src/gpu/GrAuditTrail.cpp - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrAuditTrail.h"
 #include "batches/GrBatch.h"

 const int GrAuditTrail::kGrAuditTrailInvalidID = -1;

 void GrAuditTrail::addBatch(const GrBatch* batch) {
     SkASSERT(fEnabled);
     Batch* auditBatch = new Batch;
     fBatchPool.emplace_back(auditBatch);
     auditBatch->fName = batch->name();
     auditBatch->fBounds = batch->bounds();
     auditBatch->fClientID = kGrAuditTrailInvalidID;
     auditBatch->fBatchListID = kGrAuditTrailInvalidID;
     auditBatch->fChildID = kGrAuditTrailInvalidID;

     // consume the current stack trace if any
     auditBatch->fStackTrace = fCurrentStackTrace;
     fCurrentStackTrace.reset();

     if (fClientID != kGrAuditTrailInvalidID) {
         auditBatch->fClientID = fClientID;
         Batches** batchesLookup = fClientIDLookup.find(fClientID);
         Batches* batches = nullptr;
         if (!batchesLookup) {
             batches = new Batches;
             fClientIDLookup.set(fClientID, batches);
         } else {
             batches = *batchesLookup;
         }

         batches->push_back(auditBatch);
     }

     // Our algorithm doesn't bother to reorder inside of a BatchNode
     // so the ChildID will start at 0
     auditBatch->fBatchListID = fBatchList.count();
     auditBatch->fChildID = 0;

     // We use the batch pointer as a key to find the batchnode we are 'glomming' batches onto
     fIDLookup.set(batch->uniqueID(), auditBatch->fBatchListID);
     BatchNode* batchNode = new BatchNode;
     batchNode->fBounds = batch->bounds();
     batchNode->fRenderTargetUniqueID = batch->renderTargetUniqueID();
     batchNode->fChildren.push_back(auditBatch);
     fBatchList.emplace_back(batchNode);
 }

 void GrAuditTrail::batchingResultCombined(const GrBatch* consumer, const GrBatch* consumed) {
     // Look up the batch we are going to glom onto
     int* indexPtr = fIDLookup.find(consumer->uniqueID());
     SkASSERT(indexPtr);
     int index = *indexPtr;
     SkASSERT(index < fBatchList.count() && fBatchList[index]);
     BatchNode& consumerBatch = *fBatchList[index];

     // Look up the batch which will be glommed
     int* consumedPtr = fIDLookup.find(consumed->uniqueID());
     SkASSERT(consumedPtr);
     int consumedIndex = *consumedPtr;
     SkASSERT(consumedIndex < fBatchList.count() && fBatchList[consumedIndex]);
     BatchNode& consumedBatch = *fBatchList[consumedIndex];

     // steal all of consumed's batches
     for (int i = 0; i < consumedBatch.fChildren.count(); i++) {
         Batch* childBatch = consumedBatch.fChildren[i];

         // set the ids for the child batch
         childBatch->fBatchListID = index;
         childBatch->fChildID = consumerBatch.fChildren.count();
         consumerBatch.fChildren.push_back(childBatch);
     }

     // Update the bounds for the combineWith node
     consumerBatch.fBounds = consumer->bounds();

     // remove the old node from our batchlist and clear the combinee's lookup
     // NOTE: because we can't change the shape of the batchlist, we use a sentinel
     fBatchList[consumedIndex].reset(nullptr);
     fIDLookup.remove(consumed->uniqueID());
 }

 void GrAuditTrail::copyOutFromBatchList(BatchInfo* outBatchInfo, int batchListID) {
     SkASSERT(batchListID < fBatchList.count());
     const BatchNode* bn = fBatchList[batchListID];
     SkASSERT(bn);
     outBatchInfo->fBounds = bn->fBounds;
     outBatchInfo->fRenderTargetUniqueID = bn->fRenderTargetUniqueID;
     for (int j = 0; j < bn->fChildren.count(); j++) {
         BatchInfo::Batch& outBatch = outBatchInfo->fBatches.push_back();
         const Batch* currentBatch = bn->fChildren[j];
         outBatch.fBounds = currentBatch->fBounds;
         outBatch.fClientID = currentBatch->fClientID;
     }
 }

