src/third_party/skia/src/core/SkRecordOpts.cpp - cobalt - Git at Google

 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "SkRecordOpts.h"

 #include "SkRecordPattern.h"
 #include "SkRecords.h"
 #include "SkTDArray.h"

 using namespace SkRecords;

 void SkRecordOptimize(SkRecord* record) {
     // This might be useful  as a first pass in the future if we want to weed
     // out junk for other optimization passes.  Right now, nothing needs it,
     // and the bounding box hierarchy will do the work of skipping no-op
     // Save-NoDraw-Restore sequences better than we can here.
     //SkRecordNoopSaveRestores(record);

     SkRecordNoopSaveLayerDrawRestores(record);
 }

 // Most of the optimizations in this file are pattern-based.  These are all defined as structs with:
 //   - a Pattern typedef
 //   - a bool onMatch(SkRceord*, Pattern*, unsigned begin, unsigned end) method,
 //     which returns true if it made changes and false if not.

 // Run a pattern-based optimization once across the SkRecord, returning true if it made any changes.
 // It looks for spans which match Pass::Pattern, and when found calls onMatch() with the pattern,
 // record, and [begin,end) span of the commands that matched.
 template <typename Pass>
 static bool apply(Pass* pass, SkRecord* record) {
     typename Pass::Pattern pattern;
     bool changed = false;
     unsigned begin, end = 0;

     while (pattern.search(record, &begin, &end)) {
         changed |= pass->onMatch(record, &pattern, begin, end);
     }
     return changed;
 }

 // Turns the logical NoOp Save and Restore in Save-Draw*-Restore patterns into actual NoOps.
 struct SaveOnlyDrawsRestoreNooper {
     typedef Pattern3<Is<Save>,
                      Star<Or<Is<NoOp>, IsDraw> >,
                      Is<Restore> >
         Pattern;

     bool onMatch(SkRecord* record, Pattern* pattern, unsigned begin, unsigned end) {
         record->replace<NoOp>(begin);  // Save
         record->replace<NoOp>(end-1);  // Restore
         return true;
     }
 };
 // Turns logical no-op Save-[non-drawing command]*-Restore patterns into actual no-ops.
 struct SaveNoDrawsRestoreNooper {
     // Star matches greedily, so we also have to exclude Save and Restore.
     // Nested SaveLayers need to be excluded, or we'll match their Restore!
     typedef Pattern3<Is<Save>,
                      Star<Not<Or4<Is<Save>,
                                   Is<SaveLayer>,
                                   Is<Restore>,
                                   IsDraw> > >,
                      Is<Restore> >
         Pattern;

     bool onMatch(SkRecord* record, Pattern* pattern, unsigned begin, unsigned end) {
         // The entire span between Save and Restore (inclusively) does nothing.
         for (unsigned i = begin; i < end; i++) {
             record->replace<NoOp>(i);
         }
         return true;
     }
 };
 void SkRecordNoopSaveRestores(SkRecord* record) {
     SaveOnlyDrawsRestoreNooper onlyDraws;
     SaveNoDrawsRestoreNooper noDraws;

     // Run until they stop changing things.
     while (apply(&onlyDraws, record) || apply(&noDraws, record));
 }

 // For some SaveLayer-[drawing command]-Restore patterns, merge the SaveLayer's alpha into the
 // draw, and no-op the SaveLayer and Restore.
 struct SaveLayerDrawRestoreNooper {
     typedef Pattern3<Is<SaveLayer>, IsDraw, Is<Restore> > Pattern;

     bool onMatch(SkRecord* record, Pattern* pattern, unsigned begin, unsigned end) {
         SaveLayer* saveLayer = pattern->first<SaveLayer>();
         if (saveLayer->bounds != NULL) {
             // SaveLayer with bounds is too tricky for us.
             return false;
         }

         SkPaint* layerPaint = saveLayer->paint;
         if (NULL == layerPaint) {
             // There wasn't really any point to this SaveLayer at all.
             return KillSaveLayerAndRestore(record, begin);
         }

