src/effects/gradients/SkTwoPointConicalGradient.cpp - Issue 222943002: Pull Gpu shader out of SkTwoPointConicalGradient into own file

Unified Diff: src/effects/gradients/SkTwoPointConicalGradient.cpp

Issue 222943002: Pull Gpu shader out of SkTwoPointConicalGradient into own file (Closed) Base URL: https://skia.googlesource.com/skia.git@master

Patch Set: Gpu Support Check Created 6 years, 9 months ago

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Index: src/effects/gradients/SkTwoPointConicalGradient.cpp

diff --git a/src/effects/gradients/SkTwoPointConicalGradient.cpp b/src/effects/gradients/SkTwoPointConicalGradient.cpp

index 434339cde761c3a71c33800f8b6bee69fa8cd3ae..74a581703c95030b1deb30808d36a6b6cca4a3df 100644

--- a/src/effects/gradients/SkTwoPointConicalGradient.cpp

+++ b/src/effects/gradients/SkTwoPointConicalGradient.cpp

@@ -7,6 +7,8 @@

#include "SkTwoPointConicalGradient.h"

+#include "SkTwoPointConicalGradient_gpu.h"

static int valid_divide(float numer, float denom, float* ratio) {

SkASSERT(ratio);

if (0 == denom) {

@@ -328,356 +330,8 @@ void SkTwoPointConicalGradient::flatten(

buffer.writeScalar(fRadius2);

}

-/////////////////////////////////////////////////////////////////////

#if SK_SUPPORT_GPU

-#include "GrTBackendEffectFactory.h"

-// For brevity

-typedef GrGLUniformManager::UniformHandle UniformHandle;

-class GrGLConical2Gradient : public GrGLGradientEffect {

-public:

- GrGLConical2Gradient(const GrBackendEffectFactory& factory, const GrDrawEffect&);

- virtual ~GrGLConical2Gradient() { }

- virtual void emitCode(GrGLShaderBuilder*,

- const GrDrawEffect&,

- EffectKey,

- const char* outputColor,

- const char* inputColor,

- const TransformedCoordsArray&,

- const TextureSamplerArray&) SK_OVERRIDE;

- virtual void setData(const GrGLUniformManager&, const GrDrawEffect&) SK_OVERRIDE;

- static EffectKey GenKey(const GrDrawEffect&, const GrGLCaps& caps);

-protected:

- UniformHandle fParamUni;

- const char* fVSVaryingName;

- const char* fFSVaryingName;

- bool fIsDegenerate;

- // @{

- /// Values last uploaded as uniforms

- SkScalar fCachedCenter;

- SkScalar fCachedRadius;

- SkScalar fCachedDiffRadius;

- // @}

-private:

- typedef GrGLGradientEffect INHERITED;

-};

-/////////////////////////////////////////////////////////////////////

-class GrConical2Gradient : public GrGradientEffect {

-public:

- static GrEffectRef* Create(GrContext* ctx,

- const SkTwoPointConicalGradient& shader,

- const SkMatrix& matrix,

- SkShader::TileMode tm) {

- AutoEffectUnref effect(SkNEW_ARGS(GrConical2Gradient, (ctx, shader, matrix, tm)));

- return CreateEffectRef(effect);

- }

- virtual ~GrConical2Gradient() { }

- static const char* Name() { return "Two-Point Conical Gradient"; }

- virtual const GrBackendEffectFactory& getFactory() const SK_OVERRIDE {

- return GrTBackendEffectFactory<GrConical2Gradient>::getInstance();

- }

- // The radial gradient parameters can collapse to a linear (instead of quadratic) equation.