 void GrAuditTrail::getBoundsByClientID(SkTArray<BatchInfo>* outInfo, int clientID) {
     Batches** batchesLookup = fClientIDLookup.find(clientID);
     if (batchesLookup) {
         // We track which batchlistID we're currently looking at.  If it changes, then we
         // need to push back a new batch info struct.  We happen to know that batches are
         // in sequential order in the batchlist, otherwise we'd have to do more bookkeeping
         int currentBatchListID = kGrAuditTrailInvalidID;
         for (int i = 0; i < (*batchesLookup)->count(); i++) {
             const Batch* batch = (**batchesLookup)[i];

             // Because we will copy out all of the batches associated with a given
             // batch list id everytime the id changes, we only have to update our struct
             // when the id changes.
             if (kGrAuditTrailInvalidID == currentBatchListID ||
                 batch->fBatchListID != currentBatchListID) {
                 BatchInfo& outBatchInfo = outInfo->push_back();

                 // copy out all of the batches so the client can display them even if
                 // they have a different clientID
                 this->copyOutFromBatchList(&outBatchInfo, batch->fBatchListID);
             }
         }
     }
 }

 void GrAuditTrail::getBoundsByBatchListID(BatchInfo* outInfo, int batchListID) {
     this->copyOutFromBatchList(outInfo, batchListID);
 }

 void GrAuditTrail::fullReset() {
     SkASSERT(fEnabled);
     fBatchList.reset();
     fIDLookup.reset();
     // free all client batches
     fClientIDLookup.foreach([](const int&, Batches** batches) { delete *batches; });
     fClientIDLookup.reset();
     fBatchPool.reset(); // must be last, frees all of the memory
 }

 template <typename T>
 void GrAuditTrail::JsonifyTArray(SkString* json, const char* name, const T& array,
                                  bool addComma) {
     if (array.count()) {
         if (addComma) {
             json->appendf(",");
         }
         json->appendf("\"%s\": [", name);
         const char* separator = "";
         for (int i = 0; i < array.count(); i++) {
             // Handle sentinel nullptrs
             if (array[i]) {
                 json->appendf("%s", separator);
                 json->append(array[i]->toJson());
                 separator = ",";
             }
         }
         json->append("]");
     }
 }

 // This will pretty print a very small subset of json
 // The parsing rules are straightforward, aside from the fact that we do not want an extra newline
 // before ',' and after '}', so we have a comma exception rule.
 class PrettyPrintJson {
 public:
     SkString prettify(const SkString& json) {
         fPrettyJson.reset();
         fTabCount = 0;
         fFreshLine = false;
         fCommaException = false;
         for (size_t i = 0; i < json.size(); i++) {
             if ('[' == json[i] || '{' == json[i]) {
                 this->newline();
                 this->appendChar(json[i]);
                 fTabCount++;
                 this->newline();
             } else if (']' == json[i] || '}' == json[i]) {
                 fTabCount--;
                 this->newline();
                 this->appendChar(json[i]);
                 fCommaException = true;
             } else if (',' == json[i]) {
                 this->appendChar(json[i]);
                 this->newline();
             } else {
                 this->appendChar(json[i]);
             }
         }
         return fPrettyJson;
     }
 private:
     void appendChar(char appendee) {
         if (fCommaException && ',' != appendee) {
             this->newline();
         }
         this->tab();
         fPrettyJson += appendee;
         fFreshLine = false;
         fCommaException = false;
     }

     void tab() {
         if (fFreshLine) {
             for (int i = 0; i < fTabCount; i++) {
                 fPrettyJson += '\t';
             }
         }
     }

     void newline() {
         if (!fFreshLine) {
             fFreshLine = true;
             fPrettyJson += '\n';
         }
     }

     SkString fPrettyJson;
     int fTabCount;
     bool fFreshLine;
     bool fCommaException;
 };

 static SkString pretty_print_json(SkString json) {
     class PrettyPrintJson prettyPrintJson;
     return prettyPrintJson.prettify(json);
 }

 SkString GrAuditTrail::toJson(bool prettyPrint) const {
     SkString json;
     json.append("{");
     JsonifyTArray(&json, "Batches", fBatchList, false);
     json.append("}");

     if (prettyPrint) {
         return pretty_print_json(json);
     } else {
         return json;
     }
 }

