// 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 "Sampler.hpp" #include "Context.hpp" #include "Surface.hpp" #include "Shader/PixelRoutine.hpp" #include "Common/Debug.hpp" #include <memory.h> #include <string.h> namespace sw { FilterType Sampler::maximumTextureFilterQuality = FILTER_LINEAR; MipmapType Sampler::maximumMipmapFilterQuality = MIPMAP_POINT; Sampler::State::State() { memset(this, 0, sizeof(State)); } Sampler::Sampler() { // FIXME: Mipmap::init static const unsigned int zero = 0x00FF00FF; for(int level = 0; level < MIPMAP_LEVELS; level++) { Mipmap &mipmap = texture.mipmap[level]; memset(&mipmap, 0, sizeof(Mipmap)); for(int face = 0; face < 6; face++) { mipmap.buffer[face] = &zero; } } externalTextureFormat = FORMAT_NULL; internalTextureFormat = FORMAT_NULL; textureType = TEXTURE_NULL; textureFilter = FILTER_LINEAR; addressingModeU = ADDRESSING_WRAP; addressingModeV = ADDRESSING_WRAP; addressingModeW = ADDRESSING_WRAP; mipmapFilterState = MIPMAP_NONE; sRGB = false; gather = false; highPrecisionFiltering = false; border = 0; swizzleR = SWIZZLE_RED; swizzleG = SWIZZLE_GREEN; swizzleB = SWIZZLE_BLUE; swizzleA = SWIZZLE_ALPHA; compare = COMPARE_BYPASS; texture.LOD = 0.0f; exp2LOD = 1.0f; texture.baseLevel = 0; texture.maxLevel = 1000; texture.maxLod = MAX_TEXTURE_LOD; texture.minLod = 0; } Sampler::~Sampler() { } Sampler::State Sampler::samplerState() const { State state; if(textureType != TEXTURE_NULL) { state.textureType = textureType; state.textureFormat = internalTextureFormat; state.textureFilter = getTextureFilter(); state.addressingModeU = getAddressingModeU(); state.addressingModeV = getAddressingModeV(); state.addressingModeW = getAddressingModeW(); state.mipmapFilter = mipmapFilter(); state.sRGB = (sRGB && Surface::isSRGBreadable(externalTextureFormat)) || Surface::isSRGBformat(internalTextureFormat); state.swizzleR = swizzleR; state.swizzleG = swizzleG; state.swizzleB = swizzleB; state.swizzleA = swizzleA; state.highPrecisionFiltering = highPrecisionFiltering; state.compare = getCompareFunc(); #if PERF_PROFILE state.compressedFormat = Surface::isCompressed(externalTextureFormat); #endif } return state; } void Sampler::setTextureLevel(int face, int level, Surface *surface, TextureType type) { if(surface) { Mipmap &mipmap = texture.mipmap[level]; border = surface->getBorder(); mipmap.buffer[face] = surface->lockInternal(-border, -border, 0, LOCK_UNLOCKED, PRIVATE); if(face == 0) { externalTextureFormat = surface->getExternalFormat(); internalTextureFormat = surface->getInternalFormat(); int width = surface->getWidth(); int height = surface->getHeight(); int depth = surface->getDepth(); int pitchP = surface->getInternalPitchP(); int sliceP = surface->getInternalSliceP(); if(level == 0) { texture.widthHeightLOD[0] = width * exp2LOD; texture.widthHeightLOD[1] = width * exp2LOD; texture.widthHeightLOD[2] = height * exp2LOD; texture.widthHeightLOD[3] = height * exp2LOD; texture.widthLOD[0] = width * exp2LOD; texture.widthLOD[1] = width * exp2LOD; texture.widthLOD[2] = width * exp2LOD; texture.widthLOD[3] = width * exp2LOD; texture.heightLOD[0] = height * exp2LOD; texture.heightLOD[1] = height * exp2LOD; texture.heightLOD[2] = height * exp2LOD; texture.heightLOD[3] = height * exp2LOD; texture.depthLOD[0] = depth * exp2LOD; texture.depthLOD[1] = depth * exp2LOD; texture.depthLOD[2] = depth * exp2LOD; texture.depthLOD[3] = depth * exp2LOD; } if(Surface::isFloatFormat(internalTextureFormat)) { mipmap.fWidth[0] = (float)width / 65536.0f; mipmap.fWidth[1] = (float)width / 65536.0f; mipmap.fWidth[2] = (float)width / 65536.0f; mipmap.fWidth[3] = (float)width / 65536.0f; mipmap.fHeight[0] = (float)height / 65536.0f; mipmap.fHeight[1] = (float)height / 65536.0f; mipmap.fHeight[2] = (float)height / 65536.0f; mipmap.fHeight[3] = (float)height / 65536.0f; mipmap.fDepth[0] = (float)depth / 65536.0f; mipmap.fDepth[1] = (float)depth / 