instantiated with function type %0">; def err_variable_instantiates_to_function : Error< "%select{variable|static data member}0 instantiated with function type %1">; def err_nested_name_spec_non_tag : Error< "type %0 cannot be used prior to '::' because it has no members">; def err_using_pack_expansion_empty : Error< "%select{|member}0 using declaration %1 instantiates to an empty pack">; // C++ Explicit Instantiation def err_explicit_instantiation_duplicate : Error< "duplicate explicit instantiation of %0">; def ext_explicit_instantiation_duplicate : ExtWarn< "duplicate explicit instantiation of %0 ignored as a Microsoft extension">, InGroup; def note_previous_explicit_instantiation : Note< "previous explicit instantiation is here">; def warn_explicit_instantiation_after_specialization : Warning< "explicit instantiation of %0 that occurs after an explicit " "specialization has no effect">, InGroup>; def note_previous_template_specialization : Note< "previous template specialization is here">; def err_explicit_instantiation_nontemplate_type : Error< "explicit instantiation of non-templated type %0">; def note_nontemplate_decl_here : Note< "non-templated declaration is here">; def err_explicit_instantiation_in_class : Error< "explicit instantiation of %0 in class scope">; def err_explicit_instantiation_out_of_scope : Error< "explicit instantiation of %0 not in a namespace enclosing %1">; def err_explicit_instantiation_must_be_global : Error< "explicit instantiation of %0 must occur at global scope">; def warn_explicit_instantiation_out_of_scope_0x : Warning< "explicit instantiation of %0 not in a namespace enclosing %1">, InGroup, DefaultIgnore; def warn_explicit_instantiation_must_be_global_0x : Warning< "explicit instantiation of %0 must occur at global scope">, InGroup, DefaultIgnore; def err_explicit_instantiation_requires_name : Error< "explicit instantiation declaration requires a name">; def err_explicit_instantiation_of_typedef : Error< "explicit instantiation of typedef %0">; def err_explicit_instantiation_storage_class : Error< "explicit instantiation cannot have a storage class">; def err_explicit_instantiation_not_known : Error< "explicit instantiation of %0 does not refer to a function template, " "variable template, member function, member class, or static data member">; def note_explicit_instantiation_here : Note< "explicit instantiation refers here">; def err_explicit_instantiation_data_member_not_instantiated : Error< "explicit instantiation refers to static data member %q0 that is not an " "instantiation">; def err_explicit_instantiation_member_function_not_instantiated : Error< "explicit instantiation refers to member function %q0 that is not an " "instantiation">; def err_explicit_instantiation_ambiguous : Error< "partial ordering for explicit instantiation of %0 is ambiguous">; def note_explicit_instantiation_candidate : Note< "explicit instantiation candidate function %q0 template here %1">; def err_explicit_instantiation_inline : Error< "explicit instantiation cannot be 'inline'">; def warn_explicit_instantiation_inline_0x : Warning< "explicit instantiation cannot be 'inline'">, InGroup, DefaultIgnore; def err_explicit_instantiation_constexpr : Error< "explicit instantiation cannot be 'constexpr'">; def ext_explicit_instantiation_without_qualified_id : Extension< "qualifier in explicit instantiation of %q0 requires a template-id " "(a typedef is not permitted)">; def err_explicit_instantiation_without_template_id : Error< "explicit instantiation of %q0 must specify a template argument list">; def err_explicit_instantiation_unqualified_wrong_namespace : Error< "explicit instantiation of %q0 must occur in namespace %1">; def warn_explicit_instantiation_unqualified_wrong_namespace_0x : Warning< "explicit instantiation of %q0 must occur in namespace %1">, InGroup, DefaultIgnore; def err_explicit_instantiation_undefined_member : Error< "explicit instantiation of undefined %select{member class|member function|" "static data member}0 %1 of class template %2">; def err_explicit_instantiation_undefined_func_template : Error< "explicit instantiation of undefined function template %0">; def err_explicit_instantiation_undefined_var_template : Error< "explicit instantiation of undefined variable template %q0">; def err_explicit_instantiation_declaration_after_definition : Error< "explicit instantiation declaration (with 'extern') follows explicit " "instantiation definition (without 'extern')">; def note_explicit_instantiation_definition_here : Note< "explicit instantiation definition is here">; def err_invalid_var_template_spec_type : Error<"type %2 " "of %select{explicit instantiation|explicit specialization|" "partial specialization|redeclaration}0 of %1 does not match" " expected type %3">; def err_mismatched_exception_spec_explicit_instantiation : Error< "exception specification in explicit instantiation does not match " "instantiated one">; def ext_mismatched_exception_spec_explicit_instantiation : ExtWarn< err_mismatched_exception_spec_explicit_instantiation.Text>, InGroup; // C++ typename-specifiers def err_typename_nested_not_found : Error<"no type named %0 in %1">; def err_typename_nested_not_found_enable_if : Error< "no type named 'type' in %0; 'enable_if' cannot be used to disable " "this declaration">; def err_typename_nested_not_found_requirement : Error< "failed requirement '%0'; 'enable_if' cannot be used to disable this " "declaration">; def err_typename_nested_not_type : Error< "typename specifier refers to non-type member %0 in %1">; def note_typename_refers_here : Note< "referenced member %0 is declared here">; def err_typename_missing : Error< "missing 'typename' prior to dependent type name '%0%1'">; def err_typename_missing_template : Error< "missing 'typename' prior to dependent type template name '%0%1'">; def ext_typename_missing : ExtWarn< "missing 'typename' prior to dependent type name '%0%1'">, InGroup>; def ext_typename_outside_of_template : ExtWarn< "'typename' occurs outside of a template">, InGroup; def warn_cxx98_compat_typename_outside_of_template : Warning< "use of 'typename' outside of a template is incompatible with C++98">, InGroup, DefaultIgnore; def err_typename_refers_to_using_value_decl : Error< "typename specifier refers to a dependent using declaration for a value " "%0 in %1">; def note_using_value_decl_missing_typename : Note< "add 'typename' to treat this using declaration as a type">; def err_template_kw_refers_to_non_template : Error< "%0 following the 'template' keyword does not refer to a template">; def err_template_kw_refers_to_class_template : Error< "'%0%1' instantiated to a class template, not a function template">; def note_referenced_class_template : Note< "class template declared here">; def err_template_kw_missing : Error< "missing 'template' keyword prior to dependent template name '%0%1'">; def ext_template_outside_of_template : ExtWarn< "'template' keyword outside of a template">, InGroup; def warn_cxx98_compat_template_outside_of_template : Warning< "use of 'template' keyword outside of a template is incompatible with C++98">, InGroup, DefaultIgnore; def err_non_type_template_in_nested_name_specifier : Error< "qualified name refers into a specialization of %select{function|variable}0 " "template %1">; def err_template_id_not_a_type : Error< "template name refers to non-type template %0">; def note_template_declared_here : Note< "%select{function template|class template|variable template" "|type alias template|template template parameter}0 " "%1 declared here">; def err_alias_template_expansion_into_fixed_list : Error< "pack expansion used as argument for non-pack parameter of alias template">; def note_parameter_type : Note< "parameter of type %0 is declared here">; // C++11 Variadic Templates def err_template_param_pack_default_arg : Error< "template parameter pack cannot have a default argument">; def err_template_param_pack_must_be_last_template_parameter : Error< "template parameter pack must be the last template parameter">; def err_template_parameter_pack_non_pack : Error< "%select{template type|non-type template|template template}0 parameter" "%select{| pack}1 conflicts with previous %select{template type|" "non-type template|template template}0 parameter%select{ pack|}1">; def note_template_parameter_pack_non_pack : Note< "%select{template type|non-type template|template template}0 parameter" "%select{| pack}1 does not match %select{template type|non-type template" "|template template}0 parameter%select{ pack|}1 in template argument">; def note_template_parameter_pack_here : Note< "previous %select{template type|non-type template|template template}0 " "parameter%select{| pack}1 declared here">; def err_unexpanded_parameter_pack : Error< "%select{expression|base type|declaration type|data member type|bit-field " "size|static assertion|fixed underlying type|enumerator value|" "using declaration|friend declaration|qualifier|initializer|default argument|" "non-type template parameter type|exception type|partial specialization|" "__if_exists name|__if_not_exists name|lambda|block}0 contains" "%plural{0: an|:}1 unexpanded parameter pack" "%plural{0:|1: %2|2:s %2 and %3|:s %2, %3, ...}1">; def err_pack_expansion_without_parameter_packs : Error< "pack expansion does not contain any unexpanded parameter packs">; def err_pack_expansion_length_conflict : Error< "pack expansion contains parameter packs %0 and %1 that have different " "lengths (%2 vs. %3)">; def err_pack_expansion_length_conflict_multilevel : Error< "pack expansion contains parameter pack %0 that has a different " "length (%1 vs. %2) from outer parameter packs">; def err_pack_expansion_member_init : Error< "pack expansion for initialization of member %0">; def err_function_parameter_pack_without_parameter_packs : Error< "type %0 of function parameter pack does not contain any unexpanded " "parameter packs">; def err_ellipsis_in_declarator_not_parameter : Error< "only function and template parameters can be parameter packs">; def err_sizeof_pack_no_pack_name : Error< "%0 does not refer to the name of a parameter pack">; def err_fold_expression_packs_both_sides : Error< "binary fold expression has unexpanded parameter packs in both operands">; def err_fold_expression_empty : Error< "unary fold expression has empty expansion for operator '%0' " "with no fallback value">; def err_fold_expression_bad_operand : Error< "expression not permitted as operand of fold expression">; def err_unexpected_typedef : Error< "unexpected type name %0: expected expression">; def err_unexpected_namespace : Error< "unexpected namespace name %0: expected expression">; def err_undeclared_var_use : Error<"use of undeclared identifier %0">; def ext_undeclared_unqual_id_with_dependent_base : ExtWarn< "use of undeclared identifier %0; " "unqualified lookup into dependent bases of class template %1 is a Microsoft extension">, InGroup; def ext_found_via_dependent_bases_lookup : ExtWarn<"use of identifier %0 " "found via unqualified lookup into dependent bases of class templates is a " "Microsoft extension">, InGroup; def note_dependent_var_use : Note<"must qualify identifier to find this " "declaration in dependent base class">; def err_not_found_by_two_phase_lookup : Error<"call to function %0 that is neither " "visible in the template definition nor found by argument-dependent lookup">; def note_not_found_by_two_phase_lookup : Note<"%0 should be declared prior to the " "call site%select{| or in %2| or in an associated namespace of one of its arguments}1">; def err_undeclared_use : Error<"use of undeclared %0">; def warn_deprecated : Warning<"%0 is deprecated">, InGroup; def note_from_diagnose_if : Note<"from 'diagnose_if' attribute on %0:">; def warn_property_method_deprecated : Warning<"property access is using %0 method which is deprecated">, InGroup; def warn_deprecated_message : Warning<"%0 is deprecated: %1">, InGroup; def warn_deprecated_anonymous_namespace : Warning< "'deprecated' attribute on anonymous namespace ignored">, InGroup; def warn_deprecated_fwdclass_message : Warning< "%0 may be deprecated because the receiver type is unknown">, InGroup; def warn_deprecated_def : Warning< "implementing deprecated %select{method|class|category}0">, InGroup, DefaultIgnore; def warn_unavailable_def : Warning< "implementing unavailable method">, InGroup, DefaultIgnore; def err_unavailable : Error<"%0 is unavailable">; def err_property_method_unavailable : Error<"property access is using %0 method which is unavailable">; def err_unavailable_message : Error<"%0 is unavailable: %1">; def warn_unavailable_fwdclass_message : Warning< "%0 may be unavailable because the receiver type is unknown">, InGroup; def note_availability_specified_here : Note< "%0 has been explicitly marked " "%select{unavailable|deleted|deprecated|partial}1 here">; def note_implicitly_deleted : Note< "explicitly defaulted function was implicitly deleted here">; def warn_not_enough_argument : Warning< "not enough variable arguments in %0 declaration to fit a sentinel">, InGroup; def warn_missing_sentinel : Warning < "missing sentinel in %select{function call|method dispatch|block call}0">, InGroup; def note_sentinel_here : Note< "%select{function|method|block}0 has been explicitly marked sentinel here">; def warn_missing_prototype : Warning< "no previous prototype for function %0">, InGroup>, DefaultIgnore; def note_declaration_not_a_prototype : Note< "this declaration is not a prototype; add 'void' to make it a prototype for a zero-parameter function">; def warn_strict_prototypes : Warning< "this %select{function declaration is not|block declaration is not|" "old-style function definition is not preceded by}0 a prototype">, InGroup>, DefaultIgnore; def warn_missing_variable_declarations : Warning< "no previous extern declaration for non-static variable %0">, InGroup>, DefaultIgnore; def err_static_data_member_reinitialization : Error<"static data member %0 already has an initializer">; def err_redefinition : Error<"redefinition of %0">; def err_alias_after_tentative : Error<"alias definition of %0 after tentative definition">; def err_alias_is_definition : Error<"definition %0 cannot also be an %select{alias|ifunc}1">; def err_definition_of_implicitly_declared_member : Error< "definition of implicitly declared %select{default constructor|copy " "constructor|move constructor|copy assignment operator|move assignment " "operator|destructor|function}1">; def err_definition_of_explicitly_defaulted_member : Error< "definition of explicitly defaulted %select{default constructor|copy " "constructor|move constructor|copy assignment operator|move assignment " "operator|destructor|function}0">; def err_redefinition_extern_inline : Error< "redefinition of a 'extern inline' function %0 is not supported in " "%select{C99 mode|C++}1">; def warn_attr_abi_tag_namespace : Warning< "'abi_tag' attribute on %select{non-inline|anonymous}0 namespace ignored">, InGroup; def err_abi_tag_on_redeclaration : Error< "cannot add 'abi_tag' attribute in a redeclaration">; def err_new_abi_tag_on_redeclaration : Error< "'abi_tag' %0 missing in original declaration">; def note_use_ifdef_guards : Note< "unguarded header; consider using #ifdef guards or #pragma once">; def note_deleted_dtor_no_operator_delete : Note< "virtual destructor requires an unambiguous, accessible 'operator delete'">; def note_deleted_special_member_class_subobject : Note< "%select{default constructor of|copy constructor of|move constructor of|" "copy assignment operator of|move assignment operator of|destructor of|" "constructor inherited by}0 " "%1 is implicitly deleted because " "%select{base class %3|%select{||||variant }4field %3}2 has " "%select{no|a deleted|multiple|an inaccessible|a non-trivial}4 " "%select{%select{default constructor|copy constructor|move constructor|copy " "assignment operator|move assignment operator|destructor|" "%select{default|corresponding|default|default|default}4 constructor}0|" "destructor}5" "%select{||s||}4">; def note_deleted_default_ctor_uninit_field : Note< "%select{default constructor of|constructor inherited by}0 " "%1 is implicitly deleted because field %2 of " "%select{reference|const-qualified}4 type %3 would not be initialized">; def note_deleted_default_ctor_all_const : Note< "%select{default constructor of|constructor inherited by}0 " "%1 is implicitly deleted because all " "%select{data members|data members of an anonymous union member}2" " are const-qualified">; def note_deleted_copy_ctor_rvalue_reference : Note< "copy constructor of %0 is implicitly deleted because field %1 is of " "rvalue reference type %2">; def note_deleted_copy_user_declared_move : Note< "copy %select{constructor|assignment operator}0 is implicitly deleted because" " %1 has a user-declared move %select{constructor|assignment operator}2">; def note_deleted_assign_field : Note< "%select{copy|move}0 assignment operator of %1 is implicitly deleted " "because field %2 is of %select{reference|const-qualified}4 type %3">; // These should be errors. def warn_undefined_internal : Warning< "%select{function|variable}0 %q1 has internal linkage but is not defined">, InGroup>; def err_undefined_internal_type : Error< "%select{function|variable}0 %q1 is used but not defined in this " "translation unit, and cannot be defined in any other translation unit " "because its type does not have linkage">; def ext_undefined_internal_type : Extension< "ISO C++ requires a definition in this translation unit for " "%select{function|variable}0 %q1 because its type does not have linkage">, InGroup>; def warn_undefined_inline : Warning<"inline function %q0 is not defined">, InGroup>; def err_undefined_inline_var : Error<"inline variable %q0 is not defined">; def note_used_here : Note<"used here">; def err_internal_linkage_redeclaration : Error< "'internal_linkage' attribute does not appear on the first declaration of %0">; def warn_internal_linkage_local_storage : Warning< "'internal_linkage' attribute on a non-static local variable is ignored">, InGroup; def ext_internal_in_extern_inline : ExtWarn< "static %select{function|variable}0 %1 is used in an inline function with " "external linkage">, InGroup; def ext_internal_in_extern_inline_quiet : Extension< "static %select{function|variable}0 %1 is used in an inline function with " "external linkage">, InGroup; def warn_static_local_in_extern_inline : Warning< "non-constant static local variable in inline function may be different " "in different files">, InGroup; def note_convert_inline_to_static : Note< "use 'static' to give inline function %0 internal linkage">; def ext_redefinition_of_typedef : ExtWarn< "redefinition of typedef %0 is a C11 feature">, InGroup >; def err_redefinition_variably_modified_typedef : Error< "redefinition of %select{typedef|type alias}0 for variably-modified type %1">; def err_inline_decl_follows_def : Error< "inline declaration of %0 follows non-inline definition">; def err_inline_declaration_block_scope : Error< "inline declaration of %0 not allowed in block scope">; def err_static_non_static : Error< "static declaration of %0 follows non-static declaration">; def err_different_language_linkage : Error< "declaration of %0 has a different language linkage">; def ext_retained_language_linkage : Extension< "friend function %0 retaining previous language linkage is an extension">, InGroup>; def err_extern_c_global_conflict : Error< "declaration of %1 %select{with C language linkage|in global scope}0 " "conflicts with declaration %select{in global scope|with C language linkage}0">; def note_extern_c_global_conflict : Note< "declared %select{in global scope|with C language linkage}0 here">; def note_extern_c_begins_here : Note< "extern \"C\" language linkage specification begins here">; def warn_weak_import : Warning < "an already-declared variable is made a weak_import declaration %0">; def ext_static_non_static : Extension< "redeclaring non-static %0 as static is a Microsoft extension">, InGroup; def err_non_static_static : Error< "non-static declaration of %0 follows static declaration">; def err_extern_non_extern : Error< "extern declaration of %0 follows non-extern declaration">; def err_non_extern_extern : Error< "non-extern declaration of %0 follows extern declaration">; def err_non_thread_thread : Error< "non-thread-local declaration of %0 follows thread-local declaration">; def err_thread_non_thread : Error< "thread-local declaration of %0 follows non-thread-local declaration">; def err_thread_thread_different_kind : Error< "thread-local declaration of %0 with %select{static|dynamic}1 initialization " "follows declaration with %select{dynamic|static}1 initialization">; def err_mismatched_owning_module : Error< "declaration of %0 in %select{the global module|module %2}1 follows " "declaration in %select{the global module|module %4}3">; def err_redefinition_different_type : Error< "redefinition of %0 with a different type%diff{: $ vs $|}1,2">; def err_redefinition_different_kind : Error< "redefinition of %0 as different kind of symbol">; def err_redefinition_different_namespace_alias : Error< "redefinition of %0 as an alias for a different namespace">; def note_previous_namespace_alias : Note< "previously defined as an alias for %0">; def warn_forward_class_redefinition : Warning< "redefinition of forward class %0 of a typedef name of an object type is ignored">, InGroup>; def err_redefinition_different_typedef : Error< "%select{typedef|type alias|type alias template}0 " "redefinition with different types%diff{ ($ vs $)|}1,2">; def err_tag_reference_non_tag : Error< "%select{non-struct type|non-class type|non-union type|non-enum " "type|typedef|type alias|template|type alias template|template " "template argument}1 %0 cannot be referenced with a " "%select{struct|interface|union|class|enum}2 specifier">; def err_tag_reference_conflict : Error< "implicit declaration introduced by elaborated type conflicts with a " "%select{non-struct type|non-class type|non-union type|non-enum " "type|typedef|type alias|template|type alias template|template " "template argument}0 of the same name">; def err_dependent_tag_decl : Error< "%select{declaration|definition}0 of " "%select{struct|interface|union|class|enum}1 in a dependent scope">; def err_tag_definition_of_typedef : Error< "definition of type %0 conflicts with %select{typedef|type alias}1 of the same name">; def err_conflicting_types : Error<"conflicting types for %0">; def err_different_pass_object_size_params : Error< "conflicting pass_object_size attributes on parameters">; def err_late_asm_label_name : Error< "cannot apply asm label to %select{variable|function}0 after its first use">; def err_different_asm_label : Error<"conflicting asm label">; def err_nested_redefinition : Error<"nested redefinition of %0">; def err_use_with_wrong_tag : Error< "use of %0 with tag type that does not match previous declaration">; def warn_struct_class_tag_mismatch : Warning< "%select{struct|interface|class}0%select{| template}1 %2 was previously " "declared as a %select{struct|interface|class}3%select{| template}1">, InGroup, DefaultIgnore; def warn_struct_class_previous_tag_mismatch : Warning< "%2 defined as %select{a struct|an interface|a class}0%select{| template}1 " "here but previously declared as " "%select{a struct|an interface|a class}3%select{| template}1">, InGroup, DefaultIgnore; def note_struct_class_suggestion : Note< "did you mean %select{struct|interface|class}0 here?">; def ext_forward_ref_enum : Extension< "ISO C forbids forward references to 'enum' types">; def err_forward_ref_enum : Error< "ISO C++ forbids forward references to 'enum' types">; def ext_ms_forward_ref_enum : ExtWarn< "forward references to 'enum' types are a Microsoft extension">, InGroup; def ext_forward_ref_enum_def : Extension< "redeclaration of already-defined enum %0 is a GNU extension">, InGroup; def err_redefinition_of_enumerator : Error<"redefinition of enumerator %0">; def err_duplicate_member : Error<"duplicate member %0">; def err_misplaced_ivar : Error< "instance variables may not be placed in %select{categories|class extension}0">; def warn_ivars_in_interface : Warning< "declaration of instance variables in the interface is deprecated">, InGroup>, DefaultIgnore; def ext_enum_value_not_int : Extension< "ISO C restricts enumerator values to range of 'int' (%0 is too " "%select{small|large}1)">; def ext_enum_too_large : ExtWarn< "enumeration values exceed range of largest integer">, InGroup; def ext_enumerator_increment_too_large : ExtWarn< "incremented enumerator value %0 is not representable in the " "largest integer type">, InGroup; def warn_flag_enum_constant_out_of_range : Warning< "enumeration value %0 is out of range of flags in enumeration type %1">, InGroup; def warn_illegal_constant_array_size : Extension< "size of static array must be an integer constant expression">; def err_vm_decl_in_file_scope : Error< "variably modified type declaration not allowed at file scope">; def err_vm_decl_has_extern_linkage : Error< "variably modified type declaration cannot have 'extern' linkage">; def err_typecheck_field_variable_size : Error< "fields must have a constant size: 'variable length array in structure' " "extension will never be supported">; def err_vm_func_decl : Error< "function declaration cannot have variably modified type">; def err_array_too_large : Error< "array is too large (%0 elements)">; // -Wpadded, -Wpacked def warn_padded_struct_field : Warning< "padding %select{struct|interface|class}0 %1 with %2 " "%select{byte|bit}3%s2 to align %4">, InGroup, DefaultIgnore; def warn_padded_struct_anon_field : Warning< "padding %select{struct|interface|class}0 %1 with %2 " "%select{byte|bit}3%s2 to align anonymous bit-field">, InGroup, DefaultIgnore; def warn_padded_struct_size : Warning< "padding size of %0 with %1 %select{byte|bit}2%s1 to alignment boundary">, InGroup, DefaultIgnore; def warn_unnecessary_packed : Warning< "packed attribute is unnecessary for %0">, InGroup, DefaultIgnore; def err_typecheck_negative_array_size : Error<"array size is negative">; def warn_typecheck_function_qualifiers_ignored : Warning< "'%0' qualifier on function type %1 has no effect">, InGroup; def warn_typecheck_function_qualifiers_unspecified : Warning< "'%0' qualifier on function type %1 has unspecified behavior">; def warn_typecheck_reference_qualifiers : Warning< "'%0' qualifier on reference type %1 has no effect">, InGroup; def err_typecheck_invalid_restrict_not_pointer : Error< "restrict requires a pointer or reference (%0 is invalid)">; def err_typecheck_invalid_restrict_not_pointer_noarg : Error< "restrict requires a pointer or reference">; def err_typecheck_invalid_restrict_invalid_pointee : Error< "pointer to function type %0 may not be 'restrict' qualified">; def ext_typecheck_zero_array_size : Extension< "zero size arrays are an extension">, InGroup; def err_typecheck_zero_array_size : Error< "zero-length arrays are not permitted in C++">; def warn_typecheck_zero_static_array_size : Warning< "'static' has no effect on zero-length arrays">, InGroup; def err_array_size_non_int : Error<"size of array has non-integer type %0">; def err_init_element_not_constant : Error< "initializer element is not a compile-time constant">; def ext_aggregate_init_not_constant : Extension< "initializer for aggregate is not a compile-time constant">, InGroup; def err_local_cant_init : Error< "'__local' variable cannot have an initializer">; def err_block_extern_cant_init : Error< "'extern' variable cannot have an initializer">; def warn_extern_init : Warning<"'extern' variable has an initializer">, InGroup>; def err_variable_object_no_init : Error< "variable-sized object may not be initialized">; def err_excess_initializers : Error< "excess elements in %select{array|vector|scalar|union|struct}0 initializer">; def ext_excess_initializers : ExtWarn< "excess elements in %select{array|vector|scalar|union|struct}0 initializer">; def err_excess_initializers_in_char_array_initializer : Error< "excess elements in char array initializer">; def ext_excess_initializers_in_char_array_initializer : ExtWarn< "excess elements in char array initializer">; def err_initializer_string_for_char_array_too_long : Error< "initializer-string for char array is too long">; def ext_initializer_string_for_char_array_too_long : ExtWarn< "initializer-string for char array is too long">; def warn_missing_field_initializers : Warning< "missing field %0 initializer">, InGroup, DefaultIgnore; def warn_braces_around_scalar_init : Warning< "braces around scalar initializer">, InGroup>; def ext_many_braces_around_scalar_init : ExtWarn< "too many braces around scalar initializer">, InGroup>; def ext_complex_component_init : Extension< "complex initialization specifying real and imaginary components " "is an extension">, InGroup>; def err_empty_scalar_initializer : Error<"scalar initializer cannot be empty">; def warn_cxx98_compat_empty_scalar_initializer : Warning< "scalar initialized from empty initializer list is incompatible with C++98">, InGroup, DefaultIgnore; def warn_cxx98_compat_reference_list_init : Warning< "reference initialized from initializer list is incompatible with C++98">, InGroup, DefaultIgnore; def warn_cxx98_compat_initializer_list_init : Warning< "initialization of initializer_list object is incompatible with C++98">, InGroup, DefaultIgnore; def warn_cxx98_compat_ctor_list_init : Warning< "constructor call from initializer list is incompatible with C++98">, InGroup, DefaultIgnore; def err_illegal_initializer : Error< "illegal initializer (only variables can be initialized)">; def err_illegal_initializer_type : Error<"illegal initializer type %0">; def ext_init_list_type_narrowing : ExtWarn< "type %0 cannot be narrowed to %1 in initializer list">, InGroup, DefaultError, SFINAEFailure; def ext_init_list_variable_narrowing : ExtWarn< "non-constant-expression cannot be narrowed from type %0 to %1 in " "initializer list">, InGroup, DefaultError, SFINAEFailure; def ext_init_list_constant_narrowing : ExtWarn< "constant expression evaluates to %0 which cannot be narrowed to type %1">, InGroup, DefaultError, SFINAEFailure; def warn_init_list_type_narrowing : Warning< "type %0 cannot be narrowed to %1 in initializer list in C++11">, InGroup, DefaultIgnore; def warn_init_list_variable_narrowing : Warning< "non-constant-expression cannot be narrowed from type %0 to %1 in " "initializer list in C++11">, InGroup, DefaultIgnore; def warn_init_list_constant_narrowing : Warning< "constant expression evaluates to %0 which cannot be narrowed to type %1 in " "C++11">, InGroup, DefaultIgnore; def note_init_list_narrowing_silence : Note< "insert an explicit cast to silence this issue">; def err_init_objc_class : Error< "cannot initialize Objective-C class type %0">; def err_implicit_empty_initializer : Error< "initializer for aggregate with no elements requires explicit braces">; def err_bitfield_has_negative_width : Error< "bit-field %0 has negative width (%1)">; def err_anon_bitfield_has_negative_width : Error< "anonymous bit-field has negative width (%0)">; def err_bitfield_has_zero_width : Error<"named bit-field %0 has zero width">; def err_bitfield_width_exceeds_type_width : Error< "width of bit-field %0 (%1 bits) exceeds %select{width|size}2 " "of its type (%3 bit%s3)">; def err_anon_bitfield_width_exceeds_type_width : Error< "width of anonymous bit-field (%0 bits) exceeds %select{width|size}1 " "of its type (%2 bit%s2)">; def err_incorrect_number_of_vector_initializers : Error< "number of elements must be either one or match the size of the vector">; // Used by C++ which allows bit-fields that are wider than the type. def warn_bitfield_width_exceeds_type_width: Warning< "width of bit-field %0 (%1 bits) exceeds the width of its type; value will " "be truncated to %2 bit%s2">, InGroup; def warn_anon_bitfield_width_exceeds_type_width : Warning< "width of anonymous bit-field (%0 bits) exceeds width of its type; value " "will be truncated to %1 bit%s1">, InGroup; def warn_bitfield_too_small_for_enum : Warning< "bit-field %0 is not wide enough to store all enumerators of %1">, InGroup, DefaultIgnore; def note_widen_bitfield : Note< "widen this field to %0 bits to store all values of %1">; def warn_unsigned_bitfield_assigned_signed_enum : Warning< "assigning value of signed enum type %1 to unsigned bit-field %0; " "negative enumerators of enum %1 will be converted to positive values">, InGroup, DefaultIgnore; def warn_signed_bitfield_enum_conversion : Warning< "signed bit-field %0 needs an extra bit to represent the largest positive " "enumerators of %1">, InGroup, DefaultIgnore; def note_change_bitfield_sign : Note< "consider making the bitfield type %select{unsigned|signed}0">; def warn_missing_braces : Warning< "suggest braces around initialization of subobject">, InGroup, DefaultIgnore; def err_redefinition_of_label : Error<"redefinition of label %0">; def err_undeclared_label_use : Error<"use of undeclared label %0">; def err_goto_ms_asm_label : Error< "cannot jump from this goto statement to label %0 inside an inline assembly block">; def note_goto_ms_asm_label : Note< "inline assembly label %0 declared here">; def warn_unused_label : Warning<"unused label %0">, InGroup, DefaultIgnore; def err_goto_into_protected_scope : Error< "cannot jump from this