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|
/*
* Copyright 2011 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/*
* Code for the "gm" (Golden Master) rendering comparison tool.
*
* If you make changes to this, re-run the self-tests at gm/tests/run.sh
* to make sure they still pass... you may need to change the expected
* results of the self-test.
*/
#include "gm.h"
#include "gm_expectations.h"
#include "system_preferences.h"
#include "SkBitmap.h"
#include "SkBitmapChecksummer.h"
#include "SkColorPriv.h"
#include "SkData.h"
#include "SkDeferredCanvas.h"
#include "SkDevice.h"
#include "SkDrawFilter.h"
#include "SkGPipe.h"
#include "SkGraphics.h"
#include "SkImageDecoder.h"
#include "SkImageEncoder.h"
#include "SkOSFile.h"
#include "SkPicture.h"
#include "SkRefCnt.h"
#include "SkStream.h"
#include "SkTArray.h"
#include "SkTileGridPicture.h"
#include "SamplePipeControllers.h"
#ifdef SK_BUILD_FOR_WIN
// json includes xlocale which generates warning 4530 because we're compiling without
// exceptions; see https://code.google.com/p/skia/issues/detail?id=1067
#pragma warning(push)
#pragma warning(disable : 4530)
#endif
#include "json/value.h"
#ifdef SK_BUILD_FOR_WIN
#pragma warning(pop)
#endif
#if SK_SUPPORT_GPU
#include "GrContextFactory.h"
#include "GrRenderTarget.h"
#include "SkGpuDevice.h"
typedef GrContextFactory::GLContextType GLContextType;
#else
class GrContext;
class GrRenderTarget;
typedef int GLContextType;
#endif
static bool gForceBWtext;
extern bool gSkSuppressFontCachePurgeSpew;
#ifdef SK_SUPPORT_PDF
#include "SkPDFDevice.h"
#include "SkPDFDocument.h"
#endif
// Until we resolve http://code.google.com/p/skia/issues/detail?id=455 ,
// stop writing out XPS-format image baselines in gm.
#undef SK_SUPPORT_XPS
#ifdef SK_SUPPORT_XPS
#include "SkXPSDevice.h"
#endif
#ifdef SK_BUILD_FOR_MAC
#include "SkCGUtils.h"
#define CAN_IMAGE_PDF 1
#else
#define CAN_IMAGE_PDF 0
#endif
// TODO(epoger): We created this ErrorBitfield so that we could record
// multiple error types for the same comparison. But in practice, we
// process its final value in switch() statements, which inherently
// assume that only one error type will be set.
// I think we should probably change this to be an enum, and thus
// constrain ourselves to a single error type per comparison.
typedef int ErrorBitfield;
const static ErrorBitfield ERROR_NONE = 0x00;
const static ErrorBitfield ERROR_NO_GPU_CONTEXT = 0x01;
const static ErrorBitfield ERROR_IMAGE_MISMATCH = 0x02;
// const static ErrorBitfield ERROR_DIMENSION_MISMATCH = 0x04; DEPRECATED in https://codereview.appspot.com/7064047
const static ErrorBitfield ERROR_READING_REFERENCE_IMAGE = 0x08;
const static ErrorBitfield ERROR_WRITING_REFERENCE_IMAGE = 0x10;
using namespace skiagm;
struct FailRec {
SkString fName;
bool fIsPixelError;
FailRec() : fIsPixelError(false) {}
FailRec(const SkString& name) : fName(name), fIsPixelError(false) {}
};
class Iter {
public:
Iter() {
this->reset();
}
void reset() {
fReg = GMRegistry::Head();
}
GM* next() {
if (fReg) {
GMRegistry::Factory fact = fReg->factory();
fReg = fReg->next();
return fact(0);
}
return NULL;
}
static int Count() {
const GMRegistry* reg = GMRegistry::Head();
int count = 0;
while (reg) {
count += 1;
reg = reg->next();
}
return count;
}
private:
const GMRegistry* fReg;
};
enum Backend {
kRaster_Backend,
kGPU_Backend,
kPDF_Backend,
kXPS_Backend,
};
enum BbhType {
kNone_BbhType,
kRTree_BbhType,
kTileGrid_BbhType,
};
enum ConfigFlags {
kNone_ConfigFlag = 0x0,
/* Write GM images if a write path is provided. */
kWrite_ConfigFlag = 0x1,
/* Read reference GM images if a read path is provided. */
kRead_ConfigFlag = 0x2,
kRW_ConfigFlag = (kWrite_ConfigFlag | kRead_ConfigFlag),
};
struct ConfigData {
SkBitmap::Config fConfig;
Backend fBackend;
GLContextType fGLContextType; // GPU backend only
int fSampleCnt; // GPU backend only
ConfigFlags fFlags;
const char* fName;
};
class BWTextDrawFilter : public SkDrawFilter {
public:
virtual bool filter(SkPaint*, Type) SK_OVERRIDE;
};
bool BWTextDrawFilter::filter(SkPaint* p, Type t) {
if (kText_Type == t) {
p->setAntiAlias(false);
}
return true;
}
struct PipeFlagComboData {
const char* name;
uint32_t flags;
};
static PipeFlagComboData gPipeWritingFlagCombos[] = {
{ "", 0 },
{ " cross-process", SkGPipeWriter::kCrossProcess_Flag },
{ " cross-process, shared address", SkGPipeWriter::kCrossProcess_Flag
| SkGPipeWriter::kSharedAddressSpace_Flag }
};
class GMMain {
public:
GMMain() {
// Set default values of member variables, which tool_main()
// may override.
fUseFileHierarchy = false;
fMismatchPath = NULL;
}
SkString make_name(const char shortName[], const char configName[]) {
SkString name;
if (0 == strlen(configName)) {
name.append(shortName);
} else if (fUseFileHierarchy) {
name.appendf("%s%c%s", configName, SkPATH_SEPARATOR, shortName);
} else {
name.appendf("%s_%s", shortName, configName);
}
return name;
}
/* since PNG insists on unpremultiplying our alpha, we take no
precision chances and force all pixels to be 100% opaque,
otherwise on compare we may not get a perfect match.
*/
static void force_all_opaque(const SkBitmap& bitmap) {
SkBitmap::Config config = bitmap.config();
switch (config) {
case SkBitmap::kARGB_8888_Config:
force_all_opaque_8888(bitmap);
break;
case SkBitmap::kRGB_565_Config:
// nothing to do here; 565 bitmaps are inherently opaque
break;
default:
fprintf(stderr, "unsupported bitmap config %d\n", config);
SkDEBUGFAIL("unsupported bitmap config");
}
}
static void force_all_opaque_8888(const SkBitmap& bitmap) {
SkAutoLockPixels lock(bitmap);
for (int y = 0; y < bitmap.height(); y++) {
for (int x = 0; x < bitmap.width(); x++) {
*bitmap.getAddr32(x, y) |= (SK_A32_MASK << SK_A32_SHIFT);
}
}
}
static bool write_bitmap(const SkString& path, const SkBitmap& bitmap) {
// TODO(epoger): Now that we have removed force_all_opaque()
// from this method, we should be able to get rid of the
// transformation to 8888 format also.