- bool isDegenerate() const { return SkScalarAbs(fDiffRadius) == SkScalarAbs(fCenterX1); }

- SkScalar center() const { return fCenterX1; }

- SkScalar diffRadius() const { return fDiffRadius; }

- SkScalar radius() const { return fRadius0; }

- typedef GrGLConical2Gradient GLEffect;

-private:

- virtual bool onIsEqual(const GrEffect& sBase) const SK_OVERRIDE {

- const GrConical2Gradient& s = CastEffect<GrConical2Gradient>(sBase);

- return (INHERITED::onIsEqual(sBase) &&

- this->fCenterX1 == s.fCenterX1 &&

- this->fRadius0 == s.fRadius0 &&

- this->fDiffRadius == s.fDiffRadius);

- }

- GrConical2Gradient(GrContext* ctx,

- const SkTwoPointConicalGradient& shader,

- const SkMatrix& matrix,

- SkShader::TileMode tm)

- : INHERITED(ctx, shader, matrix, tm)

- , fCenterX1(shader.getCenterX1())

- , fRadius0(shader.getStartRadius())

- , fDiffRadius(shader.getDiffRadius()) {

- // We pass the linear part of the quadratic as a varying.

- // float b = -2.0 * (fCenterX1 * x + fRadius0 * fDiffRadius * z)

- fBTransform = this->getCoordTransform();

- SkMatrix& bMatrix = *fBTransform.accessMatrix();

- SkScalar r0dr = SkScalarMul(fRadius0, fDiffRadius);

- bMatrix[SkMatrix::kMScaleX] = -2 * (SkScalarMul(fCenterX1, bMatrix[SkMatrix::kMScaleX]) +

- SkScalarMul(r0dr, bMatrix[SkMatrix::kMPersp0]));

- bMatrix[SkMatrix::kMSkewX] = -2 * (SkScalarMul(fCenterX1, bMatrix[SkMatrix::kMSkewX]) +

- SkScalarMul(r0dr, bMatrix[SkMatrix::kMPersp1]));

- bMatrix[SkMatrix::kMTransX] = -2 * (SkScalarMul(fCenterX1, bMatrix[SkMatrix::kMTransX]) +

- SkScalarMul(r0dr, bMatrix[SkMatrix::kMPersp2]));

- this->addCoordTransform(&fBTransform);

- }

- GR_DECLARE_EFFECT_TEST;

- // @{

- // Cache of values - these can change arbitrarily, EXCEPT

- // we shouldn't change between degenerate and non-degenerate?!

- GrCoordTransform fBTransform;

- SkScalar fCenterX1;

- SkScalar fRadius0;

- SkScalar fDiffRadius;

- // @}

- typedef GrGradientEffect INHERITED;

-};

-GR_DEFINE_EFFECT_TEST(GrConical2Gradient);

-GrEffectRef* GrConical2Gradient::TestCreate(SkRandom* random,

- GrContext* context,

- const GrDrawTargetCaps&,

- GrTexture**) {

- SkPoint center1 = {random->nextUScalar1(), random->nextUScalar1()};

- SkScalar radius1 = random->nextUScalar1();

- SkPoint center2;

- SkScalar radius2;

- do {

- center2.set(random->nextUScalar1(), random->nextUScalar1());

- radius2 = random->nextUScalar1 ();

- // If the circles are identical the factory will give us an empty shader.

- } while (radius1 == radius2 && center1 == center2);

- SkColor colors[kMaxRandomGradientColors];

- SkScalar stopsArray[kMaxRandomGradientColors];

- SkScalar* stops = stopsArray;

- SkShader::TileMode tm;

- int colorCount = RandomGradientParams(random, colors, &stops, &tm);

- SkAutoTUnref<SkShader> shader(SkGradientShader::CreateTwoPointConical(center1, radius1,

- center2, radius2,

- colors, stops, colorCount,

- tm));

- SkPaint paint;

- return shader->asNewEffect(context, paint);

-/////////////////////////////////////////////////////////////////////

-GrGLConical2Gradient::GrGLConical2Gradient(const GrBackendEffectFactory& factory,

- const GrDrawEffect& drawEffect)

- : INHERITED(factory)

- , fVSVaryingName(NULL)

- , fFSVaryingName(NULL)

- , fCachedCenter(SK_ScalarMax)

- , fCachedRadius(-SK_ScalarMax)

- , fCachedDiffRadius(-SK_ScalarMax) {

- const GrConical2Gradient& data = drawEffect.castEffect<GrConical2Gradient>();

- fIsDegenerate = data.isDegenerate();

-void GrGLConical2Gradient::emitCode(GrGLShaderBuilder* builder,

- const GrDrawEffect&,

- EffectKey key,

- const char* outputColor,

- const char* inputColor,

- const TransformedCoordsArray& coords,

- const TextureSamplerArray& samplers) {

- this->emitUniforms(builder, key);

