Blame - src/shaders/gradients/SkLinearGradient.cpp - platform/external/skia

2012-07-26 20:04:23 +0000

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/*

*

* Use of this source code is governed by a BSD-style license that can be

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* found in the LICENSE file.

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*/

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fmalita

2016-02-22 09:12:33 -0800

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#include "Sk4fLinearGradient.h"

Matt Sarett

6cc6ae75

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#include "SkColorSpaceXformer.h"

rileya@google.com

2012-07-26 20:04:23 +0000

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#include "SkLinearGradient.h"

bungeman

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#include "SkRefCnt.h"

rileya@google.com

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fmalita

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// define to test the 4f gradient path

fmalita

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// #define FORCE_4F_CONTEXT

fmalita

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reed

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static const float kInv255Float = 1.0f / 255;

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rileya@google.com

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static inline int repeat_8bits(int x) {

return x & 0xFF;

}

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static inline int mirror_8bits(int x) {

rileya@google.com

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if (x & 256) {

x = ~x;

}

return x & 255;

rileya@google.com

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}

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mtklein

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static SkMatrix pts_to_unit_matrix(const SkPoint pts[2]) {

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SkVector vec = pts[1] - pts[0];

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SkScalar mag = vec.length();

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SkScalar inv = mag ? SkScalarInvert(mag) : 0;

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vec.scale(inv);

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SkMatrix matrix;

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matrix.setSinCos(-vec.fY, vec.fX, pts[0].fX, pts[0].fY);

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matrix.postTranslate(-pts[0].fX, -pts[0].fY);

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matrix.postScale(inv, inv);

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return matrix;

rileya@google.com

2012-07-26 20:04:23 +0000

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}

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Florin Malita

2017-05-25 10:38:07 -0400

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static bool use_4f_context(const SkShaderBase::ContextRec& rec, uint32_t flags) {

fmalita

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#ifdef FORCE_4F_CONTEXT

fmalita

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return true;

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#else

Florin Malita

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return rec.fPreferredDstType == SkShaderBase::ContextRec::kPM4f_DstType

fmalita

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|| SkToBool(flags & SkLinearGradient::kForce4fContext_PrivateFlag);

fmalita

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#endif

}

rileya@google.com

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

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reed

addf2ed

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SkLinearGradient::SkLinearGradient(const SkPoint pts[2], const Descriptor& desc)

mtklein

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: SkGradientShaderBase(desc, pts_to_unit_matrix(pts))

rileya@google.com

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, fStart(pts[0])

mtklein

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, fEnd(pts[1]) {

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}

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reed

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sk_sp<SkFlattenable> SkLinearGradient::CreateProc(SkReadBuffer& buffer) {

reed

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DescriptorScope desc;

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if (!desc.unflatten(buffer)) {

halcanary

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return nullptr;

reed

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}

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SkPoint pts[2];

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pts[0] = buffer.readPoint();

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pts[1] = buffer.readPoint();

brianosman

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return SkGradientShader::MakeLinear(pts, desc.fColors, std::move(desc.fColorSpace), desc.fPos,

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desc.fCount, desc.fTileMode, desc.fGradFlags,

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desc.fLocalMatrix);

reed

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}

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commit-bot@chromium.org

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void SkLinearGradient::flatten(SkWriteBuffer& buffer) const {

rileya@google.com

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this->INHERITED::flatten(buffer);

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buffer.writePoint(fStart);

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buffer.writePoint(fEnd);

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}

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Florin Malita

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SkShaderBase::Context* SkLinearGradient::onMakeContext(

Herb Derby

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const ContextRec& rec, SkArenaAlloc* alloc) const

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{

fmalita

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return use_4f_context(rec, fGradFlags)

Herb Derby

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? CheckedMakeContext<LinearGradient4fContext>(alloc, *this, rec)

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: CheckedMakeContext< LinearGradientContext>(alloc, *this, rec);

commit-bot@chromium.org

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}

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Mike Klein

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bool SkLinearGradient::adjustMatrixAndAppendStages(SkArenaAlloc* alloc,

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SkMatrix* matrix,

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SkRasterPipeline* p) const {

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*matrix = SkMatrix::Concat(fPtsToUnit, *matrix);

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// If the gradient is less than a quarter of a pixel, this falls into the

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// subpixel gradient code handled on a different path.

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SkVector dx = matrix->mapVector(1, 0);

Mike Klein

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if (dx.fX >= 4) {

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return false;

Herb Derby

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}

Florin Malita

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return true;

}

Matt Sarett

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sk_sp<SkShader> SkLinearGradient::onMakeColorSpace(SkColorSpaceXformer* xformer) const {

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SkPoint pts[2] = { fStart, fEnd };

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SkSTArray<8, SkColor> xformedColors(fColorCount);

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xformer->apply(xformedColors.begin(), fOrigColors, fColorCount);

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return SkGradientShader::MakeLinear(pts, xformedColors.begin(), fOrigPos, fColorCount,

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fTileMode, fGradFlags, &this->getLocalMatrix());

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}

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reed

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// This swizzles SkColor into the same component order as SkPMColor, but does not actually

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// "pre" multiply the color components.

