include/private/GrAuditTrail.h - platform/external/skqp - Gitiles

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

 #ifndef GrAuditTrail_DEFINED
 #define GrAuditTrail_DEFINED

 #include "GrConfig.h"
 #include "SkRect.h"
 #include "SkString.h"
 #include "SkTArray.h"
 #include "SkTHash.h"

 class GrBatch;

 /*
  * GrAuditTrail collects a list of draw ops, detailed information about those ops, and can dump them
  * to json.
  *
  * Capturing this information is expensive and consumes a lot of memory, therefore it is important
  * to enable auditing only when required and disable it promptly. The AutoEnable class helps to
  * ensure that the audit trail is disabled in a timely fashion. Once the information has been dealt
  * with, be sure to call reset(), or the log will simply keep growing.
  */
 class GrAuditTrail {
 public:
     GrAuditTrail()
     : fClientID(kGrAuditTrailInvalidID)
     , fEnabled(false) {}

     class AutoEnable {
     public:
         AutoEnable(GrAuditTrail* auditTrail)
             : fAuditTrail(auditTrail) {
             SkASSERT(!fAuditTrail->isEnabled());
             fAuditTrail->setEnabled(true);
         }

         ~AutoEnable() {
             SkASSERT(fAuditTrail->isEnabled());
             fAuditTrail->setEnabled(false);
         }

     private:
         GrAuditTrail* fAuditTrail;
     };

     class AutoManageBatchList {
     public:
         AutoManageBatchList(GrAuditTrail* auditTrail)
             : fAutoEnable(auditTrail)
             , fAuditTrail(auditTrail) {
         }

         ~AutoManageBatchList() {
             fAuditTrail->fullReset();
         }

     private:
         AutoEnable fAutoEnable;
         GrAuditTrail* fAuditTrail;
     };

     class AutoCollectBatches {
     public:
         AutoCollectBatches(GrAuditTrail* auditTrail, int clientID)
             : fAutoEnable(auditTrail)
             , fAuditTrail(auditTrail) {
             fAuditTrail->setClientID(clientID);
         }

         ~AutoCollectBatches() { fAuditTrail->setClientID(kGrAuditTrailInvalidID); }

     private:
         AutoEnable fAutoEnable;
         GrAuditTrail* fAuditTrail;
     };

     void addBatch(const char* name, const SkRect& bounds);

     void batchingResultCombined(GrBatch* combiner);

     void batchingResultNew(GrBatch* batch);

     // Because batching is heavily dependent on sequence of draw calls, these calls will only
     // produce valid information for the given draw sequence which preceeded them.
     // Specifically, future draw calls may change the batching and thus would invalidate
     // the json.  What this means is that for some sequence of draw calls N, the below toJson
     // calls will only produce JSON which reflects N draw calls.  This JSON may or may not be
     // accurate for N + 1 or N - 1 draws depending on the actual batching algorithm used.
     SkString toJson(bool prettyPrint = false) const;

     // returns a json string of all of the batches associated with a given client id
     SkString toJson(int clientID, bool prettyPrint = false) const;

     bool isEnabled() { return fEnabled; }
     void setEnabled(bool enabled) { fEnabled = enabled; }

     void setClientID(int clientID) { fClientID = clientID; }

     // We could just return our internal bookkeeping struct if copying the data out becomes
     // a performance issue, but until then its nice to decouple
     struct BatchInfo {
         SkRect fBounds;
         uint32_t fRenderTargetUniqueID;
         struct Batch {
             int fClientID;
             SkRect fBounds;
         };
         SkTArray<Batch> fBatches;
     };

     void getBoundsByClientID(SkTArray<BatchInfo>* outInfo, int clientID);

     void fullReset();

     static const int kGrAuditTrailInvalidID;

 private:
     // TODO if performance becomes an issue, we can move to using SkVarAlloc
     struct Batch {
         SkString toJson() const;
         SkString fName;
         SkRect fBounds;
         int fClientID;
         int fBatchListID;
         int fChildID;
     };
     typedef SkTArray<SkAutoTDelete<Batch>, true> BatchPool;

     typedef SkTArray<Batch*> Batches;

     struct BatchNode {
         SkString toJson() const;
         SkRect fBounds;
         Batches fChildren;
         uint32_t fRenderTargetUniqueID;
     };
     typedef SkTArray<SkAutoTDelete<BatchNode>, true> BatchList;

     template <typename T>
     static void JsonifyTArray(SkString* json, const char* name, const T& array,
                               bool addComma);

     Batch* fCurrentBatch;
     BatchPool fBatchPool;
     SkTHashMap<GrBatch*, int> fIDLookup;
     SkTHashMap<int, Batches*> fClientIDLookup;
     BatchList fBatchList;

     // The client cas pass in an optional client ID which we will use to mark the batches
     int fClientID;
     bool fEnabled;
 };

 #define GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, invoke, ...) \
     if (audit_trail->isEnabled()) {                           \
         audit_trail->invoke(__VA_ARGS__);                     \
     }

 #define GR_AUDIT_TRAIL_AUTO_FRAME(audit_trail, framename) \
     // TODO fill out the frame stuff
     //GrAuditTrail::AutoFrame SK_MACRO_APPEND_LINE(auto_frame)(audit_trail, framename);

 #define GR_AUDIT_TRAIL_RESET(audit_trail) \
     //GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, reset);

 #define GR_AUDIT_TRAIL_ADDBATCH(audit_trail, batchname, bounds) \
     GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, addBatch, batchname, bounds);

 #define GR_AUDIT_TRAIL_BATCHING_RESULT_COMBINED(audit_trail, combiner) \
     GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, batchingResultCombined, combiner);

 #define GR_AUDIT_TRAIL_BATCHING_RESULT_NEW(audit_trail, batch) \
     GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, batchingResultNew, batch);