         SkPaint* drawPaint = pattern->second<SkPaint>();
         if (drawPaint == NULL) {
             // We can just give the draw the SaveLayer's paint.
             // TODO(mtklein): figure out how to do this clearly
             return false;
         }

         const uint32_t layerColor = layerPaint->getColor();
         const uint32_t  drawColor =  drawPaint->getColor();
         if (!IsOnlyAlpha(layerColor)  || !IsOpaque(drawColor) ||
             HasAnyEffect(*layerPaint) || HasAnyEffect(*drawPaint)) {
             // Too fancy for us.  Actually, as long as layerColor is just an alpha
             // we can blend it into drawColor's alpha; drawColor doesn't strictly have to be opaque.
             return false;
         }

         drawPaint->setColor(SkColorSetA(drawColor, SkColorGetA(layerColor)));
         return KillSaveLayerAndRestore(record, begin);
     }

     static bool KillSaveLayerAndRestore(SkRecord* record, unsigned saveLayerIndex) {
         record->replace<NoOp>(saveLayerIndex);    // SaveLayer
         record->replace<NoOp>(saveLayerIndex+2);  // Restore
         return true;
     }

     static bool HasAnyEffect(const SkPaint& paint) {
         return paint.getPathEffect()  ||
                paint.getShader()      ||
                paint.getXfermode()    ||
                paint.getMaskFilter()  ||
                paint.getColorFilter() ||
                paint.getRasterizer()  ||
                paint.getLooper()      ||
                paint.getImageFilter();
     }

     static bool IsOpaque(SkColor color) {
         return SkColorGetA(color) == SK_AlphaOPAQUE;
     }
     static bool IsOnlyAlpha(SkColor color) {
         return SK_ColorTRANSPARENT == SkColorSetA(color, SK_AlphaTRANSPARENT);
     }
 };
 void SkRecordNoopSaveLayerDrawRestores(SkRecord* record) {
     SaveLayerDrawRestoreNooper pass;
     apply(&pass, record);
 }
	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "SkRecordOpts.h"

	#include "SkRecordPattern.h"
	#include "SkRecords.h"
	#include "SkTDArray.h"

	using namespace SkRecords;

	void SkRecordOptimize(SkRecord* record) {
	// This might be useful as a first pass in the future if we want to weed
	// out junk for other optimization passes. Right now, nothing needs it,
	// and the bounding box hierarchy will do the work of skipping no-op
	// Save-NoDraw-Restore sequences better than we can here.
	//SkRecordNoopSaveRestores(record);

	SkRecordNoopSaveLayerDrawRestores(record);
	}

	// Most of the optimizations in this file are pattern-based. These are all defined as structs with:
	// - a Pattern typedef
	// - a bool onMatch(SkRceord, Pattern, unsigned begin, unsigned end) method,
	// which returns true if it made changes and false if not.

	// Run a pattern-based optimization once across the SkRecord, returning true if it made any changes.
	// It looks for spans which match Pass::Pattern, and when found calls onMatch() with the pattern,
	// record, and [begin,end) span of the commands that matched.
	template <typename Pass>
	static bool apply(Pass* pass, SkRecord* record) {
	typename Pass::Pattern pattern;
	bool changed = false;
	unsigned begin, end = 0;

	while (pattern.search(record, &begin, &end)) {
	changed \|= pass->onMatch(record, &pattern, begin, end);
	}
	return changed;
	}

