// Copyright 2016 The SwiftShader Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "ShaderCore.hpp" #include "Renderer/Renderer.hpp" #include "Common/Debug.hpp" #include <limits.h> namespace sw { extern TranscendentalPrecision logPrecision; extern TranscendentalPrecision expPrecision; extern TranscendentalPrecision rcpPrecision; extern TranscendentalPrecision rsqPrecision; Vector4s::Vector4s() { } Vector4s::Vector4s(unsigned short x, unsigned short y, unsigned short z, unsigned short w) { this->x = Short4(x); this->y = Short4(y); this->z = Short4(z); this->w = Short4(w); } Vector4s::Vector4s(const Vector4s &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; } Vector4s &Vector4s::operator=(const Vector4s &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; return *this; } Short4 &Vector4s::operator[](int i) { switch(i) { case 0: return x; case 1: return y; case 2: return z; case 3: return w; } return x; } Vector4i::Vector4i() { } Vector4i::Vector4i(int x, int y, int z, int w) { this->x = Int4(x); this->y = Int4(y); this->z = Int4(z); this->w = Int4(w); } Vector4i::Vector4i(const Vector4i &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; } Vector4i &Vector4i::operator=(const Vector4i &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; return *this; } Int4 &Vector4i::operator[](int i) { switch(i) { case 0: return x; case 1: return y; case 2: return z; case 3: return w; } return x; } Vector4u::Vector4u() { } Vector4u::Vector4u(unsigned int x, unsigned int y, unsigned int z, unsigned int w) { this->x = UInt4(x); this->y = UInt4(y); this->z = UInt4(z); this->w = UInt4(w); } Vector4u::Vector4u(const Vector4u &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; } Vector4u &Vector4u::operator=(const Vector4u &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; return *this; } UInt4 &Vector4u::operator[](int i) { switch(i) { case 0: return x; case 1: return y; case 2: return z; case 3: return w; } return x; } Vector4f::Vector4f() { } Vector4f::Vector4f(float x, float y, float z, float w) { this->x = Float4(x); this->y = Float4(y); this->z = Float4(z); this->w = Float4(w); } Vector4f::Vector4f(const Vector4f &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; } Vector4f &Vector4f::operator=(const Vector4f &rhs) { x = rhs.x; y = rhs.y; z = rhs.z; w = rhs.w; return *this; } Float4 &Vector4f::operator[](int i) { switch(i) { case 0: return x; case 1: return y; case 2: return z; case 3: return w; } return x; } Float4 exponential2(RValue<Float4> x, bool pp) { Float4 x0; Float4 x1; Int4 x2; x0 = x; x0 = Min(x0, As<Float4>(Int4(0x43010000))); // 129.00000e+0f x0 = Max(x0, As<Float4>(Int4(0xC2FDFFFF))); // -126.99999e+0f x1 = x0; x1 -= Float4(0.5f); x2 = RoundInt(x1); x1 = Float4(x2); x2 += Int4(0x0000007F); // 127 x2 = x2 << 23; x0 -= x1; x1 = As<Float4>(Int4(0x3AF61905)); // 1.8775767e-3f x1 *= x0; x1 += As<Float4>(Int4(0x3C134806)); // 8.9893397e-3f x1 *= x0; x1 += As<Float4>(Int4(0x3D64AA23)); // 5.5826318e-2f x1 *= x0; x1 += As<Float4>(Int4(0x3E75EAD4)); // 2.4015361e-1f x1 *= x0; x1 += As<Float4>(Int4(0x3F31727B)); // 6.9315308e-1f x1 *= x0; x1 += As<Float4>(Int4(0x3F7FFFFF)); // 9.9999994e-1f x1 *= As<Float4>(x2); return x1; } Float4 logarithm2(RValue<Float4> x, bool absolute, bool pp) { Float4 x0; Float4 x1; Float4 x2; Float4 x3; x0 = x; x1 = As<Float4>(As<Int4>(x0) & Int4(0x7F800000)); x1 = As<Float4>(As<UInt4>(x1) >> 8); x1 = As<Float4>(As<Int4>(x1) | As<Int4>(Float4(1.0f))); x1 = (x1 - Float4(1.4960938f)) * Float4(256.0f); // FIXME: (x1 - 1.4960938f) * 256.0f; x0 = As<Float4>((As<Int4>(x0) & Int4(0x007FFFFF)) | As<Int4>(Float4(1.0f))); x2 = (Float4(9.5428179e-2f) * x0 + Float4(4.7779095e-1f)) * x0 + Float4(1.9782813e-1f); x3 = ((Float4(1.6618466e-2f) * x0 + Float4(2.0350508e-1f)) * x0 + Float4(2.7382900e-1f)) * x0 + Float4(4.0496687e-2f); x2 /= x3; x1 += (x0 - Float4(1.0f)) * x2; return x1; } Float4 exponential(RValue<Float4> x, bool pp) { // FIXME: Propagate the constant return exponential2(Float4(1.44269541f) * x, pp); // 1/ln(2) } Float4 logarithm(RValue<Float4> x, bool absolute, bool pp) { // FIXME: Propagate the constant return Float4(6.93147181e-1f) * logarithm2(x, absolute, pp); // ln(2) } Float4 power(RValue<Float4> x, RValue<Float4> y, bool pp) { Float4 log = logarithm2(x, true, pp); log *= y; return exponential2(log, pp); } Float4 reciprocal(RValue<Float4> x, bool pp, bool finite, bool exactAtPow2) { Float4 rcp; if(!pp && rcpPrecision >= WHQL) { rcp = Float4(1.0f) / x; } else { rcp = Rcp_pp(x, exactAtPow2); if(!pp) { rcp = (rcp + rcp) - (x * rcp * rcp); } } if(finite) { int big = 0x7F7FFFFF; rcp = Min(rcp, Float4((float&)big)); } return rcp; } Float4 reciprocalSquareRoot(RValue<Float4> x, bool absolute, bool pp) { Float4 abs = x; if(absolute) { abs = Abs(abs); } Float4 rsq; if(!pp && rsqPrecision >= IEEE) { rsq = Float4(1.0f) / Sqrt(abs); } else { rsq = RcpSqrt_pp(abs); if(!pp) { rsq = rsq * (Float4(3.0f) - rsq * rsq * abs) * Float4(0.5f); } } int big = 0x7F7FFFFF; rsq = Min(rsq, Float4((float&)big)); return rsq; } Float4 modulo(RValue<Float4> x, RValue<Float4> y) { return x - y * Floor(x / y); } Float4 sine_pi(RValue<Float4> x, bool pp) { const Float4 A = Float4(-4.05284734e-1f); // -4/pi^2 const Float4 B = Float4(1.27323954e+0f); // 4/pi const Float4 C = Float4(7.75160950e-1f); const Float4 D = Float4(2.24839049e-1f); // Parabola approximating sine Float4 sin = x * (Abs(x) * A + B); // Improve precision from 0.06 to 0.001 if(true) { sin = sin * (Abs(sin) * D + C); } return sin; } Float4 cosine_pi(RValue<Float4> x, bool pp) { // cos(x) = sin(x + pi/2) Float4 y = x + Float4(1.57079632e+0f); // Wrap around y -= As<Float4>(CmpNLT(y, Float4(3.14159265e+0f)) & As<Int4>(Float4(6.28318530e+0f))); return sine_pi(y, pp); } Float4 sine(RValue<Float4> x, bool pp) { // Reduce to [-0.5, 0.5] range Float4 y = x * Float4(1.59154943e-1f); // 1/2pi y = y - Round(y); const Float4 A = Float4(-16.0f); const Float4 B = Float4(8.0f); const Float4 C = Float4(7.75160950e-1f); const Float4 D = Float4(2.24839049e-1f); // Parabola approximating sine Float4 sin = y * (Abs(y) * A + B); // Improve precision from 0.06 to 0.001 if(true) { sin = sin * (Abs(sin) * D + C); } return sin; } Float4 cosine(RValue<Float4> x, bool pp) { // cos(x) = sin(x + pi/2) Float4 y = x + Float4(1.57079632e+0f); return sine(y, pp); } Float4 tangent(RValue<Float4> x, bool pp) { return