effects/SkColorMatrix.cpp - platform/external/chromium_org/third_party/skia/src - Git at Google


 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #include "SkColorMatrix.h"
 #include "SkFlattenableBuffers.h"

 #define kRScale     0
 #define kGScale     6
 #define kBScale     12
 #define kAScale     18

 void SkColorMatrix::setIdentity() {
     memset(fMat, 0, sizeof(fMat));
     fMat[kRScale] = fMat[kGScale] = fMat[kBScale] = fMat[kAScale] = SK_Scalar1;
 }

 void SkColorMatrix::setScale(SkScalar rScale, SkScalar gScale, SkScalar bScale,
                              SkScalar aScale) {
     memset(fMat, 0, sizeof(fMat));
     fMat[kRScale] = rScale;
     fMat[kGScale] = gScale;
     fMat[kBScale] = bScale;
     fMat[kAScale] = aScale;
 }

 ///////////////////////////////////////////////////////////////////////////////

 void SkColorMatrix::setRotate(Axis axis, SkScalar degrees) {
     SkScalar S, C;

     S = SkScalarSinCos(SkDegreesToRadians(degrees), &C);

     this->setSinCos(axis, S, C);
 }

 void SkColorMatrix::setSinCos(Axis axis, SkScalar sine, SkScalar cosine) {
     SkASSERT((unsigned)axis < 3);

     static const uint8_t gRotateIndex[] = {
         6, 7, 11, 12,
         0, 10, 2, 12,
         0, 1,  5,  6,
     };
     const uint8_t* index = gRotateIndex + axis * 4;

     this->setIdentity();
     fMat[index[0]] = cosine;
     fMat[index[1]] = sine;
     fMat[index[2]] = -sine;
     fMat[index[3]] = cosine;
 }

 void SkColorMatrix::preRotate(Axis axis, SkScalar degrees) {
     SkColorMatrix tmp;
     tmp.setRotate(axis, degrees);
     this->preConcat(tmp);
 }

 void SkColorMatrix::postRotate(Axis axis, SkScalar degrees) {
     SkColorMatrix tmp;
     tmp.setRotate(axis, degrees);
     this->postConcat(tmp);
 }

 ///////////////////////////////////////////////////////////////////////////////

 void SkColorMatrix::setConcat(const SkColorMatrix& matA,
                               const SkColorMatrix& matB) {
     SkScalar    tmp[20];
     SkScalar*   result = fMat;

     if (&matA == this || &matB == this) {
         result = tmp;
     }

     const SkScalar* a = matA.fMat;
     const SkScalar* b = matB.fMat;

     int index = 0;
     for (int j = 0; j < 20; j += 5) {
         for (int i = 0; i < 4; i++) {
             result[index++] =   SkScalarMul(a[j + 0], b[i + 0]) +
                                 SkScalarMul(a[j + 1], b[i + 5]) +
                                 SkScalarMul(a[j + 2], b[i + 10]) +
                                 SkScalarMul(a[j + 3], b[i + 15]);
         }
         result[index++] =   SkScalarMul(a[j + 0], b[4]) +
                             SkScalarMul(a[j + 1], b[9]) +
                             SkScalarMul(a[j + 2], b[14]) +
                             SkScalarMul(a[j + 3], b[19]) +
                             a[j + 4];
     }

     if (fMat != result) {
         memcpy(fMat, result, sizeof(fMat));
     }
 }

 ///////////////////////////////////////////////////////////////////////////////

 static void setrow(SkScalar row[], SkScalar r, SkScalar g, SkScalar b) {
     row[0] = r;
     row[1] = g;
     row[2] = b;
 }

 static const SkScalar kHueR = SkFloatToScalar(0.213f);
 static const SkScalar kHueG = SkFloatToScalar(0.715f);
 static const SkScalar kHueB = SkFloatToScalar(0.072f);

 void SkColorMatrix::setSaturation(SkScalar sat) {
     memset(fMat, 0, sizeof(fMat));

