// Copyright 2009-2021 Intel Corporation // SPDX-License-Identifier: Apache-2.0 #pragma once #include "../sys/platform.h" #include "../sys/intrinsics.h" #include "constants.h" #include #if defined(EMBREE_SYCL_SUPPORT) && defined(__SYCL_DEVICE_ONLY__) # include "math_sycl.h" #else #if defined(__ARM_NEON) #include "../simd/arm/emulation.h" #else #include #include #include #endif #if defined(__WIN32__) #if defined(_MSC_VER) && (_MSC_VER <= 1700) namespace std { __forceinline bool isinf ( const float x ) { return _finite(x) == 0; } __forceinline bool isnan ( const float x ) { return _isnan(x) != 0; } __forceinline bool isfinite (const float x) { return _finite(x) != 0; } } #endif #endif namespace embree { __forceinline bool isvalid ( const float& v ) { return (v > -FLT_LARGE) & (v < +FLT_LARGE); } __forceinline int cast_f2i(float f) { union { float f; int i; } v; v.f = f; return v.i; } __forceinline float cast_i2f(int i) { union { float f; int i; } v; v.i = i; return v.f; } __forceinline int toInt (const float& a) { return int(a); } __forceinline float toFloat(const int& a) { return float(a); } __forceinline int asInt (const float& a) { return *((int*)&a); } __forceinline float asFloat(const int& a) { return *((float*)&a); } #if defined(__WIN32__) __forceinline bool finite ( const float x ) { return _finite(x) != 0; } #endif __forceinline float sign ( const float x ) { return x<0?-1.0f:1.0f; } __forceinline float sqr ( const float x ) { return x*x; } __forceinline float rcp ( const float x ) { #if defined(__aarch64__) // Move scalar to vector register and do rcp. __m128 a; a[0] = x; float32x4_t reciprocal = vrecpeq_f32(a); reciprocal = vmulq_f32(vrecpsq_f32(a, reciprocal), reciprocal); reciprocal = vmulq_f32(vrecpsq_f32(a, reciprocal), reciprocal); return reciprocal[0]; #else const __m128 a = _mm_set_ss(x); #if defined(__AVX512VL__) const __m128 r = _mm_rcp14_ss(_mm_set_ss(0.0f),a); #else const __m128 r = _mm_rcp_ss(a); #endif #if defined(__AVX2__) return _mm_cvtss_f32(_mm_mul_ss(r,_mm_fnmadd_ss(r, a, _mm_set_ss(2.0f)))); #else return _mm_cvtss_f32(_mm_mul_ss(r,_mm_sub_ss(_mm_set_ss(2.0f), _mm_mul_ss(r, a)))); #endif #endif //defined(__aarch64__) } __forceinline float signmsk ( const float x ) { #if defined(__aarch64__) // FP and Neon shares same vector register in arm64 __m128 a; __m128i b; a[0] = x; b[0] = 0x80000000; a = _mm_and_ps(a, vreinterpretq_f32_s32(b)); return a[0]; #else return _mm_cvtss_f32(_mm_and_ps(_mm_set_ss(x),_mm_castsi128_ps(_mm_set1_epi32(0x80000000)))); #endif } __forceinline float xorf( const float x, const float y ) { #if defined(__aarch64__) // FP and Neon shares same vector register in arm64 __m128 a; __m128 b; a[0] = x; b[0] = y; a = _mm_xor_ps(a, b); return a[0]; #else return _mm_cvtss_f32(_mm_xor_ps(_mm_set_ss(x),_mm_set_ss(y))); #endif } __forceinline float andf( const float x, const unsigned y ) { #if defined(__aarch64__) // FP and Neon shares same vector register in arm64 __m128 a; __m128i b; a[0] = x; b[0] = y; a = _mm_and_ps(a, vreinterpretq_f32_s32(b)); return a[0]; #else return _mm_cvtss_f32(_mm_and_ps(_mm_set_ss(x),_mm_castsi128_ps(_mm_set1_epi32(y)))); #endif } __forceinline float rsqrt( const float x ) { #if defined(__aarch64__) // FP and Neon shares same vector register in arm64 __m128 a; a[0] = x; __m128 value = _mm_rsqrt_ps(a); value = vmulq_f32(value, vrsqrtsq_f32(vmulq_f32(a, value), value)); value = vmulq_f32(value, vrsqrtsq_f32(vmulq_f32(a, value), value)); return value[0]; #else const __m128 a = _mm_set_ss(x); #if defined(__AVX512VL__) __m128 r = _mm_rsqrt14_ss(_mm_set_ss(0.0f),a); #else __m128 r = _mm_rsqrt_ss(a); #endif const __m128 c = _mm_add_ss(_mm_mul_ss(_mm_set_ss(1.5f), r), _mm_mul_ss(_mm_mul_ss(_mm_mul_ss(a, _mm_set_ss(-0.5f)), r), _mm_mul_ss(r, r))); return _mm_cvtss_f32(c); #endif } #if defined(__WIN32__) && defined(_MSC_VER) && (_MSC_VER <= 1700) __forceinline float nextafter(float x, float y) { if ((x0)) return x*(1.1f+float(ulp)); else return x*(0.9f-float(ulp)); } __forceinline double nextafter(double x, double y) { return _nextafter(x, y); } __forceinline int roundf(float f) { return (int)(f + 0.5f); } #else __forceinline float nextafter(float x, float y) { return ::nextafterf(x, y); } __forceinline double nextafter(double x, double y) { return ::nextafter(x, y); } #endif __forceinline float abs ( const float x ) { return ::fabsf(x); } __forceinline float acos ( const float x ) { return ::acosf (x); } __forceinline float asin ( const float x ) { return ::asinf (x); } __forceinline float atan ( const float x ) { return ::atanf (x); } __forceinline float atan2( const float y, const float x ) { return ::atan2f(y, x); } __forceinline float cos ( const float x ) { return ::cosf (x); } __forceinline float cosh ( const float x ) { return ::coshf (x); } __forceinline float exp ( const float x ) { return ::expf (x); } __forceinline float fmod ( const float x, const float y ) { return ::fmodf (x, y); } __forceinline float log ( const float x ) { return ::logf (x); } __forceinline float log10( const float x ) { return ::log10f(x); } __forceinline float pow ( const float x, const float y ) { return ::powf (x, y); } __forceinline float sin ( const float x ) { return ::sinf (x); } __forceinline float sinh ( const float x ) { return ::sinhf (x); } __forceinline float sqrt ( const float x ) { return ::sqrtf (x); } __forceinline float tan ( const float x ) { return ::tanf (x); } __forceinline float tanh ( const float x ) { return ::tanhf (x); } __forceinline float floor( const float x ) { return ::floorf (x); } __forceinline float ceil ( const float x ) { return ::ceilf (x); } __forceinline float frac ( const float x ) { return x-floor(x); } __forceinline double abs ( const double x ) { return ::fabs(x); } __forceinline double sign ( const double x ) { return x<0?-1.0:1.0; } __forceinline double acos ( const double x ) { return ::acos (x); } __forceinline double asin ( const double x ) { return ::asin (x); } __forceinline double atan ( const double x ) { return ::atan (x); } __forceinline double atan2( const double y, const double x ) { return ::atan2(y, x); } __forceinline double cos ( const double x ) { return ::cos (x); } __forceinline double cosh ( const double x ) { return ::cosh (x); } __forceinline double exp ( const double x ) { return ::exp (x); } __forceinline double fmod ( const double x, const double y ) { return ::fmod (x, y); } __forceinline double log ( const double x ) { return ::log (x); } __forceinline double log10( const double x ) { return ::log10(x); } __forceinline double pow ( const double x, const double y ) { return ::pow (x, y); } __forceinline double rcp ( const double x ) { return 1.0/x; } __forceinline double rsqrt( const double x ) { return 1.0/::sqrt(x); } __forceinline double sin ( const double x ) { return ::sin (x); } __forceinline double sinh ( const double x ) { return ::sinh (x); } __forceinline double sqr ( const double x ) { return x*x; } __forceinline double sqrt ( const double x ) { return ::sqrt (x); } __forceinline double tan ( const double x ) { return ::tan (x); } __forceinline double tanh ( const double x ) { return ::tanh (x); } __forceinline double floor( const double x ) { return ::floor (x); } __forceinline double ceil ( const double x ) { return ::ceil (x); } #if defined(__aarch64__) __forceinline float mini(float a, float b) { // FP and Neon shares same vector register in arm64 __m128 x; __m128 y; x[0] = a; y[0] = b; x = _mm_min_ps(x, y); return x[0]; } #elif defined(__SSE4_1__) __forceinline float mini(float a, float b) { const __m128i ai = _mm_castps_si128(_mm_set_ss(a)); const __m128i bi = _mm_castps_si128(_mm_set_ss(b)); const __m128i ci = _mm_min_epi32(ai,bi); return _mm_cvtss_f32(_mm_castsi128_ps(ci)); } #endif #if defined(__aarch64__) __forceinline float maxi(float a, float b) { // FP and Neon shares same vector register in arm64 __m128 x; __m128 y; x[0] = a; y[0] = b; x = _mm_max_ps(x, y); return x[0]; } #elif defined(__SSE4_1__) __forceinline float maxi(float a, float b) { const __m128i ai = _mm_castps_si128(_mm_set_ss(a)); const __m128i bi = _mm_castps_si128(_mm_set_ss(b)); const __m128i ci = _mm_max_epi32(ai,bi); return _mm_cvtss_f32(_mm_castsi128_ps(ci)); } #endif template __forceinline T twice(const T& a) { return a+a; } __forceinline int min(int a, int b) { return a __forceinline T min(const T& a, const T& b, const T& c) { return min(min(a,b),c); } template __forceinline T min(const T& a, const T& b, const T& c, const T& d) { return min(min(a,b),min(c,d)); } template __forceinline T min(const T& a, const T& b, const T& c, const T& d, const T& e) { return min(min(min(a,b),min(c,d)),e); } template __forceinline T mini(const T& a, const T& b, const T& c) { return mini(mini(a,b),c); } template __forceinline T mini(const T& a, const T& b, const T& c, const T& d) { return mini(mini(a,b),mini(c,d)); } template __forceinline T mini(const T& a, const T& b, const T& c, const T& d, const T& e) { return mini(mini(mini(a,b),mini(c,d)),e); } __forceinline int max(int a, int b) { return a __forceinline T max(const T& a, const T& b, const T& c) { return max(max(a,b),c); } template __forceinline T max(const T& a, const T& b, const T& c, const T& d) { return max(max(a,b),max(c,d)); } template __forceinline T max(const T& a, const T& b, const T& c, const T& d, const T& e) { return max(max(max(a,b),max(c,d)),e); } template __forceinline T maxi(const T& a, const T& b, const T& c) { return maxi(maxi(a,b),c); } template __forceinline T maxi(const T& a, const T& b, const T& c, const T& d) { return maxi(maxi(a,b),maxi(c,d)); } template __forceinline T maxi(const T& a, const T& b, const T& c, const T& d, const T& e) { return maxi(maxi(maxi(a,b),maxi(c,d)),e); } #if defined(__MACOSX__) __forceinline ssize_t min(ssize_t a, ssize_t b) { return a __forceinline T clamp(const T& x, const T& lower = T(zero), const T& upper = T(one)) { return max(min(x,upper),lower); } template __forceinline T clampz(const T& x, const T& upper) { return max(T(zero), min(x,upper)); } template __forceinline T deg2rad ( const T& x ) { return x * T(1.74532925199432957692e-2f); } template __forceinline T rad2deg ( const T& x ) { return x * T(5.72957795130823208768e1f); } template __forceinline T sin2cos ( const T& x ) { return sqrt(max(T(zero),T(one)-x*x)); } template __forceinline T cos2sin ( const T& x ) { return sin2cos(x); } #if defined(__AVX2__) __forceinline float madd ( const float a, const float b, const float c) { return _mm_cvtss_f32(_mm_fmadd_ss(_mm_set_ss(a),_mm_set_ss(b),_mm_set_ss(c))); } __forceinline float msub ( const float a, const float b, const float c) { return _mm_cvtss_f32(_mm_fmsub_ss(_mm_set_ss(a),_mm_set_ss(b),_mm_set_ss(c))); } __forceinline float nmadd ( const float a, const float b, const float c) { return _mm_cvtss_f32(_mm_fnmadd_ss(_mm_set_ss(a),_mm_set_ss(b),_mm_set_ss(c))); } __forceinline float nmsub ( const float a, const float b, const float c) { return _mm_cvtss_f32(_mm_fnmsub_ss(_mm_set_ss(a),_mm_set_ss(b),_mm_set_ss(c))); } #elif defined (__aarch64__) && defined(__clang__) #pragma clang fp contract(fast) __forceinline float madd ( const float a, const float b, const float c) { return a*b + c; } __forceinline float msub ( const float a, const float b, const float c) { return a*b - c; } __forceinline float nmadd ( const float a, const float b, const float c) { return c - a*b; } __forceinline float nmsub ( const float a, const float b, const float c) { return -(c + a*b); } #pragma clang fp contract(on) #else __forceinline float madd ( const float a, const float b, const float c) { return a*b+c; } __forceinline float msub ( const float a, const float b, const float c) { return a*b-c; } __forceinline float nmadd ( const float a, const float b, const float c) { return -a*b+c;} __forceinline float nmsub ( const float a, const float b, const float c) { return -a*b-c; } #endif /*! random functions */ template T random() { return T(0); } #if defined(_WIN32) template<> __forceinline int random() { return int(rand()) ^ (int(rand()) << 8) ^ (int(rand()) << 16); } template<> __forceinline uint32_t random() { return uint32_t(rand()) ^ (uint32_t(rand()) << 