/* * 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 "GrGpuResource.h" #include "GrRenderTargetProxy.h" #include "SkRect.h" #include "SkString.h" #include "SkTArray.h" #include "SkTHash.h" class GrOp; class SkJSONWriter; /* * 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 AutoManageOpList { public: AutoManageOpList(GrAuditTrail* auditTrail) : fAutoEnable(auditTrail), fAuditTrail(auditTrail) {} ~AutoManageOpList() { fAuditTrail->fullReset(); } private: AutoEnable fAutoEnable; GrAuditTrail* fAuditTrail; }; class AutoCollectOps { public: AutoCollectOps(GrAuditTrail* auditTrail, int clientID) : fAutoEnable(auditTrail), fAuditTrail(auditTrail) { fAuditTrail->setClientID(clientID); } ~AutoCollectOps() { fAuditTrail->setClientID(kGrAuditTrailInvalidID); } private: AutoEnable fAutoEnable; GrAuditTrail* fAuditTrail; }; void pushFrame(const char* framename) { SkASSERT(fEnabled); fCurrentStackTrace.push_back(SkString(framename)); } void addOp(const GrOp*, GrRenderTargetProxy::UniqueID proxyID); void opsCombined(const GrOp* consumer, const GrOp* consumed); // Because op combining is heavily dependent on sequence of draw calls, these calls will only // produce valid information for the given draw sequence which preceeded them. Specifically, ops // of future draw calls may combine with previous ops 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 combining algorithm used. void toJson(SkJSONWriter& writer) const; // returns a json string of all of the ops associated with a given client id void toJson(SkJSONWriter& writer, int clientID) 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 OpInfo { struct Op { int fClientID; SkRect fBounds; }; SkRect fBounds; GrSurfaceProxy::UniqueID fProxyUniqueID; SkTArray fOps; }; void getBoundsByClientID(SkTArray* outInfo, int clientID); void getBoundsByOpListID(OpInfo* outInfo, int opListID); void fullReset(); static const int kGrAuditTrailInvalidID; private: // TODO if performance becomes an issue, we can move to using SkVarAlloc struct Op { void toJson(SkJSONWriter& writer) const; SkString fName; SkTArray fStackTrace; SkRect fBounds; int fClientID; int fOpListID; int fChildID; }; typedef SkTArray, true> OpPool; typedef SkTArray Ops; struct OpNode { OpNode(const GrSurfaceProxy::UniqueID& proxyID) : fProxyUniqueID(proxyID) { } void toJson(SkJSONWriter& writer) const; SkRect fBounds; Ops fChildren; const GrSurfaceProxy::UniqueID fProxyUniqueID; }; typedef SkTArray, true> OpList; void copyOutFromOpList(OpInfo* outOpInfo, int opListID); template static void JsonifyTArray(SkJSONWriter& writer, const char* name, const T& array); OpPool fOpPool; SkTHashMap fIDLookup; SkTHashMap fClientIDLookup; OpList fOpList; SkTArray fCurrentStackTrace; // The client can pass in an optional client ID which we will use to mark the ops 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) \ GR_AUDIT_TRAIL_INVOKE_GUARD((audit_trail), pushFrame, framename) #define GR_AUDIT_TRAIL_RESET(audit_trail) \ //GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, fullReset); #define GR_AUDIT_TRAIL_ADD_OP(audit_trail, op, proxy_id) \ GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, addOp, op, proxy_id) #define GR_AUDIT_TRAIL_OPS_RESULT_COMBINED(audit_trail, combineWith, op) \ GR_AUDIT_TRAIL_INVOKE_GUARD(audit_trail, opsCombined, combineWith, op) #endif