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/*
* Copyright 2013 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "GrGLProgramDesc.h"
#include "GrGLProcessor.h"
#include "GrProcessor.h"
#include "GrGLGpu.h"
#include "GrOptDrawState.h"
#include "SkChecksum.h"
#include "gl/builders/GrGLFragmentShaderBuilder.h"
/**
* Do we need to either map r,g,b->a or a->r. configComponentMask indicates which channels are
* present in the texture's config. swizzleComponentMask indicates the channels present in the
* shader swizzle.
*/
static bool swizzle_requires_alpha_remapping(const GrGLCaps& caps,
uint32_t configComponentMask,
uint32_t swizzleComponentMask) {
if (caps.textureSwizzleSupport()) {
// Any remapping is handled using texture swizzling not shader modifications.
return false;
}
// check if the texture is alpha-only
if (kA_GrColorComponentFlag == configComponentMask) {
if (caps.textureRedSupport() && (kA_GrColorComponentFlag & swizzleComponentMask)) {
// we must map the swizzle 'a's to 'r'.
return true;
}
if (kRGB_GrColorComponentFlags & swizzleComponentMask) {
// The 'r', 'g', and/or 'b's must be mapped to 'a' according to our semantics that
// alpha-only textures smear alpha across all four channels when read.
return true;
}
}
return false;
}
static uint32_t gen_texture_key(const GrProcessor& proc, const GrGLCaps& caps) {
uint32_t key = 0;
int numTextures = proc.numTextures();
for (int t = 0; t < numTextures; ++t) {
const GrTextureAccess& access = proc.textureAccess(t);
uint32_t configComponentMask = GrPixelConfigComponentMask(access.getTexture()->config());
if (swizzle_requires_alpha_remapping(caps, configComponentMask, access.swizzleMask())) {
key |= 1 << t;
}
}
return key;
}
/**
* A function which emits a meta key into the key builder. This is required because shader code may
* be dependent on properties of the effect that the effect itself doesn't use
* in its key (e.g. the pixel format of textures used). So we create a meta-key for
* every effect using this function. It is also responsible for inserting the effect's class ID
* which must be different for every GrProcessor subclass. It can fail if an effect uses too many
* textures, transforms, etc, for the space allotted in the meta-key. NOTE, both FPs and GPs share
* this function because it is hairy, though FPs do not have attribs, and GPs do not have transforms
*/
static bool get_meta_key(const GrProcessor& proc,
const GrGLCaps& caps,
uint32_t transformKey,
GrProcessorKeyBuilder* b) {
size_t processorKeySize = b->size();
uint32_t textureKey = gen_texture_key(proc, caps);
uint32_t classID = proc.classID();
// Currently we allow 16 bits for each of the above portions of the meta-key. Fail if they
// don't fit.
static const uint32_t kMetaKeyInvalidMask = ~((uint32_t) SK_MaxU16);
if ((textureKey | transformKey | classID) & kMetaKeyInvalidMask) {
return false;
}
if (processorKeySize > SK_MaxU16) {
return false;
}
uint32_t* key = b->add32n(2);
key[0] = (textureKey << 16 | transformKey);
key[1] = (classID << 16 | SkToU16(processorKeySize));
return true;
}
bool GrGLProgramDescBuilder::Build(GrProgramDesc* desc,
const GrPrimitiveProcessor& primProc,
const GrOptDrawState& optState,
const GrProgramDesc::DescInfo& descInfo,
GrGpu::DrawType drawType,
const GrGLGpu* gpu,
const GrBatchTracker& batchTracker) {
// The descriptor is used as a cache key. Thus when a field of the
// descriptor will not affect program generation (because of the attribute
// bindings in use or other descriptor field settings) it should be set
// to a canonical value to avoid duplicate programs with different keys.
GR_STATIC_ASSERT(0 == kProcessorKeysOffset % sizeof(uint32_t));
// Make room for everything up to the effect keys.
desc->fKey.reset();
desc->fKey.push_back_n(kProcessorKeysOffset);
GrProcessorKeyBuilder b(&desc->fKey);
primProc.getGLProcessorKey(batchTracker, gpu->glCaps(), &b);
if (!get_meta_key(primProc, gpu->glCaps(), 0, &b)) {
desc->fKey.reset();
return false;
}
for (int s = 0; s < optState.numFragmentStages(); ++s) {
const GrPendingFragmentStage& fps = optState.getFragmentStage(s);
const GrFragmentProcessor& fp = *fps.processor();
fp.getGLProcessorKey(gpu->glCaps(), &b);
if (!get_meta_key(fp, gpu->glCaps(), primProc.getTransformKey(fp.coordTransforms()), &b)) {
desc->fKey.reset();
return false;
}
}
const GrXferProcessor& xp = *optState.getXferProcessor();
xp.getGLProcessorKey(gpu->glCaps(), &b);
if (!get_meta_key(xp, gpu->glCaps(), 0, &b)) {
desc->fKey.reset();
return false;
}
// --------DO NOT MOVE HEADER ABOVE THIS LINE--------------------------------------------------
// Because header is a pointer into the dynamic array, we can't push any new data into the key
// below here.
KeyHeader* header = desc->atOffset<KeyHeader, kHeaderOffset>();
// make sure any padding in the header is zeroed.
memset(header, 0, kHeaderSize);
if (descInfo.fReadsDst) {
const GrDeviceCoordTexture* dstCopy = optState.getDstCopy();
SkASSERT(dstCopy || gpu->caps()->dstReadInShaderSupport());
const GrTexture* dstCopyTexture = NULL;
if (dstCopy) {
dstCopyTexture = dstCopy->texture();
}
header->fDstReadKey = GrGLFragmentShaderBuilder::KeyForDstRead(dstCopyTexture,
gpu->glCaps());
SkASSERT(0 != header->fDstReadKey);
} else {
header->fDstReadKey = 0;
}
if (descInfo.fReadsFragPosition) {
header->fFragPosKey =
GrGLFragmentShaderBuilder::KeyForFragmentPosition(optState.getRenderTarget(),
gpu->glCaps());
} else {
header->fFragPosKey = 0;
}
header->fColorEffectCnt = optState.numColorStages();
header->fCoverageEffectCnt = optState.numCoverageStages();
desc->finalize();
return true;
}
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