426ba463d5
This reverts commit 559c617137
.
Reason for revert: breaking things
Original change's description:
> Reuse GrTexture instances when the same GrBackendTexture is used to
> repeatedly fulfill a promise SkImage.
>
> Bug: skia:8613
>
> Change-Id: I35c76435d630d2daa034e0c3efb59666bfd6882a
> Reviewed-on: https://skia-review.googlesource.com/c/175820
> Commit-Queue: Brian Salomon <bsalomon@google.com>
> Reviewed-by: Robert Phillips <robertphillips@google.com>
TBR=bsalomon@google.com,robertphillips@google.com
Change-Id: I7548809945d0a875fdb9387398bbc45e733c0846
No-Presubmit: true
No-Tree-Checks: true
No-Try: true
Bug: skia:8613
Reviewed-on: https://skia-review.googlesource.com/c/182960
Reviewed-by: Brian Salomon <bsalomon@google.com>
Commit-Queue: Brian Salomon <bsalomon@google.com>
353 lines
12 KiB
C++
353 lines
12 KiB
C++
/*
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* Copyright 2014 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef GrResourceKey_DEFINED
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#define GrResourceKey_DEFINED
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#include "../private/SkOnce.h"
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#include "../private/SkTemplates.h"
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#include "../private/SkTo.h"
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#include "GrTypes.h"
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#include "SkData.h"
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#include "SkString.h"
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#include <new>
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uint32_t GrResourceKeyHash(const uint32_t* data, size_t size);
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/**
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* Base class for all GrGpuResource cache keys. There are two types of cache keys. Refer to the
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* comments for each key type below.
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*/
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class GrResourceKey {
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public:
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uint32_t hash() const {
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this->validate();
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return fKey[kHash_MetaDataIdx];
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}
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size_t size() const {
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this->validate();
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SkASSERT(this->isValid());
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return this->internalSize();
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}
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protected:
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static const uint32_t kInvalidDomain = 0;
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GrResourceKey() { this->reset(); }
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/** Reset to an invalid key. */
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void reset() {
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GR_STATIC_ASSERT((uint16_t)kInvalidDomain == kInvalidDomain);
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fKey.reset(kMetaDataCnt);
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fKey[kHash_MetaDataIdx] = 0;
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fKey[kDomainAndSize_MetaDataIdx] = kInvalidDomain;
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}
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bool operator==(const GrResourceKey& that) const {
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return this->hash() == that.hash() && 0 == memcmp(&fKey[kHash_MetaDataIdx + 1],
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&that.fKey[kHash_MetaDataIdx + 1],
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this->internalSize() - sizeof(uint32_t));
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}
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GrResourceKey& operator=(const GrResourceKey& that) {
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SkASSERT(that.isValid());
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if (this != &that) {
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size_t bytes = that.size();
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SkASSERT(SkIsAlign4(bytes));
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fKey.reset(SkToInt(bytes / sizeof(uint32_t)));
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memcpy(fKey.get(), that.fKey.get(), bytes);
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this->validate();
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}
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return *this;
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}
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bool isValid() const { return kInvalidDomain != this->domain(); }
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uint32_t domain() const { return fKey[kDomainAndSize_MetaDataIdx] & 0xffff; }
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/** size of the key data, excluding meta-data (hash, domain, etc). */
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size_t dataSize() const { return this->size() - 4 * kMetaDataCnt; }
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/** ptr to the key data, excluding meta-data (hash, domain, etc). */
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const uint32_t* data() const {
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this->validate();
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return &fKey[kMetaDataCnt];
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}
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#ifdef SK_DEBUG
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void dump() const {
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if (!this->isValid()) {
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SkDebugf("Invalid Key\n");
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} else {
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SkDebugf("hash: %d ", this->hash());
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SkDebugf("domain: %d ", this->domain());
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SkDebugf("size: %dB ", this->internalSize());
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for (size_t i = 0; i < this->internalSize(); ++i) {
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SkDebugf("%d ", fKey[SkTo<int>(i)]);
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}
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SkDebugf("\n");
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}
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}
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#endif
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/** Used to initialize a key. */
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class Builder {
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public:
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Builder(GrResourceKey* key, uint32_t domain, int data32Count) : fKey(key) {
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SkASSERT(data32Count >= 0);
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SkASSERT(domain != kInvalidDomain);
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key->fKey.reset(kMetaDataCnt + data32Count);
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int size = (data32Count + kMetaDataCnt) * sizeof(uint32_t);
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SkASSERT(SkToU16(size) == size);
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SkASSERT(SkToU16(domain) == domain);
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key->fKey[kDomainAndSize_MetaDataIdx] = domain | (size << 16);
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}
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~Builder() { this->finish(); }
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void finish() {
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if (nullptr == fKey) {
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return;
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}
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GR_STATIC_ASSERT(0 == kHash_MetaDataIdx);
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uint32_t* hash = &fKey->fKey[kHash_MetaDataIdx];
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*hash = GrResourceKeyHash(hash + 1, fKey->internalSize() - sizeof(uint32_t));
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fKey->validate();
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fKey = nullptr;
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}
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uint32_t& operator[](int dataIdx) {
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SkASSERT(fKey);
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SkDEBUGCODE(size_t dataCount = fKey->internalSize() / sizeof(uint32_t) - kMetaDataCnt;)
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SkASSERT(SkToU32(dataIdx) < dataCount);
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return fKey->fKey[kMetaDataCnt + dataIdx];
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}
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private:
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GrResourceKey* fKey;
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};
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private:
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enum MetaDataIdx {
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kHash_MetaDataIdx,
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// The key domain and size are packed into a single uint32_t.