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//

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// This allows us to map directly to Sk4f, and eventually scale down to bytes to output a

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// SkPMColor from the floats, without having to swizzle each time.

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//

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static uint32_t SkSwizzle_Color_to_PMColor(SkColor c) {

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return SkPackARGB32NoCheck(SkColorGetA(c), SkColorGetR(c), SkColorGetG(c), SkColorGetB(c));

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}

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commit-bot@chromium.org

2014-04-23 19:10:51 +0000

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SkLinearGradient::LinearGradientContext::LinearGradientContext(

reed

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const SkLinearGradient& shader, const ContextRec& ctx)

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: INHERITED(shader, ctx)

commit-bot@chromium.org

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{

reed

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// setup for Sk4f

fmalita

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const int count = shader.fColorCount;

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SkASSERT(count > 1);

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reed

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fRecs.setCount(count);

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Rec* rec = fRecs.begin();

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if (shader.fOrigPos) {

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rec[0].fPos = 0;

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SkDEBUGCODE(rec[0].fPosScale = SK_FloatNaN;) // should never get used

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for (int i = 1; i < count; ++i) {

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rec[i].fPos = SkTPin(shader.fOrigPos[i], rec[i - 1].fPos, 1.0f);

lsalzman

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float diff = rec[i].fPos - rec[i - 1].fPos;

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if (diff > 0) {

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rec[i].fPosScale = 1.0f / diff;

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} else {

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rec[i].fPosScale = 0;

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}

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}

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} else {

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// no pos specified, so we compute evenly spaced values

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const float scale = float(count - 1);

fmalita

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const float invScale = 1.0f / scale;

reed

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for (int i = 0; i < count; ++i) {

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rec[i].fPos = i * invScale;

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rec[i].fPosScale = scale;

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}

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}

fmalita

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rec[count - 1].fPos = 1; // overwrite the last value just to be sure we end at 1.0

reed

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fApplyAlphaAfterInterp = true;

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if ((shader.getGradFlags() & SkGradientShader::kInterpolateColorsInPremul_Flag) ||

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shader.colorsAreOpaque())

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{

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fApplyAlphaAfterInterp = false;

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}

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if (fApplyAlphaAfterInterp) {

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// Our fColor values are in PMColor order, but are still unpremultiplied, allowing us to

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// interpolate in unpremultiplied space first, and then scale by alpha right before we

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// convert to SkPMColor bytes.

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const float paintAlpha = ctx.fPaint->getAlpha() * kInv255Float;

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const Sk4f scale(1, 1, 1, paintAlpha);

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for (int i = 0; i < count; ++i) {

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uint32_t c = SkSwizzle_Color_to_PMColor(shader.fOrigColors[i]);

mtklein

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rec[i].fColor = SkNx_cast<float>(Sk4b::Load(&c)) * scale;

reed

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if (i > 0) {

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SkASSERT(rec[i - 1].fPos <= rec[i].fPos);

}

}

} else {

// Our fColor values are premultiplied, so converting to SkPMColor is just a matter

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// of converting the floats down to bytes.

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unsigned alphaScale = ctx.fPaint->getAlpha() + (ctx.fPaint->getAlpha() >> 7);

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for (int i = 0; i < count; ++i) {

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SkPMColor pmc = SkPreMultiplyColor(shader.fOrigColors[i]);

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pmc = SkAlphaMulQ(pmc, alphaScale);

mtklein

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rec[i].fColor = SkNx_cast<float>(Sk4b::Load(&pmc));

reed

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if (i > 0) {

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SkASSERT(rec[i - 1].fPos <= rec[i].fPos);

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}

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}

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}

rileya@google.com

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}

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#define NO_CHECK_ITER \

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do { \

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unsigned fi = SkGradFixedToFixed(fx) >> SkGradientShaderBase::kCache32Shift; \

rileya@google.com

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SkASSERT(fi <= 0xFF); \

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fx += dx; \

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*dstC++ = cache[toggle + fi]; \

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toggle = next_dither_toggle(toggle); \

rileya@google.com

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} while (0)

namespace {

reed

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typedef void (*LinearShadeProc)(TileProc proc, SkGradFixed dx, SkGradFixed fx,

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SkPMColor* dstC, const SkPMColor* cache,

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int toggle, int count);

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rileya@google.com

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// Linear interpolation (lerp) is unnecessary if there are no sharp

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// discontinuities in the gradient - which must be true if there are

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// only 2 colors - but it's cheap.

reed

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void shadeSpan_linear_vertical_lerp(TileProc proc, SkGradFixed dx, SkGradFixed fx,

rileya@google.com

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SkPMColor* SK_RESTRICT dstC,

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const SkPMColor* SK_RESTRICT cache,

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int toggle, int count) {

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// We're a vertical gradient, so no change in a span.