 SkString GrAuditTrail::toJson(int clientID, bool prettyPrint) const {
     SkString json;
     json.append("{");
     Batches** batches = fClientIDLookup.find(clientID);
     if (batches) {
         JsonifyTArray(&json, "Batches", **batches, false);
     }
     json.appendf("}");

     if (prettyPrint) {
         return pretty_print_json(json);
     } else {
         return json;
     }
 }

 static void skrect_to_json(SkString* json, const char* name, const SkRect& rect) {
     json->appendf("\"%s\": {", name);
     json->appendf("\"Left\": %f,", rect.fLeft);
     json->appendf("\"Right\": %f,", rect.fRight);
     json->appendf("\"Top\": %f,", rect.fTop);
     json->appendf("\"Bottom\": %f", rect.fBottom);
     json->append("}");
 }

 SkString GrAuditTrail::Batch::toJson() const {
     SkString json;
     json.append("{");
     json.appendf("\"Name\": \"%s\",", fName.c_str());
     json.appendf("\"ClientID\": \"%d\",", fClientID);
     json.appendf("\"BatchListID\": \"%d\",", fBatchListID);
     json.appendf("\"ChildID\": \"%d\",", fChildID);
     skrect_to_json(&json, "Bounds", fBounds);
     if (fStackTrace.count()) {
         json.append(",\"Stack\": [");
         for (int i = 0; i < fStackTrace.count(); i++) {
             json.appendf("\"%s\"", fStackTrace[i].c_str());
             if (i < fStackTrace.count() - 1) {
                 json.append(",");
             }
         }
         json.append("]");
     }
     json.append("}");
     return json;
 }

 SkString GrAuditTrail::BatchNode::toJson() const {
     SkString json;
     json.append("{");
     json.appendf("\"RenderTarget\": \"%u\",", fRenderTargetUniqueID);
     skrect_to_json(&json, "Bounds", fBounds);
     JsonifyTArray(&json, "Batches", fChildren, true);
     json.append("}");
     return json;
 }
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrAuditTrail.h"
	#include "batches/GrBatch.h"

	const int GrAuditTrail::kGrAuditTrailInvalidID = -1;

	void GrAuditTrail::addBatch(const GrBatch* batch) {
	SkASSERT(fEnabled);
	Batch* auditBatch = new Batch;
	fBatchPool.emplace_back(auditBatch);
	auditBatch->fName = batch->name();
	auditBatch->fBounds = batch->bounds();
	auditBatch->fClientID = kGrAuditTrailInvalidID;
	auditBatch->fBatchListID = kGrAuditTrailInvalidID;
	auditBatch->fChildID = kGrAuditTrailInvalidID;

	// consume the current stack trace if any
	auditBatch->fStackTrace = fCurrentStackTrace;
	fCurrentStackTrace.reset();

	if (fClientID != kGrAuditTrailInvalidID) {
	auditBatch->fClientID = fClientID;
	Batches** batchesLookup = fClientIDLookup.find(fClientID);
	Batches* batches = nullptr;
	if (!batchesLookup) {
	batches = new Batches;
	fClientIDLookup.set(fClientID, batches);
	} else {
	batches = *batchesLookup;
	}

	batches->push_back(auditBatch);
	}

	// Our algorithm doesn't bother to reorder inside of a BatchNode
	// so the ChildID will start at 0
	auditBatch->fBatchListID = fBatchList.count();
	auditBatch->fChildID = 0;

	// We use the batch pointer as a key to find the batchnode we are 'glomming' batches onto
	fIDLookup.set(batch->uniqueID(), auditBatch->fBatchListID);
	BatchNode* batchNode = new BatchNode;
	batchNode->fBounds = batch->bounds();
	batchNode->fRenderTargetUniqueID = batch->renderTargetUniqueID();
	batchNode->fChildren.push_back(auditBatch);
	fBatchList.emplace_back(batchNode);
	}

	void GrAuditTrail::batchingResultCombined(const GrBatch* consumer, const GrBatch* consumed) {
	// Look up the batch we are going to glom onto
	int* indexPtr = fIDLookup.find(consumer->uniqueID());
	SkASSERT(indexPtr);
	int index = *indexPtr;
	SkASSERT(index < fBatchList.count() && fBatchList[index]);
	BatchNode& consumerBatch = *fBatchList[index];

