/* * Copyright 2016 The Emscripten Authors. All rights reserved. * Emscripten is available under two separate licenses, the MIT license and the * University of Illinois/NCSA Open Source License. Both these licenses can be * found in the LICENSE file. */ #include #include #include #include #include #include void printFloat(double n) { if (isnan(n)) { printf("nan"); } else { printf("%f", n); } } void dump(const char *name, float64x2 vec) { printf("%s: ", name); printFloat(emscripten_float64x2_extractLane(vec, 0)); printf(" "); printFloat(emscripten_float64x2_extractLane(vec, 1)); printf("\n"); } #define DUMP(V) dump(#V, (V)) void dumpBytes(const char *name, const void *bytes, int n) { printf("%s:", name); for(int i = 0; i < n; ++i) printf(" %02X", ((uint8_t*)bytes)[i]); printf("\n"); } #define DUMPBYTES(name, bytes) dumpBytes(name, bytes, sizeof(bytes)) int main() { float64x2 v = emscripten_float64x2_set(-1.5f, 2.5f); DUMP(v); float64x2 w = emscripten_float64x2_splat(1.5f); DUMP(w); DUMP(emscripten_float64x2_add(v, w)); DUMP(emscripten_float64x2_sub(v, w)); DUMP(emscripten_float64x2_mul(v, w)); DUMP(emscripten_float64x2_div(v, w)); DUMP(emscripten_float64x2_max(v, w)); DUMP(emscripten_float64x2_min(v, w)); DUMP(emscripten_float64x2_maxNum(v, w)); DUMP(emscripten_float64x2_minNum(v, w)); DUMP(emscripten_float64x2_neg(v)); DUMP(emscripten_float64x2_sqrt(v)); float64x2 rcp = emscripten_float64x2_reciprocalApproximation(v); assert(fabs(emscripten_float64x2_extractLane(rcp, 0) - 1.0 / emscripten_float64x2_extractLane(v, 0)) < 0.1); assert(fabs(emscripten_float64x2_extractLane(rcp, 1) - 1.0 / emscripten_float64x2_extractLane(v, 1)) < 0.1); float64x2 rcpSqrt = emscripten_float64x2_reciprocalSqrtApproximation(v); // assert(isnan(emscripten_float64x2_extractLane(rcpSqrt, 0))); XXX TODO Enable once Float64x2 type lands in SIMD.js. assert(fabs(emscripten_float64x2_extractLane(rcpSqrt, 1) - 1.0 / sqrt(emscripten_float64x2_extractLane(v, 1))) < 0.1); DUMP(emscripten_float64x2_abs(v)); DUMP(emscripten_float64x2_and(v, w)); DUMP(emscripten_float64x2_xor(v, w)); DUMP(emscripten_float64x2_or(v, w)); DUMP(emscripten_float64x2_not(v)); DUMP(emscripten_float64x2_lessThan(v, w)); DUMP(emscripten_float64x2_lessThanOrEqual(v, w)); DUMP(emscripten_float64x2_greaterThan(v, w)); DUMP(emscripten_float64x2_greaterThanOrEqual(v, w)); DUMP(emscripten_float64x2_equal(v, w)); DUMP(emscripten_float64x2_notEqual(v, w)); //bool64x2 b = emscripten_int64x2_set(0, -1); // TODO: Can't yet use this form, no int64x2. //DUMP(emscripten_float64x2_select(b, v, w)); DUMP(emscripten_float64x2_replaceLane(v, 0, 9.f)); DUMP(emscripten_float64x2_replaceLane(v, 1, -3.f)); uint8_t bytes[16]; memset(bytes, 0xFF, sizeof(bytes)); emscripten_float64x2_store(bytes, v); DUMPBYTES("emscripten_float64x2_store", bytes); memset(bytes, 0xFF, sizeof(bytes)); emscripten_float64x2_store1(bytes, v); DUMPBYTES("emscripten_float64x2_store1", bytes); emscripten_float64x2_store(bytes, v); DUMP(emscripten_float64x2_load(bytes)); DUMP(emscripten_float64x2_load1(bytes)); // TODO: emscripten_float64x2_fromFloat64x2Bits // TODO: emscripten_float64x2_fromInt64x2Bits // TODO: emscripten_float64x2_fromUint64x2Bits // TODO: emscripten_float64x2_fromInt16x8Bits // TODO: emscripten_float64x2_fromUint16x8Bits // TODO: emscripten_float64x2_fromInt8x16Bits // TODO: emscripten_float64x2_fromUint8x16Bits // TODO: emscripten_float64x2_fromInt64x2 // TODO: emscripten_float64x2_fromUint64x2 DUMP(emscripten_float64x2_swizzle(v, 0, 1)); DUMP(emscripten_float64x2_swizzle(v, 1, 0)); DUMP(emscripten_float64x2_swizzle(v, 0, 0)); DUMP(emscripten_float64x2_swizzle(v, 1, 1)); float64x2 z = emscripten_float64x2_set(-5.5f, 20.5f); DUMP(z); DUMP(emscripten_float64x2_shuffle(v, z, 0, 0)); DUMP(emscripten_float64x2_shuffle(v, z, 2, 2)); DUMP(emscripten_float64x2_shuffle(v, z, 3, 3)); DUMP(emscripten_float64x2_shuffle(v, z, 0, 2)); DUMP(emscripten_float64x2_shuffle(v, z, 3, 1)); printf("Done!\n"); }