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// If colors change sharply across the gradient, dithering is

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// insufficient (it subsamples the color space) and we need to lerp.

reed

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unsigned fullIndex = proc(SkGradFixedToFixed(fx));

reed@google.com

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unsigned fi = fullIndex >> SkGradientShaderBase::kCache32Shift;

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unsigned remainder = fullIndex & ((1 << SkGradientShaderBase::kCache32Shift) - 1);

skia.committer@gmail.com

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2013-02-04 12:57:42 +0000

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reed@google.com

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int index0 = fi + toggle;

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int index1 = index0;

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if (fi < SkGradientShaderBase::kCache32Count - 1) {

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index1 += 1;

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}

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SkPMColor lerp = SkFastFourByteInterp(cache[index1], cache[index0], remainder);

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index0 ^= SkGradientShaderBase::kDitherStride32;

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index1 ^= SkGradientShaderBase::kDitherStride32;

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SkPMColor dlerp = SkFastFourByteInterp(cache[index1], cache[index0], remainder);

rileya@google.com

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sk_memset32_dither(dstC, lerp, dlerp, count);

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}

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reed

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void shadeSpan_linear_clamp(TileProc proc, SkGradFixed dx, SkGradFixed fx,

rileya@google.com

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SkPMColor* SK_RESTRICT dstC,

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const SkPMColor* SK_RESTRICT cache,

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int toggle, int count) {

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SkClampRange range;

reed@google.com

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range.init(fx, dx, count, 0, SkGradientShaderBase::kCache32Count - 1);

reed

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range.validate(count);

rileya@google.com

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if ((count = range.fCount0) > 0) {

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sk_memset32_dither(dstC,

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cache[toggle + range.fV0],

reed@google.com

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cache[next_dither_toggle(toggle) + range.fV0],

rileya@google.com

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count);

dstC += count;

}

if ((count = range.fCount1) > 0) {

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int unroll = count >> 3;

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fx = range.fFx1;

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for (int i = 0; i < unroll; i++) {

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NO_CHECK_ITER; NO_CHECK_ITER;

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NO_CHECK_ITER; NO_CHECK_ITER;

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NO_CHECK_ITER; NO_CHECK_ITER;

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NO_CHECK_ITER; NO_CHECK_ITER;

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}

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if ((count &= 7) > 0) {

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do {

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NO_CHECK_ITER;

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} while (--count != 0);

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}

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}

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if ((count = range.fCount2) > 0) {

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sk_memset32_dither(dstC,

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cache[toggle + range.fV1],

reed@google.com

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cache[next_dither_toggle(toggle) + range.fV1],

rileya@google.com

2012-07-26 20:04:23 +0000

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count);

}

}

reed

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void shadeSpan_linear_mirror(TileProc proc, SkGradFixed dx, SkGradFixed fx,

rileya@google.com

2012-07-26 20:04:23 +0000

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SkPMColor* SK_RESTRICT dstC,

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const SkPMColor* SK_RESTRICT cache,

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int toggle, int count) {

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do {

reed

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unsigned fi = mirror_8bits(SkGradFixedToFixed(fx) >> 8);

rileya@google.com

2012-07-26 20:04:23 +0000

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SkASSERT(fi <= 0xFF);

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fx += dx;

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*dstC++ = cache[toggle + fi];

reed@google.com

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toggle = next_dither_toggle(toggle);

rileya@google.com

2012-07-26 20:04:23 +0000

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} while (--count != 0);

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}

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reed

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void shadeSpan_linear_repeat(TileProc proc, SkGradFixed dx, SkGradFixed fx,

rileya@google.com

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SkPMColor* SK_RESTRICT dstC,

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const SkPMColor* SK_RESTRICT cache,

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int toggle, int count) {

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do {

reed

2014-12-18 12:43:08 -0800

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unsigned fi = repeat_8bits(SkGradFixedToFixed(fx) >> 8);

rileya@google.com

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SkASSERT(fi <= 0xFF);

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fx += dx;

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*dstC++ = cache[toggle + fi];

reed@google.com

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toggle = next_dither_toggle(toggle);

rileya@google.com

2012-07-26 20:04:23 +0000

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} while (--count != 0);

}

}

commit-bot@chromium.org

2014-04-23 19:10:51 +0000

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void SkLinearGradient::LinearGradientContext::shadeSpan(int x, int y, SkPMColor* SK_RESTRICT dstC,

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int count) {

rileya@google.com

2012-07-26 20:04:23 +0000

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SkASSERT(count > 0);

commit-bot@chromium.org

2014-04-23 19:10:51 +0000

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const SkLinearGradient& linearGradient = static_cast<const SkLinearGradient&>(fShader);

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reed

2015-11-17 08:12:19 -0800

[diff] [blame]

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if (SkShader::kClamp_TileMode == linearGradient.fTileMode &&

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kLinear_MatrixClass == fDstToIndexClass)

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{

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this->shade4_clamp(x, y, dstC, count);

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return;

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}

reed

2015-11-17 08:12:19 -0800

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rileya@google.com

2012-07-26 20:04:23 +0000

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SkPoint srcPt;

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SkMatrix::MapXYProc dstProc = fDstToIndexProc;

commit-bot@chromium.org

2014-04-23 19:10:51 +0000

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TileProc proc = linearGradient.fTileProc;

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const SkPMColor* SK_RESTRICT cache = fCache->getCache32();

reed@google.com

2013-02-01 19:34:59 +0000

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int toggle = init_dither_toggle(x, y);

rileya@google.com

2012-07-26 20:04:23 +0000

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if (fDstToIndexClass != kPerspective_MatrixClass) {

