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skia / skia / refs/heads/chrome/m53 / . / gm / multipicturedraw.cpp
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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.
*/
#include "gm.h"
#include "SkColorFilter.h"
#include "SkMultiPictureDraw.h"
#include "SkPictureRecorder.h"
#include "SkSurface.h"
static const SkScalar kRoot3Over2 = 0.86602545f; // sin(60)
static const SkScalar kRoot3 = 1.73205081f;
static const int kHexSide = 30;
static const int kNumHexX = 6;
static const int kNumHexY = 6;
static const int kPicWidth = kNumHexX * kHexSide;
static const int kPicHeight = SkScalarCeilToInt((kNumHexY - 0.5f) * 2 * kHexSide * kRoot3Over2);
static const SkScalar kInset = 20.0f;
static const int kNumPictures = 4;
static const int kTriSide = 40;
// Create a hexagon centered at (originX, originY)
static SkPath make_hex_path(SkScalar originX, SkScalar originY) {
SkPath hex;
hex.moveTo(originX-kHexSide, originY);
hex.rLineTo(SkScalarHalf(kHexSide), kRoot3Over2 * kHexSide);
hex.rLineTo(SkIntToScalar(kHexSide), 0);
hex.rLineTo(SkScalarHalf(kHexSide), -kHexSide * kRoot3Over2);
hex.rLineTo(-SkScalarHalf(kHexSide), -kHexSide * kRoot3Over2);
hex.rLineTo(-SkIntToScalar(kHexSide), 0);
hex.close();
return hex;
}
// Make a picture that is a tiling of the plane with stroked hexagons where
// each hexagon is in its own layer. The layers are to exercise Ganesh's
// layer hoisting.
static sk_sp<SkPicture> make_hex_plane_picture(SkColor fillColor) {
// Create a hexagon with its center at the origin
SkPath hex = make_hex_path(0, 0);
SkPaint fill;
fill.setStyle(SkPaint::kFill_Style);
fill.setColor(fillColor);
SkPaint stroke;
stroke.setStyle(SkPaint::kStroke_Style);
stroke.setStrokeWidth(3);
SkPictureRecorder recorder;
SkRTreeFactory bbhFactory;
SkCanvas* canvas = recorder.beginRecording(SkIntToScalar(kPicWidth),
SkIntToScalar(kPicHeight),
&bbhFactory,
SkPictureRecorder::kComputeSaveLayerInfo_RecordFlag);
SkScalar xPos, yPos = 0;
for (int y = 0; y < kNumHexY; ++y) {
xPos = 0;
for (int x = 0; x < kNumHexX; ++x) {
canvas->saveLayer(nullptr, nullptr);
canvas->translate(xPos, yPos + ((x % 2) ? kRoot3Over2 * kHexSide : 0));
canvas->drawPath(hex, fill);
canvas->drawPath(hex, stroke);
canvas->restore();
xPos += 1.5f * kHexSide;
}
yPos += 2 * kHexSide * kRoot3Over2;
}
return recorder.finishRecordingAsPicture();
}
// Create a picture that consists of a single large layer that is tiled
// with hexagons.
// This is intended to exercise the layer hoisting code's clip handling (in
// tile mode).
