src/third_party/skia/tools/image_expectations.cpp - cobalt - Git at Google

 /*
  * 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 "SkBitmap.h"
 #include "SkBitmapHasher.h"
 #include "SkData.h"
 #include "SkJSONCPP.h"
 #include "SkOSFile.h"
 #include "SkStream.h"
 #include "SkTypes.h"

 #include "image_expectations.h"

 /*
  * TODO(epoger): Make constant strings consistent instead of mixing hypenated and camel-caps.
  *
  * TODO(epoger): Similar constants are already maintained in 2 other places:
  * gm/gm_json.py and gm/gm_expectations.cpp. We shouldn't add yet a third place.
  * Figure out a way to share the definitions instead.
  *
  * Note that, as of https://codereview.chromium.org/226293002 , the JSON
  * schema used here has started to differ from the one in gm_expectations.cpp .
  * TODO(epoger): Consider getting GM and render_pictures to use the same JSON
  * output module.
  */
 const static char kJsonKey_ActualResults[] = "actual-results";
 const static char kJsonKey_Descriptions[] = "descriptions";
 const static char kJsonKey_ExpectedResults[] = "expected-results";
 const static char kJsonKey_ImageBaseGSUrl[] = "image-base-gs-url";
 const static char kJsonKey_Header[] = "header";
 const static char kJsonKey_Header_Type[] = "type";
 const static char kJsonKey_Header_Revision[] = "revision";
 const static char kJsonKey_Image_ChecksumAlgorithm[] = "checksumAlgorithm";
 const static char kJsonKey_Image_ChecksumValue[] = "checksumValue";
 const static char kJsonKey_Image_ComparisonResult[] = "comparisonResult";
 const static char kJsonKey_Image_Filepath[] = "filepath";
 const static char kJsonKey_Image_IgnoreFailure[] = "ignoreFailure";
 const static char kJsonKey_Source_TiledImages[] = "tiled-images";
 const static char kJsonKey_Source_WholeImage[] = "whole-image";
 // Values (not keys) that are written out by this JSON generator
 const static char kJsonValue_Header_Type[] = "ChecksummedImages";
 const static int kJsonValue_Header_Revision = 1;
 const static char kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5[] = "bitmap-64bitMD5";
 const static char kJsonValue_Image_ComparisonResult_Failed[] = "failed";
 const static char kJsonValue_Image_ComparisonResult_FailureIgnored[] = "failure-ignored";
 const static char kJsonValue_Image_ComparisonResult_NoComparison[] = "no-comparison";
 const static char kJsonValue_Image_ComparisonResult_Succeeded[] = "succeeded";

 namespace sk_tools {

     // ImageDigest class...

     ImageDigest::ImageDigest(const SkBitmap &bitmap) :
         fBitmap(bitmap), fHashValue(0), fComputedHashValue(false) {}

     ImageDigest::ImageDigest(const SkString &hashType, uint64_t hashValue) :
         fBitmap(), fHashValue(hashValue), fComputedHashValue(true) {
         if (!hashType.equals(kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5)) {
             SkDebugf("unsupported hashType '%s'\n", hashType.c_str());
             SkFAIL("unsupported hashType (see above)");
         }
     }

     bool ImageDigest::equals(ImageDigest &other) {
         // TODO(epoger): The current implementation assumes that this
         // and other always have hashType kJsonKey_Hashtype_Bitmap_64bitMD5
         return (this->getHashValue() == other.getHashValue());
     }

     SkString ImageDigest::getHashType() {
         // TODO(epoger): The current implementation assumes that the
         // result digest is always of type kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5 .
         return SkString(kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5);
     }

     uint64_t ImageDigest::getHashValue() {
         if (!this->fComputedHashValue) {
             if (!SkBitmapHasher::ComputeDigest(this->fBitmap, &this->fHashValue)) {
                 SkFAIL("unable to compute image digest");
             }
             this->fComputedHashValue = true;
         }
         return this->fHashValue;
     }

     // BitmapAndDigest class...

     BitmapAndDigest::BitmapAndDigest(const SkBitmap &bitmap) :
         fBitmap(bitmap), fImageDigest(bitmap) {}

     const SkBitmap *BitmapAndDigest::getBitmapPtr() const {return &fBitmap;}

     ImageDigest *BitmapAndDigest::getImageDigestPtr() {return &fImageDigest;}

     // Expectation class...