65536.0f; mipmap.fDepth[2] = (float)depth / 65536.0f; mipmap.fDepth[3] = (float)depth / 65536.0f; } short halfTexelU = 0x8000 / width; short halfTexelV = 0x8000 / height; short halfTexelW = 0x8000 / depth; mipmap.uHalf[0] = halfTexelU; mipmap.uHalf[1] = halfTexelU; mipmap.uHalf[2] = halfTexelU; mipmap.uHalf[3] = halfTexelU; mipmap.vHalf[0] = halfTexelV; mipmap.vHalf[1] = halfTexelV; mipmap.vHalf[2] = halfTexelV; mipmap.vHalf[3] = halfTexelV; mipmap.wHalf[0] = halfTexelW; mipmap.wHalf[1] = halfTexelW; mipmap.wHalf[2] = halfTexelW; mipmap.wHalf[3] = halfTexelW; mipmap.width[0] = width; mipmap.width[1] = width; mipmap.width[2] = width; mipmap.width[3] = width; mipmap.height[0] = height; mipmap.height[1] = height; mipmap.height[2] = height; mipmap.height[3] = height; mipmap.depth[0] = depth; mipmap.depth[1] = depth; mipmap.depth[2] = depth; mipmap.depth[3] = depth; mipmap.onePitchP[0] = 1; mipmap.onePitchP[1] = pitchP; mipmap.onePitchP[2] = 1; mipmap.onePitchP[3] = pitchP; mipmap.pitchP[0] = pitchP; mipmap.pitchP[1] = pitchP; mipmap.pitchP[2] = pitchP; mipmap.pitchP[3] = pitchP; mipmap.sliceP[0] = sliceP; mipmap.sliceP[1] = sliceP; mipmap.sliceP[2] = sliceP; mipmap.sliceP[3] = sliceP; if(internalTextureFormat == FORMAT_YV12_BT601 || internalTextureFormat == FORMAT_YV12_BT709 || internalTextureFormat == FORMAT_YV12_JFIF) { unsigned int YStride = pitchP; unsigned int YSize = YStride * height; unsigned int CStride = align<16>(YStride / 2); unsigned int CSize = CStride * height / 2; mipmap.buffer[1] = (byte*)mipmap.buffer[0] + YSize; mipmap.buffer[2] = (byte*)mipmap.buffer[1] + CSize; texture.mipmap[1].width[0] = width / 2; texture.mipmap[1].width[1] = width / 2; texture.mipmap[1].width[2] = width / 2; texture.mipmap[1].width[3] = width / 2; texture.mipmap[1].height[0] = height / 2; texture.mipmap[1].height[1] = height / 2; texture.mipmap[1].height[2] = height / 2; texture.mipmap[1].height[3] = height / 2; texture.mipmap[1].onePitchP[0] = 1; texture.mipmap[1].onePitchP[1] = CStride; texture.mipmap[1].onePitchP[2] = 1; texture.mipmap[1].onePitchP[3] = CStride; } } } textureType = type; } void Sampler::setTextureFilter(FilterType textureFilter) { this->textureFilter = (FilterType)min(textureFilter, maximumTextureFilterQuality); } void Sampler::setMipmapFilter(MipmapType mipmapFilter) { mipmapFilterState = (MipmapType)min(mipmapFilter, maximumMipmapFilterQuality); } void Sampler::setGatherEnable(bool enable) { gather = enable; } void Sampler::setAddressingModeU(AddressingMode addressingMode) { addressingModeU = addressingMode; } void Sampler::setAddressingModeV(AddressingMode addressingMode) { addressingModeV = addressingMode; } void Sampler::setAddressingModeW(AddressingMode addressingMode) { addressingModeW = addressingMode; } void Sampler::setReadSRGB(bool sRGB) { this->sRGB = sRGB; } void Sampler::setBorderColor(const Color<float> &borderColor) { // FIXME: Compact into generic function // FIXME: Clamp short r = iround(0xFFFF * borderColor.r); short g = iround(0xFFFF * borderColor.g); short b = iround(0xFFFF * borderColor.b); short a = iround(0xFFFF * borderColor.a); texture.borderColor4[0][0] = texture.borderColor4[0][1] = texture.borderColor4[0][2] = texture.borderColor4[0][3] = r; texture.borderColor4[1][0] = texture.borderColor4[1][1] = texture.borderColor4[1][2] = texture.borderColor4[1][3] = g; texture.borderColor4[2][0] = texture.borderColor4[2][1] = texture.borderColor4[2][2] = texture.borderColor4[2][3] = b; texture.borderColor4[3][0] = texture.borderColor4[3][1] = texture.borderColor4[3][2] = texture.borderColor4[3][3] = a; texture.borderColorF[0][0] = texture.borderColorF[0][1] = texture.borderColorF[0][2] = texture.borderColorF[0][3] = borderColor.r; texture.borderColorF[1][0] = texture.borderColorF[1][1] = texture.borderColorF[1][2] = texture.borderColorF[1][3] = borderColor.g; texture.borderColorF[2][0] = texture.borderColorF[2][1] = texture.borderColorF[2][2] = texture.borderColorF[2][3] = borderColor.b; texture.borderColorF[3][0] = texture.borderColorF[3][1] = texture.borderColorF[3][2] = texture.borderColorF[3][3] = borderColor.a; } void