	// Turns the logical NoOp Save and Restore in Save-Draw*-Restore patterns into actual NoOps.
	struct SaveOnlyDrawsRestoreNooper {
	typedef Pattern3<Is<Save>,
	Star<Or<Is<NoOp>, IsDraw> >,
	Is<Restore> >
	Pattern;

	bool onMatch(SkRecord* record, Pattern* pattern, unsigned begin, unsigned end) {
	record->replace<NoOp>(begin); // Save
	record->replace<NoOp>(end-1); // Restore
	return true;
	}
	};
	// Turns logical no-op Save-[non-drawing command]*-Restore patterns into actual no-ops.
	struct SaveNoDrawsRestoreNooper {
	// Star matches greedily, so we also have to exclude Save and Restore.
	// Nested SaveLayers need to be excluded, or we'll match their Restore!
	typedef Pattern3<Is<Save>,
	Star<Not<Or4<Is<Save>,
	Is<SaveLayer>,
	Is<Restore>,
	IsDraw> > >,
	Is<Restore> >
	Pattern;

	bool onMatch(SkRecord* record, Pattern* pattern, unsigned begin, unsigned end) {
	// The entire span between Save and Restore (inclusively) does nothing.
	for (unsigned i = begin; i < end; i++) {
	record->replace<NoOp>(i);
	}
	return true;
	}
	};
	void SkRecordNoopSaveRestores(SkRecord* record) {
	SaveOnlyDrawsRestoreNooper onlyDraws;
	SaveNoDrawsRestoreNooper noDraws;

	// Run until they stop changing things.
	while (apply(&onlyDraws, record) \|\| apply(&noDraws, record));
	}

	// For some SaveLayer-[drawing command]-Restore patterns, merge the SaveLayer's alpha into the
	// draw, and no-op the SaveLayer and Restore.
	struct SaveLayerDrawRestoreNooper {
	typedef Pattern3<Is<SaveLayer>, IsDraw, Is<Restore> > Pattern;

	bool onMatch(SkRecord* record, Pattern* pattern, unsigned begin, unsigned end) {
	SaveLayer* saveLayer = pattern->first<SaveLayer>();
	if (saveLayer->bounds != NULL) {
	// SaveLayer with bounds is too tricky for us.
	return false;
	}

	SkPaint* layerPaint = saveLayer->paint;
	if (NULL == layerPaint) {
	// There wasn't really any point to this SaveLayer at all.
	return KillSaveLayerAndRestore(record, begin);
	}

	SkPaint* drawPaint = pattern->second<SkPaint>();
	if (drawPaint == NULL) {
	// We can just give the draw the SaveLayer's paint.
	// TODO(mtklein): figure out how to do this clearly
	return false;
	}

	const uint32_t layerColor = layerPaint->getColor();
	const uint32_t drawColor = drawPaint->getColor();
	if (!IsOnlyAlpha(layerColor) \|\| !IsOpaque(drawColor) \|\|
	HasAnyEffect(layerPaint) \|\| HasAnyEffect(drawPaint)) {
	// Too fancy for us. Actually, as long as layerColor is just an alpha
	// we can blend it into drawColor's alpha; drawColor doesn't strictly have to be opaque.
	return false;
	}

	drawPaint->setColor(SkColorSetA(drawColor, SkColorGetA(layerColor)));
	return KillSaveLayerAndRestore(record, begin);
	}

	static bool KillSaveLayerAndRestore(SkRecord* record, unsigned saveLayerIndex) {
	record->replace<NoOp>(saveLayerIndex); // SaveLayer
	record->replace<NoOp>(saveLayerIndex+2); // Restore
	return true;
	}

	static bool HasAnyEffect(const SkPaint& paint) {
	return paint.getPathEffect() \|\|
	paint.getShader() \|\|
	paint.getXfermode() \|\|
	paint.getMaskFilter() \|\|
	paint.getColorFilter() \|\|
	paint.getRasterizer() \|\|
	paint.getLooper() \|\|
	paint.getImageFilter();
	}

	static bool IsOpaque(SkColor color) {
	return SkColorGetA(color) == SK_AlphaOPAQUE;
	}
	static bool IsOnlyAlpha(SkColor color) {
	return SK_ColorTRANSPARENT == SkColorSetA(color, SK_AlphaTRANSPARENT);
	}
	};
	void SkRecordNoopSaveLayerDrawRestores(SkRecord* record) {
	SaveLayerDrawRestoreNooper pass;
	apply(&pass, record);
	}