//===-- aeabi_cdcmpeq.c - Test __aeabi_cdcmpeq ----------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file tests __aeabi_cdcmpeq for the compiler_rt library. // //===----------------------------------------------------------------------===// #include #include #include #include #include #include "pico/stdlib.h" #include "inttypes.h" extern int __aeabi_dcmpun(double a, double b); #if __arm__ #include "call_apsr.h" extern __attribute__((pcs("aapcs"))) void __aeabi_cdcmpeq(double a, double b); int test__aeabi_cdcmpeq(double a, double b, int expected) { uint32_t cpsr_value = call_apsr_d(a, b, __aeabi_cdcmpeq); union cpsr cpsr = {.value = cpsr_value}; if (expected != cpsr.flags.z) { printf("error in __aeabi_cdcmpeq(%f, %f) => Z = %08x, expected %08x\n", a, b, cpsr.flags.z, expected); return 1; } return 0; } #endif int test_cdcmpeq() { #if __arm__ if (test__aeabi_cdcmpeq(1.0, 1.0, 1)) return 1; if (test__aeabi_cdcmpeq(1234.567, 765.4321, 0)) return 1; if (test__aeabi_cdcmpeq(-123.0, -678.0, 0)) return 1; if (test__aeabi_cdcmpeq(0.0, -0.0, 1)) return 1; if (test__aeabi_cdcmpeq(0.0, 0.0, 1)) return 1; if (test__aeabi_cdcmpeq(-0.0, -0.0, 1)) return 1; if (test__aeabi_cdcmpeq(-0.0, 0.0, 1)) return 1; if (test__aeabi_cdcmpeq(0.0, -1.0, 0)) return 1; if (test__aeabi_cdcmpeq(-0.0, -1.0, 0)) return 1; if (test__aeabi_cdcmpeq(-1.0, 0.0, 0)) return 1; if (test__aeabi_cdcmpeq(-1.0, -0.0, 0)) return 1; if (test__aeabi_cdcmpeq(1.0, NAN, 0)) return 1; if (test__aeabi_cdcmpeq(NAN, 1.0, 0)) return 1; if (test__aeabi_cdcmpeq(NAN, NAN, 0)) return 1; if (test__aeabi_cdcmpeq(INFINITY, 1.0, 0)) return 1; if (test__aeabi_cdcmpeq(0.0, INFINITY, 0)) return 1; if (test__aeabi_cdcmpeq(-INFINITY, 0.0, 0)) return 1; if (test__aeabi_cdcmpeq(0.0, -INFINITY, 0)) return 1; if (test__aeabi_cdcmpeq(INFINITY, INFINITY, 1)) return 1; if (test__aeabi_cdcmpeq(-INFINITY, -INFINITY, 1)) return 1; #else printf("skipped\n"); #endif return 0; } #if __arm__ extern __attribute__((pcs("aapcs"))) void __aeabi_cdcmple(double a, double b); extern __attribute__((pcs("aapcs"))) void __aeabi_cdrcmple(double a, double b); int test_dcmple_gt(double a, double b, int expected) { if ((a <= b) != expected) { printf("error in dcmple(%f, %f) => %d, expected %d\n", a, b, a <= b, expected); return 1; } if ((a > b) == expected && !isnan(a) && !isnan(b)) { printf("error in dcmpgt(%f, %f) => %d, expected %d\n", a, b, a > b, !expected); return 1; } return 0; } int test_dcmplt_ge(double a, double b, int expected) { if ((a < b) != expected) { printf("error in dcmplt(%f, %f) => %d, expected %d\n", a, b, a < b, expected); return 1; } if ((a >= b) == expected && !isnan(a) && !isnan(b)) { printf("error in dcmpge(%f, %f) => %d, expected %d\n", a, b, a >= b, !expected); return 1; } return 0; } int test__aeabi_cdcmple(double a, double b, int expected) { int32_t cpsr_value = call_apsr_d(a, b, __aeabi_cdcmple); int32_t r_cpsr_value = call_apsr_d(b, a, __aeabi_cdrcmple); int32_t cpsr_value2 = call_apsr_d(b, a, __aeabi_cdcmple); int32_t r_cpsr_value2 = call_apsr_d(a, b, __aeabi_cdrcmple); if (cpsr_value != r_cpsr_value) { printf("error: __aeabi_cdcmple(%f, %f) != __aeabi_cdrcmple(%f, %f)\n", a, b, b, a); return 1; } int expected_z, expected_c; if (expected == -1) { expected_z = 0; expected_c = 0; } else if (expected == 0) { expected_z = 1; expected_c = 1; } else { // a or b is