     const SkScalar R = SkScalarMul(kHueR, SK_Scalar1 - sat);
     const SkScalar G = SkScalarMul(kHueG, SK_Scalar1 - sat);
     const SkScalar B = SkScalarMul(kHueB, SK_Scalar1 - sat);

     setrow(fMat +  0, R + sat, G, B);
     setrow(fMat +  5, R, G + sat, B);
     setrow(fMat + 10, R, G, B + sat);
     fMat[18] = SK_Scalar1;
 }

 static const SkScalar kR2Y = SkFloatToScalar(0.299f);
 static const SkScalar kG2Y = SkFloatToScalar(0.587f);
 static const SkScalar kB2Y = SkFloatToScalar(0.114f);

 static const SkScalar kR2U = SkFloatToScalar(-0.16874f);
 static const SkScalar kG2U = SkFloatToScalar(-0.33126f);
 static const SkScalar kB2U = SkFloatToScalar(0.5f);

 static const SkScalar kR2V = SkFloatToScalar(0.5f);
 static const SkScalar kG2V = SkFloatToScalar(-0.41869f);
 static const SkScalar kB2V = SkFloatToScalar(-0.08131f);

 void SkColorMatrix::setRGB2YUV() {
     memset(fMat, 0, sizeof(fMat));

     setrow(fMat +  0, kR2Y, kG2Y, kB2Y);
     setrow(fMat +  5, kR2U, kG2U, kB2U);
     setrow(fMat + 10, kR2V, kG2V, kB2V);
     fMat[18] = SK_Scalar1;
 }

 static const SkScalar kV2R = SkFloatToScalar(1.402f);
 static const SkScalar kU2G = SkFloatToScalar(-0.34414f);
 static const SkScalar kV2G = SkFloatToScalar(-0.71414f);
 static const SkScalar kU2B = SkFloatToScalar(1.772f);

 void SkColorMatrix::setYUV2RGB() {
     memset(fMat, 0, sizeof(fMat));

     setrow(fMat +  0, SK_Scalar1, 0, kV2R);
     setrow(fMat +  5, SK_Scalar1, kU2G, kV2G);
     setrow(fMat + 10, SK_Scalar1, kU2B, 0);
     fMat[18] = SK_Scalar1;
 }

	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#include "SkColorMatrix.h"
	#include "SkFlattenableBuffers.h"

	#define kRScale 0
	#define kGScale 6
	#define kBScale 12
	#define kAScale 18

	void SkColorMatrix::setIdentity() {
	memset(fMat, 0, sizeof(fMat));
	fMat[kRScale] = fMat[kGScale] = fMat[kBScale] = fMat[kAScale] = SK_Scalar1;
	}

	void SkColorMatrix::setScale(SkScalar rScale, SkScalar gScale, SkScalar bScale,
	SkScalar aScale) {
	memset(fMat, 0, sizeof(fMat));
	fMat[kRScale] = rScale;
	fMat[kGScale] = gScale;
	fMat[kBScale] = bScale;
	fMat[kAScale] = aScale;
	}

	///////////////////////////////////////////////////////////////////////////////

	void SkColorMatrix::setRotate(Axis axis, SkScalar degrees) {
	SkScalar S, C;

	S = SkScalarSinCos(SkDegreesToRadians(degrees), &C);

	this->setSinCos(axis, S, C);
	}

	void SkColorMatrix::setSinCos(Axis axis, SkScalar sine, SkScalar cosine) {
	SkASSERT((unsigned)axis < 3);

	static const uint8_t gRotateIndex[] = {
	6, 7, 11, 12,
	0, 10, 2, 12,
	0, 1, 5, 6,
	};
	const uint8_t* index = gRotateIndex + axis * 4;

	this->setIdentity();
	fMat[index[0]] = cosine;
	fMat[index[1]] = sine;
	fMat[index[2]] = -sine;
	fMat[index[3]] = cosine;
	}

	void SkColorMatrix::preRotate(Axis axis, SkScalar degrees) {
	SkColorMatrix tmp;
	tmp.setRotate(axis, degrees);
	this->preConcat(tmp);
	}

	void SkColorMatrix::postRotate(Axis axis, SkScalar degrees) {
	SkColorMatrix tmp;
	tmp.setRotate(axis, degrees);
	this->postConcat(tmp);
	}