goto statement to its label">; def ext_goto_into_protected_scope : ExtWarn< "jump from this goto statement to its label is a Microsoft extension">, InGroup; def warn_cxx98_compat_goto_into_protected_scope : Warning< "jump from this goto statement to its label is incompatible with C++98">, InGroup, DefaultIgnore; def err_switch_into_protected_scope : Error< "cannot jump from switch statement to this case label">; def warn_cxx98_compat_switch_into_protected_scope : Warning< "jump from switch statement to this case label is incompatible with C++98">, InGroup, DefaultIgnore; def err_indirect_goto_without_addrlabel : Error< "indirect goto in function with no address-of-label expressions">; def err_indirect_goto_in_protected_scope : Error< "cannot jump from this indirect goto statement to one of its possible targets">; def warn_cxx98_compat_indirect_goto_in_protected_scope : Warning< "jump from this indirect goto statement to one of its possible targets " "is incompatible with C++98">, InGroup, DefaultIgnore; def note_indirect_goto_target : Note< "possible target of indirect goto statement">; def note_protected_by_variable_init : Note< "jump bypasses variable initialization">; def note_protected_by_variable_nontriv_destructor : Note< "jump bypasses variable with a non-trivial destructor">; def note_protected_by_variable_non_pod : Note< "jump bypasses initialization of non-POD variable">; def note_protected_by_cleanup : Note< "jump bypasses initialization of variable with __attribute__((cleanup))">; def note_protected_by_vla_typedef : Note< "jump bypasses initialization of VLA typedef">; def note_protected_by_vla_type_alias : Note< "jump bypasses initialization of VLA type alias">; def note_protected_by_constexpr_if : Note< "jump enters controlled statement of constexpr if">; def note_protected_by_if_available : Note< "jump enters controlled statement of if available">; def note_protected_by_vla : Note< "jump bypasses initialization of variable length array">; def note_protected_by_objc_fast_enumeration : Note< "jump enters Objective-C fast enumeration loop">; def note_protected_by_objc_try : Note< "jump bypasses initialization of @try block">; def note_protected_by_objc_catch : Note< "jump bypasses initialization of @catch block">; def note_protected_by_objc_finally : Note< "jump bypasses initialization of @finally block">; def note_protected_by_objc_synchronized : Note< "jump bypasses initialization of @synchronized block">; def note_protected_by_objc_autoreleasepool : Note< "jump bypasses auto release push of @autoreleasepool block">; def note_protected_by_cxx_try : Note< "jump bypasses initialization of try block">; def note_protected_by_cxx_catch : Note< "jump bypasses initialization of catch block">; def note_protected_by_seh_try : Note< "jump bypasses initialization of __try block">; def note_protected_by_seh_except : Note< "jump bypasses initialization of __except block">; def note_protected_by_seh_finally : Note< "jump bypasses initialization of __finally block">; def note_protected_by___block : Note< "jump bypasses setup of __block variable">; def note_protected_by_objc_strong_init : Note< "jump bypasses initialization of __strong variable">; def note_protected_by_objc_weak_init : Note< "jump bypasses initialization of __weak variable">; def note_enters_block_captures_cxx_obj : Note< "jump enters lifetime of block which captures a destructible C++ object">; def note_enters_block_captures_strong : Note< "jump enters lifetime of block which strongly captures a variable">; def note_enters_block_captures_weak : Note< "jump enters lifetime of block which weakly captures a variable">; def note_exits_cleanup : Note< "jump exits scope of variable with __attribute__((cleanup))">; def note_exits_dtor : Note< "jump exits scope of variable with non-trivial destructor">; def note_exits_temporary_dtor : Note< "jump exits scope of lifetime-extended temporary with non-trivial " "destructor">; def note_exits___block : Note< "jump exits scope of __block variable">; def note_exits_objc_try : Note< "jump exits @try block">; def note_exits_objc_catch : Note< "jump exits @catch block">; def note_exits_objc_finally : Note< "jump exits @finally block">; def note_exits_objc_synchronized : Note< "jump exits @synchronized block">; def note_exits_cxx_try : Note< "jump exits try block">; def note_exits_cxx_catch : Note< "jump exits catch block">; def note_exits_seh_try : Note< "jump exits __try block">; def note_exits_seh_except : Note< "jump exits __except block">; def note_exits_seh_finally : Note< "jump exits __finally block">; def note_exits_objc_autoreleasepool : Note< "jump exits autoreleasepool block">; def note_exits_objc_strong : Note< "jump exits scope of __strong variable">; def note_exits_objc_weak : Note< "jump exits scope of __weak variable">; def note_exits_block_captures_cxx_obj : Note< "jump exits lifetime of block which captures a destructible C++ object">; def note_exits_block_captures_strong : Note< "jump exits lifetime of block which strongly captures a variable">; def note_exits_block_captures_weak : Note< "jump exits lifetime of block which weakly captures a variable">; def err_func_returning_qualified_void : ExtWarn< "function cannot return qualified void type %0">, InGroup>; def err_func_returning_array_function : Error< "function cannot return %select{array|function}0 type %1">; def err_field_declared_as_function : Error<"field %0 declared as a function">; def err_field_incomplete : Error<"field has incomplete type %0">; def ext_variable_sized_type_in_struct : ExtWarn< "field %0 with variable sized type %1 not at the end of a struct or class is" " a GNU extension">, InGroup; def ext_c99_flexible_array_member : Extension< "flexible array members are a C99 feature">, InGroup; def err_flexible_array_virtual_base : Error< "flexible array member %0 not allowed in " "%select{struct|interface|union|class|enum}1 which has a virtual base class">; def err_flexible_array_empty_aggregate : Error< "flexible array member %0 not allowed in otherwise empty " "%select{struct|interface|union|class|enum}1">; def err_flexible_array_has_nontrivial_dtor : Error< "flexible array member %0 of type %1 with non-trivial destruction">; def ext_flexible_array_in_struct : Extension< "%0 may not be nested in a struct due to flexible array member">, InGroup; def ext_flexible_array_in_array : Extension< "%0 may not be used as an array element due to flexible array member">, InGroup; def err_flexible_array_init : Error< "initialization of flexible array member is not allowed">; def ext_flexible_array_empty_aggregate_ms : Extension< "flexible array member %0 in otherwise empty " "%select{struct|interface|union|class|enum}1 is a Microsoft extension">, InGroup; def err_flexible_array_union : Error< "flexible array member %0 in a union is not allowed">; def ext_flexible_array_union_ms : Extension< "flexible array member %0 in a union is a Microsoft extension">, InGroup; def ext_flexible_array_empty_aggregate_gnu : Extension< "flexible array member %0 in otherwise empty " "%select{struct|interface|union|class|enum}1 is a GNU extension">, InGroup; def ext_flexible_array_union_gnu : Extension< "flexible array member %0 in a union is a GNU extension">, InGroup; def err_flexible_array_not_at_end : Error< "flexible array member %0 with type %1 is not at the end of" " %select{struct|interface|union|class|enum}2">; def err_objc_variable_sized_type_not_at_end : Error< "field %0 with variable sized type %1 is not at the end of class">; def note_next_field_declaration : Note< "next field declaration is here">; def note_next_ivar_declaration : Note< "next %select{instance variable declaration|synthesized instance variable}0" " is here">; def err_synthesize_variable_sized_ivar : Error< "synthesized property with variable size type %0" " requires an existing instance variable">; def err_flexible_array_arc_retainable : Error< "ARC forbids flexible array members with retainable object type">; def warn_variable_sized_ivar_visibility : Warning< "field %0 with variable sized type %1 is not visible to subclasses and" " can conflict with their instance variables">, InGroup; def warn_superclass_variable_sized_type_not_at_end : Warning< "field %0 can overwrite instance variable %1 with variable sized type %2" " in superclass %3">, InGroup; let CategoryName = "ARC Semantic Issue" in { // ARC-mode diagnostics. let CategoryName = "ARC Weak References" in { def err_arc_weak_no_runtime : Error< "cannot create __weak reference because the current deployment target " "does not support weak references">; def err_arc_weak_disabled : Error< "cannot create __weak reference in file using manual reference counting">; def err_synthesizing_arc_weak_property_disabled : Error< "cannot synthesize weak property in file using manual reference counting">; def err_synthesizing_arc_weak_property_no_runtime : Error< "cannot synthesize weak property because the current deployment target " "does not support weak references">; def err_arc_unsupported_weak_class : Error< "class is incompatible with __weak references">; def err_arc_weak_unavailable_assign : Error< "assignment of a weak-unavailable object to a __weak object">; def err_arc_weak_unavailable_property : Error< "synthesizing __weak instance variable of type %0, which does not " "support weak references">; def note_implemented_by_class : Note< "when implemented by class %0">; def err_arc_convesion_of_weak_unavailable : Error< "%select{implicit conversion|cast}0 of weak-unavailable object of type %1 to" " a __weak object of type %2">; } // end "ARC Weak References" category let CategoryName = "ARC Restrictions" in { def err_unavailable_in_arc : Error< "%0 is unavailable in ARC">; def note_arc_forbidden_type : Note< "declaration uses type that is ill-formed in ARC">; def note_performs_forbidden_arc_conversion : Note< "inline function performs a conversion which is forbidden in ARC">; def note_arc_init_returns_unrelated : Note< "init method must return a type related to its receiver type">; def note_arc_weak_disabled : Note< "declaration uses __weak, but ARC is disabled">; def note_arc_weak_no_runtime : Note<"declaration uses __weak, which " "the current deployment target does not support">; def note_arc_field_with_ownership : Note< "field has non-trivial ownership qualification">; def err_arc_illegal_explicit_message : Error< "ARC forbids explicit message send of %0">; def err_arc_unused_init_message : Error< "the result of a delegate init call must be immediately returned " "or assigned to 'self'">; def err_arc_mismatched_cast : Error< "%select{implicit conversion|cast}0 of " "%select{%2|a non-Objective-C pointer type %2|a block pointer|" "an Objective-C pointer|an indirect pointer to an Objective-C pointer}1" " to %3 is disallowed with ARC">; def err_arc_nolifetime_behavior : Error< "explicit ownership qualifier on cast result has no effect">; def err_arc_objc_object_in_tag : Error< "ARC forbids %select{Objective-C objects|blocks}0 in " "%select{struct|interface|union|<>|enum}1">; def err_arc_objc_property_default_assign_on_object : Error< "ARC forbids synthesizing a property of an Objective-C object " "with unspecified ownership or storage attribute">; def err_arc_illegal_selector : Error< "ARC forbids use of %0 in a @selector">; def err_arc_illegal_method_def : Error< "ARC forbids %select{implementation|synthesis}0 of %1">; def warn_arc_strong_pointer_objc_pointer : Warning< "method parameter of type %0 with no explicit ownership">, InGroup>, DefaultIgnore; } // end "ARC Restrictions" category def err_arc_lost_method_convention : Error< "method was declared as %select{an 'alloc'|a 'copy'|an 'init'|a 'new'}0 " "method, but its implementation doesn't match because %select{" "its result type is not an object pointer|" "its result type is unrelated to its receiver type}1">; def note_arc_lost_method_convention : Note<"declaration in interface">; def err_arc_gained_method_convention : Error< "method implementation does not match its declaration">; def note_arc_gained_method_convention : Note< "declaration in interface is not in the '%select{alloc|copy|init|new}0' " "family because %select{its result type is not an object pointer|" "its result type is unrelated to its receiver type}1">; def err_typecheck_arc_assign_self : Error< "cannot assign to 'self' outside of a method in the init family">; def err_typecheck_arc_assign_self_class_method : Error< "cannot assign to 'self' in a class method">; def err_typecheck_arr_assign_enumeration : Error< "fast enumeration variables cannot be modified in ARC by default; " "declare the variable __strong to allow this">; def warn_arc_retained_assign : Warning< "assigning retained object to %select{weak|unsafe_unretained}0 " "%select{property|variable}1" "; object will be released after assignment">, InGroup; def warn_arc_retained_property_assign : Warning< "assigning retained object to unsafe property" "; object will be released after assignment">, InGroup; def warn_arc_literal_assign : Warning< "assigning %select{array literal|dictionary literal|numeric literal|boxed expression||block literal}0" " to a weak %select{property|variable}1" "; object will be released after assignment">, InGroup; def err_arc_new_array_without_ownership : Error< "'new' cannot allocate an array of %0 with no explicit ownership">; def err_arc_autoreleasing_var : Error< "%select{__block variables|global variables|fields|instance variables}0 cannot have " "__autoreleasing ownership">; def err_arc_autoreleasing_capture : Error< "cannot capture __autoreleasing variable in a " "%select{block|lambda by copy}0">; def err_arc_thread_ownership : Error< "thread-local variable has non-trivial ownership: type is %0">; def err_arc_indirect_no_ownership : Error< "%select{pointer|reference}1 to non-const type %0 with no explicit ownership">; def err_arc_array_param_no_ownership : Error< "must explicitly describe intended ownership of an object array parameter">; def err_arc_pseudo_dtor_inconstant_quals : Error< "pseudo-destructor destroys object of type %0 with inconsistently-qualified " "type %1">; def err_arc_init_method_unrelated_result_type : Error< "init methods must return a type related to the receiver type">; def err_arc_nonlocal_writeback : Error< "passing address of %select{non-local|non-scalar}0 object to " "__autoreleasing parameter for write-back">; def err_arc_method_not_found : Error< "no known %select{instance|class}1 method for selector %0">; def err_arc_receiver_forward_class : Error< "receiver %0 for class message is a forward declaration">; def err_arc_may_not_respond : Error< "no visible @interface for %0 declares the selector %1">; def err_arc_receiver_forward_instance : Error< "receiver type %0 for instance message is a forward declaration">; def warn_receiver_forward_instance : Warning< "receiver type %0 for instance message is a forward declaration">, InGroup, DefaultIgnore; def err_arc_collection_forward : Error< "collection expression type %0 is a forward declaration">; def err_arc_multiple_method_decl : Error< "multiple methods named %0 found with mismatched result, " "parameter type or attributes">; def warn_arc_lifetime_result_type : Warning< "ARC %select{unused|__unsafe_unretained|__strong|__weak|__autoreleasing}0 " "lifetime qualifier on return type is ignored">, InGroup; let CategoryName = "ARC Retain Cycle" in { def warn_arc_retain_cycle : Warning< "capturing %0 strongly in this block is likely to lead to a retain cycle">, InGroup; def note_arc_retain_cycle_owner : Note< "block will be retained by %select{the captured object|an object strongly " "retained by the captured object}0">; } // end "ARC Retain Cycle" category def warn_arc_object_memaccess : Warning< "%select{destination for|source of}0 this %1 call is a pointer to " "ownership-qualified type %2">, InGroup; let CategoryName = "ARC and @properties" in { def err_arc_strong_property_ownership : Error< "existing instance variable %1 for strong property %0 may not be " "%select{|__unsafe_unretained||__weak}2">; def err_arc_assign_property_ownership : Error< "existing instance variable %1 for property %0 with %select{unsafe_unretained|assign}2 " "attribute must be __unsafe_unretained">; def err_arc_inconsistent_property_ownership : Error< "%select{|unsafe_unretained|strong|weak}1 property %0 may not also be " "declared %select{|__unsafe_unretained|__strong|__weak|__autoreleasing}2">; } // end "ARC and @properties" category def warn_block_capture_autoreleasing : Warning< "block captures an autoreleasing out-parameter, which may result in " "use-after-free bugs">, InGroup; def note_declare_parameter_autoreleasing : Note< "declare the parameter __autoreleasing explicitly to suppress this warning">; def note_declare_parameter_strong : Note< "declare the parameter __strong or capture a __block __strong variable to " "keep values alive across autorelease pools">; def err_arc_atomic_ownership : Error< "cannot perform atomic operation on a pointer to type %0: type has " "non-trivial ownership">; let CategoryName = "ARC Casting Rules" in { def err_arc_bridge_cast_incompatible : Error< "incompatible types casting %0 to %1 with a %select{__bridge|" "__bridge_transfer|__bridge_retained}2 cast">; def err_arc_bridge_cast_wrong_kind : Error< "cast of %select{Objective-C|block|C}0 pointer type %1 to " "%select{Objective-C|block|C}2 pointer type %3 cannot use %select{__bridge|" "__bridge_transfer|__bridge_retained}4">; def err_arc_cast_requires_bridge : Error< "%select{cast|implicit conversion}0 of %select{Objective-C|block|C}1 " "pointer type %2 to %select{Objective-C|block|C}3 pointer type %4 " "requires a bridged cast">; def note_arc_bridge : Note< "use __bridge to convert directly (no change in ownership)">; def note_arc_cstyle_bridge : Note< "use __bridge with C-style cast to convert directly (no change in ownership)">; def note_arc_bridge_transfer : Note< "use %select{__bridge_transfer|CFBridgingRelease call}1 to transfer " "ownership of a +1 %0 into ARC">; def note_arc_cstyle_bridge_transfer : Note< "use __bridge_transfer with C-style cast to transfer " "ownership of a +1 %0 into ARC">; def note_arc_bridge_retained : Note< "use %select{__bridge_retained|CFBridgingRetain call}1 to make an " "ARC object available as a +1 %0">; def note_arc_cstyle_bridge_retained : Note< "use __bridge_retained with C-style cast to make an " "ARC object available as a +1 %0">; } // ARC Casting category } // ARC category name def err_flexible_array_init_needs_braces : Error< "flexible array requires brace-enclosed initializer">; def err_illegal_decl_array_of_functions : Error< "'%0' declared as array of functions of type %1">; def err_illegal_decl_array_incomplete_type : Error< "array has incomplete element type %0">; def err_illegal_message_expr_incomplete_type : Error< "Objective-C message has incomplete result type %0">; def err_illegal_decl_array_of_references : Error< "'%0' declared as array of references of type %1">; def err_decl_negative_array_size : Error< "'%0' declared as an array with a negative size">; def err_array_static_outside_prototype : Error< "%0 used in array declarator outside of function prototype">; def err_array_static_not_outermost : Error< "%0 used in non-outermost array type derivation">; def err_array_star_outside_prototype : Error< "star modifier used outside of function prototype">; def err_illegal_decl_pointer_to_reference : Error< "'%0' declared as a pointer to a reference of type %1">; def err_illegal_decl_mempointer_to_reference : Error< "'%0' declared as a member pointer to a reference of type %1">; def err_illegal_decl_mempointer_to_void : Error< "'%0' declared as a member pointer to void">; def err_illegal_decl_mempointer_in_nonclass : Error< "'%0' does not point into a class">; def err_mempointer_in_nonclass_type : Error< "member pointer refers into non-class type %0">; def err_reference_to_void : Error<"cannot form a reference to 'void'">; def err_nonfunction_block_type : Error< "block pointer to non-function type is invalid">; def err_return_block_has_expr : Error<"void block should not return a value">; def err_block_return_missing_expr : Error< "non-void block should return a value">; def err_func_def_incomplete_result : Error< "incomplete result type %0 in function definition">; def err_atomic_specifier_bad_type : Error< "_Atomic cannot be applied to " "%select{incomplete |array |function |reference |atomic |qualified |}0type " "%1 %select{||||||which is not trivially copyable}0">; // Expressions. def ext_sizeof_alignof_function_type : Extension< "invalid application of '%select{sizeof|alignof|vec_step}0' to a " "function type">, InGroup; def ext_sizeof_alignof_void_type : Extension< "invalid application of '%select{sizeof|alignof|vec_step}0' to a void " "type">, InGroup; def err_opencl_sizeof_alignof_type : Error< "invalid application of '%select{sizeof|alignof|vec_step|__builtin_omp_required_simd_align}0' to a void type">; def err_sizeof_alignof_incomplete_type : Error< "invalid application of '%select{sizeof|alignof|vec_step|__builtin_omp_required_simd_align}0' to an " "incomplete type %1">; def err_sizeof_alignof_function_type : Error< "invalid application of '%select{sizeof|alignof|vec_step|__builtin_omp_required_simd_align}0' to a " "function type">; def err_openmp_default_simd_align_expr : Error< "invalid application of '__builtin_omp_required_simd_align' to an expression, only type is allowed">; def err_sizeof_alignof_typeof_bitfield : Error< "invalid application of '%select{sizeof|alignof|typeof}0' to bit-field">; def err_alignof_member_of_incomplete_type : Error< "invalid application of 'alignof' to a field of a class still being defined">; def err_vecstep_non_scalar_vector_type : Error< "'vec_step' requires built-in scalar or vector type, %0 invalid">; def err_offsetof_incomplete_type : Error< "offsetof of incomplete type %0">; def err_offsetof_record_type : Error< "offsetof requires struct, union, or class type, %0 invalid">; def err_offsetof_array_type : Error<"offsetof requires array type, %0 invalid">; def ext_offsetof_non_pod_type : ExtWarn<"offset of on non-POD type %0">, InGroup; def ext_offsetof_non_standardlayout_type : ExtWarn< "offset of on non-standard-layout type %0">, InGroup; def err_offsetof_bitfield : Error<"cannot compute offset of bit-field %0">; def err_offsetof_field_of_virtual_base : Error< "invalid application of 'offsetof' to a field of a virtual base">; def warn_sub_ptr_zero_size_types : Warning< "subtraction of pointers to type %0 of zero size has undefined behavior">, InGroup; def warn_pointer_arith_null_ptr : Warning< "performing pointer arithmetic on a null pointer has undefined behavior%select{| if the offset is nonzero}0">, InGroup, DefaultIgnore; def warn_gnu_null_ptr_arith : Warning< "arithmetic on a null pointer treated as a cast from integer to pointer is a GNU extension">, InGroup, DefaultIgnore; def warn_floatingpoint_eq : Warning< "comparing floating point with == or != is unsafe">, InGroup>, DefaultIgnore; def warn_remainder_division_by_zero : Warning< "%select{remainder|division}0 by zero is undefined">, InGroup; def warn_shift_lhs_negative : Warning<"shifting a negative signed value is undefined">, InGroup>; def warn_shift_negative : Warning<"shift count is negative">, InGroup>; def warn_shift_gt_typewidth : Warning<"shift count >= width of type">, InGroup>; def warn_shift_result_gt_typewidth : Warning< "signed shift result (%0) requires %1 bits to represent, but %2 only has " "%3 bits">, InGroup>; def warn_shift_result_sets_sign_bit : Warning< "signed shift result (%0) sets the sign bit of the shift expression's " "type (%1) and becomes negative">, InGroup>, DefaultIgnore; def warn_precedence_bitwise_rel : Warning< "%0 has lower precedence than %1; %1 will be evaluated first">, InGroup; def note_precedence_bitwise_first : Note< "place parentheses around the %0 expression to evaluate it first">; def note_precedence_silence : Note< "place parentheses around the '%0' expression to silence this warning">; def warn_precedence_conditional : Warning< "operator '?:' has lower precedence than '%0'; '%0' will be evaluated first">, InGroup; def note_precedence_conditional_first : Note< "place parentheses around the '?:' expression to evaluate it first">; def warn_logical_instead_of_bitwise : Warning< "use of logical '%0' with constant operand">, InGroup>; def note_logical_instead_of_bitwise_change_operator : Note< "use '%0' for a bitwise operation">; def note_logical_instead_of_bitwise_remove_constant : Note< "remove constant to silence this warning">; def warn_bitwise_op_in_bitwise_op : Warning< "'%0' within '%1'">, InGroup; def warn_logical_and_in_logical_or : Warning< "'&&' within '||'">, InGroup; def warn_overloaded_shift_in_comparison :Warning< "overloaded operator %select{>>|<<}0 has higher precedence than " "comparison operator">, InGroup; def note_evaluate_comparison_first :Note< "place parentheses around comparison expression to evaluate it first">; def warn_addition_in_bitshift : Warning< "operator '%0' has lower precedence than '%1'; " "'%1' will be evaluated first">, InGroup; def warn_self_assignment : Warning< "explicitly assigning value of variable of type %0 to itself">, InGroup, DefaultIgnore; def warn_self_move : Warning< "explicitly moving variable of type %0 to itself">, InGroup, DefaultIgnore; def warn_redundant_move_on_return : Warning< "redundant move in return statement">, InGroup, DefaultIgnore; def warn_pessimizing_move_on_return : Warning< "moving a local object in a return statement prevents copy elision">, InGroup, DefaultIgnore; def warn_pessimizing_move_on_initialization : Warning< "moving a temporary object prevents copy elision">, InGroup, DefaultIgnore; def note_remove_move : Note<"remove std::move call here">; def warn_string_plus_int : Warning< "adding %0 to a string does not append to the string">, InGroup; def warn_string_plus_char : Warning< "adding %0 to a string pointer does not append to the string">, InGroup; def note_string_plus_scalar_silence : Note< "use array indexing to silence this warning">; def warn_sizeof_array_param : Warning< "sizeof on array function parameter will return size of %0 instead of %1">, InGroup; def warn_sizeof_array_decay : Warning< "sizeof on pointer operation will return size of %0 instead of %1">, InGroup; def err_sizeof_nonfragile_interface : Error< "application of '%select{alignof|sizeof}1' to interface %0 is " "not supported on this architecture and platform">; def err_atdef_nonfragile_interface : Error< "use of @defs is not supported on this architecture and platform">; def err_subscript_nonfragile_interface : Error< "subscript requires size of interface %0, which is not constant for " "this architecture and platform">; def err_arithmetic_nonfragile_interface : Error< "arithmetic on pointer to interface %0, which is not a constant size for " "this architecture and platform">; def ext_subscript_non_lvalue : Extension< "ISO C90 does not allow subscripting non-lvalue array">; def err_typecheck_subscript_value : Error< "subscripted value is not an array, pointer, or vector">; def err_typecheck_subscript_not_integer : Error< "array subscript is not an integer">; def err_subscript_function_type : Error< "subscript of pointer to function type %0">; def err_subscript_incomplete_type : Error< "subscript of pointer to incomplete type %0">; def err_dereference_incomplete_type : Error< "dereference of pointer to incomplete type %0">; def ext_gnu_subscript_void_type : Extension< "subscript of a pointer to void is a GNU extension">, InGroup; def err_typecheck_member_reference_struct_union : Error< "member reference base type %0 is not a structure or union">; def err_typecheck_member_reference_ivar : Error< "%0 does not have a member named %1">; def err_arc_weak_ivar_access : Error< "dereferencing a __weak pointer is not allowed due to possible " "null value caused by race condition, assign it to strong variable first">; def err_typecheck_member_reference_arrow : Error< "member reference type %0 is not a pointer">; def err_typecheck_member_reference_suggestion : Error< "member reference type %0 is %select{a|not a}1 pointer; did you mean to use '%select{->|.}1'?">; def note_typecheck_member_reference_suggestion : Note< "did you mean to use '.' instead?">; def note_member_reference_arrow_from_operator_arrow : Note< "'->' applied to return value of the operator->() declared here">; def err_typecheck_member_reference_type : Error< "cannot refer to type member %0 in %1 with '%select{.|->}2'">; def err_typecheck_member_reference_unknown : Error< "cannot refer to member %0 in %1 with '%select{.|->}2'">; def err_member_reference_needs_call : Error< "base of member reference is a function; perhaps you meant to call " "it%select{| with no arguments}0?">; def warn_subscript_is_char : Warning<"array subscript is of type 'char'">, InGroup, DefaultIgnore; def err_typecheck_incomplete_tag : Error<"incomplete definition of type %0">; def err_no_member : Error<"no member named %0 in %1">; def err_no_member_overloaded_arrow : Error< "no member named %0 in %1; did you mean to use '->' instead of '.'