	// Look up the batch which will be glommed
	int* consumedPtr = fIDLookup.find(consumed->uniqueID());
	SkASSERT(consumedPtr);
	int consumedIndex = *consumedPtr;
	SkASSERT(consumedIndex < fBatchList.count() && fBatchList[consumedIndex]);
	BatchNode& consumedBatch = *fBatchList[consumedIndex];

	// steal all of consumed's batches
	for (int i = 0; i < consumedBatch.fChildren.count(); i++) {
	Batch* childBatch = consumedBatch.fChildren[i];

	// set the ids for the child batch
	childBatch->fBatchListID = index;
	childBatch->fChildID = consumerBatch.fChildren.count();
	consumerBatch.fChildren.push_back(childBatch);
	}

	// Update the bounds for the combineWith node
	consumerBatch.fBounds = consumer->bounds();

	// remove the old node from our batchlist and clear the combinee's lookup
	// NOTE: because we can't change the shape of the batchlist, we use a sentinel
	fBatchList[consumedIndex].reset(nullptr);
	fIDLookup.remove(consumed->uniqueID());
	}

	void GrAuditTrail::copyOutFromBatchList(BatchInfo* outBatchInfo, int batchListID) {
	SkASSERT(batchListID < fBatchList.count());
	const BatchNode* bn = fBatchList[batchListID];
	SkASSERT(bn);
	outBatchInfo->fBounds = bn->fBounds;
	outBatchInfo->fRenderTargetUniqueID = bn->fRenderTargetUniqueID;
	for (int j = 0; j < bn->fChildren.count(); j++) {
	BatchInfo::Batch& outBatch = outBatchInfo->fBatches.push_back();
	const Batch* currentBatch = bn->fChildren[j];
	outBatch.fBounds = currentBatch->fBounds;
	outBatch.fClientID = currentBatch->fClientID;
	}
	}

	void GrAuditTrail::getBoundsByClientID(SkTArray<BatchInfo>* outInfo, int clientID) {
	Batches** batchesLookup = fClientIDLookup.find(clientID);
	if (batchesLookup) {
	// We track which batchlistID we're currently looking at. If it changes, then we
	// need to push back a new batch info struct. We happen to know that batches are
	// in sequential order in the batchlist, otherwise we'd have to do more bookkeeping
	int currentBatchListID = kGrAuditTrailInvalidID;
	for (int i = 0; i < (*batchesLookup)->count(); i++) {
	const Batch* batch = (**batchesLookup)[i];

	// Because we will copy out all of the batches associated with a given
	// batch list id everytime the id changes, we only have to update our struct
	// when the id changes.
	if (kGrAuditTrailInvalidID == currentBatchListID \|\|
	batch->fBatchListID != currentBatchListID) {
	BatchInfo& outBatchInfo = outInfo->push_back();

	// copy out all of the batches so the client can display them even if
	// they have a different clientID
	this->copyOutFromBatchList(&outBatchInfo, batch->fBatchListID);
	}
	}
	}
	}

	void GrAuditTrail::getBoundsByBatchListID(BatchInfo* outInfo, int batchListID) {
	this->copyOutFromBatchList(outInfo, batchListID);
	}

	void GrAuditTrail::fullReset() {
	SkASSERT(fEnabled);
	fBatchList.reset();
	fIDLookup.reset();
	// free all client batches
	fClientIDLookup.foreach([](const int&, Batches** batches) { delete *batches; });
	fClientIDLookup.reset();
	fBatchPool.reset(); // must be last, frees all of the memory
	}

	template <typename T>
	void GrAuditTrail::JsonifyTArray(SkString* json, const char* name, const T& array,
	bool addComma) {
	if (array.count()) {
	if (addComma) {
	json->appendf(",");
	}
	json->appendf("\"%s\": [", name);
	const char* separator = "";
	for (int i = 0; i < array.count(); i++) {
	// Handle sentinel nullptrs
	if (array[i]) {
	json->appendf("%s", separator);
	json->append(array[i]->toJson());
	separator = ",";
	}
	}
	json->append("]");
	}
	}

