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skia2/tests/CanvasTest.cpp
djsollen@google.com 7dade42e6f Always store pixels of mutable bitmaps when recording a SkPicture. 
Prior to this CL mutable bitmaps only saved a copy of their pixels
if a flag was set at recording time.  That flag has been removed
and the default behavior when recording a mutable bitmap is to
make a copy of it's pixels. This is the only way to ensure that
the pixels are not manipulated before we playback their contents.

However, enabling this behavior breaks the recording of extracted
bitmaps in SkPicture. This is because we currently cache bitmaps
within a picture based only on their pixelRef. This results in
false positive cache hit when drawing an extracted bitmap as it
shares a pixelRef with its orginating bitmap.  Therefore we must
update the index of the bitmap cache to be both the pixelRef AND
the size and offset of the bitmap using those pixels.

BUG=
TEST=extractbitmap.cpp

Review URL: https://codereview.appspot.com/6439043

git-svn-id: http://skia.googlecode.com/svn/trunk@4809 2bbb7eff-a529-9590-31e7-b0007b416f81
2012-07-27 15:58:23 +00:00

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37 KiB
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/*
* Copyright 2012 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* Description:
* This test defines a series of elementatry test steps that perform
* a single or a small group of canvas API calls. Each test step is
* used in several test cases that verify that different types of SkCanvas
* flavors and derivatives pass it and yield consistent behavior. The
* test cases analyse results that are queryable through the API. They do
* not look at rendering results.
*
* Adding test stepss:
* The general pattern for creating a new test step is to write a test
* function of the form:
*
* static void MyTestStepFunction(SkCanvas* canvas,
* skiatest::Reporter* reporter,
* CanvasTestStep* testStep)
* {
* canvas->someCanvasAPImethod();
* (...)
* REPORTER_ASSERT_MESSAGE(reporter, (...), \
* testStep->assertMessage());
* }
*
* The definition of the test step function should be followed by an
* invocation of the TEST_STEP macro, which generates a class and
* instance for the test step:
*
* TEST_STEP(MyTestStep, MyTestStepFunction)
*
* There are also short hand macros for defining simple test steps
* in a single line of code. A simple test step is a one that is made
* of a single canvas API call.
*
* SIMPLE_TEST_STEP(MytestStep, someCanvasAPIMethod());
*
* There is another macro called SIMPLE_TEST_STEP_WITH_ASSERT that
* works the same way as SIMPLE_TEST_STEP, and additionally verifies
* that the invoked method returns a non-zero value.
*/
#include "SkBitmap.h"
#include "SkCanvas.h"
#include "SkDeferredCanvas.h"
#include "SkDevice.h"
#include "SkMatrix.h"
#include "SkNWayCanvas.h"
#include "SkPaint.h"
#include "SkPath.h"
#include "SkPicture.h"
#include "SkPictureRecord.h"
#include "SkProxyCanvas.h"
#include "SkRect.h"
#include "SkRegion.h"
#include "SkShader.h"
#include "SkStream.h"
#include "SkTDArray.h"
#include "Test.h"
class Canvas2CanvasClipVisitor : public SkCanvas::ClipVisitor {
public:
Canvas2CanvasClipVisitor(SkCanvas* target) : fTarget(target) {}
virtual void clipRect(const SkRect& r, SkRegion::Op op, bool aa) {
fTarget->clipRect(r, op, aa);
}
virtual void clipPath(const SkPath& p, SkRegion::Op op, bool aa) {
fTarget->clipPath(p, op, aa);
}
private:
SkCanvas* fTarget;
};
static void test_clipVisitor(skiatest::Reporter* reporter, SkCanvas* canvas) {
SkISize size = canvas->getDeviceSize();
SkBitmap bm;
bm.setConfig(SkBitmap::kARGB_8888_Config, size.width(), size.height());
SkCanvas c(bm);
Canvas2CanvasClipVisitor visitor(&c);
canvas->replayClips(&visitor);
REPORTER_ASSERT(reporter, c.getTotalClip() == canvas->getTotalClip());
}
static const int kWidth = 2;
static const int kHeight = 2;
// Maximum stream length for picture serialization
static const size_t kMaxPictureBufferSize = 1024;
// Format strings that describe the test context. The %s token is where
// the name of the test step is inserted. The context is required for
// disambiguating the error in the case of failures that are reported in
// functions that are called multiple times in different contexts (test
// cases and test steps).