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

	#ifndef GrAuditTrail_DEFINED
	#define GrAuditTrail_DEFINED

	#include "GrConfig.h"
	#include "SkRect.h"
	#include "SkString.h"
	#include "SkTArray.h"
	#include "SkTHash.h"

	class GrBatch;

	/*
	* GrAuditTrail collects a list of draw ops, detailed information about those ops, and can dump them
	* to json.
	*
	* Capturing this information is expensive and consumes a lot of memory, therefore it is important
	* to enable auditing only when required and disable it promptly. The AutoEnable class helps to
	* ensure that the audit trail is disabled in a timely fashion. Once the information has been dealt
	* with, be sure to call reset(), or the log will simply keep growing.
	*/
	class GrAuditTrail {
	public:
	GrAuditTrail()
	: fClientID(kGrAuditTrailInvalidID)
	, fEnabled(false) {}

	class AutoEnable {
	public:
	AutoEnable(GrAuditTrail* auditTrail)
	: fAuditTrail(auditTrail) {
	SkASSERT(!fAuditTrail->isEnabled());
	fAuditTrail->setEnabled(true);
	}

	~AutoEnable() {
	SkASSERT(fAuditTrail->isEnabled());
	fAuditTrail->setEnabled(false);
	}

	private:
	GrAuditTrail* fAuditTrail;
	};

	class AutoManageBatchList {
	public:
	AutoManageBatchList(GrAuditTrail* auditTrail)
	: fAutoEnable(auditTrail)
	, fAuditTrail(auditTrail) {
	}

	~AutoManageBatchList() {
	fAuditTrail->fullReset();
	}

	private:
	AutoEnable fAutoEnable;
	GrAuditTrail* fAuditTrail;
	};

	class AutoCollectBatches {
	public:
	AutoCollectBatches(GrAuditTrail* auditTrail, int clientID)
	: fAutoEnable(auditTrail)
	, fAuditTrail(auditTrail) {
	fAuditTrail->setClientID(clientID);
	}

	~AutoCollectBatches() { fAuditTrail->setClientID(kGrAuditTrailInvalidID); }

	private:
	AutoEnable fAutoEnable;
	GrAuditTrail* fAuditTrail;
	};

	void addBatch(const char* name, const SkRect& bounds);

	void batchingResultCombined(GrBatch* combiner);

	void batchingResultNew(GrBatch* batch);

	// Because batching is heavily dependent on sequence of draw calls, these calls will only
	// produce valid information for the given draw sequence which preceeded them.
	// Specifically, future draw calls may change the batching and thus would invalidate
	// the json. What this means is that for some sequence of draw calls N, the below toJson
	// calls will only produce JSON which reflects N draw calls. This JSON may or may not be
	// accurate for N + 1 or N - 1 draws depending on the actual batching algorithm used.
	SkString toJson(bool prettyPrint = false) const;

	// returns a json string of all of the batches associated with a given client id
	SkString toJson(int clientID, bool prettyPrint = false) const;

	bool isEnabled() { return fEnabled; }
	void setEnabled(bool enabled) { fEnabled = enabled; }

	void setClientID(int clientID) { fClientID = clientID; }

	// We could just return our internal bookkeeping struct if copying the data out becomes
	// a performance issue, but until then its nice to decouple
	struct BatchInfo {
	SkRect fBounds;
	uint32_t fRenderTargetUniqueID;
	struct Batch {
	int fClientID;
	SkRect fBounds;
	};
	SkTArray<Batch> fBatches;
	};

	void getBoundsByClientID(SkTArray<BatchInfo>* outInfo, int clientID);

	void fullReset();

	static const int kGrAuditTrailInvalidID;

	private:
	// TODO if performance becomes an issue, we can move to using SkVarAlloc
	struct Batch {
	SkString toJson() const;
	SkString fName;
	SkRect fBounds;
	int fClientID;
	int fBatchListID;
	int fChildID;
	};
	typedef SkTArray<SkAutoTDelete<Batch>, true> BatchPool;

	typedef SkTArray<Batch*> Batches;

	struct BatchNode {
	SkString toJson() const;
	SkRect fBounds;
	Batches fChildren;
	uint32_t fRenderTargetUniqueID;
	};
	typedef SkTArray<SkAutoTDelete<BatchNode>, true> BatchList;

	template <typename T>
	static void JsonifyTArray(SkString* json, const char* name, const T& array,
	bool addComma);

	Batch* fCurrentBatch;
	BatchPool fBatchPool;
	SkTHashMap<GrBatch*, int> fIDLookup;
	SkTHashMap<int, Batches*> fClientIDLookup;
	BatchList fBatchList;

	// The client cas pass in an optional client ID which we will use to mark the batches
	int fClientID;
	bool fEnabled;
	};

	#define GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, invoke, ...) \
	if (audit_trail->isEnabled()) { \
	audit_trail->invoke(__VA_ARGS__); \
	}

	#define GR_AUDIT_TRAIL_AUTO_FRAME(audit_trail, framename) \
	// TODO fill out the frame stuff
	//GrAuditTrail::AutoFrame SK_MACRO_APPEND_LINE(auto_frame)(audit_trail, framename);

	#define GR_AUDIT_TRAIL_RESET(audit_trail) \
	//GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, reset);

	#define GR_AUDIT_TRAIL_ADDBATCH(audit_trail, batchname, bounds) \
	GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, addBatch, batchname, bounds);

	#define GR_AUDIT_TRAIL_BATCHING_RESULT_COMBINED(audit_trail, combiner) \
	GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, batchingResultCombined, combiner);

	#define GR_AUDIT_TRAIL_BATCHING_RESULT_NEW(audit_trail, batch) \
	GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, batchingResultNew, batch);

	#endif