?">; def err_member_not_yet_instantiated : Error< "no member %0 in %1; it has not yet been instantiated">; def note_non_instantiated_member_here : Note< "not-yet-instantiated member is declared here">; def err_enumerator_does_not_exist : Error< "enumerator %0 does not exist in instantiation of %1">; def note_enum_specialized_here : Note< "enum %0 was explicitly specialized here">; def err_specialization_not_primary_template : Error< "cannot reference member of primary template because deduced class " "template specialization %0 is %select{instantiated from a partial|" "an explicit}1 specialization">; def err_member_redeclared : Error<"class member cannot be redeclared">; def ext_member_redeclared : ExtWarn<"class member cannot be redeclared">, InGroup; def err_member_redeclared_in_instantiation : Error< "multiple overloads of %0 instantiate to the same signature %1">; def err_member_name_of_class : Error<"member %0 has the same name as its class">; def err_member_def_undefined_record : Error< "out-of-line definition of %0 from class %1 without definition">; def err_member_decl_does_not_match : Error< "out-of-line %select{declaration|definition}2 of %0 " "does not match any declaration in %1">; def err_friend_decl_with_def_arg_must_be_def : Error< "friend declaration specifying a default argument must be a definition">; def err_friend_decl_with_def_arg_redeclared : Error< "friend declaration specifying a default argument must be the only declaration">; def err_friend_decl_does_not_match : Error< "friend declaration of %0 does not match any declaration in %1">; def err_member_decl_does_not_match_suggest : Error< "out-of-line %select{declaration|definition}2 of %0 " "does not match any declaration in %1; did you mean %3?">; def err_member_def_does_not_match_ret_type : Error< "return type of out-of-line definition of %q0 differs from " "that in the declaration">; def err_nonstatic_member_out_of_line : Error< "non-static data member defined out-of-line">; def err_qualified_typedef_declarator : Error< "typedef declarator cannot be qualified">; def err_qualified_param_declarator : Error< "parameter declarator cannot be qualified">; def ext_out_of_line_declaration : ExtWarn< "out-of-line declaration of a member must be a definition">, InGroup, DefaultError; def err_member_extra_qualification : Error< "extra qualification on member %0">; def warn_member_extra_qualification : Warning< err_member_extra_qualification.Text>, InGroup; def warn_namespace_member_extra_qualification : Warning< "extra qualification on member %0">, InGroup>; def err_member_qualification : Error< "non-friend class member %0 cannot have a qualified name">; def note_member_def_close_match : Note<"member declaration nearly matches">; def note_member_def_close_const_match : Note< "member declaration does not match because " "it %select{is|is not}0 const qualified">; def note_member_def_close_param_match : Note< "type of %ordinal0 parameter of member declaration does not match definition" "%diff{ ($ vs $)|}1,2">; def note_local_decl_close_match : Note<"local declaration nearly matches">; def note_local_decl_close_param_match : Note< "type of %ordinal0 parameter of local declaration does not match definition" "%diff{ ($ vs $)|}1,2">; def err_typecheck_ivar_variable_size : Error< "instance variables must have a constant size">; def err_ivar_reference_type : Error< "instance variables cannot be of reference type">; def err_typecheck_illegal_increment_decrement : Error< "cannot %select{decrement|increment}1 value of type %0">; def err_typecheck_expect_int : Error< "used type %0 where integer is required">; def err_typecheck_arithmetic_incomplete_type : Error< "arithmetic on a pointer to an incomplete type %0">; def err_typecheck_pointer_arith_function_type : Error< "arithmetic on%select{ a|}0 pointer%select{|s}0 to%select{ the|}2 " "function type%select{|s}2 %1%select{| and %3}2">; def err_typecheck_pointer_arith_void_type : Error< "arithmetic on%select{ a|}0 pointer%select{|s}0 to void">; def err_typecheck_decl_incomplete_type : Error< "variable has incomplete type %0">; def ext_typecheck_decl_incomplete_type : ExtWarn< "tentative definition of variable with internal linkage has incomplete non-array type %0">, InGroup>; def err_tentative_def_incomplete_type : Error< "tentative definition has type %0 that is never completed">; def warn_tentative_incomplete_array : Warning< "tentative array definition assumed to have one element">; def err_typecheck_incomplete_array_needs_initializer : Error< "definition of variable with array type needs an explicit size " "or an initializer">; def err_array_init_not_init_list : Error< "array initializer must be an initializer " "list%select{| or string literal| or wide string literal}0">; def err_array_init_narrow_string_into_wchar : Error< "initializing wide char array with non-wide string literal">; def err_array_init_wide_string_into_char : Error< "initializing char array with wide string literal">; def err_array_init_incompat_wide_string_into_wchar : Error< "initializing wide char array with incompatible wide string literal">; def err_array_init_different_type : Error< "cannot initialize array %diff{of type $ with array of type $|" "with different type of array}0,1">; def err_array_init_non_constant_array : Error< "cannot initialize array %diff{of type $ with non-constant array of type $|" "with different type of array}0,1">; def ext_array_init_copy : Extension< "initialization of an array " "%diff{of type $ from a compound literal of type $|" "from a compound literal}0,1 is a GNU extension">, InGroup; // This is intentionally not disabled by -Wno-gnu. def ext_array_init_parens : ExtWarn< "parenthesized initialization of a member array is a GNU extension">, InGroup>, DefaultError; def warn_deprecated_string_literal_conversion : Warning< "conversion from string literal to %0 is deprecated">, InGroup; def ext_deprecated_string_literal_conversion : ExtWarn< "ISO C++11 does not allow conversion from string literal to %0">, InGroup, SFINAEFailure; def err_realimag_invalid_type : Error<"invalid type %0 to %1 operator">; def err_typecheck_sclass_fscope : Error< "illegal storage class on file-scoped variable">; def warn_standalone_specifier : Warning<"'%0' ignored on this declaration">, InGroup; def ext_standalone_specifier : ExtWarn<"'%0' is not permitted on a declaration " "of a type">, InGroup; def err_standalone_class_nested_name_specifier : Error< "forward declaration of %select{class|struct|interface|union|enum}0 cannot " "have a nested name specifier">; def err_typecheck_sclass_func : Error<"illegal storage class on function">; def err_static_block_func : Error< "function declared in block scope cannot have 'static' storage class">; def err_typecheck_address_of : Error<"address of %select{bit-field" "|vector element|property expression|register variable}0 requested">; def ext_typecheck_addrof_void : Extension< "ISO C forbids taking the address of an expression of type 'void'">; def err_unqualified_pointer_member_function : Error< "must explicitly qualify name of member function when taking its address">; def err_invalid_form_pointer_member_function : Error< "cannot create a non-constant pointer to member function">; def err_address_of_function_with_pass_object_size_params: Error< "cannot take address of function %0 because parameter %1 has " "pass_object_size attribute">; def err_parens_pointer_member_function : Error< "cannot parenthesize the name of a method when forming a member pointer">; def err_typecheck_invalid_lvalue_addrof_addrof_function : Error< "extra '&' taking address of overloaded function">; def err_typecheck_invalid_lvalue_addrof : Error< "cannot take the address of an rvalue of type %0">; def ext_typecheck_addrof_temporary : ExtWarn< "taking the address of a temporary object of type %0">, InGroup, DefaultError; def err_typecheck_addrof_temporary : Error< "taking the address of a temporary object of type %0">; def err_typecheck_addrof_dtor : Error< "taking the address of a destructor">; def err_typecheck_unary_expr : Error< "invalid argument type %0 to unary expression">; def err_typecheck_indirection_requires_pointer : Error< "indirection requires pointer operand (%0 invalid)">; def ext_typecheck_indirection_through_void_pointer : ExtWarn< "ISO C++ does not allow indirection on operand of type %0">, InGroup>; def warn_indirection_through_null : Warning< "indirection of non-volatile null pointer will be deleted, not trap">, InGroup; def warn_binding_null_to_reference : Warning< "binding dereferenced null pointer to reference has undefined behavior">, InGroup; def note_indirection_through_null : Note< "consider using __builtin_trap() or qualifying pointer with 'volatile'">; def warn_pointer_indirection_from_incompatible_type : Warning< "dereference of type %1 that was reinterpret_cast from type %0 has undefined " "behavior">, InGroup, DefaultIgnore; def warn_taking_address_of_packed_member : Warning< "taking address of packed member %0 of class or structure %q1 may result in an unaligned pointer value">, InGroup>; def err_objc_object_assignment : Error< "cannot assign to class object (%0 invalid)">; def err_typecheck_invalid_operands : Error< "invalid operands to binary expression (%0 and %1)">; def err_typecheck_logical_vector_expr_gnu_cpp_restrict : Error< "logical expression with vector %select{type %1 and non-vector type %2|types" " %1 and %2}0 is only supported in C++">; def err_typecheck_sub_ptr_compatible : Error< "%diff{$ and $ are not pointers to compatible types|" "pointers to incompatible types}0,1">; def ext_typecheck_ordered_comparison_of_pointer_integer : ExtWarn< "ordered comparison between pointer and integer (%0 and %1)">; def ext_typecheck_ordered_comparison_of_pointer_and_zero : Extension< "ordered comparison between pointer and zero (%0 and %1) is an extension">; def err_typecheck_ordered_comparison_of_pointer_and_zero : Error< "ordered comparison between pointer and zero (%0 and %1)">; def ext_typecheck_ordered_comparison_of_function_pointers : ExtWarn< "ordered comparison of function pointers (%0 and %1)">; def ext_typecheck_comparison_of_fptr_to_void : Extension< "equality comparison between function pointer and void pointer (%0 and %1)">; def err_typecheck_comparison_of_fptr_to_void : Error< "equality comparison between function pointer and void pointer (%0 and %1)">; def ext_typecheck_comparison_of_pointer_integer : ExtWarn< "comparison between pointer and integer (%0 and %1)">; def err_typecheck_comparison_of_pointer_integer : Error< "comparison between pointer and integer (%0 and %1)">; def ext_typecheck_comparison_of_distinct_pointers : ExtWarn< "comparison of distinct pointer types%diff{ ($ and $)|}0,1">, InGroup; def ext_typecheck_cond_incompatible_operands : ExtWarn< "incompatible operand types (%0 and %1)">; def err_cond_voidptr_arc : Error < "operands to conditional of types%diff{ $ and $|}0,1 are incompatible " "in ARC mode">; def err_typecheck_comparison_of_distinct_pointers : Error< "comparison of distinct pointer types%diff{ ($ and $)|}0,1">; def err_typecheck_op_on_nonoverlapping_address_space_pointers : Error< "%select{comparison between %diff{ ($ and $)|}0,1" "|arithmetic operation with operands of type %diff{ ($ and $)|}0,1" "|conditional operator with the second and third operands of type " "%diff{ ($ and $)|}0,1}2" " which are pointers to non-overlapping address spaces">; def err_typecheck_assign_const : Error< "%select{" "cannot assign to return value because function %1 returns a const value|" "cannot assign to variable %1 with const-qualified type %2|" "cannot assign to %select{non-|}1static data member %2 " "with const-qualified type %3|" "cannot assign to non-static data member within const member function %1|" "cannot assign to %select{variable %2|non-static data member %2|lvalue}1 " "with %select{|nested }3const-qualified data member %4|" "read-only variable is not assignable}0">; def note_typecheck_assign_const : Note< "%select{" "function %1 which returns const-qualified type %2 declared here|" "variable %1 declared const here|" "%select{non-|}1static data member %2 declared const here|" "member function %q1 is declared const here|" "%select{|nested }1data member %2 declared const here}0">; def warn_unsigned_always_true_comparison : Warning< "result of comparison of %select{%3|unsigned expression}0 %2 " "%select{unsigned expression|%3}0 is always %4">, InGroup, DefaultIgnore; def warn_unsigned_enum_always_true_comparison : Warning< "result of comparison of %select{%3|unsigned enum expression}0 %2 " "%select{unsigned enum expression|%3}0 is always %4">, InGroup, DefaultIgnore; def warn_tautological_constant_compare : Warning< "result of comparison %select{%3|%1}0 %2 " "%select{%1|%3}0 is always %4">, InGroup, DefaultIgnore; def warn_mixed_sign_comparison : Warning< "comparison of integers of different signs: %0 and %1">, InGroup, DefaultIgnore; def warn_out_of_range_compare : Warning< "result of comparison of %select{constant %0|true|false}1 with " "%select{expression of type %2|boolean expression}3 is always %4">, InGroup; def warn_tautological_bool_compare : Warning, InGroup; def warn_comparison_of_mixed_enum_types : Warning< "comparison of two values with different enumeration types" "%diff{ ($ and $)|}0,1">, InGroup; def warn_comparison_of_mixed_enum_types_switch : Warning< "comparison of two values with different enumeration types in switch statement" "%diff{ ($ and $)|}0,1">, InGroup; def warn_null_in_arithmetic_operation : Warning< "use of NULL in arithmetic operation">, InGroup; def warn_null_in_comparison_operation : Warning< "comparison between NULL and non-pointer " "%select{(%1 and NULL)|(NULL and %1)}0">, InGroup; def err_shift_rhs_only_vector : Error< "requested shift is a vector of type %0 but the first operand is not a " "vector (%1)">; def warn_logical_not_on_lhs_of_check : Warning< "logical not is only applied to the left hand side of this " "%select{comparison|bitwise operator}0">, InGroup; def note_logical_not_fix : Note< "add parentheses after the '!' to evaluate the " "%select{comparison|bitwise operator}0 first">; def note_logical_not_silence_with_parens : Note< "add parentheses around left hand side expression to silence this warning">; def err_invalid_this_use : Error< "invalid use of 'this' outside of a non-static member function">; def err_this_static_member_func : Error< "'this' cannot be%select{| implicitly}0 used in a static member function " "declaration">; def err_invalid_member_use_in_static_method : Error< "invalid use of member %0 in static member function">; def err_invalid_qualified_function_type : Error< "%select{non-member function|static member function|deduction guide}0 " "%select{of type %2 |}1cannot have '%3' qualifier">; def err_compound_qualified_function_type : Error< "%select{block pointer|pointer|reference}0 to function type %select{%2 |}1" "cannot have '%3' qualifier">; def err_ref_qualifier_overload : Error< "cannot overload a member function %select{without a ref-qualifier|with " "ref-qualifier '&'|with ref-qualifier '&&'}0 with a member function %select{" "without a ref-qualifier|with ref-qualifier '&'|with ref-qualifier '&&'}1">; def err_invalid_non_static_member_use : Error< "invalid use of non-static data member %0">; def err_nested_non_static_member_use : Error< "%select{call to non-static member function|use of non-static data member}0 " "%2 of %1 from nested type %3">; def warn_cxx98_compat_non_static_member_use : Warning< "use of non-static data member %0 in an unevaluated context is " "incompatible with C++98">, InGroup, DefaultIgnore; def err_invalid_incomplete_type_use : Error< "invalid use of incomplete type %0">; def err_builtin_func_cast_more_than_one_arg : Error< "function-style cast to a builtin type can only take one argument">; def err_value_init_for_array_type : Error< "array types cannot be value-initialized">; def err_init_for_function_type : Error< "cannot create object of function type %0">; def warn_format_nonliteral_noargs : Warning< "format string is not a string literal (potentially insecure)">, InGroup; def warn_format_nonliteral : Warning< "format string is not a string literal">, InGroup, DefaultIgnore; def err_unexpected_interface : Error< "unexpected interface name %0: expected expression">; def err_ref_non_value : Error<"%0 does not refer to a value">; def err_ref_vm_type : Error< "cannot refer to declaration with a variably modified type inside block">; def err_ref_flexarray_type : Error< "cannot refer to declaration of structure variable with flexible array member " "inside block">; def err_ref_array_type : Error< "cannot refer to declaration with an array type inside block">; def err_property_not_found : Error< "property %0 not found on object of type %1">; def err_invalid_property_name : Error< "%0 is not a valid property name (accessing an object of type %1)">; def err_getter_not_found : Error< "no getter method for read from property">; def err_objc_subscript_method_not_found : Error< "expected method to %select{read|write}1 %select{dictionary|array}2 element not " "found on object of type %0">; def err_objc_subscript_index_type : Error< "method index parameter type %0 is not integral type">; def err_objc_subscript_key_type : Error< "method key parameter type %0 is not object type">; def err_objc_subscript_dic_object_type : Error< "method object parameter type %0 is not object type">; def err_objc_subscript_object_type : Error< "cannot assign to this %select{dictionary|array}1 because assigning method's " "2nd parameter of type %0 is not an Objective-C pointer type">; def err_objc_subscript_base_type : Error< "%select{dictionary|array}1 subscript base type %0 is not an Objective-C object">; def err_objc_multiple_subscript_type_conversion : Error< "indexing expression is invalid because subscript type %0 has " "multiple type conversion functions">; def err_objc_subscript_type_conversion : Error< "indexing expression is invalid because subscript type %0 is not an integral" " or Objective-C pointer type">; def err_objc_subscript_pointer : Error< "indexing expression is invalid because subscript type %0 is not an" " Objective-C pointer">; def err_objc_indexing_method_result_type : Error< "method for accessing %select{dictionary|array}1 element must have Objective-C" " object return type instead of %0">; def err_objc_index_incomplete_class_type : Error< "Objective-C index expression has incomplete class type %0">; def err_illegal_container_subscripting_op : Error< "illegal operation on Objective-C container subscripting">; def err_property_not_found_forward_class : Error< "property %0 cannot be found in forward class object %1">; def err_property_not_as_forward_class : Error< "property %0 refers to an incomplete Objective-C class %1 " "(with no @interface available)">; def note_forward_class : Note< "forward declaration of class here">; def err_duplicate_property : Error< "property has a previous declaration">; def ext_gnu_void_ptr : Extension< "arithmetic on%select{ a|}0 pointer%select{|s}0 to void is a GNU extension">, InGroup; def ext_gnu_ptr_func_arith : Extension< "arithmetic on%select{ a|}0 pointer%select{|s}0 to%select{ the|}2 function " "type%select{|s}2 %1%select{| and %3}2 is a GNU extension">, InGroup; def err_readonly_message_assignment : Error< "assigning to 'readonly' return result of an Objective-C message not allowed">; def ext_integer_increment_complex : Extension< "ISO C does not support '++'/'--' on complex integer type %0">; def ext_integer_complement_complex : Extension< "ISO C does not support '~' for complex conjugation of %0">; def err_nosetter_property_assignment : Error< "%select{assignment to readonly property|" "no setter method %1 for assignment to property}0">; def err_nosetter_property_incdec : Error< "%select{%select{increment|decrement}1 of readonly property|" "no setter method %2 for %select{increment|decrement}1 of property}0">; def err_nogetter_property_compound_assignment : Error< "a getter method is needed to perform a compound assignment on a property">; def err_nogetter_property_incdec : Error< "no getter method %1 for %select{increment|decrement}0 of property">; def err_no_subobject_property_setting : Error< "expression is not assignable">; def err_qualified_objc_access : Error< "%select{property|instance variable}0 access cannot be qualified with '%1'">; def ext_freestanding_complex : Extension< "complex numbers are an extension in a freestanding C99 implementation">; // FIXME: Remove when we support imaginary. def err_imaginary_not_supported : Error<"imaginary types are not supported">; // Obj-c expressions def warn_root_inst_method_not_found : Warning< "instance method %0 is being used on 'Class' which is not in the root class">, InGroup; def warn_class_method_not_found : Warning< "class method %objcclass0 not found (return type defaults to 'id')">, InGroup; def warn_instance_method_on_class_found : Warning< "instance method %0 found instead of class method %1">, InGroup; def warn_inst_method_not_found : Warning< "instance method %objcinstance0 not found (return type defaults to 'id')">, InGroup; def warn_instance_method_not_found_with_typo : Warning< "instance method %objcinstance0 not found (return type defaults to 'id')" "; did you mean %objcinstance2?">, InGroup; def warn_class_method_not_found_with_typo : Warning< "class method %objcclass0 not found (return type defaults to 'id')" "; did you mean %objcclass2?">, InGroup; def err_method_not_found_with_typo : Error< "%select{instance|class}1 method %0 not found " "; did you mean %2?">; def err_no_super_class_message : Error< "no @interface declaration found in class messaging of %0">; def err_root_class_cannot_use_super : Error< "%0 cannot use 'super' because it is a root class">; def err_invalid_receiver_to_message_super : Error< "'super' is only valid in a method body">; def err_invalid_receiver_class_message : Error< "receiver type %0 is not an Objective-C class">; def err_missing_open_square_message_send : Error< "missing '[' at start of message send expression">; def warn_bad_receiver_type : Warning< "receiver type %0 is not 'id' or interface pointer, consider " "casting it to 'id'">,InGroup; def err_bad_receiver_type : Error<"bad receiver type %0">; def err_incomplete_receiver_type : Error<"incomplete receiver type %0">; def err_unknown_receiver_suggest : Error< "unknown receiver %0; did you mean %1?">; def err_objc_throw_expects_object : Error< "@throw requires an Objective-C object type (%0 invalid)">; def err_objc_synchronized_expects_object : Error< "@synchronized requires an Objective-C object type (%0 invalid)">; def err_rethrow_used_outside_catch : Error< "@throw (rethrow) used outside of a @catch block">; def err_attribute_multiple_objc_gc : Error< "multiple garbage collection attributes specified for type">; def err_catch_param_not_objc_type : Error< "@catch parameter is not a pointer to an interface type">; def err_illegal_qualifiers_on_catch_parm : Error< "illegal qualifiers on @catch parameter">; def err_storage_spec_on_catch_parm : Error< "@catch parameter cannot have storage specifier '%0'">; def warn_register_objc_catch_parm : Warning< "'register' storage specifier on @catch parameter will be ignored">; def err_qualified_objc_catch_parm : Error< "@catch parameter declarator cannot be qualified">; def warn_objc_pointer_cxx_catch_fragile : Warning< "cannot catch an exception thrown with @throw in C++ in the non-unified " "exception model">, InGroup; def err_objc_object_catch : Error< "cannot catch an Objective-C object by value">; def err_incomplete_type_objc_at_encode : Error< "'@encode' of incomplete type %0">; def warn_objc_circular_container : Warning< "adding '%0' to '%1' might cause circular dependency in container">, InGroup>; def note_objc_circular_container_declared_here : Note<"'%0' declared here">; def warn_objc_unsafe_perform_selector : Warning< "%0 is incompatible with selectors that return a " "%select{struct|union|vector}1 type">, InGroup>; def note_objc_unsafe_perform_selector_method_declared_here : Note< "method %0 that returns %1 declared here">; def warn_setter_getter_impl_required : Warning< "property %0 requires method %1 to be defined - " "use @synthesize, @dynamic or provide a method implementation " "in this class implementation">, InGroup; def warn_setter_getter_impl_required_in_category : Warning< "property %0 requires method %1 to be defined - " "use @dynamic or provide a method implementation in this category">, InGroup; def note_parameter_named_here : Note< "passing argument to parameter %0 here">; def note_parameter_here : Note< "passing argument to parameter here">; def note_method_return_type_change : Note< "compiler has implicitly changed method %0 return type">; def warn_impl_required_for_class_property : Warning< "class property %0 requires method %1 to be defined - " "use @dynamic or provide a method implementation " "in this class implementation">, InGroup; def warn_impl_required_in_category_for_class_property : Warning< "class property %0 requires method %1 to be defined - " "use @dynamic or provide a method implementation in this category">, InGroup; // C++ casts // These messages adhere to the TryCast pattern: %0 is an int specifying the // cast type, %1 is the source type, %2 is the destination type. def err_bad_reinterpret_cast_overload : Error< "reinterpret_cast cannot resolve overloaded function %0 to type %1">; def warn_reinterpret_different_from_static : Warning< "'reinterpret_cast' %select{from|to}3 class %0 %select{to|from}3 its " "%select{virtual base|base at non-zero offset}2 %1 behaves differently from " "'static_cast'">, InGroup; def note_reinterpret_updowncast_use_static: Note< "use 'static_cast' to adjust the pointer correctly while " "%select{upcasting|downcasting}0">; def err_bad_static_cast_overload : Error< "address of overloaded function %0 cannot be static_cast to type %1">; def err_bad_cstyle_cast_overload : Error< "address of overloaded function %0 cannot be cast to type %1">; def err_bad_cxx_cast_generic : Error< "%select{const_cast|static_cast|reinterpret_cast|dynamic_cast|C-style cast|" "functional-style cast}0 from %1 to %2 is not allowed">; def err_bad_cxx_cast_unrelated_class : Error< "%select{const_cast|static_cast|reinterpret_cast|dynamic_cast|C-style cast|" "functional-style cast}0 from %1 to %2, which are not related by " "inheritance, is not allowed">; def note_type_incomplete : Note<"%0 is incomplete">; def err_bad_cxx_cast_rvalue : Error< "%select{const_cast|static_cast|reinterpret_cast|dynamic_cast|C-style cast|" "functional-style cast}0 from rvalue to reference type %2">; def err_bad_cxx_cast_bitfield : Error< "%select{const_cast|static_cast|reinterpret_cast|dynamic_cast|C-style cast|" "functional-style cast}0 from bit-field lvalue to reference type %2">; def err_bad_cxx_cast_qualifiers_away : Error< "%select{const_cast|static_cast|reinterpret_cast|dynamic_cast|C-style cast|" "functional-style cast}0 from %1 to %2 casts away qualifiers">; def err_bad_const_cast_dest : Error< "%select{const_cast||||C-style cast|functional-style cast}0 to %2, " "which is not a reference, pointer-to-object, or pointer-to-data-member">; def ext_cast_fn_obj : Extension< "cast between pointer-to-function and pointer-to-object is an extension">; def ext_ms_cast_fn_obj : ExtWarn< "static_cast between pointer-to-function and pointer-to-object is a " "Microsoft extension">, InGroup; def warn_cxx98_compat_cast_fn_obj : Warning< "cast between pointer-to-function and pointer-to-object is incompatible with C++98">, InGroup, DefaultIgnore; def err_bad_reinterpret_cast_small_int : Error< "cast from pointer to smaller type %2 loses information">; def err_bad_cxx_cast_vector_to_scalar_different_size : Error< "%select{||reinterpret_cast||C-style cast|}0 from vector %1 " "to scalar %2 of different size">; def err_bad_cxx_cast_scalar_to_vector_different_size : Error< "%select{||reinterpret_cast||C-style cast|}0 from scalar %1 " "to vector %2 of different size">; def err_bad_cxx_cast_vector_to_vector_different_size : Error< "%select{||reinterpret_cast||C-style cast|}0 from vector %1 " "to vector %2 of different size">; def err_bad_lvalue_to_rvalue_cast : Error< "cannot cast from lvalue of type %1 to rvalue reference type %2; types are " "not compatible">; def err_bad_rvalue_to_rvalue_cast : Error< "cannot cast from rvalue of type %1 to rvalue reference type %2; types are " "not compatible">; def err_bad_static_cast_pointer_nonpointer : Error< "cannot cast from type %1 to pointer type %2">; def err_bad_static_cast_member_pointer_nonmp : Error< "cannot cast from type %1 to member pointer type %2">; def err_bad_cxx_cast_member_pointer_size : Error< "cannot %select{||reinterpret_cast||C-style cast|}0 from member pointer " "type %1 to member pointer type %2 of different size">; def err_bad_reinterpret_cast_reference : Error< "reinterpret_cast of a %0 to %1 needs its address, which is not allowed">; def warn_undefined_reinterpret_cast : Warning< "reinterpret_cast from %0 to %1 has undefined behavior">, InGroup, DefaultIgnore; // These messages don't adhere to the pattern. // FIXME: Display the path somehow better. def err_ambiguous_base_to_derived_cast : Error< "ambiguous cast from base %0 to derived %1:%2">; def err_static_downcast_via_virtual : Error< "cannot cast %0 to %1 via virtual base %2">; def err_downcast_from_inaccessible_base : Error< "cannot cast %select{private|protected}2 base class %1 to %0">; def err_upcast_to_inaccessible_base : Error< "cannot cast %0 to its %select{private|protected}2 base class %1">; def err_bad_dynamic_cast_not_ref_or_ptr : Error< "%0 is not a reference or pointer">; def err_bad_dynamic_cast_not_class : Error<"%0 is not a class">; def err_bad_dynamic_cast_incomplete : Error<"%0 is an incomplete type">; def err_bad_dynamic_cast_not_ptr : Error<"%0 is not a pointer">; def err_bad_dynamic_cast_not_polymorphic : Error<"%0 is not polymorphic">; // Other C++ expressions def err_need_header_before_typeid : Error< "you need to include before using the 'typeid' operator">; def err_need_header_before_ms_uuidof : Error< "you need to include before using the '__uuidof' operator">; def err_ms___leave_not_in___try : Error< "'__leave' statement not in __try block">; def err_uuidof_without_guid : Error< "cannot call operator __uuidof on a type with no GUID">; def err_uuidof_with_multiple_guids : Error< "cannot call operator __uuidof on a type with multiple GUIDs">; def err_incomplete_typeid : Error<"'typeid' of incomplete type %0">; def err_variably_modified_typeid : Error<"'typeid' of variably modified type %0">; def err_static_illegal_in_new : Error< "the 'static' modifier for the array size is not legal in new expressions">; def err_array_new_needs_size : Error< "array size must be specified in new expressions">; def err_bad_new_type : Error< "cannot allocate %select{function|reference}1 type %0 with new">; def err_new_incomplete_type : Error< "allocation of incomplete type %0">; def err_new_array_nonconst : Error< "only the first dimension of an allocated array may have dynamic size">; def err_new_array_init_args : Error< "array 'new' cannot have initialization arguments">; def ext_new_paren_array_nonconst : ExtWarn< "when type is in parentheses, array cannot have dynamic size">; def err_placement_new_non_placement_delete : Error< "'new' expression with placement arguments refers to non-placement " "'operator delete'">; def err_array_size_not_integral : Error< "array size expression must have integral or %select{|unscoped }0" "enumeration type, not %1">; def err_array_size_incomplete_type : Error< "array size expression has incomplete class type %0">; def err_array_size_explicit_conversion : Error< "array size expression of type %0 requires explicit conversion to type %1">; def note_array_size_conversion : Note< "conversion to %select{integral|enumeration}0 type %1 declared here">; def err_array_size_ambiguous_conversion : Error< "ambiguous conversion of array size expression of type %0 to an integral or " "enumeration type">; def ext_array_size_conversion : Extension< "implicit conversion from array size expression of type %0 to " "%select{integral|enumeration}1 type %2 is a C++11 extension">, InGroup; def warn_cxx98_compat_array_size_conversion : Warning< "implicit conversion from array size expression of type %0 to " "%select{integral|enumeration}1 type %2 is incompatible with C++98">, InGroup, DefaultIgnore; def err_address_space_qualified_new : Error< "'new' cannot allocate objects of type %0 in address space '%1'">; def err_address_space_qualified_delete : Error< "'delete' cannot delete objects of type %0 in address space '%1'">; def err_default_init_const : Error< "default initialization of an object of const type %0" "%select{| without a user-provided default constructor}1">; def ext_default_init_const : ExtWarn< "default initialization of an object of const type %0" "%select{| without a user-provided default constructor}1 " "is a Microsoft extension">, InGroup; def err_delete_operand : Error<"cannot delete expression of type %0">; def ext_delete_void_ptr_operand : ExtWarn< "cannot delete expression with pointer-to-'void' type %0">, InGroup; def err_ambiguous_delete_operand : Error< "ambiguous conversion of delete expression of type %0 to a pointer">; def warn_delete_incomplete : Warning< "deleting pointer to incomplete type %0 may cause undefined behavior">, InGroup; def err_delete_incomplete_class_type : Error< "deleting incomplete class type %0; no conversions to pointer type">; def err_delete_explicit_conversion : Error< "converting delete expression from type %0 to type %1 invokes an explicit " "conversion function">; def note_delete_conversion : Note<"conversion to pointer type %0">; def warn_delete_array_type : Warning< "'delete' applied to a pointer-to-array type %0 treated as 'delete[]'">; def warn_mismatched_delete_new : Warning< "'delete%select{|[]}0' applied to a pointer that was allocated with " "'new%select{[]|}0'; did you mean 'delete%select{[]|}0'?">, InGroup>; def note_allocated_here : Note<"allocated with 'new%select{[]|}0' here">; def err_no_suitable_delete_member_function_found : Error< "no suitable member %0 in %1">; def err_ambiguous_suitable_delete_member_function_found : Error< "multiple suitable %0 functions in %1">; def warn_ambiguous_suitable_delete_function_found : Warning< "multiple suitable %0 functions for %1; no 'operator delete' function " "will be invoked if initialization throws an exception">, InGroup>; def note_member_declared_here : Note< "member %0 declared here">; def note_member_first_declared_here : Note< "member %0 first declared here">; def err_decrement_bool : Error<"cannot decrement expression of type bool">; def warn_increment_bool : Warning< "incrementing expression of type bool is deprecated and " "incompatible with C++17">, InGroup; def ext_increment_bool : ExtWarn< "ISO C++17 does not allow incrementing expression of type bool">, DefaultError, InGroup; def err_increment_decrement_enum : Error< "cannot %select{decrement|increment}0 expression of enum type %1">; def err_catch_incomplete_ptr : Error< "cannot catch pointer to incomplete type %0">; def err_catch_incomplete_ref : Error< "cannot catch reference to incomplete type %0">; def err_catch_incomplete : Error<"cannot catch incomplete type %0">; def err_catch_rvalue_ref : Error<"cannot catch exceptions by rvalue reference">; def err_catch_variably_modified : Error< "cannot catch variably modified type %0">; def err_qualified_catch_declarator : Error< "exception declarator cannot be qualified">; def err_early_catch_all : Error<"catch-all handler must come last">; def err_bad_memptr_rhs : Error< "right hand operand to %0 has non-pointer-to-member type %1">; def err_bad_memptr_lhs : Error< "left hand operand to %0 must be a %select{|pointer to }1class " "compatible with the right hand operand, but is %2">; def warn_exception_caught_by_earlier_handler : Warning< "exception of type %0 will be caught by earlier handler">, InGroup; def note_previous_exception_handler : Note<"for type %0">; def err_exceptions_disabled : Error< "cannot use '%0' with exceptions disabled">; def err_objc_exceptions_disabled : Error< "cannot use '%0' with Objective-C exceptions disabled">; def warn_throw_in_noexcept_func : Warning< "%0 has a non-throwing exception specification but can still throw">, InGroup; def note_throw_in_dtor : Note< "%select{destructor|deallocator}0 has a %select{non-throwing|implicit " "non-throwing}1 exception specification">; def note_throw_in_function : Note<"function declared non-throwing here">; def err_seh_try_outside_functions : Error< "cannot use SEH '__try' in blocks, captured regions, or Obj-C method decls">; def err_mixing_cxx_try_seh_try : Error< "cannot use C++ 'try' in the same function as SEH '__try'">; def err_seh_try_unsupported : Error< "SEH '__try' is not supported on this target">; def note_conflicting_try_here : Note< "conflicting %0 here">; def warn_jump_out_of_seh_finally : Warning< "jump out of __finally block has undefined behavior">, InGroup>; def warn_non_virtual_dtor : Warning< "%0 has virtual functions but non-virtual destructor">, InGroup, DefaultIgnore; def warn_delete_non_virtual_dtor : Warning< "%select{delete|destructor}0 called on non-final %1 that has " "virtual functions but non-virtual destructor">, InGroup, DefaultIgnore, ShowInSystemHeader; def note_delete_non_virtual : Note< "qualify call to silence this warning">; def warn_delete_abstract_non_virtual_dtor : Warning< "%select{delete|destructor}0 called on %1 