src/core/SkMiniRecorder.cpp - skia - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "SkCanvas.h"
 #include "SkTLazy.h"
 #include "SkMiniRecorder.h"
 #include "SkOnce.h"
 #include "SkPicture.h"
 #include "SkPictureCommon.h"
 #include "SkRecordDraw.h"
 #include "SkRectPriv.h"
 #include "SkTextBlob.h"
 #include <new>

 using namespace SkRecords;

 class SkEmptyPicture final : public SkPicture {
 public:
     void playback(SkCanvas*, AbortCallback*) const override { }

     size_t approximateBytesUsed() const override { return sizeof(*this); }
     int    approximateOpCount()   const override { return 0; }
     SkRect cullRect()             const override { return SkRect::MakeEmpty(); }
 };

 // Calculate conservative bounds for each type of draw op that can be its own mini picture.
 // These are fairly easy because we know they can't be affected by any matrix or saveLayers.
 static SkRect adjust_for_paint(SkRect bounds, const SkPaint& paint) {
     return paint.canComputeFastBounds() ? paint.computeFastBounds(bounds, &bounds)
                                         : SkRectPriv::MakeLargest();
 }
 static SkRect bounds(const DrawRect& op) {
     return adjust_for_paint(op.rect, op.paint);
 }
 static SkRect bounds(const DrawPath& op) {
     return op.path.isInverseFillType() ? SkRectPriv::MakeLargest()
                                        : adjust_for_paint(op.path.getBounds(), op.paint);
 }
 static SkRect bounds(const DrawTextBlob& op) {
     return adjust_for_paint(op.blob->bounds().makeOffset(op.x, op.y), op.paint);
 }

 template <typename T>
 class SkMiniPicture final : public SkPicture {
 public:
     SkMiniPicture(const SkRect* cull, T* op) : fCull(cull ? *cull : bounds(*op)) {
         memcpy(&fOp, op, sizeof(fOp));  // We take ownership of op's guts.
     }

     void playback(SkCanvas* c, AbortCallback*) const override {
         SkRecords::Draw(c, nullptr, nullptr, 0, nullptr)(fOp);
     }

     size_t approximateBytesUsed() const override { return sizeof(*this); }
     int    approximateOpCount()   const override { return 1; }
     SkRect cullRect()             const override { return fCull; }

 private:
     SkRect fCull;
     T      fOp;
 };


 SkMiniRecorder::SkMiniRecorder() : fState(State::kEmpty) {}
 SkMiniRecorder::~SkMiniRecorder() {
     if (fState != State::kEmpty) {
         // We have internal state pending.
         // Detaching then deleting a picture is an easy way to clean up.
         (void)this->detachAsPicture(nullptr);
     }
     SkASSERT(fState == State::kEmpty);
 }

 #define TRY_TO_STORE(Type, ...)                    \
     if (fState != State::kEmpty) { return false; } \
     fState = State::k##Type;                       \
     new (fBuffer.get()) Type{__VA_ARGS__};         \
     return true

 bool SkMiniRecorder::drawRect(const SkRect& rect, const SkPaint& paint) {
     TRY_TO_STORE(DrawRect, paint, rect);
 }

 bool SkMiniRecorder::drawPath(const SkPath& path, const SkPaint& paint) {
     TRY_TO_STORE(DrawPath, paint, path);
 }

 bool SkMiniRecorder::drawTextBlob(const SkTextBlob* b, SkScalar x, SkScalar y, const SkPaint& p) {
     TRY_TO_STORE(DrawTextBlob, p, sk_ref_sp(b), x, y);
 }
 #undef TRY_TO_STORE


 sk_sp<SkPicture> SkMiniRecorder::detachAsPicture(const SkRect* cull) {
 #define CASE(Type)              \
     case State::k##Type:        \
         fState = State::kEmpty; \
         return sk_make_sp<SkMiniPicture<Type>>(cull, reinterpret_cast<Type*>(fBuffer.get()))

     static SkOnce once;
     static SkPicture* empty;

     switch (fState) {
         case State::kEmpty:
             once([]{ empty = new SkEmptyPicture; });
             return sk_ref_sp(empty);
         CASE(DrawPath);
         CASE(DrawRect);
         CASE(DrawTextBlob);
     }
     SkASSERT(false);
     return nullptr;
 #undef CASE
 }

 void SkMiniRecorder::flushAndReset(SkCanvas* canvas) {
 #define CASE(Type)                                                  \
     case State::k##Type: {                                          \
         fState = State::kEmpty;                                     \
         Type* op = reinterpret_cast<Type*>(fBuffer.get());          \
         SkRecords::Draw(canvas, nullptr, nullptr, 0, nullptr)(*op); \
         op->~Type();                                                \
     } return

