tools/skdiff.h - platform/external/skia - Gitiles

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef skdiff_DEFINED
 #define skdiff_DEFINED

 #include "SkBitmap.h"
 #include "SkColor.h"
 #include "SkColorPriv.h"
 #include "SkString.h"
 #include "SkTDArray.h"

 #if SK_BUILD_FOR_WIN32
     #define PATH_DIV_STR "\\"
     #define PATH_DIV_CHAR '\\'
 #else
     #define PATH_DIV_STR "/"
     #define PATH_DIV_CHAR '/'
 #endif

 #define MAX2(a,b) (((b) < (a)) ? (a) : (b))
 #define MAX3(a,b,c) (((b) < (a)) ? MAX2((a), (c)) : MAX2((b), (c)))


 struct DiffResource {
     enum Status {
         /** The resource was specified, exists, read, and decoded. */
         kDecoded_Status,
         /** The resource was specified, exists, read, but could not be decoded. */
         kCouldNotDecode_Status,

         /** The resource was specified, exists, and read. */
         kRead_Status,
         /** The resource was specified, exists, but could not be read. */
         kCouldNotRead_Status,

         /** The resource was specified and exists. */
         kExists_Status,
         /** The resource was specified, but does not exist. */
         kDoesNotExist_Status,

         /** The resource was specified. */
         kSpecified_Status,
         /** The resource was not specified. */
         kUnspecified_Status,

         /** Nothing is yet known about the resource. */
         kUnknown_Status,

         /** NOT A VALID VALUE -- used to set up arrays and to represent an unknown value. */
         kStatusCount
     };
     static char const * const StatusNames[DiffResource::kStatusCount];

     /** Returns the Status with this name.
      *  If there is no Status with this name, returns kStatusCount.
      */
     static Status getStatusByName(const char *name);

     /** Returns a text description of the given Status type. */
     static const char *getStatusDescription(Status status);

     /** Returns true if the Status indicates some kind of failure. */
     static bool isStatusFailed(Status status);

     /** Sets statuses[i] if it is implied by selector, unsets it if not.
      *  Selector may be a comma delimited list of status names, "any", or "failed".
      *  Returns true if the selector was entirely understood, false otherwise.
      */
     static bool getMatchingStatuses(char* selector, bool statuses[kStatusCount]);

     DiffResource() : fFilename(), fFullPath(), fBitmap(), fStatus(kUnknown_Status) { };

     /** If isEmpty() indicates no filename available. */
     SkString fFilename;
     /** If isEmpty() indicates no path available. */
     SkString fFullPath;
     /** If empty() indicates the bitmap could not be created. */
     SkBitmap fBitmap;
     Status fStatus;
 };

 struct DiffRecord {

     // Result of comparison for each pair of files.
     // Listed from "better" to "worse", for sorting of results.
     enum Result {
         kEqualBits_Result,
         kEqualPixels_Result,
         kDifferentPixels_Result,
         kDifferentSizes_Result,
         kCouldNotCompare_Result,
         kUnknown_Result,

         kResultCount  // NOT A VALID VALUE--used to set up arrays. Must be last.
     };
     static char const * const ResultNames[DiffRecord::kResultCount];

     /** Returns the Result with this name.
      *  If there is no Result with this name, returns kResultCount.
      */
     static Result getResultByName(const char *name);

     /** Returns a text description of the given Result type. */
     static const char *getResultDescription(Result result);

     DiffRecord()
         : fBase()
         , fComparison()
         , fDifference()
         , fWhite()
         , fFractionDifference(0)
         , fWeightedFraction(0)
         , fAverageMismatchA(0)
         , fAverageMismatchR(0)
         , fAverageMismatchG(0)
         , fAverageMismatchB(0)
         , fTotalMismatchA(0)
         , fMaxMismatchA(0)
         , fMaxMismatchR(0)
         , fMaxMismatchG(0)
         , fMaxMismatchB(0)
         , fResult(kUnknown_Result) {
     };

     DiffResource fBase;
     DiffResource fComparison;
     DiffResource fDifference;
     DiffResource fWhite;

     /// Arbitrary floating-point metric to be used to sort images from most
     /// to least different from baseline; values of 0 will be omitted from the
     /// summary webpage.
     float fFractionDifference;
     float fWeightedFraction;

     float fAverageMismatchA;
     float fAverageMismatchR;
     float fAverageMismatchG;
     float fAverageMismatchB;

     uint32_t fTotalMismatchA;

     uint32_t fMaxMismatchA;
     uint32_t fMaxMismatchR;
     uint32_t fMaxMismatchG;
     uint32_t fMaxMismatchB;