SkBitmap copy;
bitmap.copyTo(©, SkBitmap::kARGB_8888_Config);
return SkImageEncoder::EncodeFile(path.c_str(), copy,
SkImageEncoder::kPNG_Type, 100);
}
// Records an error in fFailedTests, if we want to record errors
// of this type.
void RecordError(ErrorBitfield errorType, const SkString& name,
const char renderModeDescriptor []) {
bool isPixelError;
switch (errorType) {
case ERROR_NONE:
return;
case ERROR_READING_REFERENCE_IMAGE:
return;
case ERROR_IMAGE_MISMATCH:
isPixelError = true;
break;
default:
isPixelError = false;
break;
}
FailRec& rec = fFailedTests.push_back(make_name(
name.c_str(), renderModeDescriptor));
rec.fIsPixelError = isPixelError;
}
// List contents of fFailedTests via SkDebug.
void ListErrors() {
for (int i = 0; i < fFailedTests.count(); ++i) {
if (fFailedTests[i].fIsPixelError) {
SkDebugf("\t\t%s pixel_error\n", fFailedTests[i].fName.c_str());
} else {
SkDebugf("\t\t%s\n", fFailedTests[i].fName.c_str());
}
}
}
static bool write_document(const SkString& path,
const SkDynamicMemoryWStream& document) {
SkFILEWStream stream(path.c_str());
SkAutoDataUnref data(document.copyToData());
return stream.writeData(data.get());
}
/**
* Prepare an SkBitmap to render a GM into.
*
* After you've rendered the GM into the SkBitmap, you must call
* complete_bitmap()!
*
* @todo thudson 22 April 2011 - could refactor this to take in
* a factory to generate the context, always call readPixels()
* (logically a noop for rasters, if wasted time), and thus collapse the
* GPU special case and also let this be used for SkPicture testing.
*/
static void setup_bitmap(const ConfigData& gRec, SkISize& size,
SkBitmap* bitmap) {
bitmap->setConfig(gRec.fConfig, size.width(), size.height());
bitmap->allocPixels();
bitmap->eraseColor(SK_ColorTRANSPARENT);
}
/**
* Any finalization steps we need to perform on the SkBitmap after
* we have rendered the GM into it.
*
* It's too bad that we are throwing away alpha channel data
* we could otherwise be examining, but this had always been happening
* before... it was buried within the compare() method at
* https://code.google.com/p/skia/source/browse/trunk/gm/gmmain.cpp?r=7289#305 .
*
* Apparently we need this, at least for bitmaps that are either:
* (a) destined to be written out as PNG files, or
* (b) compared against bitmaps read in from PNG files
* for the reasons described just above the force_all_opaque() method.
*
* Neglecting to do this led to the difficult-to-diagnose
* http://code.google.com/p/skia/issues/detail?id=1079 ('gm generating
* spurious pixel_error messages as of r7258')
*
* TODO(epoger): Come up with a better solution that allows us to
* compare full pixel data, including alpha channel, while still being
* robust in the face of transformations to/from PNG files.
* Options include:
*
* 1. Continue to call force_all_opaque(), but ONLY for bitmaps that
* will be written to, or compared against, PNG files.
* PRO: Preserve/compare alpha channel info for the non-PNG cases
* (comparing different renderModes in-memory)
* CON: The bitmaps (and checksums) for these non-PNG cases would be
* different than those for the PNG-compared cases, and in the
* case of a failed renderMode comparison, how would we write the
* image to disk for examination?
*
* 2. Always compute image checksums from PNG format (either
* directly from the the bytes of a PNG file, or capturing the
* bytes we would have written to disk if we were writing the
* bitmap out as a PNG).
* PRO: I think this would allow us to never force opaque, and to
* the extent that alpha channel data can be preserved in a PNG
* file, we could observe it.
* CON: If we read a bitmap from disk, we need to take its checksum
* from the source PNG (we can't compute it from the bitmap we
* read out of the PNG, because we will have already premultiplied
* the alpha).
* CON: Seems wasteful to convert a bitmap to PNG format just to take
* its checksum. (Although we're wasting lots of effort already
* calling force_all_opaque().)
*
* 3. Make the alpha premultiply/unpremultiply routines 100% consistent,
* so we can transform images back and forth without fear of off-by-one
* errors.
* CON: Math is hard.
*
* 4. Perform a "close enough" comparison of bitmaps (+/- 1 bit in each
* channel), rather than demanding absolute equality.
* CON: Can't do this with checksums.
*/
static void complete_bitmap(SkBitmap* bitmap) {
force_all_opaque(*bitmap);
}
static void installFilter(SkCanvas* canvas) {
if (gForceBWtext) {
canvas->setDrawFilter(new BWTextDrawFilter)->unref();
}
}
static void invokeGM(GM* gm, SkCanvas* canvas, bool isPDF, bool isDeferred) {
SkAutoCanvasRestore acr(canvas, true);
if (!isPDF) {
canvas->concat(gm->getInitialTransform());
}
installFilter(canvas);
gm->setCanvasIsDeferred(isDeferred);
gm->draw(canvas);
canvas->setDrawFilter(NULL);
}
static ErrorBitfield generate_image(GM* gm, const ConfigData& gRec,
GrContext* context,
GrRenderTarget* rt,
SkBitmap* bitmap,
bool deferred) {
SkISize size (gm->getISize());
setup_bitmap(gRec, size, bitmap);
SkAutoTUnref<SkCanvas> canvas;
if (gRec.fBackend == kRaster_Backend) {
SkAutoTUnref<SkDevice> device(new SkDevice(*bitmap));
if (deferred) {
canvas.reset(new SkDeferredCanvas(device));
} else {
canvas.reset(new SkCanvas(device));
}
invokeGM(gm, canvas, false, deferred);
canvas->flush();
}
#if SK_SUPPORT_GPU
else { // GPU
if (NULL == context) {
return ERROR_NO_GPU_CONTEXT;
}
SkAutoTUnref<SkDevice> device(new SkGpuDevice(context, rt));
if (deferred) {
canvas.reset(new SkDeferredCanvas(device));
} else {
canvas.reset(new SkCanvas(device));
}
invokeGM(gm, canvas, false, deferred);
// the device is as large as the current rendertarget, so
// we explicitly only readback the amount we expect (in
// size) overwrite our previous allocation
bitmap->setConfig(SkBitmap::kARGB_8888_Config, size.fWidth,
size.fHeight);
canvas->readPixels(bitmap, 0, 0);
}
#endif
complete_bitmap(bitmap);
return ERROR_NONE;
}
static void generate_image_from_picture(GM* gm, const ConfigData& gRec,
SkPicture* pict, SkBitmap* bitmap,
SkScalar scale = SK_Scalar1) {
SkISize size = gm->getISize();
setup_bitmap(gRec, size, bitmap);
SkCanvas canvas(*bitmap);
installFilter(&canvas);
canvas.scale(scale, scale);
canvas.drawPicture(*pict);
complete_bitmap(bitmap);
}
static void generate_pdf(GM* gm, SkDynamicMemoryWStream& pdf) {
#ifdef SK_SUPPORT_PDF
SkMatrix initialTransform = gm->getInitialTransform();
SkISize pageSize = gm->getISize();
SkPDFDevice* dev = NULL;
if (initialTransform.isIdentity()) {
dev = new SkPDFDevice(pageSize, pageSize, initialTransform);
