/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Classes for writing out bench results in various formats. */ #ifndef SkPictureResultsWriter_DEFINED #define SkPictureResultsWriter_DEFINED #include "BenchLogger.h" #include "ResultsWriter.h" #include "SkJSONCPP.h" #include "SkStream.h" #include "SkString.h" #include "SkTArray.h" #include "TimerData.h" /** * Base class for writing picture bench results. */ class PictureResultsWriter : SkNoncopyable { public: enum TileFlags {kPurging, kAvg}; PictureResultsWriter() {} virtual ~PictureResultsWriter() {} virtual void bench(const char name[], int32_t x, int32_t y) = 0; virtual void tileConfig(SkString configName) = 0; virtual void tileMeta(int x, int y, int tx, int ty) = 0; virtual void addTileFlag(PictureResultsWriter::TileFlags flag) = 0; virtual void tileData( TimerData* data, const char format[], const TimerData::Result result, uint32_t timerTypes, int numInnerLoops = 1) = 0; virtual void end() = 0; }; /** * This class allows bench data to be piped into multiple * PictureResultWriter classes. It does not own any classes * passed to it, so the owner is required to manage any classes * passed to PictureResultsMultiWriter */ class PictureResultsMultiWriter : public PictureResultsWriter { public: PictureResultsMultiWriter() : fWriters() {} void add(PictureResultsWriter* newWriter) { fWriters.push_back(newWriter); } virtual ~PictureResultsMultiWriter() {} virtual void bench(const char name[], int32_t x, int32_t y) { for(int i=0; ibench(name, x, y); } } virtual void tileConfig(SkString configName) { for(int i=0; itileConfig(configName); } } virtual void tileMeta(int x, int y, int tx, int ty) { for(int i=0; itileMeta(x, y, tx, ty); } } virtual void addTileFlag(PictureResultsWriter::TileFlags flag) { for(int i=0; iaddTileFlag(flag); } } virtual void tileData( TimerData* data, const char format[], const TimerData::Result result, uint32_t timerTypes, int numInnerLoops = 1) { for(int i=0; itileData(data, format, result, timerTypes, numInnerLoops); } } virtual void end() { for(int i=0; iend(); } } private: SkTArray fWriters; }; /** * Writes to BenchLogger to mimic original behavior */ class PictureResultsLoggerWriter : public PictureResultsWriter { private: void logProgress(const char str[]) { if(fLogger != NULL) { fLogger->logProgress(str); } } public: PictureResultsLoggerWriter(BenchLogger* log) : fLogger(log), currentLine() {} virtual void bench(const char name[], int32_t x, int32_t y) { SkString result; result.printf("running bench [%i %i] %s ", x, y, name); this->logProgress(result.c_str()); } virtual void tileConfig(SkString configName) { currentLine = configName; } virtual void tileMeta(int x, int y, int tx, int ty) { currentLine.appendf(": tile [%i,%i] out of [%i,%i]", x, y, tx, ty); } virtual void addTileFlag(PictureResultsWriter::TileFlags flag) { if(flag == PictureResultsWriter::kPurging) { currentLine.append(" "); } else if(flag == PictureResultsWriter::kAvg) { currentLine.append(" "); } } virtual void tileData( TimerData* data, const char format[], const TimerData::Result result, uint32_t timerTypes, int numInnerLoops = 1) { SkString results = data->getResult(format, result, currentLine.c_str(), timerTypes, numInnerLoops); results.append("\n"); this->logProgress(results.c_str()); } virtual void end() {} private: BenchLogger* fLogger; SkString currentLine; }; /** * This PictureResultsWriter collects data in a JSON node * * The format is something like * { * benches: [ * { * name: "Name_of_test" * tilesets: [ * { * name: "Name of the configuration" * tiles: [ * { * flags: { * purging: true //Flags for the current tile * // are put here * } * data: { * wsecs: [....] //Actual data ends up here * } * } * ] * } * ] * } * ] * }*/ class PictureJSONResultsWriter : public PictureResultsWriter { public: PictureJSONResultsWriter(const char filename[]) : fFilename(filename), fRoot(), fCurrentBench(NULL), fCurrentTileSet(NULL), fCurrentTile(NULL) {} virtual void bench(const char name[], int32_t x, int32_t y) { SkString sk_name(name); sk_name.append("_"); sk_name.appendS32(x); sk_name.append("_"); sk_name.appendS32(y); Json::Value* bench_node = SkFindNamedNode(&fRoot["benches"], sk_name.c_str()); fCurrentBench = &(*bench_node)["tileSets"]; } virtual void tileConfig(SkString configName) { SkASSERT(fCurrentBench != NULL); fCurrentTileSet = SkFindNamedNode(fCurrentBench, configName.c_str()); fCurrentTile = &(*fCurrentTileSet)["tiles"][0]; } virtual void tileMeta(int x, int y, int tx, int ty) { SkASSERT(fCurrentTileSet != NULL); (*fCurrentTileSet)["tx"] = tx; (*fCurrentTileSet)["ty"] = ty; fCurrentTile = &(*fCurrentTileSet)["tiles"][x+tx*y]; } virtual void addTileFlag(PictureResultsWriter::TileFlags flag) { SkASSERT(fCurrentTile != NULL); if(flag == PictureResultsWriter::kPurging) { (*fCurrentTile)["flags"]["purging"] = true; } else if(flag == PictureResultsWriter::kAvg) { (*fCurrentTile)["flags"]["averaged"] = true; } } virtual void tileData( TimerData* data, const char format[], const TimerData::Result result, uint32_t timerTypes, int numInnerLoops = 1) { SkASSERT(fCurrentTile != NULL); (*fCurrentTile)["data"] = data->getJSON(timerTypes, result, numInnerLoops); } virtual void end() { SkFILEWStream stream(fFilename.c_str()); stream.writeText(Json::FastWriter().write(fRoot).c_str()); stream.flush(); } private: SkString fFilename; Json::Value fRoot; Json::Value *fCurrentBench; Json::Value *fCurrentTileSet; Json::Value *fCurrentTile; }; #endif