     /// Which category of diff result.
     Result fResult;
 };

 typedef SkTDArray<DiffRecord*> RecordArray;

 /// A wrapper for any sortProc (comparison routine) which applies a first-order
 /// sort beforehand, and a tiebreaker if the sortProc returns 0.
 template<typename T> static int compare(const void* untyped_lhs, const void* untyped_rhs) {
     const DiffRecord* lhs = *reinterpret_cast<DiffRecord* const *>(untyped_lhs);
     const DiffRecord* rhs = *reinterpret_cast<DiffRecord* const *>(untyped_rhs);

     // First-order sort... these comparisons should be applied before comparing
     // pixel values, no matter what.
     if (lhs->fResult != rhs->fResult) {
         return (lhs->fResult < rhs->fResult) ? 1 : -1;
     }

     // Passed first-order sort, so call the pixel comparison routine.
     int result = T::comparePixels(lhs, rhs);
     if (result != 0) {
         return result;
     }

     // Tiebreaker... if we got to this point, we don't really care
     // which order they are sorted in, but let's at least be consistent.
     return strcmp(lhs->fBase.fFilename.c_str(), rhs->fBase.fFilename.c_str());
 }

 /// Comparison routine for qsort; sorts by fFractionDifference
 /// from largest to smallest.
 class CompareDiffMetrics {
 public:
     static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
         if (lhs->fFractionDifference < rhs->fFractionDifference) {
           return 1;
         }
         if (rhs->fFractionDifference < lhs->fFractionDifference) {
           return -1;
         }
         return 0;
     }
 };

 class CompareDiffWeighted {
 public:
     static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
         if (lhs->fWeightedFraction < rhs->fWeightedFraction) {
             return 1;
         }
         if (lhs->fWeightedFraction > rhs->fWeightedFraction) {
             return -1;
         }
         return 0;
     }
 };

 /// Comparison routine for qsort;  sorts by max(fAverageMismatch{RGB})
 /// from largest to smallest.
 class CompareDiffMeanMismatches {
 public:
     static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
         float leftValue = MAX3(lhs->fAverageMismatchR,
                                lhs->fAverageMismatchG,
                                lhs->fAverageMismatchB);
         float rightValue = MAX3(rhs->fAverageMismatchR,
                                 rhs->fAverageMismatchG,
                                 rhs->fAverageMismatchB);
         if (leftValue < rightValue) {
             return 1;
         }
         if (rightValue < leftValue) {
             return -1;
         }
         return 0;
     }
 };

 /// Comparison routine for qsort;  sorts by max(fMaxMismatch{RGB})
 /// from largest to smallest.
 class CompareDiffMaxMismatches {
 public:
     static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
         uint32_t leftValue = MAX3(lhs->fMaxMismatchR,
                                   lhs->fMaxMismatchG,
                                   lhs->fMaxMismatchB);
         uint32_t rightValue = MAX3(rhs->fMaxMismatchR,
                                    rhs->fMaxMismatchG,
                                    rhs->fMaxMismatchB);
         if (leftValue < rightValue) {
             return 1;
         }
         if (rightValue < leftValue) {
             return -1;
         }

         return CompareDiffMeanMismatches::comparePixels(lhs, rhs);
     }
 };


 /// Parameterized routine to compute the color of a pixel in a difference image.
 typedef SkPMColor (*DiffMetricProc)(SkPMColor, SkPMColor);

 // from gm
 static inline SkPMColor compute_diff_pmcolor(SkPMColor c0, SkPMColor c1) {
     int dr = SkGetPackedR32(c0) - SkGetPackedR32(c1);
     int dg = SkGetPackedG32(c0) - SkGetPackedG32(c1);
     int db = SkGetPackedB32(c0) - SkGetPackedB32(c1);

     return SkPackARGB32(0xFF, SkAbs32(dr), SkAbs32(dg), SkAbs32(db));
 }

 /** When finished, dr->fResult should have some value other than kUnknown_Result.
  *  Expects dr->fWhite.fBitmap and dr->fDifference.fBitmap to have the same bounds as
  *  dr->fBase.fBitmap and have a valid pixelref.
  */
 void compute_diff(DiffRecord* dr, DiffMetricProc diffFunction, const int colorThreshold);