} else {
SkRect content = SkRect::MakeWH(SkIntToScalar(pageSize.width()),
SkIntToScalar(pageSize.height()));
initialTransform.mapRect(&content);
content.intersect(0, 0, SkIntToScalar(pageSize.width()),
SkIntToScalar(pageSize.height()));
SkISize contentSize =
SkISize::Make(SkScalarRoundToInt(content.width()),
SkScalarRoundToInt(content.height()));
dev = new SkPDFDevice(pageSize, contentSize, initialTransform);
}
SkAutoUnref aur(dev);
SkCanvas c(dev);
invokeGM(gm, &c, true, false);
SkPDFDocument doc;
doc.appendPage(dev);
doc.emitPDF(&pdf);
#endif
}
static void generate_xps(GM* gm, SkDynamicMemoryWStream& xps) {
#ifdef SK_SUPPORT_XPS
SkISize size = gm->getISize();
SkSize trimSize = SkSize::Make(SkIntToScalar(size.width()),
SkIntToScalar(size.height()));
static const SkScalar inchesPerMeter = SkScalarDiv(10000, 254);
static const SkScalar upm = 72 * inchesPerMeter;
SkVector unitsPerMeter = SkPoint::Make(upm, upm);
static const SkScalar ppm = 200 * inchesPerMeter;
SkVector pixelsPerMeter = SkPoint::Make(ppm, ppm);
SkXPSDevice* dev = new SkXPSDevice();
SkAutoUnref aur(dev);
SkCanvas c(dev);
dev->beginPortfolio(&xps);
dev->beginSheet(unitsPerMeter, pixelsPerMeter, trimSize);
invokeGM(gm, &c, false, false);
dev->endSheet();
dev->endPortfolio();
#endif
}
ErrorBitfield write_reference_image(
const ConfigData& gRec, const char writePath [],
const char renderModeDescriptor [], const SkString& name,
SkBitmap& bitmap, SkDynamicMemoryWStream* document) {
SkString path;
bool success = false;
if (gRec.fBackend == kRaster_Backend ||
gRec.fBackend == kGPU_Backend ||
(gRec.fBackend == kPDF_Backend && CAN_IMAGE_PDF)) {
path = make_filename(writePath, renderModeDescriptor, name.c_str(),
"png");
success = write_bitmap(path, bitmap);
}
if (kPDF_Backend == gRec.fBackend) {
path = make_filename(writePath, renderModeDescriptor, name.c_str(),
"pdf");
success = write_document(path, *document);
}
if (kXPS_Backend == gRec.fBackend) {
path = make_filename(writePath, renderModeDescriptor, name.c_str(),
"xps");
success = write_document(path, *document);
}
if (success) {
return ERROR_NONE;
} else {
fprintf(stderr, "FAILED to write %s\n", path.c_str());
RecordError(ERROR_WRITING_REFERENCE_IMAGE, name,
renderModeDescriptor);
return ERROR_WRITING_REFERENCE_IMAGE;
}
}
/**
* Log more detail about the mistmatch between expectedBitmap and
* actualBitmap.
*/
void report_bitmap_diffs(const SkBitmap& expectedBitmap, const SkBitmap& actualBitmap,
const char *testName) {
const int expectedWidth = expectedBitmap.width();
const int expectedHeight = expectedBitmap.height();
const int width = actualBitmap.width();
const int height = actualBitmap.height();
if ((expectedWidth != width) || (expectedHeight != height)) {
SkDebugf("---- %s: dimension mismatch -- expected [%d %d], actual [%d %d]\n",
testName, expectedWidth, expectedHeight, width, height);
return;
}
if ((SkBitmap::kARGB_8888_Config != expectedBitmap.config()) ||
(SkBitmap::kARGB_8888_Config != actualBitmap.config())) {
SkDebugf("---- %s: not computing max per-channel pixel mismatch because non-8888\n",
testName);
return;
}
SkAutoLockPixels alp0(expectedBitmap);
SkAutoLockPixels alp1(actualBitmap);
int errR = 0;
int errG = 0;
int errB = 0;
int errA = 0;
int differingPixels = 0;
for (int y = 0; y < height; ++y) {
const SkPMColor* expectedPixelPtr = expectedBitmap.getAddr32(0, y);
const SkPMColor* actualPixelPtr = actualBitmap.getAddr32(0, y);
for (int x = 0; x < width; ++x) {
SkPMColor expectedPixel = *expectedPixelPtr++;
SkPMColor actualPixel = *actualPixelPtr++;
if (expectedPixel != actualPixel) {
differingPixels++;
errR = SkMax32(errR, SkAbs32((int)SkGetPackedR32(expectedPixel) -
(int)SkGetPackedR32(actualPixel)));
errG = SkMax32(errG, SkAbs32((int)SkGetPackedG32(expectedPixel) -
(int)SkGetPackedG32(actualPixel)));
errB = SkMax32(errB, SkAbs32((int)SkGetPackedB32(expectedPixel) -
(int)SkGetPackedB32(actualPixel)));
errA = SkMax32(errA, SkAbs32((int)SkGetPackedA32(expectedPixel) -
(int)SkGetPackedA32(actualPixel)));
}
}
}
SkDebugf("---- %s: %d (of %d) differing pixels, max per-channel mismatch"
" R=%d G=%d B=%d A=%d\n",
testName, differingPixels, width*height, errR, errG, errB, errA);
}
/**
* Compares actual checksum to expectations.
* Returns ERROR_NONE if they match, or some particular error code otherwise
*
* If fMismatchPath has been set, and there are pixel diffs, then the
* actual bitmap will be written out to a file within fMismatchPath.
*
* @param expectations what expectations to compare actualBitmap against
* @param actualBitmap the image we actually generated
* @param baseNameString name of test without renderModeDescriptor added
* @param renderModeDescriptor e.g., "-rtree", "-deferred"
* @param addToJsonSummary whether to add these results (both actual and
* expected) to the JSON summary
*
* TODO: For now, addToJsonSummary is only set to true within
* compare_test_results_to_stored_expectations(), so results of our
* in-memory comparisons (Rtree vs regular, etc.) are not written to the
* JSON summary. We may wish to change that.
*/
ErrorBitfield compare_to_expectations(Expectations expectations,
const SkBitmap& actualBitmap,
const SkString& baseNameString,
const char renderModeDescriptor[],
bool addToJsonSummary=false) {
ErrorBitfield retval;
Checksum actualChecksum = SkBitmapChecksummer::Compute64(actualBitmap);
SkString completeNameString = baseNameString;
completeNameString.append(renderModeDescriptor);
const char* completeName = completeNameString.c_str();
if (expectations.empty()) {
retval = ERROR_READING_REFERENCE_IMAGE;
} else if (expectations.match(actualChecksum)) {
retval = ERROR_NONE;
} else {
retval = ERROR_IMAGE_MISMATCH;
// Write out the "actuals" for any mismatches, if we have
// been directed to do so.
if (fMismatchPath) {
SkString path =
make_filename(fMismatchPath, renderModeDescriptor,
baseNameString.c_str(), "png");
write_bitmap(path, actualBitmap);
}
// If we have access to a single expected bitmap, log more
// detail about the mismatch.
const SkBitmap *expectedBitmapPtr = expectations.asBitmap();
if (NULL != expectedBitmapPtr) {
report_bitmap_diffs(*expectedBitmapPtr, actualBitmap, completeName);
}
}
RecordError(retval, baseNameString, renderModeDescriptor);
if (addToJsonSummary) {
add_actual_results_to_json_summary(completeName, actualChecksum,
retval,
expectations.ignoreFailure());
add_expected_results_to_json_summary(completeName, expectations);
}
return retval;
}
/**
* Add this result to the appropriate JSON collection of actual results,
* depending on status.
