Index: vendor/pcg-c/20190718-83252d9/include/pcg_variants.h =================================================================== --- vendor/pcg-c/20190718-83252d9/include/pcg_variants.h (nonexistent) +++ vendor/pcg-c/20190718-83252d9/include/pcg_variants.h (revision 363718) @@ -0,0 +1,2544 @@ +/* + * PCG Random Number Generation for C. + * + * Copyright 2014-2019 Melissa O'Neill , + * and the PCG Project contributors. + * + * SPDX-License-Identifier: (Apache-2.0 OR MIT) + * + * Licensed under the Apache License, Version 2.0 (provided in + * LICENSE-APACHE.txt and at http://www.apache.org/licenses/LICENSE-2.0) + * or under the MIT license (provided in LICENSE-MIT.txt and at + * http://opensource.org/licenses/MIT), at your option. This file may not + * be copied, modified, or distributed except according to those terms. + * + * Distributed on an "AS IS" BASIS, WITHOUT WARRANTY OF ANY KIND, either + * express or implied. See your chosen license for details. + * + * For additional information about the PCG random number generation scheme, + * visit http://www.pcg-random.org/. + */ + +/* + * This code is derived from the canonical C++ PCG implementation, which + * has many additional features and is preferable if you can use C++ in + * your project. + * + * Much of the derivation was performed mechanically. In particular, the + * output functions were generated by compiling the C++ output functions + * into LLVM bitcode and then transforming that using the LLVM C backend + * (from https://github.com/draperlaboratory/llvm-cbe), and then + * postprocessing and hand editing the output. + * + * Much of the remaining code was generated by C-preprocessor metaprogramming. + */ + +#ifndef PCG_VARIANTS_H_INCLUDED +#define PCG_VARIANTS_H_INCLUDED 1 + +#include + +#if __SIZEOF_INT128__ + typedef __uint128_t pcg128_t; + #define PCG_128BIT_CONSTANT(high,low) \ + ((((pcg128_t)high) << 64) + low) + #define PCG_HAS_128BIT_OPS 1 +#endif + +#if __GNUC_GNU_INLINE__ && !defined(__cplusplus) + #error Nonstandard GNU inlining semantics. Compile with -std=c99 or better. + /* We could instead use macros PCG_INLINE and PCG_EXTERN_INLINE + but better to just reject ancient C code. */ +#endif + +#if __cplusplus +extern "C" { +#endif + +/* + * Rotate helper functions. + */ + +inline uint8_t pcg_rotr_8(uint8_t value, unsigned int rot) +{ +/* Unfortunately, clang is kinda pathetic when it comes to properly + * recognizing idiomatic rotate code, so for clang we actually provide + * assembler directives (enabled with PCG_USE_INLINE_ASM). Boo, hiss. + */ +#if PCG_USE_INLINE_ASM && __clang__ && (__x86_64__ || __i386__) + asm ("rorb %%cl, %0" : "=r" (value) : "0" (value), "c" (rot)); + return value; +#else + return (value >> rot) | (value << ((- rot) & 7)); +#endif +} + +inline uint16_t pcg_rotr_16(uint16_t value, unsigned int rot) +{ +#if PCG_USE_INLINE_ASM && __clang__ && (__x86_64__ || __i386__) + asm ("rorw %%cl, %0" : "=r" (value) : "0" (value), "c" (rot)); + return value; +#else + return (value >> rot) | (value << ((- rot) & 15)); +#endif +} + +inline uint32_t pcg_rotr_32(uint32_t value, unsigned int rot) +{ +#if PCG_USE_INLINE_ASM && __clang__ && (__x86_64__ || __i386__) + asm ("rorl %%cl, %0" : "=r" (value) : "0" (value), "c" (rot)); + return value; +#else + return (value >> rot) | (value << ((- rot) & 31)); +#endif +} + +inline uint64_t pcg_rotr_64(uint64_t value, unsigned int rot) +{ +#if 0 && PCG_USE_INLINE_ASM && __clang__ && __x86_64__ + /* For whatever reason, clang actually *does* generate rotq by + itself, so we don't need this code. */ + asm ("rorq %%cl, %0" : "=r" (value) : "0" (value), "c" (rot)); + return value; +#else + return (value >> rot) | (value << ((- rot) & 63)); +#endif +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_rotr_128(pcg128_t value, unsigned int rot) +{ + return (value >> rot) | (value << ((- rot) & 127)); +} +#endif + +/* + * Output functions. These are the core of the PCG generation scheme. + */ + +/* XSH RS */ + +inline uint8_t pcg_output_xsh_rs_16_8(uint16_t state) +{ + return (uint8_t)(((state >> 7u) ^ state) >> ((state >> 14u) + 3u)); +} + +inline uint16_t pcg_output_xsh_rs_32_16(uint32_t state) +{ + return (uint16_t)(((state >> 11u) ^ state) >> ((state >> 30u) + 11u)); +} + +inline uint32_t pcg_output_xsh_rs_64_32(uint64_t state) +{ + + return (uint32_t)(((state >> 22u) ^ state) >> ((state >> 61u) + 22u)); +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_output_xsh_rs_128_64(pcg128_t state) +{ + return (uint64_t)(((state >> 43u) ^ state) >> ((state >> 124u) + 45u)); +} +#endif + +/* XSH RR */ + +inline uint8_t pcg_output_xsh_rr_16_8(uint16_t state) +{ + return pcg_rotr_8(((state >> 5u) ^ state) >> 5u, state >> 13u); +} + +inline uint16_t pcg_output_xsh_rr_32_16(uint32_t state) +{ + return pcg_rotr_16(((state >> 10u) ^ state) >> 12u, state >> 28u); +} + +inline uint32_t pcg_output_xsh_rr_64_32(uint64_t state) +{ + return pcg_rotr_32(((state >> 18u) ^ state) >> 27u, state >> 59u); +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_output_xsh_rr_128_64(pcg128_t state) +{ + return pcg_rotr_64(((state >> 35u) ^ state) >> 58u, state >> 122u); +} +#endif + +/* RXS M XS */ + +inline uint8_t pcg_output_rxs_m_xs_8_8(uint8_t state) +{ + uint8_t word = ((state >> ((state >> 6u) + 2u)) ^ state) * 217u; + return (word >> 6u) ^ word; +} + +inline uint16_t pcg_output_rxs_m_xs_16_16(uint16_t state) +{ + uint16_t word = ((state >> ((state >> 13u) + 3u)) ^ state) * 62169u; + return (word >> 11u) ^ word; +} + +inline uint32_t pcg_output_rxs_m_xs_32_32(uint32_t state) +{ + uint32_t word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u; + return (word >> 22u) ^ word; +} + +inline uint64_t pcg_output_rxs_m_xs_64_64(uint64_t state) +{ + uint64_t word = ((state >> ((state >> 59u) + 5u)) ^ state) + * 12605985483714917081ull; + return (word >> 43u) ^ word; +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_output_rxs_m_xs_128_128(pcg128_t state) +{ + pcg128_t word = ((state >> ((state >> 122u) + 6u)) ^ state) + * (PCG_128BIT_CONSTANT(17766728186571221404ULL, + 12605985483714917081ULL)); + /* 327738287884841127335028083622016905945 */ + return (word >> 86u) ^ word; +} +#endif + +/* RXS M */ + +inline uint8_t pcg_output_rxs_m_16_8(uint16_t state) +{ + return (((state >> ((state >> 13u) + 3u)) ^ state) * 62169u) >> 8u; +} + +inline uint16_t pcg_output_rxs_m_32_16(uint32_t state) +{ + return (((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u) >> 16u; +} + +inline uint32_t pcg_output_rxs_m_64_32(uint64_t state) +{ + return (((state >> ((state >> 59u) + 5u)) ^ state) + * 12605985483714917081ull) >> 32u; +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_output_rxs_m_128_64(pcg128_t state) +{ + return (((state >> ((state >> 122u) + 6u)) ^ state) + * (PCG_128BIT_CONSTANT(17766728186571221404ULL, + 12605985483714917081ULL))) >> 64u; + /* 327738287884841127335028083622016905945 */ +} +#endif + +/* XSL RR (only defined for >= 64 bits) */ + +inline uint32_t pcg_output_xsl_rr_64_32(uint64_t state) +{ + return pcg_rotr_32(((uint32_t)(state >> 32u)) ^ (uint32_t)state, + state >> 59u); +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_output_xsl_rr_128_64(pcg128_t state) +{ + return pcg_rotr_64(((uint64_t)(state >> 64u)) ^ (uint64_t)state, + state >> 122u); +} +#endif + +/* XSL RR RR (only