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dstProc(fDstToIndex, SkIntToScalar(x) + SK_ScalarHalf,

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SkIntToScalar(y) + SK_ScalarHalf, &srcPt);

Florin Malita

63b6156

2017-02-10 10:42:49 -0500

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SkGradFixed dx, fx = SkScalarPinToGradFixed(srcPt.fX);

rileya@google.com

2012-07-26 20:04:23 +0000

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if (fDstToIndexClass == kFixedStepInX_MatrixClass) {

benjaminwagner

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2016-02-16 10:09:40 -0800

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const auto step = fDstToIndex.fixedStepInX(SkIntToScalar(y));

reed

2014-12-18 12:43:08 -0800

[diff] [blame]

317

// todo: do we need a real/high-precision value for dx here?

Florin Malita

63b6156

2017-02-10 10:42:49 -0500

[diff] [blame]

318

dx = SkScalarPinToGradFixed(step.fX);

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

319

} else {

320

SkASSERT(fDstToIndexClass == kLinear_MatrixClass);

Florin Malita

63b6156

2017-02-10 10:42:49 -0500

[diff] [blame]

321

dx = SkScalarPinToGradFixed(fDstToIndex.getScaleX());

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

322

}

323

324

LinearShadeProc shadeProc = shadeSpan_linear_repeat;

reed@google.com

53009ba

2013-02-07 20:28:49 +0000

[diff] [blame]

325

if (0 == dx) {

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

326

shadeProc = shadeSpan_linear_vertical_lerp;

commit-bot@chromium.org

2014-04-23 19:10:51 +0000

[diff] [blame]

327

} else if (SkShader::kClamp_TileMode == linearGradient.fTileMode) {

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

328

shadeProc = shadeSpan_linear_clamp;

commit-bot@chromium.org

2014-04-23 19:10:51 +0000

[diff] [blame]

329

} else if (SkShader::kMirror_TileMode == linearGradient.fTileMode) {

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

330

shadeProc = shadeSpan_linear_mirror;

331

} else {

commit-bot@chromium.org

2014-04-23 19:10:51 +0000

[diff] [blame]

332

SkASSERT(SkShader::kRepeat_TileMode == linearGradient.fTileMode);

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

333

}

334

(*shadeProc)(proc, dx, fx, dstC, cache, toggle, count);

335

} else {

336

SkScalar dstX = SkIntToScalar(x);

337

SkScalar dstY = SkIntToScalar(y);

338

do {

339

dstProc(fDstToIndex, dstX, dstY, &srcPt);

340

unsigned fi = proc(SkScalarToFixed(srcPt.fX));

341

SkASSERT(fi <= 0xFFFF);

342

*dstC++ = cache[toggle + (fi >> kCache32Shift)];

reed@google.com

2013-02-01 19:34:59 +0000

[diff] [blame]

343

toggle = next_dither_toggle(toggle);

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

344

dstX += SK_Scalar1;

345

} while (--count != 0);

}

}

rileya@google.com

2012-07-26 20:04:23 +0000

[diff] [blame]

349

SkShader::GradientType SkLinearGradient::asAGradient(GradientInfo* info) const {

350

if (info) {

351

commonAsAGradient(info);

352

info->fPoint[0] = fStart;

353

info->fPoint[1] = fEnd;

354

}

355

return kLinear_GradientType;

356

}

357

bsalomon@google.com

cf8fb1f

2012-08-02 14:03:32 +0000

[diff] [blame]

358

#if SK_SUPPORT_GPU

359

brianosman

b9c5137

2016-09-15 11:09:45 -0700

[diff] [blame]

360

#include "GrColorSpaceXform.h"

Brian Salomon

2016-11-29 13:43:05 -0500

[diff] [blame]

361

#include "GrShaderCaps.h"

egdaniel

7ea439b

2015-12-03 09:20:44 -0800

[diff] [blame]

362

#include "glsl/GrGLSLFragmentShaderBuilder.h"

dandov

9de5b51

2014-06-10 14:38:28 -0700

[diff] [blame]

363

#include "SkGr.h"

bsalomon@google.com

2eaaefd

2012-10-29 19:51:22 +0000

[diff] [blame]

364

rileya@google.com

d7cc651

2012-07-27 14:00:39 +0000

[diff] [blame]

365

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

366

rileya@google.com

2012-07-31 20:38:06 +0000

[diff] [blame]

367

class GrLinearGradient : public GrGradientEffect {

368

public:

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

369

class GLSLLinearProcessor;

rileya@google.com

2012-07-31 20:38:06 +0000

[diff] [blame]

370

brianosman

9557c27

2016-09-15 06:59:15 -0700

[diff] [blame]

371

static sk_sp<GrFragmentProcessor> Make(const CreateArgs& args) {

372

return sk_sp<GrFragmentProcessor>(new GrLinearGradient(args));

bsalomon@google.com

0ac6af4

2013-01-16 15:16:18 +0000

[diff] [blame]

373

}

374

Brian Salomon

d3b6597

2017-03-22 12:05:03 -0400

[diff] [blame]