sine(x, pp) / cosine(x, pp); } Float4 arccos(RValue<Float4> x, bool pp) { // pi/2 - arcsin(x) return Float4(1.57079632e+0f) - arcsin(x); } Float4 arcsin(RValue<Float4> x, bool pp) { // x*(pi/2-sqrt(1-x*x)*pi/5) return x * (Float4(1.57079632e+0f) - Sqrt(Float4(1.0f) - x*x) * Float4(6.28318531e-1f)); } Float4 arctan(RValue<Float4> x, bool pp) { Int4 O = CmpNLT(Abs(x), Float4(1.0f)); Float4 y = As<Float4>(O & As<Int4>(Float4(1.0f) / x) | ~O & As<Int4>(x)); // FIXME: Vector select // Approximation of atan in [-1..1] Float4 theta = y * (Float4(-0.27f) * Abs(y) + Float4(1.05539816f)); // +/-pi/2 depending on sign of x Float4 sgnPi_2 = As<Float4>(As<Int4>(Float4(1.57079632e+0f)) ^ (As<Int4>(x) & Int4(0x80000000))); theta = As<Float4>(O & As<Int4>(sgnPi_2 - theta) | ~O & As<Int4>(theta)); // FIXME: Vector select return theta; } Float4 arctan(RValue<Float4> y, RValue<Float4> x, bool pp) { // Rotate to upper semicircle when in lower semicircle Int4 S = CmpLT(y, Float4(0.0f)); Float4 theta = As<Float4>(S & As<Int4>(Float4(-3.14159265e+0f))); // -pi Float4 x0 = As<Float4>((As<Int4>(y) & Int4(0x80000000)) ^ As<Int4>(x)); Float4 y0 = Abs(y); // Rotate to right quadrant when in left quadrant Int4 Q = CmpLT(x0, Float4(0.0f)); theta += As<Float4>(Q & As<Int4>(Float4(1.57079632e+0f))); // pi/2 Float4 x1 = As<Float4>(Q & As<Int4>(y0) | ~Q & As<Int4>(x0)); // FIXME: Vector select Float4 y1 = As<Float4>(Q & As<Int4>(-x0) | ~Q & As<Int4>(y0)); // FIXME: Vector select // Rotate to first octant when in second octant Int4 O = CmpNLT(y1, x1); theta += As<Float4>(O & As<Int4>(Float4(7.85398163e-1f))); // pi/4 Float4 x2 = As<Float4>(O & As<Int4>(Float4(7.07106781e-1f) * x1 + Float4(7.07106781e-1f) * y1) | ~O & As<Int4>(x1)); // sqrt(2)/2 // FIXME: Vector select Float4 y2 = As<Float4>(O & As<Int4>(Float4(7.07106781e-1f) * y1 - Float4(7.07106781e-1f) * x1) | ~O & As<Int4>(y1)); // FIXME: Vector select // Approximation of atan in [0..1] Float4 y_x = y2 / x2; theta += y_x * (Float4(-0.27f) * y_x + Float4(1.05539816f)); return theta; } Float4 sineh(RValue<Float4> x, bool pp) { return (exponential(x, pp) - exponential(-x, pp)) * Float4(0.5f); } Float4 cosineh(RValue<Float4> x, bool pp) { return (exponential(x, pp) + exponential(-x, pp)) * Float4(0.5f); } Float4 tangenth(RValue<Float4> x, bool pp) { Float4 e_x = exponential(x, pp); Float4 e_minus_x = exponential(-x, pp); return (e_x - e_minus_x) / (e_x + e_minus_x); } Float4 arccosh(RValue<Float4> x, bool pp) { return logarithm(x + Sqrt(x + Float4(1.0f)) * Sqrt(x - Float4(1.0f)), pp); } Float4 arcsinh(RValue<Float4> x, bool pp) { return logarithm(x + Sqrt(x * x + Float4(1.0f)), pp); } Float4 arctanh(RValue<Float4> x, bool pp) { return logarithm((Float4(1.0f) + x) / (Float4(1.0f) - x), pp) * Float4(0.5f); } Float4 dot2(const Vector4f &v0, const Vector4f &v1) { return v0.x * v1.x + v0.y * v1.y; } Float4 dot3(const Vector4f &v0, const Vector4f &v1) { return v0.x * v1.x + v0.y * v1.y + v0.z * v1.z; } Float4 dot4(const Vector4f &v0, const Vector4f &v1) { return v0.x * v1.x + v0.y * v1.y + v0.z * v1.z + v0.w * v1.w; } void transpose4x4(Short4 &row0, Short4 &row1, Short4 &row2, Short4 &row3) { Int2 tmp0 = UnpackHigh(row0, row1); Int2 tmp1 = UnpackHigh(row2, row3); Int2 tmp2 = UnpackLow(row0, row1); Int2 tmp3 = UnpackLow(row2, row3); row0 = As<Short4>(UnpackLow(tmp2, tmp3)); row1 = As<Short4>(UnpackHigh(tmp2, tmp3)); row2 = As<Short4>(UnpackLow(tmp0, tmp1)); row3 = As<Short4>(UnpackHigh(tmp0, tmp1)); } void transpose4x4(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3) { Float4 tmp0 = UnpackLow(row0, row1); Float4 tmp1 = UnpackLow(row2, row3); Float4 tmp2 = UnpackHigh(row0, row1); Float4 tmp3 = UnpackHigh(row2, row3); row0 = Float4(tmp0.xy, tmp1.xy); row1 = Float4(tmp0.zw, tmp1.zw); row2 = Float4(tmp2.xy, tmp3.xy); row3 = Float4(tmp2.zw, tmp3.zw); } void transpose4x3(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3) { Float4 tmp0 = UnpackLow(row0, row1); Float4 tmp1 = UnpackLow(row2, row3); Float4 tmp2 = UnpackHigh(row0, row1); Float4 tmp3 = UnpackHigh(row2, row3); row0 = Float4(tmp0.xy, tmp1.xy); row1 = Float4(tmp0.zw, tmp1.zw); row2 = Float4(tmp2.xy, tmp3.xy); } void transpose4x2(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3) { Float4 tmp0 = UnpackLow(row0, row1); Float4 tmp1 = UnpackLow(row2, row3); row0 = Float4(tmp0.xy, tmp1.xy); row1 = Float4(tmp0.zw, tmp1.zw); } void transpose4x1(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3) { Float4 tmp0 = UnpackLow(row0, row1); Float4 tmp1 = UnpackLow(row2, row3); row0 = Float4(tmp0.xy, tmp1.xy); } void transpose2x4(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3) { row0 = UnpackLow(row0, row1); row1 = Float4(row0.zw, row1.zw); row2 = UnpackHigh(row0, row1); row3 = Float4(row2.zw, row3.zw); } void transpose2x4h(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3) { row0 = UnpackLow(row2, row3); row1 = Float4(row0.zw, row1.zw); row2 = UnpackHigh(row2, row3); row3 = Float4(row2.zw, row3.zw); } void transpose4xN(Float4 &row0, Float4 &row1, Float4 &row2, Float4 &row3, int N) { switch(N) { case 1: transpose4x1(row0, row1, row2, row3); break; case 2: transpose4x2(row0, row1, row2, row3); break; case 3: transpose4x3(row0, row1, row2, row3); break; case 4: transpose4x4(row0, row1, row2, row3); break; } } void ShaderCore::mov(Vector4f &dst, const Vector4f &src, bool integerDestination) { if(integerDestination) { dst.x = As<Float4>(RoundInt(src.x)); dst.y = As<Float4>(RoundInt(src.y)); dst.z = As<Float4>(RoundInt(src.z)); dst.w = As<Float4>(RoundInt(src.w)); } else { dst = src; } } void ShaderCore::neg(Vector4f &dst, const Vector4f &src) { dst.x = -src.x; dst.y = -src.y; dst.z = -src.z; dst.w = -src.w; } void ShaderCore::ineg(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(-As<Int4>(src.x)); dst.y = As<Float4>(-As<Int4>(src.y)); dst.z = As<Float4>(-As<Int4>(src.z)); dst.w = As<Float4>(-As<Int4>(src.w)); } void ShaderCore::f2b(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(CmpNEQ(src.x, Float4(0.0f))); dst.y = As<Float4>(CmpNEQ(src.y, Float4(0.0f))); dst.z = As<Float4>(CmpNEQ(src.z, Float4(0.0f))); dst.w = As<Float4>(CmpNEQ(src.w, Float4(0.0f))); } void ShaderCore::b2f(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(As<Int4>(src.x) & As<Int4>(Float4(1.0f))); dst.y = As<Float4>(As<Int4>(src.y) & As<Int4>(Float4(1.0f))); dst.z = As<Float4>(As<Int4>(src.z) & As<Int4>(Float4(1.0f))); dst.w = As<Float4>(As<Int4>(src.w) & As<Int4>(Float4(1.0f))); } void ShaderCore::f2i(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(Int4(src.x)); dst.y = As<Float4>(Int4(src.y)); dst.z = As<Float4>(Int4(src.z)); dst.w = As<Float4>(Int4(src.w)); } void ShaderCore::i2f(Vector4f &dst, const Vector4f &src) { dst.x = Float4(As<Int4>(src.x)); dst.y = Float4(As<Int4>(src.y)); dst.z = Float4(As<Int4>(src.z)); dst.w = Float4(As<Int4>(src.w)); } void ShaderCore::f2u(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(UInt4(src.x)); dst.y = As<Float4>(UInt4(src.y)); dst.z = As<Float4>(UInt4(src.z)); dst.w = As<Float4>(UInt4(src.w)); } void ShaderCore::u2f(Vector4f &dst, const Vector4f &src) { dst.x = Float4(As<UInt4>(src.x)); dst.y = Float4(As<UInt4>(src.y)); dst.z = Float4(As<UInt4>(src.z)); dst.w = Float4(As<UInt4>(src.w)); } void ShaderCore::i2b(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(CmpNEQ(As<Int4>(src.x), Int4(0))); dst.y = As<Float4>(CmpNEQ(As<Int4>(src.y), Int4(0))); dst.z = As<Float4>(CmpNEQ(As<Int4>(src.z), Int4(0))); dst.w = As<Float4>(CmpNEQ(As<Int4>(src.w), Int4(0))); } void ShaderCore::b2i(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(As<Int4>(src.x) & Int4(1)); dst.y = As<Float4>(As<Int4>(src.y) & Int4(1)); dst.z = As<Float4>(As<Int4>(src.z) & Int4(1)); dst.w = As<Float4>(As<Int4>(src.w) & Int4(1)); } void ShaderCore::add(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = src0.x + src1.x; dst.y = src0.y + src1.y; dst.z = src0.z + src1.z; dst.w = src0.w + src1.w; } void ShaderCore::iadd(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) + As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) + As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) + As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) + As<Int4>(src1.w)); } void ShaderCore::sub(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = src0.x - src1.x; dst.y = src0.y - src1.y; dst.z = src0.z - src1.z; dst.w = src0.w - src1.w; } void ShaderCore::isub(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) - As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) - As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) - As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) - As<Int4>(src1.w)); } void ShaderCore::mad(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { dst.x = src0.x * src1.x + src2.x; dst.y = src0.y * src1.y + src2.y; dst.z = src0.z * src1.z + src2.z; dst.w = src0.w * src1.w + src2.w; } void ShaderCore::imad(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { dst.x = As<Float4>(As<Int4>(src0.x) * As<Int4>(src1.x) + As<Int4>(src2.x)); dst.y = As<Float4>(As<Int4>(src0.y) * As<Int4>(src1.y) + As<Int4>(src2.y)); dst.z = As<Float4>(As<Int4>(src0.z) * As<Int4>(src1.z) + As<Int4>(src2.z)); dst.w = As<Float4>(As<Int4>(src0.w) * As<Int4>(src1.w) + As<Int4>(src2.w)); } void ShaderCore::mul(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = src0.x * src1.x; dst.y = src0.y * src1.y; dst.z = src0.z * src1.z; dst.w = src0.w * src1.w; } void ShaderCore::imul(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) * As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) * As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) * As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) * As<Int4>(src1.w)); } void ShaderCore::rcpx(Vector4f &dst, const Vector4f &src, bool pp) { Float4 rcp = reciprocal(src.x, pp, true); dst.x = rcp; dst.y = rcp; dst.z = rcp; dst.w = rcp; } void ShaderCore::div(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = src0.x / src1.x; dst.y = src0.y / src1.y; dst.z = src0.z / src1.z; dst.w = src0.w / src1.w; } void ShaderCore::idiv(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { Float4 intMax(As<Float4>(Int4(INT_MAX))); cmp0i(dst.x, src1.x, intMax, src1.x); dst.x = As<Float4>(As<Int4>(src0.x) / As<Int4>(dst.x)); cmp0i(dst.y, src1.y, intMax, src1.y); dst.y = As<Float4>(As<Int4>(src0.y) / As<Int4>(dst.y)); cmp0i(dst.z, src1.z, intMax, src1.z); dst.z = As<Float4>(As<Int4>(src0.z) / As<Int4>(dst.z)); cmp0i(dst.w, src1.w, intMax, src1.w); dst.w = As<Float4>(As<Int4>(src0.w) / As<Int4>(dst.w)); } void ShaderCore::udiv(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { Float4 uintMax(As<Float4>(UInt4(UINT_MAX))); cmp0i(dst.x, src1.x, uintMax, src1.x); dst.x = As<Float4>(As<UInt4>(src0.x) / As<UInt4>(dst.x)); cmp0i(dst.y, src1.y, uintMax, src1.y); dst.y = As<Float4>(As<UInt4>(src0.y) / As<UInt4>(dst.y)); cmp0i(dst.z, src1.z, uintMax, src1.z); dst.z = As<Float4>(As<UInt4>(src0.z) / As<UInt4>(dst.z)); cmp0i(dst.w, src1.w, uintMax, src1.w); dst.w = As<Float4>(As<UInt4>(src0.w) / As<UInt4>(dst.w)); } void ShaderCore::mod(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = modulo(src0.x, src1.x); dst.y = modulo(src0.y, src1.y); dst.z = modulo(src0.z, src1.z); dst.w = modulo(src0.w, src1.w); } void ShaderCore::imod(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { cmp0i(dst.x, src1.x, src0.x, src1.x); dst.x = As<Float4>(As<Int4>(src0.x) % As<Int4>(dst.x)); cmp0i(dst.y, src1.y, src0.y, src1.y); dst.y = As<Float4>(As<Int4>(src0.y) % As<Int4>(dst.y)); cmp0i(dst.z, src1.z, src0.z, src1.z); dst.z = As<Float4>(As<Int4>(src0.z) % As<Int4>(dst.z)); cmp0i(dst.w, src1.w, src0.w, src1.w); dst.w = As<Float4>(As<Int4>(src0.w) % As<Int4>(dst.w)); } void ShaderCore::umod(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { cmp0i(dst.x, src1.x, src0.x, src1.x); dst.x = As<Float4>(As<UInt4>(src0.x) % As<UInt4>(dst.x)); cmp0i(dst.y, src1.y, src0.y, src1.y); dst.y = As<Float4>(As<UInt4>(src0.y) % As<UInt4>(dst.y)); cmp0i(dst.z, src1.z, src0.z, src1.z); dst.z = As<Float4>(As<UInt4>(src0.z) % As<UInt4>(dst.z)); cmp0i(dst.w, src1.w, src0.w, src1.w); dst.w = As<Float4>(As<UInt4>(src0.w) % As<UInt4>(dst.w)); } void ShaderCore::shl(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) << As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) << As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) << As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) << As<Int4>(src1.w)); } void ShaderCore::ishr(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) >> As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) >> As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) >> As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) >> As<Int4>(src1.w)); } void ShaderCore::ushr(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<UInt4>(src0.x) >> As<UInt4>(src1.x)); dst.y = As<Float4>(As<UInt4>(src0.y) >> As<UInt4>(src1.y)); dst.z = As<Float4>(As<UInt4>(src0.z) >> As<UInt4>(src1.z)); dst.w = As<Float4>(As<UInt4>(src0.w) >> As<UInt4>(src1.w)); } void ShaderCore::rsqx(Vector4f &dst, const Vector4f &src, bool pp) { Float4 rsq = reciprocalSquareRoot(src.x, true, pp); dst.x = rsq; dst.y = rsq; dst.z = rsq; dst.w = rsq; } void ShaderCore::sqrt(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = Sqrt(src.x); dst.y = Sqrt(src.y); dst.z = Sqrt(src.z); dst.w = Sqrt(src.w); } void ShaderCore::rsq(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = reciprocalSquareRoot(src.x, false, pp); dst.y = reciprocalSquareRoot(src.y, false, pp); dst.z = reciprocalSquareRoot(src.z, false, pp); dst.w = reciprocalSquareRoot(src.w, false, pp); } void ShaderCore::len2(Float4 &dst, const Vector4f &src, bool pp) { dst = Sqrt(dot2(src, src)); } void ShaderCore::len3(Float4 &dst, const Vector4f &src, bool pp) { dst = Sqrt(dot3(src, src)); } void ShaderCore::len4(Float4 &dst, const Vector4f &src, bool pp) { dst = Sqrt(dot4(src, src)); } void ShaderCore::dist1(Float4 &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { dst = Abs(src0.x - src1.x); } void ShaderCore::dist2(Float4 &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { Float4 dx = src0.x - src1.x; Float4 dy = src0.y - src1.y; Float4 dot2 = dx * dx + dy * dy; dst = Sqrt(dot2); } void ShaderCore::dist3(Float4 &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { Float4 dx = src0.x - src1.x; Float4 dy = src0.y - src1.y; Float4 dz = src0.z - src1.z; Float4 dot3 = dx * dx + dy * dy + dz * dz; dst = Sqrt(dot3); } void ShaderCore::dist4(Float4 &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { Float4 dx = src0.x - src1.x; Float4 dy = src0.y - src1.y; Float4 dz = src0.z - src1.z; Float4 dw = src0.w - src1.w; Float4 dot4 = dx * dx + dy * dy + dz * dz + dw * dw; dst = Sqrt(dot4); } void ShaderCore::dp1(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { Float4 t = src0.x * src1.x; dst.x = t; dst.y = t; dst.z = t; dst.w = t; } void ShaderCore::dp2(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { Float4 t = dot2(src0, src1); dst.x = t; dst.y = t; dst.z = t; dst.w = t; } void ShaderCore::dp2add(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { Float4 t = dot2(src0, src1) + src2.x; dst.x = t; dst.y = t; dst.z = t; dst.w = t; } void ShaderCore::dp3(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { Float4 dot = dot3(src0, src1); dst.x = dot; dst.y = dot; dst.z = dot; dst.w = dot; } void ShaderCore::dp4(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { Float4 dot = dot4(src0, src1); dst.x = dot; dst.y = dot; dst.z = dot; dst.w = dot; } void ShaderCore::min(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = Min(src0.x, src1.x); dst.y = Min(src0.y, src1.y); dst.z = Min(src0.z, src1.z); dst.w = Min(src0.w, src1.w); } void ShaderCore::imin(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(Min(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(Min(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(Min(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(Min(As<Int4>(src0.w), As<Int4>(src1.w))); } void ShaderCore::umin(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(Min(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(Min(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(Min(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(Min(As<UInt4>(src0.w), As<UInt4>(src1.w))); } void ShaderCore::max(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = Max(src0.x, src1.x); dst.y = Max(src0.y, src1.y); dst.z = Max(src0.z, src1.z); dst.w = Max(src0.w, src1.w); } void ShaderCore::imax(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(Max(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(Max(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(Max(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(Max(As<Int4>(src0.w), As<Int4>(src1.w))); } void ShaderCore::umax(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(Max(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(Max(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(Max(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(Max(As<Int4>(src0.w), As<Int4>(src1.w))); } void ShaderCore::slt(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(CmpLT(src0.x, src1.x)) & As<Int4>(Float4(1.0f))); dst.y = As<Float4>(As<Int4>(CmpLT(src0.y, src1.y)) & As<Int4>(Float4(1.0f))); dst.z = As<Float4>(As<Int4>(CmpLT(src0.z, src1.z)) & As<Int4>(Float4(1.0f))); dst.w = As<Float4>(As<Int4>(CmpLT(src0.w, src1.w)) & As<Int4>(Float4(1.0f))); } void ShaderCore::step(Vector4f &dst, const Vector4f &edge, const Vector4f &x) { dst.x = As<Float4>(CmpNLT(x.x, edge.x) & As<Int4>(Float4(1.0f))); dst.y = As<Float4>(CmpNLT(x.y, edge.y) & As<Int4>(Float4(1.0f))); dst.z = As<Float4>(CmpNLT(x.z, edge.z) & As<Int4>(Float4(1.0f))); dst.w = As<Float4>(CmpNLT(x.w, edge.w) & As<Int4>(Float4(1.0f))); } void ShaderCore::exp2x(Vector4f &dst, const Vector4f &src, bool pp) { Float4 exp = exponential2(src.x, pp); dst.x = exp; dst.y = exp; dst.z = exp; dst.w = exp; } void ShaderCore::exp2(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = exponential2(src.x, pp); dst.y = exponential2(src.y, pp); dst.z = exponential2(src.z, pp); dst.w = exponential2(src.w, pp); } void ShaderCore::exp(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = exponential(src.x, pp); dst.y = exponential(src.y, pp); dst.z = exponential(src.z, pp); dst.w = exponential(src.w, pp); } void ShaderCore::log2x(Vector4f &dst, const Vector4f &src, bool pp) { Float4 log = logarithm2(src.x, true, pp); dst.x = log; dst.y = log; dst.z = log; dst.w = log; } void ShaderCore::log2(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = logarithm2(src.x, pp); dst.y = logarithm2(src.y, pp); dst.z = logarithm2(src.z, pp); dst.w = logarithm2(src.w, pp); } void ShaderCore::log(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = logarithm(src.x, false, pp); dst.y = logarithm(src.y, false, pp); dst.z = logarithm(src.z, false, pp); dst.w = logarithm(src.w, false, pp); } void ShaderCore::lit(Vector4f &dst, const Vector4f &src) { dst.x = Float4(1.0f); dst.y = Max(src.x, Float4(0.0f)); Float4 pow; pow = src.w; pow = Min(pow, Float4(127.9961f)); pow = Max(pow, Float4(-127.9961f)); dst.z = power(src.y, pow); dst.z = As<Float4>(As<Int4>(dst.z) & CmpNLT(src.x, Float4(0.0f))); dst.z = As<Float4>(As<Int4>(dst.z) & CmpNLT(src.y, Float4(0.0f))); dst.w = Float4(1.0f); } void ShaderCore::att(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { // Computes attenuation factors (1, d, d^2, 1/d) assuming src0 = d^2, src1 = 1/d dst.x = 1; dst.y = src0.y * src1.y; dst.z = src0.z; dst.w = src1.w; } void ShaderCore::lrp(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { dst.x = src0.x * (src1.x - src2.x) + src2.x; dst.y = src0.y * (src1.y - src2.y) + src2.y; dst.z = src0.z * (src1.z - src2.z) + src2.z; dst.w = src0.w * (src1.w - src2.w) + src2.w; } void ShaderCore::smooth(Vector4f &dst, const Vector4f &edge0, const Vector4f &edge1, const Vector4f &x) { Float4 tx = Min(Max((x.x - edge0.x) / (edge1.x - edge0.x), Float4(0.0f)), Float4(1.0f)); dst.x = tx * tx * (Float4(3.0f) - Float4(2.0f) * tx); Float4 ty = Min(Max((x.y - edge0.y) / (edge1.y - edge0.y), Float4(0.0f)), Float4(1.0f)); dst.y = ty * ty * (Float4(3.0f) - Float4(2.0f) * ty); Float4 tz = Min(Max((x.z - edge0.z) / (edge1.z - edge0.z), Float4(0.0f)), Float4(1.0f)); dst.z = tz * tz * (Float4(3.0f) - Float4(2.0f) * tz); Float4 tw = Min(Max((x.w - edge0.w) / (edge1.w - edge0.w), Float4(0.0f)), Float4(1.0f)); dst.w = tw * tw * (Float4(3.0f) - Float4(2.0f) * tw); } void ShaderCore::floatToHalfBits(Float4& dst, const Float4& floatBits, bool storeInUpperBits) { static const uint32_t mask_sign = 0x80000000u; static const uint32_t mask_round = ~0xfffu; static const uint32_t c_f32infty = 255 << 23; static const uint32_t c_magic = 15 << 23; static const uint32_t c_nanbit = 0x200; static const uint32_t c_infty_as_fp16 = 0x7c00; static const uint32_t c_clamp = (31 << 23) - 0x1000; UInt4 justsign = UInt4(mask_sign) & As<UInt4>(floatBits); UInt4 absf = As<UInt4>(floatBits) ^ justsign; UInt4 b_isnormal = CmpNLE(UInt4(c_f32infty), absf); // Note: this version doesn't round to the nearest even in case of a tie as defined by IEEE 754-2008, it rounds to +inf // instead of nearest even, since that's fine for GLSL ES 3.0's needs (see section 2.1.1 Floating-Point Computation) UInt4 joined = ((((As<UInt4>(Min(As<Float4>(absf & UInt4(mask_round)) * As<Float4>(UInt4(c_magic)), As<Float4>(UInt4(c_clamp))))) - UInt4(mask_round)) >> 13) & b_isnormal) | ((b_isnormal ^ UInt4(0xFFFFFFFF)) & ((CmpNLE(absf, UInt4(c_f32infty)) & UInt4(c_nanbit)) | UInt4(c_infty_as_fp16))); dst = As<Float4>(storeInUpperBits ? As<UInt4>(dst) | ((joined << 16) | justsign) : joined | (justsign >> 16)); } void ShaderCore::halfToFloatBits(Float4& dst, const Float4& halfBits) { static const uint32_t mask_nosign = 0x7FFF; static const uint32_t magic = (254 - 15) << 23; static const uint32_t was_infnan = 0x7BFF; static const uint32_t exp_infnan = 255 << 23; UInt4 expmant = As<UInt4>(halfBits) & UInt4(mask_nosign); dst = As<Float4>(As<UInt4>(As<Float4>(expmant << 13) * As<Float4>(UInt4(magic))) | ((As<UInt4>(halfBits) ^ UInt4(expmant)) << 16) | (CmpNLE(As<UInt4>(expmant), UInt4(was_infnan)) & UInt4(exp_infnan))); } void ShaderCore::packHalf2x16(Vector4f &d, const Vector4f &s0) { // half2 | half1 floatToHalfBits(d.x, s0.x, false); floatToHalfBits(d.x, s0.y, true); } void ShaderCore::unpackHalf2x16(Vector4f &dst, const Vector4f &s0) { // half2 | half1 halfToFloatBits(dst.x, As<Float4>(As<UInt4>(s0.x) & UInt4(0x0000FFFF))); halfToFloatBits(dst.y, As<Float4>((As<UInt4>(s0.x) & UInt4(0xFFFF0000)) >> 16)); } void ShaderCore::packSnorm2x16(Vector4f &d, const Vector4f &s0) { // round(clamp(c, -1.0, 1.0) * 32767.0) d.x = As<Float4>((Int4(Round(Min(Max(s0.x, Float4(-1.0f)), Float4(1.0f)) * Float4(32767.0f))) & Int4(0xFFFF)) | ((Int4(Round(Min(Max(s0.y, Float4(-1.0f)), Float4(1.0f)) * Float4(32767.0f))) & Int4(0xFFFF)) << 16)); } void ShaderCore::packUnorm2x16(Vector4f &d, const Vector4f &s0) { // round(clamp(c, 0.0, 1.0) * 65535.0) d.x = As<Float4>((Int4(Round(Min(Max(s0.x, Float4(0.0f)), Float4(1.0f)) * Float4(65535.0f))) & Int4(0xFFFF)) | ((Int4(Round(Min(Max(s0.y, Float4(0.0f)), Float4(1.0f)) * Float4(65535.0f))) & Int4(0xFFFF)) << 16)); } void ShaderCore::unpackSnorm2x16(Vector4f &dst, const Vector4f &s0) { // clamp(f / 32727.0, -1.0, 1.0) dst.x = Min(Max(Float4(As<Int4>((As<UInt4>(s0.x) & UInt4(0x0000FFFF)) << 16)) * Float4(1.0f / float(0x7FFF0000)), Float4(-1.0f)), Float4(1.0f)); dst.y = Min(Max(Float4(As<Int4>(As<UInt4>(s0.x) & UInt4(0xFFFF0000))) * Float4(1.0f / float(0x7FFF0000)), Float4(-1.0f)), Float4(1.0f)); } void ShaderCore::unpackUnorm2x16(Vector4f &dst, const Vector4f &s0) { // f / 65535.0 dst.x = Float4((As<UInt4>(s0.x) & UInt4(0x0000FFFF)) << 16) * Float4(1.0f / float(0xFFFF0000)); dst.y = Float4(As<UInt4>(s0.x) & UInt4(0xFFFF0000)) * Float4(1.0f / float(0xFFFF0000)); } void ShaderCore::det2(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = src0.x * src1.y - src0.y * src1.x; dst.y = dst.z = dst.w = dst.x; } void ShaderCore::det3(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { crs(dst, src1, src2); dp3(dst, dst, src0); } void ShaderCore::det4(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2, const Vector4f &src3) { dst.x = src2.z * src3.w - src2.w * src3.z; dst.y = src1.w * src3.z - src1.z * src3.w; dst.z = src1.z * src2.w - src1.w * src2.z; dst.x = src0.x * (src1.y * dst.x + src2.y * dst.y + src3.y * dst.z) - src0.y * (src1.x * dst.x + src2.x * dst.y + src3.x * dst.z) + src0.z * (src1.x * (src2.y * src3.w - src2.w * src3.y) + src2.x * (src1.w * src3.y - src1.y * src3.w) + src3.x * (src1.y * src2.w - src1.w * src2.y)) + src0.w * (src1.x * (src2.z * src3.y - src2.y * src3.z) + src2.x * (src1.y * src3.z - src1.z * src3.y) + src3.x * (src1.z * src2.y - src1.y * src2.z)); dst.y = dst.z = dst.w = dst.x; } void ShaderCore::frc(Vector4f &dst, const Vector4f &src) { dst.x = Frac(src.x); dst.y = Frac(src.y); dst.z = Frac(src.z); dst.w = Frac(src.w); } void ShaderCore::trunc(Vector4f &dst, const Vector4f &src) { dst.x = Trunc(src.x); dst.y = Trunc(src.y); dst.z = Trunc(src.z); dst.w = Trunc(src.w); } void ShaderCore::floor(Vector4f &dst, const Vector4f &src) { dst.x = Floor(src.x); dst.y = Floor(src.y); dst.z = Floor(src.z); dst.w = Floor(src.w); } void ShaderCore::round(Vector4f &dst, const Vector4f &src) { dst.x = Round(src.x); dst.y = Round(src.y); dst.z = Round(src.z); dst.w = Round(src.w); } void ShaderCore::roundEven(Vector4f &dst, const Vector4f &src) { // dst = round(src) + ((round(src) < src) * 2 - 1) * (fract(src) == 0.5) * isOdd(round(src)); // ex.: 1.5: 