static const char* const kDefaultAssertMessageFormat = "%s";
static const char* const kCanvasDrawAssertMessageFormat =
"Drawing test step %s with SkCanvas";
static const char* const kPictureDrawAssertMessageFormat =
"Drawing test step %s with SkPicture";
static const char* const kPictureSecondDrawAssertMessageFormat =
"Duplicate draw of test step %s with SkPicture";
static const char* const kPictureReDrawAssertMessageFormat =
"Playing back test step %s from an SkPicture to another SkPicture";
static const char* const kDeferredDrawAssertMessageFormat =
"Drawing test step %s with SkDeferredCanvas";
static const char* const kProxyDrawAssertMessageFormat =
"Drawing test step %s with SkProxyCanvas";
static const char* const kNWayDrawAssertMessageFormat =
"Drawing test step %s with SkNWayCanvas";
static const char* const kRoundTripAssertMessageFormat =
"test step %s, SkPicture consistency after round trip";
static const char* const kPictureRecoringAssertMessageFormat =
"test step %s, SkPicture state consistency after recording";
static const char* const kPicturePlaybackAssertMessageFormat =
"test step %s, SkPicture state consistency in playback canvas";
static const char* const kDeferredPreFlushAssertMessageFormat =
"test step %s, SkDeferredCanvas state consistency before flush";
static const char* const kDeferredPostFlushPlaybackAssertMessageFormat =
"test step %s, SkDeferredCanvas playback canvas state consistency after flush";
static const char* const kDeferredPostFlushAssertMessageFormat =
"test step %s, SkDeferredCanvas state consistency after flush";
static const char* const kPictureResourceReuseMessageFormat =
"test step %s, SkPicture duplicate flattened object test";
static const char* const kProxyStateAssertMessageFormat =
"test step %s, SkProxyCanvas state consistency";
static const char* const kProxyIndirectStateAssertMessageFormat =
"test step %s, SkProxyCanvas indirect canvas state consistency";
static const char* const kNWayStateAssertMessageFormat =
"test step %s, SkNWayCanvas state consistency";
static const char* const kNWayIndirect1StateAssertMessageFormat =
"test step %s, SkNWayCanvas indirect canvas 1 state consistency";
static const char* const kNWayIndirect2StateAssertMessageFormat =
"test step %s, SkNWayCanvas indirect canvas 2 state consistency";
static void createBitmap(SkBitmap* bm, SkBitmap::Config config, SkColor color) {
bm->setConfig(config, kWidth, kHeight);
bm->allocPixels();
bm->eraseColor(color);
}
class CanvasTestStep;
static SkTDArray<CanvasTestStep*>& testStepArray() {
static SkTDArray<CanvasTestStep*> theTests;
return theTests;
}
class CanvasTestStep {
public:
CanvasTestStep() {
*testStepArray().append() = this;
fAssertMessageFormat = kDefaultAssertMessageFormat;
}
virtual ~CanvasTestStep() { }
virtual void draw(SkCanvas*, skiatest::Reporter*) = 0;
virtual const char* name() const = 0;
const char* assertMessage() {
fAssertMessage.printf(fAssertMessageFormat, name());
return fAssertMessage.c_str();
}
void setAssertMessageFormat(const char* format) {
fAssertMessageFormat = format;
}
private:
SkString fAssertMessage;
const char* fAssertMessageFormat;
};
///////////////////////////////////////////////////////////////////////////////
// Constants used by test steps
const SkRect kTestRect =
SkRect::MakeXYWH(SkIntToScalar(0), SkIntToScalar(0),
SkIntToScalar(2), SkIntToScalar(1));
static SkMatrix testMatrix() {
SkMatrix matrix;
matrix.reset();
matrix.setScale(SkIntToScalar(2), SkIntToScalar(3));
return matrix;
}
const SkMatrix kTestMatrix = testMatrix();
static SkPath testPath() {
SkPath path;
path.addRect(SkRect::MakeXYWH(SkIntToScalar(0), SkIntToScalar(0),
SkIntToScalar(2), SkIntToScalar(1)));
return path;
}
const SkPath kTestPath = testPath();
static SkRegion testRegion() {
SkRegion region;
SkIRect rect = SkIRect::MakeXYWH(0, 0, 2, 1);
region.setRect(rect);
return region;
}
const SkIRect kTestIRect = SkIRect::MakeXYWH(0, 0, 2, 1);
const SkRegion kTestRegion = testRegion();