defined for >= 64 bits) */ + +inline uint64_t pcg_output_xsl_rr_rr_64_64(uint64_t state) +{ + uint32_t rot1 = (uint32_t)(state >> 59u); + uint32_t high = (uint32_t)(state >> 32u); + uint32_t low = (uint32_t)state; + uint32_t xored = high ^ low; + uint32_t newlow = pcg_rotr_32(xored, rot1); + uint32_t newhigh = pcg_rotr_32(high, newlow & 31u); + return (((uint64_t)newhigh) << 32u) | newlow; +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_output_xsl_rr_rr_128_128(pcg128_t state) +{ + uint32_t rot1 = (uint32_t)(state >> 122u); + uint64_t high = (uint64_t)(state >> 64u); + uint64_t low = (uint64_t)state; + uint64_t xored = high ^ low; + uint64_t newlow = pcg_rotr_64(xored, rot1); + uint64_t newhigh = pcg_rotr_64(high, newlow & 63u); + return (((pcg128_t)newhigh) << 64u) | newlow; +} +#endif + +#define PCG_DEFAULT_MULTIPLIER_8 141U +#define PCG_DEFAULT_MULTIPLIER_16 12829U +#define PCG_DEFAULT_MULTIPLIER_32 747796405U +#define PCG_DEFAULT_MULTIPLIER_64 6364136223846793005ULL + +#define PCG_DEFAULT_INCREMENT_8 77U +#define PCG_DEFAULT_INCREMENT_16 47989U +#define PCG_DEFAULT_INCREMENT_32 2891336453U +#define PCG_DEFAULT_INCREMENT_64 1442695040888963407ULL + +#if PCG_HAS_128BIT_OPS +#define PCG_DEFAULT_MULTIPLIER_128 \ + PCG_128BIT_CONSTANT(2549297995355413924ULL,4865540595714422341ULL) +#define PCG_DEFAULT_INCREMENT_128 \ + PCG_128BIT_CONSTANT(6364136223846793005ULL,1442695040888963407ULL) +#endif + +/* + * Static initialization constants (if you can't call srandom for some + * bizarre reason). + */ + +#define PCG_STATE_ONESEQ_8_INITIALIZER { 0xd7U } +#define PCG_STATE_ONESEQ_16_INITIALIZER { 0x20dfU } +#define PCG_STATE_ONESEQ_32_INITIALIZER { 0x46b56677U } +#define PCG_STATE_ONESEQ_64_INITIALIZER { 0x4d595df4d0f33173ULL } +#if PCG_HAS_128BIT_OPS +#define PCG_STATE_ONESEQ_128_INITIALIZER \ + { PCG_128BIT_CONSTANT(0xb8dc10e158a92392ULL, 0x98046df007ec0a53ULL) } +#endif + +#define PCG_STATE_UNIQUE_8_INITIALIZER PCG_STATE_ONESEQ_8_INITIALIZER +#define PCG_STATE_UNIQUE_16_INITIALIZER PCG_STATE_ONESEQ_16_INITIALIZER +#define PCG_STATE_UNIQUE_32_INITIALIZER PCG_STATE_ONESEQ_32_INITIALIZER +#define PCG_STATE_UNIQUE_64_INITIALIZER PCG_STATE_ONESEQ_64_INITIALIZER +#if PCG_HAS_128BIT_OPS +#define PCG_STATE_UNIQUE_128_INITIALIZER PCG_STATE_ONESEQ_128_INITIALIZER +#endif + +#define PCG_STATE_MCG_8_INITIALIZER { 0xe5U } +#define PCG_STATE_MCG_16_INITIALIZER { 0xa5e5U } +#define PCG_STATE_MCG_32_INITIALIZER { 0xd15ea5e5U } +#define PCG_STATE_MCG_64_INITIALIZER { 0xcafef00dd15ea5e5ULL } +#if PCG_HAS_128BIT_OPS +#define PCG_STATE_MCG_128_INITIALIZER \ + { PCG_128BIT_CONSTANT(0x0000000000000000ULL, 0xcafef00dd15ea5e5ULL) } +#endif + +#define PCG_STATE_SETSEQ_8_INITIALIZER { 0x9bU, 0xdbU } +#define PCG_STATE_SETSEQ_16_INITIALIZER { 0xe39bU, 0x5bdbU } +#define PCG_STATE_SETSEQ_32_INITIALIZER { 0xec02d89bU, 0x94b95bdbU } +#define PCG_STATE_SETSEQ_64_INITIALIZER \ + { 0x853c49e6748fea9bULL, 0xda3e39cb94b95bdbULL } +#if PCG_HAS_128BIT_OPS +#define PCG_STATE_SETSEQ_128_INITIALIZER \ + { PCG_128BIT_CONSTANT(0x979c9a98d8462005ULL, 0x7d3e9cb6cfe0549bULL), \ + PCG_128BIT_CONSTANT(0x0000000000000001ULL, 0xda3e39cb94b95bdbULL) } +#endif + +/* Representations for the oneseq, mcg, and unique variants */ + +struct pcg_state_8 { + uint8_t state; +}; + +struct pcg_state_16 { + uint16_t state; +}; + +struct pcg_state_32 { + uint32_t state; +}; + +struct pcg_state_64 { + uint64_t state; +}; + +#if PCG_HAS_128BIT_OPS +struct pcg_state_128 { + pcg128_t state; +}; +#endif + +/* Representations setseq variants */ + +struct pcg_state_setseq_8 { + uint8_t state; + uint8_t inc; +}; + +struct pcg_state_setseq_16 { + uint16_t state; + uint16_t inc; +}; + +struct pcg_state_setseq_32 { + uint32_t state; + uint32_t inc; +}; + +struct pcg_state_setseq_64 { + uint64_t state; + uint64_t inc; +}; + +#if PCG_HAS_128BIT_OPS +struct pcg_state_setseq_128 { + pcg128_t state; + pcg128_t inc; +}; +#endif + +/* Multi-step advance functions (jump-ahead, jump-back) */ + +extern uint8_t pcg_advance_lcg_8(uint8_t state, uint8_t delta, uint8_t cur_mult, + uint8_t cur_plus); +extern uint16_t pcg_advance_lcg_16(uint16_t state, uint16_t delta, + uint16_t cur_mult, uint16_t cur_plus); +extern uint32_t pcg_advance_lcg_32(uint32_t state, uint32_t delta, + uint32_t cur_mult, uint32_t cur_plus); +extern uint64_t pcg_advance_lcg_64(uint64_t state, uint64_t delta, + uint64_t cur_mult, uint64_t cur_plus); + +#if PCG_HAS_128BIT_OPS +extern pcg128_t pcg_advance_lcg_128(pcg128_t state, pcg128_t delta, + pcg128_t cur_mult, pcg128_t cur_plus); +#endif + +/* Functions to advance the underlying LCG, one version for each size and + * each style. These functions are considered semi-private. There is rarely + * a good reason to call them directly. + */ + +inline void pcg_oneseq_8_step_r(struct pcg_state_8* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_8 + + PCG_DEFAULT_INCREMENT_8; +} + +inline void pcg_oneseq_8_advance_r(struct pcg_state_8* rng, uint8_t delta) +{ + rng->state = pcg_advance_lcg_8(rng->state, delta, PCG_DEFAULT_MULTIPLIER_8, + PCG_DEFAULT_INCREMENT_8); +} + +inline void pcg_mcg_8_step_r(struct pcg_state_8* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_8; +} + +inline void pcg_mcg_8_advance_r(struct pcg_state_8* rng, uint8_t delta) +{ + rng->state + = pcg_advance_lcg_8(rng->state, delta, PCG_DEFAULT_MULTIPLIER_8, 0u); +} + +inline void pcg_unique_8_step_r(struct pcg_state_8* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_8 + + (uint8_t)(((intptr_t)rng) | 1u); +} + +inline void pcg_unique_8_advance_r(struct pcg_state_8* rng, uint8_t delta) +{ + rng->state = pcg_advance_lcg_8(rng->state, delta, PCG_DEFAULT_MULTIPLIER_8, + (uint8_t)(((intptr_t)rng) | 1u)); +} + +inline void pcg_setseq_8_step_r(struct pcg_state_setseq_8* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_8 + rng->inc; +} + +inline void pcg_setseq_8_advance_r(struct pcg_state_setseq_8* rng, + uint8_t delta) +{ + rng->state = pcg_advance_lcg_8(rng->state, delta, PCG_DEFAULT_MULTIPLIER_8, + rng->inc); +} + +inline void pcg_oneseq_16_step_r(struct pcg_state_16* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_16 + + PCG_DEFAULT_INCREMENT_16; +} + +inline void pcg_oneseq_16_advance_r(struct pcg_state_16* rng, uint16_t delta) +{ + rng->state = pcg_advance_lcg_16( + rng->state, delta, PCG_DEFAULT_MULTIPLIER_16, PCG_DEFAULT_INCREMENT_16); +} + +inline void pcg_mcg_16_step_r(struct pcg_state_16* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_16; +} + +inline void pcg_mcg_16_advance_r(struct pcg_state_16* rng, uint16_t delta) +{ + rng->state + = pcg_advance_lcg_16(rng->state, delta, PCG_DEFAULT_MULTIPLIER_16, 0u); +} + +inline void pcg_unique_16_step_r(struct pcg_state_16* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_16 + + (uint16_t)(((intptr_t)rng) | 1u); +} + +inline void pcg_unique_16_advance_r(struct pcg_state_16* rng, uint16_t delta) +{ + rng->state + = pcg_advance_lcg_16(rng->state, delta, PCG_DEFAULT_MULTIPLIER_16, + (uint16_t)(((intptr_t)rng) | 1u)); +} + +inline void pcg_setseq_16_step_r(struct pcg_state_setseq_16* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_16 + rng->inc; +} + +inline void pcg_setseq_16_advance_r(struct pcg_state_setseq_16* rng, + uint16_t delta) +{ + rng->state = pcg_advance_lcg_16(rng->state, delta, + PCG_DEFAULT_MULTIPLIER_16, rng->inc); +} + +inline