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef skdiff_DEFINED
	#define skdiff_DEFINED

	#include "SkBitmap.h"
	#include "SkColor.h"
	#include "SkColorPriv.h"
	#include "SkString.h"
	#include "SkTDArray.h"

	#if SK_BUILD_FOR_WIN32
	#define PATH_DIV_STR "\\"
	#define PATH_DIV_CHAR '\\'
	#else
	#define PATH_DIV_STR "/"
	#define PATH_DIV_CHAR '/'
	#endif

	#define MAX2(a,b) (((b) < (a)) ? (a) : (b))
	#define MAX3(a,b,c) (((b) < (a)) ? MAX2((a), (c)) : MAX2((b), (c)))


	struct DiffResource {
	enum Status {
	/** The resource was specified, exists, read, and decoded. */
	kDecoded_Status,
	/** The resource was specified, exists, read, but could not be decoded. */
	kCouldNotDecode_Status,

	/** The resource was specified, exists, and read. */
	kRead_Status,
	/** The resource was specified, exists, but could not be read. */
	kCouldNotRead_Status,

	/** The resource was specified and exists. */
	kExists_Status,
	/** The resource was specified, but does not exist. */
	kDoesNotExist_Status,

	/** The resource was specified. */
	kSpecified_Status,
	/** The resource was not specified. */
	kUnspecified_Status,

	/** Nothing is yet known about the resource. */
	kUnknown_Status,

	/** NOT A VALID VALUE -- used to set up arrays and to represent an unknown value. */
	kStatusCount
	};
	static char const * const StatusNames[DiffResource::kStatusCount];

	/** Returns the Status with this name.
	* If there is no Status with this name, returns kStatusCount.
	*/
	static Status getStatusByName(const char *name);

	/** Returns a text description of the given Status type. */
	static const char *getStatusDescription(Status status);

	/** Returns true if the Status indicates some kind of failure. */
	static bool isStatusFailed(Status status);

	/** Sets statuses[i] if it is implied by selector, unsets it if not.
	* Selector may be a comma delimited list of status names, "any", or "failed".
	* Returns true if the selector was entirely understood, false otherwise.
	*/
	static bool getMatchingStatuses(char* selector, bool statuses[kStatusCount]);

	DiffResource() : fFilename(), fFullPath(), fBitmap(), fStatus(kUnknown_Status) { };

	/** If isEmpty() indicates no filename available. */
	SkString fFilename;
	/** If isEmpty() indicates no path available. */
	SkString fFullPath;
	/** If empty() indicates the bitmap could not be created. */
	SkBitmap fBitmap;
	Status fStatus;
	};

	struct DiffRecord {

	// Result of comparison for each pair of files.
	// Listed from "better" to "worse", for sorting of results.
	enum Result {
	kEqualBits_Result,
	kEqualPixels_Result,
	kDifferentPixels_Result,
	kDifferentSizes_Result,
	kCouldNotCompare_Result,
	kUnknown_Result,

	kResultCount // NOT A VALID VALUE--used to set up arrays. Must be last.
	};
	static char const * const ResultNames[DiffRecord::kResultCount];

	/** Returns the Result with this name.
	* If there is no Result with this name, returns kResultCount.
	*/
	static Result getResultByName(const char *name);

	/** Returns a text description of the given Result type. */
	static const char *getResultDescription(Result result);

	DiffRecord()
	: fBase()
	, fComparison()
	, fDifference()
	, fWhite()
	, fFractionDifference(0)
	, fWeightedFraction(0)
	, fAverageMismatchA(0)
	, fAverageMismatchR(0)
	, fAverageMismatchG(0)
	, fAverageMismatchB(0)
	, fTotalMismatchA(0)
	, fMaxMismatchA(0)
	, fMaxMismatchR(0)
	, fMaxMismatchG(0)
	, fMaxMismatchB(0)
	, fResult(kUnknown_Result) {
	};

	DiffResource fBase;
	DiffResource fComparison;
	DiffResource fDifference;
	DiffResource fWhite;

	/// Arbitrary floating-point metric to be used to sort images from most
	/// to least different from baseline; values of 0 will be omitted from the
	/// summary webpage.
	float fFractionDifference;
	float fWeightedFraction;

	float fAverageMismatchA;
	float fAverageMismatchR;
	float fAverageMismatchG;
	float fAverageMismatchB;

	uint32_t fTotalMismatchA;

	uint32_t fMaxMismatchA;
	uint32_t fMaxMismatchR;
	uint32_t fMaxMismatchG;
	uint32_t fMaxMismatchB;