375

~GrLinearGradient() override {}

rileya@google.com

2012-07-31 20:38:06 +0000

[diff] [blame]

376

mtklein

36352bf

2015-03-25 18:17:31 -0700

[diff] [blame]

377

const char* name() const override { return "Linear Gradient"; }

joshualitt

eb2a676

2014-12-04 11:35:33 -0800

[diff] [blame]

378

rileya@google.com

2012-07-31 20:38:06 +0000

[diff] [blame]

379

private:

Brian Salomon

587e08f

2017-01-27 10:59:27 -0500

[diff] [blame]

380

GrLinearGradient(const CreateArgs& args) : INHERITED(args, args.fShader->colorsAreOpaque()) {

joshualitt

eb2a676

2014-12-04 11:35:33 -0800

[diff] [blame]

381

this->initClassID<GrLinearGradient>();

382

}

wangyix

4b3050b

2015-08-04 07:59:37 -0700

[diff] [blame]

383

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

384

GrGLSLFragmentProcessor* onCreateGLSLInstance() const override;

wangyix

b1daa86

2015-08-18 11:29:31 -0700

[diff] [blame]

385

Brian Salomon

2016-11-29 13:43:05 -0500

[diff] [blame]

386

virtual void onGetGLSLProcessorKey(const GrShaderCaps& caps,

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

387

GrProcessorKeyBuilder* b) const override;

wangyix

4b3050b

2015-08-04 07:59:37 -0700

[diff] [blame]

388

joshualitt

b0a8a37

2014-09-23 09:50:21 -0700

[diff] [blame]

389

GR_DECLARE_FRAGMENT_PROCESSOR_TEST;

rileya@google.com

2012-07-31 20:38:06 +0000

[diff] [blame]

390

391

typedef GrGradientEffect INHERITED;

392

};

393

394

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

395

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

396

class GrLinearGradient::GLSLLinearProcessor : public GrGradientEffect::GLSLProcessor {

397

public:

398

GLSLLinearProcessor(const GrProcessor&) {}

399

Brian Salomon

d3b6597

2017-03-22 12:05:03 -0400

[diff] [blame]

400

~GLSLLinearProcessor() override {}

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

401

402

virtual void emitCode(EmitArgs&) override;

403

Brian Salomon

2016-11-29 13:43:05 -0500

[diff] [blame]

404

static void GenKey(const GrProcessor& processor, const GrShaderCaps&, GrProcessorKeyBuilder* b) {

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

405

b->add32(GenBaseGradientKey(processor));

}

private:

typedef GrGradientEffect::GLSLProcessor INHERITED;

410

};

411

412

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

413

414

GrGLSLFragmentProcessor* GrLinearGradient::onCreateGLSLInstance() const {

415

return new GrLinearGradient::GLSLLinearProcessor(*this);

416

}

417

Brian Salomon

2016-11-29 13:43:05 -0500

[diff] [blame]

418

void GrLinearGradient::onGetGLSLProcessorKey(const GrShaderCaps& caps,

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

419

GrProcessorKeyBuilder* b) const {

420

GrLinearGradient::GLSLLinearProcessor::GenKey(*this, caps, b);

421

}

422

423

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

424

joshualitt

b0a8a37

2014-09-23 09:50:21 -0700

[diff] [blame]

425

GR_DEFINE_FRAGMENT_PROCESSOR_TEST(GrLinearGradient);

bsalomon@google.com

2012-08-03 14:34:46 +0000

[diff] [blame]

426

Hal Canary

6f6961e

2017-01-31 13:50:44 -0500

[diff] [blame]

427

#if GR_TEST_UTILS

bungeman

06ca8ec

2016-06-09 08:01:03 -0700

[diff] [blame]

428

sk_sp<GrFragmentProcessor> GrLinearGradient::TestCreate(GrProcessorTestData* d) {

joshualitt

0067ff5

2015-07-08 14:26:19 -0700

[diff] [blame]

429

SkPoint points[] = {{d->fRandom->nextUScalar1(), d->fRandom->nextUScalar1()},

430

{d->fRandom->nextUScalar1(), d->fRandom->nextUScalar1()}};

bsalomon@google.com

2012-08-03 14:34:46 +0000

[diff] [blame]

431

Brian Osman

3f74860

2016-10-03 18:29:03 -0400

[diff] [blame]

432

RandomGradientParams params(d->fRandom);

Brian Osman

a219653

2016-10-17 12:48:13 -0400

[diff] [blame]

433

auto shader = params.fUseColors4f ?