void pcg_oneseq_32_step_r(struct pcg_state_32* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_32 + + PCG_DEFAULT_INCREMENT_32; +} + +inline void pcg_oneseq_32_advance_r(struct pcg_state_32* rng, uint32_t delta) +{ + rng->state = pcg_advance_lcg_32( + rng->state, delta, PCG_DEFAULT_MULTIPLIER_32, PCG_DEFAULT_INCREMENT_32); +} + +inline void pcg_mcg_32_step_r(struct pcg_state_32* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_32; +} + +inline void pcg_mcg_32_advance_r(struct pcg_state_32* rng, uint32_t delta) +{ + rng->state + = pcg_advance_lcg_32(rng->state, delta, PCG_DEFAULT_MULTIPLIER_32, 0u); +} + +inline void pcg_unique_32_step_r(struct pcg_state_32* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_32 + + (uint32_t)(((intptr_t)rng) | 1u); +} + +inline void pcg_unique_32_advance_r(struct pcg_state_32* rng, uint32_t delta) +{ + rng->state + = pcg_advance_lcg_32(rng->state, delta, PCG_DEFAULT_MULTIPLIER_32, + (uint32_t)(((intptr_t)rng) | 1u)); +} + +inline void pcg_setseq_32_step_r(struct pcg_state_setseq_32* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_32 + rng->inc; +} + +inline void pcg_setseq_32_advance_r(struct pcg_state_setseq_32* rng, + uint32_t delta) +{ + rng->state = pcg_advance_lcg_32(rng->state, delta, + PCG_DEFAULT_MULTIPLIER_32, rng->inc); +} + +inline void pcg_oneseq_64_step_r(struct pcg_state_64* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_64 + + PCG_DEFAULT_INCREMENT_64; +} + +inline void pcg_oneseq_64_advance_r(struct pcg_state_64* rng, uint64_t delta) +{ + rng->state = pcg_advance_lcg_64( + rng->state, delta, PCG_DEFAULT_MULTIPLIER_64, PCG_DEFAULT_INCREMENT_64); +} + +inline void pcg_mcg_64_step_r(struct pcg_state_64* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_64; +} + +inline void pcg_mcg_64_advance_r(struct pcg_state_64* rng, uint64_t delta) +{ + rng->state + = pcg_advance_lcg_64(rng->state, delta, PCG_DEFAULT_MULTIPLIER_64, 0u); +} + +inline void pcg_unique_64_step_r(struct pcg_state_64* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_64 + + (uint64_t)(((intptr_t)rng) | 1u); +} + +inline void pcg_unique_64_advance_r(struct pcg_state_64* rng, uint64_t delta) +{ + rng->state + = pcg_advance_lcg_64(rng->state, delta, PCG_DEFAULT_MULTIPLIER_64, + (uint64_t)(((intptr_t)rng) | 1u)); +} + +inline void pcg_setseq_64_step_r(struct pcg_state_setseq_64* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_64 + rng->inc; +} + +inline void pcg_setseq_64_advance_r(struct pcg_state_setseq_64* rng, + uint64_t delta) +{ + rng->state = pcg_advance_lcg_64(rng->state, delta, + PCG_DEFAULT_MULTIPLIER_64, rng->inc); +} + +#if PCG_HAS_128BIT_OPS +inline void pcg_oneseq_128_step_r(struct pcg_state_128* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_128 + + PCG_DEFAULT_INCREMENT_128; +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_oneseq_128_advance_r(struct pcg_state_128* rng, pcg128_t delta) +{ + rng->state + = pcg_advance_lcg_128(rng->state, delta, PCG_DEFAULT_MULTIPLIER_128, + PCG_DEFAULT_INCREMENT_128); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_mcg_128_step_r(struct pcg_state_128* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_128; +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_mcg_128_advance_r(struct pcg_state_128* rng, pcg128_t delta) +{ + rng->state = pcg_advance_lcg_128(rng->state, delta, + PCG_DEFAULT_MULTIPLIER_128, 0u); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_unique_128_step_r(struct pcg_state_128* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_128 + + (pcg128_t)(((intptr_t)rng) | 1u); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_unique_128_advance_r(struct pcg_state_128* rng, pcg128_t delta) +{ + rng->state + = pcg_advance_lcg_128(rng->state, delta, PCG_DEFAULT_MULTIPLIER_128, + (pcg128_t)(((intptr_t)rng) | 1u)); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_setseq_128_step_r(struct pcg_state_setseq_128* rng) +{ + rng->state = rng->state * PCG_DEFAULT_MULTIPLIER_128 + rng->inc; +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_setseq_128_advance_r(struct pcg_state_setseq_128* rng, + pcg128_t delta) +{ + rng->state = pcg_advance_lcg_128(rng->state, delta, + PCG_DEFAULT_MULTIPLIER_128, rng->inc); +} +#endif + +/* Functions to seed the RNG state, one version for each size and each + * style. Unlike the step functions, regular users can and should call + * these functions. + */ + +inline void pcg_oneseq_8_srandom_r(struct pcg_state_8* rng, uint8_t initstate) +{ + rng->state = 0U; + pcg_oneseq_8_step_r(rng); + rng->state += initstate; + pcg_oneseq_8_step_r(rng); +} + +inline void pcg_mcg_8_srandom_r(struct pcg_state_8* rng, uint8_t initstate) +{ + rng->state = initstate | 1u; +} + +inline void pcg_unique_8_srandom_r(struct pcg_state_8* rng, uint8_t initstate) +{ + rng->state = 0U; + pcg_unique_8_step_r(rng); + rng->state += initstate; + pcg_unique_8_step_r(rng); +} + +inline void pcg_setseq_8_srandom_r(struct pcg_state_setseq_8* rng, + uint8_t initstate, uint8_t initseq) +{ + rng->state = 0U; + rng->inc = (initseq << 1u) | 1u; + pcg_setseq_8_step_r(rng); + rng->state += initstate; + pcg_setseq_8_step_r(rng); +} + +inline void pcg_oneseq_16_srandom_r(struct pcg_state_16* rng, + uint16_t initstate) +{ + rng->state = 0U; + pcg_oneseq_16_step_r(rng); + rng->state += initstate; + pcg_oneseq_16_step_r(rng); +} + +inline void pcg_mcg_16_srandom_r(struct pcg_state_16* rng, uint16_t initstate) +{ + rng->state = initstate | 1u; +} + +inline void pcg_unique_16_srandom_r(struct pcg_state_16* rng, + uint16_t initstate) +{ + rng->state = 0U; + pcg_unique_16_step_r(rng); + rng->state += initstate; + pcg_unique_16_step_r(rng); +} + +inline void pcg_setseq_16_srandom_r(struct pcg_state_setseq_16* rng, + uint16_t initstate, uint16_t initseq) +{ + rng->state = 0U; + rng->inc = (initseq << 1u) | 1u; + pcg_setseq_16_step_r(rng); + rng->state += initstate; + pcg_setseq_16_step_r(rng); +} + +inline void pcg_oneseq_32_srandom_r(struct pcg_state_32* rng, + uint32_t initstate) +{ + rng->state = 0U; + pcg_oneseq_32_step_r(rng); + rng->state += initstate; + pcg_oneseq_32_step_r(rng); +} + +inline void pcg_mcg_32_srandom_r(struct pcg_state_32* rng, uint32_t initstate) +{ + rng->state = initstate | 1u; +} + +inline void pcg_unique_32_srandom_r(struct pcg_state_32* rng, + uint32_t initstate) +{ + rng->state = 0U; + pcg_unique_32_step_r(rng); + rng->state += initstate; + pcg_unique_32_step_r(rng); +} + +inline void pcg_setseq_32_srandom_r(struct pcg_state_setseq_32* rng, + uint32_t initstate, uint32_t initseq) +{ + rng->state = 0U; + rng->inc = (initseq << 1u) | 1u; + pcg_setseq_32_step_r(rng); + rng->state += initstate; + pcg_setseq_32_step_r(rng); +} + +inline void pcg_oneseq_64_srandom_r(struct pcg_state_64* rng, + uint64_t initstate) +{ + rng->state = 0U; + pcg_oneseq_64_step_r(rng); + rng->state += initstate; + pcg_oneseq_64_step_r(rng); +} + +inline void pcg_mcg_64_srandom_r(struct pcg_state_64* rng, uint64_t initstate) +{ + rng->state = initstate | 1u; +} + +inline void pcg_unique_64_srandom_r(struct pcg_state_64* rng, + uint64_t initstate) +{ + rng->state = 0U; + pcg_unique_64_step_r(rng); + rng->state += initstate; + pcg_unique_64_step_r(rng); +} + +inline void pcg_setseq_64_srandom_r(struct pcg_state_setseq_64* rng, + uint64_t initstate, uint64_t initseq) +{ + rng->state = 0U; + rng->inc = (initseq << 1u) | 1u; + pcg_setseq_64_step_r(rng); + rng->state += initstate; + pcg_setseq_64_step_r(rng); +} + +#if PCG_HAS_128BIT_OPS +inline void pcg_oneseq_128_srandom_r(struct pcg_state_128* rng, + pcg128_t initstate) +{ + rng->state = 0U; + pcg_oneseq_128_step_r(rng); + rng->state += initstate; + pcg_oneseq_128_step_r(rng); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_mcg_128_srandom_r(struct pcg_state_128* rng, pcg128_t initstate) +{ + rng->state = initstate | 1u; +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_unique_128_srandom_r(struct pcg_state_128* rng, + pcg128_t initstate) +{ + rng->state = 0U; + pcg_unique_128_step_r(rng); + rng->state += initstate; + pcg_unique_128_step_r(rng); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline void pcg_setseq_128_srandom_r(struct pcg_state_setseq_128* rng, + pcg128_t initstate, pcg128_t initseq) +{ + rng->state = 0U; + rng->inc = (initseq << 1u) | 1u; + pcg_setseq_128_step_r(rng); + rng->state += initstate; + pcg_setseq_128_step_r(rng); +} +#endif + +/* Now, finally we create each of the individual generators. We provide + * a random_r function that provides a random number of the appropriate + * type (using the full range of the type) and a boundedrand_r version + * that provides + * + * Implementation notes for boundedrand_r: + * + * To avoid bias, we need to make the range of the RNG a multiple of + * bound, which we do by dropping output less than a threshold. + * Let's consider a 32-bit case... A naive scheme to calculate the + * threshold would be to do + * + * uint32_t threshold = 0x100000000ull % bound; + * + * but 64-bit div/mod is slower than 32-bit div/mod (especially on + * 32-bit platforms). In essence, we do + * + * uint32_t threshold = (0x100000000ull-bound) % bound; + * + * because this version will calculate the same modulus, but the LHS + * value is less than 2^32. + * + * (Note that using modulo is only wise for good RNGs, poorer RNGs + * such as raw LCGs do better using a technique based on division.) + * Empricical tests show that division is preferable to modulus for + * reducting the range of an RNG. It's faster, and sometimes it can + * even be statistically prefereable. + */ + +/* Generation functions for XSH RS */ + +inline uint8_t pcg_oneseq_16_xsh_rs_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_oneseq_16_step_r(rng); + return pcg_output_xsh_rs_16_8(oldstate); +} + +inline uint8_t pcg_oneseq_16_xsh_rs_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_oneseq_16_xsh_rs_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_oneseq_32_xsh_rs_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_oneseq_32_step_r(rng); + return pcg_output_xsh_rs_32_16(oldstate); +} + +inline uint16_t pcg_oneseq_32_xsh_rs_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_oneseq_32_xsh_rs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_oneseq_64_xsh_rs_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_oneseq_64_step_r(rng); + return pcg_output_xsh_rs_64_32(oldstate); +} + +inline uint32_t pcg_oneseq_64_xsh_rs_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_oneseq_64_xsh_rs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_oneseq_128_xsh_rs_64_random_r(struct pcg_state_128* rng) +{ + pcg_oneseq_128_step_r(rng); + return pcg_output_xsh_rs_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_oneseq_128_xsh_rs_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_oneseq_128_xsh_rs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_unique_16_xsh_rs_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_unique_16_step_r(rng); + return pcg_output_xsh_rs_16_8(oldstate); +} + +inline uint8_t pcg_unique_16_xsh_rs_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_unique_16_xsh_rs_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_unique_32_xsh_rs_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_unique_32_step_r(rng); + return pcg_output_xsh_rs_32_16(oldstate); +} + +inline uint16_t pcg_unique_32_xsh_rs_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_unique_32_xsh_rs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_unique_64_xsh_rs_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_unique_64_step_r(rng); + return pcg_output_xsh_rs_64_32(oldstate); +} + +inline uint32_t pcg_unique_64_xsh_rs_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_unique_64_xsh_rs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_unique_128_xsh_rs_64_random_r(struct pcg_state_128* rng) +{ + pcg_unique_128_step_r(rng); + return pcg_output_xsh_rs_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_unique_128_xsh_rs_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_unique_128_xsh_rs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_setseq_16_xsh_rs_8_random_r(struct pcg_state_setseq_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_setseq_16_step_r(rng); + return pcg_output_xsh_rs_16_8(oldstate); +} + +inline uint8_t +pcg_setseq_16_xsh_rs_8_boundedrand_r(struct pcg_state_setseq_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_setseq_16_xsh_rs_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t +pcg_setseq_32_xsh_rs_16_random_r(struct pcg_state_setseq_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_setseq_32_step_r(rng); + return pcg_output_xsh_rs_32_16(oldstate); +} + +inline uint16_t +pcg_setseq_32_xsh_rs_16_boundedrand_r(struct pcg_state_setseq_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_setseq_32_xsh_rs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t +pcg_setseq_64_xsh_rs_32_random_r(struct pcg_state_setseq_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_setseq_64_step_r(rng); + return pcg_output_xsh_rs_64_32(oldstate); +} + +inline uint32_t +pcg_setseq_64_xsh_rs_32_boundedrand_r(struct pcg_state_setseq_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_setseq_64_xsh_rs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_xsh_rs_64_random_r(struct pcg_state_setseq_128* rng) +{ + pcg_setseq_128_step_r(rng); + return pcg_output_xsh_rs_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_xsh_rs_64_boundedrand_r(struct pcg_state_setseq_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_setseq_128_xsh_rs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_mcg_16_xsh_rs_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_mcg_16_step_r(rng); + return pcg_output_xsh_rs_16_8(oldstate); +} + +inline uint8_t pcg_mcg_16_xsh_rs_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_mcg_16_xsh_rs_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_mcg_32_xsh_rs_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_mcg_32_step_r(rng); + return pcg_output_xsh_rs_32_16(oldstate); +} + +inline uint16_t pcg_mcg_32_xsh_rs_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_mcg_32_xsh_rs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_mcg_64_xsh_rs_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_mcg_64_step_r(rng); + return pcg_output_xsh_rs_64_32(oldstate); +} + +inline uint32_t pcg_mcg_64_xsh_rs_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_mcg_64_xsh_rs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_xsh_rs_64_random_r(struct pcg_state_128* rng) +{ + pcg_mcg_128_step_r(rng); + return pcg_output_xsh_rs_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_xsh_rs_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_mcg_128_xsh_rs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +/* Generation