*/
void add_actual_results_to_json_summary(const char testName[],
Checksum actualChecksum,
ErrorBitfield result,
bool ignoreFailure) {
Json::Value actualResults;
actualResults[kJsonKey_ActualResults_AnyStatus_Checksum] =
asJsonValue(actualChecksum);
if (ERROR_NONE == result) {
this->fJsonActualResults_Succeeded[testName] = actualResults;
} else {
if (ignoreFailure) {
// TODO: Once we have added the ability to compare
// actual results against expectations in a JSON file
// (where we can set ignore-failure to either true or
// false), add test cases that exercise ignored
// failures (both for ERROR_READING_REFERENCE_IMAGE
// and ERROR_IMAGE_MISMATCH).
this->fJsonActualResults_FailureIgnored[testName] =
actualResults;
} else {
switch(result) {
case ERROR_READING_REFERENCE_IMAGE:
// TODO: What about the case where there IS an
// expected image checksum, but that gm test
// doesn't actually run? For now, those cases
// will always be ignored, because gm only looks
// at expectations that correspond to gm tests
// that were actually run.
//
// Once we have the ability to express
// expectations as a JSON file, we should fix this
// (and add a test case for which an expectation
// is given but the test is never run).
this->fJsonActualResults_NoComparison[testName] =
actualResults;
break;
case ERROR_IMAGE_MISMATCH:
this->fJsonActualResults_Failed[testName] = actualResults;
break;
default:
fprintf(stderr, "encountered unexpected result %d\n",
result);
SkDEBUGFAIL("encountered unexpected result");
break;
}
}
}
}
/**
* Add this test to the JSON collection of expected results.
*/
void add_expected_results_to_json_summary(const char testName[],
Expectations expectations) {
// For now, we assume that this collection starts out empty and we
// just fill it in as we go; once gm accepts a JSON file as input,
// we'll have to change that.
Json::Value expectedResults;
expectedResults[kJsonKey_ExpectedResults_Checksums] =
expectations.allowedChecksumsAsJson();
expectedResults[kJsonKey_ExpectedResults_IgnoreFailure] =
expectations.ignoreFailure();
this->fJsonExpectedResults[testName] = expectedResults;
}
/**
* Compare actualBitmap to expectations stored in this->fExpectationsSource.
*
* @param gm which test generated the actualBitmap
* @param gRec
* @param writePath unless this is NULL, write out actual images into this
* directory
* @param actualBitmap bitmap generated by this run
* @param pdf
*/
ErrorBitfield compare_test_results_to_stored_expectations(
GM* gm, const ConfigData& gRec, const char writePath[],
SkBitmap& actualBitmap, SkDynamicMemoryWStream* pdf) {
SkString name = make_name(gm->shortName(), gRec.fName);
ErrorBitfield retval = ERROR_NONE;
ExpectationsSource *expectationsSource =
this->fExpectationsSource.get();
if (expectationsSource && (gRec.fFlags & kRead_ConfigFlag)) {
/*
* Get the expected results for this test, as one or more allowed
* checksums. The current implementation of expectationsSource
* get this by computing the checksum of a single PNG file on disk.
*
* TODO(epoger): This relies on the fact that
* force_all_opaque() was called on the bitmap before it
* was written to disk as a PNG in the first place. If
* not, the checksum returned here may not match the
* checksum of actualBitmap, which *has* been run through
* force_all_opaque().
* See comments above complete_bitmap() for more detail.
*/
Expectations expectations = expectationsSource->get(name.c_str());
retval |= compare_to_expectations(expectations, actualBitmap,
name, "", true);
} else {
// If we are running without expectations, we still want to
// record the actual results.
Checksum actualChecksum =
SkBitmapChecksummer::Compute64(actualBitmap);
add_actual_results_to_json_summary(name.c_str(), actualChecksum,
ERROR_READING_REFERENCE_IMAGE,
false);
}
// TODO: Consider moving this into compare_to_expectations(),
// similar to fMismatchPath... for now, we don't do that, because
// we don't want to write out the actual bitmaps for all
// renderModes of all tests! That would be a lot of files.
if (writePath && (gRec.fFlags & kWrite_ConfigFlag)) {
retval |= write_reference_image(gRec, writePath, "",
name, actualBitmap, pdf);
}
return retval;
}
/**
* Compare actualBitmap to referenceBitmap.
*
* @param gm which test generated the bitmap
* @param gRec
* @param renderModeDescriptor
* @param actualBitmap actual bitmap generated by this run
* @param referenceBitmap bitmap we expected to be generated
*/
ErrorBitfield compare_test_results_to_reference_bitmap(
GM* gm, const ConfigData& gRec, const char renderModeDescriptor [],
SkBitmap& actualBitmap, const SkBitmap* referenceBitmap) {
SkASSERT(referenceBitmap);
SkString name = make_name(gm->shortName(), gRec.fName);
Expectations expectations(*referenceBitmap);
return compare_to_expectations(expectations, actualBitmap,
name, renderModeDescriptor);
}
static SkPicture* generate_new_picture(GM* gm, BbhType bbhType, uint32_t recordFlags,
SkScalar scale = SK_Scalar1) {
// Pictures are refcounted so must be on heap
SkPicture* pict;
int width = SkScalarCeilToInt(SkScalarMul(SkIntToScalar(gm->getISize().width()), scale));
int height = SkScalarCeilToInt(SkScalarMul(SkIntToScalar(gm->getISize().height()), scale));
if (kTileGrid_BbhType == bbhType) {
SkTileGridPicture::TileGridInfo info;
info.fMargin.setEmpty();
info.fOffset.setZero();
info.fTileInterval.set(16, 16);
pict = new SkTileGridPicture(width, height, info);
} else {
pict = new SkPicture;
}
if (kNone_BbhType != bbhType) {
recordFlags |= SkPicture::kOptimizeForClippedPlayback_RecordingFlag;
}
SkCanvas* cv = pict->beginRecording(width, height, recordFlags);
cv->scale(scale, scale);
invokeGM(gm, cv, false, false);
pict->endRecording();
return pict;
}
static SkPicture* stream_to_new_picture(const SkPicture& src) {
// To do in-memory commiunications with a stream, we need to:
// * create a dynamic memory stream
// * copy it into a buffer
// * create a read stream from it
// ?!?!
SkDynamicMemoryWStream storage;
src.serialize(&storage);
int streamSize = storage.getOffset();
SkAutoMalloc dstStorage(streamSize);
void* dst = dstStorage.get();
//char* dst = new char [streamSize];
//@todo thudson 22 April 2011 when can we safely delete [] dst?
storage.copyTo(dst);
SkMemoryStream pictReadback(dst, streamSize);
SkPicture* retval = new SkPicture (&pictReadback);
return retval;
}
// Test: draw into a bitmap or pdf.
// Depending on flags, possibly compare to an expected image.
ErrorBitfield test_drawing(GM* gm,
const ConfigData& gRec,
const char writePath [],
GrContext* context,
GrRenderTarget* rt,
SkBitmap* bitmap) {
SkDynamicMemoryWStream document;
if (gRec.fBackend == kRaster_Backend ||
gRec.fBackend == kGPU_Backend) {
// Early exit if we can't generate the image.