     // For when we need a valid ImageDigest, but we don't care what it is.
     static const ImageDigest kDummyImageDigest(
         SkString(kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5), 0);

     Expectation::Expectation(bool ignoreFailure) :
         fIsEmpty(true), fIgnoreFailure(ignoreFailure), fImageDigest(kDummyImageDigest) {}

     Expectation::Expectation(const SkString &hashType, uint64_t hashValue, bool ignoreFailure) :
         fIsEmpty(false), fIgnoreFailure(ignoreFailure), fImageDigest(hashType, hashValue) {}

     Expectation::Expectation(const SkBitmap& bitmap, bool ignoreFailure) :
         fIsEmpty(false), fIgnoreFailure(ignoreFailure), fImageDigest(bitmap) {}

     bool Expectation::ignoreFailure() const { return this->fIgnoreFailure; }

     bool Expectation::empty() const { return this->fIsEmpty; }

     bool Expectation::matches(ImageDigest &imageDigest) {
         return !(this->fIsEmpty) && (this->fImageDigest.equals(imageDigest));
     }

     // ImageResultsAndExpectations class...

     bool ImageResultsAndExpectations::readExpectationsFile(const char *jsonPath) {
         if (NULL == jsonPath) {
             SkDebugf("JSON expectations filename not specified\n");
             return false;
         }
         SkFILE* filePtr = sk_fopen(jsonPath, kRead_SkFILE_Flag);
         if (NULL == filePtr) {
             SkDebugf("JSON expectations file '%s' does not exist\n", jsonPath);
             return false;
         }
         size_t size = sk_fgetsize(filePtr);
         if (0 == size) {
             SkDebugf("JSON expectations file '%s' is empty, so no expectations\n", jsonPath);
             sk_fclose(filePtr);
             fExpectedResults.clear();
             return true;
         }
         bool parsedJson = Parse(filePtr, &fExpectedJsonRoot);
         sk_fclose(filePtr);
         if (!parsedJson) {
             SkDebugf("Failed to parse JSON expectations file '%s'\n", jsonPath);
             return false;
         }
         Json::Value header = fExpectedJsonRoot[kJsonKey_Header];
         Json::Value headerType = header[kJsonKey_Header_Type];
         Json::Value headerRevision = header[kJsonKey_Header_Revision];
         if (strcmp(headerType.asCString(), kJsonValue_Header_Type)) {
             SkDebugf("JSON expectations file '%s': expected headerType '%s', found '%s'\n",
                      jsonPath, kJsonValue_Header_Type, headerType.asCString());
             return false;
         }
         if (headerRevision.asInt() != kJsonValue_Header_Revision) {
             SkDebugf("JSON expectations file '%s': expected headerRevision %d, found %d\n",
                      jsonPath, kJsonValue_Header_Revision, headerRevision.asInt());
             return false;
         }
         fExpectedResults = fExpectedJsonRoot[kJsonKey_ExpectedResults];
         return true;
     }

     void ImageResultsAndExpectations::add(const char *sourceName, const char *fileName,
                                           ImageDigest &digest, const int *tileNumber) {
         // Get expectation, if any.
         Expectation expectation = this->getExpectation(sourceName, tileNumber);

         // Fill in info about the actual result.
         Json::Value actualChecksumAlgorithm = digest.getHashType().c_str();
         Json::Value actualChecksumValue = Json::UInt64(digest.getHashValue());
         Json::Value actualImage;
         actualImage[kJsonKey_Image_ChecksumAlgorithm] = actualChecksumAlgorithm;
         actualImage[kJsonKey_Image_ChecksumValue] = actualChecksumValue;
         actualImage[kJsonKey_Image_Filepath] = fileName;

         // Compare against expectedImage to fill in comparisonResult.
         Json::Value comparisonResult;
         if (expectation.empty()) {
             comparisonResult = kJsonValue_Image_ComparisonResult_NoComparison;
         } else if (expectation.matches(digest)) {
             comparisonResult = kJsonValue_Image_ComparisonResult_Succeeded;
         } else if (expectation.ignoreFailure()) {
             comparisonResult = kJsonValue_Image_ComparisonResult_FailureIgnored;
         } else {
             comparisonResult = kJsonValue_Image_ComparisonResult_Failed;
         }
         actualImage[kJsonKey_Image_ComparisonResult] = comparisonResult;

         // Add this actual result to our collection.
         if (NULL == tileNumber) {
             fActualResults[sourceName][kJsonKey_Source_WholeImage] = actualImage;
         } else {
             fActualResults[sourceName][kJsonKey_Source_TiledImages][*tileNumber] = actualImage;
         }
     }

     void ImageResultsAndExpectations::addDescription(const char *key, const char *value) {
         fDescriptions[key] = value;
     }

     void ImageResultsAndExpectations::setImageBaseGSUrl(const char *imageBaseGSUrl) {
         fImageBaseGSUrl = imageBaseGSUrl;
     }