functions for XSH RR */ + +inline uint8_t pcg_oneseq_16_xsh_rr_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_oneseq_16_step_r(rng); + return pcg_output_xsh_rr_16_8(oldstate); +} + +inline uint8_t pcg_oneseq_16_xsh_rr_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_oneseq_16_xsh_rr_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_oneseq_32_xsh_rr_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_oneseq_32_step_r(rng); + return pcg_output_xsh_rr_32_16(oldstate); +} + +inline uint16_t pcg_oneseq_32_xsh_rr_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_oneseq_32_xsh_rr_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_oneseq_64_xsh_rr_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_oneseq_64_step_r(rng); + return pcg_output_xsh_rr_64_32(oldstate); +} + +inline uint32_t pcg_oneseq_64_xsh_rr_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_oneseq_64_xsh_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_oneseq_128_xsh_rr_64_random_r(struct pcg_state_128* rng) +{ + pcg_oneseq_128_step_r(rng); + return pcg_output_xsh_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_oneseq_128_xsh_rr_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_oneseq_128_xsh_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_unique_16_xsh_rr_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_unique_16_step_r(rng); + return pcg_output_xsh_rr_16_8(oldstate); +} + +inline uint8_t pcg_unique_16_xsh_rr_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_unique_16_xsh_rr_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_unique_32_xsh_rr_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_unique_32_step_r(rng); + return pcg_output_xsh_rr_32_16(oldstate); +} + +inline uint16_t pcg_unique_32_xsh_rr_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_unique_32_xsh_rr_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_unique_64_xsh_rr_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_unique_64_step_r(rng); + return pcg_output_xsh_rr_64_32(oldstate); +} + +inline uint32_t pcg_unique_64_xsh_rr_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_unique_64_xsh_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_unique_128_xsh_rr_64_random_r(struct pcg_state_128* rng) +{ + pcg_unique_128_step_r(rng); + return pcg_output_xsh_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_unique_128_xsh_rr_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_unique_128_xsh_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_setseq_16_xsh_rr_8_random_r(struct pcg_state_setseq_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_setseq_16_step_r(rng); + return pcg_output_xsh_rr_16_8(oldstate); +} + +inline uint8_t +pcg_setseq_16_xsh_rr_8_boundedrand_r(struct pcg_state_setseq_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_setseq_16_xsh_rr_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t +pcg_setseq_32_xsh_rr_16_random_r(struct pcg_state_setseq_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_setseq_32_step_r(rng); + return pcg_output_xsh_rr_32_16(oldstate); +} + +inline uint16_t +pcg_setseq_32_xsh_rr_16_boundedrand_r(struct pcg_state_setseq_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_setseq_32_xsh_rr_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t +pcg_setseq_64_xsh_rr_32_random_r(struct pcg_state_setseq_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_setseq_64_step_r(rng); + return pcg_output_xsh_rr_64_32(oldstate); +} + +inline uint32_t +pcg_setseq_64_xsh_rr_32_boundedrand_r(struct pcg_state_setseq_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_setseq_64_xsh_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_xsh_rr_64_random_r(struct pcg_state_setseq_128* rng) +{ + pcg_setseq_128_step_r(rng); + return pcg_output_xsh_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_xsh_rr_64_boundedrand_r(struct pcg_state_setseq_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_setseq_128_xsh_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_mcg_16_xsh_rr_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_mcg_16_step_r(rng); + return pcg_output_xsh_rr_16_8(oldstate); +} + +inline uint8_t pcg_mcg_16_xsh_rr_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_mcg_16_xsh_rr_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_mcg_32_xsh_rr_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_mcg_32_step_r(rng); + return pcg_output_xsh_rr_32_16(oldstate); +} + +inline uint16_t pcg_mcg_32_xsh_rr_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_mcg_32_xsh_rr_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_mcg_64_xsh_rr_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_mcg_64_step_r(rng); + return pcg_output_xsh_rr_64_32(oldstate); +} + +inline uint32_t pcg_mcg_64_xsh_rr_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_mcg_64_xsh_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_xsh_rr_64_random_r(struct pcg_state_128* rng) +{ + pcg_mcg_128_step_r(rng); + return pcg_output_xsh_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_xsh_rr_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_mcg_128_xsh_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +/* Generation functions for RXS M XS (no MCG versions because they + * don't make sense when you want to use the entire state) + */ + +inline uint8_t pcg_oneseq_8_rxs_m_xs_8_random_r(struct pcg_state_8* rng) +{ + uint8_t oldstate = rng->state; + pcg_oneseq_8_step_r(rng); + return pcg_output_rxs_m_xs_8_8(oldstate); +} + +inline uint8_t pcg_oneseq_8_rxs_m_xs_8_boundedrand_r(struct pcg_state_8* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_oneseq_8_rxs_m_xs_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_oneseq_16_rxs_m_xs_16_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_oneseq_16_step_r(rng); + return pcg_output_rxs_m_xs_16_16(oldstate); +} + +inline uint16_t +pcg_oneseq_16_rxs_m_xs_16_boundedrand_r(struct pcg_state_16* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_oneseq_16_rxs_m_xs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_oneseq_32_rxs_m_xs_32_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_oneseq_32_step_r(rng); + return pcg_output_rxs_m_xs_32_32(oldstate); +} + +inline uint32_t +pcg_oneseq_32_rxs_m_xs_32_boundedrand_r(struct pcg_state_32* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_oneseq_32_rxs_m_xs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint64_t pcg_oneseq_64_rxs_m_xs_64_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_oneseq_64_step_r(rng); + return pcg_output_rxs_m_xs_64_64(oldstate); +} + +inline uint64_t +pcg_oneseq_64_rxs_m_xs_64_boundedrand_r(struct pcg_state_64* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_oneseq_64_rxs_m_xs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_oneseq_128_rxs_m_xs_128_random_r(struct pcg_state_128* rng) +{ + pcg_oneseq_128_step_r(rng); + return pcg_output_rxs_m_xs_128_128(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_oneseq_128_rxs_m_xs_128_boundedrand_r(struct pcg_state_128* rng, + pcg128_t bound) +{ + pcg128_t threshold = -bound % bound; + for (;;) { + pcg128_t r = pcg_oneseq_128_rxs_m_xs_128_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint16_t pcg_unique_16_rxs_m_xs_16_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_unique_16_step_r(rng); + return