static sk_sp<SkPicture> make_single_layer_hex_plane_picture() {
// Create a hexagon with its center at the origin
SkPath hex = make_hex_path(0, 0);
SkPaint whiteFill;
whiteFill.setStyle(SkPaint::kFill_Style);
whiteFill.setColor(SK_ColorWHITE);
SkPaint greyFill;
greyFill.setStyle(SkPaint::kFill_Style);
greyFill.setColor(sk_tool_utils::color_to_565(SK_ColorLTGRAY));
SkPaint stroke;
stroke.setStyle(SkPaint::kStroke_Style);
stroke.setStrokeWidth(3);
SkPictureRecorder recorder;
SkRTreeFactory bbhFactory;
static const SkScalar kBig = 10000.0f;
SkCanvas* canvas = recorder.beginRecording(kBig, kBig, &bbhFactory,
SkPictureRecorder::kComputeSaveLayerInfo_RecordFlag);
canvas->saveLayer(nullptr, nullptr);
SkScalar xPos = 0.0f, yPos = 0.0f;
for (int y = 0; yPos < kBig; ++y) {
xPos = 0;
for (int x = 0; xPos < kBig; ++x) {
canvas->save();
canvas->translate(xPos, yPos + ((x % 2) ? kRoot3Over2 * kHexSide : 0));
// The color of the filled hex is swapped to yield a different
// pattern in each tile. This allows an error in layer hoisting (e.g.,
// the clip isn't blocking cache reuse) to cause a visual discrepancy.
canvas->drawPath(hex, ((x+y) % 3) ? whiteFill : greyFill);
canvas->drawPath(hex, stroke);
canvas->restore();
xPos += 1.5f * kHexSide;
}
yPos += 2 * kHexSide * kRoot3Over2;
}
canvas->restore();
return recorder.finishRecordingAsPicture();
}
// Make an equilateral triangle path with its top corner at (originX, originY)
static SkPath make_tri_path(SkScalar originX, SkScalar originY) {
SkPath tri;
tri.moveTo(originX, originY);
tri.rLineTo(SkScalarHalf(kTriSide), 1.5f * kTriSide / kRoot3);
tri.rLineTo(-kTriSide, 0);
tri.close();
return tri;
}
static sk_sp<SkPicture> make_tri_picture() {
SkPath tri = make_tri_path(SkScalarHalf(kTriSide), 0);
SkPaint fill;
fill.setStyle(SkPaint::kFill_Style);
fill.setColor(sk_tool_utils::color_to_565(SK_ColorLTGRAY));
SkPaint stroke;
stroke.setStyle(SkPaint::kStroke_Style);
stroke.setStrokeWidth(3);
SkPictureRecorder recorder;
SkRTreeFactory bbhFactory;
SkCanvas* canvas = recorder.beginRecording(SkIntToScalar(kPicWidth),
SkIntToScalar(kPicHeight),
&bbhFactory,
SkPictureRecorder::kComputeSaveLayerInfo_RecordFlag);
SkRect r = tri.getBounds();
r.outset(2.0f, 2.0f); // outset for stroke
canvas->clipRect(r);
// The saveLayer/restore block is to exercise layer hoisting
canvas->saveLayer(nullptr, nullptr);
canvas->drawPath(tri, fill);
canvas->drawPath(tri, stroke);
canvas->restore();
return recorder.finishRecordingAsPicture();
}
static sk_sp<SkPicture> make_sub_picture(const SkPicture* tri) {
SkPictureRecorder recorder;
SkRTreeFactory bbhFactory;
SkCanvas* canvas = recorder.beginRecording(SkIntToScalar(kPicWidth),
SkIntToScalar(kPicHeight),
&bbhFactory,
SkPictureRecorder::kComputeSaveLayerInfo_RecordFlag);
canvas->scale(1.0f/2.0f, 1.0f/2.0f);
canvas->save();
canvas->translate(SkScalarHalf(kTriSide), 0);
canvas->drawPicture(tri);
canvas->restore();
canvas->save();
canvas->translate(SkIntToScalar(kTriSide), 1.5f * kTriSide / kRoot3);
canvas->drawPicture(tri);
canvas->restore();
canvas->save();
canvas->translate(0, 1.5f * kTriSide / kRoot3);
canvas->drawPicture(tri);
canvas->restore();
return recorder.finishRecordingAsPicture();
}
// Create a Sierpinkski-like picture that starts with a top row with a picture
// that just contains a triangle. Subsequent rows take the prior row's picture,
// shrinks it and replicates it 3 times then draws and appropriate number of
// copies of it.