	// This will pretty print a very small subset of json
	// The parsing rules are straightforward, aside from the fact that we do not want an extra newline
	// before ',' and after '}', so we have a comma exception rule.
	class PrettyPrintJson {
	public:
	SkString prettify(const SkString& json) {
	fPrettyJson.reset();
	fTabCount = 0;
	fFreshLine = false;
	fCommaException = false;
	for (size_t i = 0; i < json.size(); i++) {
	if ('[' == json[i] \|\| '{' == json[i]) {
	this->newline();
	this->appendChar(json[i]);
	fTabCount++;
	this->newline();
	} else if (']' == json[i] \|\| '}' == json[i]) {
	fTabCount--;
	this->newline();
	this->appendChar(json[i]);
	fCommaException = true;
	} else if (',' == json[i]) {
	this->appendChar(json[i]);
	this->newline();
	} else {
	this->appendChar(json[i]);
	}
	}
	return fPrettyJson;
	}
	private:
	void appendChar(char appendee) {
	if (fCommaException && ',' != appendee) {
	this->newline();
	}
	this->tab();
	fPrettyJson += appendee;
	fFreshLine = false;
	fCommaException = false;
	}

	void tab() {
	if (fFreshLine) {
	for (int i = 0; i < fTabCount; i++) {
	fPrettyJson += '\t';
	}
	}
	}

	void newline() {
	if (!fFreshLine) {
	fFreshLine = true;
	fPrettyJson += '\n';
	}
	}

	SkString fPrettyJson;
	int fTabCount;
	bool fFreshLine;
	bool fCommaException;
	};

	static SkString pretty_print_json(SkString json) {
	class PrettyPrintJson prettyPrintJson;
	return prettyPrintJson.prettify(json);
	}

	SkString GrAuditTrail::toJson(bool prettyPrint) const {
	SkString json;
	json.append("{");
	JsonifyTArray(&json, "Batches", fBatchList, false);
	json.append("}");

	if (prettyPrint) {
	return pretty_print_json(json);
	} else {
	return json;
	}
	}

	SkString GrAuditTrail::toJson(int clientID, bool prettyPrint) const {
	SkString json;
	json.append("{");
	Batches** batches = fClientIDLookup.find(clientID);
	if (batches) {
	JsonifyTArray(&json, "Batches", **batches, false);
	}
	json.appendf("}");

	if (prettyPrint) {
	return pretty_print_json(json);
	} else {
	return json;
	}
	}

	static void skrect_to_json(SkString* json, const char* name, const SkRect& rect) {
	json->appendf("\"%s\": {", name);
	json->appendf("\"Left\": %f,", rect.fLeft);
	json->appendf("\"Right\": %f,", rect.fRight);
	json->appendf("\"Top\": %f,", rect.fTop);
	json->appendf("\"Bottom\": %f", rect.fBottom);
	json->append("}");
	}

	SkString GrAuditTrail::Batch::toJson() const {
	SkString json;
	json.append("{");
	json.appendf("\"Name\": \"%s\",", fName.c_str());
	json.appendf("\"ClientID\": \"%d\",", fClientID);
	json.appendf("\"BatchListID\": \"%d\",", fBatchListID);
	json.appendf("\"ChildID\": \"%d\",", fChildID);
	skrect_to_json(&json, "Bounds", fBounds);
	if (fStackTrace.count()) {
	json.append(",\"Stack\": [");
	for (int i = 0; i < fStackTrace.count(); i++) {
	json.appendf("\"%s\"", fStackTrace[i].c_str());
	if (i < fStackTrace.count() - 1) {
	json.append(",");
	}
	}
	json.append("]");
	}
	json.append("}");
	return json;
	}

	SkString GrAuditTrail::BatchNode::toJson() const {
	SkString json;
	json.append("{");
	json.appendf("\"RenderTarget\": \"%u\",", fRenderTargetUniqueID);
	skrect_to_json(&json, "Bounds", fBounds);
	JsonifyTArray(&json, "Batches", fChildren, true);
	json.append("}");
	return json;
	}