pcg_output_rxs_m_xs_16_16(oldstate); +} + +inline uint16_t +pcg_unique_16_rxs_m_xs_16_boundedrand_r(struct pcg_state_16* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_unique_16_rxs_m_xs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_unique_32_rxs_m_xs_32_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_unique_32_step_r(rng); + return pcg_output_rxs_m_xs_32_32(oldstate); +} + +inline uint32_t +pcg_unique_32_rxs_m_xs_32_boundedrand_r(struct pcg_state_32* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_unique_32_rxs_m_xs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint64_t pcg_unique_64_rxs_m_xs_64_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_unique_64_step_r(rng); + return pcg_output_rxs_m_xs_64_64(oldstate); +} + +inline uint64_t +pcg_unique_64_rxs_m_xs_64_boundedrand_r(struct pcg_state_64* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_unique_64_rxs_m_xs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_unique_128_rxs_m_xs_128_random_r(struct pcg_state_128* rng) +{ + pcg_unique_128_step_r(rng); + return pcg_output_rxs_m_xs_128_128(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_unique_128_rxs_m_xs_128_boundedrand_r(struct pcg_state_128* rng, + pcg128_t bound) +{ + pcg128_t threshold = -bound % bound; + for (;;) { + pcg128_t r = pcg_unique_128_rxs_m_xs_128_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_setseq_8_rxs_m_xs_8_random_r(struct pcg_state_setseq_8* rng) +{ + uint8_t oldstate = rng->state; + pcg_setseq_8_step_r(rng); + return pcg_output_rxs_m_xs_8_8(oldstate); +} + +inline uint8_t +pcg_setseq_8_rxs_m_xs_8_boundedrand_r(struct pcg_state_setseq_8* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_setseq_8_rxs_m_xs_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t +pcg_setseq_16_rxs_m_xs_16_random_r(struct pcg_state_setseq_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_setseq_16_step_r(rng); + return pcg_output_rxs_m_xs_16_16(oldstate); +} + +inline uint16_t +pcg_setseq_16_rxs_m_xs_16_boundedrand_r(struct pcg_state_setseq_16* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_setseq_16_rxs_m_xs_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t +pcg_setseq_32_rxs_m_xs_32_random_r(struct pcg_state_setseq_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_setseq_32_step_r(rng); + return pcg_output_rxs_m_xs_32_32(oldstate); +} + +inline uint32_t +pcg_setseq_32_rxs_m_xs_32_boundedrand_r(struct pcg_state_setseq_32* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_setseq_32_rxs_m_xs_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint64_t +pcg_setseq_64_rxs_m_xs_64_random_r(struct pcg_state_setseq_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_setseq_64_step_r(rng); + return pcg_output_rxs_m_xs_64_64(oldstate); +} + +inline uint64_t +pcg_setseq_64_rxs_m_xs_64_boundedrand_r(struct pcg_state_setseq_64* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_setseq_64_rxs_m_xs_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_setseq_128_rxs_m_xs_128_random_r(struct pcg_state_setseq_128* rng) +{ + pcg_setseq_128_step_r(rng); + return pcg_output_rxs_m_xs_128_128(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_setseq_128_rxs_m_xs_128_boundedrand_r(struct pcg_state_setseq_128* rng, + pcg128_t bound) +{ + pcg128_t threshold = -bound % bound; + for (;;) { + pcg128_t r = pcg_setseq_128_rxs_m_xs_128_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +/* Generation functions for RXS M */ + +inline uint8_t pcg_oneseq_16_rxs_m_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_oneseq_16_step_r(rng); + return pcg_output_rxs_m_16_8(oldstate); +} + +inline uint8_t pcg_oneseq_16_rxs_m_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_oneseq_16_rxs_m_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_oneseq_32_rxs_m_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_oneseq_32_step_r(rng); + return pcg_output_rxs_m_32_16(oldstate); +} + +inline uint16_t pcg_oneseq_32_rxs_m_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_oneseq_32_rxs_m_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_oneseq_64_rxs_m_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_oneseq_64_step_r(rng); + return pcg_output_rxs_m_64_32(oldstate); +} + +inline uint32_t pcg_oneseq_64_rxs_m_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_oneseq_64_rxs_m_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_oneseq_128_rxs_m_64_random_r(struct pcg_state_128* rng) +{ + pcg_oneseq_128_step_r(rng); + return pcg_output_rxs_m_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_oneseq_128_rxs_m_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_oneseq_128_rxs_m_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_unique_16_rxs_m_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_unique_16_step_r(rng); + return pcg_output_rxs_m_16_8(oldstate); +} + +inline uint8_t pcg_unique_16_rxs_m_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_unique_16_rxs_m_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_unique_32_rxs_m_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_unique_32_step_r(rng); + return pcg_output_rxs_m_32_16(oldstate); +} + +inline uint16_t pcg_unique_32_rxs_m_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_unique_32_rxs_m_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_unique_64_rxs_m_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_unique_64_step_r(rng); + return pcg_output_rxs_m_64_32(oldstate); +} + +inline uint32_t pcg_unique_64_rxs_m_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_unique_64_rxs_m_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_unique_128_rxs_m_64_random_r(struct pcg_state_128* rng) +{ + pcg_unique_128_step_r(rng); + return pcg_output_rxs_m_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_unique_128_rxs_m_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_unique_128_rxs_m_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_setseq_16_rxs_m_8_random_r(struct pcg_state_setseq_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_setseq_16_step_r(rng); + return pcg_output_rxs_m_16_8(oldstate); +} + +inline uint8_t +pcg_setseq_16_rxs_m_8_boundedrand_r(struct pcg_state_setseq_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_setseq_16_rxs_m_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_setseq_32_rxs_m_16_random_r(struct pcg_state_setseq_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_setseq_32_step_r(rng); + return pcg_output_rxs_m_32_16(oldstate); +} + +inline uint16_t +pcg_setseq_32_rxs_m_16_boundedrand_r(struct pcg_state_setseq_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_setseq_32_rxs_m_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_setseq_64_rxs_m_32_random_r(struct pcg_state_setseq_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_setseq_64_step_r(rng); + return pcg_output_rxs_m_64_32(oldstate); +} + +inline uint32_t +pcg_setseq_64_rxs_m_32_boundedrand_r(struct pcg_state_setseq_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_setseq_64_rxs_m_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_rxs_m_64_random_r(struct pcg_state_setseq_128* rng) +{ + pcg_setseq_128_step_r(rng); + return pcg_output_rxs_m_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_rxs_m_64_boundedrand_r(struct