const SkColor kTestColor = 0x01020304;
const SkPaint kTestPaint;
const SkPoint kTestPoints[3] = {
{SkIntToScalar(0), SkIntToScalar(0)},
{SkIntToScalar(2), SkIntToScalar(1)},
{SkIntToScalar(0), SkIntToScalar(2)}
};
const size_t kTestPointCount = 3;
static SkBitmap testBitmap() {
SkBitmap bitmap;
createBitmap(&bitmap, SkBitmap::kARGB_8888_Config, 0x05060708);
return bitmap;
}
SkBitmap kTestBitmap; // cannot be created during static init
SkString kTestText("Hello World");
SkPoint kTestPoints2[] = {
{ SkIntToScalar(0), SkIntToScalar(1) },
{ SkIntToScalar(1), SkIntToScalar(1) },
{ SkIntToScalar(2), SkIntToScalar(1) },
{ SkIntToScalar(3), SkIntToScalar(1) },
{ SkIntToScalar(4), SkIntToScalar(1) },
{ SkIntToScalar(5), SkIntToScalar(1) },
{ SkIntToScalar(6), SkIntToScalar(1) },
{ SkIntToScalar(7), SkIntToScalar(1) },
{ SkIntToScalar(8), SkIntToScalar(1) },
{ SkIntToScalar(9), SkIntToScalar(1) },
{ SkIntToScalar(10), SkIntToScalar(1) },
};
///////////////////////////////////////////////////////////////////////////////
// Macros for defining test steps
#define TEST_STEP(NAME, FUNCTION) \
class NAME##_TestStep : public CanvasTestStep{ \
public: \
virtual void draw(SkCanvas* canvas, skiatest::Reporter* reporter) { \
FUNCTION (canvas, reporter, this); \
} \
virtual const char* name() const {return #NAME ;} \
}; \
static NAME##_TestStep NAME##_TestStepInstance;
#define SIMPLE_TEST_STEP(NAME, CALL) \
static void NAME##TestStep(SkCanvas* canvas, skiatest::Reporter*, \
CanvasTestStep*) { \
canvas-> CALL ; \
} \
TEST_STEP(NAME, NAME##TestStep )
#define SIMPLE_TEST_STEP_WITH_ASSERT(NAME, CALL) \
static void NAME##TestStep(SkCanvas* canvas, skiatest::Reporter* reporter, \
CanvasTestStep* testStep) { \
REPORTER_ASSERT_MESSAGE(reporter, canvas-> CALL , \
testStep->assertMessage()); \
} \
TEST_STEP(NAME, NAME##TestStep )
///////////////////////////////////////////////////////////////////////////////
// Basic test steps for most virtual methods in SkCanvas that draw or affect
// the state of the canvas.
SIMPLE_TEST_STEP_WITH_ASSERT(Translate,
translate(SkIntToScalar(1), SkIntToScalar(2)));
SIMPLE_TEST_STEP_WITH_ASSERT(Scale,
scale(SkIntToScalar(1), SkIntToScalar(2)));
SIMPLE_TEST_STEP_WITH_ASSERT(Rotate, rotate(SkIntToScalar(1)));
SIMPLE_TEST_STEP_WITH_ASSERT(Skew,
skew(SkIntToScalar(1), SkIntToScalar(2)));
SIMPLE_TEST_STEP_WITH_ASSERT(Concat, concat(kTestMatrix));
SIMPLE_TEST_STEP(SetMatrix, setMatrix(kTestMatrix));
SIMPLE_TEST_STEP(ClipRect, clipRect(kTestRect));
SIMPLE_TEST_STEP(ClipPath, clipPath(kTestPath));
SIMPLE_TEST_STEP(ClipRegion,
clipRegion(kTestRegion, SkRegion::kReplace_Op));
SIMPLE_TEST_STEP(Clear, clear(kTestColor));
SIMPLE_TEST_STEP(DrawPaint, drawPaint(kTestPaint));
SIMPLE_TEST_STEP(DrawPointsPoints, drawPoints(SkCanvas::kPoints_PointMode,
kTestPointCount, kTestPoints, kTestPaint));
SIMPLE_TEST_STEP(DrawPointsLiness, drawPoints(SkCanvas::kLines_PointMode,
kTestPointCount, kTestPoints, kTestPaint));
SIMPLE_TEST_STEP(DrawPointsPolygon, drawPoints(SkCanvas::kPolygon_PointMode,
kTestPointCount, kTestPoints, kTestPaint));
SIMPLE_TEST_STEP(DrawRect, drawRect(kTestRect, kTestPaint));
SIMPLE_TEST_STEP(DrawPath, drawPath(kTestPath, kTestPaint));
SIMPLE_TEST_STEP(DrawBitmap, drawBitmap(kTestBitmap, 0, 0));
SIMPLE_TEST_STEP(DrawBitmapPaint, drawBitmap(kTestBitmap, 0, 0, &kTestPaint));
SIMPLE_TEST_STEP(DrawBitmapRect, drawBitmapRect(kTestBitmap, NULL, kTestRect,
NULL));
SIMPLE_TEST_STEP(DrawBitmapRectSrcRect, drawBitmapRect(kTestBitmap,
&kTestIRect, kTestRect, NULL));
SIMPLE_TEST_STEP(DrawBitmapRectPaint, drawBitmapRect(kTestBitmap, NULL,
kTestRect, &kTestPaint));
SIMPLE_TEST_STEP(DrawBitmapMatrix, drawBitmapMatrix(kTestBitmap, kTestMatrix,
NULL));
SIMPLE_TEST_STEP(DrawBitmapMatrixPaint, drawBitmapMatrix(kTestBitmap,
kTestMatrix, &kTestPaint));
SIMPLE_TEST_STEP(DrawBitmapNine, drawBitmapNine(kTestBitmap, kTestIRect,
kTestRect, NULL));
SIMPLE_TEST_STEP(DrawBitmapNinePaint, drawBitmapNine(kTestBitmap, kTestIRect,
kTestRect, &kTestPaint));