- fParamUni = builder->addUniformArray(GrGLShaderBuilder::kFragment_Visibility,

- kFloat_GrSLType, "Conical2FSParams", 6);

- SkString cName("c");

- SkString ac4Name("ac4");

- SkString dName("d");

- SkString qName("q");

- SkString r0Name("r0");

- SkString r1Name("r1");

- SkString tName("t");

- SkString p0; // 4a

- SkString p1; // 1/a

- SkString p2; // distance between centers

- SkString p3; // start radius

- SkString p4; // start radius squared

- SkString p5; // difference in radii (r1 - r0)

- builder->getUniformVariable(fParamUni).appendArrayAccess(0, &p0);

- builder->getUniformVariable(fParamUni).appendArrayAccess(1, &p1);

- builder->getUniformVariable(fParamUni).appendArrayAccess(2, &p2);

- builder->getUniformVariable(fParamUni).appendArrayAccess(3, &p3);

- builder->getUniformVariable(fParamUni).appendArrayAccess(4, &p4);

- builder->getUniformVariable(fParamUni).appendArrayAccess(5, &p5);

- // We interpolate the linear component in coords[1].

- SkASSERT(coords[0].type() == coords[1].type());

- const char* coords2D;

- SkString bVar;

- if (kVec3f_GrSLType == coords[0].type()) {

- builder->fsCodeAppendf("\tvec3 interpolants = vec3(%s.xy, %s.x) / %s.z;\n",

- coords[0].c_str(), coords[1].c_str(), coords[0].c_str());

- coords2D = "interpolants.xy";

- bVar = "interpolants.z";

- } else {

- coords2D = coords[0].c_str();

- bVar.printf("%s.x", coords[1].c_str());

- }

- // output will default to transparent black (we simply won't write anything

- // else to it if invalid, instead of discarding or returning prematurely)

- builder->fsCodeAppendf("\t%s = vec4(0.0,0.0,0.0,0.0);\n", outputColor);

- // c = (x^2)+(y^2) - params[4]

- builder->fsCodeAppendf("\tfloat %s = dot(%s, %s) - %s;\n",

- cName.c_str(), coords2D, coords2D, p4.c_str());

- // Non-degenerate case (quadratic)

- if (!fIsDegenerate) {

- // ac4 = params[0] * c

- builder->fsCodeAppendf("\tfloat %s = %s * %s;\n", ac4Name.c_str(), p0.c_str(),

- cName.c_str());

- // d = b^2 - ac4

- builder->fsCodeAppendf("\tfloat %s = %s * %s - %s;\n", dName.c_str(),

- bVar.c_str(), bVar.c_str(), ac4Name.c_str());

- // only proceed if discriminant is >= 0

- builder->fsCodeAppendf("\tif (%s >= 0.0) {\n", dName.c_str());

- // intermediate value we'll use to compute the roots

- // q = -0.5 * (b +/- sqrt(d))

- builder->fsCodeAppendf("\t\tfloat %s = -0.5 * (%s + (%s < 0.0 ? -1.0 : 1.0)"

- " * sqrt(%s));\n", qName.c_str(), bVar.c_str(),

- bVar.c_str(), dName.c_str());

- // compute both roots

- // r0 = q * params[1]

- builder->fsCodeAppendf("\t\tfloat %s = %s * %s;\n", r0Name.c_str(),

- qName.c_str(), p1.c_str());

- // r1 = c / q

- builder->fsCodeAppendf("\t\tfloat %s = %s / %s;\n", r1Name.c_str(),

- cName.c_str(), qName.c_str());

- // Note: If there are two roots that both generate radius(t) > 0, the

- // Canvas spec says to choose the larger t.