pcg_state_setseq_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_setseq_128_rxs_m_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint8_t pcg_mcg_16_rxs_m_8_random_r(struct pcg_state_16* rng) +{ + uint16_t oldstate = rng->state; + pcg_mcg_16_step_r(rng); + return pcg_output_rxs_m_16_8(oldstate); +} + +inline uint8_t pcg_mcg_16_rxs_m_8_boundedrand_r(struct pcg_state_16* rng, + uint8_t bound) +{ + uint8_t threshold = ((uint8_t)(-bound)) % bound; + for (;;) { + uint8_t r = pcg_mcg_16_rxs_m_8_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint16_t pcg_mcg_32_rxs_m_16_random_r(struct pcg_state_32* rng) +{ + uint32_t oldstate = rng->state; + pcg_mcg_32_step_r(rng); + return pcg_output_rxs_m_32_16(oldstate); +} + +inline uint16_t pcg_mcg_32_rxs_m_16_boundedrand_r(struct pcg_state_32* rng, + uint16_t bound) +{ + uint16_t threshold = ((uint16_t)(-bound)) % bound; + for (;;) { + uint16_t r = pcg_mcg_32_rxs_m_16_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +inline uint32_t pcg_mcg_64_rxs_m_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_mcg_64_step_r(rng); + return pcg_output_rxs_m_64_32(oldstate); +} + +inline uint32_t pcg_mcg_64_rxs_m_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_mcg_64_rxs_m_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_rxs_m_64_random_r(struct pcg_state_128* rng) +{ + pcg_mcg_128_step_r(rng); + return pcg_output_rxs_m_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_rxs_m_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_mcg_128_rxs_m_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +/* Generation functions for XSL RR (only defined for "large" types) */ + +inline uint32_t pcg_oneseq_64_xsl_rr_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_oneseq_64_step_r(rng); + return pcg_output_xsl_rr_64_32(oldstate); +} + +inline uint32_t pcg_oneseq_64_xsl_rr_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_oneseq_64_xsl_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_oneseq_128_xsl_rr_64_random_r(struct pcg_state_128* rng) +{ + pcg_oneseq_128_step_r(rng); + return pcg_output_xsl_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_oneseq_128_xsl_rr_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_oneseq_128_xsl_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint32_t pcg_unique_64_xsl_rr_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_unique_64_step_r(rng); + return pcg_output_xsl_rr_64_32(oldstate); +} + +inline uint32_t pcg_unique_64_xsl_rr_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_unique_64_xsl_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_unique_128_xsl_rr_64_random_r(struct pcg_state_128* rng) +{ + pcg_unique_128_step_r(rng); + return pcg_output_xsl_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_unique_128_xsl_rr_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_unique_128_xsl_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint32_t +pcg_setseq_64_xsl_rr_32_random_r(struct pcg_state_setseq_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_setseq_64_step_r(rng); + return pcg_output_xsl_rr_64_32(oldstate); +} + +inline uint32_t +pcg_setseq_64_xsl_rr_32_boundedrand_r(struct pcg_state_setseq_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_setseq_64_xsl_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_xsl_rr_64_random_r(struct pcg_state_setseq_128* rng) +{ + pcg_setseq_128_step_r(rng); + return pcg_output_xsl_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t +pcg_setseq_128_xsl_rr_64_boundedrand_r(struct pcg_state_setseq_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_setseq_128_xsl_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint32_t pcg_mcg_64_xsl_rr_32_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_mcg_64_step_r(rng); + return pcg_output_xsl_rr_64_32(oldstate); +} + +inline uint32_t pcg_mcg_64_xsl_rr_32_boundedrand_r(struct pcg_state_64* rng, + uint32_t bound) +{ + uint32_t threshold = -bound % bound; + for (;;) { + uint32_t r = pcg_mcg_64_xsl_rr_32_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_xsl_rr_64_random_r(struct pcg_state_128* rng) +{ + pcg_mcg_128_step_r(rng); + return pcg_output_xsl_rr_128_64(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline uint64_t pcg_mcg_128_xsl_rr_64_boundedrand_r(struct pcg_state_128* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_mcg_128_xsl_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +/* Generation functions for XSL RR RR (only defined for "large" types) */ + +inline uint64_t pcg_oneseq_64_xsl_rr_rr_64_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_oneseq_64_step_r(rng); + return pcg_output_xsl_rr_rr_64_64(oldstate); +} + +inline uint64_t +pcg_oneseq_64_xsl_rr_rr_64_boundedrand_r(struct pcg_state_64* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_oneseq_64_xsl_rr_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_oneseq_128_xsl_rr_rr_128_random_r(struct pcg_state_128* rng) +{ + pcg_oneseq_128_step_r(rng); + return pcg_output_xsl_rr_rr_128_128(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_oneseq_128_xsl_rr_rr_128_boundedrand_r(struct pcg_state_128* rng, + pcg128_t bound) +{ + pcg128_t threshold = -bound % bound; + for (;;) { + pcg128_t r = pcg_oneseq_128_xsl_rr_rr_128_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint64_t pcg_unique_64_xsl_rr_rr_64_random_r(struct pcg_state_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_unique_64_step_r(rng); + return pcg_output_xsl_rr_rr_64_64(oldstate); +} + +inline uint64_t +pcg_unique_64_xsl_rr_rr_64_boundedrand_r(struct pcg_state_64* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_unique_64_xsl_rr_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t pcg_unique_128_xsl_rr_rr_128_random_r(struct pcg_state_128* rng) +{ + pcg_unique_128_step_r(rng); + return pcg_output_xsl_rr_rr_128_128(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_unique_128_xsl_rr_rr_128_boundedrand_r(struct pcg_state_128* rng, + pcg128_t bound) +{ + pcg128_t threshold = -bound % bound; + for (;;) { + pcg128_t r = pcg_unique_128_xsl_rr_rr_128_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +inline uint64_t +pcg_setseq_64_xsl_rr_rr_64_random_r(struct pcg_state_setseq_64* rng) +{ + uint64_t oldstate = rng->state; + pcg_setseq_64_step_r(rng); + return pcg_output_xsl_rr_rr_64_64(oldstate); +} + +inline uint64_t +pcg_setseq_64_xsl_rr_rr_64_boundedrand_r(struct pcg_state_setseq_64* rng, + uint64_t bound) +{ + uint64_t threshold = -bound % bound; + for (;;) { + uint64_t r = pcg_setseq_64_xsl_rr_rr_64_random_r(rng); + if (r >= threshold) + return r % bound; + } +} + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_setseq_128_xsl_rr_rr_128_random_r(struct pcg_state_setseq_128* rng) +{ + pcg_setseq_128_step_r(rng); + return pcg_output_xsl_rr_rr_128_128(rng->state); +} +#endif + +#if PCG_HAS_128BIT_OPS +inline pcg128_t +pcg_setseq_128_xsl_rr_rr_128_boundedrand_r(struct pcg_state_setseq_128* rng, + pcg128_t bound) +{ + pcg128_t threshold = -bound % bound; + for (;;) { + pcg128_t r = pcg_setseq_128_xsl_rr_rr_128_random_r(rng); + if (r >= threshold) + return r % bound; + } +} +#endif + +/*** Typedefs */ +typedef struct pcg_state_setseq_64 pcg32_random_t; +typedef struct pcg_state_64 pcg32s_random_t; +typedef struct pcg_state_64 pcg32u_random_t; +typedef struct pcg_state_64 pcg32f_random_t; +/*** random_r */ +#define pcg32_random_r pcg_setseq_64_xsh_rr_32_random_r +#define pcg32s_random_r