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/*
* 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 "PictureRenderer.h"
#include "BenchLogger.h"
#include "ResultsWriter.h"
#include "SkJSONCPP.h"
#include "SkStream.h"
#include "SkString.h"
#include "SkTArray.h"
#include "TimerData.h"
#include <stdlib.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 logRenderer(sk_tools::PictureRenderer *pr) = 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() {}
void bench(const char name[], int32_t x, int32_t y) override {
for(int i=0; i<fWriters.count(); ++i) {
fWriters[i]->bench(name, x, y);
}
}
void logRenderer(sk_tools::PictureRenderer *pr) override {
for(int i=0; i<fWriters.count(); ++i) {
fWriters[i]->logRenderer(pr);
}
}
void tileMeta(int x, int y, int tx, int ty) override {
for(int i=0; i<fWriters.count(); ++i) {
fWriters[i]->tileMeta(x, y, tx, ty);
}
}
void addTileFlag(PictureResultsWriter::TileFlags flag) override {
for(int i=0; i<fWriters.count(); ++i) {
fWriters[i]->addTileFlag(flag);
}
}
virtual void tileData(
TimerData* data,
const char format[],
const TimerData::Result result,
uint32_t timerTypes,
int numInnerLoops = 1) override {
for(int i=0; i<fWriters.count(); ++i) {
fWriters[i]->tileData(data, format, result, timerTypes,
numInnerLoops);
}
}
void end() override {
for(int i=0; i<fWriters.count(); ++i) {
fWriters[i]->end();
}
}
private:
SkTArray<PictureResultsWriter*> fWriters;
};
/**
* Writes to BenchLogger to mimic original behavior
*/
class PictureResultsLoggerWriter : public PictureResultsWriter {
private:
void logProgress(const char str[]) {
if(fLogger != nullptr) {
fLogger->logProgress(str);
}
}
public:
PictureResultsLoggerWriter(BenchLogger* log)
: fLogger(log), fCurrentLine() {}
void bench(const char name[], int32_t x, int32_t y) override {
SkString result;
result.printf("running bench [%i %i] %s ", x, y, name);
this->logProgress(result.c_str());
}
void logRenderer(sk_tools::PictureRenderer* renderer) override {
fCurrentLine = renderer->getConfigName();
}
void tileMeta(int x, int y, int tx, int ty) override {
fCurrentLine.appendf(": tile [%i,%i] out of [%i,%i]", x, y, tx, ty);
}
void addTileFlag(PictureResultsWriter::TileFlags flag) override {
if(flag == PictureResultsWriter::kPurging) {
fCurrentLine.append(" <withPurging>");
} else if(flag == PictureResultsWriter::kAvg) {
fCurrentLine.append(" <averaged>");
}
}
virtual void tileData(
TimerData* data,
const char format[],
const TimerData::Result result,
uint32_t timerTypes,
int numInnerLoops = 1) override {
SkString results = data->getResult(format, result,
fCurrentLine.c_str(), timerTypes, numInnerLoops);
results.append("\n");
this->logProgress(results.c_str());
}
void end() override {}
private:
BenchLogger* fLogger;
SkString fCurrentLine;
};
/**
* 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[],
const char builderName[],
int buildNumber,
int timestamp,
const char gitHash[],
int gitNumber)
: fStream(filename) {
fBuilderName = SkString(builderName);
fBuildNumber = buildNumber;
fTimestamp = timestamp;
fGitHash = SkString(gitHash);
fGitNumber = gitNumber;
fBuilderData = this->makeBuilderJson();
}
void bench(const char name[], int32_t x, int32_t y) override {
fBenchName = SkString(name);
}
void logRenderer(sk_tools::PictureRenderer* pr) override {
fParams = pr->getJSONConfig();
fConfigString = pr->getConfigName();
}
// Apparently tiles aren't used, so tileMeta is empty
void tileMeta(int x, int y, int tx, int ty) override {}
// Flags aren't used, so addTileFlag is empty
void addTileFlag(PictureResultsWriter::TileFlags flag) override {}
virtual void tileData(
TimerData* data,
const char format[],
const TimerData::Result result,
uint32_t timerTypes,
int numInnerLoops = 1) override {
Json::Value newData = data->getJSON(timerTypes, result, numInnerLoops);
Json::Value combinedParams(fBuilderData);
for(Json::ValueIterator iter = fParams.begin(); iter != fParams.end();
iter++) {
combinedParams[iter.key().asString()]= *iter;
}
// For each set of timer data
for(Json::ValueIterator iter = newData.begin(); iter != newData.end();
iter++) {
Json::Value data;
data["buildNumber"] = fBuildNumber;
data["timestamp"] = fTimestamp;
data["gitHash"] = fGitHash.c_str();
data["gitNumber"] = fGitNumber;
data["isTrybot"] = fBuilderName.endsWith("Trybot");
data["params"] = combinedParams;
data["params"]["benchName"] = fBenchName.c_str();
// Not including skpSize because that's deprecated?
data["key"] = this->makeKey(iter.key().asString().c_str()).c_str();
// Get the data
SkTArray<double> times;
Json::Value val = *iter;
for(Json::ValueIterator vals = val.begin(); vals != val.end();
vals++) {
times.push_back((*vals).asDouble());
}
qsort(static_cast<void*>(times.begin()), times.count(),
sizeof(double), PictureJSONResultsWriter::CompareDoubles);
data["value"] = times[static_cast<int>(times.count() * 0.25f)];
data["params"]["measurementType"] = iter.key().asString();
fStream.writeText(Json::FastWriter().write(data).c_str());
}
}
void end() override {
fStream.flush();
}
private:
Json::Value makeBuilderJson() const {
static const int kNumKeys = 6;
static const char* kKeys[kNumKeys] = {
"role", "os", "model", "gpu", "arch", "configuration"};
Json::Value builderData;
if (!fBuilderName.isEmpty()) {
SkTArray<SkString> splitBuilder;
SkStrSplit(fBuilderName.c_str(), "-", &splitBuilder);
SkASSERT(splitBuilder.count() >= kNumKeys);
for (int i = 0; i < kNumKeys && i < splitBuilder.count(); ++i) {
builderData[kKeys[i]] = splitBuilder[i].c_str();
}
builderData["builderName"] = fBuilderName.c_str();
if (kNumKeys < splitBuilder.count()) {
SkString extras;
for (int i = kNumKeys; i < splitBuilder.count(); ++i) {
extras.append(splitBuilder[i]);
if (i != splitBuilder.count() - 1) {
extras.append("-");
}
}
builderData["badParams"] = extras.c_str();
}
}
return builderData;
}
static int CompareDoubles(const void* p1, const void* p2) {
if(*static_cast<const double*>(p1) < *static_cast<const double*>(p2)) {
return -1;
} else if(*static_cast<const double*>(p1) ==
*static_cast<const double*>(p2)) {
return 0;
} else {
return 1;
}
}
SkString makeKey(const char measurementType[]) const {
SkString tmp(fBuilderName);
tmp.append("_");
tmp.append(fBenchName);
tmp.append("_");
tmp.append(fConfigString);
tmp.append("_");
tmp.append(measurementType);
return tmp;
}
SkFILEWStream fStream;
Json::Value fBuilderData;
SkString fBenchName;
Json::Value fParams;
SkString fConfigString;
SkString fBuilderName;
int fBuildNumber;
int fTimestamp;
SkString fGitHash;
int fGitNumber;
};
#endif
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