SIMPLE_TEST_STEP(DrawSprite, drawSprite(kTestBitmap, 0, 0, NULL));
SIMPLE_TEST_STEP(DrawSpritePaint, drawSprite(kTestBitmap, 0, 0, &kTestPaint));
SIMPLE_TEST_STEP(DrawText, drawText(kTestText.c_str(), kTestText.size(),
0, 1, kTestPaint));
SIMPLE_TEST_STEP(DrawPosText, drawPosText(kTestText.c_str(),
kTestText.size(), kTestPoints2, kTestPaint));
SIMPLE_TEST_STEP(DrawTextOnPath, drawTextOnPath(kTestText.c_str(),
kTestText.size(), kTestPath, NULL, kTestPaint));
SIMPLE_TEST_STEP(DrawTextOnPathMatrix, drawTextOnPath(kTestText.c_str(),
kTestText.size(), kTestPath, &kTestMatrix, kTestPaint));
SIMPLE_TEST_STEP(SetExternalMatrix, setExternalMatrix(&kTestMatrix));
SIMPLE_TEST_STEP(DrawData, drawData(kTestText.c_str(), kTestText.size()));
///////////////////////////////////////////////////////////////////////////////
// Complex test steps
// Save/restore calls cannot be in isolated simple test steps because the test
// cases that use SkPicture require that save and restore calls be balanced.
static void SaveMatrixStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int saveCount = canvas->getSaveCount();
canvas->save(SkCanvas::kMatrix_SaveFlag);
canvas->clipRegion(kTestRegion);
canvas->translate(SkIntToScalar(1), SkIntToScalar(2));
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->getSaveCount() == saveCount,
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas->getTotalMatrix().isIdentity(),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas->getTotalClip() == kTestRegion,
testStep->assertMessage());
}
TEST_STEP(SaveMatrix, SaveMatrixStep);
static void SaveClipStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int saveCount = canvas->getSaveCount();
canvas->save(SkCanvas::kClip_SaveFlag);
canvas->translate(SkIntToScalar(1), SkIntToScalar(2));
canvas->clipRegion(kTestRegion);
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->getSaveCount() == saveCount,
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, !canvas->getTotalMatrix().isIdentity(),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas->getTotalClip() != kTestRegion,
testStep->assertMessage());
}
TEST_STEP(SaveClip, SaveClipStep);
static void SaveMatrixClipStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int saveCount = canvas->getSaveCount();
canvas->save(SkCanvas::kMatrixClip_SaveFlag);
canvas->translate(SkIntToScalar(1), SkIntToScalar(2));
canvas->clipRegion(kTestRegion);
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->getSaveCount() == saveCount,
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas->getTotalMatrix().isIdentity(),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas->getTotalClip() != kTestRegion,
testStep->assertMessage());
}
TEST_STEP(SaveMatrixClip, SaveMatrixClipStep);
static void SaveLayerStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int saveCount = canvas->getSaveCount();
canvas->saveLayer(NULL, NULL);
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->getSaveCount() == saveCount,
testStep->assertMessage());
}
TEST_STEP(SaveLayer, SaveLayerStep);
static void BoundedSaveLayerStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int saveCount = canvas->getSaveCount();
canvas->saveLayer(&kTestRect, NULL);
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->getSaveCount() == saveCount,
testStep->assertMessage());
}
TEST_STEP(BoundedSaveLayer, BoundedSaveLayerStep);
static void PaintSaveLayerStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int saveCount = canvas->getSaveCount();
canvas->saveLayer(NULL, &kTestPaint);
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->getSaveCount() == saveCount,
testStep->assertMessage());
}
TEST_STEP(PaintSaveLayer, PaintSaveLayerStep);
static void TwoClipOpsStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
// This test exercises a functionality in SkPicture that leads to the
// recording of restore offset placeholders. This test will trigger an
// assertion at playback time if the placeholders are not properly
// filled when the recording ends.