pcg_oneseq_64_xsh_rr_32_random_r +#define pcg32u_random_r pcg_unique_64_xsh_rr_32_random_r +#define pcg32f_random_r pcg_mcg_64_xsh_rs_32_random_r +/*** boundedrand_r */ +#define pcg32_boundedrand_r pcg_setseq_64_xsh_rr_32_boundedrand_r +#define pcg32s_boundedrand_r pcg_oneseq_64_xsh_rr_32_boundedrand_r +#define pcg32u_boundedrand_r pcg_unique_64_xsh_rr_32_boundedrand_r +#define pcg32f_boundedrand_r pcg_mcg_64_xsh_rs_32_boundedrand_r +/*** srandom_r */ +#define pcg32_srandom_r pcg_setseq_64_srandom_r +#define pcg32s_srandom_r pcg_oneseq_64_srandom_r +#define pcg32u_srandom_r pcg_unique_64_srandom_r +#define pcg32f_srandom_r pcg_mcg_64_srandom_r +/*** advance_r */ +#define pcg32_advance_r pcg_setseq_64_advance_r +#define pcg32s_advance_r pcg_oneseq_64_advance_r +#define pcg32u_advance_r pcg_unique_64_advance_r +#define pcg32f_advance_r pcg_mcg_64_advance_r + +#if PCG_HAS_128BIT_OPS +/*** Typedefs */ +typedef struct pcg_state_setseq_128 pcg64_random_t; +typedef struct pcg_state_128 pcg64s_random_t; +typedef struct pcg_state_128 pcg64u_random_t; +typedef struct pcg_state_128 pcg64f_random_t; +/*** random_r */ +#define pcg64_random_r pcg_setseq_128_xsl_rr_64_random_r +#define pcg64s_random_r pcg_oneseq_128_xsl_rr_64_random_r +#define pcg64u_random_r pcg_unique_128_xsl_rr_64_random_r +#define pcg64f_random_r pcg_mcg_128_xsl_rr_64_random_r +/*** boundedrand_r */ +#define pcg64_boundedrand_r pcg_setseq_128_xsl_rr_64_boundedrand_r +#define pcg64s_boundedrand_r pcg_oneseq_128_xsl_rr_64_boundedrand_r +#define pcg64u_boundedrand_r pcg_unique_128_xsl_rr_64_boundedrand_r +#define pcg64f_boundedrand_r pcg_mcg_128_xsl_rr_64_boundedrand_r +/*** srandom_r */ +#define pcg64_srandom_r pcg_setseq_128_srandom_r +#define pcg64s_srandom_r pcg_oneseq_128_srandom_r +#define pcg64u_srandom_r pcg_unique_128_srandom_r +#define pcg64f_srandom_r pcg_mcg_128_srandom_r +/*** advance_r */ +#define pcg64_advance_r pcg_setseq_128_advance_r +#define pcg64s_advance_r pcg_oneseq_128_advance_r +#define pcg64u_advance_r pcg_unique_128_advance_r +#define pcg64f_advance_r pcg_mcg_128_advance_r +#endif + +/*** Typedefs */ +typedef struct pcg_state_8 pcg8si_random_t; +typedef struct pcg_state_16 pcg16si_random_t; +typedef struct pcg_state_32 pcg32si_random_t; +typedef struct pcg_state_64 pcg64si_random_t; +/*** random_r */ +#define pcg8si_random_r pcg_oneseq_8_rxs_m_xs_8_random_r +#define pcg16si_random_r pcg_oneseq_16_rxs_m_xs_16_random_r +#define pcg32si_random_r pcg_oneseq_32_rxs_m_xs_32_random_r +#define pcg64si_random_r pcg_oneseq_64_rxs_m_xs_64_random_r +/*** boundedrand_r */ +#define pcg8si_boundedrand_r pcg_oneseq_8_rxs_m_xs_8_boundedrand_r +#define pcg16si_boundedrand_r pcg_oneseq_16_rxs_m_xs_16_boundedrand_r +#define pcg32si_boundedrand_r pcg_oneseq_32_rxs_m_xs_32_boundedrand_r +#define pcg64si_boundedrand_r pcg_oneseq_64_rxs_m_xs_64_boundedrand_r +/*** srandom_r */ +#define pcg8si_srandom_r pcg_oneseq_8_srandom_r +#define pcg16si_srandom_r pcg_oneseq_16_srandom_r +#define pcg32si_srandom_r pcg_oneseq_32_srandom_r +#define pcg64si_srandom_r pcg_oneseq_64_srandom_r +/*** advance_r */ +#define pcg8si_advance_r pcg_oneseq_8_advance_r +#define pcg16si_advance_r pcg_oneseq_16_advance_r +#define pcg32si_advance_r pcg_oneseq_32_advance_r +#define pcg64si_advance_r pcg_oneseq_64_advance_r + +#if PCG_HAS_128BIT_OPS +typedef struct pcg_state_128 pcg128si_random_t; +#define pcg128si_random_r pcg_oneseq_128_rxs_m_xs_128_random_r +#define pcg128si_boundedrand_r pcg_oneseq_128_rxs_m_xs_128_boundedrand_r +#define pcg128si_srandom_r pcg_oneseq_128_srandom_r +#define pcg128si_advance_r pcg_oneseq_128_advance_r +#endif + +/*** Typedefs */ +typedef struct pcg_state_setseq_8 pcg8i_random_t; +typedef struct pcg_state_setseq_16 pcg16i_random_t; +typedef struct pcg_state_setseq_32 pcg32i_random_t; +typedef struct pcg_state_setseq_64 pcg64i_random_t; +/*** random_r */ +#define pcg8i_random_r pcg_setseq_8_rxs_m_xs_8_random_r +#define pcg16i_random_r pcg_setseq_16_rxs_m_xs_16_random_r +#define pcg32i_random_r pcg_setseq_32_rxs_m_xs_32_random_r +#define pcg64i_random_r pcg_setseq_64_rxs_m_xs_64_random_r +/*** boundedrand_r */ +#define pcg8i_boundedrand_r pcg_setseq_8_rxs_m_xs_8_boundedrand_r +#define pcg16i_boundedrand_r pcg_setseq_16_rxs_m_xs_16_boundedrand_r +#define pcg32i_boundedrand_r pcg_setseq_32_rxs_m_xs_32_boundedrand_r +#define pcg64i_boundedrand_r pcg_setseq_64_rxs_m_xs_64_boundedrand_r +/*** srandom_r */ +#define pcg8i_srandom_r pcg_setseq_8_srandom_r +#define pcg16i_srandom_r pcg_setseq_16_srandom_r +#define pcg32i_srandom_r pcg_setseq_32_srandom_r +#define pcg64i_srandom_r pcg_setseq_64_srandom_r +/*** advance_r */ +#define pcg8i_advance_r pcg_setseq_8_advance_r +#define pcg16i_advance_r pcg_setseq_16_advance_r +#define pcg32i_advance_r pcg_setseq_32_advance_r +#define pcg64i_advance_r pcg_setseq_64_advance_r + +#if PCG_HAS_128BIT_OPS +typedef struct pcg_state_setseq_128 pcg128i_random_t; +#define pcg128i_random_r pcg_setseq_128_rxs_m_xs_128_random_r +#define pcg128i_boundedrand_r pcg_setseq_128_rxs_m_xs_128_boundedrand_r +#define pcg128i_srandom_r pcg_setseq_128_srandom_r +#define pcg128i_advance_r pcg_setseq_128_advance_r +#endif + +extern uint32_t pcg32_random(void); +extern uint32_t pcg32_boundedrand(uint32_t bound); +extern void pcg32_srandom(uint64_t seed, uint64_t seq); +extern void pcg32_advance(uint64_t delta); + +#if PCG_HAS_128BIT_OPS +extern uint64_t pcg64_random(void); +extern uint64_t pcg64_boundedrand(uint64_t bound); +extern void pcg64_srandom(pcg128_t seed, pcg128_t seq); +extern void pcg64_advance(pcg128_t delta); +#endif + +/* + * Static initialization constants (if you can't call srandom for some + * bizarre reason). + */ + +#define PCG32_INITIALIZER PCG_STATE_SETSEQ_64_INITIALIZER +#define PCG32U_INITIALIZER PCG_STATE_UNIQUE_64_INITIALIZER +#define PCG32S_INITIALIZER PCG_STATE_ONESEQ_64_INITIALIZER +#define PCG32F_INITIALIZER PCG_STATE_MCG_64_INITIALIZER + +#if PCG_HAS_128BIT_OPS +#define PCG64_INITIALIZER PCG_STATE_SETSEQ_128_INITIALIZER +#define PCG64U_INITIALIZER PCG_STATE_UNIQUE_128_INITIALIZER +#define PCG64S_INITIALIZER PCG_STATE_ONESEQ_128_INITIALIZER +#define PCG64F_INITIALIZER PCG_STATE_MCG_128_INITIALIZER +#endif + +#define PCG8SI_INITIALIZER PCG_STATE_ONESEQ_8_INITIALIZER +#define PCG16SI_INITIALIZER PCG_STATE_ONESEQ_16_INITIALIZER +#define PCG32SI_INITIALIZER PCG_STATE_ONESEQ_32_INITIALIZER +#define PCG64SI_INITIALIZER PCG_STATE_ONESEQ_64_INITIALIZER +#if PCG_HAS_128BIT_OPS +#define PCG128SI_INITIALIZER PCG_STATE_ONESEQ_128_INITIALIZER +#endif + +#define PCG8I_INITIALIZER PCG_STATE_SETSEQ_8_INITIALIZER +#define PCG16I_INITIALIZER PCG_STATE_SETSEQ_16_INITIALIZER +#define PCG32I_INITIALIZER PCG_STATE_SETSEQ_32_INITIALIZER +#define PCG64I_INITIALIZER PCG_STATE_SETSEQ_64_INITIALIZER +#if PCG_HAS_128BIT_OPS +#define PCG128I_INITIALIZER PCG_STATE_SETSEQ_128_INITIALIZER +#endif + +#if __cplusplus +} +#endif + +#endif /* PCG_VARIANTS_H_INCLUDED */ + Property changes on: vendor/pcg-c/20190718-83252d9/include/pcg_variants.h ___________________________________________________________________ Added: svn:eol-style ## -0,0 +1 ## +native \ No newline at end of property Added: svn:keywords ## -0,0 +1 ## +FreeBSD=%H \ No newline at end of property Added: svn:mime-type ## -0,0 +1 ## +text/plain \ No newline at end of property