NaN, or a > b expected_z = 0; expected_c = 1; } #if PICO_DOUBLE_COMPILER // gcc has this backwards it seems - not a good thing, but I guess it doesn't ever call them expected_c ^= 1; #endif union cpsr cpsr = {.value = cpsr_value}; if (expected_z != cpsr.flags.z || expected_c != cpsr.flags.c) { printf("error in __aeabi_cdcmple(%f, %f) => (Z = %d, C = %d), expected (Z = %d, C = %d)\n", a, b, cpsr.flags.z, cpsr.flags.c, expected_z, expected_c); return 1; } cpsr.value = r_cpsr_value; if (expected_z != cpsr.flags.z || expected_c != cpsr.flags.c) { printf("error in __aeabi_cfrcmple(%f, %f) => (Z = %d, C = %d), expected (Z = %d, C = %d)\n", a, b, cpsr.flags.z, cpsr.flags.c, expected_z, expected_c); return 1; } return 0; } #endif int test_cdcmple() { #if __arm__ if (test__aeabi_cdcmple(1.0, 1.0, 0)) return 1; if (test__aeabi_cdcmple(1234.567, 765.4321, 1)) return 1; if (test__aeabi_cdcmple(765.4321, 1234.567, -1)) return 1; if (test__aeabi_cdcmple(-123.0, -678.0, 1)) return 1; if (test__aeabi_cdcmple(-678.0, -123.0, -1)) return 1; if (test__aeabi_cdcmple(-123.0, 678.0, -1)) return 1; if (test__aeabi_cdcmple(678.0, -123.0, 1)) return 1; if (test__aeabi_cdcmple(0.0, -0.0, 0)) return 1; if (test__aeabi_cdcmple(1.0, NAN, 1)) return 1; if (test__aeabi_cdcmple(NAN, 1.0, 1)) return 1; if (test__aeabi_cdcmple(NAN, NAN, 1)) return 1; #else printf("skipped\n"); #endif return 0; } int test_cmple_gt() { if (test_dcmple_gt(1.0, 1.0, 1)) return 1; if (test_dcmple_gt(1234.567, 765.4321, 0)) return 1; if (test_dcmple_gt(765.4321, 1234.567, 1)) return 1; if (test_dcmple_gt(-123.0, -678.0, 0)) return 1; if (test_dcmple_gt(-678.0, -123.0, 1)) return 1; if (test_dcmple_gt(-123.0, 678.0, 1)) return 1; if (test_dcmple_gt(678.0, -123.0, 0)) return 1; if (test_dcmple_gt(0.0, -0.0, 1)) return 1; if (test_dcmple_gt(-0.0, 0.0, 1)) return 1; if (test_dcmple_gt(1.0, NAN, 0)) return 1; if (test_dcmple_gt(NAN, 1.0, 0)) return 1; if (test_dcmple_gt(NAN, NAN, 0)) return 1; return 0; } int test_cmplt_ge() { if (test_dcmplt_ge(1.0, 1.0, 0)) return 1; if (test_dcmplt_ge(1234.567, 765.4321, 0)) return 1; if (test_dcmplt_ge(765.4321, 1234.567, 1)) return 1; if (test_dcmplt_ge(-123.0, -678.0, 0)) return 1; if (test_dcmplt_ge(-678.0, -123.0, 1)) return 1; if (test_dcmplt_ge(-123.0, 678.0, 1)) return 1; if (test_dcmplt_ge(678.0, -123.0, 0)) return 1; if (test_dcmplt_ge(0.0, -0.0, 0)) return 1; if (test_dcmplt_ge(-0.0, 0.0, 0)) return 1; if (test_dcmplt_ge(1.0, NAN, 0)) return 1; if (test_dcmplt_ge(NAN, 1.0, 0)) return 1; if (test_dcmplt_ge(NAN, NAN, 0)) return 1; return 0; } int check_dcmpun(double a, double b, bool expected, bool expect_equal) { if (__aeabi_dcmpun(a, b) != expected) { printf("Failed dcmpun(%f, %f)\n", a, b); return 1; } if ((a == b) != expect_equal) { printf("Failed equality check %f %f\n", a, b); __breakpoint(); if (b == a) { printf("SAS\n"); } return 1; } return 0; } int test_dcmpun() { if (check_dcmpun(0, 0, false, true) || check_dcmpun(-INFINITY, INFINITY, false, false) || check_dcmpun(NAN, 0, true, false) || check_dcmpun(0, NAN, true, false) || check_dcmpun(NAN, NAN, true, false) || check_dcmpun(-NAN, NAN, true, false)) { return 1; } return 0; } double aa = 0.5; double bb = 1; int main() { setup_default_uart(); bool fail = false; printf("%d\n", aa < bb); for(double a = -1; a <= 1; a++) { for(double b = -1; b <= 1; b++) { printf("%f < %f ? %d\n", a, b, a < b); } } for(double a = -1; a <=1; a++) { for(double b = -1; b <= 1; b++) { printf("%f > %f ? %d\n", a, b, a > b); } } #if 1 for (double x = 0; x < 3; x++) { printf("\n ----- %g\n", x); printf("SQRT %10.18g\n", sqrt(x)); printf("COS %10.18g\n", cos(x)); printf("SIN %10.18g\n", sin(x)); printf("TAN %10.18g\n", tan(x)); printf("ATAN2 %10.18g\n", atan2(x, 10)); printf("ATAN2 %10.18g\n", atan2(10, x)); printf("EXP %10.18g\n", exp(x)); printf("LN %10.18g\n", log(x)); double s, c; sincos(x, &s, &c); printf("SINCOS %10.18f %10.18f\n", s, c); if (s != sin(x) || c != cos(x)) { printf("SINCOS mismatch\n"); fail = true; } } #if PICO_DOUBLE_PROPAGATE_NANS { float x = NAN; printf("NANO %10.18f\n", x); printf("SQRT %10.18f\n", sqrt(x)); printf("COS %10.18f\n", cos(x)); printf("SIN %10.18f\n", sin(x)); printf("TAN %10.18f\n", tan(x)); printf("ATAN2 %10.18f\n", atan2(x, 10)); printf("ATAN2 %10.18f\n", atan2(10, x)); printf("EXP %10.18f\n", exp(x)); printf("LN %10.18f\n", log(x)); printf("POW %10.18f\n", pow(x, x)); printf("TRUNC %10.18f\n", trunc(x)); printf("LDEXP %10.18f\n", ldexp(x, x)); printf("FMOD %10.18f\n", fmod(x, 3.0f)); double s, c; sincos(x, &s, &c); printf("SINCOS %10.18f %10.18f\n", s, c); for(int j=0;j<2;j++) { for (int i = 1; i < 4; i++) { char buf[4]; sprintf(buf, "%d", i); float f0 = -nanf(buf); double d0 = -nan(buf); // hmm nanf/nan seem to ignore payload *(uint64_t *) &d0 |= i; *(uint32_t *) &f0 |= i; if (j) { // try without top bit set *(uint64_t *) &d0 &= ~0x0008000000000000ull; *(uint32_t *) &f0 &= ~0x00400000u; } float f = (float) d0; double d = (double) f0; printf("f2d %f %08"PRIx32" -> %g %016"PRIx64"\n", f0, *(uint32_t *) &f0, d, *(uint64_t *) &d); printf("d2f %f %016"PRIx64" -> %f %08"PRIx32"\n", d0, *(uint64_t *) &d0, f, *(uint32_t *) &f); } } } #endif { int32_t y; // for (int32_t x = 0; x>-512; x--) { // printf("i %d->%f\n", (int)x, (float) x); // } for (int32_t x = -1; x; x <<= 1) { printf("i %d->%f\n", x, (double) x); } for (int32_t x = 1; x; x <<= 1) { printf("i %d->%f\n", x, (double) x); y = x << 1; } for (int64_t x = 1; x; x <<= 1) { printf("i %lld->%f\n", x, (double) x); y = x << 1; } for (int64_t x = -1; x; x <<= 1) { printf("i %lld->%f\n", x, (double) x); y = x << 1; } printf("d %d->%f\n", y, (float) y); } { uint32_t y; for(uint32_t x = 1; x; x <<= 1) { printf("u %u->%f\n", x, (double)x); y = x << 1; } printf("u %u->%f\n", y, (double)y); } for(int64_t x = 1; x !=0; x <<= 1u) { printf("%lld->%f\n", x, (double)x); } for(double x = -4294967296.f * 4294967296.f; x<=-0.5f; x/=2.f) { printf("d2i64 %f->%lld\n", x, (int64_t)x); } for(double x = 4294967296.f * 4294967296.f; x>=0.5f; x/=2.f) { printf("d2i64 %f->%lld\n", x, (int64_t)x); } for(double x = -4294967296.f * 4294967296.f; x<=-0.5f; x/=2.f) { printf("d2i32 %f->%d\n", x, (int32_t)x); } for(double x = 4294967296.f * 4294967296.f; x>=0.5f; x/=2.f) { printf("d2i32 %f->%d\n", x, (int32_t)x); } for (double x = 1; x < 11; x += 2) { double f = x * x; double g = 1.0 / x; printf("%g %10.18g %10.18g, %10.18g, %10.18g %10.18g\n", x, f, x + 0.37777777777777777777777777777, x - 0.377777777777777777777777777777, g, 123456789.0 / x); } if (fail || test_cdcmpeq() || test_cdcmple() || test_dcmpun() || test_cmple_gt() || test_cmplt_ge()) { printf("FAILED\n"); return 1; } else { printf("PASSED\n"); return 0; } #endif }