static sk_sp<SkPicture> make_sierpinski_picture() {
sk_sp<SkPicture> pic(make_tri_picture());
SkPictureRecorder recorder;
SkRTreeFactory bbhFactory;
SkCanvas* canvas = recorder.beginRecording(SkIntToScalar(kPicWidth),
SkIntToScalar(kPicHeight),
&bbhFactory,
SkPictureRecorder::kComputeSaveLayerInfo_RecordFlag);
static const int kNumLevels = 4;
for (int i = 0; i < kNumLevels; ++i) {
canvas->save();
canvas->translate(kPicWidth/2 - (i+1) * (kTriSide/2.0f), 0.0f);
for (int j = 0; j < i+1; ++j) {
canvas->drawPicture(pic);
canvas->translate(SkIntToScalar(kTriSide), 0);
}
canvas->restore();
pic = make_sub_picture(pic.get());
canvas->translate(0, 1.5f * kTriSide / kRoot3);
}
return recorder.finishRecordingAsPicture();
}
static sk_sp<SkSurface> create_compat_surface(SkCanvas* canvas, int width, int height) {
SkImageInfo info = SkImageInfo::MakeN32Premul(width, height);
auto surface = canvas->makeSurface(info);
if (nullptr == surface) {
// picture canvas returns nullptr so fall back to raster
surface = SkSurface::MakeRaster(info);
}
return surface;
}
// This class stores the information required to compose all the result
// fragments potentially generated by the MultiPictureDraw object
class ComposeStep {
public:
ComposeStep() : fX(0.0f), fY(0.0f), fPaint(nullptr) { }
~ComposeStep() {
delete fPaint;
}
sk_sp<SkSurface> fSurf;
SkScalar fX;
SkScalar fY;
SkPaint* fPaint;
};
typedef void (*PFContentMtd)(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]);
// Just a single picture with no clip
static void no_clip(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->drawPicture(pictures[0]);
}
// Two pictures with a rect clip on the second one
static void rect_clip(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->drawPicture(pictures[0]);
SkRect rect = pictures[0]->cullRect();
rect.inset(kInset, kInset);
canvas->clipRect(rect);
canvas->drawPicture(pictures[1]);
}
// Two pictures with a round rect clip on the second one
static void rrect_clip(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->drawPicture(pictures[0]);
SkRect rect = pictures[0]->cullRect();
rect.inset(kInset, kInset);
SkRRect rrect;
rrect.setRectXY(rect, kInset, kInset);
canvas->clipRRect(rrect);
canvas->drawPicture(pictures[1]);
}
// Two pictures with a clip path on the second one
static void path_clip(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->drawPicture(pictures[0]);
// Create a hexagon centered on the middle of the hex grid
SkPath hex = make_hex_path((kNumHexX / 2.0f) * kHexSide, kNumHexY * kHexSide * kRoot3Over2);
canvas->clipPath(hex);
canvas->drawPicture(pictures[1]);
}
// Two pictures with an inverse clip path on the second one
static void invpath_clip(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->drawPicture(pictures[0]);
// Create a hexagon centered on the middle of the hex grid
SkPath hex = make_hex_path((kNumHexX / 2.0f) * kHexSide, kNumHexY * kHexSide * kRoot3Over2);
hex.setFillType(SkPath::kInverseEvenOdd_FillType);
canvas->clipPath(hex);
canvas->drawPicture(pictures[1]);
}
// Reuse a single base (triangular) picture a _lot_ (rotated, scaled and translated).