ErrorBitfield errors = generate_image(gm, gRec, context, rt, bitmap,
false);
if (ERROR_NONE != errors) {
// TODO: Add a test to exercise what the stdout and
// JSON look like if we get an "early error" while
// trying to generate the image.
return errors;
}
} else if (gRec.fBackend == kPDF_Backend) {
generate_pdf(gm, document);
#if CAN_IMAGE_PDF
SkAutoDataUnref data(document.copyToData());
SkMemoryStream stream(data->data(), data->size());
SkPDFDocumentToBitmap(&stream, bitmap);
#endif
} else if (gRec.fBackend == kXPS_Backend) {
generate_xps(gm, document);
}
return compare_test_results_to_stored_expectations(
gm, gRec, writePath, *bitmap, &document);
}
ErrorBitfield test_deferred_drawing(GM* gm,
const ConfigData& gRec,
const SkBitmap& referenceBitmap,
GrContext* context,
GrRenderTarget* rt) {
SkDynamicMemoryWStream document;
if (gRec.fBackend == kRaster_Backend ||
gRec.fBackend == kGPU_Backend) {
SkBitmap bitmap;
// Early exit if we can't generate the image, but this is
// expected in some cases, so don't report a test failure.
if (!generate_image(gm, gRec, context, rt, &bitmap, true)) {
return ERROR_NONE;
}
return compare_test_results_to_reference_bitmap(
gm, gRec, "-deferred", bitmap, &referenceBitmap);
}
return ERROR_NONE;
}
ErrorBitfield test_pipe_playback(GM* gm,
const ConfigData& gRec,
const SkBitmap& referenceBitmap) {
ErrorBitfield errors = ERROR_NONE;
for (size_t i = 0; i < SK_ARRAY_COUNT(gPipeWritingFlagCombos); ++i) {
SkBitmap bitmap;
SkISize size = gm->getISize();
setup_bitmap(gRec, size, &bitmap);
SkCanvas canvas(bitmap);
PipeController pipeController(&canvas);
SkGPipeWriter writer;
SkCanvas* pipeCanvas = writer.startRecording(
&pipeController, gPipeWritingFlagCombos[i].flags);
invokeGM(gm, pipeCanvas, false, false);
complete_bitmap(&bitmap);
writer.endRecording();
SkString string("-pipe");
string.append(gPipeWritingFlagCombos[i].name);
errors |= compare_test_results_to_reference_bitmap(
gm, gRec, string.c_str(), bitmap, &referenceBitmap);
if (errors != ERROR_NONE) {
break;
}
}
return errors;
}
ErrorBitfield test_tiled_pipe_playback(
GM* gm, const ConfigData& gRec, const SkBitmap& referenceBitmap) {
ErrorBitfield errors = ERROR_NONE;
for (size_t i = 0; i < SK_ARRAY_COUNT(gPipeWritingFlagCombos); ++i) {
SkBitmap bitmap;
SkISize size = gm->getISize();
setup_bitmap(gRec, size, &bitmap);
SkCanvas canvas(bitmap);
TiledPipeController pipeController(bitmap);
SkGPipeWriter writer;
SkCanvas* pipeCanvas = writer.startRecording(
&pipeController, gPipeWritingFlagCombos[i].flags);
invokeGM(gm, pipeCanvas, false, false);
complete_bitmap(&bitmap);
writer.endRecording();
SkString string("-tiled pipe");
string.append(gPipeWritingFlagCombos[i].name);
errors |= compare_test_results_to_reference_bitmap(
gm, gRec, string.c_str(), bitmap, &referenceBitmap);
if (errors != ERROR_NONE) {
break;
}
}
return errors;
}
//
// member variables.
// They are public for now, to allow easier setting by tool_main().
//
bool fUseFileHierarchy;
const char* fMismatchPath;
// information about all failed tests we have encountered so far
SkTArray<FailRec> fFailedTests;
// Where to read expectations (expected image checksums, etc.) from.
// If unset, we don't do comparisons.
SkAutoTUnref<ExpectationsSource> fExpectationsSource;
// JSON summaries that we generate as we go (just for output).
Json::Value fJsonExpectedResults;
Json::Value fJsonActualResults_Failed;
Json::Value fJsonActualResults_FailureIgnored;
Json::Value fJsonActualResults_NoComparison;
Json::Value fJsonActualResults_Succeeded;
}; // end of GMMain class definition
#if SK_SUPPORT_GPU
static const GLContextType kDontCare_GLContextType = GrContextFactory::kNative_GLContextType;
#else
static const GLContextType kDontCare_GLContextType = 0;
#endif
// If the platform does not support writing PNGs of PDFs then there will be no
// reference images to read. However, we can always write the .pdf files
static const ConfigFlags kPDFConfigFlags = CAN_IMAGE_PDF ? kRW_ConfigFlag :
kWrite_ConfigFlag;
static const ConfigData gRec[] = {
{ SkBitmap::kARGB_8888_Config, kRaster_Backend, kDontCare_GLContextType, 0, kRW_ConfigFlag, "8888" },
#if 0 // stop testing this (for now at least) since we want to remove support for it (soon please!!!)
{ SkBitmap::kARGB_4444_Config, kRaster_Backend, kDontCare_GLContextType, 0, kRW_ConfigFlag, "4444" },
#endif
{ SkBitmap::kRGB_565_Config, kRaster_Backend, kDontCare_GLContextType, 0, kRW_ConfigFlag, "565" },
#if defined(SK_SCALAR_IS_FLOAT) && SK_SUPPORT_GPU
{ SkBitmap::kARGB_8888_Config, kGPU_Backend, GrContextFactory::kNative_GLContextType, 0, kRW_ConfigFlag, "gpu" },
#ifndef SK_BUILD_FOR_ANDROID
// currently we don't want to run MSAA tests on Android
{ SkBitmap::kARGB_8888_Config, kGPU_Backend, GrContextFactory::kNative_GLContextType, 16, kRW_ConfigFlag, "msaa16" },
#endif
/* The debug context does not generate images */
{ SkBitmap::kARGB_8888_Config, kGPU_Backend, GrContextFactory::kDebug_GLContextType, 0, kNone_ConfigFlag, "debug" },
#if SK_ANGLE
{ SkBitmap::kARGB_8888_Config, kGPU_Backend, GrContextFactory::kANGLE_GLContextType, 0, kRW_ConfigFlag, "angle" },
{ SkBitmap::kARGB_8888_Config, kGPU_Backend, GrContextFactory::kANGLE_GLContextType, 16, kRW_ConfigFlag, "anglemsaa16" },
#endif // SK_ANGLE
#ifdef SK_MESA
{ SkBitmap::kARGB_8888_Config, kGPU_Backend, GrContextFactory::kMESA_GLContextType, 0, kRW_ConfigFlag, "mesa" },
#endif // SK_MESA
#endif // defined(SK_SCALAR_IS_FLOAT) && SK_SUPPORT_GPU
#ifdef SK_SUPPORT_XPS
/* At present we have no way of comparing XPS files (either natively or by converting to PNG). */
{ SkBitmap::kARGB_8888_Config, kXPS_Backend, kDontCare_GLContextType, 0, kWrite_ConfigFlag, "xps" },
#endif // SK_SUPPORT_XPS
#ifdef SK_SUPPORT_PDF
{ SkBitmap::kARGB_8888_Config, kPDF_Backend, kDontCare_GLContextType, 0, kPDFConfigFlags, "pdf" },
#endif // SK_SUPPORT_PDF
};
static void usage(const char * argv0) {
SkDebugf("%s\n", argv0);
SkDebugf(" [--config ");
for (size_t i = 0; i < SK_ARRAY_COUNT(gRec); ++i) {
if (i > 0) {
SkDebugf("|");
}
SkDebugf(gRec[i].fName);
}
SkDebugf("]:\n run these configurations\n");
SkDebugf(
// Alphabetized ignoring "no" prefix ("readPath", "noreplay", "resourcePath").
