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/*
* Copyright 2017 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#ifndef GrCCAtlas_DEFINED
#define GrCCAtlas_DEFINED
#include "include/core/SkRefCnt.h"
#include "include/core/SkSize.h"
#include "include/gpu/GrTexture.h"
#include "include/private/GrResourceKey.h"
#include "src/gpu/GrAllocator.h"
#include "src/gpu/GrNonAtomicRef.h"
#include "src/gpu/GrSurfaceProxy.h"
class GrCCCachedAtlas;
class GrOnFlushResourceProvider;
class GrRenderTargetContext;
class GrResourceProvider;
class GrTextureProxy;
struct SkIPoint16;
struct SkIRect;
/**
* This class implements a dynamic size GrRectanizer that grows until it reaches the implementation-
* dependent max texture size. When finalized, it also creates and stores a GrTextureProxy for the
* underlying atlas.
*/
class GrCCAtlas {
public:
// As long as GrSurfaceOrigin exists, we just have to decide on one for the atlas texture.
static constexpr GrSurfaceOrigin kTextureOrigin = kTopLeft_GrSurfaceOrigin;
static constexpr int kPadding = 1; // Amount of padding below and to the right of each path.
// This struct encapsulates the minimum and desired requirements for an atlas, as well as an
// approximate number of pixels to help select a good initial size.
struct Specs {
int fMaxPreferredTextureSize = 0;
int fMinTextureSize = 0;
int fMinWidth = 0; // If there are 100 20x10 paths, this should be 20.
int fMinHeight = 0; // If there are 100 20x10 paths, this should be 10.
int fApproxNumPixels = 0;
// Add space for a rect in the desired atlas specs.
void accountForSpace(int width, int height);
};
enum class CoverageType {
kFP16_CoverageCount,
kA8_Multisample,
kA8_LiteralCoverage
};
static constexpr GrColorType CoverageTypeToColorType(CoverageType coverageType) {
switch (coverageType) {
case CoverageType::kFP16_CoverageCount:
return GrColorType::kAlpha_F16;
case CoverageType::kA8_Multisample:
case CoverageType::kA8_LiteralCoverage:
return GrColorType::kAlpha_8;
}
SkUNREACHABLE;
}
using LazyInstantiateAtlasCallback = std::function<GrSurfaceProxy::LazyCallbackResult(
GrResourceProvider*, GrPixelConfig, const GrBackendFormat&, int sampleCount)>;
static sk_sp<GrTextureProxy> MakeLazyAtlasProxy(const LazyInstantiateAtlasCallback&,
CoverageType,
const GrCaps&,
GrSurfaceProxy::UseAllocator);
GrCCAtlas(CoverageType, const Specs&, const GrCaps&);
~GrCCAtlas();
GrTextureProxy* textureProxy() const { return fTextureProxy.get(); }
int currentWidth() const { return fWidth; }
int currentHeight() const { return fHeight; }
// Attempts to add a rect to the atlas. If successful, returns the integer offset from
// device-space pixels where the path will be drawn, to atlas pixels where its mask resides.
bool addRect(const SkIRect& devIBounds, SkIVector* atlasOffset);
const SkISize& drawBounds() { return fDrawBounds; }
// This is an optional space for the caller to jot down user-defined instance data to use when
// rendering atlas content.
void setFillBatchID(int id);
int getFillBatchID() const { return fFillBatchID; }
void setStrokeBatchID(int id);
int getStrokeBatchID() const { return fStrokeBatchID; }
void setEndStencilResolveInstance(int idx);
int getEndStencilResolveInstance() const { return fEndStencilResolveInstance; }
sk_sp<GrCCCachedAtlas> refOrMakeCachedAtlas(GrOnFlushResourceProvider*);
// Instantiates our texture proxy for the atlas and returns a pre-cleared GrRenderTargetContext
// that the caller may use to render the content. After this call, it is no longer valid to call
// addRect(), setUserBatchID(), or this method again.
//
// 'backingTexture', if provided, is a renderable texture with which to instantiate our proxy.
// If null then we will create a texture using the resource provider. The purpose of this param
// is to provide a guaranteed way to recycle a stashed atlas texture from a previous flush.
std::unique_ptr<GrRenderTargetContext> makeRenderTargetContext(
GrOnFlushResourceProvider*, sk_sp<GrTexture> backingTexture = nullptr);
private:
class Node;
bool internalPlaceRect(int w, int h, SkIPoint16* loc);
const CoverageType fCoverageType;
const int fMaxTextureSize;
int fWidth, fHeight;
std::unique_ptr<Node> fTopNode;
SkISize fDrawBounds = {0, 0};
int fFillBatchID;
int fStrokeBatchID;
int fEndStencilResolveInstance;
sk_sp<GrCCCachedAtlas> fCachedAtlas;
sk_sp<GrTextureProxy> fTextureProxy;
sk_sp<GrTexture> fBackingTexture;
};
/**
* This class implements an unbounded stack of atlases. When the current atlas reaches the
* implementation-dependent max texture size, a new one is pushed to the back and we continue on.
*/
class GrCCAtlasStack {
public:
using CoverageType = GrCCAtlas::CoverageType;
GrCCAtlasStack(CoverageType coverageType, const GrCCAtlas::Specs& specs, const GrCaps* caps)
: fCoverageType(coverageType), fSpecs(specs), fCaps(caps) {}
CoverageType coverageType() const { return fCoverageType; }
bool empty() const { return fAtlases.empty(); }
const GrCCAtlas& front() const { SkASSERT(!this->empty()); return fAtlases.front(); }
GrCCAtlas& front() { SkASSERT(!this->empty()); return fAtlases.front(); }
GrCCAtlas& current() { SkASSERT(!this->empty()); return fAtlases.back(); }
class Iter {
public:
Iter(GrCCAtlasStack& stack) : fImpl(&stack.fAtlases) {}
bool next() { return fImpl.next(); }
GrCCAtlas* operator->() const { return fImpl.get(); }
private:
typename GrTAllocator<GrCCAtlas>::Iter fImpl;
};
// Adds a rect to the current atlas and returns the offset from device space to atlas space.
// Call current() to get the atlas it was added to.
//
// If the return value is non-null, it means the given rect did not fit in the then-current
// atlas, so it was retired and a new one was added to the stack. The return value is the
// newly-retired atlas. The caller should call setUserBatchID() on the retired atlas before
// moving on.
GrCCAtlas* addRect(const SkIRect& devIBounds, SkIVector* devToAtlasOffset);
private:
const CoverageType fCoverageType;
const GrCCAtlas::Specs fSpecs;
const GrCaps* const fCaps;
GrSTAllocator<4, GrCCAtlas> fAtlases;
};
inline void GrCCAtlas::Specs::accountForSpace(int width, int height) {
fMinWidth = SkTMax(width, fMinWidth);
fMinHeight = SkTMax(height, fMinHeight);
fApproxNumPixels += (width + kPadding) * (height + kPadding);
}
#endif