8) ^ (uint32_t(rand()) << 16); } #else template<> __forceinline int random() { return int(rand()); } template<> __forceinline uint32_t random() { return uint32_t(rand()) ^ (uint32_t(rand()) << 16); } #endif template<> __forceinline float random() { return rand()/float(RAND_MAX); } template<> __forceinline double random() { return rand()/double(RAND_MAX); } #if _WIN32 __forceinline double drand48() { return double(rand())/double(RAND_MAX); } __forceinline void srand48(long seed) { return srand(seed); } #endif /*! selects */ __forceinline bool select(bool s, bool t , bool f) { return s ? t : f; } __forceinline int select(bool s, int t, int f) { return s ? t : f; } __forceinline float select(bool s, float t, float f) { return s ? t : f; } __forceinline bool none(bool s) { return !s; } __forceinline bool all (bool s) { return s; } __forceinline bool any (bool s) { return s; } __forceinline unsigned movemask (bool s) { return (unsigned)s; } __forceinline float lerp(const float v0, const float v1, const float t) { return madd(1.0f-t,v0,t*v1); } template __forceinline T lerp2(const float x0, const float x1, const float x2, const float x3, const T& u, const T& v) { return madd((1.0f-u),madd((1.0f-v),T(x0),v*T(x2)),u*madd((1.0f-v),T(x1),v*T(x3))); } /*! exchange */ template __forceinline void xchg ( T& a, T& b ) { const T tmp = a; a = b; b = tmp; } /* load/store */ template struct mem; template<> struct mem { static __forceinline float load (bool mask, const void* ptr) { return mask ? *(float*)ptr : 0.0f; } static __forceinline float loadu(bool mask, const void* ptr) { return mask ? *(float*)ptr : 0.0f; } static __forceinline void store (bool mask, void* ptr, const float v) { if (mask) *(float*)ptr = v; } static __forceinline void storeu(bool mask, void* ptr, const float v) { if (mask) *(float*)ptr = v; } }; /*! bit reverse operation */ template __forceinline T bitReverse(const T& vin) { T v = vin; v = ((v >> 1) & 0x55555555) | ((v & 0x55555555) << 1); v = ((v >> 2) & 0x33333333) | ((v & 0x33333333) << 2); v = ((v >> 4) & 0x0F0F0F0F) | ((v & 0x0F0F0F0F) << 4); v = ((v >> 8) & 0x00FF00FF) | ((v & 0x00FF00FF) << 8); v = ( v >> 16 ) | ( v << 16); return v; } /*! bit interleave operation */ template __forceinline T bitInterleave(const T& xin, const T& yin, const T& zin) { T x = xin, y = yin, z = zin; x = (x | (x << 16)) & 0x030000FF; x = (x | (x << 8)) & 0x0300F00F; x = (x | (x << 4)) & 0x030C30C3; x = (x | (x << 2)) & 0x09249249; y = (y | (y << 16)) & 0x030000FF; y = (y | (y << 8)) & 0x0300F00F; y = (y | (y << 4)) & 0x030C30C3; y = (y | (y << 2)) & 0x09249249; z = (z | (z << 16)) & 0x030000FF; z = (z | (z << 8)) & 0x0300F00F; z = (z | (z << 4)) & 0x030C30C3; z = (z | (z << 2)) & 0x09249249; return x | (y << 1) | (z << 2); } #if defined(__AVX2__) && !defined(__aarch64__) template<> __forceinline unsigned int bitInterleave(const unsigned int &xi, const unsigned int& yi, const unsigned int& zi) { const unsigned int xx = pdep(xi,0x49249249 /* 0b01001001001001001001001001001001 */ ); const unsigned int yy = pdep(yi,0x92492492 /* 0b10010010010010010010010010010010 */); const unsigned int zz = pdep(zi,0x24924924 /* 0b00100100100100100100100100100100 */); return xx | yy | zz; } #endif /*! bit interleave operation for 64bit data types*/ template __forceinline T bitInterleave64(const T& xin, const T& yin, const T& zin){ T x = xin & 0x1fffff; T y = yin & 0x1fffff; T z = zin & 0x1fffff; x = (x | x << 32) & 0x1f00000000ffff; x = (x | x << 16) & 0x1f0000ff0000ff; x = (x | x << 8) & 0x100f00f00f00f00f; x = (x | x << 4) & 0x10c30c30c30c30c3; x = (x | x << 2) & 0x1249249249249249; y = (y | y << 32) & 0x1f00000000ffff; y = (y | y << 16) & 0x1f0000ff0000ff; y = (y | y << 8) & 0x100f00f00f00f00f; y = (y | y << 4) & 0x10c30c30c30c30c3; y = (y | y << 2) & 0x1249249249249249; z = (z | z << 32) & 0x1f00000000ffff; z = (z | z << 16) & 0x1f0000ff0000ff; z = (z | z << 8) & 0x100f00f00f00f00f; z = (z | z << 4) & 0x10c30c30c30c30c3; z = (z | z << 2) & 0x1249249249249249; return x | (y << 1) | (z << 2); } } #endif