// It would probably be better if we allowed both yes-and-no settings for each
// one, e.g.:
// [--replay|--noreplay]: whether to exercise SkPicture replay; default is yes
" [--nodeferred]: skip the deferred rendering test pass\n"
" [--disable-missing-warning]: don't print a message to stderr if\n"
" unable to read a reference image for any tests (NOT default behavior)\n"
" [--enable-missing-warning]: print message to stderr (but don't fail) if\n"
" unable to read a reference image for any tests (default behavior)\n"
" [--exclude-config]: disable this config (may be used multiple times)\n"
" [--forceBWtext]: disable text anti-aliasing\n"
" [--help|-h]: show this help message\n"
" [--hierarchy|--nohierarchy]: whether to use multilevel directory structure\n"
" when reading/writing files; default is no\n"
" [--match <substring>]: only run tests whose name includes this substring\n"
" [--mismatchPath <path>]: write images for tests that failed due to\n"
" pixel mismatched into this directory"
" [--modulo <remainder> <divisor>]: only run tests for which \n"
" testIndex %% divisor == remainder\n"
" [--nopdf]: skip the pdf rendering test pass\n"
" [--nopipe]: Skip SkGPipe replay\n"
" [--readPath|-r <path>]: read reference images from this dir, and report\n"
" any differences between those and the newly generated ones\n"
" [--noreplay]: do not exercise SkPicture replay\n"
" [--resourcePath|-i <path>]: directory that stores image resources\n"
" [--nortree]: Do not exercise the R-Tree variant of SkPicture\n"
" [--noserialize]: do not exercise SkPicture serialization & deserialization\n"
" [--notexturecache]: disable the gpu texture cache\n"
" [--tiledPipe]: Exercise tiled SkGPipe replay\n"
" [--notileGrid]: Do not exercise the tile grid variant of SkPicture\n"
" [--tileGridReplayScales <scales>]: Comma separated list of floating-point scale\n"
" factors to be used for tileGrid playback testing. Default value: 1.0\n"
" [--writeJsonSummary <path>]: write a JSON-formatted result summary to this file\n"
" [--verbose] print diagnostics (e.g. list each config to be tested)\n"
" [--writePath|-w <path>]: write rendered images into this directory\n"
" [--writePicturePath|-wp <path>]: write .skp files into this directory\n"
);
}
static int findConfig(const char config[]) {
for (size_t i = 0; i < SK_ARRAY_COUNT(gRec); i++) {
if (!strcmp(config, gRec[i].fName)) {
return i;
}
}
return -1;
}
static bool skip_name(const SkTDArray<const char*> array, const char name[]) {
if (0 == array.count()) {
// no names, so don't skip anything
return false;
}
for (int i = 0; i < array.count(); ++i) {
if (strstr(name, array[i])) {
// found the name, so don't skip
return false;
}
}
return true;
}
namespace skiagm {
#if SK_SUPPORT_GPU
SkAutoTUnref<GrContext> gGrContext;
/**
* Sets the global GrContext, accessible by individual GMs
*/
static void SetGr(GrContext* grContext) {
SkSafeRef(grContext);
gGrContext.reset(grContext);
}
/**
* Gets the global GrContext, can be called by GM tests.
*/
GrContext* GetGr();
GrContext* GetGr() {
return gGrContext.get();
}
/**
* Sets the global GrContext and then resets it to its previous value at
* destruction.
*/
class AutoResetGr : SkNoncopyable {
public:
AutoResetGr() : fOld(NULL) {}
void set(GrContext* context) {
SkASSERT(NULL == fOld);
fOld = GetGr();
SkSafeRef(fOld);
SetGr(context);
}
~AutoResetGr() { SetGr(fOld); SkSafeUnref(fOld); }
private:
GrContext* fOld;
};
#else
GrContext* GetGr() { return NULL; }
#endif
}
template <typename T> void appendUnique(SkTDArray<T>* array, const T& value) {
int index = array->find(value);
if (index < 0) {
*array->append() = value;
}
}
int tool_main(int argc, char** argv);
int tool_main(int argc, char** argv) {
#if SK_ENABLE_INST_COUNT
gPrintInstCount = true;
#endif
SkGraphics::Init();
// we don't need to see this during a run
gSkSuppressFontCachePurgeSpew = true;
setSystemPreferences();
GMMain gmmain;
const char* writeJsonSummaryPath = NULL;// if non-null, where we write the JSON summary
const char* writePath = NULL; // if non-null, where we write the originals
const char* writePicturePath = NULL; // if non-null, where we write serialized pictures
const char* readPath = NULL; // if non-null, were we read from to compare
const char* resourcePath = NULL;// if non-null, where we read from for image resources
// if true, emit a message when we can't find a reference image to compare
bool notifyMissingReadReference = true;
SkTDArray<const char*> fMatches;
bool doPDF = true;
bool doReplay = true;
bool doPipe = true;
bool doTiledPipe = false;
bool doSerialize = true;
bool doDeferred = true;
bool doRTree = true;
bool doTileGrid = true;
bool doVerbose = false;
#if SK_SUPPORT_GPU
bool disableTextureCache = false;
#endif
SkTDArray<size_t> configs;
SkTDArray<size_t> excludeConfigs;
SkTDArray<SkScalar> tileGridReplayScales;
*tileGridReplayScales.append() = SK_Scalar1; // By default only test at scale 1.0
bool userConfig = false;
int moduloRemainder = -1;
int moduloDivisor = -1;
const char* const commandName = argv[0];
char* const* stop = argv + argc;
for (++argv; argv < stop; ++argv) {
if (strcmp(*argv, "--config") == 0) {
argv++;
if (argv < stop) {
int index = findConfig(*argv);
if (index >= 0) {
appendUnique<size_t>(&configs, index);
userConfig = true;
} else {
SkString str;
str.printf("unrecognized config %s\n", *argv);
SkDebugf(str.c_str());
usage(commandName);
return -1;
}
} else {
SkDebugf("missing arg for --config\n");
usage(commandName);
return -1;
}
} else if (strcmp(*argv, "--exclude-config") == 0) {
argv++;
if (argv < stop) {
int index = findConfig(*argv);
if (index >= 0) {
*excludeConfigs.append() = index;
} else {
SkString str;
str.printf("unrecognized exclude-config %s\n", *argv);
SkDebugf(str.c_str());
usage(commandName);
return -1;
}
} else {
SkDebugf("missing arg for --exclude-config\n");
usage(commandName);
return -1;
}
} else if (strcmp(*argv, "--nodeferred") == 0) {
doDeferred = false;
} else if (strcmp(*argv, "--disable-missing-warning") == 0) {
notifyMissingReadReference = false;
} else if (strcmp(*argv, "--mismatchPath") == 0) {
argv++;