     Expectation ImageResultsAndExpectations::getExpectation(const char *sourceName,
                                                             const int *tileNumber) {
         if (fExpectedResults.isNull()) {
             return Expectation();
         }

         Json::Value expectedImage;
         if (NULL == tileNumber) {
             expectedImage = fExpectedResults[sourceName][kJsonKey_Source_WholeImage];
         } else {
             expectedImage = fExpectedResults[sourceName][kJsonKey_Source_TiledImages][*tileNumber];
         }
         if (expectedImage.isNull()) {
             return Expectation();
         }

         bool ignoreFailure = (expectedImage[kJsonKey_Image_IgnoreFailure] == true);
         return Expectation(SkString(expectedImage[kJsonKey_Image_ChecksumAlgorithm].asCString()),
                            expectedImage[kJsonKey_Image_ChecksumValue].asUInt64(),
                            ignoreFailure);
     }

     void ImageResultsAndExpectations::writeToFile(const char *filename) const {
         Json::Value header;
         header[kJsonKey_Header_Type] = kJsonValue_Header_Type;
         header[kJsonKey_Header_Revision] = kJsonValue_Header_Revision;
         Json::Value root;
         root[kJsonKey_ActualResults] = fActualResults;
         root[kJsonKey_Descriptions] = fDescriptions;
         root[kJsonKey_Header] = header;
         root[kJsonKey_ImageBaseGSUrl] = fImageBaseGSUrl;
         std::string jsonStdString = root.toStyledString();
         SkFILEWStream stream(filename);
         stream.write(jsonStdString.c_str(), jsonStdString.length());
     }

     /*static*/ bool ImageResultsAndExpectations::Parse(SkFILE *filePtr,
                                                        Json::Value *jsonRoot) {
         SkAutoDataUnref dataRef(SkData::NewFromFILE(filePtr));
         if (NULL == dataRef.get()) {
             return false;
         }

         const char *bytes = reinterpret_cast<const char *>(dataRef.get()->data());
         size_t size = dataRef.get()->size();
         Json::Reader reader;
         if (!reader.parse(bytes, bytes+size, *jsonRoot)) {
             return false;
         }

         return true;
     }

 } // namespace sk_tools
	/*
	* 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 "SkBitmap.h"
	#include "SkBitmapHasher.h"
	#include "SkData.h"
	#include "SkJSONCPP.h"
	#include "SkOSFile.h"
	#include "SkStream.h"
	#include "SkTypes.h"

	#include "image_expectations.h"

	/*
	* TODO(epoger): Make constant strings consistent instead of mixing hypenated and camel-caps.
	*
	* TODO(epoger): Similar constants are already maintained in 2 other places:
	* gm/gm_json.py and gm/gm_expectations.cpp. We shouldn't add yet a third place.
	* Figure out a way to share the definitions instead.
	*
	* Note that, as of https://codereview.chromium.org/226293002 , the JSON
	* schema used here has started to differ from the one in gm_expectations.cpp .
	* TODO(epoger): Consider getting GM and render_pictures to use the same JSON
	* output module.
	*/
	const static char kJsonKey_ActualResults[] = "actual-results";
	const static char kJsonKey_Descriptions[] = "descriptions";
	const static char kJsonKey_ExpectedResults[] = "expected-results";
	const static char kJsonKey_ImageBaseGSUrl[] = "image-base-gs-url";
	const static char kJsonKey_Header[] = "header";
	const static char kJsonKey_Header_Type[] = "type";
	const static char kJsonKey_Header_Revision[] = "revision";
	const static char kJsonKey_Image_ChecksumAlgorithm[] = "checksumAlgorithm";
	const static char kJsonKey_Image_ChecksumValue[] = "checksumValue";
	const static char kJsonKey_Image_ComparisonResult[] = "comparisonResult";
	const static char kJsonKey_Image_Filepath[] = "filepath";
	const static char kJsonKey_Image_IgnoreFailure[] = "ignoreFailure";
	const static char kJsonKey_Source_TiledImages[] = "tiled-images";
	const static char kJsonKey_Source_WholeImage[] = "whole-image";
	// Values (not keys) that are written out by this JSON generator
	const static char kJsonValue_Header_Type[] = "ChecksummedImages";
	const static int kJsonValue_Header_Revision = 1;
	const static char kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5[] = "bitmap-64bitMD5";
	const static char kJsonValue_Image_ComparisonResult_Failed[] = "failed";
	const static char kJsonValue_Image_ComparisonResult_FailureIgnored[] = "failure-ignored";
	const static char kJsonValue_Image_ComparisonResult_NoComparison[] = "no-comparison";
	const static char kJsonValue_Image_ComparisonResult_Succeeded[] = "succeeded";

	namespace sk_tools {

	// ImageDigest class...

