/* * random.c - random number generator for producing mathlib test cases * * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. * See https://llvm.org/LICENSE.txt for license information. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception */ #include "types.h" #include "random.h" static uint32 seedbuf[55]; static int seedptr; void seed_random(uint32 seed) { int i; seedptr = 0; for (i = 0; i < 55; i++) { seed = seed % 44488 * 48271 - seed / 44488 * 3399; seedbuf[i] = seed - 1; } } uint32 base_random(void) { seedptr %= 55; seedbuf[seedptr] += seedbuf[(seedptr+31)%55]; return seedbuf[seedptr++]; } uint32 random32(void) { uint32 a, b, b1, b2; a = base_random(); b = base_random(); for (b1 = 0x80000000, b2 = 1; b1 > b2; b1 >>= 1, b2 <<= 1) { uint32 b3 = b1 | b2; if ((b & b3) != 0 && (b & b3) != b3) b ^= b3; } return a ^ b; } /* * random_upto: generate a uniformly randomised number in the range * 0,...,limit-1. (Precondition: limit > 0.) * * random_upto_biased: generate a number in the same range, but with * the probability skewed towards the high end by means of taking the * maximum of 8*bias+1 samples from the uniform distribution on the * same range. (I don't know why bias is given in that curious way - * historical reasons, I expect.) * * For speed, I separate the implementation of random_upto into the * two stages of (a) generate a bitmask which reduces a 32-bit random * number to within a factor of two of the right range, (b) repeatedly * generate numbers in that range until one is small enough. Splitting * it up like that means that random_upto_biased can do (a) only once * even when it does (b) lots of times. */ static uint32 random_upto_makemask(uint32 limit) { uint32 mask = 0xFFFFFFFF; int i; for (i = 16; i > 0; i >>= 1) if ((limit & (mask >> i)) == limit) mask >>= i; return mask; } static uint32 random_upto_internal(uint32 limit, uint32 mask) { uint32 ret; do { ret = random32() & mask; } while (ret > limit); return ret; } uint32 random_upto(uint32 limit) { uint32 mask = random_upto_makemask(limit); return random_upto_internal(limit, mask); } uint32 random_upto_biased(uint32 limit, int bias) { uint32 mask = random_upto_makemask(limit); uint32 ret = random_upto_internal(limit, mask); while (bias--) { uint32 tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; tmp = random_upto_internal(limit, mask); if (tmp < ret) ret = tmp; } return ret; }