canvas->clipRect(kTestRect);
canvas->clipRegion(kTestRegion);
}
TEST_STEP(TwoClipOps, TwoClipOpsStep);
// exercise fix for http://code.google.com/p/skia/issues/detail?id=560
// ('SkPathStroker::lineTo() fails for line with length SK_ScalarNearlyZero')
static void DrawNearlyZeroLengthPathTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
SkPaint paint;
paint.setStrokeWidth(SkIntToScalar(1));
paint.setStyle(SkPaint::kStroke_Style);
SkPath path;
SkPoint pt1 = { 0, 0 };
SkPoint pt2 = { 0, SK_ScalarNearlyZero };
SkPoint pt3 = { SkIntToScalar(1), 0 };
SkPoint pt4 = { SkIntToScalar(1), SK_ScalarNearlyZero/2 };
path.moveTo(pt1);
path.lineTo(pt2);
path.lineTo(pt3);
path.lineTo(pt4);
canvas->drawPath(path, paint);
}
TEST_STEP(DrawNearlyZeroLengthPath, DrawNearlyZeroLengthPathTestStep);
static void DrawVerticesShaderTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
SkPoint pts[4];
pts[0].set(0, 0);
pts[1].set(SkIntToScalar(kWidth), 0);
pts[2].set(SkIntToScalar(kWidth), SkIntToScalar(kHeight));
pts[3].set(0, SkIntToScalar(kHeight));
SkPaint paint;
SkShader* shader = SkShader::CreateBitmapShader(kTestBitmap,
SkShader::kClamp_TileMode, SkShader::kClamp_TileMode);
paint.setShader(shader)->unref();
canvas->drawVertices(SkCanvas::kTriangleFan_VertexMode, 4, pts, pts,
NULL, NULL, NULL, 0, paint);
}
TEST_STEP(DrawVerticesShader, DrawVerticesShaderTestStep);
static void DrawPictureTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
SkPicture* testPicture = SkNEW_ARGS(SkPicture, ());
SkAutoUnref aup(testPicture);
SkCanvas* testCanvas = testPicture->beginRecording(kWidth, kHeight);
testCanvas->scale(SkIntToScalar(2), SkIntToScalar(1));
testCanvas->clipRect(kTestRect);
testCanvas->drawRect(kTestRect, kTestPaint);
canvas->drawPicture(*testPicture);
}
TEST_STEP(DrawPicture, DrawPictureTestStep);
static void SaveRestoreTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
int baseSaveCount = canvas->getSaveCount();
size_t n = canvas->save();
REPORTER_ASSERT_MESSAGE(reporter, baseSaveCount == n, testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, baseSaveCount + 1 == canvas->getSaveCount(),
testStep->assertMessage());
canvas->save();
canvas->save();
REPORTER_ASSERT_MESSAGE(reporter, baseSaveCount + 3 == canvas->getSaveCount(),
testStep->assertMessage());
canvas->restoreToCount(baseSaveCount + 1);
REPORTER_ASSERT_MESSAGE(reporter, baseSaveCount + 1 == canvas->getSaveCount(),
testStep->assertMessage());
// should this pin to 1, or be a no-op, or crash?
canvas->restoreToCount(0);
REPORTER_ASSERT_MESSAGE(reporter, 1 == canvas->getSaveCount(),
testStep->assertMessage());
}
TEST_STEP(SaveRestore, SaveRestoreTestStep);
static void DrawLayerTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
REPORTER_ASSERT_MESSAGE(reporter, !canvas->isDrawingToLayer(),
testStep->assertMessage());
canvas->save();
REPORTER_ASSERT_MESSAGE(reporter, !canvas->isDrawingToLayer(),
testStep->assertMessage());
canvas->restore();
const SkRect* bounds = NULL; // null means include entire bounds
const SkPaint* paint = NULL;
canvas->saveLayer(bounds, paint);
REPORTER_ASSERT_MESSAGE(reporter, canvas->isDrawingToLayer(),
testStep->assertMessage());
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, !canvas->isDrawingToLayer(),
testStep->assertMessage());
canvas->saveLayer(bounds, paint);
canvas->saveLayer(bounds, paint);
REPORTER_ASSERT_MESSAGE(reporter, canvas->isDrawingToLayer(),
testStep->assertMessage());
canvas->restore();
REPORTER_ASSERT_MESSAGE(reporter, canvas->isDrawingToLayer(),
testStep->assertMessage());
canvas->restore();
// now layer count should be 0
REPORTER_ASSERT_MESSAGE(reporter, !canvas->isDrawingToLayer(),
testStep->assertMessage());
}
TEST_STEP(DrawLayer, DrawLayerTestStep);
static void NestedSaveRestoreWithSolidPaintTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
// This test step challenges the TestDeferredCanvasStateConsistency
// test cases because the opaque paint can trigger an optimization
// that discards previously recorded commands. The challenge is to maintain
// correct clip and matrix stack state.