that is abstract but has " "non-virtual destructor">, InGroup, ShowInSystemHeader; def warn_overloaded_virtual : Warning< "%q0 hides overloaded virtual %select{function|functions}1">, InGroup, DefaultIgnore; def note_hidden_overloaded_virtual_declared_here : Note< "hidden overloaded virtual function %q0 declared here" "%select{|: different classes%diff{ ($ vs $)|}2,3" "|: different number of parameters (%2 vs %3)" "|: type mismatch at %ordinal2 parameter%diff{ ($ vs $)|}3,4" "|: different return type%diff{ ($ vs $)|}2,3" "|: different qualifiers (" "%select{none|const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}2 vs " "%select{none|const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}3)" "|: different exception specifications}1">; def warn_using_directive_in_header : Warning< "using namespace directive in global context in header">, InGroup, DefaultIgnore; def warn_overaligned_type : Warning< "type %0 requires %1 bytes of alignment and the default allocator only " "guarantees %2 bytes">, InGroup, DefaultIgnore; def warn_aligned_allocation_unavailable :Warning< "aligned %select{allocation|deallocation}0 function of type '%1' is only " "available on %2 %3 or newer">, InGroup, DefaultError; def note_silence_unligned_allocation_unavailable : Note< "if you supply your own aligned allocation functions, use " "-Wno-aligned-allocation-unavailable to silence this diagnostic">; def err_conditional_void_nonvoid : Error< "%select{left|right}1 operand to ? is void, but %select{right|left}1 operand " "is of type %0">; def err_conditional_ambiguous : Error< "conditional expression is ambiguous; " "%diff{$ can be converted to $ and vice versa|" "types can be convert to each other}0,1">; def err_conditional_ambiguous_ovl : Error< "conditional expression is ambiguous; %diff{$ and $|types}0,1 " "can be converted to several common types">; def err_conditional_vector_size : Error< "vector condition type %0 and result type %1 do not have the same number " "of elements">; def err_conditional_vector_element_size : Error< "vector condition type %0 and result type %1 do not have elements of the " "same size">; def err_throw_incomplete : Error< "cannot throw object of incomplete type %0">; def err_throw_incomplete_ptr : Error< "cannot throw pointer to object of incomplete type %0">; def err_return_in_constructor_handler : Error< "return in the catch of a function try block of a constructor is illegal">; def warn_cdtor_function_try_handler_mem_expr : Warning< "cannot refer to a non-static member from the handler of a " "%select{constructor|destructor}0 function try block">, InGroup; let CategoryName = "Lambda Issue" in { def err_capture_more_than_once : Error< "%0 can appear only once in a capture list">; def err_reference_capture_with_reference_default : Error< "'&' cannot precede a capture when the capture default is '&'">; def err_copy_capture_with_copy_default : Error< "'&' must precede a capture when the capture default is '='">; def err_capture_does_not_name_variable : Error< "%0 in capture list does not name a variable">; def err_capture_non_automatic_variable : Error< "%0 cannot be captured because it does not have automatic storage " "duration">; def err_this_capture : Error< "'this' cannot be %select{implicitly |}0captured in this context">; def err_lambda_capture_anonymous_var : Error< "unnamed variable cannot be implicitly captured in a lambda expression">; def err_lambda_capture_flexarray_type : Error< "variable %0 with flexible array member cannot be captured in " "a lambda expression">; def err_lambda_impcap : Error< "variable %0 cannot be implicitly captured in a lambda with no " "capture-default specified">; def note_lambda_decl : Note<"lambda expression begins here">; def err_lambda_unevaluated_operand : Error< "lambda expression in an unevaluated operand">; def err_lambda_in_constant_expression : Error< "a lambda expression may not appear inside of a constant expression">; def err_lambda_return_init_list : Error< "cannot deduce lambda return type from initializer list">; def err_lambda_capture_default_arg : Error< "lambda expression in default argument cannot capture any entity">; def err_lambda_incomplete_result : Error< "incomplete result type %0 in lambda expression">; def err_noreturn_lambda_has_return_expr : Error< "lambda declared 'noreturn' should not return">; def warn_maybe_falloff_nonvoid_lambda : Warning< "control may reach end of non-void lambda">, InGroup; def warn_falloff_nonvoid_lambda : Warning< "control reaches end of non-void lambda">, InGroup; def err_access_lambda_capture : Error< // The ERRORs represent other special members that aren't constructors, in // hopes that someone will bother noticing and reporting if they appear "capture of variable '%0' as type %1 calls %select{private|protected}3 " "%select{default |copy |move |*ERROR* |*ERROR* |*ERROR* |}2constructor">, AccessControl; def note_lambda_to_block_conv : Note< "implicit capture of lambda object due to conversion to block pointer " "here">; def note_var_explicitly_captured_here : Note<"variable %0 is" "%select{| explicitly}1 captured here">; // C++14 lambda init-captures. def warn_cxx11_compat_init_capture : Warning< "initialized lambda captures are incompatible with C++ standards " "before C++14">, InGroup, DefaultIgnore; def ext_init_capture : ExtWarn< "initialized lambda captures are a C++14 extension">, InGroup; def err_init_capture_no_expression : Error< "initializer missing for lambda capture %0">; def err_init_capture_multiple_expressions : Error< "initializer for lambda capture %0 contains multiple expressions">; def err_init_capture_paren_braces : Error< "cannot deduce type for lambda capture %1 from " "%select{parenthesized|nested}0 initializer list">; def err_init_capture_deduction_failure : Error< "cannot deduce type for lambda capture %0 from initializer of type %2">; def err_init_capture_deduction_failure_from_init_list : Error< "cannot deduce type for lambda capture %0 from initializer list">; // C++17 '*this' captures. def warn_cxx14_compat_star_this_lambda_capture : Warning< "by value capture of '*this' is incompatible with C++ standards before C++17">, InGroup, DefaultIgnore; def ext_star_this_lambda_capture_cxx17 : ExtWarn< "capture of '*this' by copy is a C++17 extension">, InGroup; // C++2a [=, this] captures. def warn_cxx17_compat_equals_this_lambda_capture : Warning< "explicit capture of 'this' with a capture default of '=' is incompatible " "with C++ standards before C++2a">, InGroup, DefaultIgnore; def ext_equals_this_lambda_capture_cxx2a : ExtWarn< "explicit capture of 'this' with a capture default of '=' " "is a C++2a extension">, InGroup; } def err_return_in_captured_stmt : Error< "cannot return from %0">; def err_capture_block_variable : Error< "__block variable %0 cannot be captured in a " "%select{lambda expression|captured statement}1">; def err_operator_arrow_circular : Error< "circular pointer delegation detected">; def err_operator_arrow_depth_exceeded : Error< "use of 'operator->' on type %0 would invoke a sequence of more than %1 " "'operator->' calls">; def note_operator_arrow_here : Note< "'operator->' declared here produces an object of type %0">; def note_operator_arrows_suppressed : Note< "(skipping %0 'operator->'%s0 in backtrace)">; def note_operator_arrow_depth : Note< "use -foperator-arrow-depth=N to increase 'operator->' limit">; def err_pseudo_dtor_base_not_scalar : Error< "object expression of non-scalar type %0 cannot be used in a " "pseudo-destructor expression">; def ext_pseudo_dtor_on_void : ExtWarn< "pseudo-destructors on type void are a Microsoft extension">, InGroup; def err_pseudo_dtor_type_mismatch : Error< "the type of object expression " "%diff{($) does not match the type being destroyed ($)|" "does not match the type being destroyed}0,1 " "in pseudo-destructor expression">; def err_pseudo_dtor_call_with_args : Error< "call to pseudo-destructor cannot have any arguments">; def err_dtor_expr_without_call : Error< "reference to %select{destructor|pseudo-destructor}0 must be called" "%select{|; did you mean to call it with no arguments?}1">; def err_pseudo_dtor_destructor_non_type : Error< "%0 does not refer to a type name in pseudo-destructor expression; expected " "the name of type %1">; def err_invalid_use_of_function_type : Error< "a function type is not allowed here">; def err_invalid_use_of_array_type : Error<"an array type is not allowed here">; def err_typecheck_bool_condition : Error< "value of type %0 is not contextually convertible to 'bool'">; def err_typecheck_ambiguous_condition : Error< "conversion %diff{from $ to $|between types}0,1 is ambiguous">; def err_typecheck_nonviable_condition : Error< "no viable conversion%select{%diff{ from $ to $|}1,2|" "%diff{ from returned value of type $ to function return type $|}1,2}0">; def err_typecheck_nonviable_condition_incomplete : Error< "no viable conversion%diff{ from $ to incomplete type $|}0,1">; def err_typecheck_deleted_function : Error< "conversion function %diff{from $ to $|between types}0,1 " "invokes a deleted function">; def err_expected_class_or_namespace : Error<"%0 is not a class" "%select{ or namespace|, namespace, or enumeration}1">; def err_invalid_declarator_scope : Error<"cannot define or redeclare %0 here " "because namespace %1 does not enclose namespace %2">; def err_invalid_declarator_global_scope : Error< "definition or redeclaration of %0 cannot name the global scope">; def err_invalid_declarator_in_function : Error< "definition or redeclaration of %0 not allowed inside a function">; def err_invalid_declarator_in_block : Error< "definition or redeclaration of %0 not allowed inside a block">; def err_not_tag_in_scope : Error< "no %select{struct|interface|union|class|enum}0 named %1 in %2">; def err_no_typeid_with_fno_rtti : Error< "cannot use typeid with -fno-rtti">; def err_no_dynamic_cast_with_fno_rtti : Error< "cannot use dynamic_cast with -fno-rtti">; def err_cannot_form_pointer_to_member_of_reference_type : Error< "cannot form a pointer-to-member to member %0 of reference type %1">; def err_incomplete_object_call : Error< "incomplete type in call to object of type %0">; def warn_condition_is_assignment : Warning<"using the result of an " "assignment as a condition without parentheses">, InGroup; // Completely identical except off by default. def warn_condition_is_idiomatic_assignment : Warning<"using the result " "of an assignment as a condition without parentheses">, InGroup>, DefaultIgnore; def note_condition_assign_to_comparison : Note< "use '==' to turn this assignment into an equality comparison">; def note_condition_or_assign_to_comparison : Note< "use '!=' to turn this compound assignment into an inequality comparison">; def note_condition_assign_silence : Note< "place parentheses around the assignment to silence this warning">; def warn_equality_with_extra_parens : Warning<"equality comparison with " "extraneous parentheses">, InGroup; def note_equality_comparison_to_assign : Note< "use '=' to turn this equality comparison into an assignment">; def note_equality_comparison_silence : Note< "remove extraneous parentheses around the comparison to silence this warning">; // assignment related diagnostics (also for argument passing, returning, etc). // In most of these diagnostics the %2 is a value from the // Sema::AssignmentAction enumeration def err_typecheck_convert_incompatible : Error< "%select{%diff{assigning to $ from incompatible type $|" "assigning to type from incompatible type}0,1" "|%diff{passing $ to parameter of incompatible type $|" "passing type to parameter of incompatible type}0,1" "|%diff{returning $ from a function with incompatible result type $|" "returning type from a function with incompatible result type}0,1" "|%diff{converting $ to incompatible type $|" "converting type to incompatible type}0,1" "|%diff{initializing $ with an expression of incompatible type $|" "initializing type with an expression of incompatible type}0,1" "|%diff{sending $ to parameter of incompatible type $|" "sending type to parameter of incompatible type}0,1" "|%diff{casting $ to incompatible type $|" "casting type to incompatible type}0,1}2" "%select{|; dereference with *|" "; take the address with &|" "; remove *|" "; remove &}3" "%select{|: different classes%diff{ ($ vs $)|}5,6" "|: different number of parameters (%5 vs %6)" "|: type mismatch at %ordinal5 parameter%diff{ ($ vs $)|}6,7" "|: different return type%diff{ ($ vs $)|}5,6" "|: different qualifiers (" "%select{none|const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}5 vs " "%select{none|const|restrict|const and restrict|volatile|const and volatile|" "volatile and restrict|const, volatile, and restrict}6)" "|: different exception specifications}4">; def err_typecheck_missing_return_type_incompatible : Error< "%diff{return type $ must match previous return type $|" "return type must match previous return type}0,1 when %select{block " "literal|lambda expression}2 has unspecified explicit return type">; def note_incomplete_class_and_qualified_id : Note< "conformance of forward class %0 to protocol %1 can not be confirmed">; def warn_incompatible_qualified_id : Warning< "%select{%diff{assigning to $ from incompatible type $|" "assigning to type from incompatible type}0,1" "|%diff{passing $ to parameter of incompatible type $|" "passing type to parameter of incompatible type}0,1" "|%diff{returning $ from a function with incompatible result type $|" "returning type from a function with incompatible result type}0,1" "|%diff{converting $ to incompatible type $|" "converting type to incompatible type}0,1" "|%diff{initializing $ with an expression of incompatible type $|" "initializing type with an expression of incompatible type}0,1" "|%diff{sending $ to parameter of incompatible type $|" "sending type to parameter of incompatible type}0,1" "|%diff{casting $ to incompatible type $|" "casting type to incompatible type}0,1}2">; def ext_typecheck_convert_pointer_int : ExtWarn< "incompatible pointer to integer conversion " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" "%select{|; dereference with *|" "; take the address with &|" "; remove *|" "; remove &}3">, InGroup; def ext_typecheck_convert_int_pointer : ExtWarn< "incompatible integer to pointer conversion " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" "%select{|; dereference with *|" "; take the address with &|" "; remove *|" "; remove &}3">, InGroup; def ext_typecheck_convert_pointer_void_func : Extension< "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" " converts between void pointer and function pointer">; def ext_typecheck_convert_incompatible_pointer_sign : ExtWarn< "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" " converts between pointers to integer types with different sign">, InGroup>; def ext_typecheck_convert_incompatible_pointer : ExtWarn< "incompatible pointer types " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" "%select{|; dereference with *|" "; take the address with &|" "; remove *|" "; remove &}3">, InGroup; def ext_typecheck_convert_incompatible_function_pointer : ExtWarn< "incompatible function pointer types " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" "%select{|; dereference with *|" "; take the address with &|" "; remove *|" "; remove &}3">, InGroup; def ext_typecheck_convert_discards_qualifiers : ExtWarn< "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" " discards qualifiers">, InGroup; def ext_nested_pointer_qualifier_mismatch : ExtWarn< "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" " discards qualifiers in nested pointer types">, InGroup; def warn_incompatible_vectors : Warning< "incompatible vector types " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2">, InGroup, DefaultIgnore; def err_int_to_block_pointer : Error< "invalid block pointer conversion " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2">; def err_typecheck_convert_incompatible_block_pointer : Error< "incompatible block pointer types " "%select{%diff{assigning to $ from $|assigning to different types}0,1" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2">; def err_typecheck_incompatible_address_space : Error< "%select{%diff{assigning $ to $|assigning to different types}1,0" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" " changes address space of pointer">; def err_typecheck_incompatible_ownership : Error< "%select{%diff{assigning $ to $|assigning to different types}1,0" "|%diff{passing $ to parameter of type $|" "passing to parameter of different type}0,1" "|%diff{returning $ from a function with result type $|" "returning from function with different return type}0,1" "|%diff{converting $ to type $|converting between types}0,1" "|%diff{initializing $ with an expression of type $|" "initializing with expression of different type}0,1" "|%diff{sending $ to parameter of type $|" "sending to parameter of different type}0,1" "|%diff{casting $ to type $|casting between types}0,1}2" " changes retain/release properties of pointer">; def err_typecheck_comparison_of_distinct_blocks : Error< "comparison of distinct block types%diff{ ($ and $)|}0,1">; def err_typecheck_array_not_modifiable_lvalue : Error< "array type %0 is not assignable">; def err_typecheck_non_object_not_modifiable_lvalue : Error< "non-object type %0 is not assignable">; def err_typecheck_expression_not_modifiable_lvalue : Error< "expression is not assignable">; def err_typecheck_incomplete_type_not_modifiable_lvalue : Error< "incomplete type %0 is not assignable">; def err_typecheck_lvalue_casts_not_supported : Error< "assignment to cast is illegal, lvalue casts are not supported">; def err_typecheck_duplicate_vector_components_not_mlvalue : Error< "vector is not assignable (contains duplicate components)">; def err_block_decl_ref_not_modifiable_lvalue : Error< "variable is not assignable (missing __block type specifier)">; def err_lambda_decl_ref_not_modifiable_lvalue : Error< "cannot assign to a variable captured by copy in a non-mutable lambda">; def err_typecheck_call_not_function : Error< "called object type %0 is not a function or function pointer">; def err_call_incomplete_return : Error< "calling function with incomplete return type %0">; def err_call_function_incomplete_return : Error< "calling %0 with incomplete return type %1">; def err_call_incomplete_argument : Error< "argument type %0 is incomplete">; def err_typecheck_call_too_few_args : Error< "too few %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected %1, have %2">; def err_typecheck_call_too_few_args_one : Error< "too few %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "single argument %1 was not specified">; def err_typecheck_call_too_few_args_at_least : Error< "too few %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected at least %1, have %2">; def err_typecheck_call_too_few_args_at_least_one : Error< "too few %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "at least argument %1 must be specified">; def err_typecheck_call_too_few_args_suggest : Error< "too few %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected %1, have %2; did you mean %3?">; def err_typecheck_call_too_few_args_at_least_suggest : Error< "too few %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected at least %1, have %2; did you mean %3?">; def err_typecheck_call_too_many_args : Error< "too many %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected %1, have %2">; def err_typecheck_call_too_many_args_one : Error< "too many %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected single argument %1, have %2 arguments">; def err_typecheck_call_too_many_args_at_most : Error< "too many %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected at most %1, have %2">; def err_typecheck_call_too_many_args_at_most_one : Error< "too many %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected at most single argument %1, have %2 arguments">; def err_typecheck_call_too_many_args_suggest : Error< "too many %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected %1, have %2; did you mean %3?">; def err_typecheck_call_too_many_args_at_most_suggest : Error< "too many %select{|||execution configuration }0arguments to " "%select{function|block|method|kernel function}0 call, " "expected at most %1, have %2; did you mean %3?">; def err_arc_typecheck_convert_incompatible_pointer : Error< "incompatible pointer types passing retainable parameter of type %0" "to a CF function expecting %1 type">; def err_builtin_fn_use : Error<"builtin functions must be directly called">; def warn_call_wrong_number_of_arguments : Warning< "too %select{few|many}0 arguments in call to %1">; def err_atomic_builtin_must_be_pointer : Error< "address argument to atomic builtin must be a pointer (%0 invalid)">; def err_atomic_builtin_must_be_pointer_intptr : Error< "address argument to atomic builtin must be a pointer to integer or pointer" " (%0 invalid)">; def err_atomic_builtin_must_be_pointer_intfltptr : Error< "address argument to atomic builtin must be a pointer to integer," " floating-point or pointer (%0 invalid)">; def err_atomic_builtin_pointer_size : Error< "address argument to atomic builtin must be a pointer to 1,2,4,8 or 16 byte " "type (%0 invalid)">; def err_atomic_exclusive_builtin_pointer_size : Error< "address argument to load or store exclusive builtin must be a pointer to" " 1,2,4 or 8 byte type (%0 invalid)">; def err_atomic_op_needs_atomic : Error< "address argument to atomic operation must be a pointer to _Atomic " "type (%0 invalid)">; def err_atomic_op_needs_non_const_atomic : Error< "address argument to atomic operation must be a pointer to non-%select{const|constant}0 _Atomic " "type (%1 invalid)">; def err_atomic_op_needs_non_const_pointer : Error< "address argument to atomic operation must be a pointer to non-const " "type (%0 invalid)">; def err_atomic_op_needs_trivial_copy : Error< "address argument to atomic operation must be a pointer to a " "trivially-copyable type (%0 invalid)">; def err_atomic_op_needs_atomic_int_or_ptr : Error< "address argument to atomic operation must be a pointer to %select{|atomic }0" "integer or pointer (%1 invalid)">; def err_atomic_op_bitwise_needs_atomic_int : Error< "address argument to bitwise atomic operation must be a pointer to " "%select{|atomic }0integer (%1 invalid)">; def warn_atomic_op_has_invalid_memory_order : Warning< "memory order argument to atomic operation is invalid">, InGroup>; def err_atomic_op_has_invalid_synch_scope : Error< "synchronization scope argument to atomic operation is invalid">; def err_overflow_builtin_must_be_int : Error< "operand argument to overflow builtin must be an integer (%0 invalid)">; def err_overflow_builtin_must_be_ptr_int : Error< "result argument to overflow builtin must be a pointer " "to a non-const integer (%0 invalid)">; def err_atomic_load_store_uses_lib : Error< "atomic %select{load|store}0 requires runtime support that is not " "available for this target">; def err_nontemporal_builtin_must_be_pointer : Error< "address argument to nontemporal builtin must be a pointer (%0 invalid)">; def err_nontemporal_builtin_must_be_pointer_intfltptr_or_vector : Error< "address argument to nontemporal builtin must be a pointer to integer, float, " "pointer, or a vector of such types (%0 invalid)">; def err_deleted_function_use : Error<"attempt to use a deleted function">; def err_deleted_inherited_ctor_use : Error< "constructor inherited by %0 from base class %1 is implicitly deleted">; def note_called_by : Note<"called by %0">; def err_kern_type_not_void_return : Error< "kernel function type %0 must have void return type">; def err_kern_is_nonstatic_method : Error< "kernel function %0 must be a free function or static member function">; def err_config_scalar_return : Error< "CUDA special function 'cudaConfigureCall' must have scalar return type">; def err_kern_call_not_global_function : Error< "kernel call to non-global function %0">; def err_global_call_not_config : Error< "call to global function %0 not configured">; def err_ref_bad_target : Error< "reference to %select{__device__|__global__|__host__|__host__ __device__}0 " "function %1 in %select{__device__|__global__|__host__|__host__ __device__}2 function">; def err_ref_bad_target_global_initializer : Error< "reference to %select{__device__|__global__|__host__|__host__ __device__}0 " "function %1 in global initializer">; def warn_kern_is_method : Extension< "kernel function %0 is a member function; this may not be accepted by nvcc">, InGroup; def warn_kern_is_inline : Warning< "ignored 'inline' attribute on kernel function %0">, InGroup; def err_variadic_device_fn : Error< "CUDA device code does not support variadic functions">; def err_va_arg_in_device : Error< "CUDA device code does not support va_arg">; def err_alias_not_supported_on_nvptx : Error<"CUDA does not support aliases">; def err_cuda_unattributed_constexpr_cannot_overload_device : Error< "constexpr function '%0' without __host__ or __device__ attributes cannot " "overload __device__ function with same signature. Add a __host__ " "attribute, or build with -fno-cuda-host-device-constexpr.">; def note_cuda_conflicting_device_function_declared_here : Note< "conflicting __device__ function declared here">; def err_cuda_device_exceptions : Error< "cannot use '%0' in " "%select{__device__|__global__|__host__|__host__ __device__}1 function">; def err_dynamic_var_init : Error< "dynamic initialization is not supported for " "__device__, __constant__, and __shared__ variables.">; def err_shared_var_init : Error< "initialization is not supported for __shared__ variables.">; def err_device_static_local_var : Error< "within a %select{__device__|__global__|__host__|__host__ __device__}0 " "function, only __shared__ variables may be marked 'static'">; def err_cuda_vla : Error< "cannot use variable-length arrays in " "%select{__device__|__global__|__host__|__host__ __device__}0 functions">; def err_cuda_extern_shared : Error<"__shared__ variable %0 cannot be 'extern'">; def err_cuda_host_shared : Error< "__shared__ local variables not allowed in " "%select{__device__|__global__|__host__|__host__ __device__}0 functions">; def err_cuda_nonglobal_constant : Error<"__constant__ variables must be global">; def err_cuda_ovl_target : Error< "%select{__device__|__global__|__host__|__host__ __device__}0 function %1 " "cannot overload %select{__device__|__global__|__host__|__host__ __device__}2 function %3">; def note_cuda_ovl_candidate_target_mismatch : Note< "candidate template ignored: target attributes do not match">; def warn_non_pod_vararg_with_format_string : Warning< "cannot pass %select{non-POD|non-trivial}0 object of type %1 to variadic " "%select{function|block|method|constructor}2; expected type from format " "string was %3">, InGroup, DefaultError; // The arguments to this diagnostic should match the warning above. def err_cannot_pass_objc_interface_to_vararg_format : Error< "cannot pass object with interface type %1 by value to variadic " "%select{function|block|method|constructor}2; expected type from format " "string was %3">; def err_cannot_pass_objc_interface_to_vararg : Error< "cannot pass object with interface type %0 by value through variadic " "%select{function|block|method|constructor}1">; def warn_cannot_pass_non_pod_arg_to_vararg : Warning< "cannot pass object of %select{non-POD|non-trivial}0 type %1 through variadic" " %select{function|block|method|constructor}2; call will abort at runtime">, InGroup, DefaultError; def warn_cxx98_compat_pass_non_pod_arg_to_vararg : Warning< "passing object of trivial but non-POD type %0 through variadic" " %select{function|block|method|constructor}1 is incompatible with C++98">, InGroup, DefaultIgnore; def warn_pass_class_arg_to_vararg : Warning< "passing object of class type %0 through variadic " "%select{function|block|method|constructor}1" "%select{|; did you mean to call '%3'?}2">, InGroup, DefaultIgnore; def err_cannot_pass_to_vararg : Error< "cannot pass %select{expression of type %1|initializer list}0 to variadic " "%select{function|block|method|constructor}2">; def err_cannot_pass_to_vararg_format : Error< "cannot pass %select{expression of type %1|initializer list}0 to variadic " "%select{function|block|method|constructor}2; expected type from format " "string was %3">; def err_typecheck_call_invalid_ordered_compare : Error< "ordered compare requires two args of floating point type" "%diff{ ($ and $)|}0,1">; def err_typecheck_call_invalid_unary_fp : Error< "floating point classification requires argument of floating point type " "(passed in %0)">; def err_typecheck_cond_expect_int_float : Error< "used type %0 where integer or floating point type is required">; def err_typecheck_cond_expect_scalar : Error< "used type %0 where arithmetic or pointer type is required">; def err_typecheck_cond_expect_nonfloat : Error< "used type %0 where floating point type is not allowed">; def ext_typecheck_cond_one_void : Extension< "C99 forbids conditional expressions with only one void side">; def err_typecheck_cast_to_incomplete : Error< "cast to incomplete type %0">; def ext_typecheck_cast_nonscalar : Extension< "C99 forbids casting nonscalar type %0 to the same type">; def ext_typecheck_cast_to_union : Extension< "cast to union type is a GNU extension">, InGroup; def err_typecheck_cast_to_union_no_type : Error< "cast to union type from type %0 not present in union">; def err_cast_pointer_from_non_pointer_int : Error< "operand of type %0 cannot be cast to a pointer type">; def warn_cast_pointer_from_sel : Warning< "cast of type %0 to %1 is deprecated; use sel_getName instead">, InGroup; def warn_function_def_in_objc_container : Warning< "function definition inside an Objective-C container is deprecated">, InGroup; def warn_cast_calling_conv : Warning< "cast between incompatible calling conventions '%0' and '%1'; " "calls through this pointer may abort at runtime">, InGroup>; def note_change_calling_conv_fixit : Note< "consider defining %0 with the '%1' calling convention">; def warn_bad_function_cast : Warning< "cast from function call of type %0 to non-matching type %1">, InGroup, DefaultIgnore; def err_cast_pointer_to_non_pointer_int : Error< "pointer cannot be cast to type %0">; def err_typecheck_expect_scalar_operand : Error< "operand of type %0 where arithmetic or pointer type is required">; def err_typecheck_cond_incompatible_operands : Error< "incompatible operand types%diff{ ($ and $)|}0,1">; def err_cast_selector_expr : Error< "cannot type cast @selector expression">; def ext_typecheck_cond_incompatible_pointers : ExtWarn< "pointer type mismatch%diff{ ($ and $)|}0,1">, InGroup>; def ext_typecheck_cond_pointer_integer_mismatch : ExtWarn< "pointer/integer type mismatch in conditional expression" "%diff{ ($ and $)|}0,1">, InGroup>; def err_typecheck_choose_expr_requires_constant : Error< "'__builtin_choose_expr' requires a constant expression">; def warn_unused_expr : Warning<"expression result unused">, InGroup; def warn_unused_voidptr : Warning< "expression result unused; should this cast be to 'void'?">, InGroup; def warn_unused_property_expr : Warning< "property access result unused - getters should not be used for side effects">, InGroup; def warn_unused_container_subscript_expr : Warning< "container access result unused - container access should not be used for side effects">, InGroup; def warn_unused_call : Warning< "ignoring return value of function declared with %0 attribute">, InGroup; def warn_side_effects_unevaluated_context : Warning< "expression with side effects has no effect in an unevaluated context">, InGroup; def warn_side_effects_typeid : Warning< "expression with side effects will be evaluated despite being used as an " "operand to 'typeid'">, InGroup; def warn_unused_result : Warning< "ignoring return value of function declared with %0 attribute">, InGroup; def warn_unused_volatile : Warning< "expression result unused; assign into a variable to force a volatile load">, InGroup>; def ext_cxx14_attr : Extension< "use of the %0 attribute is a C++14 extension">, InGroup; def ext_cxx17_attr : Extension< "use of the %0 attribute is a C++17 extension">, InGroup; def warn_unused_comparison : Warning< "%select{equality|inequality|relational|three-way}0 comparison result unused">, InGroup; def note_inequality_comparison_to_or_assign : Note< "use '|=' to turn this inequality comparison into an or-assignment">; def err_incomplete_type_used_in_type_trait_expr : Error< "incomplete type %0 used in type trait expression">; def err_require_constant_init_failed : Error< "variable does not have a constant initializer">; def note_declared_required_constant_init_here : Note< "required by 'require_constant_initialization' attribute here">; def err_dimension_expr_not_constant_integer : Error< "dimension expression does not evaluate to a constant unsigned int">; def err_typecheck_cond_incompatible_operands_null : Error< "non-pointer operand type %0 incompatible with %select{NULL|nullptr}1">; def ext_empty_struct_union : Extension< "empty %select{struct|union}0 is a GNU extension">, InGroup; def ext_no_named_members_in_struct_union : Extension< "%select{struct|union}0 without named members is a GNU extension">, InGroup; def warn_zero_size_struct_union_compat : Warning<"%select{|empty }0" "%select{struct|union}1 has size 0 in