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e0e7cfe44b
skia2/bench/ChartBench.cpp
commit-bot@chromium.org e0e7cfe44b Change old PRG to be SkLCGRandom; change new one to SkRandom 
The goal here is to get people to start using the new random number
generator, while leaving the old one in place so we don't have to 
rebaseline GMs.

R=reed@google.com, bsalomon@google.com

Author: jvanverth@google.com

Review URL: https://chromiumcodereview.appspot.com/23576015

git-svn-id: http://skia.googlecode.com/svn/trunk@11169 2bbb7eff-a529-9590-31e7-b0007b416f81
2013-09-09 20:09:12 +00:00

204 lines
6.2 KiB
C++
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/*
* Copyright 2013 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkBenchmark.h"
#include "SkCanvas.h"
#include "SkPaint.h"
#include "SkRandom.h"
/**
* This is a conversion of samplecode/SampleChart.cpp into a bench. It sure would be nice to be able
* to write one subclass that can be a GM, bench, and/or Sample.
*/
namespace {
// Generates y values for the chart plots.
void gen_data(SkScalar yAvg, SkScalar ySpread, int count, SkTDArray<SkScalar>* dataPts) {
dataPts->setCount(count);
static SkRandom gRandom;
for (int i = 0; i < count; ++i) {
(*dataPts)[i] = gRandom.nextRangeScalar(yAvg - SkScalarHalf(ySpread),
yAvg + SkScalarHalf(ySpread));
}
}
// Generates a path to stroke along the top of each plot and a fill path for the area below each
// plot. The fill path is bounded below by the bottomData plot points or a horizontal line at
// yBase if bottomData == NULL.
// The plots are animated by rotating the data points by leftShift.
void gen_paths(const SkTDArray<SkScalar>& topData,
const SkTDArray<SkScalar>* bottomData,
SkScalar yBase,
SkScalar xLeft, SkScalar xDelta,
int leftShift,
SkPath* plot, SkPath* fill) {
plot->rewind();
fill->rewind();
plot->incReserve(topData.count());
if (NULL == bottomData) {
fill->incReserve(topData.count() + 2);
} else {
fill->incReserve(2 * topData.count());
}
leftShift %= topData.count();
SkScalar x = xLeft;
// Account for the leftShift using two loops
int shiftToEndCount = topData.count() - leftShift;
plot->moveTo(x, topData[leftShift]);
fill->moveTo(x, topData[leftShift]);
for (int i = 1; i < shiftToEndCount; ++i) {
plot->lineTo(x, topData[i + leftShift]);
fill->lineTo(x, topData[i + leftShift]);
x += xDelta;
}
for (int i = 0; i < leftShift; ++i) {
plot->lineTo(x, topData[i]);
fill->lineTo(x, topData[i]);
x += xDelta;
}
if (NULL != bottomData) {
SkASSERT(bottomData->count() == topData.count());
// iterate backwards over the previous graph's data to generate the bottom of the filled
// area (and account for leftShift).
for (int i = 0; i < leftShift; ++i) {
x -= xDelta;
fill->lineTo(x, (*bottomData)[leftShift - 1 - i]);
}
for (int i = 0; i < shiftToEndCount; ++i) {
x -= xDelta;
fill->lineTo(x, (*bottomData)[bottomData->count() - 1 - i]);
}
} else {
fill->lineTo(x - xDelta, yBase);
fill->lineTo(xLeft, yBase);
}
}
}
// A set of scrolling line plots with the area between each plot filled. Stresses out GPU path
// filling
class ChartBench : public SkBenchmark {
public:
ChartBench(void* param, bool aa) : SkBenchmark(param) {
fShift = 0;
fAA = aa;
fSize.fWidth = -1;
fSize.fHeight = -1;
}
protected:
virtual const char* onGetName() SK_OVERRIDE {
if (fAA) {
return "chart_aa";
} else {
return "chart_bw";
}
}
virtual void onDraw(SkCanvas* canvas) SK_OVERRIDE {
bool sizeChanged = false;
if (canvas->getDeviceSize() != fSize) {
fSize = canvas->getDeviceSize();
sizeChanged = true;
}
SkScalar ySpread = SkIntToScalar(fSize.fHeight / 20);
SkScalar height = SkIntToScalar(fSize.fHeight);
if (sizeChanged) {
int dataPointCount = SkMax32(fSize.fWidth / kPixelsPerTick + 1, 2);
for (int i = 0; i < kNumGraphs; ++i) {
SkScalar y = (kNumGraphs - i) * (height - ySpread) / (kNumGraphs + 1);
fData[i].reset();
gen_data(y, ySpread, dataPointCount, fData + i);
}
}
for (int frame = 0; frame < kFramesPerRun; ++frame) {
canvas->clear(0xFFE0F0E0);
static SkRandom colorRand;
static SkColor gColors[kNumGraphs] = { 0x0 };
if (0 == gColors[0]) {
for (int i = 0; i < kNumGraphs; ++i) {
gColors[i] = colorRand.nextU() | 0xff000000;
}
}
SkPath plotPath;
SkPath fillPath;
static const SkScalar kStrokeWidth = SkIntToScalar(2);
SkPaint plotPaint;
SkPaint fillPaint;
plotPaint.setAntiAlias(fAA);
plotPaint.setStyle(SkPaint::kStroke_Style);
plotPaint.setStrokeWidth(kStrokeWidth);
plotPaint.setStrokeCap(SkPaint::kRound_Cap);
plotPaint.setStrokeJoin(SkPaint::kRound_Join);
fillPaint.setAntiAlias(fAA);
fillPaint.setStyle(SkPaint::kFill_Style);
SkTDArray<SkScalar>* prevData = NULL;
for (int i = 0; i < kNumGraphs; ++i) {
gen_paths(fData[i],
prevData,
height,
0,
SkIntToScalar(kPixelsPerTick),
fShift,
&plotPath,
&fillPath);
// Make the fills partially transparent
fillPaint.setColor((gColors[i] & 0x00ffffff) | 0x80000000);
canvas->drawPath(fillPath, fillPaint);
plotPaint.setColor(gColors[i]);
canvas->drawPath(plotPath, plotPaint);
prevData = fData + i;
}
fShift += kShiftPerFrame;
}
}
private:
enum {
kNumGraphs = 5,
kPixelsPerTick = 3,
kShiftPerFrame = 1,
kFramesPerRun = SkBENCHLOOP(5),
};
int fShift;
SkISize fSize;
SkTDArray<SkScalar> fData[kNumGraphs];
bool fAA;
typedef SkBenchmark INHERITED;
};
//////////////////////////////////////////////////////////////////////////////
static SkBenchmark* Fact0(void* p) { return new ChartBench(p, true); }
static SkBenchmark* Fact1(void* p) { return new ChartBench(p, false); }
static BenchRegistry gReg0(Fact0);
static BenchRegistry gReg1(Fact1);
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