canvas->resetMatrix();
canvas->rotate(SkIntToScalar(30));
canvas->save();
canvas->translate(SkIntToScalar(2), SkIntToScalar(1));
canvas->save();
canvas->scale(SkIntToScalar(3), SkIntToScalar(3));
SkPaint paint;
paint.setColor(0xFFFFFFFF);
canvas->drawPaint(paint);
canvas->restore();
canvas->restore();
}
TEST_STEP(NestedSaveRestoreWithSolidPaint, \
NestedSaveRestoreWithSolidPaintTestStep);
static void NestedSaveRestoreWithFlushTestStep(SkCanvas* canvas,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
// This test step challenges the TestDeferredCanvasStateConsistency
// test case because the canvas flush on a deferred canvas will
// reset the recording session. The challenge is to maintain correct
// clip and matrix stack state on the playback canvas.
canvas->resetMatrix();
canvas->rotate(SkIntToScalar(30));
canvas->save();
canvas->translate(SkIntToScalar(2), SkIntToScalar(1));
canvas->save();
canvas->scale(SkIntToScalar(3), SkIntToScalar(3));
canvas->drawRect(kTestRect,kTestPaint);
canvas->flush();
canvas->restore();
canvas->restore();
}
TEST_STEP(NestedSaveRestoreWithFlush, \
NestedSaveRestoreWithFlushTestStep);
static void AssertCanvasStatesEqual(skiatest::Reporter* reporter,
const SkCanvas* canvas1,
const SkCanvas* canvas2,
CanvasTestStep* testStep) {
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getDeviceSize() ==
canvas2->getDeviceSize(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getSaveCount() ==
canvas2->getSaveCount(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->isDrawingToLayer() ==
canvas2->isDrawingToLayer(), testStep->assertMessage());
SkRect bounds1, bounds2;
REPORTER_ASSERT_MESSAGE(reporter,
canvas1->getClipBounds(&bounds1, SkCanvas::kAA_EdgeType) ==
canvas2->getClipBounds(&bounds2, SkCanvas::kAA_EdgeType),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, bounds1 == bounds2,
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter,
canvas1->getClipBounds(&bounds1, SkCanvas::kBW_EdgeType) ==
canvas2->getClipBounds(&bounds2, SkCanvas::kBW_EdgeType),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, bounds1 == bounds2,
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getDrawFilter() ==
canvas2->getDrawFilter(), testStep->assertMessage());
SkIRect deviceBounds1, deviceBounds2;
REPORTER_ASSERT_MESSAGE(reporter,
canvas1->getClipDeviceBounds(&deviceBounds1) ==
canvas2->getClipDeviceBounds(&deviceBounds2),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, deviceBounds1 == deviceBounds2,
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getBounder() ==
canvas2->getBounder(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getTotalMatrix() ==
canvas2->getTotalMatrix(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getClipType() ==
canvas2->getClipType(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, canvas1->getTotalClip() ==
canvas2->getTotalClip(), testStep->assertMessage());
// The following test code is commented out because the test fails when
// the canvas is an SkPictureRecord or SkDeferredCanvas
// Issue: http://code.google.com/p/skia/issues/detail?id=498
// Also, creating a LayerIter on an SkProxyCanvas crashes
// Issue: http://code.google.com/p/skia/issues/detail?id=499
/*
SkCanvas::LayerIter layerIter1(const_cast<SkCanvas*>(canvas1), false);
SkCanvas::LayerIter layerIter2(const_cast<SkCanvas*>(canvas2), false);
while (!layerIter1.done() && !layerIter2.done()) {
REPORTER_ASSERT_MESSAGE(reporter, layerIter1.matrix() ==
layerIter2.matrix(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, layerIter1.clip() ==
layerIter2.clip(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, layerIter1.paint() ==
layerIter2.paint(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, layerIter1.x() ==
layerIter2.x(), testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, layerIter1.y() ==
layerIter2.y(), testStep->assertMessage());
layerIter1.next();
layerIter2.next();
}
REPORTER_ASSERT_MESSAGE(reporter, layerIter1.done(),
testStep->assertMessage());
REPORTER_ASSERT_MESSAGE(reporter, layerIter2.done(),
testStep->assertMessage());
*/
}
// The following class groups static functions that need to access
// the privates members of SkPictureRecord