434

SkGradientShader::MakeLinear(points, params.fColors4f, params.fColorSpace, params.fStops,

435

params.fColorCount, params.fTileMode) :

436

SkGradientShader::MakeLinear(points, params.fColors, params.fStops,

437

params.fColorCount, params.fTileMode);

Brian Osman

9f532a3

2016-10-19 11:12:09 -0400

[diff] [blame]

438

GrTest::TestAsFPArgs asFPArgs(d);

Florin Malita

2017-05-25 10:38:07 -0400

[diff] [blame]

439

sk_sp<GrFragmentProcessor> fp = as_SB(shader)->asFragmentProcessor(asFPArgs.args());

bsalomon

c21b09e

2015-08-28 18:46:56 -0700

[diff] [blame]

440

GrAlwaysAssert(fp);

joshualitt

b0a8a37

2014-09-23 09:50:21 -0700

[diff] [blame]

441

return fp;

bsalomon@google.com

2012-08-03 14:34:46 +0000

[diff] [blame]

442

}

Hal Canary

6f6961e

2017-01-31 13:50:44 -0500

[diff] [blame]

443

#endif

bsalomon@google.com

2012-08-03 14:34:46 +0000

[diff] [blame]

444

445

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

446

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

447

void GrLinearGradient::GLSLLinearProcessor::emitCode(EmitArgs& args) {

wangyix

7c157a9

2015-07-22 15:08:53 -0700

[diff] [blame]

448

const GrLinearGradient& ge = args.fFp.cast<GrLinearGradient>();

egdaniel

7ea439b

2015-12-03 09:20:44 -0800

[diff] [blame]

449

this->emitUniforms(args.fUniformHandler, ge);

bsalomon

1a1aa93

2016-09-12 09:30:36 -0700

[diff] [blame]

450

SkString t = args.fFragBuilder->ensureCoords2D(args.fTransformedCoords[0]);

bsalomon@google.com

d8b5fac

2012-11-01 17:02:46 +0000

[diff] [blame]

451

t.append(".x");

egdaniel

7ea439b

2015-12-03 09:20:44 -0800

[diff] [blame]

452

this->emitColor(args.fFragBuilder,

453

args.fUniformHandler,

Brian Salomon

1edc5b9

2016-11-29 13:43:46 -0500

[diff] [blame]

454

args.fShaderCaps,

fmenozzi

2016-08-09 08:05:57 -0700

[diff] [blame]

455

ge,

456

t.c_str(),

egdaniel

4ca2e60

2015-11-18 08:01:26 -0800

[diff] [blame]

457

args.fOutputColor,

458

args.fInputColor,

cdalton

3f6f76f

2016-04-11 12:18:09 -0700

[diff] [blame]

459

args.fTexSamplers);

rileya@google.com

d7cc651

2012-07-27 14:00:39 +0000

[diff] [blame]

460

}

461

462

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

463

brianosman

839345d

2016-07-22 11:04:53 -0700

[diff] [blame]

464

sk_sp<GrFragmentProcessor> SkLinearGradient::asFragmentProcessor(const AsFPArgs& args) const {

465

SkASSERT(args.fContext);

mtklein

3f3b3d0

2014-12-01 11:47:08 -0800

[diff] [blame]

466

bsalomon@google.com

dfdb7e5

2012-10-16 15:19:45 +0000

[diff] [blame]

467

SkMatrix matrix;

bsalomon@google.com

f94b3a4

2012-10-31 18:09:01 +0000

[diff] [blame]

468

if (!this->getLocalMatrix().invert(&matrix)) {

bsalomon

c21b09e

2015-08-28 18:46:56 -0700

[diff] [blame]

469

return nullptr;

bsalomon@google.com

dfdb7e5

2012-10-16 15:19:45 +0000

[diff] [blame]

470

}

brianosman

839345d

2016-07-22 11:04:53 -0700

[diff] [blame]

471

if (args.fLocalMatrix) {

commit-bot@chromium.org

96fb748

2014-05-09 20:28:11 +0000

[diff] [blame]

472

SkMatrix inv;

brianosman

839345d

2016-07-22 11:04:53 -0700

[diff] [blame]

473

if (!args.fLocalMatrix->invert(&inv)) {

bsalomon

c21b09e

2015-08-28 18:46:56 -0700

[diff] [blame]

474

return nullptr;

commit-bot@chromium.org

96fb748

2014-05-09 20:28:11 +0000

[diff] [blame]

475

}

476

matrix.postConcat(inv);

477

}

bsalomon@google.com

f94b3a4

2012-10-31 18:09:01 +0000

[diff] [blame]

478

matrix.postConcat(fPtsToUnit);

mtklein

3f3b3d0

2014-12-01 11:47:08 -0800

[diff] [blame]

479

brianosman

b9c5137

2016-09-15 11:09:45 -0700

[diff] [blame]

480

sk_sp<GrColorSpaceXform> colorSpaceXform = GrColorSpaceXform::Make(fColorSpace.get(),

481

args.fDstColorSpace);

brianosman

9557c27

2016-09-15 06:59:15 -0700

[diff] [blame]

482

sk_sp<GrFragmentProcessor> inner(GrLinearGradient::Make(

brianosman

b9c5137

2016-09-15 11:09:45 -0700

[diff] [blame]

483

GrGradientEffect::CreateArgs(args.fContext, this, &matrix, fTileMode,

484

std::move(colorSpaceXform), SkToBool(args.fDstColorSpace))));

bungeman

06ca8ec

2016-06-09 08:01:03 -0700

[diff] [blame]

485

return GrFragmentProcessor::MulOutputByInputAlpha(std::move(inner));

rileya@google.com

d7cc651

2012-07-27 14:00:39 +0000

[diff] [blame]