	///////////////////////////////////////////////////////////////////////////////

	void SkColorMatrix::setConcat(const SkColorMatrix& matA,
	const SkColorMatrix& matB) {
	SkScalar tmp[20];
	SkScalar* result = fMat;

	if (&matA == this \|\| &matB == this) {
	result = tmp;
	}

	const SkScalar* a = matA.fMat;
	const SkScalar* b = matB.fMat;

	int index = 0;
	for (int j = 0; j < 20; j += 5) {
	for (int i = 0; i < 4; i++) {
	result[index++] = SkScalarMul(a[j + 0], b[i + 0]) +
	SkScalarMul(a[j + 1], b[i + 5]) +
	SkScalarMul(a[j + 2], b[i + 10]) +
	SkScalarMul(a[j + 3], b[i + 15]);
	}
	result[index++] = SkScalarMul(a[j + 0], b[4]) +
	SkScalarMul(a[j + 1], b[9]) +
	SkScalarMul(a[j + 2], b[14]) +
	SkScalarMul(a[j + 3], b[19]) +
	a[j + 4];
	}

	if (fMat != result) {
	memcpy(fMat, result, sizeof(fMat));
	}
	}

	///////////////////////////////////////////////////////////////////////////////

	static void setrow(SkScalar row[], SkScalar r, SkScalar g, SkScalar b) {
	row[0] = r;
	row[1] = g;
	row[2] = b;
	}

	static const SkScalar kHueR = SkFloatToScalar(0.213f);
	static const SkScalar kHueG = SkFloatToScalar(0.715f);
	static const SkScalar kHueB = SkFloatToScalar(0.072f);

	void SkColorMatrix::setSaturation(SkScalar sat) {
	memset(fMat, 0, sizeof(fMat));

	const SkScalar R = SkScalarMul(kHueR, SK_Scalar1 - sat);
	const SkScalar G = SkScalarMul(kHueG, SK_Scalar1 - sat);
	const SkScalar B = SkScalarMul(kHueB, SK_Scalar1 - sat);

	setrow(fMat + 0, R + sat, G, B);
	setrow(fMat + 5, R, G + sat, B);
	setrow(fMat + 10, R, G, B + sat);
	fMat[18] = SK_Scalar1;
	}

	static const SkScalar kR2Y = SkFloatToScalar(0.299f);
	static const SkScalar kG2Y = SkFloatToScalar(0.587f);
	static const SkScalar kB2Y = SkFloatToScalar(0.114f);

	static const SkScalar kR2U = SkFloatToScalar(-0.16874f);
	static const SkScalar kG2U = SkFloatToScalar(-0.33126f);
	static const SkScalar kB2U = SkFloatToScalar(0.5f);

	static const SkScalar kR2V = SkFloatToScalar(0.5f);
	static const SkScalar kG2V = SkFloatToScalar(-0.41869f);
	static const SkScalar kB2V = SkFloatToScalar(-0.08131f);

	void SkColorMatrix::setRGB2YUV() {
	memset(fMat, 0, sizeof(fMat));

	setrow(fMat + 0, kR2Y, kG2Y, kB2Y);
	setrow(fMat + 5, kR2U, kG2U, kB2U);
	setrow(fMat + 10, kR2V, kG2V, kB2V);
	fMat[18] = SK_Scalar1;
	}

	static const SkScalar kV2R = SkFloatToScalar(1.402f);
	static const SkScalar kU2G = SkFloatToScalar(-0.34414f);
	static const SkScalar kV2G = SkFloatToScalar(-0.71414f);
	static const SkScalar kU2B = SkFloatToScalar(1.772f);

	void SkColorMatrix::setYUV2RGB() {
	memset(fMat, 0, sizeof(fMat));

	setrow(fMat + 0, SK_Scalar1, 0, kV2R);
	setrow(fMat + 5, SK_Scalar1, kU2G, kV2G);
	setrow(fMat + 10, SK_Scalar1, kU2B, 0);
	fMat[18] = SK_Scalar1;
	}