	ImageDigest::ImageDigest(const SkBitmap &bitmap) :
	fBitmap(bitmap), fHashValue(0), fComputedHashValue(false) {}

	ImageDigest::ImageDigest(const SkString &hashType, uint64_t hashValue) :
	fBitmap(), fHashValue(hashValue), fComputedHashValue(true) {
	if (!hashType.equals(kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5)) {
	SkDebugf("unsupported hashType '%s'\n", hashType.c_str());
	SkFAIL("unsupported hashType (see above)");
	}
	}

	bool ImageDigest::equals(ImageDigest &other) {
	// TODO(epoger): The current implementation assumes that this
	// and other always have hashType kJsonKey_Hashtype_Bitmap_64bitMD5
	return (this->getHashValue() == other.getHashValue());
	}

	SkString ImageDigest::getHashType() {
	// TODO(epoger): The current implementation assumes that the
	// result digest is always of type kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5 .
	return SkString(kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5);
	}

	uint64_t ImageDigest::getHashValue() {
	if (!this->fComputedHashValue) {
	if (!SkBitmapHasher::ComputeDigest(this->fBitmap, &this->fHashValue)) {
	SkFAIL("unable to compute image digest");
	}
	this->fComputedHashValue = true;
	}
	return this->fHashValue;
	}

	// BitmapAndDigest class...

	BitmapAndDigest::BitmapAndDigest(const SkBitmap &bitmap) :
	fBitmap(bitmap), fImageDigest(bitmap) {}

	const SkBitmap *BitmapAndDigest::getBitmapPtr() const {return &fBitmap;}

	ImageDigest *BitmapAndDigest::getImageDigestPtr() {return &fImageDigest;}

	// Expectation class...

	// For when we need a valid ImageDigest, but we don't care what it is.
	static const ImageDigest kDummyImageDigest(
	SkString(kJsonValue_Image_ChecksumAlgorithm_Bitmap64bitMD5), 0);

	Expectation::Expectation(bool ignoreFailure) :
	fIsEmpty(true), fIgnoreFailure(ignoreFailure), fImageDigest(kDummyImageDigest) {}

	Expectation::Expectation(const SkString &hashType, uint64_t hashValue, bool ignoreFailure) :
	fIsEmpty(false), fIgnoreFailure(ignoreFailure), fImageDigest(hashType, hashValue) {}

	Expectation::Expectation(const SkBitmap& bitmap, bool ignoreFailure) :
	fIsEmpty(false), fIgnoreFailure(ignoreFailure), fImageDigest(bitmap) {}

	bool Expectation::ignoreFailure() const { return this->fIgnoreFailure; }

	bool Expectation::empty() const { return this->fIsEmpty; }

	bool Expectation::matches(ImageDigest &imageDigest) {
	return !(this->fIsEmpty) && (this->fImageDigest.equals(imageDigest));
	}

	// ImageResultsAndExpectations class...

	bool ImageResultsAndExpectations::readExpectationsFile(const char *jsonPath) {
	if (NULL == jsonPath) {
	SkDebugf("JSON expectations filename not specified\n");
	return false;
	}
	SkFILE* filePtr = sk_fopen(jsonPath, kRead_SkFILE_Flag);
	if (NULL == filePtr) {
	SkDebugf("JSON expectations file '%s' does not exist\n", jsonPath);
	return false;
	}
	size_t size = sk_fgetsize(filePtr);
	if (0 == size) {
	SkDebugf("JSON expectations file '%s' is empty, so no expectations\n", jsonPath);
	sk_fclose(filePtr);
	fExpectedResults.clear();
	return true;
	}
	bool parsedJson = Parse(filePtr, &fExpectedJsonRoot);
	sk_fclose(filePtr);
	if (!parsedJson) {
	SkDebugf("Failed to parse JSON expectations file '%s'\n", jsonPath);
	return false;
	}
	Json::Value header = fExpectedJsonRoot[kJsonKey_Header];
	Json::Value headerType = header[kJsonKey_Header_Type];
	Json::Value headerRevision = header[kJsonKey_Header_Revision];
	if (strcmp(headerType.asCString(), kJsonValue_Header_Type)) {
	SkDebugf("JSON expectations file '%s': expected headerType '%s', found '%s'\n",
	jsonPath, kJsonValue_Header_Type, headerType.asCString());
	return false;
	}
	if (headerRevision.asInt() != kJsonValue_Header_Revision) {
	SkDebugf("JSON expectations file '%s': expected headerRevision %d, found %d\n",
	jsonPath, kJsonValue_Header_Revision, headerRevision.asInt());
	return false;
	}
	fExpectedResults = fExpectedJsonRoot[kJsonKey_ExpectedResults];
	return true;
	}

	void ImageResultsAndExpectations::add(const char sourceName, const char fileName,
	ImageDigest &digest, const int *tileNumber) {
	// Get expectation, if any.
	Expectation expectation = this->getExpectation(sourceName, tileNumber);