2 + (0 * 2 - 1) * 1 * 0 = 2 // 2.5: 3 + (0 * 2 - 1) * 1 * 1 = 2 // -1.5: -2 + (1 * 2 - 1) * 1 * 0 = -2 // -2.5: -3 + (1 * 2 - 1) * 1 * 1 = -2 // Even if the round implementation rounds the other way: // 1.5: 1 + (1 * 2 - 1) * 1 * 1 = 2 // 2.5: 2 + (1 * 2 - 1) * 1 * 0 = 2 // -1.5: -1 + (0 * 2 - 1) * 1 * 1 = -2 // -2.5: -2 + (0 * 2 - 1) * 1 * 0 = -2 round(dst, src); dst.x += ((Float4(CmpLT(dst.x, src.x) & Int4(1)) * Float4(2.0f)) - Float4(1.0f)) * Float4(CmpEQ(Frac(src.x), Float4(0.5f)) & Int4(1)) * Float4(Int4(dst.x) & Int4(1)); dst.y += ((Float4(CmpLT(dst.y, src.y) & Int4(1)) * Float4(2.0f)) - Float4(1.0f)) * Float4(CmpEQ(Frac(src.y), Float4(0.5f)) & Int4(1)) * Float4(Int4(dst.y) & Int4(1)); dst.z += ((Float4(CmpLT(dst.z, src.z) & Int4(1)) * Float4(2.0f)) - Float4(1.0f)) * Float4(CmpEQ(Frac(src.z), Float4(0.5f)) & Int4(1)) * Float4(Int4(dst.z) & Int4(1)); dst.w += ((Float4(CmpLT(dst.w, src.w) & Int4(1)) * Float4(2.0f)) - Float4(1.0f)) * Float4(CmpEQ(Frac(src.w), Float4(0.5f)) & Int4(1)) * Float4(Int4(dst.w) & Int4(1)); } void ShaderCore::ceil(Vector4f &dst, const Vector4f &src) { dst.x = Ceil(src.x); dst.y = Ceil(src.y); dst.z = Ceil(src.z); dst.w = Ceil(src.w); } void ShaderCore::powx(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { Float4 pow = power(src0.x, src1.x, pp); dst.x = pow; dst.y = pow; dst.z = pow; dst.w = pow; } void ShaderCore::pow(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { dst.x = power(src0.x, src1.x, pp); dst.y = power(src0.y, src1.y, pp); dst.z = power(src0.z, src1.z, pp); dst.w = power(src0.w, src1.w, pp); } void ShaderCore::crs(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = src0.y * src1.z - src0.z * src1.y; dst.y = src0.z * src1.x - src0.x * src1.z; dst.z = src0.x * src1.y - src0.y * src1.x; } void ShaderCore::forward1(Vector4f &dst, const Vector4f &N, const Vector4f &I, const Vector4f &Nref) { Int4 flip = CmpNLT(Nref.x * I.x, Float4(0.0f)) & Int4(0x80000000); dst.x = As<Float4>(flip ^ As<Int4>(N.x)); } void ShaderCore::forward2(Vector4f &dst, const Vector4f &N, const Vector4f &I, const Vector4f &Nref) { Int4 flip = CmpNLT(dot2(Nref, I), Float4(0.0f)) & Int4(0x80000000); dst.x = As<Float4>(flip ^ As<Int4>(N.x)); dst.y = As<Float4>(flip ^ As<Int4>(N.y)); } void ShaderCore::forward3(Vector4f &dst, const Vector4f &N, const Vector4f &I, const Vector4f &Nref) { Int4 flip = CmpNLT(dot3(Nref, I), Float4(0.0f)) & Int4(0x80000000); dst.x = As<Float4>(flip ^ As<Int4>(N.x)); dst.y = As<Float4>(flip ^ As<Int4>(N.y)); dst.z = As<Float4>(flip ^ As<Int4>(N.z)); } void ShaderCore::forward4(Vector4f &dst, const Vector4f &N, const Vector4f &I, const Vector4f &Nref) { Int4 flip = CmpNLT(dot4(Nref, I), Float4(0.0f)) & Int4(0x80000000); dst.x = As<Float4>(flip ^ As<Int4>(N.x)); dst.y = As<Float4>(flip ^ As<Int4>(N.y)); dst.z = As<Float4>(flip ^ As<Int4>(N.z)); dst.w = As<Float4>(flip ^ As<Int4>(N.w)); } void ShaderCore::reflect1(Vector4f &dst, const Vector4f &I, const Vector4f &N) { Float4 d = N.x * I.x; dst.x = I.x - Float4(2.0f) * d * N.x; } void ShaderCore::reflect2(Vector4f &dst, const Vector4f &I, const Vector4f &N) { Float4 d = dot2(N, I); dst.x = I.x - Float4(2.0f) * d * N.x; dst.y = I.y - Float4(2.0f) * d * N.y; } void ShaderCore::reflect3(Vector4f &dst, const Vector4f &I, const Vector4f &N) { Float4 d = dot3(N, I); dst.x = I.x - Float4(2.0f) * d * N.x; dst.y = I.y - Float4(2.0f) * d * N.y; dst.z = I.z - Float4(2.0f) * d * N.z; } void ShaderCore::reflect4(Vector4f &dst, const Vector4f &I, const Vector4f &N) { Float4 d = dot4(N, I); dst.x = I.x - Float4(2.0f) * d * N.x; dst.y = I.y - Float4(2.0f) * d * N.y; dst.z = I.z - Float4(2.0f) * d * N.z; dst.w = I.w - Float4(2.0f) * d * N.w; } void ShaderCore::refract1(Vector4f &dst, const Vector4f &I, const Vector4f &N, const Float4 &eta) { Float4 d = N.x * I.x; Float4 k = Float4(1.0f) - eta * eta * (Float4(1.0f) - d * d); Int4 pos = CmpNLT(k, Float4(0.0f)); Float4 t = (eta * d + Sqrt(k)); dst.x = As<Float4>(pos & As<Int4>(eta * I.x - t * N.x)); } void ShaderCore::refract2(Vector4f &dst, const Vector4f &I, const Vector4f &N, const Float4 &eta) { Float4 d = dot2(N, I); Float4 k = Float4(1.0f) - eta * eta * (Float4(1.0f) - d * d); Int4 pos = CmpNLT(k, Float4(0.0f)); Float4 t = (eta * d + Sqrt(k)); dst.x = As<Float4>(pos & As<Int4>(eta * I.x - t * N.x)); dst.y = As<Float4>(pos & As<Int4>(eta * I.y - t * N.y)); } void ShaderCore::refract3(Vector4f &dst, const Vector4f &I, const Vector4f &N, const Float4 &eta) { Float4 d = dot3(N, I); Float4 k = Float4(1.0f) - eta * eta * (Float4(1.0f) - d * d); Int4 pos = CmpNLT(k, Float4(0.0f)); Float4 t = (eta * d + Sqrt(k)); dst.x = As<Float4>(pos & As<Int4>(eta * I.x - t * N.x)); dst.y = As<Float4>(pos & As<Int4>(eta * I.y - t * N.y)); dst.z = As<Float4>(pos & As<Int4>(eta * I.z - t * N.z)); } void ShaderCore::refract4(Vector4f &dst, const Vector4f &I, const Vector4f &N, const Float4 &eta) { Float4 d = dot4(N, I); Float4 k = Float4(1.0f) - eta * eta * (Float4(1.0f) - d * d); Int4 pos = CmpNLT(k, Float4(0.0f)); Float4 t = (eta * d + Sqrt(k)); dst.x = As<Float4>(pos & As<Int4>(eta * I.x - t * N.x)); dst.y = As<Float4>(pos & As<Int4>(eta * I.y - t * N.y)); dst.z = As<Float4>(pos & As<Int4>(eta * I.z - t * N.z)); dst.w = As<Float4>(pos & As<Int4>(eta * I.w - t * N.w)); } void ShaderCore::sgn(Vector4f &dst, const Vector4f &src) { sgn(dst.x, src.x); sgn(dst.y, src.y); sgn(dst.z, src.z); sgn(dst.w, src.w); } void ShaderCore::isgn(Vector4f &dst, const Vector4f &src) { isgn(dst.x, src.x); isgn(dst.y, src.y); isgn(dst.z, src.z); isgn(dst.w, src.w); } void ShaderCore::abs(Vector4f &dst, const Vector4f &src) { dst.x = Abs(src.x); dst.y = Abs(src.y); dst.z = Abs(src.z); dst.w = Abs(src.w); } void ShaderCore::iabs(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(Abs(As<Int4>(src.x))); dst.y = As<Float4>(Abs(As<Int4>(src.y))); dst.z = As<Float4>(Abs(As<Int4>(src.z))); dst.w = As<Float4>(Abs(As<Int4>(src.w))); } void ShaderCore::nrm2(Vector4f &dst, const Vector4f &src, bool pp) { Float4 dot = dot2(src, src); Float4 rsq = reciprocalSquareRoot(dot, false, pp); dst.x = src.x * rsq; dst.y = src.y * rsq; dst.z = src.z * rsq; dst.w = src.w * rsq; } void ShaderCore::nrm3(Vector4f &dst, const Vector4f &src, bool pp) { Float4 dot = dot3(src, src); Float4 rsq = reciprocalSquareRoot(dot, false, pp); dst.x = src.x * rsq; dst.y = src.y * rsq; dst.z = src.z * rsq; dst.w = src.w * rsq; } void