C, %select{size 1|non-zero size}2 in C++">, InGroup, DefaultIgnore; def warn_zero_size_struct_union_in_extern_c : Warning<"%select{|empty }0" "%select{struct|union}1 has size 0 in C, %select{size 1|non-zero size}2 in C++">, InGroup; def warn_cast_qual : Warning<"cast from %0 to %1 drops %select{const and " "volatile qualifiers|const qualifier|volatile qualifier}2">, InGroup, DefaultIgnore; def warn_cast_qual2 : Warning<"cast from %0 to %1 must have all intermediate " "pointers const qualified to be safe">, InGroup, DefaultIgnore; def warn_redefine_extname_not_applied : Warning< "#pragma redefine_extname is applicable to external C declarations only; " "not applied to %select{function|variable}0 %1">, InGroup; } // End of general sema category. // inline asm. let CategoryName = "Inline Assembly Issue" in { def err_asm_invalid_lvalue_in_output : Error<"invalid lvalue in asm output">; def err_asm_invalid_output_constraint : Error< "invalid output constraint '%0' in asm">; def err_asm_invalid_lvalue_in_input : Error< "invalid lvalue in asm input for constraint '%0'">; def err_asm_invalid_input_constraint : Error< "invalid input constraint '%0' in asm">; def err_asm_immediate_expected : Error<"constraint '%0' expects " "an integer constant expression">; def err_asm_invalid_type_in_input : Error< "invalid type %0 in asm input for constraint '%1'">; def err_asm_tying_incompatible_types : Error< "unsupported inline asm: input with type " "%diff{$ matching output with type $|}0,1">; def err_asm_unexpected_constraint_alternatives : Error< "asm constraint has an unexpected number of alternatives: %0 vs %1">; def err_asm_incomplete_type : Error<"asm operand has incomplete type %0">; def err_asm_unknown_register_name : Error<"unknown register name '%0' in asm">; def err_asm_invalid_global_var_reg : Error<"register '%0' unsuitable for " "global register variables on this target">; def err_asm_register_size_mismatch : Error<"size of register '%0' does not " "match variable size">; def err_asm_bad_register_type : Error<"bad type for named register variable">; def err_asm_invalid_input_size : Error< "invalid input size for constraint '%0'">; def err_asm_invalid_output_size : Error< "invalid output size for constraint '%0'">; def err_invalid_asm_cast_lvalue : Error< "invalid use of a cast in a inline asm context requiring an l-value: " "remove the cast or build with -fheinous-gnu-extensions">; def err_invalid_asm_value_for_constraint : Error <"value '%0' out of range for constraint '%1'">; def err_asm_non_addr_value_in_memory_constraint : Error < "reference to a %select{bit-field|vector element|global register variable}0" " in asm %select{input|output}1 with a memory constraint '%2'">; def err_asm_input_duplicate_match : Error< "more than one input constraint matches the same output '%0'">; def warn_asm_label_on_auto_decl : Warning< "ignored asm label '%0' on automatic variable">; def warn_invalid_asm_cast_lvalue : Warning< "invalid use of a cast in an inline asm context requiring an l-value: " "accepted due to -fheinous-gnu-extensions, but clang may remove support " "for this in the future">; def warn_asm_mismatched_size_modifier : Warning< "value size does not match register size specified by the constraint " "and modifier">, InGroup; def note_asm_missing_constraint_modifier : Note< "use constraint modifier \"%0\"">; def note_asm_input_duplicate_first : Note< "constraint '%0' is already present here">; } def error_inoutput_conflict_with_clobber : Error< "asm-specifier for input or output variable conflicts with asm" " clobber list">; let CategoryName = "Semantic Issue" in { def err_invalid_conversion_between_vectors : Error< "invalid conversion between vector type%diff{ $ and $|}0,1 of different " "size">; def err_invalid_conversion_between_vector_and_integer : Error< "invalid conversion between vector type %0 and integer type %1 " "of different size">; def err_opencl_function_pointer : Error< "pointers to functions are not allowed">; def err_opencl_taking_address_capture : Error< "taking address of a capture is not allowed">; def err_invalid_conversion_between_vector_and_scalar : Error< "invalid conversion between vector type %0 and scalar type %1">; // C++ member initializers. def err_only_constructors_take_base_inits : Error< "only constructors take base initializers">; def err_multiple_mem_initialization : Error < "multiple initializations given for non-static member %0">; def err_multiple_mem_union_initialization : Error < "initializing multiple members of union">; def err_multiple_base_initialization : Error < "multiple initializations given for base %0">; def err_mem_init_not_member_or_class : Error< "member initializer %0 does not name a non-static data member or base " "class">; def warn_initializer_out_of_order : Warning< "%select{field|base class}0 %1 will be initialized after " "%select{field|base}2 %3">, InGroup, DefaultIgnore; def warn_abstract_vbase_init_ignored : Warning< "initializer for virtual base class %0 of abstract class %1 " "will never be used">, InGroup>, DefaultIgnore; def err_base_init_does_not_name_class : Error< "constructor initializer %0 does not name a class">; def err_base_init_direct_and_virtual : Error< "base class initializer %0 names both a direct base class and an " "inherited virtual base class">; def err_not_direct_base_or_virtual : Error< "type %0 is not a direct or virtual base of %1">; def err_in_class_initializer_non_const : Error< "non-const static data member must be initialized out of line">; def err_in_class_initializer_volatile : Error< "static const volatile data member must be initialized out of line">; def err_in_class_initializer_bad_type : Error< "static data member of type %0 must be initialized out of line">; def ext_in_class_initializer_float_type : ExtWarn< "in-class initializer for static data member of type %0 is a GNU extension">, InGroup; def ext_in_class_initializer_float_type_cxx11 : ExtWarn< "in-class initializer for static data member of type %0 requires " "'constexpr' specifier">, InGroup, DefaultError; def note_in_class_initializer_float_type_cxx11 : Note<"add 'constexpr'">; def err_in_class_initializer_literal_type : Error< "in-class initializer for static data member of type %0 requires " "'constexpr' specifier">; def err_in_class_initializer_non_constant : Error< "in-class initializer for static data member is not a constant expression">; def err_in_class_initializer_not_yet_parsed : Error< "default member initializer for %1 needed within definition of enclosing " "class %0 outside of member functions">; def note_in_class_initializer_not_yet_parsed : Note< "default member initializer declared here">; def err_in_class_initializer_cycle : Error<"default member initializer for %0 uses itself">; def err_exception_spec_cycle : Error<"exception specification of %0 uses itself">; def ext_in_class_initializer_non_constant : Extension< "in-class initializer for static data member is not a constant expression; " "folding it to a constant is a GNU extension">, InGroup; def err_thread_dynamic_init : Error< "initializer for thread-local variable must be a constant expression">; def err_thread_nontrivial_dtor : Error< "type of thread-local variable has non-trivial destruction">; def note_use_thread_local : Note< "use 'thread_local' to allow this">; // C++ anonymous unions and GNU anonymous structs/unions def ext_anonymous_union : Extension< "anonymous unions are a C11 extension">, InGroup; def ext_gnu_anonymous_struct : Extension< "anonymous structs are a GNU extension">, InGroup; def ext_c11_anonymous_struct : Extension< "anonymous structs are a C11 extension">, InGroup; def err_anonymous_union_not_static : Error< "anonymous unions at namespace or global scope must be declared 'static'">; def err_anonymous_union_with_storage_spec : Error< "anonymous union at class scope must not have a storage specifier">; def err_anonymous_struct_not_member : Error< "anonymous %select{structs|structs and classes}0 must be " "%select{struct or union|class}0 members">; def err_anonymous_record_member_redecl : Error< "member of anonymous %select{struct|union}0 redeclares %1">; def err_anonymous_record_with_type : Error< "types cannot be declared in an anonymous %select{struct|union}0">; def ext_anonymous_record_with_type : Extension< "types declared in an anonymous %select{struct|union}0 are a Microsoft " "extension">, InGroup; def ext_anonymous_record_with_anonymous_type : Extension< "anonymous types declared in an anonymous %select{struct|union}0 " "are an extension">, InGroup>; def err_anonymous_record_with_function : Error< "functions cannot be declared in an anonymous %select{struct|union}0">; def err_anonymous_record_with_static : Error< "static members cannot be declared in an anonymous %select{struct|union}0">; def err_anonymous_record_bad_member : Error< "anonymous %select{struct|union}0 can only contain non-static data members">; def err_anonymous_record_nonpublic_member : Error< "anonymous %select{struct|union}0 cannot contain a " "%select{private|protected}1 data member">; def ext_ms_anonymous_record : ExtWarn< "anonymous %select{structs|unions}0 are a Microsoft extension">, InGroup; // C++ local classes def err_reference_to_local_in_enclosing_context : Error< "reference to local %select{variable|binding}1 %0 declared in enclosing " "%select{%3|block literal|lambda expression|context}2">; def err_static_data_member_not_allowed_in_local_class : Error< "static data member %0 not allowed in local class %1">; // C++ derived classes def err_base_clause_on_union : Error<"unions cannot have base classes">; def err_base_must_be_class : Error<"base specifier must name a class">; def err_union_as_base_class : Error<"unions cannot be base classes">; def err_circular_inheritance : Error< "circular inheritance between %0 and %1">; def err_base_class_has_flexible_array_member : Error< "base class %0 has a flexible array member">; def err_incomplete_base_class : Error<"base class has incomplete type">; def err_duplicate_base_class : Error< "base class %0 specified more than once as a direct base class">; def warn_inaccessible_base_class : Warning< "direct base %0 is inaccessible due to ambiguity:%1">, InGroup>; // FIXME: better way to display derivation? Pass entire thing into diagclient? def err_ambiguous_derived_to_base_conv : Error< "ambiguous conversion from derived class %0 to base class %1:%2">; def err_ambiguous_memptr_conv : Error< "ambiguous conversion from pointer to member of %select{base|derived}0 " "class %1 to pointer to member of %select{derived|base}0 class %2:%3">; def ext_ms_ambiguous_direct_base : ExtWarn< "accessing inaccessible direct base %0 of %1 is a Microsoft extension">, InGroup; def err_memptr_conv_via_virtual : Error< "conversion from pointer to member of class %0 to pointer to member " "of class %1 via virtual base %2 is not allowed">; // C++ member name lookup def err_ambiguous_member_multiple_subobjects : Error< "non-static member %0 found in multiple base-class subobjects of type %1:%2">; def err_ambiguous_member_multiple_subobject_types : Error< "member %0 found in multiple base classes of different types">; def note_ambiguous_member_found : Note<"member found by ambiguous name lookup">; def err_ambiguous_reference : Error<"reference to %0 is ambiguous">; def note_ambiguous_candidate : Note<"candidate found by name lookup is %q0">; def err_ambiguous_tag_hiding : Error<"a type named %0 is hidden by a " "declaration in a different namespace">; def note_hidden_tag : Note<"type declaration hidden">; def note_hiding_object : Note<"declaration hides type">; // C++ operator overloading def err_operator_overload_needs_class_or_enum : Error< "overloaded %0 must have at least one parameter of class " "or enumeration type">; def err_operator_overload_variadic : Error<"overloaded %0 cannot be variadic">; def err_operator_overload_static : Error< "overloaded %0 cannot be a static member function">; def err_operator_overload_default_arg : Error< "parameter of overloaded %0 cannot have a default argument">; def err_operator_overload_must_be : Error< "overloaded %0 must be a %select{unary|binary|unary or binary}2 operator " "(has %1 parameter%s1)">; def err_operator_overload_must_be_member : Error< "overloaded %0 must be a non-static member function">; def err_operator_overload_post_incdec_must_be_int : Error< "parameter of overloaded post-%select{increment|decrement}1 operator must " "have type 'int' (not %0)">; // C++ allocation and deallocation functions. def err_operator_new_delete_declared_in_namespace : Error< "%0 cannot be declared inside a namespace">; def err_operator_new_delete_declared_static : Error< "%0 cannot be declared static in global scope">; def ext_operator_new_delete_declared_inline : ExtWarn< "replacement function %0 cannot be declared 'inline'">, InGroup>; def err_operator_new_delete_invalid_result_type : Error< "%0 must return type %1">; def err_operator_new_delete_dependent_result_type : Error< "%0 cannot have a dependent return type; use %1 instead">; def err_operator_new_delete_too_few_parameters : Error< "%0 must have at least one parameter">; def err_operator_new_delete_template_too_few_parameters : Error< "%0 template must have at least two parameters">; def warn_operator_new_returns_null : Warning< "%0 should not return a null pointer unless it is declared 'throw()'" "%select{| or 'noexcept'}1">, InGroup; def err_operator_new_dependent_param_type : Error< "%0 cannot take a dependent type as first parameter; " "use size_t (%1) instead">; def err_operator_new_param_type : Error< "%0 takes type size_t (%1) as first parameter">; def err_operator_new_default_arg: Error< "parameter of %0 cannot have a default argument">; def err_operator_delete_dependent_param_type : Error< "%0 cannot take a dependent type as first parameter; use %1 instead">; def err_operator_delete_param_type : Error< "first parameter of %0 must have type %1">; def err_destroying_operator_delete_not_usual : Error< "destroying operator delete can have only an optional size and optional " "alignment parameter">; def note_implicit_delete_this_in_destructor_here : Note< "while checking implicit 'delete this' for virtual destructor">; // C++ literal operators def err_literal_operator_outside_namespace : Error< "literal operator %0 must be in a namespace or global scope">; def err_literal_operator_id_outside_namespace : Error< "non-namespace scope '%0' cannot have a literal operator member">; def err_literal_operator_default_argument : Error< "literal operator cannot have a default argument">; def err_literal_operator_bad_param_count : Error< "non-template literal operator must have one or two parameters">; def err_literal_operator_invalid_param : Error< "parameter of literal operator must have type 'unsigned long long', 'long double', 'char', 'wchar_t', 'char16_t', 'char32_t', or 'const char *'">; def err_literal_operator_param : Error< "invalid literal operator parameter type %0, did you mean %1?">; def err_literal_operator_template_with_params : Error< "literal operator template cannot have any parameters">; def err_literal_operator_template : Error< "template parameter list for literal operator must be either 'char...' or 'typename T, T...'">; def err_literal_operator_extern_c : Error< "literal operator must have C++ linkage">; def ext_string_literal_operator_template : ExtWarn< "string literal operator templates are a GNU extension">, InGroup; def warn_user_literal_reserved : Warning< "user-defined literal suffixes not starting with '_' are reserved" "%select{; no literal will invoke this operator|}0">, InGroup; // C++ conversion functions def err_conv_function_not_member : Error< "conversion function must be a non-static member function">; def err_conv_function_return_type : Error< "conversion function cannot have a return type">; def err_conv_function_with_params : Error< "conversion function cannot have any parameters">; def err_conv_function_variadic : Error< "conversion function cannot be variadic">; def err_conv_function_to_array : Error< "conversion function cannot convert to an array type">; def err_conv_function_to_function : Error< "conversion function cannot convert to a function type">; def err_conv_function_with_complex_decl : Error< "cannot specify any part of a return type in the " "declaration of a conversion function" "%select{" "; put the complete type after 'operator'|" "; use a typedef to declare a conversion to %1|" "; use an alias template to declare a conversion to %1|" "}0">; def err_conv_function_redeclared : Error< "conversion function cannot be redeclared">; def warn_conv_to_self_not_used : Warning< "conversion function converting %0 to itself will never be used">; def warn_conv_to_base_not_used : Warning< "conversion function converting %0 to its base class %1 will never be used">; def warn_conv_to_void_not_used : Warning< "conversion function converting %0 to %1 will never be used">; def warn_not_compound_assign : Warning< "use of unary operator that may be intended as compound assignment (%0=)">; // C++11 explicit conversion operators def ext_explicit_conversion_functions : ExtWarn< "explicit conversion functions are a C++11 extension">, InGroup; def warn_cxx98_compat_explicit_conversion_functions : Warning< "explicit conversion functions are incompatible with C++98">, InGroup, DefaultIgnore; // C++11 defaulted functions def err_defaulted_special_member_params : Error< "an explicitly-defaulted %select{|copy |move }0constructor cannot " "have default arguments">; def err_defaulted_special_member_variadic : Error< "an explicitly-defaulted %select{|copy |move }0constructor cannot " "be variadic">; def err_defaulted_special_member_return_type : Error< "explicitly-defaulted %select{copy|move}0 assignment operator must " "return %1">; def err_defaulted_special_member_quals : Error< "an explicitly-defaulted %select{copy|move}0 assignment operator may not " "have 'const'%select{, 'constexpr'|}1 or 'volatile' qualifiers">; def err_defaulted_special_member_volatile_param : Error< "the parameter for an explicitly-defaulted %select{<>|" "copy constructor|move constructor|copy assignment operator|" "move assignment operator|<>}0 may not be volatile">; def err_defaulted_special_member_move_const_param : Error< "the parameter for an explicitly-defaulted move " "%select{constructor|assignment operator}0 may not be const">; def err_defaulted_special_member_copy_const_param : Error< "the parameter for this explicitly-defaulted copy " "%select{constructor|assignment operator}0 is const, but a member or base " "requires it to be non-const">; def err_defaulted_copy_assign_not_ref : Error< "the parameter for an explicitly-defaulted copy assignment operator must be an " "lvalue reference type">; def err_incorrect_defaulted_exception_spec : Error< "exception specification of explicitly defaulted %select{default constructor|" "copy constructor|move constructor|copy assignment operator|move assignment " "operator|destructor}0 does not match the " "calculated one">; def err_incorrect_defaulted_constexpr : Error< "defaulted definition of %select{default constructor|copy constructor|" "move constructor|copy assignment operator|move assignment operator}0 " "is not constexpr">; def err_out_of_line_default_deletes : Error< "defaulting this %select{default constructor|copy constructor|move " "constructor|copy assignment operator|move assignment operator|destructor}0 " "would delete it after its first declaration">; def warn_vbase_moved_multiple_times : Warning< "defaulted move assignment operator of %0 will move assign virtual base " "class %1 multiple times">, InGroup>; def note_vbase_moved_here : Note< "%select{%1 is a virtual base class of base class %2 declared here|" "virtual base class %1 declared here}0">; def ext_implicit_exception_spec_mismatch : ExtWarn< "function previously declared with an %select{explicit|implicit}0 exception " "specification redeclared with an %select{implicit|explicit}0 exception " "specification">, InGroup>; def warn_ptr_arith_precedes_bounds : Warning< "the pointer decremented by %0 refers before the beginning of the array">, InGroup, DefaultIgnore; def warn_ptr_arith_exceeds_bounds : Warning< "the pointer incremented by %0 refers past the end of the array (that " "contains %1 element%s2)">, InGroup, DefaultIgnore; def warn_array_index_precedes_bounds : Warning< "array index %0 is before the beginning of the array">, InGroup; def warn_array_index_exceeds_bounds : Warning< "array index %0 is past the end of the array (which contains %1 " "element%s2)">, InGroup; def note_array_index_out_of_bounds : Note< "array %0 declared here">; def warn_printf_insufficient_data_args : Warning< "more '%%' conversions than data arguments">, InGroup; def warn_printf_data_arg_not_used : Warning< "data argument not used by format string">, InGroup; def warn_format_invalid_conversion : Warning< "invalid conversion specifier '%0'">, InGroup; def warn_printf_incomplete_specifier : Warning< "incomplete format specifier">, InGroup; def warn_missing_format_string : Warning< "format string missing">, InGroup; def warn_scanf_nonzero_width : Warning< "zero field width in scanf format string is unused">, InGroup; def warn_format_conversion_argument_type_mismatch : Warning< "format specifies type %0 but the argument has " "%select{type|underlying type}2 %1">, InGroup; def warn_format_conversion_argument_type_mismatch_pedantic : Extension< "format specifies type %0 but the argument has " "%select{type|underlying type}2 %1">, InGroup; def warn_format_argument_needs_cast : Warning< "%select{values of type|enum values with underlying type}2 '%0' should not " "be used as format arguments; add an explicit cast to %1 instead">, InGroup; def warn_printf_positional_arg_exceeds_data_args : Warning < "data argument position '%0' exceeds the number of data arguments (%1)">, InGroup; def warn_format_zero_positional_specifier : Warning< "position arguments in format strings start counting at 1 (not 0)">, InGroup; def warn_format_invalid_positional_specifier : Warning< "invalid position specified for %select{field width|field precision}0">, InGroup; def warn_format_mix_positional_nonpositional_args : Warning< "cannot mix positional and non-positional arguments in format string">, InGroup; def warn_static_array_too_small : Warning< "array argument is too small; contains %0 elements, callee requires at least %1">, InGroup; def note_callee_static_array : Note< "callee declares array parameter as static here">; def warn_empty_format_string : Warning< "format string is empty">, InGroup; def warn_format_string_is_wide_literal : Warning< "format string should not be a wide string">, InGroup; def warn_printf_format_string_contains_null_char : Warning< "format string contains '\\0' within the string body">, InGroup; def warn_printf_format_string_not_null_terminated : Warning< "format string is not null-terminated">, InGroup; def warn_printf_asterisk_missing_arg : Warning< "'%select{*|.*}0' specified field %select{width|precision}0 is missing a matching 'int' argument">, InGroup; def warn_printf_asterisk_wrong_type : Warning< "field %select{width|precision}0 should have type %1, but argument has type %2">, InGroup; def warn_printf_nonsensical_optional_amount: Warning< "%select{field width|precision}0 used with '%1' conversion specifier, resulting in undefined behavior">, InGroup; def warn_printf_nonsensical_flag: Warning< "flag '%0' results in undefined behavior with '%1' conversion specifier">, InGroup; def warn_format_nonsensical_length: Warning< "length modifier '%0' results in undefined behavior or no effect with '%1' conversion specifier">, InGroup; def warn_format_non_standard_positional_arg: Warning< "positional arguments are not supported by ISO C">, InGroup, DefaultIgnore; def warn_format_non_standard: Warning< "'%0' %select{length modifier|conversion specifier}1 is not supported by ISO C">, InGroup, DefaultIgnore; def warn_format_non_standard_conversion_spec: Warning< "using length modifier '%0' with conversion specifier '%1' is not supported by ISO C">, InGroup, DefaultIgnore; def warn_format_invalid_annotation : Warning< "using '%0' format specifier annotation outside of os_log()/os_trace()">, InGroup; def warn_format_P_no_precision : Warning< "using '%%P' format specifier without precision">, InGroup; def warn_printf_ignored_flag: Warning< "flag '%0' is ignored when flag '%1' is present">, InGroup; def warn_printf_empty_objc_flag: Warning< "missing object format flag">, InGroup; def warn_printf_ObjCflags_without_ObjCConversion: Warning< "object format flags cannot be used with '%0' conversion specifier">, InGroup; def warn_printf_invalid_objc_flag: Warning< "'%0' is not a valid object format flag">, InGroup; def warn_scanf_scanlist_incomplete : Warning< "no closing ']' for '%%[' in scanf format string">, InGroup; def note_format_string_defined : Note<"format string is defined here">; def note_format_fix_specifier : Note<"did you mean to use '%0'?">; def note_printf_c_str: Note<"did you mean to call the %0 method?">; def note_format_security_fixit: Note< "treat the string as an argument to avoid this">; def warn_null_arg : Warning< "null passed to a callee that requires a non-null argument">, InGroup; def warn_null_ret : Warning< "null returned from %select{function|method}0 that requires a non-null return value">, InGroup; // CHECK: returning address/reference of stack memory def warn_ret_stack_addr_ref : Warning< "%select{address of|reference to}0 stack memory associated with local " "variable %1 returned">, InGroup; def warn_ret_local_temp_addr_ref : Warning< "returning %select{address of|reference to}0 local temporary object">, InGroup; def warn_ret_addr_label : Warning< "returning address of label, which is local">, InGroup; def err_ret_local_block : Error< "returning block that lives on the local stack">; def note_ref_var_local_bind : Note< "binding reference variable %0 here">; // Check for initializing a member variable with the address or a reference to // a constructor parameter. def warn_bind_ref_member_to_parameter : Warning< "binding reference member %0 to stack allocated parameter %1">, InGroup; def warn_init_ptr_member_to_parameter_addr : Warning< "initializing pointer member %0 with the stack address of parameter %1">, InGroup; def warn_bind_ref_member_to_temporary : Warning< "binding reference %select{|subobject of }1member %0 to a temporary value">, InGroup; def note_ref_or_ptr_member_declared_here : Note< "%select{reference|pointer}0 member declared here">; def note_ref_subobject_of_member_declared_here : Note< "member with reference subobject declared here">; // For non-floating point, expressions of the form x == x or x != x // should result in a warning, since these always evaluate to a constant. // Array comparisons have similar warnings def warn_comparison_always : Warning< "%select{self-|array }0comparison always evaluates to %select{false|true|a constant}1">, InGroup; def warn_comparison_bitwise_always : Warning< "bitwise comparison always evaluates to %select{false|true}0">, InGroup; def warn_tautological_overlap_comparison : Warning< "overlapping comparisons always evaluate to %select{false|true}0">, InGroup, DefaultIgnore; def warn_stringcompare : Warning< "result of comparison against %select{a string literal|@encode}0 is " "unspecified (use strncmp instead)">, InGroup; def warn_identity_field_assign : Warning< "assigning %select{field|instance variable}0 to itself">, InGroup; // Type safety attributes def err_type_tag_for_datatype_not_ice : Error< "'type_tag_for_datatype' attribute requires the initializer to be " "an %select{integer|integral}0 constant expression">; def err_type_tag_for_datatype_too_large : Error< "'type_tag_for_datatype' attribute requires the initializer to be " "an %select{integer|integral}0 constant expression " "that can be represented by a 64 bit integer">; def err_tag_index_out_of_range : Error< "%select{type tag|argument}0 index %1 is greater than the number of arguments specified">; def warn_type_tag_for_datatype_wrong_kind : Warning< "this type tag was not designed to be used with this function">, InGroup; def warn_type_safety_type_mismatch : Warning< "argument type %0 doesn't match specified %1 type tag " "%select{that requires %3|}2">, InGroup; def warn_type_safety_null_pointer_required : Warning< "specified %0 type tag requires a null pointer">, InGroup; // Generic selections. def err_assoc_type_incomplete : Error< "type %0 in generic association incomplete">; def err_assoc_type_nonobject : Error< "type %0 in generic association not an object type">; def err_assoc_type_variably_modified : Error< "type %0 in generic association is a variably modified type">; def err_assoc_compatible_types : Error< "type %0 in generic association compatible with previously specified type %1">; def note_compat_assoc : Note< "compatible type %0 specified here">; def err_generic_sel_no_match : Error< "controlling expression type %0 not compatible with any generic association type">; def err_generic_sel_multi_match : Error< "controlling expression type %0 compatible with %1 generic association types">; // Blocks def err_blocks_disable : Error<"blocks support disabled - compile with -fblocks" " or %select{pick a deployment target that supports them|for OpenCL 2.0 or above}0">; def err_block_returning_array_function : Error< "block cannot return %select{array|function}0 type %1">; // Builtin annotation def err_builtin_annotation_first_arg : Error< "first argument to __builtin_annotation must be an integer">; def err_builtin_annotation_second_arg : Error< "second argument to __builtin_annotation must be a non-wide string constant">; def err_msvc_annotation_wide_str : Error< "arguments to __annotation must be wide string constants">; // CFString checking def err_cfstring_literal_not_string_constant : Error< "CFString literal is not a string constant">; def warn_cfstring_truncated : Warning< "input conversion stopped due to an input byte that does not " "belong to the input codeset UTF-8">, InGroup>; // os_log checking // TODO: separate diagnostic for os_trace() def err_os_log_format_not_string_constant : Error< "os_log() format argument is not a string constant">; def err_os_log_argument_too_big : Error< "os_log() argument %0 is too big (%1 bytes, max %2)">; def warn_os_log_format_narg : Error< "os_log() '%%n' format specifier is not allowed">, DefaultError; // Statements. def err_continue_not_in_loop : Error< "'continue' statement not in loop statement">; def err_break_not_in_loop_or_switch : Error< "'break' statement not in loop or switch statement">; def warn_loop_ctrl_binds_to_inner : Warning< "'%0' is bound to current loop, GCC binds it to the enclosing loop">, InGroup; def warn_break_binds_to_switch : Warning< "'break' is bound to loop, GCC binds it to switch">, InGroup; def err_default_not_in_switch : Error< "'default' statement not in switch statement">; def err_case_not_in_switch : Error<"'case' statement not in switch statement">; def warn_bool_switch_condition : Warning< "switch condition has boolean value">, InGroup; def warn_case_value_overflow : Warning< "overflow converting case value to switch condition type (%0 to %1)">, InGroup; def err_duplicate_case : Error<"duplicate case value '%0'">; def err_duplicate_case_differing_expr : Error< "duplicate case value: '%0' and '%1' both equal '%2'">; def warn_case_empty_range : Warning<"empty case range specified">; def warn_missing_case_for_condition : Warning<"no case matching constant switch condition '%0'">; def warn_def_missing_case : Warning<"%plural{" "1:enumeration value %1 not explicitly handled in switch|" "2:enumeration values %1 and %2 not explicitly handled in switch|" "3:enumeration values %1, %2, and %3 not explicitly handled in switch|" ":%0 enumeration values not explicitly handled in switch: %1, %2, %3...}0">, InGroup, DefaultIgnore; def warn_missing_case : Warning<"%plural{" "1:enumeration value %1 not handled in switch|" "2:enumeration values %1 and %2 not handled in switch|" "3:enumeration values %1, %2, and %3 not handled in switch|" ":%0 enumeration values not handled in switch: %1, %2, %3...