486

}

487

bsalomon@google.com

cf8fb1f

2012-08-02 14:03:32 +0000

[diff] [blame]

488

489

#endif

robertphillips@google.com

76f9e93

2013-01-15 20:17:47 +0000

[diff] [blame]

490

commit-bot@chromium.org

0f10f7b

2014-03-13 18:02:17 +0000

[diff] [blame]

491

#ifndef SK_IGNORE_TO_STRING

robertphillips@google.com

76f9e93

2013-01-15 20:17:47 +0000

[diff] [blame]

492

void SkLinearGradient::toString(SkString* str) const {

493

str->append("SkLinearGradient (");

494

495

str->appendf("start: (%f, %f)", fStart.fX, fStart.fY);

496

str->appendf(" end: (%f, %f) ", fEnd.fX, fEnd.fY);

497

498

this->INHERITED::toString(str);

str->append(")");

}

#endif

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

503

504

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

#include "SkNx.h"

static const SkLinearGradient::LinearGradientContext::Rec*

509

find_forward(const SkLinearGradient::LinearGradientContext::Rec rec[], float tiledX) {

510

SkASSERT(tiledX >= 0 && tiledX <= 1);

511

512

SkASSERT(rec[0].fPos >= 0 && rec[0].fPos <= 1);

513

SkASSERT(rec[1].fPos >= 0 && rec[1].fPos <= 1);

514

SkASSERT(rec[0].fPos <= rec[1].fPos);

515

rec += 1;

lsalzman

f2b8662

2016-01-22 14:03:02 -0800

[diff] [blame]

516

while (rec->fPos < tiledX || rec->fPosScale == 0) {

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

517

SkASSERT(rec[0].fPos >= 0 && rec[0].fPos <= 1);

518

SkASSERT(rec[1].fPos >= 0 && rec[1].fPos <= 1);

519

SkASSERT(rec[0].fPos <= rec[1].fPos);

rec += 1;

}

return rec - 1;

}

static const SkLinearGradient::LinearGradientContext::Rec*

526

find_backward(const SkLinearGradient::LinearGradientContext::Rec rec[], float tiledX) {

527

SkASSERT(tiledX >= 0 && tiledX <= 1);

528

529

SkASSERT(rec[0].fPos >= 0 && rec[0].fPos <= 1);

530

SkASSERT(rec[1].fPos >= 0 && rec[1].fPos <= 1);

531

SkASSERT(rec[0].fPos <= rec[1].fPos);

lsalzman

f2b8662

2016-01-22 14:03:02 -0800

[diff] [blame]

532

while (tiledX < rec->fPos || rec[1].fPosScale == 0) {

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

533

rec -= 1;

534

SkASSERT(rec[0].fPos >= 0 && rec[0].fPos <= 1);

535

SkASSERT(rec[1].fPos >= 0 && rec[1].fPos <= 1);

536

SkASSERT(rec[0].fPos <= rec[1].fPos);

}

return rec;

}

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

541

// As an optimization, we can apply the dither bias before interpolation -- but only when

542

// operating in premul space (apply_alpha == false). When apply_alpha == true, we must

543

// defer the bias application until after premul.

544

//

545

// The following two helpers encapsulate this logic: pre_bias is called before interpolation,

546

// and effects the bias when apply_alpha == false, while post_bias is called after premul and

547

// effects the bias for the apply_alpha == true case.

548

549

template <bool apply_alpha>

550

Sk4f pre_bias(const Sk4f& x, const Sk4f& bias) {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

551

return apply_alpha ? x : x + bias;

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

552

}

553

554

template <bool apply_alpha>

555

Sk4f post_bias(const Sk4f& x, const Sk4f& bias) {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

556

return apply_alpha ? x + bias : x;

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

557

}

558

559

template <bool apply_alpha> SkPMColor trunc_from_255(const Sk4f& x, const Sk4f& bias) {

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

560

SkPMColor c;

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

561

Sk4f c4f255 = x;

562

if (apply_alpha) {

Lee Salzman

a836267

2017-06-01 14:45:29 -0400

[diff] [blame]

563

#ifdef SK_SUPPORT_LEGACY_GRADIENT_ALPHATRUNC

564

static constexpr float alphaScale = 1;

565

#else

566

// Due to use of multiplication by the 1/255 reciprocal instead of division by 255,

567

// non-integer alpha values very close to their ceiling can push the color values

568

// above the alpha value, which will become an invalid premultiplied color. So nudge

569

// alpha up slightly by a compensating scale to keep it above the color values.

570

// To do this, multiply alpha by a number slightly greater than 1 to compensate

571

// for error in scaling from the 1/255 approximation. Since this error is then

572

// scaled by the alpha value, we need to scale the epsilon by 255 to get a safe

573

// upper bound on the error.