if (argv < stop && **argv) {
gmmain.fMismatchPath = *argv;
}
} else if (strcmp(*argv, "--nortree") == 0) {
doRTree = false;
} else if (strcmp(*argv, "--notileGrid") == 0) {
doTileGrid = false;
} else if (strcmp(*argv, "--tileGridReplayScales") == 0) {
tileGridReplayScales.reset();
++argv;
if (argv < stop) {
char* token = strtok(*argv, ",");
while (NULL != token) {
double val = atof(token);
if (0 < val) {
*tileGridReplayScales.append() = SkDoubleToScalar(val);
}
token = strtok(NULL, ",");
}
}
if (0 == tileGridReplayScales.count()) {
// Should have at least one scale
usage(commandName);
return -1;
}
} else if (strcmp(*argv, "--enable-missing-warning") == 0) {
notifyMissingReadReference = true;
} else if (strcmp(*argv, "--forceBWtext") == 0) {
gForceBWtext = true;
} else if (strcmp(*argv, "--help") == 0 || strcmp(*argv, "-h") == 0) {
usage(commandName);
return -1;
} else if (strcmp(*argv, "--hierarchy") == 0) {
gmmain.fUseFileHierarchy = true;
} else if (strcmp(*argv, "--nohierarchy") == 0) {
gmmain.fUseFileHierarchy = false;
} else if (strcmp(*argv, "--match") == 0) {
++argv;
if (argv < stop && **argv) {
// just record the ptr, no need for a deep copy
*fMatches.append() = *argv;
}
} else if (strcmp(*argv, "--modulo") == 0) {
++argv;
if (argv >= stop) {
continue;
}
moduloRemainder = atoi(*argv);
++argv;
if (argv >= stop) {
continue;
}
moduloDivisor = atoi(*argv);
if (moduloRemainder < 0 || moduloDivisor <= 0 || moduloRemainder >= moduloDivisor) {
SkDebugf("invalid modulo values.");
return -1;
}
} else if (strcmp(*argv, "--nopdf") == 0) {
doPDF = false;
} else if (strcmp(*argv, "--nopipe") == 0) {
doPipe = false;
} else if ((0 == strcmp(*argv, "--readPath")) ||
(0 == strcmp(*argv, "-r"))) {
argv++;
if (argv < stop && **argv) {
readPath = *argv;
}
} else if (strcmp(*argv, "--noreplay") == 0) {
doReplay = false;
} else if ((0 == strcmp(*argv, "--resourcePath")) ||
(0 == strcmp(*argv, "-i"))) {
argv++;
if (argv < stop && **argv) {
resourcePath = *argv;
}
} else if (strcmp(*argv, "--serialize") == 0) {
doSerialize = true;
} else if (strcmp(*argv, "--noserialize") == 0) {
doSerialize = false;
} else if (strcmp(*argv, "--notexturecache") == 0) {
#if SK_SUPPORT_GPU
disableTextureCache = true;
#endif
} else if (strcmp(*argv, "--tiledPipe") == 0) {
doTiledPipe = true;
} else if (!strcmp(*argv, "--verbose") || !strcmp(*argv, "-v")) {
doVerbose = true;
} else if ((0 == strcmp(*argv, "--writePath")) ||
(0 == strcmp(*argv, "-w"))) {
argv++;
if (argv < stop && **argv) {
writePath = *argv;
}
} else if (0 == strcmp(*argv, "--writeJsonSummary")) {
argv++;
if (argv < stop && **argv) {
writeJsonSummaryPath = *argv;
}
} else if ((0 == strcmp(*argv, "--writePicturePath")) ||
(0 == strcmp(*argv, "-wp"))) {
argv++;
if (argv < stop && **argv) {
writePicturePath = *argv;
}
} else {
usage(commandName);
return -1;
}
}
if (argv != stop) {
usage(commandName);
return -1;
}
if (!userConfig) {
// if no config is specified by user, we add them all.
for (size_t i = 0; i < SK_ARRAY_COUNT(gRec); ++i) {
*configs.append() = i;
}
}
// now remove any explicitly excluded configs
for (int i = 0; i < excludeConfigs.count(); ++i) {
int index = configs.find(excludeConfigs[i]);
if (index >= 0) {
configs.remove(index);
// now assert that there was only one copy in configs[]
SkASSERT(configs.find(excludeConfigs[i]) < 0);
}
}
if (doVerbose) {
SkString str;
str.printf("gm: %d configs:", configs.count());
for (int i = 0; i < configs.count(); ++i) {
str.appendf(" %s", gRec[configs[i]].fName);
}
SkDebugf("%s\n", str.c_str());
}
GM::SetResourcePath(resourcePath);
if (readPath) {
if (!sk_exists(readPath)) {
fprintf(stderr, "readPath %s does not exist!\n", readPath);
return -1;
}
if (sk_isdir(readPath)) {
fprintf(stderr, "reading from %s\n", readPath);
gmmain.fExpectationsSource.reset(SkNEW_ARGS(
IndividualImageExpectationsSource,
(readPath, notifyMissingReadReference)));
} else {
fprintf(stderr, "reading expectations from JSON summary file %s\n",
readPath);
gmmain.fExpectationsSource.reset(SkNEW_ARGS(
JsonExpectationsSource, (readPath)));
}
}
if (writePath) {
fprintf(stderr, "writing to %s\n", writePath);
}
if (writePicturePath) {
fprintf(stderr, "writing pictures to %s\n", writePicturePath);
}
if (resourcePath) {
fprintf(stderr, "reading resources from %s\n", resourcePath);
}
if (moduloDivisor <= 0) {
moduloRemainder = -1;
}
if (moduloRemainder < 0 || moduloRemainder >= moduloDivisor) {
moduloRemainder = -1;
}
// Accumulate success of all tests.
int testsRun = 0;
int testsPassed = 0;
int testsFailed = 0;
int testsMissingReferenceImages = 0;
#if SK_SUPPORT_GPU
GrContextFactory* grFactory = new GrContextFactory;
if (disableTextureCache) {
skiagm::GetGr()->setTextureCacheLimits(0, 0);
}
#endif
int gmIndex = -1;
SkString moduloStr;
// If we will be writing out files, prepare subdirectories.
if (writePath) {
if (!sk_mkdir(writePath)) {
return -1;
}
if (gmmain.fUseFileHierarchy) {
for (int i = 0; i < configs.count(); i++) {
ConfigData config = gRec[configs[i]];
SkString subdir;
subdir.appendf("%s%c%s", writePath, SkPATH_SEPARATOR,
config.fName);
if (!sk_mkdir(subdir.c_str())) {
return -1;
}
}
}
}
Iter iter;
GM* gm;
while ((gm = iter.next()) != NULL) {
++gmIndex;
if (moduloRemainder >= 0) {
if ((gmIndex % moduloDivisor) != moduloRemainder) {
continue;
}
moduloStr.printf("[%d.%d] ", gmIndex, moduloDivisor);
}
const char* shortName = gm->shortName();
if (skip_name(fMatches, shortName)) {
SkDELETE(gm);
continue;
}
SkISize size = gm->getISize();
SkDebugf("%sdrawing... %s [%d %d]\n", moduloStr.c_str(), shortName,
size.width(), size.height());
ErrorBitfield testErrors = ERROR_NONE;
uint32_t gmFlags = gm->getFlags();
for (int i = 0; i < configs.count(); i++) {
ConfigData config = gRec[configs[i]];
// Skip any tests that we don't even need to try.
if ((kPDF_Backend == config.fBackend) &&
(!doPDF || (gmFlags & GM::kSkipPDF_Flag)))
{
continue;
}
if ((gmFlags & GM::kSkip565_Flag) &&
(kRaster_Backend == config.fBackend) &&
(SkBitmap::kRGB_565_Config == config.fConfig)) {
continue;
}
// Now we know that we want to run this test and record its
// success or failure.