	/// Which category of diff result.
	Result fResult;
	};

	typedef SkTDArray<DiffRecord*> RecordArray;

	/// A wrapper for any sortProc (comparison routine) which applies a first-order
	/// sort beforehand, and a tiebreaker if the sortProc returns 0.
	template<typename T> static int compare(const void* untyped_lhs, const void* untyped_rhs) {
	const DiffRecord* lhs = reinterpret_cast<DiffRecord const *>(untyped_lhs);
	const DiffRecord* rhs = reinterpret_cast<DiffRecord const *>(untyped_rhs);

	// First-order sort... these comparisons should be applied before comparing
	// pixel values, no matter what.
	if (lhs->fResult != rhs->fResult) {
	return (lhs->fResult < rhs->fResult) ? 1 : -1;
	}

	// Passed first-order sort, so call the pixel comparison routine.
	int result = T::comparePixels(lhs, rhs);
	if (result != 0) {
	return result;
	}

	// Tiebreaker... if we got to this point, we don't really care
	// which order they are sorted in, but let's at least be consistent.
	return strcmp(lhs->fBase.fFilename.c_str(), rhs->fBase.fFilename.c_str());
	}

	/// Comparison routine for qsort; sorts by fFractionDifference
	/// from largest to smallest.
	class CompareDiffMetrics {
	public:
	static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
	if (lhs->fFractionDifference < rhs->fFractionDifference) {
	return 1;
	}
	if (rhs->fFractionDifference < lhs->fFractionDifference) {
	return -1;
	}
	return 0;
	}
	};

	class CompareDiffWeighted {
	public:
	static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
	if (lhs->fWeightedFraction < rhs->fWeightedFraction) {
	return 1;
	}
	if (lhs->fWeightedFraction > rhs->fWeightedFraction) {
	return -1;
	}
	return 0;
	}
	};

	/// Comparison routine for qsort; sorts by max(fAverageMismatch{RGB})
	/// from largest to smallest.
	class CompareDiffMeanMismatches {
	public:
	static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
	float leftValue = MAX3(lhs->fAverageMismatchR,
	lhs->fAverageMismatchG,
	lhs->fAverageMismatchB);
	float rightValue = MAX3(rhs->fAverageMismatchR,
	rhs->fAverageMismatchG,
	rhs->fAverageMismatchB);
	if (leftValue < rightValue) {
	return 1;
	}
	if (rightValue < leftValue) {
	return -1;
	}
	return 0;
	}
	};

	/// Comparison routine for qsort; sorts by max(fMaxMismatch{RGB})
	/// from largest to smallest.
	class CompareDiffMaxMismatches {
	public:
	static int comparePixels(const DiffRecord* lhs, const DiffRecord* rhs) {
	uint32_t leftValue = MAX3(lhs->fMaxMismatchR,
	lhs->fMaxMismatchG,
	lhs->fMaxMismatchB);
	uint32_t rightValue = MAX3(rhs->fMaxMismatchR,
	rhs->fMaxMismatchG,
	rhs->fMaxMismatchB);
	if (leftValue < rightValue) {
	return 1;
	}
	if (rightValue < leftValue) {
	return -1;
	}

	return CompareDiffMeanMismatches::comparePixels(lhs, rhs);
	}
	};


	/// Parameterized routine to compute the color of a pixel in a difference image.
	typedef SkPMColor (*DiffMetricProc)(SkPMColor, SkPMColor);

	// from gm
	static inline SkPMColor compute_diff_pmcolor(SkPMColor c0, SkPMColor c1) {
	int dr = SkGetPackedR32(c0) - SkGetPackedR32(c1);
	int dg = SkGetPackedG32(c0) - SkGetPackedG32(c1);
	int db = SkGetPackedB32(c0) - SkGetPackedB32(c1);

	return SkPackARGB32(0xFF, SkAbs32(dr), SkAbs32(dg), SkAbs32(db));
	}

	/** When finished, dr->fResult should have some value other than kUnknown_Result.
	* Expects dr->fWhite.fBitmap and dr->fDifference.fBitmap to have the same bounds as
	* dr->fBase.fBitmap and have a valid pixelref.
	*/
	void compute_diff(DiffRecord* dr, DiffMetricProc diffFunction, const int colorThreshold);

	#endif