static void sierpinski(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->save();
canvas->drawPicture(pictures[2]);
canvas->rotate(180.0f);
canvas->translate(-SkIntToScalar(kPicWidth), -SkIntToScalar(kPicHeight));
canvas->drawPicture(pictures[2]);
canvas->restore();
}
static void big_layer(SkCanvas* canvas, const SkPicture* pictures[kNumPictures]) {
canvas->drawPicture(pictures[3]);
}
static const PFContentMtd gContentMthds[] = {
no_clip,
rect_clip,
rrect_clip,
path_clip,
invpath_clip,
sierpinski,
big_layer,
};
static void create_content(SkMultiPictureDraw* mpd, PFContentMtd pfGen,
const SkPicture* pictures[kNumPictures],
SkCanvas* dest, const SkMatrix& xform) {
sk_sp<SkPicture> composite;
{
SkPictureRecorder recorder;
SkRTreeFactory bbhFactory;
SkCanvas* pictureCanvas = recorder.beginRecording(SkIntToScalar(kPicWidth),
SkIntToScalar(kPicHeight),
&bbhFactory,
SkPictureRecorder::kComputeSaveLayerInfo_RecordFlag);
(*pfGen)(pictureCanvas, pictures);
composite = recorder.finishRecordingAsPicture();
}
mpd->add(dest, composite.get(), &xform);
}
typedef void(*PFLayoutMtd)(SkCanvas* finalCanvas, SkMultiPictureDraw* mpd,
PFContentMtd pfGen, const SkPicture* pictures[kNumPictures],
SkTArray<ComposeStep>* composeSteps);
// Draw the content into a single canvas
static void simple(SkCanvas* finalCanvas, SkMultiPictureDraw* mpd,
PFContentMtd pfGen,
const SkPicture* pictures[kNumPictures],
SkTArray<ComposeStep> *composeSteps) {
ComposeStep& step = composeSteps->push_back();
step.fSurf = create_compat_surface(finalCanvas, kPicWidth, kPicHeight);
SkCanvas* subCanvas = step.fSurf->getCanvas();
create_content(mpd, pfGen, pictures, subCanvas, SkMatrix::I());
}
// Draw the content into multiple canvases/tiles
static void tiled(SkCanvas* finalCanvas, SkMultiPictureDraw* mpd,
PFContentMtd pfGen,
const SkPicture* pictures[kNumPictures],
SkTArray<ComposeStep> *composeSteps) {
static const int kNumTilesX = 2;
static const int kNumTilesY = 2;
static const int kTileWidth = kPicWidth / kNumTilesX;
static const int kTileHeight = kPicHeight / kNumTilesY;
SkASSERT(kPicWidth == kNumTilesX * kTileWidth);
SkASSERT(kPicHeight == kNumTilesY * kTileHeight);
static const SkColor colors[kNumTilesX][kNumTilesY] = {
{ SK_ColorCYAN, SK_ColorMAGENTA },
{ SK_ColorYELLOW, SK_ColorGREEN }
};
for (int y = 0; y < kNumTilesY; ++y) {
for (int x = 0; x < kNumTilesX; ++x) {
ComposeStep& step = composeSteps->push_back();
step.fX = SkIntToScalar(x*kTileWidth);
step.fY = SkIntToScalar(y*kTileHeight);
step.fPaint = new SkPaint;
step.fPaint->setColorFilter(
SkColorFilter::MakeModeFilter(colors[x][y], SkXfermode::kModulate_Mode));
step.fSurf = create_compat_surface(finalCanvas, kTileWidth, kTileHeight);
SkCanvas* subCanvas = step.fSurf->getCanvas();
const SkMatrix trans = SkMatrix::MakeTrans(-SkIntToScalar(x*kTileWidth),
-SkIntToScalar(y*kTileHeight));
create_content(mpd, pfGen, pictures, subCanvas, trans);
}
}
}
static const PFLayoutMtd gLayoutMthds[] = { simple, tiled };
namespace skiagm {
/**
* This GM exercises the SkMultiPictureDraw object. It tests the
* cross product of:
* tiled vs. all-at-once rendering (e.g., into many or just 1 canvas)
* different clips (e.g., none, rect, rrect)
* single vs. multiple pictures (e.g., normal vs. picture-pile-style content)
*/
class MultiPictureDraw : public GM {
public:
enum Content {
kNoClipSingle_Content,
kRectClipMulti_Content,
kRRectClipMulti_Content,