}0">, InGroup; def warn_unannotated_fallthrough : Warning< "unannotated fall-through between switch labels">, InGroup, DefaultIgnore; def warn_unannotated_fallthrough_per_function : Warning< "unannotated fall-through between switch labels in partly-annotated " "function">, InGroup, DefaultIgnore; def note_insert_fallthrough_fixit : Note< "insert '%0;' to silence this warning">; def note_insert_break_fixit : Note< "insert 'break;' to avoid fall-through">; def err_fallthrough_attr_wrong_target : Error< "%0 attribute is only allowed on empty statements">; def note_fallthrough_insert_semi_fixit : Note<"did you forget ';'?">; def err_fallthrough_attr_outside_switch : Error< "fallthrough annotation is outside switch statement">; def err_fallthrough_attr_invalid_placement : Error< "fallthrough annotation does not directly precede switch label">; def warn_fallthrough_attr_unreachable : Warning< "fallthrough annotation in unreachable code">, InGroup, DefaultIgnore; def warn_unreachable_default : Warning< "default label in switch which covers all enumeration values">, InGroup, DefaultIgnore; def warn_not_in_enum : Warning<"case value not in enumerated type %0">, InGroup; def warn_not_in_enum_assignment : Warning<"integer constant not in range " "of enumerated type %0">, InGroup>, DefaultIgnore; def err_typecheck_statement_requires_scalar : Error< "statement requires expression of scalar type (%0 invalid)">; def err_typecheck_statement_requires_integer : Error< "statement requires expression of integer type (%0 invalid)">; def err_multiple_default_labels_defined : Error< "multiple default labels in one switch">; def err_switch_multiple_conversions : Error< "multiple conversions from switch condition type %0 to an integral or " "enumeration type">; def note_switch_conversion : Note< "conversion to %select{integral|enumeration}0 type %1">; def err_switch_explicit_conversion : Error< "switch condition type %0 requires explicit conversion to %1">; def err_switch_incomplete_class_type : Error< "switch condition has incomplete class type %0">; def warn_empty_if_body : Warning< "if statement has empty body">, InGroup; def warn_empty_for_body : Warning< "for loop has empty body">, InGroup; def warn_empty_range_based_for_body : Warning< "range-based for loop has empty body">, InGroup; def warn_empty_while_body : Warning< "while loop has empty body">, InGroup; def warn_empty_switch_body : Warning< "switch statement has empty body">, InGroup; def note_empty_body_on_separate_line : Note< "put the semicolon on a separate line to silence this warning">; def err_va_start_captured_stmt : Error< "'va_start' cannot be used in a captured statement">; def err_va_start_outside_function : Error< "'va_start' cannot be used outside a function">; def err_va_start_fixed_function : Error< "'va_start' used in function with fixed args">; def err_va_start_used_in_wrong_abi_function : Error< "'va_start' used in %select{System V|Win64}0 ABI function">; def err_ms_va_start_used_in_sysv_function : Error< "'__builtin_ms_va_start' used in System V ABI function">; def warn_second_arg_of_va_start_not_last_named_param : Warning< "second argument to 'va_start' is not the last named parameter">, InGroup; def warn_va_start_type_is_undefined : Warning< "passing %select{an object that undergoes default argument promotion|" "an object of reference type|a parameter declared with the 'register' " "keyword}0 to 'va_start' has undefined behavior">, InGroup; def err_first_argument_to_va_arg_not_of_type_va_list : Error< "first argument to 'va_arg' is of type %0 and not 'va_list'">; def err_second_parameter_to_va_arg_incomplete: Error< "second argument to 'va_arg' is of incomplete type %0">; def err_second_parameter_to_va_arg_abstract: Error< "second argument to 'va_arg' is of abstract type %0">; def warn_second_parameter_to_va_arg_not_pod : Warning< "second argument to 'va_arg' is of non-POD type %0">, InGroup, DefaultError; def warn_second_parameter_to_va_arg_ownership_qualified : Warning< "second argument to 'va_arg' is of ARC ownership-qualified type %0">, InGroup, DefaultError; def warn_second_parameter_to_va_arg_never_compatible : Warning< "second argument to 'va_arg' is of promotable type %0; this va_arg has " "undefined behavior because arguments will be promoted to %1">, InGroup; def warn_return_missing_expr : Warning< "non-void %select{function|method}1 %0 should return a value">, DefaultError, InGroup; def ext_return_missing_expr : ExtWarn< "non-void %select{function|method}1 %0 should return a value">, DefaultError, InGroup; def ext_return_has_expr : ExtWarn< "%select{void function|void method|constructor|destructor}1 %0 " "should not return a value">, DefaultError, InGroup; def ext_return_has_void_expr : Extension< "void %select{function|method|block}1 %0 should not return void expression">; def err_return_init_list : Error< "%select{void function|void method|constructor|destructor}1 %0 " "must not return a value">; def err_ctor_dtor_returns_void : Error< "%select{constructor|destructor}1 %0 must not return void expression">; def warn_noreturn_function_has_return_expr : Warning< "function %0 declared 'noreturn' should not return">, InGroup; def warn_falloff_noreturn_function : Warning< "function declared 'noreturn' should not return">, InGroup; def err_noreturn_block_has_return_expr : Error< "block declared 'noreturn' should not return">; def err_noreturn_missing_on_first_decl : Error< "function declared '[[noreturn]]' after its first declaration">; def note_noreturn_missing_first_decl : Note< "declaration missing '[[noreturn]]' attribute is here">; def err_carries_dependency_missing_on_first_decl : Error< "%select{function|parameter}0 declared '[[carries_dependency]]' " "after its first declaration">; def note_carries_dependency_missing_first_decl : Note< "declaration missing '[[carries_dependency]]' attribute is here">; def err_carries_dependency_param_not_function_decl : Error< "'[[carries_dependency]]' attribute only allowed on parameter in a function " "declaration or lambda">; def err_block_on_nonlocal : Error< "__block attribute not allowed, only allowed on local variables">; def err_block_on_vm : Error< "__block attribute not allowed on declaration with a variably modified type">; def err_vec_builtin_non_vector : Error< "first two arguments to %0 must be vectors">; def err_vec_builtin_incompatible_vector : Error< "first two arguments to %0 must have the same type">; def err_vsx_builtin_nonconstant_argument : Error< "argument %0 to %1 must be a 2-bit unsigned literal (i.e. 0, 1, 2 or 3)">; def err_shufflevector_nonconstant_argument : Error< "index for __builtin_shufflevector must be a constant integer">; def err_shufflevector_argument_too_large : Error< "index for __builtin_shufflevector must be less than the total number " "of vector elements">; def err_convertvector_non_vector : Error< "first argument to __builtin_convertvector must be a vector">; def err_convertvector_non_vector_type : Error< "second argument to __builtin_convertvector must be a vector type">; def err_convertvector_incompatible_vector : Error< "first two arguments to __builtin_convertvector must have the same number of elements">; def err_first_argument_to_cwsc_not_call : Error< "first argument to __builtin_call_with_static_chain must be a non-member call expression">; def err_first_argument_to_cwsc_block_call : Error< "first argument to __builtin_call_with_static_chain must not be a block call">; def err_first_argument_to_cwsc_builtin_call : Error< "first argument to __builtin_call_with_static_chain must not be a builtin call">; def err_first_argument_to_cwsc_pdtor_call : Error< "first argument to __builtin_call_with_static_chain must not be a pseudo-destructor call">; def err_second_argument_to_cwsc_not_pointer : Error< "second argument to __builtin_call_with_static_chain must be of pointer type">; def err_vector_incorrect_num_initializers : Error< "%select{too many|too few}0 elements in vector initialization (expected %1 elements, have %2)">; def err_altivec_empty_initializer : Error<"expected initializer">; def err_invalid_neon_type_code : Error< "incompatible constant for this __builtin_neon function">; def err_argument_invalid_range : Error< "argument should be a value from %0 to %1">; def err_argument_not_multiple : Error< "argument should be a multiple of %0">; def warn_neon_vector_initializer_non_portable : Warning< "vector initializers are not compatible with NEON intrinsics in big endian " "mode">, InGroup>; def note_neon_vector_initializer_non_portable : Note< "consider using vld1_%0%1() to initialize a vector from memory, or " "vcreate_%0%1() to initialize from an integer constant">; def note_neon_vector_initializer_non_portable_q : Note< "consider using vld1q_%0%1() to initialize a vector from memory, or " "vcombine_%0%1(vcreate_%0%1(), vcreate_%0%1()) to initialize from integer " "constants">; def err_systemz_invalid_tabort_code : Error< "invalid transaction abort code">; def err_64_bit_builtin_32_bit_tgt : Error< "this builtin is only available on 64-bit targets">; def err_builtin_x64_aarch64_only : Error< "this builtin is only available on x86-64 and aarch64 targets">; def err_ppc_builtin_only_on_pwr7 : Error< "this builtin is only valid on POWER7 or later CPUs">; def err_x86_builtin_invalid_rounding : Error< "invalid rounding argument">; def err_x86_builtin_invalid_scale : Error< "scale argument must be 1, 2, 4, or 8">; def err_builtin_longjmp_unsupported : Error< "__builtin_longjmp is not supported for the current target">; def err_builtin_setjmp_unsupported : Error< "__builtin_setjmp is not supported for the current target">; def err_builtin_longjmp_invalid_val : Error< "argument to __builtin_longjmp must be a constant 1">; def err_builtin_requires_language : Error<"'%0' is only available in %1">; def err_constant_integer_arg_type : Error< "argument to %0 must be a constant integer">; def ext_mixed_decls_code : Extension< "ISO C90 forbids mixing declarations and code">, InGroup>; def err_non_local_variable_decl_in_for : Error< "declaration of non-local variable in 'for' loop">; def err_non_variable_decl_in_for : Error< "non-variable declaration in 'for' loop">; def err_toomany_element_decls : Error< "only one element declaration is allowed">; def err_selector_element_not_lvalue : Error< "selector element is not a valid lvalue">; def err_selector_element_type : Error< "selector element type %0 is not a valid object">; def err_selector_element_const_type : Error< "selector element of type %0 cannot be a constant l-value expression">; def err_collection_expr_type : Error< "the type %0 is not a pointer to a fast-enumerable object">; def warn_collection_expr_type : Warning< "collection expression type %0 may not respond to %1">; def err_invalid_conversion_between_ext_vectors : Error< "invalid conversion between ext-vector type %0 and %1">; def warn_duplicate_attribute_exact : Warning< "attribute %0 is already applied">, InGroup; def warn_duplicate_attribute : Warning< "attribute %0 is already applied with different parameters">, InGroup; def warn_sync_fetch_and_nand_semantics_change : Warning< "the semantics of this intrinsic changed with GCC " "version 4.4 - the newer semantics are provided here">, InGroup>; // Type def ext_invalid_sign_spec : Extension<"'%0' cannot be signed or unsigned">; def warn_receiver_forward_class : Warning< "receiver %0 is a forward class and corresponding @interface may not exist">, InGroup; def note_method_sent_forward_class : Note<"method %0 is used for the forward class">; def ext_missing_declspec : ExtWarn< "declaration specifier missing, defaulting to 'int'">; def ext_missing_type_specifier : ExtWarn< "type specifier missing, defaults to 'int'">, InGroup; def err_decimal_unsupported : Error< "GNU decimal type extension not supported">; def err_missing_type_specifier : Error< "C++ requires a type specifier for all declarations">; def err_objc_array_of_interfaces : Error< "array of interface %0 is invalid (probably should be an array of pointers)">; def ext_c99_array_usage : Extension< "%select{qualifier in |static |}0array size %select{||'[*] '}0is a C99 " "feature">, InGroup; def err_c99_array_usage_cxx : Error< "%select{qualifier in |static |}0array size %select{||'[*] '}0is a C99 " "feature, not permitted in C++">; def err_type_unsupported : Error< "%0 is not supported on this target">; def warn_nsconsumed_attribute_mismatch : Warning< "overriding method has mismatched ns_consumed attribute on its" " parameter">, InGroup; def warn_nsreturns_retained_attribute_mismatch : Warning< "overriding method has mismatched ns_returns_%select{not_retained|retained}0" " attributes">, InGroup; def note_getter_unavailable : Note< "or because setter is declared here, but no getter method %0 is found">; def err_invalid_protocol_qualifiers : Error< "invalid protocol qualifiers on non-ObjC type">; def warn_ivar_use_hidden : Warning< "local declaration of %0 hides instance variable">, InGroup; def warn_direct_initialize_call : Warning< "explicit call to +initialize results in duplicate call to +initialize">, InGroup; def warn_direct_super_initialize_call : Warning< "explicit call to [super initialize] should only be in implementation " "of +initialize">, InGroup; def err_ivar_use_in_class_method : Error< "instance variable %0 accessed in class method">; def err_private_ivar_access : Error<"instance variable %0 is private">, AccessControl; def err_protected_ivar_access : Error<"instance variable %0 is protected">, AccessControl; def warn_maynot_respond : Warning<"%0 may not respond to %1">; def ext_typecheck_base_super : Warning< "method parameter type " "%diff{$ does not match super class method parameter type $|" "does not match super class method parameter type}0,1">, InGroup, DefaultIgnore; def warn_missing_method_return_type : Warning< "method has no return type specified; defaults to 'id'">, InGroup, DefaultIgnore; def warn_direct_ivar_access : Warning<"instance variable %0 is being " "directly accessed">, InGroup>, DefaultIgnore; // Spell-checking diagnostics def err_unknown_typename : Error< "unknown type name %0">; def err_unknown_type_or_class_name_suggest : Error< "unknown %select{type|class}1 name %0; did you mean %2?">; def err_unknown_typename_suggest : Error< "unknown type name %0; did you mean %1?">; def err_unknown_nested_typename_suggest : Error< "no type named %0 in %1; did you mean %select{|simply }2%3?">; def err_no_member_suggest : Error<"no member named %0 in %1; did you mean %select{|simply }2%3?">; def err_undeclared_use_suggest : Error< "use of undeclared %0; did you mean %1?">; def err_undeclared_var_use_suggest : Error< "use of undeclared identifier %0; did you mean %1?">; def err_no_template : Error<"no template named %0">; def err_no_template_suggest : Error<"no template named %0; did you mean %1?">; def err_no_member_template : Error<"no template named %0 in %1">; def err_no_member_template_suggest : Error< "no template named %0 in %1; did you mean %select{|simply }2%3?">; def err_non_template_in_template_id : Error< "%0 does not name a template but is followed by template arguments">; def err_non_template_in_template_id_suggest : Error< "%0 does not name a template but is followed by template arguments; " "did you mean %1?">; def err_non_template_in_member_template_id_suggest : Error< "member %0 of %1 is not a template; did you mean %select{|simply }2%3?">; def note_non_template_in_template_id_found : Note< "non-template declaration found by name lookup">; def err_mem_init_not_member_or_class_suggest : Error< "initializer %0 does not name a non-static data member or base " "class; did you mean the %select{base class|member}1 %2?">; def err_field_designator_unknown_suggest : Error< "field designator %0 does not refer to any field in type %1; did you mean " "%2?">; def err_typecheck_member_reference_ivar_suggest : Error< "%0 does not have a member named %1; did you mean %2?">; def err_property_not_found_suggest : Error< "property %0 not found on object of type %1; did you mean %2?">; def err_class_property_found : Error< "property %0 is a class property; did you mean to access it with class '%1'?">; def err_ivar_access_using_property_syntax_suggest : Error< "property %0 not found on object of type %1; did you mean to access instance variable %2?">; def warn_property_access_suggest : Warning< "property %0 not found on object of type %1; did you mean to access property %2?">, InGroup; def err_property_found_suggest : Error< "property %0 found on object of type %1; did you mean to access " "it with the \".\" operator?">; def err_undef_interface_suggest : Error< "cannot find interface declaration for %0; did you mean %1?">; def warn_undef_interface_suggest : Warning< "cannot find interface declaration for %0; did you mean %1?">; def err_undef_superclass_suggest : Error< "cannot find interface declaration for %0, superclass of %1; did you mean " "%2?">; def err_undeclared_protocol_suggest : Error< "cannot find protocol declaration for %0; did you mean %1?">; def note_base_class_specified_here : Note< "base class %0 specified here">; def err_using_directive_suggest : Error< "no namespace named %0; did you mean %1?">; def err_using_directive_member_suggest : Error< "no namespace named %0 in %1; did you mean %select{|simply }2%3?">; def note_namespace_defined_here : Note<"namespace %0 defined here">; def err_sizeof_pack_no_pack_name_suggest : Error< "%0 does not refer to the name of a parameter pack; did you mean %1?">; def note_parameter_pack_here : Note<"parameter pack %0 declared here">; def err_uncasted_use_of_unknown_any : Error< "%0 has unknown type; cast it to its declared type to use it">; def err_uncasted_call_of_unknown_any : Error< "%0 has unknown return type; cast the call to its declared return type">; def err_uncasted_send_to_unknown_any_method : Error< "no known method %select{%objcinstance1|%objcclass1}0; cast the " "message send to the method's return type">; def err_unsupported_unknown_any_decl : Error< "%0 has unknown type, which is not supported for this kind of declaration">; def err_unsupported_unknown_any_expr : Error< "unsupported expression with unknown type">; def err_unsupported_unknown_any_call : Error< "call to unsupported expression with unknown type">; def err_unknown_any_addrof : Error< "the address of a declaration with unknown type " "can only be cast to a pointer type">; def err_unknown_any_addrof_call : Error< "address-of operator cannot be applied to a call to a function with " "unknown return type">; def err_unknown_any_var_function_type : Error< "variable %0 with unknown type cannot be given a function type">; def err_unknown_any_function : Error< "function %0 with unknown type must be given a function type">; def err_filter_expression_integral : Error< "filter expression type should be an integral value not %0">; def err_non_asm_stmt_in_naked_function : Error< "non-ASM statement in naked function is not supported">; def err_asm_naked_this_ref : Error< "'this' pointer references not allowed in naked functions">; def err_asm_naked_parm_ref : Error< "parameter references not allowed in naked functions">; // OpenCL warnings and errors. def err_invalid_astype_of_different_size : Error< "invalid reinterpretation: sizes of %0 and %1 must match">; def err_static_kernel : Error< "kernel functions cannot be declared static">; def err_opencl_ptrptr_kernel_param : Error< "kernel parameter cannot be declared as a pointer to a pointer">; def err_kernel_arg_address_space : Error< "pointer arguments to kernel functions must reside in '__global', " "'__constant' or '__local' address space">; def err_opencl_ext_vector_component_invalid_length : Error< "vector component access has invalid length %0. Supported: 1,2,3,4,8,16.">; def err_opencl_function_variable : Error< "%select{non-kernel function|function scope}0 variable cannot be declared in %1 address space">; def err_opencl_addrspace_scope : Error< "variables in the %0 address space can only be declared in the outermost " "scope of a kernel function">; def err_static_function_scope : Error< "variables in function scope cannot be declared static">; def err_opencl_bitfields : Error< "bit-fields are not supported in OpenCL">; def err_opencl_vla : Error< "variable length arrays are not supported in OpenCL">; def err_opencl_scalar_type_rank_greater_than_vector_type : Error< "scalar operand type has greater rank than the type of the vector " "element. (%0 and %1)">; def err_bad_kernel_param_type : Error< "%0 cannot be used as the type of a kernel parameter">; def err_record_with_pointers_kernel_param : Error< "%select{struct|union}0 kernel parameters may not contain pointers">; def note_within_field_of_type : Note< "within field of type %0 declared here">; def note_illegal_field_declared_here : Note< "field of illegal %select{type|pointer type}0 %1 declared here">; def err_opencl_type_struct_or_union_field : Error< "the %0 type cannot be used to declare a structure or union field">; def err_event_t_addr_space_qual : Error< "the event_t type can only be used with __private address space qualifier">; def err_expected_kernel_void_return_type : Error< "kernel must have void return type">; def err_sampler_initializer_not_integer : Error< "sampler_t initialization requires 32-bit integer, not %0">; def warn_sampler_initializer_invalid_bits : Warning< "sampler initializer has invalid %0 bits">, InGroup, DefaultIgnore; def err_sampler_argument_required : Error< "sampler_t variable required - got %0">; def err_wrong_sampler_addressspace: Error< "sampler type cannot be used with the __local and __global address space qualifiers">; def err_opencl_nonconst_global_sampler : Error< "global sampler requires a const or constant address space qualifier">; def err_opencl_cast_non_zero_to_event_t : Error< "cannot cast non-zero value '%0' to 'event_t'">; def err_opencl_global_invalid_addr_space : Error< "%select{program scope|static local|extern}0 variable must reside in %1 address space">; def err_missing_actual_pipe_type : Error< "missing actual type specifier for pipe">; def err_reference_pipe_type : Error < "pipes packet types cannot be of reference type">; def err_opencl_no_main : Error<"%select{function|kernel}0 cannot be called 'main'">; def err_opencl_kernel_attr : Error<"attribute %0 can only be applied to a kernel function">; def err_opencl_return_value_with_address_space : Error< "return value cannot be qualified with address space">; def err_opencl_constant_no_init : Error< "variable in constant address space must be initialized">; def err_opencl_atomic_init: Error< "atomic variable can be %select{assigned|initialized}0 to a variable only " "in global address space">; def err_opencl_implicit_vector_conversion : Error< "implicit conversions between vector types (%0 and %1) are not permitted">; def err_opencl_invalid_type_array : Error< "array of %0 type is invalid in OpenCL">; def err_opencl_ternary_with_block : Error< "block type cannot be used as expression in ternary expression in OpenCL">; def err_opencl_pointer_to_type : Error< "pointer to type %0 is invalid in OpenCL">; def err_opencl_type_can_only_be_used_as_function_parameter : Error < "type %0 can only be used as a function parameter in OpenCL">; def warn_opencl_attr_deprecated_ignored : Warning < "%0 attribute is deprecated and ignored in OpenCL version %1">, InGroup; def err_opencl_variadic_function : Error< "invalid prototype, variadic arguments are not allowed in OpenCL">; def err_opencl_requires_extension : Error< "use of %select{type|declaration}0 %1 requires %2 extension to be enabled">; // OpenCL v2.0 s6.13.6 -- Builtin Pipe Functions def err_opencl_builtin_pipe_first_arg : Error< "first argument to %0 must be a pipe type">; def err_opencl_builtin_pipe_arg_num : Error< "invalid number of arguments to function: %0">; def err_opencl_builtin_pipe_invalid_arg : Error< "invalid argument type to function %0 (expecting %1 having %2)">; def err_opencl_builtin_pipe_invalid_access_modifier : Error< "invalid pipe access modifier (expecting %0)">; // OpenCL access qualifier def err_opencl_invalid_access_qualifier : Error< "access qualifier can only be used for pipe and image type">; def err_opencl_invalid_read_write : Error< "access qualifier %0 can not be used for %1 %select{|prior to OpenCL version 2.0}2">; def err_opencl_multiple_access_qualifiers : Error< "multiple access qualifiers">; def note_opencl_typedef_access_qualifier : Note< "previously declared '%0' here">; // OpenCL Section 6.8.g def err_opencl_unknown_type_specifier : Error< "OpenCL version %0 does not support the '%1' %select{type qualifier|storage class specifier}2">; // OpenCL v2.0 s6.12.5 Blocks restrictions def err_opencl_block_storage_type : Error< "the __block storage type is not permitted">; def err_opencl_invalid_block_declaration : Error< "invalid block variable declaration - must be %select{const qualified|initialized}0">; def err_opencl_extern_block_declaration : Error< "invalid block variable declaration - using 'extern' storage class is disallowed">; def err_opencl_block_ref_block : Error< "cannot refer to a block inside block">; // OpenCL v2.0 s6.13.9 - Address space qualifier functions. def err_opencl_builtin_to_addr_arg_num : Error< "invalid number of arguments to function: %0">; def err_opencl_builtin_to_addr_invalid_arg : Error< "invalid argument %0 to function: %1, expecting a generic pointer argument">; // OpenCL v2.0 s6.13.17 Enqueue kernel restrictions. def err_opencl_enqueue_kernel_incorrect_args : Error< "illegal call to enqueue_kernel, incorrect argument types">; def err_opencl_enqueue_kernel_local_size_args : Error< "mismatch in number of block parameters and local size arguments passed">; def err_opencl_enqueue_kernel_invalid_local_size_type : Error< "illegal call to enqueue_kernel, parameter needs to be specified as integer type">; def err_opencl_enqueue_kernel_blocks_non_local_void_args : Error< "blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'">; def err_opencl_enqueue_kernel_blocks_no_args : Error< "blocks with parameters are not accepted in this prototype of enqueue_kernel call">; def err_opencl_builtin_expected_type : Error< "illegal call to %0, expected %1 argument type">; // OpenCL v2.2 s2.1.2.3 - Vector Component Access def ext_opencl_ext_vector_type_rgba_selector: ExtWarn< "vector component name '%0' is an OpenCL version 2.2 feature">, InGroup; } // end of sema category let CategoryName = "OpenMP Issue" in { // OpenMP support. def err_omp_expected_var_arg : Error< "%0 is not a global variable, static local variable or static data member">; def err_omp_expected_var_arg_suggest : Error< "%0 is not a global variable, static local variable or static data member; " "did you mean %1">; def err_omp_global_var_arg : Error< "arguments of '#pragma omp %0' must have %select{global storage|static storage duration}1">; def err_omp_ref_type_arg : Error< "arguments of '#pragma omp %0' cannot be of reference type %1">; def err_omp_region_not_file_context : Error< "directive must be at file or namespace scope">; def err_omp_var_scope : Error< "'#pragma omp %0' must appear in the scope of the %q1 variable declaration">; def err_omp_var_used : Error< "'#pragma omp %0' must precede all references to variable %q1">; def err_omp_var_thread_local : Error< "variable %0 cannot be threadprivate because it is %select{thread-local|a global named register variable}1">; def err_omp_private_incomplete_type : Error< "a private variable with incomplete type %0">; def err_omp_firstprivate_incomplete_type : Error< "a firstprivate variable with incomplete type %0">; def err_omp_lastprivate_incomplete_type : Error< "a lastprivate variable with incomplete type %0">; def err_omp_reduction_incomplete_type : Error< "a reduction list item with incomplete type %0">; def err_omp_unexpected_clause_value : Error< "expected %0 in OpenMP clause '%1'">; def err_omp_expected_var_name_member_expr : Error< "expected variable name%select{| or data member of current class}0">; def err_omp_expected_var_name_member_expr_or_array_item : Error< "expected variable name%select{|, data member of current class}0, array element or array section">; def err_omp_expected_addressable_lvalue_or_array_item : Error< "expected addressable lvalue expression, array element or array section">; def err_omp_expected_named_var_member_or_array_expression: Error< "expected expression containing only member accesses and/or array sections based on named variables">; def err_omp_bit_fields_forbidden_in_clause : Error< "bit fields cannot be used to specify storage in a '%0' clause">; def err_array_section_does_not_specify_contiguous_storage : Error< "array section does not specify contiguous storage">; def err_omp_union_type_not_allowed : Error< "mapping of union members is not allowed">; def err_omp_expected_access_to_data_field : Error< "expected access to data field">; def err_omp_multiple_array_items_in_map_clause : Error< "multiple array elements associated with the same variable are not allowed in map clauses of the same construct">; def err_omp_pointer_mapped_along_with_derived_section : Error< "pointer cannot be mapped along with a section derived from itself">; def err_omp_original_storage_is_shared_and_does_not_contain : Error< "original storage of expression in data environment is shared but data environment do not fully contain mapped expression storage">; def err_omp_same_pointer_derreferenced : Error< "same pointer derreferenced in multiple different ways in map clause expressions">; def note_omp_task_predetermined_firstprivate_here : Note< "predetermined as a firstprivate in a task construct here">; def err_omp_threadprivate_incomplete_type : Error< "threadprivate variable with incomplete type %0">; def err_omp_no_dsa_for_variable : Error< "variable %0 must have explicitly specified data sharing attributes">; def err_omp_wrong_dsa : Error< "%0 variable cannot be %1">; def err_omp_variably_modified_type_not_supported : Error< "arguments of OpenMP clause '%0' in '#pragma omp %2' directive cannot be of variably-modified type %1">; def note_omp_explicit_dsa : Note< "defined as %0">; def note_omp_predetermined_dsa : Note< "%select{static data member is predetermined as shared|" "variable with static storage duration is predetermined as shared|" "loop iteration variable is predetermined as private|" "loop iteration variable is predetermined as linear|" "loop iteration variable is predetermined as lastprivate|" "constant variable is predetermined as shared|" "global variable is predetermined as shared|" "non-shared variable in a task construct is predetermined as firstprivate|" "variable with automatic storage duration is predetermined as private}0" "%select{|; perhaps you forget to enclose 'omp %2' directive into a parallel or another task region?}1">; def note_omp_implicit_dsa : Note< "implicitly determined as %0">; def err_omp_loop_var_dsa : Error< "loop iteration variable in the associated loop of 'omp %1' directive may not be %0, predetermined as %2">; def err_omp_not_for : Error< "%select{statement after '#pragma omp %1' must be a for loop|" "expected %2 for loops after '#pragma omp %1'%select{|, but found only %4}3}0">; def note_omp_collapse_ordered_expr : Note< "as specified in %select{'collapse'|'ordered'|'collapse' and 'ordered'}0 clause%select{||s}0">; def err_omp_negative_expression_in_clause : Error< "argument to '%0' clause must be a %select{non-negative|strictly positive}1 integer value">; def err_omp_not_integral : Error< "expression must have integral or unscoped enumeration " "type, not %0">; def err_omp_threadprivate_in_target : Error< "threadprivate variables cannot be used in target constructs">; def err_omp_incomplete_type : Error< "expression has incomplete class type %0">; def err_omp_explicit_conversion : Error< "expression requires explicit conversion from %0 to %1">; def note_omp_conversion_here : Note< "conversion to %select{integral|enumeration}0 type %1 declared here">; def err_omp_ambiguous_conversion : Error< "ambiguous conversion from type %0 to an integral or unscoped " "enumeration type">; def err_omp_required_access : Error< "%0 variable must be %1">; def err_omp_const_variable : Error< "const-qualified variable cannot be %0">; def err_omp_const_reduction_list_item : Error< "const-qualified list item cannot be reduction">; def err_omp_linear_incomplete_type : Error< "a linear variable with incomplete type %0">; def err_omp_linear_expected_int_or_ptr : Error< "argument of a linear clause should be of integral or pointer " "type, not %0">; def warn_omp_linear_step_zero : Warning< "zero linear step (%0 %select{|and other variables in clause }1should probably be const)">, InGroup; def warn_omp_alignment_not_power_of_two : Warning< "aligned clause will be ignored because the requested alignment is not a power of 2">, InGroup; def err_omp_enclosed_declare_target : Error< "declare target region may not be enclosed within another declare target region">; def err_omp_invalid_target_decl : Error< "%0 used in declare target directive is not a variable or a function name">; def err_omp_declare_target_multiple : Error< "%0 appears multiple times in clauses on the same declare target directive">; def err_omp_declare_target_to_and_link : Error< "%0 must not appear in both clauses 'to' and 'link'">; def warn_omp_not_in_target_context : Warning< "declaration is not declared in any declare target region">, InGroup; def err_omp_function_in_link_clause : Error< "function name is not allowed in 'link' clause">; def err_omp_aligned_expected_array_or_ptr : Error< "argument of aligned clause should be array" "%select{ or pointer|, pointer, reference to array or reference to pointer}1" ", not %0">; def err_omp_aligned_twice : Error< "%select{a variable|a parameter|'this'}0 cannot appear in more than one aligned clause">; def err_omp_local_var_in_threadprivate_init : Error< "variable with local storage in initial value of threadprivate variable">; def err_omp_loop_not_canonical_init : Error< "initialization clause of OpenMP for loop is not in canonical form " "('var = init' or 'T var = init')">; def ext_omp_loop_not_canonical_init : ExtWarn< "initialization clause of OpenMP for loop is not in canonical form " "('var = init' or 'T var = init')">, InGroup; def err_omp_loop_not_canonical_cond : Error< "condition of OpenMP for loop must be a relational comparison " "('<', '<=', '>', or '>=') of loop variable %0">; def err_omp_loop_not_canonical_incr : Error< "increment clause of OpenMP for loop must perform simple addition " "or subtraction on loop variable %0">; def err_omp_loop_variable_type : Error< "variable must be of integer or %select{pointer|random access iterator}0 type">; def err_omp_loop_incr_not_compatible : Error< "increment expression must cause %0 to %select{decrease|increase}1 " "on each iteration of OpenMP for loop">; def note_omp_loop_cond_requres_compatible_incr : Note< "loop step is expected to be %select{negative|positive}0 due to this condition">; def err_omp_loop_diff_cxx : Error< "could not calculate number of iterations calling 'operator-' with " "upper and lower loop bounds">; def err_omp_loop_cannot_use_stmt : Error< "'%0' statement cannot be used in OpenMP for loop">; def err_omp_simd_region_cannot_use_stmt : Error< "'%0' statement cannot be used in OpenMP simd region">; def warn_omp_loop_64_bit_var : Warning< "OpenMP loop iteration variable cannot have more than 64 bits size and will be narrowed">, InGroup; def err_omp_unknown_reduction_identifier : Error< "incorrect reduction identifier, expected one of '+', '-', '*', '&', '|', '^', " "'&&', '||', 'min' or 'max' or declare reduction for type %0">; def err_omp_not_resolved_reduction_identifier : Error< "unable to resolve declare reduction construct for type %0">; def err_omp_reduction_ref_type_arg : Error< "argument of OpenMP clause '%0' must reference the same object in all threads">; def err_omp_clause_not_arithmetic_type_arg : Error< "arguments of OpenMP clause '%0' for 'min' or 'max' must be of %select{scalar|arithmetic}1 type">; def err_omp_clause_floating_type_arg : Error< "arguments of OpenMP clause '%0' with bitwise operators cannot be of floating type">; def err_omp_once_referenced : Error< "variable can appear only once in OpenMP '%0' clause">; def err_omp_once_referenced_in_target_update : Error< "variable can appear only once in OpenMP 'target update' construct">; def note_omp_referenced : Note< "previously referenced here">; def err_omp_reduction_in_task : Error< "reduction variables may not be accessed in an explicit task">; def err_omp_reduction_id_not_compatible : Error< "list item of type %0 is not valid for specified reduction operation: unable to provide default initialization value">; def err_omp_in_reduction_not_task_reduction : Error< "in_reduction variable must appear in a task_reduction clause">; def err_omp_reduction_identifier_mismatch : Error< "in_reduction variable must have the same reduction operation as in a task_reduction clause">; def note_omp_previous_reduction_identifier : Note< "previously marked as task_reduction with different reduction operation">; def err_omp_prohibited_region : Error< "region cannot be%select{| closely}0 nested inside '%1' region" "%select{|; perhaps you forget to enclose 'omp %3' directive into a parallel region?