	// Fill in info about the actual result.
	Json::Value actualChecksumAlgorithm = digest.getHashType().c_str();
	Json::Value actualChecksumValue = Json::UInt64(digest.getHashValue());
	Json::Value actualImage;
	actualImage[kJsonKey_Image_ChecksumAlgorithm] = actualChecksumAlgorithm;
	actualImage[kJsonKey_Image_ChecksumValue] = actualChecksumValue;
	actualImage[kJsonKey_Image_Filepath] = fileName;

	// Compare against expectedImage to fill in comparisonResult.
	Json::Value comparisonResult;
	if (expectation.empty()) {
	comparisonResult = kJsonValue_Image_ComparisonResult_NoComparison;
	} else if (expectation.matches(digest)) {
	comparisonResult = kJsonValue_Image_ComparisonResult_Succeeded;
	} else if (expectation.ignoreFailure()) {
	comparisonResult = kJsonValue_Image_ComparisonResult_FailureIgnored;
	} else {
	comparisonResult = kJsonValue_Image_ComparisonResult_Failed;
	}
	actualImage[kJsonKey_Image_ComparisonResult] = comparisonResult;

	// Add this actual result to our collection.
	if (NULL == tileNumber) {
	fActualResults[sourceName][kJsonKey_Source_WholeImage] = actualImage;
	} else {
	fActualResults[sourceName][kJsonKey_Source_TiledImages][*tileNumber] = actualImage;
	}
	}

	void ImageResultsAndExpectations::addDescription(const char key, const char value) {
	fDescriptions[key] = value;
	}

	void ImageResultsAndExpectations::setImageBaseGSUrl(const char *imageBaseGSUrl) {
	fImageBaseGSUrl = imageBaseGSUrl;
	}

	Expectation ImageResultsAndExpectations::getExpectation(const char *sourceName,
	const int *tileNumber) {
	if (fExpectedResults.isNull()) {
	return Expectation();
	}

	Json::Value expectedImage;
	if (NULL == tileNumber) {
	expectedImage = fExpectedResults[sourceName][kJsonKey_Source_WholeImage];
	} else {
	expectedImage = fExpectedResults[sourceName][kJsonKey_Source_TiledImages][*tileNumber];
	}
	if (expectedImage.isNull()) {
	return Expectation();
	}

	bool ignoreFailure = (expectedImage[kJsonKey_Image_IgnoreFailure] == true);
	return Expectation(SkString(expectedImage[kJsonKey_Image_ChecksumAlgorithm].asCString()),
	expectedImage[kJsonKey_Image_ChecksumValue].asUInt64(),
	ignoreFailure);
	}

	void ImageResultsAndExpectations::writeToFile(const char *filename) const {
	Json::Value header;
	header[kJsonKey_Header_Type] = kJsonValue_Header_Type;
	header[kJsonKey_Header_Revision] = kJsonValue_Header_Revision;
	Json::Value root;
	root[kJsonKey_ActualResults] = fActualResults;
	root[kJsonKey_Descriptions] = fDescriptions;
	root[kJsonKey_Header] = header;
	root[kJsonKey_ImageBaseGSUrl] = fImageBaseGSUrl;
	std::string jsonStdString = root.toStyledString();
	SkFILEWStream stream(filename);
	stream.write(jsonStdString.c_str(), jsonStdString.length());
	}

	/static/ bool ImageResultsAndExpectations::Parse(SkFILE *filePtr,
	Json::Value *jsonRoot) {
	SkAutoDataUnref dataRef(SkData::NewFromFILE(filePtr));
	if (NULL == dataRef.get()) {
	return false;
	}

	const char bytes = reinterpret_cast<const char >(dataRef.get()->data());
	size_t size = dataRef.get()->size();
	Json::Reader reader;
	if (!reader.parse(bytes, bytes+size, *jsonRoot)) {
	return false;
	}

	return true;
	}

	} // namespace sk_tools