class SkPictureTester {
private:
static int EQ(const SkFlatData* a, const SkFlatData* b) {
return *a == *b;
}
static void AssertFlattenedObjectsEqual(
SkPictureRecord* referenceRecord,
SkPictureRecord* testRecord,
skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
REPORTER_ASSERT_MESSAGE(reporter,
referenceRecord->fBitmaps.count() ==
testRecord->fBitmaps.count(), testStep->assertMessage());
for (int i = 0; i < referenceRecord->fBitmaps.count(); ++i) {
REPORTER_ASSERT_MESSAGE(reporter,
EQ(referenceRecord->fBitmaps[i], testRecord->fBitmaps[i]),
testStep->assertMessage());
}
REPORTER_ASSERT_MESSAGE(reporter,
referenceRecord->fMatrices.count() ==
testRecord->fMatrices.count(), testStep->assertMessage());
for (int i = 0; i < referenceRecord->fMatrices.count(); ++i) {
REPORTER_ASSERT_MESSAGE(reporter,
EQ(referenceRecord->fMatrices[i], testRecord->fMatrices[i]),
testStep->assertMessage());
}
REPORTER_ASSERT_MESSAGE(reporter,
referenceRecord->fPaints.count() ==
testRecord->fPaints.count(), testStep->assertMessage());
for (int i = 0; i < referenceRecord->fPaints.count(); ++i) {
REPORTER_ASSERT_MESSAGE(reporter,
EQ(referenceRecord->fPaints[i], testRecord->fPaints[i]),
testStep->assertMessage());
}
REPORTER_ASSERT_MESSAGE(reporter,
referenceRecord->fRegions.count() ==
testRecord->fRegions.count(), testStep->assertMessage());
for (int i = 0; i < referenceRecord->fRegions.count(); ++i) {
REPORTER_ASSERT_MESSAGE(reporter,
EQ(referenceRecord->fRegions[i], testRecord->fRegions[i]),
testStep->assertMessage());
}
REPORTER_ASSERT_MESSAGE(reporter,
!referenceRecord->fPathHeap ==
!testRecord->fPathHeap,
testStep->assertMessage());
// The following tests are commented out because they currently
// fail. Issue: http://code.google.com/p/skia/issues/detail?id=507
/*
if (referenceRecord->fPathHeap) {
REPORTER_ASSERT_MESSAGE(reporter,
referenceRecord->fPathHeap->count() ==
testRecord->fPathHeap->count(),
testStep->assertMessage());
for (int i = 0; i < referenceRecord->fPathHeap->count(); ++i) {
REPORTER_ASSERT_MESSAGE(reporter,
(*referenceRecord->fPathHeap)[i] ==
(*testRecord->fPathHeap)[i], testStep->assertMessage());
}
}
*/
}
public:
static void TestPictureFlattenedObjectReuse(skiatest::Reporter* reporter,
CanvasTestStep* testStep,
uint32_t recordFlags) {
// Verify that when a test step is executed twice, no extra resources
// are flattened during the second execution
testStep->setAssertMessageFormat(kPictureDrawAssertMessageFormat);
SkPicture referencePicture;
SkCanvas* referenceCanvas = referencePicture.beginRecording(kWidth,
kHeight, recordFlags);
testStep->draw(referenceCanvas, reporter);
SkPicture testPicture;
SkCanvas* testCanvas = testPicture.beginRecording(kWidth,
kHeight, recordFlags);
testStep->draw(testCanvas, reporter);
testStep->setAssertMessageFormat(kPictureSecondDrawAssertMessageFormat);
testStep->draw(testCanvas, reporter);
SkPictureRecord* referenceRecord = static_cast<SkPictureRecord*>(
referenceCanvas);
SkPictureRecord* testRecord = static_cast<SkPictureRecord*>(
testCanvas);
testStep->setAssertMessageFormat(kPictureResourceReuseMessageFormat);
AssertFlattenedObjectsEqual(referenceRecord, testRecord,
reporter, testStep);
}
};
static void TestDeferredCanvasStateConsistency(
skiatest::Reporter* reporter,
CanvasTestStep* testStep,
const SkCanvas& referenceCanvas) {
SkBitmap deferredStore;
createBitmap(&deferredStore, SkBitmap::kARGB_8888_Config, 0xFFFFFFFF);
SkDevice deferredDevice(deferredStore);
SkDeferredCanvas deferredCanvas(&deferredDevice);
testStep->setAssertMessageFormat(kDeferredDrawAssertMessageFormat);
testStep->draw(&deferredCanvas, reporter);
testStep->setAssertMessageFormat(kDeferredPreFlushAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &deferredCanvas, &referenceCanvas,
testStep);
#if SK_DEFERRED_CANVAS_USES_GPIPE
deferredCanvas.flush();
testStep->setAssertMessageFormat(
kDeferredPostFlushPlaybackAssertMessageFormat);
AssertCanvasStatesEqual(reporter,
deferredCanvas.getDeferredDevice()->immediateCanvas(),
&referenceCanvas, testStep);
#endif
// Verified that deferred canvas state is not affected by flushing
// pending draw operations
// The following test code is commented out because it currently fails.