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kDomainAndSize_MetaDataIdx,
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kLastMetaDataIdx = kDomainAndSize_MetaDataIdx
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};
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static const uint32_t kMetaDataCnt = kLastMetaDataIdx + 1;
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size_t internalSize() const { return fKey[kDomainAndSize_MetaDataIdx] >> 16; }
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void validate() const {
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SkASSERT(fKey[kHash_MetaDataIdx] ==
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GrResourceKeyHash(&fKey[kHash_MetaDataIdx] + 1,
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this->internalSize() - sizeof(uint32_t)));
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SkASSERT(SkIsAlign4(this->internalSize()));
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}
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friend class TestResource; // For unit test to access kMetaDataCnt.
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// bmp textures require 5 uint32_t values.
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SkAutoSTMalloc<kMetaDataCnt + 5, uint32_t> fKey;
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};
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/**
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* A key used for scratch resources. There are three important rules about scratch keys:
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* * Multiple resources can share the same scratch key. Therefore resources assigned the same
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* scratch key should be interchangeable with respect to the code that uses them.
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* * A resource can have at most one scratch key and it is set at resource creation by the
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* resource itself.
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* * When a scratch resource is ref'ed it will not be returned from the
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* cache for a subsequent cache request until all refs are released. This facilitates using
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* a scratch key for multiple render-to-texture scenarios. An example is a separable blur:
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*
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* GrTexture* texture[2];
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* texture[0] = get_scratch_texture(scratchKey);
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* texture[1] = get_scratch_texture(scratchKey); // texture[0] is already owned so we will get a
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* // different one for texture[1]
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* draw_mask(texture[0], path); // draws path mask to texture[0]
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* blur_x(texture[0], texture[1]); // blurs texture[0] in y and stores result in texture[1]
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* blur_y(texture[1], texture[0]); // blurs texture[1] in y and stores result in texture[0]
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* texture[1]->unref(); // texture 1 can now be recycled for the next request with scratchKey
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* consume_blur(texture[0]);
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* texture[0]->unref(); // texture 0 can now be recycled for the next request with scratchKey
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*/
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class GrScratchKey : public GrResourceKey {
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private:
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typedef GrResourceKey INHERITED;
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public:
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/** Uniquely identifies the type of resource that is cached as scratch. */
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typedef uint32_t ResourceType;
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/** Generate a unique ResourceType. */
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static ResourceType GenerateResourceType();
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/** Creates an invalid scratch key. It must be initialized using a Builder object before use. */
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GrScratchKey() {}
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GrScratchKey(const GrScratchKey& that) { *this = that; }
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/** reset() returns the key to the invalid state. */
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using INHERITED::reset;
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using INHERITED::isValid;
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ResourceType resourceType() const { return this->domain(); }
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GrScratchKey& operator=(const GrScratchKey& that) {
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this->INHERITED::operator=(that);
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return *this;
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}
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bool operator==(const GrScratchKey& that) const { return this->INHERITED::operator==(that); }
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bool operator!=(const GrScratchKey& that) const { return !(*this == that); }
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class Builder : public INHERITED::Builder {
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public:
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Builder(GrScratchKey* key, ResourceType type, int data32Count)
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: INHERITED::Builder(key, type, data32Count) {}
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};
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};
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/**
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* A key that allows for exclusive use of a resource for a use case (AKA "domain"). There are three
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* rules governing the use of unique keys:
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* * Only one resource can have a given unique key at a time. Hence, "unique".
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* * A resource can have at most one unique key at a time.
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* * Unlike scratch keys, multiple requests for a unique key will return the same
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* resource even if the resource already has refs.
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* This key type allows a code path to create cached resources for which it is the exclusive user.
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* The code path creates a domain which it sets on its keys. This guarantees that there are no
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* cross-domain collisions.
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*
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* Unique keys preempt scratch keys. While a resource has a unique key it is inaccessible via its
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* scratch key. It can become scratch again if the unique key is removed.