kPathClipMulti_Content,
kInvPathClipMulti_Content,
kSierpinski_Content,
kBigLayer_Content,
kLast_Content = kBigLayer_Content
};
static const int kContentCnt = kLast_Content + 1;
enum Layout {
kSimple_Layout,
kTiled_Layout,
kLast_Layout = kTiled_Layout
};
static const int kLayoutCnt = kLast_Layout + 1;
MultiPictureDraw(Content content, Layout layout) : fContent(content), fLayout(layout) {
SkASSERT(SK_ARRAY_COUNT(gLayoutMthds) == kLayoutCnt);
SkASSERT(SK_ARRAY_COUNT(gContentMthds) == kContentCnt);
for (int i = 0; i < kNumPictures; ++i) {
fPictures[i] = nullptr;
}
}
virtual ~MultiPictureDraw() {
for (int i = 0; i < kNumPictures; ++i) {
SkSafeUnref(fPictures[i]);
}
}
protected:
Content fContent;
Layout fLayout;
const SkPicture* fPictures[kNumPictures];
void onOnceBeforeDraw() override {
fPictures[0] = make_hex_plane_picture(SK_ColorWHITE).release();
fPictures[1] = make_hex_plane_picture(sk_tool_utils::color_to_565(SK_ColorGRAY)).release();
fPictures[2] = make_sierpinski_picture().release();
fPictures[3] = make_single_layer_hex_plane_picture().release();
}
void onDraw(SkCanvas* canvas) override {
SkMultiPictureDraw mpd;
SkTArray<ComposeStep> composeSteps;
// Fill up the MultiPictureDraw
(*gLayoutMthds[fLayout])(canvas, &mpd,
gContentMthds[fContent],
fPictures, &composeSteps);
mpd.draw();
// Compose all the drawn canvases into the final canvas
for (int i = 0; i < composeSteps.count(); ++i) {
const ComposeStep& step = composeSteps[i];
canvas->drawImage(step.fSurf->makeImageSnapshot().get(),
step.fX, step.fY, step.fPaint);
}
}
SkISize onISize() override { return SkISize::Make(kPicWidth, kPicHeight); }
SkString onShortName() override {
static const char* gContentNames[] = {
"noclip", "rectclip", "rrectclip", "pathclip",
"invpathclip", "sierpinski", "biglayer"
};
static const char* gLayoutNames[] = { "simple", "tiled" };
SkASSERT(SK_ARRAY_COUNT(gLayoutNames) == kLayoutCnt);
SkASSERT(SK_ARRAY_COUNT(gContentNames) == kContentCnt);
SkString name("multipicturedraw_");
name.append(gContentNames[fContent]);
name.append("_");
name.append(gLayoutNames[fLayout]);
return name;
}
bool runAsBench() const override { return true; }
private:
typedef GM INHERITED;
};
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kNoClipSingle_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kRectClipMulti_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kRRectClipMulti_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kPathClipMulti_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kInvPathClipMulti_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kSierpinski_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kBigLayer_Content,
MultiPictureDraw::kSimple_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kNoClipSingle_Content,
MultiPictureDraw::kTiled_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kRectClipMulti_Content,
MultiPictureDraw::kTiled_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kRRectClipMulti_Content,
MultiPictureDraw::kTiled_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kPathClipMulti_Content,
MultiPictureDraw::kTiled_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kInvPathClipMulti_Content,
MultiPictureDraw::kTiled_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kSierpinski_Content,
MultiPictureDraw::kTiled_Layout);)
DEF_GM(return new MultiPictureDraw(MultiPictureDraw::kBigLayer_Content,
MultiPictureDraw::kTiled_Layout);)
}