/* $NetBSD: divremtest.c,v 1.4 2002/02/21 07:38:15 itojun Exp $ */ /*- * Copyright (c) 2002 Ross Harvey * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * Redistributions of source code must not add the GNU General Public * License or any similar license to this work or to derivative works * incorporating this code. No requirement to distribute source may * be imposed upon redistributions in binary form of this work or of * derivative works. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #define KLE 3 // exponent for k and l salt values #define NEARBY 600 // all numbers +-NEARBY 0 and INTxx_MIN will be tried #define RANDOMCOUNT 300000 // number of random(3)-based cases to run #define IM(x) ((intmax_t)(x)) #define UIM(x) ((uintmax_t)(x)) #define TEST(id, a, b, c) \ if (b) { \ c = (a) / (b); \ printf(id "%16jx / %16jx => %16jx\n", UIM(a), UIM(b), UIM(c)); \ c = (a) % (b); \ printf(id "%16jx / %16jx => %16jx\n", UIM(a), UIM(b), UIM(c)); \ } #define T64S(a, b, c) TEST("64 ", (a), (b), (c)) #define T64U(a, b, c) TEST("64U", (a), (b), (c)) union { char ranstate[128]; long alignme; } ranalign; int enable_time_output; void mark_time(const int phase) { static time_t startphase; time_t t; t = time(NULL); if (enable_time_output && phase != 0) { fprintf(stderr, "phase %d/6: %5d seconds\n", phase, (int)(t - startphase)); fflush(stderr); } startphase = t; } int main(int ac, char **av) { int32_t a32, b32, sr32; uint32_t ur32; intmax_t a64, b64, sr64; uintmax_t ur64; int i, j, k, l; enable_time_output = ac <= 1; mark_time(0); for(i = KLE; i <= 30; ++i) { a32 = 1 << i; for(j = KLE; j <= 30; ++j) { b32 = 1 << j; for(k = -(1 << KLE); k <= 1 << KLE; ++k) { for(l = -(1 << KLE); l <= 1 << KLE; ++l) { TEST("32 ", a32 + k, b32 + l, sr32); TEST("32 ", a32 + k, -(b32 + l), sr32); TEST("32 ", -(a32 + k), b32 + l, sr32); TEST("32 ", -(a32 + k), -(b32 + l), sr32); assert((1U << i) + k >= 0); assert((1U << j) + l >= 0); TEST("32U", (1U << i) + k, (1U << j) + l, ur32); } } } } mark_time(1); for(a32 = -NEARBY; a32 < NEARBY; ++a32) { for(b32 = -NEARBY; b32 < NEARBY; ++b32) { TEST("32 ", a32, b32, sr32); if (a32 >= 0 && b32 >= 0) TEST("32U", (unsigned)a32, (unsigned)b32, ur32); } } mark_time(2); for(a32 = INT32_MIN; a32 < INT32_MIN + NEARBY; ++a32) { for(b32 = INT32_MIN; b32 < INT32_MIN + NEARBY; ++b32) TEST("32 ", a32, b32, sr32); for(b32 = -NEARBY; b32 < NEARBY; ++b32) if (a32 != INT32_MIN || b32 != -1) TEST("32 ", a32, b32, sr32); } mark_time(3); if (sizeof(intmax_t) == 4) exit(0); for(i = KLE; i <= 62; ++i) { a64 = IM(1) << i; for(j = KLE; j <= 62; ++j) { b64 = IM(1) << j; for(k = -(1 << KLE); k <= 1 << KLE; ++k) { for(l = -(1 << KLE); l <= 1 << KLE; ++l) { T64S( a64 + k, b64 + l, sr64); T64S( a64 + k, -b64 + l, sr64); T64S(-a64 + k, b64 + l, sr64); T64S(-a64 + k, -b64 + l, sr64); T64U(UIM(a64) + k, UIM(b64) + l, ur64); } } } } mark_time(4); for(a64 = -(1 << KLE); a64 < 1 << KLE; ++a64) { for(b64 = -(1 << KLE); b64 < 1 << KLE; ++b64) { TEST("64 ", a64, b64, sr64); if (a64 >= 0 && b64 >= 0) TEST("64U", (unsigned)a64, (unsigned)b64, ur64); } } for(a64 = INT64_MIN; a64 < INT64_MIN + NEARBY; ++a64) { for(b64 = INT64_MIN; b64 < INT64_MIN + NEARBY; ++b64) TEST("64 ", a64, b64, sr64); for(b64 = -NEARBY; b64 < NEARBY; ++b64) if (a64 != INT64_MIN || b64 != -1) TEST("64 ", a64, b64, sr64); } mark_time(5); initstate(1UL, ranalign.ranstate, sizeof ranalign.ranstate); for(i = 0; i < RANDOMCOUNT; ++i) { int32_t low32 = random(); int64_t low64 = (intmax_t)random() << 32 | low32; a32 = random(); b32 = random(); a64 = ((intmax_t)random() << 32) | a32; b64 = ((intmax_t)random() << 32) | b32; TEST("32 ", a32, b32, sr32); TEST("32u", (unsigned)a32 + low32, (unsigned)b32 + low32, ur32); TEST("32 ", -a32 - 1, b32, sr32); TEST("32 ", a32, -b32, sr32); if (a32 != INT32_MAX || b32 != 1) TEST("32 ", -a32 - 1, -b32, sr32); TEST("64 ", a64, b64, sr64); TEST("64u", (unsigned)a64 + low64, (unsigned)b64 + low64, ur64); TEST("64 ", -a64 - 1, b64, sr64); TEST("64 ", a64, -b64, sr64); if (a64 != INT64_MAX || b64 != 1) TEST("64 ", -a64 - 1, -b64, sr64); } mark_time(6); exit(0); return 0; }