ShaderCore::nrm4(Vector4f &dst, const Vector4f &src, bool pp) { Float4 dot = dot4(src, src); Float4 rsq = reciprocalSquareRoot(dot, false, pp); dst.x = src.x * rsq; dst.y = src.y * rsq; dst.z = src.z * rsq; dst.w = src.w * rsq; } void ShaderCore::sincos(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = cosine_pi(src.x, pp); dst.y = sine_pi(src.x, pp); } void ShaderCore::cos(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = cosine(src.x, pp); dst.y = cosine(src.y, pp); dst.z = cosine(src.z, pp); dst.w = cosine(src.w, pp); } void ShaderCore::sin(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = sine(src.x, pp); dst.y = sine(src.y, pp); dst.z = sine(src.z, pp); dst.w = sine(src.w, pp); } void ShaderCore::tan(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = tangent(src.x, pp); dst.y = tangent(src.y, pp); dst.z = tangent(src.z, pp); dst.w = tangent(src.w, pp); } void ShaderCore::acos(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = arccos(src.x, pp); dst.y = arccos(src.y, pp); dst.z = arccos(src.z, pp); dst.w = arccos(src.w, pp); } void ShaderCore::asin(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = arcsin(src.x, pp); dst.y = arcsin(src.y, pp); dst.z = arcsin(src.z, pp); dst.w = arcsin(src.w, pp); } void ShaderCore::atan(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = arctan(src.x, pp); dst.y = arctan(src.y, pp); dst.z = arctan(src.z, pp); dst.w = arctan(src.w, pp); } void ShaderCore::atan2(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, bool pp) { dst.x = arctan(src0.x, src1.x, pp); dst.y = arctan(src0.y, src1.y, pp); dst.z = arctan(src0.z, src1.z, pp); dst.w = arctan(src0.w, src1.w, pp); } void ShaderCore::cosh(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = cosineh(src.x, pp); dst.y = cosineh(src.y, pp); dst.z = cosineh(src.z, pp); dst.w = cosineh(src.w, pp); } void ShaderCore::sinh(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = sineh(src.x, pp); dst.y = sineh(src.y, pp); dst.z = sineh(src.z, pp); dst.w = sineh(src.w, pp); } void ShaderCore::tanh(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = tangenth(src.x, pp); dst.y = tangenth(src.y, pp); dst.z = tangenth(src.z, pp); dst.w = tangenth(src.w, pp); } void ShaderCore::acosh(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = arccosh(src.x, pp); dst.y = arccosh(src.y, pp); dst.z = arccosh(src.z, pp); dst.w = arccosh(src.w, pp); } void ShaderCore::asinh(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = arcsinh(src.x, pp); dst.y = arcsinh(src.y, pp); dst.z = arcsinh(src.z, pp); dst.w = arcsinh(src.w, pp); } void ShaderCore::atanh(Vector4f &dst, const Vector4f &src, bool pp) { dst.x = arctanh(src.x, pp); dst.y = arctanh(src.y, pp); dst.z = arctanh(src.z, pp); dst.w = arctanh(src.w, pp); } void ShaderCore::expp(Vector4f &dst, const Vector4f &src, unsigned short version) { if(version < 0x0200) { Float4 frc = Frac(src.x); Float4 floor = src.x - frc; dst.x = exponential2(floor, true); dst.y = frc; dst.z = exponential2(src.x, true); dst.w = Float4(1.0f); } else // Version >= 2.0 { exp2x(dst, src, true); // FIXME: 10-bit precision suffices } } void ShaderCore::logp(Vector4f &dst, const Vector4f &src, unsigned short version) { if(version < 0x0200) { Float4 tmp0; Float4 tmp1; Float4 t; Int4 r; tmp0 = Abs(src.x); tmp1 = tmp0; // X component r = As<Int4>(As<UInt4>(tmp0) >> 23) - Int4(127); dst.x = Float4(r); // Y component dst.y = As<Float4>((As<Int4>(tmp1) & Int4(0x007FFFFF)) | As<Int4>(Float4(1.0f))); // Z component dst.z = logarithm2(src.x, true, true); // W component dst.w = 1.0f; } else { log2x(dst, src, true); } } void ShaderCore::cmp0(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { cmp0(dst.x, src0.x, src1.x, src2.x); cmp0(dst.y, src0.y, src1.y, src2.y); cmp0(dst.z, src0.z, src1.z, src2.z); cmp0(dst.w, src0.w, src1.w, src2.w); } void ShaderCore::select(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, const Vector4f &src2) { select(dst.x, As<Int4>(src0.x), src1.x, src2.x); select(dst.y, As<Int4>(src0.y), src1.y, src2.y); select(dst.z, As<Int4>(src0.z), src1.z, src2.z); select(dst.w, As<Int4>(src0.w), src1.w, src2.w); } void ShaderCore::extract(Float4 &dst, const Vector4f &src0, const Float4 &src1) { select(dst, CmpEQ(As<Int4>(src1), Int4(1)), src0.y, src0.x); select(dst, CmpEQ(As<Int4>(src1), Int4(2)), src0.z, dst); select(dst, CmpEQ(As<Int4>(src1), Int4(3)), src0.w, dst); } void ShaderCore::insert(Vector4f &dst, const Vector4f &src, const Float4 &element, const Float4 &index) { select(dst.x, CmpEQ(As<Int4>(index), Int4(0)), element, src.x); select(dst.y, CmpEQ(As<Int4>(index), Int4(1)), element, src.y); select(dst.z, CmpEQ(As<Int4>(index), Int4(2)), element, src.z); select(dst.w, CmpEQ(As<Int4>(index), Int4(3)), element, src.w); } void ShaderCore::sgn(Float4 &dst, const Float4 &src) { Int4 neg = As<Int4>(CmpLT(src, Float4(-0.0f))) & As<Int4>(Float4(-1.0f)); Int4 pos = As<Int4>(CmpNLE(src, Float4(+0.0f))) & As<Int4>(Float4(1.0f)); dst = As<Float4>(neg | pos); } void ShaderCore::isgn(Float4 &dst, const Float4 &src) { Int4 neg = CmpLT(As<Int4>(src), Int4(0)) & Int4(-1); Int4 pos = CmpNLE(As<Int4>(src), Int4(0)) & Int4(1); dst = As<Float4>(neg | pos); } void ShaderCore::cmp0(Float4 &dst, const Float4 &src0, const Float4 &src1, const Float4 &src2) { Int4 pos = CmpLE(Float4(0.0f), src0); select(dst, pos, src1, src2); } void ShaderCore::cmp0i(Float4 &dst, const Float4 &src0, const Float4 &src1, const Float4 &src2) { Int4 pos = CmpEQ(Int4(0), As<Int4>(src0)); select(dst, pos, src1, src2); } void ShaderCore::select(Float4 &dst, RValue<Int4> src0, const Float4 &src1, const Float4 &src2) { // FIXME: LLVM vector select dst = As<Float4>(src0 & As<Int4>(src1) | ~src0 & As<Int4>(src2)); } void ShaderCore::cmp(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, Control control) { switch(control) { case Shader::CONTROL_GT: dst.x = As<Float4>(CmpNLE(src0.x, src1.x)); dst.y = As<Float4>(CmpNLE(src0.y, src1.y)); dst.z = As<Float4>(CmpNLE(src0.z, src1.z)); dst.w = As<Float4>(CmpNLE(src0.w, src1.w)); break; case Shader::CONTROL_EQ: dst.x = As<Float4>(CmpEQ(src0.x, src1.x)); dst.y = As<Float4>(CmpEQ(src0.y, src1.y)); dst.z = As<Float4>(CmpEQ(src0.z, src1.z)); dst.w = As<Float4>(CmpEQ(src0.w, src1.w)); break; case Shader::CONTROL_GE: dst.x = As<Float4>(CmpNLT(src0.x, src1.x)); dst.y = As<Float4>(CmpNLT(src0.y, src1.y)); dst.z = As<Float4>(CmpNLT(src0.z, src1.z)); dst.w = As<Float4>(CmpNLT(src0.w, src1.w)); break; case Shader::CONTROL_LT: dst.x = As<Float4>(CmpLT(src0.x, src1.x)); dst.y = As<Float4>(CmpLT(src0.y, src1.y)); dst.z = As<Float4>(CmpLT(src0.z, src1.z)); dst.w = As<Float4>(CmpLT(src0.w, src1.w)); break; case Shader::CONTROL_NE: dst.x = As<Float4>(CmpNEQ(src0.x, src1.x)); dst.y = As<Float4>(CmpNEQ(src0.y, src1.y)); dst.z = As<Float4>(CmpNEQ(src0.z, src1.z)); dst.w = As<Float4>(CmpNEQ(src0.w, src1.w)); break; case Shader::CONTROL_LE: dst.x = As<Float4>(CmpLE(src0.x, src1.x)); dst.y = As<Float4>(CmpLE(src0.y, src1.y)); dst.z = As<Float4>(CmpLE(src0.z, src1.z)); dst.w = As<Float4>(CmpLE(src0.w, src1.w)); break; default: ASSERT(false); } } void ShaderCore::icmp(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, Control control) { switch(control) { case Shader::CONTROL_GT: dst.x = As<Float4>(CmpNLE(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(CmpNLE(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(CmpNLE(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(CmpNLE(As<Int4>(src0.w), As<Int4>(src1.w))); break; case Shader::CONTROL_EQ: dst.x = As<Float4>(CmpEQ(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(CmpEQ(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(CmpEQ(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(CmpEQ(As<Int4>(src0.w), As<Int4>(src1.w))); break; case Shader::CONTROL_GE: dst.x = As<Float4>(CmpNLT(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(CmpNLT(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(CmpNLT(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(CmpNLT(As<Int4>(src0.w), As<Int4>(src1.w))); break; case Shader::CONTROL_LT: dst.x = As<Float4>(CmpLT(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(CmpLT(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(CmpLT(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(CmpLT(As<Int4>(src0.w), As<Int4>(src1.w))); break; case Shader::CONTROL_NE: dst.x = As<Float4>(CmpNEQ(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(CmpNEQ(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(CmpNEQ(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(CmpNEQ(As<Int4>(src0.w), As<Int4>(src1.w))); break; case Shader::CONTROL_LE: dst.x = As<Float4>(CmpLE(As<Int4>(src0.x), As<Int4>(src1.x))); dst.y = As<Float4>(CmpLE(As<Int4>(src0.y), As<Int4>(src1.y))); dst.z = As<Float4>(CmpLE(As<Int4>(src0.z), As<Int4>(src1.z))); dst.w = As<Float4>(CmpLE(As<Int4>(src0.w), As<Int4>(src1.w))); break; default: ASSERT(false); } } void ShaderCore::ucmp(Vector4f &dst, const Vector4f &src0, const Vector4f &src1, Control control) { switch(control) { case Shader::CONTROL_GT: dst.x = As<Float4>(CmpNLE(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(CmpNLE(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(CmpNLE(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(CmpNLE(As<UInt4>(src0.w), As<UInt4>(src1.w))); break; case Shader::CONTROL_EQ: dst.x = As<Float4>(CmpEQ(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(CmpEQ(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(CmpEQ(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(CmpEQ(As<UInt4>(src0.w), As<UInt4>(src1.w))); break; case Shader::CONTROL_GE: dst.x = As<Float4>(CmpNLT(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(CmpNLT(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(CmpNLT(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(CmpNLT(As<UInt4>(src0.w), As<UInt4>(src1.w))); break; case Shader::CONTROL_LT: dst.x = As<Float4>(CmpLT(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(CmpLT(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(CmpLT(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(CmpLT(As<UInt4>(src0.w), As<UInt4>(src1.w))); break; case Shader::CONTROL_NE: dst.x = As<Float4>(CmpNEQ(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(CmpNEQ(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(CmpNEQ(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(CmpNEQ(As<UInt4>(src0.w), As<UInt4>(src1.w))); break; case Shader::CONTROL_LE: dst.x = As<Float4>(CmpLE(As<UInt4>(src0.x), As<UInt4>(src1.x))); dst.y = As<Float4>(CmpLE(As<UInt4>(src0.y), As<UInt4>(src1.y))); dst.z = As<Float4>(CmpLE(As<UInt4>(src0.z), As<UInt4>(src1.z))); dst.w = As<Float4>(CmpLE(As<UInt4>(src0.w), As<UInt4>(src1.w))); break; default: ASSERT(false); } } void ShaderCore::all(Float4 &dst, const Vector4f &src) { dst = As<Float4>(As<Int4>(src.x) & As<Int4>(src.y) & As<Int4>(src.z) & As<Int4>(src.w)); } void ShaderCore::any(Float4 &dst, const Vector4f &src) { dst = As<Float4>(As<Int4>(src.x) | As<Int4>(src.y) | As<Int4>(src.z) | As<Int4>(src.w)); } void ShaderCore::not(Vector4f &dst, const Vector4f &src) { dst.x = As<Float4>(As<Int4>(src.x) ^ Int4(0xFFFFFFFF)); dst.y = As<Float4>(As<Int4>(src.y) ^ Int4(0xFFFFFFFF)); dst.z = As<Float4>(As<Int4>(src.z) ^ Int4(0xFFFFFFFF)); dst.w = As<Float4>(As<Int4>(src.w) ^ Int4(0xFFFFFFFF)); } void ShaderCore::or(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) | As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) | As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) | As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) | As<Int4>(src1.w)); } void ShaderCore::xor(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) ^ As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) ^ As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) ^ As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) ^ As<Int4>(src1.w)); } void ShaderCore::and(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(As<Int4>(src0.x) & As<Int4>(src1.x)); dst.y = As<Float4>(As<Int4>(src0.y) & As<Int4>(src1.y)); dst.z = As<Float4>(As<Int4>(src0.z) & As<Int4>(src1.z)); dst.w = As<Float4>(As<Int4>(src0.w) & As<Int4>(src1.w)); } void ShaderCore::equal(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(CmpEQ(As<UInt4>(src0.x), As<UInt4>(src1.x)) & CmpEQ(As<UInt4>(src0.y), As<UInt4>(src1.y)) & CmpEQ(As<UInt4>(src0.z), As<UInt4>(src1.z)) & CmpEQ(As<UInt4>(src0.w), As<UInt4>(src1.w))); dst.y = dst.x; dst.z = dst.x; dst.w = dst.x; } void ShaderCore::notEqual(Vector4f &dst, const Vector4f &src0, const Vector4f &src1) { dst.x = As<Float4>(CmpNEQ(As<UInt4>(src0.x), As<UInt4>(src1.x)) | CmpNEQ(As<UInt4>(src0.y), As<UInt4>(src1.y)) | CmpNEQ(As<UInt4>(src0.z), As<UInt4>(src1.z)) | CmpNEQ(As<UInt4>(src0.w), As<UInt4>(src1.w))); dst.y = dst.x; dst.z = dst.x; dst.w = dst.x; } }