Sampler::setMaxAnisotropy(float maxAnisotropy) { texture.maxAnisotropy = maxAnisotropy; } void Sampler::setHighPrecisionFiltering(bool highPrecisionFiltering) { this->highPrecisionFiltering = highPrecisionFiltering; } void Sampler::setSwizzleR(SwizzleType swizzleR) { this->swizzleR = swizzleR; } void Sampler::setSwizzleG(SwizzleType swizzleG) { this->swizzleG = swizzleG; } void Sampler::setSwizzleB(SwizzleType swizzleB) { this->swizzleB = swizzleB; } void Sampler::setSwizzleA(SwizzleType swizzleA) { this->swizzleA = swizzleA; } void Sampler::setCompareFunc(CompareFunc compare) { this->compare = compare; } void Sampler::setBaseLevel(int baseLevel) { texture.baseLevel = baseLevel; } void Sampler::setMaxLevel(int maxLevel) { texture.maxLevel = maxLevel; } void Sampler::setMinLod(float minLod) { texture.minLod = clamp(minLod, 0.0f, (float)(MAX_TEXTURE_LOD)); } void Sampler::setMaxLod(float maxLod) { texture.maxLod = clamp(maxLod, 0.0f, (float)(MAX_TEXTURE_LOD)); } void Sampler::setFilterQuality(FilterType maximumFilterQuality) { Sampler::maximumTextureFilterQuality = maximumFilterQuality; } void Sampler::setMipmapQuality(MipmapType maximumFilterQuality) { Sampler::maximumMipmapFilterQuality = maximumFilterQuality; } void Sampler::setMipmapLOD(float LOD) { texture.LOD = LOD; exp2LOD = exp2(LOD); } bool Sampler::hasTexture() const { return textureType != TEXTURE_NULL; } bool Sampler::hasUnsignedTexture() const { return Surface::isUnsignedComponent(internalTextureFormat, 0) && Surface::isUnsignedComponent(internalTextureFormat, 1) && Surface::isUnsignedComponent(internalTextureFormat, 2) && Surface::isUnsignedComponent(internalTextureFormat, 3); } bool Sampler::hasCubeTexture() const { return textureType == TEXTURE_CUBE; } bool Sampler::hasVolumeTexture() const { return textureType == TEXTURE_3D || textureType == TEXTURE_2D_ARRAY; } void Sampler::setSyncRequired(bool isSyncRequired) { syncRequired = isSyncRequired; } bool Sampler::requiresSync() const { return syncRequired; } const Texture &Sampler::getTextureData() { return texture; } MipmapType Sampler::mipmapFilter() const { if(mipmapFilterState != MIPMAP_NONE) { for(int i = 1; i < MIPMAP_LEVELS; i++) { if(texture.mipmap[0].buffer[0] != texture.mipmap[i].buffer[0]) { return mipmapFilterState; } } } // Only one mipmap level return MIPMAP_NONE; } TextureType Sampler::getTextureType() const { return textureType; } FilterType Sampler::getTextureFilter() const { // Don't filter 1x1 textures. if(texture.mipmap[0].width[0] == 1 && texture.mipmap[0].height[0] == 1 && texture.mipmap[0].depth[0] == 1) { if(mipmapFilter() == MIPMAP_NONE) { return FILTER_POINT; } } FilterType filter = textureFilter; if(gather && Surface::componentCount(internalTextureFormat) == 1) { filter = FILTER_GATHER; } if(textureType != TEXTURE_2D || texture.maxAnisotropy == 1.0f) { return (FilterType)min(filter, FILTER_LINEAR); } return filter; } AddressingMode Sampler::getAddressingModeU() const { if(textureType == TEXTURE_CUBE) { return border ? ADDRESSING_SEAMLESS : ADDRESSING_CLAMP; } return addressingModeU; } AddressingMode Sampler::getAddressingModeV() const { if(textureType == TEXTURE_CUBE) { return border ? ADDRESSING_SEAMLESS : ADDRESSING_CLAMP; } return addressingModeV; } AddressingMode Sampler::getAddressingModeW() const { if(textureType == TEXTURE_2D_ARRAY || textureType == TEXTURE_2D || textureType == TEXTURE_CUBE || textureType == TEXTURE_RECTANGLE) { return ADDRESSING_LAYER; } return addressingModeW; } CompareFunc Sampler::getCompareFunc() const { if(getTextureFilter() == FILTER_GATHER) { return COMPARE_BYPASS; } if(internalTextureFormat == FORMAT_D32FS8_SHADOW) { return COMPARE_LESSEQUAL; } return compare; } }