     switch (fState) {
         case State::kEmpty: return;
         CASE(DrawPath);
         CASE(DrawRect);
         CASE(DrawTextBlob);
     }
     SkASSERT(false);
 #undef CASE
 }
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "SkCanvas.h"
	#include "SkTLazy.h"
	#include "SkMiniRecorder.h"
	#include "SkOnce.h"
	#include "SkPicture.h"
	#include "SkPictureCommon.h"
	#include "SkRecordDraw.h"
	#include "SkRectPriv.h"
	#include "SkTextBlob.h"
	#include <new>

	using namespace SkRecords;

	class SkEmptyPicture final : public SkPicture {
	public:
	void playback(SkCanvas, AbortCallback) const override { }

	size_t approximateBytesUsed() const override { return sizeof(*this); }
	int approximateOpCount() const override { return 0; }
	SkRect cullRect() const override { return SkRect::MakeEmpty(); }
	};

	// Calculate conservative bounds for each type of draw op that can be its own mini picture.
	// These are fairly easy because we know they can't be affected by any matrix or saveLayers.
	static SkRect adjust_for_paint(SkRect bounds, const SkPaint& paint) {
	return paint.canComputeFastBounds() ? paint.computeFastBounds(bounds, &bounds)
	: SkRectPriv::MakeLargest();
	}
	static SkRect bounds(const DrawRect& op) {
	return adjust_for_paint(op.rect, op.paint);
	}
	static SkRect bounds(const DrawPath& op) {
	return op.path.isInverseFillType() ? SkRectPriv::MakeLargest()
	: adjust_for_paint(op.path.getBounds(), op.paint);
	}
	static SkRect bounds(const DrawTextBlob& op) {
	return adjust_for_paint(op.blob->bounds().makeOffset(op.x, op.y), op.paint);
	}

	template <typename T>
	class SkMiniPicture final : public SkPicture {
	public:
	SkMiniPicture(const SkRect* cull, T* op) : fCull(cull ? cull : bounds(op)) {
	memcpy(&fOp, op, sizeof(fOp)); // We take ownership of op's guts.
	}

	void playback(SkCanvas* c, AbortCallback*) const override {
	SkRecords::Draw(c, nullptr, nullptr, 0, nullptr)(fOp);
	}

	size_t approximateBytesUsed() const override { return sizeof(*this); }
	int approximateOpCount() const override { return 1; }
	SkRect cullRect() const override { return fCull; }

	private:
	SkRect fCull;
	T fOp;
	};


	SkMiniRecorder::SkMiniRecorder() : fState(State::kEmpty) {}
	SkMiniRecorder::~SkMiniRecorder() {
	if (fState != State::kEmpty) {
	// We have internal state pending.
	// Detaching then deleting a picture is an easy way to clean up.
	(void)this->detachAsPicture(nullptr);
	}
	SkASSERT(fState == State::kEmpty);
	}

	#define TRY_TO_STORE(Type, ...) \
	if (fState != State::kEmpty) { return false; } \
	fState = State::k##Type; \
	new (fBuffer.get()) Type{__VA_ARGS__}; \
	return true

	bool SkMiniRecorder::drawRect(const SkRect& rect, const SkPaint& paint) {
	TRY_TO_STORE(DrawRect, paint, rect);
	}

	bool SkMiniRecorder::drawPath(const SkPath& path, const SkPaint& paint) {
	TRY_TO_STORE(DrawPath, paint, path);
	}

	bool SkMiniRecorder::drawTextBlob(const SkTextBlob* b, SkScalar x, SkScalar y, const SkPaint& p) {
	TRY_TO_STORE(DrawTextBlob, p, sk_ref_sp(b), x, y);
	}
	#undef TRY_TO_STORE


	sk_sp<SkPicture> SkMiniRecorder::detachAsPicture(const SkRect* cull) {
	#define CASE(Type) \
	case State::k##Type: \
	fState = State::kEmpty; \
	return sk_make_sp<SkMiniPicture<Type>>(cull, reinterpret_cast<Type*>(fBuffer.get()))

	static SkOnce once;
	static SkPicture* empty;

	switch (fState) {
	case State::kEmpty:
	once([]{ empty = new SkEmptyPicture; });
	return sk_ref_sp(empty);
	CASE(DrawPath);
	CASE(DrawRect);
	CASE(DrawTextBlob);
	}
	SkASSERT(false);
	return nullptr;
	#undef CASE
	}

	void SkMiniRecorder::flushAndReset(SkCanvas* canvas) {
	#define CASE(Type) \
	case State::k##Type: { \
	fState = State::kEmpty; \
	Type* op = reinterpret_cast<Type*>(fBuffer.get()); \
	SkRecords::Draw(canvas, nullptr, nullptr, 0, nullptr)(*op); \
	op->~Type(); \
	} return

	switch (fState) {
	case State::kEmpty: return;
	CASE(DrawPath);
	CASE(DrawRect);
	CASE(DrawTextBlob);
	}
	SkASSERT(false);
	#undef CASE
	}