ErrorBitfield renderErrors = ERROR_NONE;
GrRenderTarget* renderTarget = NULL;
#if SK_SUPPORT_GPU
SkAutoTUnref<GrRenderTarget> rt;
AutoResetGr autogr;
if ((ERROR_NONE == renderErrors) &&
kGPU_Backend == config.fBackend) {
GrContext* gr = grFactory->get(config.fGLContextType);
bool grSuccess = false;
if (gr) {
// create a render target to back the device
GrTextureDesc desc;
desc.fConfig = kSkia8888_GrPixelConfig;
desc.fFlags = kRenderTarget_GrTextureFlagBit;
desc.fWidth = gm->getISize().width();
desc.fHeight = gm->getISize().height();
desc.fSampleCnt = config.fSampleCnt;
GrTexture* tex = gr->createUncachedTexture(desc, NULL, 0);
if (tex) {
rt.reset(tex->asRenderTarget());
rt.get()->ref();
tex->unref();
autogr.set(gr);
renderTarget = rt.get();
grSuccess = NULL != renderTarget;
}
}
if (!grSuccess) {
renderErrors |= ERROR_NO_GPU_CONTEXT;
}
}
#endif
SkBitmap comparisonBitmap;
if (ERROR_NONE == renderErrors) {
renderErrors |= gmmain.test_drawing(gm, config, writePath,
GetGr(),
renderTarget,
&comparisonBitmap);
}
if (doDeferred && !renderErrors &&
(kGPU_Backend == config.fBackend ||
kRaster_Backend == config.fBackend)) {
renderErrors |= gmmain.test_deferred_drawing(gm, config,
comparisonBitmap,
GetGr(),
renderTarget);
}
testErrors |= renderErrors;
}
SkBitmap comparisonBitmap;
const ConfigData compareConfig =
{ SkBitmap::kARGB_8888_Config, kRaster_Backend, kDontCare_GLContextType, 0, kRW_ConfigFlag, "comparison" };
testErrors |= gmmain.generate_image(gm, compareConfig, NULL, NULL, &comparisonBitmap, false);
// run the picture centric GM steps
if (!(gmFlags & GM::kSkipPicture_Flag)) {
ErrorBitfield pictErrors = ERROR_NONE;
//SkAutoTUnref<SkPicture> pict(generate_new_picture(gm));
SkPicture* pict = gmmain.generate_new_picture(gm, kNone_BbhType, 0);
SkAutoUnref aur(pict);
if ((ERROR_NONE == testErrors) && doReplay) {
SkBitmap bitmap;
gmmain.generate_image_from_picture(gm, compareConfig, pict,
&bitmap);
pictErrors |= gmmain.compare_test_results_to_reference_bitmap(
gm, compareConfig, "-replay", bitmap, &comparisonBitmap);
}
if ((ERROR_NONE == testErrors) &&
(ERROR_NONE == pictErrors) &&
doSerialize) {
SkPicture* repict = gmmain.stream_to_new_picture(*pict);
SkAutoUnref aurr(repict);
SkBitmap bitmap;
gmmain.generate_image_from_picture(gm, compareConfig, repict,
&bitmap);
pictErrors |= gmmain.compare_test_results_to_reference_bitmap(
gm, compareConfig, "-serialize", bitmap, &comparisonBitmap);
}
if (writePicturePath) {
const char* pictureSuffix = "skp";
SkString path = make_filename(writePicturePath, "",
gm->shortName(),
pictureSuffix);
SkFILEWStream stream(path.c_str());
pict->serialize(&stream);
}
testErrors |= pictErrors;
}
// TODO: add a test in which the RTree rendering results in a
// different bitmap than the standard rendering. It should
// show up as failed in the JSON summary, and should be listed
// in the stdout also.
if (!(gmFlags & GM::kSkipPicture_Flag) && doRTree) {
SkPicture* pict = gmmain.generate_new_picture(
gm, kRTree_BbhType, SkPicture::kUsePathBoundsForClip_RecordingFlag);
SkAutoUnref aur(pict);
SkBitmap bitmap;
gmmain.generate_image_from_picture(gm, compareConfig, pict,
&bitmap);
testErrors |= gmmain.compare_test_results_to_reference_bitmap(
gm, compareConfig, "-rtree", bitmap, &comparisonBitmap);
}
if (!(gmFlags & GM::kSkipPicture_Flag) && doTileGrid) {
for(int scaleIndex = 0; scaleIndex < tileGridReplayScales.count(); ++scaleIndex) {
SkScalar replayScale = tileGridReplayScales[scaleIndex];
if ((gmFlags & GM::kSkipScaledReplay_Flag) && replayScale != 1)
continue;
// We record with the reciprocal scale to obtain a replay
// result that can be validated against comparisonBitmap.
SkScalar recordScale = SkScalarInvert(replayScale);
SkPicture* pict = gmmain.generate_new_picture(
gm, kTileGrid_BbhType, SkPicture::kUsePathBoundsForClip_RecordingFlag,
recordScale);
SkAutoUnref aur(pict);
SkBitmap bitmap;
gmmain.generate_image_from_picture(gm, compareConfig, pict,
&bitmap, replayScale);
SkString suffix("-tilegrid");
if (SK_Scalar1 != replayScale) {
suffix += "-scale-";
suffix.appendScalar(replayScale);
}
testErrors |= gmmain.compare_test_results_to_reference_bitmap(
gm, compareConfig, suffix.c_str(), bitmap,
&comparisonBitmap);
}
}
// run the pipe centric GM steps
if (!(gmFlags & GM::kSkipPipe_Flag)) {
ErrorBitfield pipeErrors = ERROR_NONE;
if ((ERROR_NONE == testErrors) && doPipe) {
pipeErrors |= gmmain.test_pipe_playback(gm, compareConfig,
comparisonBitmap);
}
if ((ERROR_NONE == testErrors) &&
(ERROR_NONE == pipeErrors) &&
doTiledPipe && !(gmFlags & GM::kSkipTiled_Flag)) {
pipeErrors |= gmmain.test_tiled_pipe_playback(gm, compareConfig,
comparisonBitmap);
}
testErrors |= pipeErrors;
}
// Update overall results.
// We only tabulate the particular error types that we currently
// care about (e.g., missing reference images). Later on, if we
// want to also tabulate other error types, we can do so.
testsRun++;
if (!gmmain.fExpectationsSource.get() ||
(ERROR_READING_REFERENCE_IMAGE & testErrors)) {
testsMissingReferenceImages++;
}
if (ERROR_NONE == testErrors || ERROR_READING_REFERENCE_IMAGE == testErrors) {
testsPassed++;
} else {
testsFailed++;
}
SkDELETE(gm);
}
SkDebugf("Ran %d tests: %d passed, %d failed, %d missing reference images\n",
testsRun, testsPassed, testsFailed, testsMissingReferenceImages);
gmmain.ListErrors();
if (NULL != writeJsonSummaryPath) {
Json::Value actualResults;
actualResults[kJsonKey_ActualResults_Failed] =
gmmain.fJsonActualResults_Failed;
actualResults[kJsonKey_ActualResults_FailureIgnored] =
gmmain.fJsonActualResults_FailureIgnored;
actualResults[kJsonKey_ActualResults_NoComparison] =
gmmain.fJsonActualResults_NoComparison;
actualResults[kJsonKey_ActualResults_Succeeded] =
gmmain.fJsonActualResults_Succeeded;
Json::Value root;
root[kJsonKey_ActualResults] = actualResults;
root[kJsonKey_ExpectedResults] = gmmain.fJsonExpectedResults;
std::string jsonStdString = root.toStyledString();
SkFILEWStream stream(writeJsonSummaryPath);
stream.write(jsonStdString.c_str(), jsonStdString.length());
}
#if SK_SUPPORT_GPU
#if GR_CACHE_STATS
for (int i = 0; i < configs.count(); i++) {
ConfigData config = gRec[configs[i]];
if (kGPU_Backend == config.fBackend) {
GrContext* gr = grFactory->get(config.fGLContextType);
SkDebugf("config: %s %x\n", config.fName, gr);
gr->printCacheStats();
}
}
#endif
delete grFactory;
#endif
SkGraphics::Term();
return (0 == testsFailed) ? 0 : -1;
}
#if !defined(SK_BUILD_FOR_IOS) && !defined(SK_BUILD_FOR_NACL)
int main(int argc, char * const argv[]) {
return tool_main(argc, (char**) argv);
}
#endif
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