// Issue: http://code.google.com/p/skia/issues/detail?id=496
/*
testStep->setAssertMessageFormat(kDeferredPostFlushAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &deferredCanvas, &referenceCanvas,
testStep);
*/
}
// unused
static void TestProxyCanvasStateConsistency(
skiatest::Reporter* reporter,
CanvasTestStep* testStep,
const SkCanvas& referenceCanvas) {
SkBitmap indirectStore;
createBitmap(&indirectStore, SkBitmap::kARGB_8888_Config, 0xFFFFFFFF);
SkDevice indirectDevice(indirectStore);
SkCanvas indirectCanvas(&indirectDevice);
SkProxyCanvas proxyCanvas(&indirectCanvas);
testStep->setAssertMessageFormat(kProxyDrawAssertMessageFormat);
testStep->draw(&proxyCanvas, reporter);
// Verify that the SkProxyCanvas reports consitent state
testStep->setAssertMessageFormat(kProxyStateAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &proxyCanvas, &referenceCanvas,
testStep);
// Verify that the indirect canvas reports consitent state
testStep->setAssertMessageFormat(kProxyIndirectStateAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &indirectCanvas, &referenceCanvas,
testStep);
}
// unused
static void TestNWayCanvasStateConsistency(
skiatest::Reporter* reporter,
CanvasTestStep* testStep,
const SkCanvas& referenceCanvas) {
SkBitmap indirectStore1;
createBitmap(&indirectStore1, SkBitmap::kARGB_8888_Config, 0xFFFFFFFF);
SkDevice indirectDevice1(indirectStore1);
SkCanvas indirectCanvas1(&indirectDevice1);
SkBitmap indirectStore2;
createBitmap(&indirectStore2, SkBitmap::kARGB_8888_Config, 0xFFFFFFFF);
SkDevice indirectDevice2(indirectStore2);
SkCanvas indirectCanvas2(&indirectDevice2);
SkISize canvasSize = referenceCanvas.getDeviceSize();
SkNWayCanvas nWayCanvas(canvasSize.width(), canvasSize.height());
nWayCanvas.addCanvas(&indirectCanvas1);
nWayCanvas.addCanvas(&indirectCanvas2);
testStep->setAssertMessageFormat(kNWayDrawAssertMessageFormat);
testStep->draw(&nWayCanvas, reporter);
// Verify that the SkProxyCanvas reports consitent state
testStep->setAssertMessageFormat(kNWayStateAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &nWayCanvas, &referenceCanvas,
testStep);
// Verify that the indirect canvases report consitent state
testStep->setAssertMessageFormat(kNWayIndirect1StateAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &indirectCanvas1, &referenceCanvas,
testStep);
testStep->setAssertMessageFormat(kNWayIndirect2StateAssertMessageFormat);
AssertCanvasStatesEqual(reporter, &indirectCanvas2, &referenceCanvas,
testStep);
}
/*
* This sub-test verifies that the test step passes when executed
* with SkCanvas and with classes derrived from SkCanvas. It also verifies
* that the all canvas derivatives report the same state as an SkCanvas
* after having executed the test step.
*/
static void TestOverrideStateConsistency(skiatest::Reporter* reporter,
CanvasTestStep* testStep) {
SkBitmap referenceStore;
createBitmap(&referenceStore, SkBitmap::kARGB_8888_Config, 0xFFFFFFFF);
SkDevice referenceDevice(referenceStore);
SkCanvas referenceCanvas(&referenceDevice);
testStep->setAssertMessageFormat(kCanvasDrawAssertMessageFormat);
testStep->draw(&referenceCanvas, reporter);
TestDeferredCanvasStateConsistency(reporter, testStep, referenceCanvas);
// The following test code is disabled because SkProxyCanvas is
// missing a lot of virtual overrides on get* methods, which are used
// to verify canvas state.
// Issue: http://code.google.com/p/skia/issues/detail?id=500
if (false) { // avoid bit rot, suppress warning
TestProxyCanvasStateConsistency(reporter, testStep, referenceCanvas);
}
// The following test code is disabled because SkNWayCanvas does not
// report correct clipping and device bounds information
// Issue: http://code.google.com/p/skia/issues/detail?id=501
if (false) { // avoid bit rot, suppress warning
TestNWayCanvasStateConsistency(reporter, testStep, referenceCanvas);
}
if (false) { // avoid bit rot, suppress warning
test_clipVisitor(reporter, &referenceCanvas);
}
}
static void TestCanvas(skiatest::Reporter* reporter) {
// Init global here because bitmap pixels cannot be alocated during
// static initialization
kTestBitmap = testBitmap();
for (int testStep = 0; testStep < testStepArray().count(); testStep++) {
TestOverrideStateConsistency(reporter, testStepArray()[testStep]);
SkPictureTester::TestPictureFlattenedObjectReuse(reporter,
testStepArray()[testStep], 0);
}
}
#include "TestClassDef.h"
DEFINE_TESTCLASS("Canvas", TestCanvasClass, TestCanvas)
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