|" "; perhaps you forget to enclose 'omp %3' directive into a for or a parallel for region with 'ordered' clause?|" "; perhaps you forget to enclose 'omp %3' directive into a target region?|" "; perhaps you forget to enclose 'omp %3' directive into a teams region?}2">; def err_omp_prohibited_region_simd : Error< "OpenMP constructs may not be nested inside a simd region">; def err_omp_prohibited_region_atomic : Error< "OpenMP constructs may not be nested inside an atomic region">; def err_omp_prohibited_region_critical_same_name : Error< "cannot nest 'critical' regions having the same name %0">; def note_omp_previous_critical_region : Note< "previous 'critical' region starts here">; def err_omp_sections_not_compound_stmt : Error< "the statement for '#pragma omp sections' must be a compound statement">; def err_omp_parallel_sections_not_compound_stmt : Error< "the statement for '#pragma omp parallel sections' must be a compound statement">; def err_omp_orphaned_section_directive : Error< "%select{orphaned 'omp section' directives are prohibited, it|'omp section' directive}0" " must be closely nested to a sections region%select{|, not a %1 region}0">; def err_omp_sections_substmt_not_section : Error< "statement in 'omp sections' directive must be enclosed into a section region">; def err_omp_parallel_sections_substmt_not_section : Error< "statement in 'omp parallel sections' directive must be enclosed into a section region">; def err_omp_parallel_reduction_in_task_firstprivate : Error< "argument of a reduction clause of a %0 construct must not appear in a firstprivate clause on a task construct">; def err_omp_atomic_read_not_expression_statement : Error< "the statement for 'atomic read' must be an expression statement of form 'v = x;'," " where v and x are both lvalue expressions with scalar type">; def note_omp_atomic_read_write: Note< "%select{expected an expression statement|expected built-in assignment operator|expected expression of scalar type|expected lvalue expression}0">; def err_omp_atomic_write_not_expression_statement : Error< "the statement for 'atomic write' must be an expression statement of form 'x = expr;'," " where x is a lvalue expression with scalar type">; def err_omp_atomic_update_not_expression_statement : Error< "the statement for 'atomic update' must be an expression statement of form '++x;', '--x;', 'x++;', 'x--;', 'x binop= expr;', 'x = x binop expr' or 'x = expr binop x'," " where x is an l-value expression with scalar type">; def err_omp_atomic_not_expression_statement : Error< "the statement for 'atomic' must be an expression statement of form '++x;', '--x;', 'x++;', 'x--;', 'x binop= expr;', 'x = x binop expr' or 'x = expr binop x'," " where x is an l-value expression with scalar type">; def note_omp_atomic_update: Note< "%select{expected an expression statement|expected built-in binary or unary operator|expected unary decrement/increment operation|" "expected expression of scalar type|expected assignment expression|expected built-in binary operator|" "expected one of '+', '*', '-', '/', '&', '^', '%|', '<<', or '>>' built-in operations|expected in right hand side of expression}0">; def err_omp_atomic_capture_not_expression_statement : Error< "the statement for 'atomic capture' must be an expression statement of form 'v = ++x;', 'v = --x;', 'v = x++;', 'v = x--;', 'v = x binop= expr;', 'v = x = x binop expr' or 'v = x = expr binop x'," " where x and v are both l-value expressions with scalar type">; def err_omp_atomic_capture_not_compound_statement : Error< "the statement for 'atomic capture' must be a compound statement of form '{v = x; x binop= expr;}', '{x binop= expr; v = x;}'," " '{v = x; x = x binop expr;}', '{v = x; x = expr binop x;}', '{x = x binop expr; v = x;}', '{x = expr binop x; v = x;}' or '{v = x; x = expr;}'," " '{v = x; x++;}', '{v = x; ++x;}', '{++x; v = x;}', '{x++; v = x;}', '{v = x; x--;}', '{v = x; --x;}', '{--x; v = x;}', '{x--; v = x;}'" " where x is an l-value expression with scalar type">; def note_omp_atomic_capture: Note< "%select{expected assignment expression|expected compound statement|expected exactly two expression statements|expected in right hand side of the first expression}0">; def err_omp_atomic_several_clauses : Error< "directive '#pragma omp atomic' cannot contain more than one 'read', 'write', 'update' or 'capture' clause">; def note_omp_atomic_previous_clause : Note< "'%0' clause used here">; def err_omp_target_contains_not_only_teams : Error< "target construct with nested teams region contains statements outside of the teams construct">; def note_omp_nested_teams_construct_here : Note< "nested teams construct here">; def note_omp_nested_statement_here : Note< "%select{statement|directive}0 outside teams construct here">; def err_omp_single_copyprivate_with_nowait : Error< "the 'copyprivate' clause must not be used with the 'nowait' clause">; def note_omp_nowait_clause_here : Note< "'nowait' clause is here">; def err_omp_single_decl_in_declare_simd : Error< "single declaration is expected after 'declare simd' directive">; def err_omp_function_expected : Error< "'#pragma omp declare simd' can only be applied to functions">; def err_omp_wrong_cancel_region : Error< "one of 'for', 'parallel', 'sections' or 'taskgroup' is expected">; def err_omp_parent_cancel_region_nowait : Error< "parent region for 'omp %select{cancellation point|cancel}0' construct cannot be nowait">; def err_omp_parent_cancel_region_ordered : Error< "parent region for 'omp %select{cancellation point|cancel}0' construct cannot be ordered">; def err_omp_reduction_wrong_type : Error<"reduction type cannot be %select{qualified with 'const', 'volatile' or 'restrict'|a function|a reference|an array}0 type">; def err_omp_wrong_var_in_declare_reduction : Error<"only %select{'omp_priv' or 'omp_orig'|'omp_in' or 'omp_out'}0 variables are allowed in %select{initializer|combiner}0 expression">; def err_omp_declare_reduction_redefinition : Error<"redefinition of user-defined reduction for type %0">; def err_omp_array_section_use : Error<"OpenMP array section is not allowed here">; def err_omp_typecheck_section_value : Error< "subscripted value is not an array or pointer">; def err_omp_typecheck_section_not_integer : Error< "array section %select{lower bound|length}0 is not an integer">; def err_omp_section_function_type : Error< "section of pointer to function type %0">; def warn_omp_section_is_char : Warning<"array section %select{lower bound|length}0 is of type 'char'">, InGroup, DefaultIgnore; def err_omp_section_incomplete_type : Error< "section of pointer to incomplete type %0">; def err_omp_section_not_subset_of_array : Error< "array section must be a subset of the original array">; def err_omp_section_length_negative : Error< "section length is evaluated to a negative value %0">; def err_omp_section_length_undefined : Error< "section length is unspecified and cannot be inferred because subscripted value is %select{not an array|an array of unknown bound}0">; def err_omp_wrong_linear_modifier : Error< "expected %select{'val' modifier|one of 'ref', val' or 'uval' modifiers}0">; def err_omp_wrong_linear_modifier_non_reference : Error< "variable of non-reference type %0 can be used only with 'val' modifier, but used with '%1'">; def err_omp_wrong_simdlen_safelen_values : Error< "the value of 'simdlen' parameter must be less than or equal to the value of the 'safelen' parameter">; def err_omp_wrong_if_directive_name_modifier : Error< "directive name modifier '%0' is not allowed for '#pragma omp %1'">; def err_omp_no_more_if_clause : Error< "no more 'if' clause is allowed">; def err_omp_unnamed_if_clause : Error< "expected %select{|one of}0 %1 directive name modifier%select{|s}0">; def note_omp_previous_named_if_clause : Note< "previous clause with directive name modifier specified here">; def err_omp_ordered_directive_with_param : Error< "'ordered' directive %select{without any clauses|with 'threads' clause}0 cannot be closely nested inside ordered region with specified parameter">; def err_omp_ordered_directive_without_param : Error< "'ordered' directive with 'depend' clause cannot be closely nested inside ordered region without specified parameter">; def note_omp_ordered_param : Note< "'ordered' clause with specified parameter">; def err_omp_expected_base_var_name : Error< "expected variable name as a base of the array %select{subscript|section}0">; def err_omp_map_shared_storage : Error< "variable already marked as mapped in current construct">; def err_omp_invalid_map_type_for_directive : Error< "%select{map type '%1' is not allowed|map type must be specified}0 for '#pragma omp %2'">; def err_omp_no_clause_for_directive : Error< "expected at least one %0 clause for '#pragma omp %1'">; def err_omp_threadprivate_in_clause : Error< "threadprivate variables are not allowed in '%0' clause">; def err_omp_wrong_ordered_loop_count : Error< "the parameter of the 'ordered' clause must be greater than or equal to the parameter of the 'collapse' clause">; def note_collapse_loop_count : Note< "parameter of the 'collapse' clause">; def err_omp_grainsize_num_tasks_mutually_exclusive : Error< "'%0' and '%1' clause are mutually exclusive and may not appear on the same directive">; def note_omp_previous_grainsize_num_tasks : Note< "'%0' clause is specified here">; def err_omp_hint_clause_no_name : Error< "the name of the construct must be specified in presence of 'hint' clause">; def err_omp_critical_with_hint : Error< "constructs with the same name must have a 'hint' clause with the same value">; def note_omp_critical_hint_here : Note< "%select{|previous }0'hint' clause with value '%1'">; def note_omp_critical_no_hint : Note< "%select{|previous }0directive with no 'hint' clause specified">; def err_omp_depend_clause_thread_simd : Error< "'depend' clauses cannot be mixed with '%0' clause">; def err_omp_depend_sink_expected_loop_iteration : Error< "expected%select{| %1}0 loop iteration variable">; def err_omp_depend_sink_unexpected_expr : Error< "unexpected expression: number of expressions is larger than the number of associated loops">; def err_omp_depend_sink_expected_plus_minus : Error< "expected '+' or '-' operation">; def err_omp_depend_sink_source_not_allowed : Error< "'depend(%select{source|sink:vec}0)' clause%select{|s}0 cannot be mixed with 'depend(%select{sink:vec|source}0)' clause%select{s|}0">; def err_omp_linear_ordered : Error< "'linear' clause cannot be specified along with 'ordered' clause with a parameter">; def err_omp_unexpected_schedule_modifier : Error< "modifier '%0' cannot be used along with modifier '%1'">; def err_omp_schedule_nonmonotonic_static : Error< "'nonmonotonic' modifier can only be specified with 'dynamic' or 'guided' schedule kind">; def err_omp_schedule_nonmonotonic_ordered : Error< "'schedule' clause with 'nonmonotonic' modifier cannot be specified if an 'ordered' clause is specified">; def err_omp_ordered_simd : Error< "'ordered' clause with a parameter can not be specified in '#pragma omp %0' directive">; def err_omp_variable_in_given_clause_and_dsa : Error< "%0 variable cannot be in a %1 clause in '#pragma omp %2' directive">; def err_omp_param_or_this_in_clause : Error< "expected reference to one of the parameters of function %0%select{| or 'this'}1">; def err_omp_expected_uniform_param : Error< "expected a reference to a parameter specified in a 'uniform' clause">; def err_omp_expected_int_param : Error< "expected a reference to an integer-typed parameter">; def err_omp_at_least_one_motion_clause_required : Error< "expected at least one 'to' clause or 'from' clause specified to '#pragma omp target update'">; def err_omp_usedeviceptr_not_a_pointer : Error< "expected pointer or reference to pointer in 'use_device_ptr' clause">; def err_omp_argument_type_isdeviceptr : Error < "expected pointer, array, reference to pointer, or reference to array in 'is_device_ptr clause'">; def warn_omp_nesting_simd : Warning< "OpenMP only allows an ordered construct with the simd clause nested in a simd construct">, InGroup; def err_omp_orphaned_device_directive : Error< "orphaned 'omp %0' directives are prohibited" "; perhaps you forget to enclose the directive into a %select{|||target |teams }1region?">; def err_omp_reduction_non_addressable_expression : Error< "expected addressable reduction item for the task-based directives">; def err_omp_reduction_with_nogroup : Error< "'reduction' clause cannot be used with 'nogroup' clause">; def err_omp_reduction_vla_unsupported : Error< "cannot generate code for reduction on %select{|array section, which requires a }0variable length array">; def err_omp_linear_distribute_var_non_loop_iteration : Error< "only loop iteration variables are allowed in 'linear' clause in distribute directives">; } // end of OpenMP category let CategoryName = "Related Result Type Issue" in { // Objective-C related result type compatibility def warn_related_result_type_compatibility_class : Warning< "method is expected to return an instance of its class type " "%diff{$, but is declared to return $|" ", but is declared to return different type}0,1">; def warn_related_result_type_compatibility_protocol : Warning< "protocol method is expected to return an instance of the implementing " "class, but is declared to return %0">; def note_related_result_type_family : Note< "%select{overridden|current}0 method is part of the '%select{|alloc|copy|init|" "mutableCopy|new|autorelease|dealloc|finalize|release|retain|retainCount|" "self}1' method family%select{| and is expected to return an instance of its " "class type}0">; def note_related_result_type_overridden : Note< "overridden method returns an instance of its class type">; def note_related_result_type_inferred : Note< "%select{class|instance}0 method %1 is assumed to return an instance of " "its receiver type (%2)">; def note_related_result_type_explicit : Note< "%select{overridden|current}0 method is explicitly declared 'instancetype'" "%select{| and is expected to return an instance of its class type}0">; def err_invalid_type_for_program_scope_var : Error< "the %0 type cannot be used to declare a program scope variable">; } let CategoryName = "Modules Issue" in { def err_module_decl_in_module_map_module : Error< "'module' declaration found while building module from module map">; def err_module_interface_implementation_mismatch : Error< "missing 'export' specifier in module declaration while " "building module interface">; def err_current_module_name_mismatch : Error< "module name '%0' specified on command line does not match name of module">; def err_module_redefinition : Error< "redefinition of module '%0'">; def note_prev_module_definition : Note<"previously defined here">; def note_prev_module_definition_from_ast_file : Note<"module loaded from '%0'">; def err_module_not_defined : Error< "definition of module '%0' is not available; use -fmodule-file= to specify " "path to precompiled module interface">; def err_module_redeclaration : Error< "translation unit contains multiple module declarations">; def note_prev_module_declaration : Note<"previous module declaration is here">; def err_module_declaration_missing : Error< "missing 'export module' declaration in module interface unit">; def err_module_private_specialization : Error< "%select{template|partial|member}0 specialization cannot be " "declared __module_private__">; def err_module_private_local : Error< "%select{local variable|parameter|typedef}0 %1 cannot be declared " "__module_private__">; def err_module_private_local_class : Error< "local %select{struct|interface|union|class|enum}0 cannot be declared " "__module_private__">; def err_module_unimported_use : Error< "%select{declaration|definition|default argument|" "explicit specialization|partial specialization}0 of %1 must be imported " "from module '%2' before it is required">; def err_module_unimported_use_header : Error< "missing '#include %3'; " "%select{declaration|definition|default argument|" "explicit specialization|partial specialization}0 of %1 must be imported " "from module '%2' before it is required">; def err_module_unimported_use_multiple : Error< "%select{declaration|definition|default argument|" "explicit specialization|partial specialization}0 of %1 must be imported " "from one of the following modules before it is required:%2">; def ext_module_import_in_extern_c : ExtWarn< "import of C++ module '%0' appears within extern \"C\" language linkage " "specification">, DefaultError, InGroup>; def err_module_import_not_at_top_level_fatal : Error< "import of module '%0' appears within %1">, DefaultFatal; def ext_module_import_not_at_top_level_noop : ExtWarn< "redundant #include of module '%0' appears within %1">, DefaultError, InGroup>; def note_module_import_not_at_top_level : Note<"%0 begins here">; def err_module_self_import : Error< "import of module '%0' appears within same top-level module '%1'">; def err_module_import_in_implementation : Error< "@import of module '%0' in implementation of '%1'; use #import">; // C++ Modules TS def err_export_within_export : Error< "export declaration appears within another export declaration">; def err_export_not_in_module_interface : Error< "export declaration can only be used within a module interface unit after " "the module declaration">; def ext_equivalent_internal_linkage_decl_in_modules : ExtWarn< "ambiguous use of internal linkage declaration %0 defined in multiple modules">, InGroup>; def note_equivalent_internal_linkage_decl : Note< "declared here%select{ in module '%1'|}0">; def note_redefinition_modules_same_file : Note< "'%0' included multiple times, additional include site in header from module '%1'">; def note_redefinition_include_same_file : Note< "'%0' included multiple times, additional include site here">; } let CategoryName = "Coroutines Issue" in { def err_return_in_coroutine : Error< "return statement not allowed in coroutine; did you mean 'co_return'?">; def note_declared_coroutine_here : Note< "function is a coroutine due to use of '%0' here">; def err_coroutine_objc_method : Error< "Objective-C methods as coroutines are not yet supported">; def err_coroutine_unevaluated_context : Error< "'%0' cannot be used in an unevaluated context">; def err_coroutine_outside_function : Error< "'%0' cannot be used outside a function">; def err_coroutine_invalid_func_context : Error< "'%1' cannot be used in %select{a constructor|a destructor" "|a copy assignment operator|a move assignment operator|the 'main' function" "|a constexpr function|a function with a deduced return type" "|a varargs function}0">; def err_implied_coroutine_type_not_found : Error< "%0 type was not found; include before defining " "a coroutine">; def err_implicit_coroutine_std_nothrow_type_not_found : Error< "std::nothrow was not found; include before defining a coroutine which " "uses get_return_object_on_allocation_failure()">; def err_malformed_std_nothrow : Error< "std::nothrow must be a valid variable declaration">; def err_malformed_std_coroutine_handle : Error< "std::experimental::coroutine_handle must be a class template">; def err_coroutine_handle_missing_member : Error< "std::experimental::coroutine_handle missing a member named '%0'">; def err_malformed_std_coroutine_traits : Error< "'std::experimental::coroutine_traits' must be a class template">; def err_implied_std_coroutine_traits_promise_type_not_found : Error< "this function cannot be a coroutine: %q0 has no member named 'promise_type'">; def err_implied_std_coroutine_traits_promise_type_not_class : Error< "this function cannot be a coroutine: %0 is not a class">; def err_coroutine_promise_type_incomplete : Error< "this function cannot be a coroutine: %0 is an incomplete type">; def err_coroutine_type_missing_specialization : Error< "this function cannot be a coroutine: missing definition of " "specialization %q0">; def err_coroutine_promise_incompatible_return_functions : Error< "the coroutine promise type %0 declares both 'return_value' and 'return_void'">; def err_coroutine_promise_requires_return_function : Error< "the coroutine promise type %0 must declare either 'return_value' or 'return_void'">; def note_coroutine_promise_implicit_await_transform_required_here : Note< "call to 'await_transform' implicitly required by 'co_await' here">; def note_coroutine_promise_suspend_implicitly_required : Note< "call to '%select{initial_suspend|final_suspend}0' implicitly " "required by the %select{initial suspend point|final suspend point}0">; def err_coroutine_promise_unhandled_exception_required : Error< "%0 is required to declare the member 'unhandled_exception()'">; def warn_coroutine_promise_unhandled_exception_required_with_exceptions : Warning< "%0 is required to declare the member 'unhandled_exception()' when exceptions are enabled">, InGroup; def err_coroutine_promise_get_return_object_on_allocation_failure : Error< "%0: 'get_return_object_on_allocation_failure()' must be a static member function">; def err_seh_in_a_coroutine_with_cxx_exceptions : Error< "cannot use SEH '__try' in a coroutine when C++ exceptions are enabled">; def err_coroutine_promise_new_requires_nothrow : Error< "%0 is required to have a non-throwing noexcept specification when the promise " "type declares 'get_return_object_on_allocation_failure()'">; def note_coroutine_promise_call_implicitly_required : Note< "call to %0 implicitly required by coroutine function here">; def err_await_suspend_invalid_return_type : Error< "return type of 'await_suspend' is required to be 'void' or 'bool' (have %0)" >; def note_await_ready_no_bool_conversion : Note< "return type of 'await_ready' is required to be contextually convertible to 'bool'" >; } let CategoryName = "Documentation Issue" in { def warn_not_a_doxygen_trailing_member_comment : Warning< "not a Doxygen trailing comment">, InGroup, DefaultIgnore; } // end of documentation issue category let CategoryName = "Instrumentation Issue" in { def warn_profile_data_out_of_date : Warning< "profile data may be out of date: of %0 function%s0, %1 %plural{1:has|:have}1" " mismatched data that will be ignored">, InGroup; def warn_profile_data_missing : Warning< "profile data may be incomplete: of %0 function%s0, %1 %plural{1:has|:have}1" " no data">, InGroup, DefaultIgnore; def warn_profile_data_unprofiled : Warning< "no profile data available for file \"%0\"">, InGroup; } // end of instrumentation issue category let CategoryName = "Nullability Issue" in { def warn_mismatched_nullability_attr : Warning< "nullability specifier %0 conflicts with existing specifier %1">, InGroup; def warn_nullability_declspec : Warning< "nullability specifier %0 cannot be applied " "to non-pointer type %1; did you mean to apply the specifier to the " "%select{pointer|block pointer|member pointer|function pointer|" "member function pointer}2?">, InGroup, DefaultError; def note_nullability_here : Note<"%0 specified here">; def err_nullability_nonpointer : Error< "nullability specifier %0 cannot be applied to non-pointer type %1">; def warn_nullability_lost : Warning< "implicit conversion from nullable pointer %0 to non-nullable pointer " "type %1">, InGroup, DefaultIgnore; def warn_zero_as_null_pointer_constant : Warning< "zero as null pointer constant">, InGroup>, DefaultIgnore; def err_nullability_cs_multilevel : Error< "nullability keyword %0 cannot be applied to multi-level pointer type %1">; def note_nullability_type_specifier : Note< "use nullability type specifier %0 to affect the innermost " "pointer type of %1">; def warn_null_resettable_setter : Warning< "synthesized setter %0 for null_resettable property %1 does not handle nil">, InGroup; def warn_nullability_missing : Warning< "%select{pointer|block pointer|member pointer}0 is missing a nullability " "type specifier (_Nonnull, _Nullable, or _Null_unspecified)">, InGroup; def warn_nullability_missing_array : Warning< "array parameter is missing a nullability type specifier (_Nonnull, " "_Nullable, or _Null_unspecified)">, InGroup; def note_nullability_fix_it : Note< "insert '%select{_Nonnull|_Nullable|_Null_unspecified}0' if the " "%select{pointer|block pointer|member pointer|array parameter}1 " "%select{should never be null|may be null|should not declare nullability}0">; def warn_nullability_inferred_on_nested_type : Warning< "inferring '_Nonnull' for pointer type within %select{array|reference}0 is " "deprecated">, InGroup; def err_objc_type_arg_explicit_nullability : Error< "type argument %0 cannot explicitly specify nullability">; def err_objc_type_param_bound_explicit_nullability : Error< "type parameter %0 bound %1 cannot explicitly specify nullability">; } let CategoryName = "Generics Issue" in { def err_objc_type_param_bound_nonobject : Error< "type bound %0 for type parameter %1 is not an Objective-C pointer type">; def err_objc_type_param_bound_missing_pointer : Error< "missing '*' in type bound %0 for type parameter %1">; def err_objc_type_param_bound_qualified : Error< "type bound %1 for type parameter %0 cannot be qualified with '%2'">; def err_objc_type_param_redecl : Error< "redeclaration of type parameter %0">; def err_objc_type_param_arity_mismatch : Error< "%select{forward class declaration|class definition|category|extension}0 has " "too %select{few|many}1 type parameters (expected %2, have %3)">; def err_objc_type_param_bound_conflict : Error< "type bound %0 for type parameter %1 conflicts with " "%select{implicit|previous}2 bound %3%select{for type parameter %5|}4">; def err_objc_type_param_variance_conflict : Error< "%select{in|co|contra}0variant type parameter %1 conflicts with previous " "%select{in|co|contra}2variant type parameter %3">; def note_objc_type_param_here : Note<"type parameter %0 declared here">; def err_objc_type_param_bound_missing : Error< "missing type bound %0 for type parameter %1 in %select{@interface|@class}2">; def err_objc_parameterized_category_nonclass : Error< "%select{extension|category}0 of non-parameterized class %1 cannot have type " "parameters">; def err_objc_parameterized_forward_class : Error< "forward declaration of non-parameterized class %0 cannot have type " "parameters">; def err_objc_parameterized_forward_class_first : Error< "class %0 previously declared with type parameters">; def err_objc_type_arg_missing_star : Error< "type argument %0 must be a pointer (requires a '*')">; def err_objc_type_arg_qualified : Error< "type argument %0 cannot be qualified with '%1'">; def err_objc_type_arg_missing : Error< "no type or protocol named %0">; def err_objc_type_args_and_protocols : Error< "angle brackets contain both a %select{type|protocol}0 (%1) and a " "%select{protocol|type}0 (%2)">; def err_objc_type_args_non_class : Error< "type arguments cannot be applied to non-class type %0">; def err_objc_type_args_non_parameterized_class : Error< "type arguments cannot be applied to non-parameterized class %0">; def err_objc_type_args_specialized_class : Error< "type arguments cannot be applied to already-specialized class type %0">; def err_objc_type_args_wrong_arity : Error< "too %select{many|few}0 type arguments for class %1 (have %2, expected %3)">; } def err_objc_type_arg_not_id_compatible : Error< "type argument %0 is neither an Objective-C object nor a block type">; def err_objc_type_arg_does_not_match_bound : Error< "type argument %0 does not satisfy the bound (%1) of type parameter %2">; def warn_objc_redundant_qualified_class_type : Warning< "parameterized class %0 already conforms to the protocols listed; did you " "forget a '*'?">, InGroup; def warn_block_literal_attributes_on_omitted_return_type : Warning< "attribute %0 ignored, because it cannot be applied to omitted return type">, InGroup; def warn_block_literal_qualifiers_on_omitted_return_type : Warning< "'%0' qualifier on omitted return type %1 has no effect">, InGroup; def ext_warn_gnu_final : ExtWarn< "__final is a GNU extension, consider using C++11 final">, InGroup; def warn_shadow_field : Warning<"non-static data member '%0' of '%1' shadows member inherited from type '%2'">, InGroup, DefaultIgnore; def note_shadow_field : Note<"declared here">; } // end of sema component. Index: vendor/clang/dist-release_60/include/clang/Driver/CLCompatOptions.td =================================================================== --- vendor/clang/dist-release_60/include/clang/Driver/CLCompatOptions.td (revision 335721) +++ vendor/clang/dist-release_60/include/clang/Driver/CLCompatOptions.td (revision 335722) @@ -1,393 +1,393 @@ //===--- CLCompatOptions.td - Options for clang-cl ------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the options accepted by clang-cl. // //===----------------------------------------------------------------------===// def cl_Group : OptionGroup<"">, Flags<[CLOption]>, HelpText<"CL.EXE COMPATIBILITY OPTIONS">; def cl_compile_Group : OptionGroup<"">, Group; def cl_ignored_Group : OptionGroup<"">, Group; class CLFlag : Option<["/", "-"], name, KIND_FLAG>, Group, Flags<[CLOption, DriverOption]>; class CLCompileFlag : Option<["/", "-"], name, KIND_FLAG>, Group, Flags<[CLOption, DriverOption]>; class CLIgnoredFlag : Option<["/", "-"], name, KIND_FLAG>, Group, Flags<[CLOption, DriverOption]>; class CLJoined : Option<["/", "-"], name, KIND_JOINED>, Group, Flags<[CLOption, DriverOption]>; class CLCompileJoined : Option<["/", "-"], name, KIND_JOINED>, Group, Flags<[CLOption, DriverOption]>; class CLIgnoredJoined : Option<["/", "-"], name, KIND_JOINED>, Group, Flags<[CLOption, DriverOption, HelpHidden]>; class CLJoinedOrSeparate : Option<["/", "-"], name, KIND_JOINED_OR_SEPARATE>, Group, Flags<[CLOption, DriverOption]>; class CLCompileJoinedOrSeparate : Option<["/", "-"], name, KIND_JOINED_OR_SEPARATE>, Group, Flags<[CLOption, DriverOption]>; class CLRemainingArgsJoined : Option<["/", "-"], name, KIND_REMAINING_ARGS_JOINED>, Group, Flags<[CLOption, DriverOption]>; // Aliases: // (We don't put any of these in cl_compile_Group as the options they alias are // already in the right group.) def _SLASH_Brepro : CLFlag<"Brepro">, HelpText<"Emit an object file which can be reproduced over time">, Alias; def _SLASH_Brepro_ : CLFlag<"Brepro-">, HelpText<"Emit an object file which cannot be reproduced over time">, Alias; def _SLASH_C : CLFlag<"C">, HelpText<"Don't discard comments when preprocessing">, Alias; def _SLASH_c : CLFlag<"c">, HelpText<"Compile only">, Alias; def _SLASH_d1reportAllClassLayout : CLFlag<"d1reportAllClassLayout">, HelpText<"Dump record layout information">, Alias; def _SLASH_diagnostics_caret : CLFlag<"diagnostics:caret">, HelpText<"Enable caret and column diagnostics (on by default)">; def _SLASH_diagnostics_column : CLFlag<"diagnostics:column">, HelpText<"Disable caret diagnostics but keep column info">; def _SLASH_diagnostics_classic : CLFlag<"diagnostics:classic">, HelpText<"Disable column and caret diagnostics">; def _SLASH_D : CLJoinedOrSeparate<"D">, HelpText<"Define macro">, MetaVarName<"">, Alias; def _SLASH_E : CLFlag<"E">, HelpText<"Preprocess to stdout">, Alias; def _SLASH_fp_except : CLFlag<"fp:except">, HelpText<"">, Alias; def _SLASH_fp_except_ : CLFlag<"fp:except-">, HelpText<"">, Alias; def _SLASH_fp_fast : CLFlag<"fp:fast">, HelpText<"">, Alias; def _SLASH_fp_precise : CLFlag<"fp:precise">, HelpText<"">, Alias; def _SLASH_fp_strict : CLFlag<"fp:strict">, HelpText<"">, Alias; def _SLASH_GA : CLFlag<"GA">, Alias, AliasArgs<["local-exec"]>, HelpText<"Assume thread-local variables are defined in the executable">; def _SLASH_GR : CLFlag<"GR">, HelpText<"Enable emission of RTTI data">; def _SLASH_GR_ : CLFlag<"GR-">, HelpText<"Disable emission of RTTI data">; def _SLASH_GF_ : CLFlag<"GF-">, HelpText<"Disable string pooling">, Alias; def _SLASH_GS : CLFlag<"GS">, HelpText<"Enable buffer security check">; def _SLASH_GS_ : CLFlag<"GS-">, HelpText<"Disable buffer security check">; def _SLASH_Gs : CLJoined<"Gs">, HelpText<"Set stack probe size">, Alias; def _SLASH_Gy : CLFlag<"Gy">, HelpText<"Put each function in its own section">, Alias; def _SLASH_Gy_ : CLFlag<"Gy-">, HelpText<"Don't put each function in its own section">, Alias; def _SLASH_Gw : CLFlag<"Gw">, HelpText<"Put each data item in its own section">, Alias; def _SLASH_Gw_ : CLFlag<"Gw-">, HelpText<"Don't put each data item in its own section">, Alias; def _SLASH_help : CLFlag<"help">, Alias, HelpText<"Display available options">; def _SLASH_HELP : CLFlag<"HELP">, Alias; def _SLASH_I : CLJoinedOrSeparate<"I">, HelpText<"Add directory to include search path">, MetaVarName<"">, Alias; def _SLASH_J : CLFlag<"J">, HelpText<"Make char type unsigned">, Alias; def _SLASH_O0 : CLFlag<"O0">, Alias; // /Oy- is handled by the /O option because /Oy- only has an effect on 32-bit. def _SLASH_O : CLJoined<"O">, HelpText<"Optimization level">; def _SLASH_Od : CLFlag<"Od">, HelpText<"Disable optimization">, Alias; def _SLASH_Oi : CLFlag<"Oi">, HelpText<"Enable use of builtin functions">, Alias; def _SLASH_Oi_ : CLFlag<"Oi-">, HelpText<"Disable use of builtin functions">, Alias; def _SLASH_Os : CLFlag<"Os">, HelpText<"Optimize for size">, Alias, AliasArgs<["s"]>; def _SLASH_Ot : CLFlag<"Ot">, HelpText<"Optimize for speed">, Alias, AliasArgs<["2"]>; def _SLASH_QUESTION : CLFlag<"?">, Alias, HelpText<"Display available options">; def _SLASH_Qvec : CLFlag<"Qvec">, HelpText<"Enable the loop vectorization passes">, Alias; def _SLASH_Qvec_ : CLFlag<"Qvec-">, HelpText<"Disable the loop vectorization passes">, Alias; def _SLASH_showIncludes : CLFlag<"showIncludes">, HelpText<"Print info about included files to stderr">, Alias; def _SLASH_source_charset : CLCompileJoined<"source-charset:">, HelpText<"Source encoding, supports only UTF-8">, Alias; def _SLASH_execution_charset : CLCompileJoined<"execution-charset:">, HelpText<"Runtime encoding, supports only UTF-8">, Alias; def _SLASH_std : CLCompileJoined<"std:">, HelpText<"Language standard to compile for">; def _SLASH_U : CLJoinedOrSeparate<"U">, HelpText<"Undefine macro">, MetaVarName<"">, Alias; def _SLASH_validate_charset : CLFlag<"validate-charset">, Alias, AliasArgs<["invalid-source-encoding"]>; def _SLASH_validate_charset_ : CLFlag<"validate-charset-">, Alias, AliasArgs<["no-invalid-source-encoding"]>; def _SLASH_W0 : CLFlag<"W0">, HelpText<"Disable all warnings">, Alias; def _SLASH_W1 : CLFlag<"W1">, HelpText<"Enable -Wall">, Alias; def _SLASH_W2 : CLFlag<"W2">, HelpText<"Enable -Wall">, Alias; def _SLASH_W3 : CLFlag<"W3">, HelpText<"Enable -Wall">, Alias; def _SLASH_W4 : CLFlag<"W4">, HelpText<"Enable -Wall and -Wextra">, Alias; def _SLASH_Wall : CLFlag<"Wall">, HelpText<"Enable -Weverything">, Alias, AliasArgs<["everything"]>; def _SLASH_WX : CLFlag<"WX">, HelpText<"Treat warnings as errors">, Alias, AliasArgs<["error"]>; def _SLASH_WX_ : CLFlag<"WX-">, HelpText<"Do not treat warnings as errors">, Alias, AliasArgs<["no-error"]>; def _SLASH_w_flag : CLFlag<"w">, HelpText<"Disable all warnings">, Alias; def _SLASH_wd4005 : CLFlag<"wd4005">, Alias, AliasArgs<["no-macro-redefined"]>; def _SLASH_wd4018 : CLFlag<"wd4018">, Alias, AliasArgs<["no-sign-compare"]>; def _SLASH_wd4100 : CLFlag<"wd4100">, Alias, AliasArgs<["no-unused-parameter"]>; def _SLASH_wd4910 : CLFlag<"wd4910">, Alias, AliasArgs<["no-dllexport-explicit-instantiation-decl"]>; def _SLASH_wd4996 : CLFlag<"wd4996">, Alias, AliasArgs<["no-deprecated-declarations"]>; def _SLASH_vd : CLJoined<"vd">, HelpText<"Control vtordisp placement">, Alias; def _SLASH_Zc_sizedDealloc : CLFlag<"Zc:sizedDealloc">, HelpText<"Enable C++14 sized global deallocation functions">, Alias; def _SLASH_Zc_sizedDealloc_ : CLFlag<"Zc:sizedDealloc-">, HelpText<"Disable C++14 sized global deallocation functions">, Alias; def _SLASH_Zc_strictStrings : CLFlag<"Zc:strictStrings">, HelpText<"Treat string literals as const">, Alias, AliasArgs<["error=c++11-compat-deprecated-writable-strings"]>; def _SLASH_Zc_threadSafeInit : CLFlag<"Zc:threadSafeInit">, HelpText<"Enable thread-safe initialization of static variables">, Alias; def _SLASH_Zc_threadSafeInit_ : CLFlag<"Zc:threadSafeInit-">, HelpText<"Disable thread-safe initialization of static variables">, Alias; def _SLASH_Zc_trigraphs : CLFlag<"Zc:trigraphs">, HelpText<"Enable trigraphs">, Alias; def _SLASH_Zc_trigraphs_off : CLFlag<"Zc:trigraphs-">, HelpText<"Disable trigraphs (default)">, Alias; def _SLASH_Zc_twoPhase : CLFlag<"Zc:twoPhase">, HelpText<"Enable two-phase name lookup in templates">, Alias; def _SLASH_Zc_twoPhase_ : CLFlag<"Zc:twoPhase-">, HelpText<"Disable two-phase name lookup in templates">, Alias; def _SLASH_Z7 : CLFlag<"Z7">, HelpText<"Enable CodeView debug information in object files">; def _SLASH_Zd : CLFlag<"Zd">, HelpText<"Emit debug line number tables only">; def _SLASH_Zi : CLFlag<"Zi">, Alias<_SLASH_Z7>, HelpText<"Alias for /Z7. Does not produce PDBs.">; def _SLASH_Zp : CLJoined<"Zp">, HelpText<"Specify the default maximum struct packing alignment">, Alias; def _SLASH_Zp_flag : CLFlag<"Zp">, HelpText<"Set the default maximum struct packing alignment to 1">, Alias, AliasArgs<["1"]>; def _SLASH_Zs : CLFlag<"Zs">, HelpText<"Syntax-check only">, Alias; // Non-aliases: def _SLASH_arch : CLCompileJoined<"arch:">, HelpText<"Set architecture for code generation">; def _SLASH_M_Group : OptionGroup<"">, Group; def _SLASH_volatile_Group : OptionGroup<"">, Group; def _SLASH_EH : CLJoined<"EH">, HelpText<"Exception handling model">; def _SLASH_EP : CLFlag<"EP">, HelpText<"Disable linemarker output and preprocess to stdout">; def _SLASH_FA : CLFlag<"FA">, HelpText<"Output assembly code file during compilation">; def _SLASH_Fa : CLJoined<"Fa">, HelpText<"Output assembly code to this file during compilation (with /FA)">, MetaVarName<"">; def _SLASH_fallback : CLCompileFlag<"fallback">, HelpText<"Fall back to cl.exe if clang-cl fails to compile">; def _SLASH_FI : CLJoinedOrSeparate<"FI">, HelpText<"Include file before parsing">, Alias; def _SLASH_Fe : CLJoined<"Fe">, HelpText<"Set output executable file or directory (ends in / or \\)">, MetaVarName<"">; def _SLASH_Fi : CLCompileJoined<"Fi">, HelpText<"Set preprocess output file name (with /P)">, MetaVarName<"">; def _SLASH_Fo : CLCompileJoined<"Fo">, HelpText<"Set output object file, or directory (ends in / or \\) (with /c)">, MetaVarName<"">; def _SLASH_GX : CLFlag<"GX">, HelpText<"Enable exception handling">; def _SLASH_GX_ : CLFlag<"GX-">, - HelpText<"Enable exception handling">; + HelpText<"Disable exception handling">; def _SLASH_imsvc : CLJoinedOrSeparate<"imsvc">, HelpText<"Add directory to system include search path, as if part of %INCLUDE%">, MetaVarName<"">; def _SLASH_LD : CLFlag<"LD">, HelpText<"Create DLL">; def _SLASH_LDd : CLFlag<"LDd">, HelpText<"Create debug DLL">; def _SLASH_link : CLRemainingArgsJoined<"link">, HelpText<"Forward options to the linker">, MetaVarName<"">; def _SLASH_MD : Option<["/", "-"], "MD", KIND_FLAG>, Group<_SLASH_M_Group>, Flags<[CLOption, DriverOption]>, HelpText<"Use DLL run-time">; def _SLASH_MDd : Option<["/", "-"], "MDd", KIND_FLAG>, Group<_SLASH_M_Group>, Flags<[CLOption, DriverOption]>, HelpText<"Use DLL debug run-time">; def _SLASH_MT : Option<["/", "-"], "MT", KIND_FLAG>, Group<_SLASH_M_Group>, Flags<[CLOption, DriverOption]>, HelpText<"Use static run-time">; def _SLASH_MTd : Option<["/", "-"], "MTd", KIND_FLAG>, Group<_SLASH_M_Group>, Flags<[CLOption, DriverOption]>, HelpText<"Use static debug run-time">; def _SLASH_o : CLJoinedOrSeparate<"o">, HelpText<"Set output file or directory (ends in / or \\)">, MetaVarName<"">; def _SLASH_P : CLFlag<"P">, HelpText<"Preprocess to file">; def _SLASH_Tc : CLCompileJoinedOrSeparate<"Tc">, HelpText<"Specify a C source file">, MetaVarName<"">; def _SLASH_TC : CLCompileFlag<"TC">, HelpText<"Treat all source files as C">; def _SLASH_Tp : CLCompileJoinedOrSeparate<"Tp">, HelpText<"Specify a C++ source file">, MetaVarName<"">; def _SLASH_TP : CLCompileFlag<"TP">, HelpText<"Treat all source files as C++">; def _SLASH_volatile_iso : Option<["/", "-"], "volatile:iso", KIND_FLAG>, Group<_SLASH_volatile_Group>, Flags<[CLOption, DriverOption]>, HelpText<"Volatile loads and stores have standard semantics">; def _SLASH_vmb : CLFlag<"vmb">, HelpText<"Use a best-case representation method for member pointers">; def _SLASH_vmg : CLFlag<"vmg">, HelpText<"Use a most-general representation for member pointers">; def _SLASH_vms : CLFlag<"vms">, HelpText<"Set the default most-general representation to single inheritance">; def _SLASH_vmm : CLFlag<"vmm">, HelpText<"Set the default most-general representation to " "multiple inheritance">; def _SLASH_vmv : CLFlag<"vmv">, HelpText<"Set the default most-general representation to " "virtual inheritance">; def _SLASH_volatile_ms : Option<["/", "-"], "volatile:ms", KIND_FLAG>, Group<_SLASH_volatile_Group>, Flags<[CLOption, DriverOption]>, HelpText<"Volatile loads and stores have acquire and release semantics">; def _SLASH_Zl : CLFlag<"Zl">, HelpText<"Don't mention any default libraries in the object file">; def _SLASH_Yc : CLJoined<"Yc">, HelpText<"Generate a pch file for all code up to and including ">, MetaVarName<"">; def _SLASH_Yu : CLJoined<"Yu">, HelpText<"Load a pch file and use it instead of all code up to " "and including ">, MetaVarName<"">; def _SLASH_Y_ : CLFlag<"Y-">, HelpText<"Disable precompiled headers, overrides /Yc and /Yu">; def _SLASH_Fp : CLJoined<"Fp">, HelpText<"Set pch filename (with /Yc and /Yu)">, MetaVarName<"">; def _SLASH_Gd : CLFlag<"Gd">, HelpText<"Set __cdecl as a default calling convention">; def _SLASH_Gr : CLFlag<"Gr">, HelpText<"Set __fastcall as a default calling convention">; def _SLASH_Gz : CLFlag<"Gz">, HelpText<"Set __stdcall as a default calling convention">; def _SLASH_Gv : CLFlag<"Gv">, HelpText<"Set __vectorcall as a default calling convention">; def _SLASH_Gregcall : CLFlag<"Gregcall">, HelpText<"Set __regcall as a default calling convention">; // Ignored: def _SLASH_analyze_ : CLIgnoredFlag<"analyze-">; def _SLASH_bigobj : CLIgnoredFlag<"bigobj">; def _SLASH_cgthreads : CLIgnoredJoined<"cgthreads">; def _SLASH_d2FastFail : CLIgnoredFlag<"d2FastFail">; def _SLASH_d2Zi_PLUS : CLIgnoredFlag<"d2Zi+">; def _SLASH_errorReport : CLIgnoredJoined<"errorReport">; def _SLASH_FC : CLIgnoredFlag<"FC">; def _SLASH_Fd : CLIgnoredJoined<"Fd">; def _SLASH_FS : CLIgnoredFlag<"FS">; def _SLASH_GF : CLIgnoredFlag<"GF">; def _SLASH_kernel_ : CLIgnoredFlag<"kernel-">; def _SLASH_nologo : CLIgnoredFlag<"nologo">; def _SLASH_Og : CLIgnoredFlag<"Og">; def _SLASH_openmp_ : CLIgnoredFlag<"openmp-">; def _SLASH_RTC : CLIgnoredJoined<"RTC">; def _SLASH_sdl : CLIgnoredFlag<"sdl">; def _SLASH_sdl_ : CLIgnoredFlag<"sdl-">; def _SLASH_utf8 : CLIgnoredFlag<"utf-8">, HelpText<"Set source and runtime encoding to UTF-8 (default)">; def _SLASH_w : CLIgnoredJoined<"w">; def _SLASH_Zc_auto : CLIgnoredFlag<"Zc:auto">; def _SLASH_Zc_forScope : CLIgnoredFlag<"Zc:forScope">; def _SLASH_Zc_inline : CLIgnoredFlag<"Zc:inline">; def _SLASH_Zc_rvalueCast : CLIgnoredFlag<"Zc:rvalueCast">; def _SLASH_Zc_wchar_t : CLIgnoredFlag<"Zc:wchar_t">; def _SLASH_Zc_ternary : CLIgnoredFlag<"Zc:ternary">; def _SLASH_Zm : CLIgnoredJoined<"Zm">; def _SLASH_Zo : CLIgnoredFlag<"Zo">; def _SLASH_Zo_ : CLIgnoredFlag<"Zo-">; // Unsupported: def _SLASH_AI : CLJoined<"AI">; def _SLASH_clr : CLJoined<"clr">; def _SLASH_doc : CLJoined<"doc">; def _SLASH_FA_joined : CLJoined<"FA">; def _SLASH_favor : CLJoined<"favor">; def _SLASH_F : CLFlag<"F">; def _SLASH_Fm : CLJoined<"Fm">; def _SLASH_Fr : CLJoined<"Fr">; def _SLASH_FR : CLJoined<"FR">; def _SLASH_FU : CLJoinedOrSeparate<"FU">; def _SLASH_Fx : CLFlag<"Fx">; def _SLASH_G1 : CLFlag<"G1">; def _SLASH_G2 : CLFlag<"G2">; def _SLASH_Ge : CLFlag<"Ge">; def _SLASH_Gh : CLFlag<"Gh">; def _SLASH_GH : CLFlag<"GH">; def _SLASH_GL : CLFlag<"GL">; def _SLASH_GL_ : CLFlag<"GL-">; def _SLASH_Gm : CLFlag<"Gm">; def _SLASH_Gm_ : CLFlag<"Gm-">; def _SLASH_GT : CLFlag<"GT">; def _SLASH_Guard : CLJoined<"guard:">; def _SLASH_GZ : CLFlag<"GZ">; def _SLASH_H : CLFlag<"H">; def _SLASH_homeparams : CLFlag<"homeparams">; def _SLASH_hotpatch : CLFlag<"hotpatch">; def _SLASH_kernel : CLFlag<"kernel">; def _SLASH_LN : CLFlag<"LN">; def _SLASH_MP : CLJoined<"MP">; def _SLASH_openmp : CLFlag<"openmp">; def _SLASH_Qfast_transcendentals : CLFlag<"Qfast_transcendentals">; def _SLASH_QIfist : CLFlag<"QIfist">; def _SLASH_Qimprecise_fwaits : CLFlag<"Qimprecise_fwaits">; def _SLASH_Qpar : CLFlag<"Qpar">; def _SLASH_Qvec_report : CLJoined<"Qvec-report">; def _SLASH_u : CLFlag<"u">; def _SLASH_V : CLFlag<"V">; def _SLASH_WL : CLFlag<"WL">; def _SLASH_Wp64 : CLFlag<"Wp64">; def _SLASH_X : CLFlag<"X">; def _SLASH_Yd : CLFlag<"Yd">; def _SLASH_Yl : CLJoined<"Yl">; def _SLASH_Za : CLFlag<"Za">; def _SLASH_Zc : CLJoined<"Zc:">; def _SLASH_Ze : CLFlag<"Ze">; def _SLASH_Zg : CLFlag<"Zg">; def _SLASH_ZI : CLFlag<"ZI">; def _SLASH_ZW : CLJoined<"ZW">; Index: vendor/clang/dist-release_60/include/clang/Driver/Options.td =================================================================== --- vendor/clang/dist-release_60/include/clang/Driver/Options.td (revision 335721) +++ vendor/clang/dist-release_60/include/clang/Driver/Options.td (revision 335722) @@ -1,2795 +1,2801 @@ //===--- Options.td - Options for clang -----------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the options accepted by clang. // //===----------------------------------------------------------------------===// // Include the common option parsing interfaces. include "llvm/Option/OptParser.td" ///////// // Flags // DriverOption - The option is a "driver" option, and should not be forwarded // to other tools. def DriverOption : OptionFlag; // LinkerInput - The option is a linker input. def LinkerInput : OptionFlag; // NoArgumentUnused - Don't report argument unused warnings for this option; this // is useful for options like -static or -dynamic which a user may always end up // passing, even if the platform defaults to (or only supports) that option. def NoArgumentUnused : OptionFlag; // Unsupported - The option is unsupported, and the driver will reject command // lines that use it. def Unsupported : OptionFlag; // Ignored - The option is unsupported, and the driver will silently ignore it. def Ignored : OptionFlag; // CoreOption - This is considered a "core" Clang option, available in both // clang and clang-cl modes. def CoreOption : OptionFlag; // CLOption - This is a cl.exe compatibility option. Options with this flag // are made available when the driver is running in CL compatibility mode. def CLOption : OptionFlag; // CC1Option - This option should be accepted by clang -cc1. def CC1Option : OptionFlag; // CC1AsOption - This option should be accepted by clang -cc1as. def CC1AsOption : OptionFlag; // NoDriverOption - This option should not be accepted by the driver. def NoDriverOption : OptionFlag; // A short name to show in documentation. The name will be interpreted as rST. class DocName { string DocName = name; } // A brief description to show in documentation, interpreted as rST. class DocBrief { code DocBrief = descr; } // Indicates that this group should be flattened into its parent when generating // documentation. class DocFlatten { bit DocFlatten = 1; } // Indicates that this warning is ignored, but accepted with a warning for // GCC compatibility. class IgnoredGCCCompat : Flags<[HelpHidden]> {} ///////// // Groups def Action_Group : OptionGroup<"">, DocName<"Actions">, DocBrief<[{The action to perform on the input.}]>; // Meta-group for options which are only used for compilation, // and not linking etc. def CompileOnly_Group : OptionGroup<"">, DocName<"Compilation flags">, DocBrief<[{ Flags controlling the behavior of Clang during compilation. These flags have no effect during actions that do not perform compilation.}]>; def Preprocessor_Group : OptionGroup<"">, Group, DocName<"Preprocessor flags">, DocBrief<[{ Flags controlling the behavior of the Clang preprocessor.}]>; def IncludePath_Group : OptionGroup<"">, Group, DocName<"Include path management">, DocBrief<[{ Flags controlling how ``#include``\s are resolved to files.}]>; def I_Group : OptionGroup<"">, Group, DocFlatten; def i_Group : OptionGroup<"">, Group, DocFlatten; def clang_i_Group : OptionGroup<"">, Group, DocFlatten; def M_Group : OptionGroup<"">, Group, DocName<"Dependency file generation">, DocBrief<[{ Flags controlling generation of a dependency file for ``make``-like build systems.}]>; def d_Group : OptionGroup<"">, Group, DocName<"Dumping preprocessor state">, DocBrief<[{ Flags allowing the state of the preprocessor to be dumped in various ways.}]>; def Diag_Group : OptionGroup<"">, Group, DocName<"Diagnostic flags">, DocBrief<[{ Flags controlling which warnings, errors, and remarks Clang will generate. See the :doc:`full list of warning and remark flags `.}]>; def R_Group : OptionGroup<"">, Group, DocFlatten; def R_value_Group : OptionGroup<"">, Group, DocFlatten; def W_Group : OptionGroup<"">, Group, DocFlatten; def W_value_Group : OptionGroup<"">, Group, DocFlatten; def f_Group : OptionGroup<"">, Group, DocName<"Target-independent compilation options">; def f_clang_Group : OptionGroup<"">, Group, DocFlatten; def pedantic_Group : OptionGroup<"">, Group, DocFlatten; def opencl_Group : OptionGroup<"">, Group, DocName<"OpenCL flags">; def m_Group : OptionGroup<"">, Group, DocName<"Target-dependent compilation options">; // Feature groups - these take command line options that correspond directly to // target specific features and can be translated directly from command line // options. def m_aarch64_Features_Group : OptionGroup<"">, Group, DocName<"AARCH64">; def m_amdgpu_Features_Group : OptionGroup<"">, Group, DocName<"AMDGPU">; def m_arm_Features_Group : OptionGroup<"">, Group, DocName<"ARM">; def m_hexagon_Features_Group : OptionGroup<"">, Group, DocName<"Hexagon">; // The features added by this group will not be added to target features. // These are explicitly handled. def m_hexagon_Features_HVX_Group : OptionGroup<"">, Group, DocName<"Hexagon">; def m_ppc_Features_Group : OptionGroup<"">, Group, DocName<"PowerPC">; def m_wasm_Features_Group : OptionGroup<"">, Group, DocName<"WebAssembly">; def m_x86_Features_Group : OptionGroup<"">, Group, Flags<[CoreOption]>, DocName<"X86">; def m_libc_Group : OptionGroup<"">, Group, Flags<[HelpHidden]>; def O_Group : OptionGroup<"">, Group, DocName<"Optimization level">, DocBrief<[{ Flags controlling how much optimization should be performed.}]>; def DebugInfo_Group : OptionGroup<"">, Group, DocName<"Debug information generation">, DocBrief<[{ Flags controlling how much and what kind of debug information should be generated.}]>; def g_Group : OptionGroup<"">, Group, DocName<"Kind and level of debug information">; def gN_Group : OptionGroup<"">, Group, DocName<"Debug level">; def ggdbN_Group : OptionGroup<"">, Group, DocFlatten; def gTune_Group : OptionGroup<"">, Group, DocName<"Debugger to tune debug information for">; def g_flags_Group : OptionGroup<"">, Group, DocName<"Debug information flags">; def StaticAnalyzer_Group : OptionGroup<"">, DocName<"Static analyzer flags">, DocBrief<[{ Flags controlling the behavior of the Clang Static Analyzer.}]>; // gfortran options that we recognize in the driver and pass along when // invoking GCC to compile Fortran code. def gfortran_Group : OptionGroup<"">, DocName<"Fortran compilation flags">, DocBrief<[{ Flags that will be passed onto the ``gfortran`` compiler when Clang is given a Fortran input.}]>; def Link_Group : OptionGroup<"">, DocName<"Linker flags">, DocBrief<[{Flags that are passed on to the linker}]>; def T_Group : OptionGroup<"">, Group, DocFlatten; def u_Group : OptionGroup<"">, Group, DocFlatten; def reserved_lib_Group : OptionGroup<"">, Flags<[Unsupported]>; // Temporary groups for clang options which we know we don't support, // but don't want to verbosely warn the user about. def clang_ignored_f_Group : OptionGroup<"">, Group, Flags<[Ignored]>; def clang_ignored_m_Group : OptionGroup<"">, Group, Flags<[Ignored]>; // Group for clang options in the process of deprecation. // Please include the version that deprecated the flag as comment to allow // easier garbage collection. def clang_ignored_legacy_options_Group : OptionGroup<"">, Group, Flags<[Ignored]>; // Retired with clang-5.0 def : Flag<["-"], "fslp-vectorize-aggressive">, Group; def : Flag<["-"], "fno-slp-vectorize-aggressive">, Group; // Group that ignores all gcc optimizations that won't be implemented def clang_ignored_gcc_optimization_f_Group : OptionGroup< "">, Group, Flags<[Ignored]>; ///////// // Options // The internal option ID must be a valid C++ identifier and results in a // clang::driver::options::OPT_XX enum constant for XX. // // We want to unambiguously be able to refer to options from the driver source // code, for this reason the option name is mangled into an ID. This mangling // isn't guaranteed to have an inverse, but for practical purposes it does. // // The mangling scheme is to ignore the leading '-', and perform the following // substitutions: // _ => __ // - => _ // / => _SLASH // # => _HASH // ? => _QUESTION // , => _COMMA // = => _EQ // C++ => CXX // . => _ // Developer Driver Options def internal_Group : OptionGroup<"">, Flags<[HelpHidden]>; def internal_driver_Group : OptionGroup<"">, Group, HelpText<"DRIVER OPTIONS">; def internal_debug_Group : OptionGroup<"">, Group, HelpText<"DEBUG/DEVELOPMENT OPTIONS">; class InternalDriverOpt : Group, Flags<[DriverOption, HelpHidden]>; def driver_mode : Joined<["--"], "driver-mode=">, Group, Flags<[CoreOption, DriverOption, HelpHidden]>, HelpText<"Set the driver mode to either 'gcc', 'g++', 'cpp', or 'cl'">; def rsp_quoting : Joined<["--"], "rsp-quoting=">, Group, Flags<[CoreOption, DriverOption, HelpHidden]>, HelpText<"Set the rsp quoting to either 'posix', or 'windows'">; def ccc_gcc_name : Separate<["-"], "ccc-gcc-name">, InternalDriverOpt, HelpText<"Name for native GCC compiler">, MetaVarName<"">; def ccc_pch_is_pch : Flag<["-"], "ccc-pch-is-pch">, InternalDriverOpt, HelpText<"Use lazy PCH for precompiled headers">; def ccc_pch_is_pth : Flag<["-"], "ccc-pch-is-pth">, InternalDriverOpt, HelpText<"Use pretokenized headers for precompiled headers">; class InternalDebugOpt : Group, Flags<[DriverOption, HelpHidden, CoreOption]>; def ccc_install_dir : Separate<["-"], "ccc-install-dir">, InternalDebugOpt, HelpText<"Simulate installation in the given directory">; def ccc_print_phases : Flag<["-"], "ccc-print-phases">, InternalDebugOpt, HelpText<"Dump list of actions to perform">; def ccc_print_bindings : Flag<["-"], "ccc-print-bindings">, InternalDebugOpt, HelpText<"Show bindings of tools to actions">; def ccc_arcmt_check : Flag<["-"], "ccc-arcmt-check">, InternalDriverOpt, HelpText<"Check for ARC migration issues that need manual handling">; def ccc_arcmt_modify : Flag<["-"], "ccc-arcmt-modify">, InternalDriverOpt, HelpText<"Apply modifications to files to conform to ARC">; def ccc_arcmt_migrate : Separate<["-"], "ccc-arcmt-migrate">, InternalDriverOpt, HelpText<"Apply modifications and produces temporary files that conform to ARC">; def arcmt_migrate_report_output : Separate<["-"], "arcmt-migrate-report-output">, HelpText<"Output path for the plist report">, Flags<[CC1Option]>; def arcmt_migrate_emit_arc_errors : Flag<["-"], "arcmt-migrate-emit-errors">, HelpText<"Emit ARC errors even if the migrator can fix them">, Flags<[CC1Option]>; def gen_reproducer: Flag<["-"], "gen-reproducer">, InternalDebugOpt, HelpText<"Auto-generates preprocessed source files and a reproduction script">; def _migrate : Flag<["--"], "migrate">, Flags<[DriverOption]>, HelpText<"Run the migrator">; def ccc_objcmt_migrate : Separate<["-"], "ccc-objcmt-migrate">, InternalDriverOpt, HelpText<"Apply modifications and produces temporary files to migrate to " "modern ObjC syntax">; def objcmt_migrate_literals : Flag<["-"], "objcmt-migrate-literals">, Flags<[CC1Option]>, HelpText<"Enable migration to modern ObjC literals">; def objcmt_migrate_subscripting : Flag<["-"], "objcmt-migrate-subscripting">, Flags<[CC1Option]>, HelpText<"Enable migration to modern ObjC subscripting">; def objcmt_migrate_property : Flag<["-"], "objcmt-migrate-property">, Flags<[CC1Option]>, HelpText<"Enable migration to modern ObjC property">; def objcmt_migrate_all : Flag<["-"], "objcmt-migrate-all">, Flags<[CC1Option]>, HelpText<"Enable migration to modern ObjC">; def objcmt_migrate_readonly_property : Flag<["-"], "objcmt-migrate-readonly-property">, Flags<[CC1Option]>, HelpText<"Enable migration to modern ObjC readonly property">; def objcmt_migrate_readwrite_property : Flag<["-"], "objcmt-migrate-readwrite-property">, Flags<[CC1Option]>, HelpText<"Enable migration to modern ObjC readwrite property">; def objcmt_migrate_property_dot_syntax : Flag<["-"], "objcmt-migrate-property-dot-syntax">, Flags<[CC1Option]>, HelpText<"Enable migration of setter/getter messages to property-dot syntax">; def objcmt_migrate_annotation : Flag<["-"], "objcmt-migrate-annotation">, Flags<[CC1Option]>, HelpText<"Enable migration to property and method annotations">; def objcmt_migrate_instancetype : Flag<["-"], "objcmt-migrate-instancetype">, Flags<[CC1Option]>, HelpText<"Enable migration to infer instancetype for method result type">; def objcmt_migrate_nsmacros : Flag<["-"], "objcmt-migrate-ns-macros">, Flags<[CC1Option]>, HelpText<"Enable migration to NS_ENUM/NS_OPTIONS macros">; def objcmt_migrate_protocol_conformance : Flag<["-"], "objcmt-migrate-protocol-conformance">, Flags<[CC1Option]>, HelpText<"Enable migration to add protocol conformance on classes">; def objcmt_atomic_property : Flag<["-"], "objcmt-atomic-property">, Flags<[CC1Option]>, HelpText<"Make migration to 'atomic' properties">; def objcmt_returns_innerpointer_property : Flag<["-"], "objcmt-returns-innerpointer-property">, Flags<[CC1Option]>, HelpText<"Enable migration to annotate property with NS_RETURNS_INNER_POINTER">; def objcmt_ns_nonatomic_iosonly: Flag<["-"], "objcmt-ns-nonatomic-iosonly">, Flags<[CC1Option]>, HelpText<"Enable migration to use NS_NONATOMIC_IOSONLY macro for setting property's 'atomic' attribute">; def objcmt_migrate_designated_init : Flag<["-"], "objcmt-migrate-designated-init">, Flags<[CC1Option]>, HelpText<"Enable migration to infer NS_DESIGNATED_INITIALIZER for initializer methods">; def objcmt_whitelist_dir_path: Joined<["-"], "objcmt-whitelist-dir-path=">, Flags<[CC1Option]>, HelpText<"Only modify files with a filename contained in the provided directory path">; // The misspelt "white-list" [sic] alias is due for removal. def : Joined<["-"], "objcmt-white-list-dir-path=">, Flags<[CC1Option]>, Alias; // Make sure all other -ccc- options are rejected. def ccc_ : Joined<["-"], "ccc-">, Group, Flags<[Unsupported]>; // Standard Options def _HASH_HASH_HASH : Flag<["-"], "###">, Flags<[DriverOption, CoreOption]>, HelpText<"Print (but do not run) the commands to run for this compilation">; def _DASH_DASH : Option<["--"], "", KIND_REMAINING_ARGS>, Flags<[DriverOption, CoreOption]>; def A : JoinedOrSeparate<["-"], "A">, Flags<[RenderJoined]>, Group; def B : JoinedOrSeparate<["-"], "B">, MetaVarName<"">, HelpText<"Add to search path for binaries and object files used implicitly">; def CC : Flag<["-"], "CC">, Flags<[CC1Option]>, Group, HelpText<"Include comments from within macros in preprocessed output">; def C : Flag<["-"], "C">, Flags<[CC1Option]>, Group, HelpText<"Include comments in preprocessed output">; def D : JoinedOrSeparate<["-"], "D">, Group, Flags<[CC1Option]>, MetaVarName<"=">, HelpText<"Define to (or 1 if omitted)">; def E : Flag<["-"], "E">, Flags<[DriverOption,CC1Option]>, Group, HelpText<"Only run the preprocessor">; def F : JoinedOrSeparate<["-"], "F">, Flags<[RenderJoined,CC1Option]>, HelpText<"Add directory to framework include search path">; def G : JoinedOrSeparate<["-"], "G">, Flags<[DriverOption]>, Group, MetaVarName<"">, HelpText<"Put objects of at most bytes " "into small data section (MIPS / Hexagon)">; def G_EQ : Joined<["-"], "G=">, Flags<[DriverOption]>, Group, Alias; def H : Flag<["-"], "H">, Flags<[CC1Option]>, Group, HelpText<"Show header includes and nesting depth">; def I_ : Flag<["-"], "I-">, Group, HelpText<"Restrict all prior -I flags to double-quoted inclusion and " "remove current directory from include path">; def I : JoinedOrSeparate<["-"], "I">, Group, Flags<[CC1Option,CC1AsOption]>, MetaVarName<"">, HelpText<"Add directory to include search path">; def L : JoinedOrSeparate<["-"], "L">, Flags<[RenderJoined]>, Group, MetaVarName<"">, HelpText<"Add directory to library search path">; def MD : Flag<["-"], "MD">, Group, HelpText<"Write a depfile containing user and system headers">; def MMD : Flag<["-"], "MMD">, Group, HelpText<"Write a depfile containing user headers">; def M : Flag<["-"], "M">, Group, HelpText<"Like -MD, but also implies -E and writes to stdout by default">; def MM : Flag<["-"], "MM">, Group, HelpText<"Like -MMD, but also implies -E and writes to stdout by default">; def MF : JoinedOrSeparate<["-"], "MF">, Group, HelpText<"Write depfile output from -MMD, -MD, -MM, or -M to ">, MetaVarName<"">; def MG : Flag<["-"], "MG">, Group, Flags<[CC1Option]>, HelpText<"Add missing headers to depfile">; def MJ : JoinedOrSeparate<["-"], "MJ">, Group, HelpText<"Write a compilation database entry per input">; def MP : Flag<["-"], "MP">, Group, Flags<[CC1Option]>, HelpText<"Create phony target for each dependency (other than main file)">; def MQ : JoinedOrSeparate<["-"], "MQ">, Group, Flags<[CC1Option]>, HelpText<"Specify name of main file output to quote in depfile">; def MT : JoinedOrSeparate<["-"], "MT">, Group, Flags<[CC1Option]>, HelpText<"Specify name of main file output in depfile">; def MV : Flag<["-"], "MV">, Group, Flags<[CC1Option]>, HelpText<"Use NMake/Jom format for the depfile">; def Mach : Flag<["-"], "Mach">, Group; def O0 : Flag<["-"], "O0">, Group, Flags<[CC1Option, HelpHidden]>; def O4 : Flag<["-"], "O4">, Group, Flags<[CC1Option, HelpHidden]>; def ObjCXX : Flag<["-"], "ObjC++">, Flags<[DriverOption]>, HelpText<"Treat source input files as Objective-C++ inputs">; def ObjC : Flag<["-"], "ObjC">, Flags<[DriverOption]>, HelpText<"Treat source input files as Objective-C inputs">; def O : Joined<["-"], "O">, Group, Flags<[CC1Option]>; def O_flag : Flag<["-"], "O">, Flags<[CC1Option]>, Alias, AliasArgs<["2"]>; def Ofast : Joined<["-"], "Ofast">, Group, Flags<[CC1Option]>; def P : Flag<["-"], "P">, Flags<[CC1Option]>, Group, HelpText<"Disable linemarker output in -E mode">; def Qn : Flag<["-"], "Qn">, IgnoredGCCCompat; def Qunused_arguments : Flag<["-"], "Qunused-arguments">, Flags<[DriverOption, CoreOption]>, HelpText<"Don't emit warning for unused driver arguments">; def Q : Flag<["-"], "Q">, IgnoredGCCCompat; def Rpass_EQ : Joined<["-"], "Rpass=">, Group, Flags<[CC1Option]>, HelpText<"Report transformations performed by optimization passes whose " "name matches the given POSIX regular expression">; def Rpass_missed_EQ : Joined<["-"], "Rpass-missed=">, Group, Flags<[CC1Option]>, HelpText<"Report missed transformations by optimization passes whose " "name matches the given POSIX regular expression">; def Rpass_analysis_EQ : Joined<["-"], "Rpass-analysis=">, Group, Flags<[CC1Option]>, HelpText<"Report transformation analysis from optimization passes whose " "name matches the given POSIX regular expression">; def R_Joined : Joined<["-"], "R">, Group, Flags<[CC1Option, CoreOption]>, MetaVarName<"">, HelpText<"Enable the specified remark">; def S : Flag<["-"], "S">, Flags<[DriverOption,CC1Option]>, Group, HelpText<"Only run preprocess and compilation steps">; def Tbss : JoinedOrSeparate<["-"], "Tbss">, Group, MetaVarName<"">, HelpText<"Set starting address of BSS to ">; def Tdata : JoinedOrSeparate<["-"], "Tdata">, Group, MetaVarName<"">, HelpText<"Set starting address of BSS to ">; def Ttext : JoinedOrSeparate<["-"], "Ttext">, Group, MetaVarName<"">, HelpText<"Set starting address of BSS to ">; def T : JoinedOrSeparate<["-"], "T">, Group, MetaVarName<"