- // so we'll look at the larger one first:

- builder->fsCodeAppendf("\t\tfloat %s = max(%s, %s);\n", tName.c_str(),

- r0Name.c_str(), r1Name.c_str());

- // if r(t) > 0, then we're done; t will be our x coordinate

- builder->fsCodeAppendf("\t\tif (%s * %s + %s > 0.0) {\n", tName.c_str(),

- p5.c_str(), p3.c_str());

- builder->fsCodeAppend("\t\t");

- this->emitColor(builder, tName.c_str(), key, outputColor, inputColor, samplers);

- // otherwise, if r(t) for the larger root was <= 0, try the other root

- builder->fsCodeAppend("\t\t} else {\n");

- builder->fsCodeAppendf("\t\t\t%s = min(%s, %s);\n", tName.c_str(),

- r0Name.c_str(), r1Name.c_str());

- // if r(t) > 0 for the smaller root, then t will be our x coordinate

- builder->fsCodeAppendf("\t\t\tif (%s * %s + %s > 0.0) {\n",

- tName.c_str(), p5.c_str(), p3.c_str());

- builder->fsCodeAppend("\t\t\t");

- this->emitColor(builder, tName.c_str(), key, outputColor, inputColor, samplers);

- // end if (r(t) > 0) for smaller root

- builder->fsCodeAppend("\t\t\t}\n");

- // end if (r(t) > 0), else, for larger root

- builder->fsCodeAppend("\t\t}\n");

- // end if (discriminant >= 0)

- builder->fsCodeAppend("\t}\n");

- } else {

- // linear case: t = -c/b

- builder->fsCodeAppendf("\tfloat %s = -(%s / %s);\n", tName.c_str(),

- cName.c_str(), bVar.c_str());

- // if r(t) > 0, then t will be the x coordinate

- builder->fsCodeAppendf("\tif (%s * %s + %s > 0.0) {\n", tName.c_str(),

- p5.c_str(), p3.c_str());

- builder->fsCodeAppend("\t");

- this->emitColor(builder, tName.c_str(), key, outputColor, inputColor, samplers);

- builder->fsCodeAppend("\t}\n");

- }

-void GrGLConical2Gradient::setData(const GrGLUniformManager& uman,

- const GrDrawEffect& drawEffect) {

- INHERITED::setData(uman, drawEffect);

- const GrConical2Gradient& data = drawEffect.castEffect<GrConical2Gradient>();

- SkASSERT(data.isDegenerate() == fIsDegenerate);

- SkScalar centerX1 = data.center();

- SkScalar radius0 = data.radius();

- SkScalar diffRadius = data.diffRadius();

- if (fCachedCenter != centerX1 ||

- fCachedRadius != radius0 ||

- fCachedDiffRadius != diffRadius) {

- SkScalar a = SkScalarMul(centerX1, centerX1) - diffRadius * diffRadius;

- // When we're in the degenerate (linear) case, the second

- // value will be INF but the program doesn't read it. (We

- // use the same 6 uniforms even though we don't need them

- // all in the linear case just to keep the code complexity

- // down).

- float values[6] = {

- SkScalarToFloat(a * 4),

- 1.f / (SkScalarToFloat(a)),

- SkScalarToFloat(centerX1),

- SkScalarToFloat(radius0),

- SkScalarToFloat(SkScalarMul(radius0, radius0)),

- SkScalarToFloat(diffRadius)

- };

- uman.set1fv(fParamUni, 6, values);

- fCachedCenter = centerX1;

- fCachedRadius = radius0;

- fCachedDiffRadius = diffRadius;

- }

-GrGLEffect::EffectKey GrGLConical2Gradient::GenKey(const GrDrawEffect& drawEffect,

- const GrGLCaps&) {

- enum {

- kIsDegenerate = 1 << kBaseKeyBitCnt,

- };

- EffectKey key = GenBaseGradientKey(drawEffect);

- if (drawEffect.castEffect<GrConical2Gradient>().isDegenerate()) {

- key |= kIsDegenerate;

- }

- return key;

-/////////////////////////////////////////////////////////////////////

GrEffectRef* SkTwoPointConicalGradient::asNewEffect(GrContext* context, const SkPaint&) const {

SkASSERT(NULL != context);

SkASSERT(fPtsToUnit.isIdentity());

@@ -698,7 +352,7 @@ GrEffectRef* SkTwoPointConicalGradient::asNewEffect(GrContext* context, const Sk

matrix.postConcat(rot);

}

- return GrConical2Gradient::Create(context, *this, matrix, fTileMode);

+ return Gr2PtConicalGradientEffect::Create(context, *this, matrix, fTileMode);

}

#else

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