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*/
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class GrUniqueKey : public GrResourceKey {
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private:
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typedef GrResourceKey INHERITED;
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public:
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typedef uint32_t Domain;
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/** Generate a Domain for unique keys. */
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static Domain GenerateDomain();
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/** Creates an invalid unique key. It must be initialized using a Builder object before use. */
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GrUniqueKey() : fTag(nullptr) {}
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GrUniqueKey(const GrUniqueKey& that) { *this = that; }
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/** reset() returns the key to the invalid state. */
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using INHERITED::reset;
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using INHERITED::isValid;
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GrUniqueKey& operator=(const GrUniqueKey& that) {
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this->INHERITED::operator=(that);
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this->setCustomData(sk_ref_sp(that.getCustomData()));
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fTag = that.fTag;
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return *this;
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}
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bool operator==(const GrUniqueKey& that) const { return this->INHERITED::operator==(that); }
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bool operator!=(const GrUniqueKey& that) const { return !(*this == that); }
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void setCustomData(sk_sp<SkData> data) { fData = std::move(data); }
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SkData* getCustomData() const { return fData.get(); }
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const char* tag() const { return fTag; }
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#ifdef SK_DEBUG
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void dump(const char* label) const {
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SkDebugf("%s tag: %s\n", label, fTag ? fTag : "None");
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this->INHERITED::dump();
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}
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#endif
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class Builder : public INHERITED::Builder {
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public:
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Builder(GrUniqueKey* key, Domain type, int data32Count, const char* tag = nullptr)
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: INHERITED::Builder(key, type, data32Count) {
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key->fTag = tag;
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}
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/** Used to build a key that wraps another key and adds additional data. */
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Builder(GrUniqueKey* key, const GrUniqueKey& innerKey, Domain domain, int extraData32Cnt,
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const char* tag = nullptr)
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: INHERITED::Builder(key, domain, Data32CntForInnerKey(innerKey) + extraData32Cnt) {
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SkASSERT(&innerKey != key);
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// add the inner key to the end of the key so that op[] can be indexed normally.
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uint32_t* innerKeyData = &this->operator[](extraData32Cnt);
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const uint32_t* srcData = innerKey.data();
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(*innerKeyData++) = innerKey.domain();
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memcpy(innerKeyData, srcData, innerKey.dataSize());
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key->fTag = tag;
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}
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private:
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static int Data32CntForInnerKey(const GrUniqueKey& innerKey) {
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// key data + domain
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return SkToInt((innerKey.dataSize() >> 2) + 1);
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}
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};
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private:
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sk_sp<SkData> fData;
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const char* fTag;
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};
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/**
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* It is common to need a frequently reused GrUniqueKey where the only requirement is that the key
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* is unique. These macros create such a key in a thread safe manner so the key can be truly global
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* and only constructed once.
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*/
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/** Place outside of function/class definitions. */
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#define GR_DECLARE_STATIC_UNIQUE_KEY(name) static SkOnce name##_once
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/** Place inside function where the key is used. */
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#define GR_DEFINE_STATIC_UNIQUE_KEY(name) \
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static SkAlignedSTStorage<1, GrUniqueKey> name##_storage; \
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name##_once(gr_init_static_unique_key_once, &name##_storage); \
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static const GrUniqueKey& name = *reinterpret_cast<GrUniqueKey*>(name##_storage.get())
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static inline void gr_init_static_unique_key_once(SkAlignedSTStorage<1, GrUniqueKey>* keyStorage) {
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GrUniqueKey* key = new (keyStorage->get()) GrUniqueKey;
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GrUniqueKey::Builder builder(key, GrUniqueKey::GenerateDomain(), 0);
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}
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// The cache listens for these messages to purge junk resources proactively.
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class GrUniqueKeyInvalidatedMessage {
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public:
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GrUniqueKeyInvalidatedMessage(const GrUniqueKey& key, uint32_t contextUniqueID)
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: fKey(key), fContextID(contextUniqueID) {
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SkASSERT(SK_InvalidUniqueID != contextUniqueID);
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}
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GrUniqueKeyInvalidatedMessage(const GrUniqueKeyInvalidatedMessage&) = default;
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GrUniqueKeyInvalidatedMessage& operator=(const GrUniqueKeyInvalidatedMessage&) = default;
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const GrUniqueKey& key() const { return fKey; }
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uint32_t contextID() const { return fContextID; }
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private:
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GrUniqueKey fKey;
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uint32_t fContextID;
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};
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static inline bool SkShouldPostMessageToBus(const GrUniqueKeyInvalidatedMessage& msg,
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uint32_t msgBusUniqueID) {
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return msg.contextID() == msgBusUniqueID;
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}
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#endif
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