574

static constexpr float alphaScale = 1 + 255*std::numeric_limits<float>::epsilon();

575

#endif

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

576

const float scale = x[SkPM4f::A] * (1 / 255.f);

Lee Salzman

a836267

2017-06-01 14:45:29 -0400

[diff] [blame]

577

c4f255 *= Sk4f(scale, scale, scale, alphaScale);

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

578

}

579

SkNx_cast<uint8_t>(post_bias<apply_alpha>(c4f255, bias)).store(&c);

Florin Malita

aaa6d77

2016-12-07 14:57:04 -0500

[diff] [blame]

580

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

return c;

}

template <bool apply_alpha> void fill(SkPMColor dst[], int count,

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

585

const Sk4f& c4, const Sk4f& bias0, const Sk4f& bias1) {

586

const SkPMColor c0 = trunc_from_255<apply_alpha>(pre_bias<apply_alpha>(c4, bias0), bias0);

587

const SkPMColor c1 = trunc_from_255<apply_alpha>(pre_bias<apply_alpha>(c4, bias1), bias1);

588

sk_memset32_dither(dst, c0, c1, count);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

589

}

590

591

template <bool apply_alpha> void fill(SkPMColor dst[], int count, const Sk4f& c4) {

592

// Assumes that c4 does not need to be dithered.

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

593

sk_memset32(dst, trunc_from_255<apply_alpha>(c4, 0), count);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

}

/*

* TODOs

*

* - tilemodes

* - interp before or after premul

601

* - perspective

602

* - optimizations

603

* - use fixed (32bit or 16bit) instead of floats?

604

*/

605

606

static Sk4f lerp_color(float fx, const SkLinearGradient::LinearGradientContext::Rec* rec) {

reed

de3aac8

2015-11-22 13:00:04 -0800

[diff] [blame]

607

SkASSERT(fx >= rec[0].fPos);

608

SkASSERT(fx <= rec[1].fPos);

609

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

610

const float p0 = rec[0].fPos;

611

const Sk4f c0 = rec[0].fColor;

612

const Sk4f c1 = rec[1].fColor;

613

const Sk4f diffc = c1 - c0;

614

const float scale = rec[1].fPosScale;

615

const float t = (fx - p0) * scale;

616

return c0 + Sk4f(t) * diffc;

617

}

618

619

template <bool apply_alpha> void ramp(SkPMColor dstC[], int n, const Sk4f& c, const Sk4f& dc,

620

const Sk4f& dither0, const Sk4f& dither1) {

621

Sk4f dc2 = dc + dc;

622

Sk4f dc4 = dc2 + dc2;

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

623

Sk4f cd0 = pre_bias<apply_alpha>(c , dither0);

624

Sk4f cd1 = pre_bias<apply_alpha>(c + dc, dither1);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

625

Sk4f cd2 = cd0 + dc2;

626

Sk4f cd3 = cd1 + dc2;

627

while (n >= 4) {

mtklein

2015-12-01 07:10:21 -0800

[diff] [blame]

628

if (!apply_alpha) {

mtklein

6f37b4a

2015-12-14 11:25:18 -0800

[diff] [blame]

629

Sk4f_ToBytes((uint8_t*)dstC, cd0, cd1, cd2, cd3);

mtklein

2015-12-01 07:10:21 -0800

[diff] [blame]

630

dstC += 4;

631

} else {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

632

*dstC++ = trunc_from_255<apply_alpha>(cd0, dither0);

633

*dstC++ = trunc_from_255<apply_alpha>(cd1, dither1);

634

*dstC++ = trunc_from_255<apply_alpha>(cd2, dither0);

635

*dstC++ = trunc_from_255<apply_alpha>(cd3, dither1);

mtklein

2015-12-01 07:10:21 -0800

[diff] [blame]

636

}

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

cd0 = cd0 + dc4;

cd1 = cd1 + dc4;

cd2 = cd2 + dc4;

cd3 = cd3 + dc4;

n -= 4;

}

if (n & 2) {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

644

*dstC++ = trunc_from_255<apply_alpha>(cd0, dither0);

645

*dstC++ = trunc_from_255<apply_alpha>(cd1, dither1);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

646

cd0 = cd0 + dc2;

647

}

648

if (n & 1) {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

649

*dstC++ = trunc_from_255<apply_alpha>(cd0, dither0);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

}

}

template <bool apply_alpha, bool dx_is_pos>

654

void SkLinearGradient::LinearGradientContext::shade4_dx_clamp(SkPMColor dstC[], int count,

655

float fx, float dx, float invDx,

656

const float dither[2]) {

657

Sk4f dither0(dither[0]);

658

Sk4f dither1(dither[1]);

659

const Rec* rec = fRecs.begin();

660

661

const Sk4f dx4 = Sk4f(dx);

662

SkDEBUGCODE(SkPMColor* endDstC = dstC + count;)

663

664

if (dx_is_pos) {

665

if (fx < 0) {

fmalita

2016-05-26 11:13:52 -0700

[diff] [blame]

666

// count is guaranteed to be positive, but the first arg may overflow int32 after

667

// increment => casting to uint32 ensures correct clamping.

fmalita

7dcb131

2016-05-26 18:10:24 -0700

[diff] [blame]

668

int n = SkTMin<uint32_t>(static_cast<uint32_t>(SkFloatToIntFloor(-fx * invDx)) + 1,

669

count);

fmalita

2016-05-26 11:13:52 -0700

[diff] [blame]

670

SkASSERT(n > 0);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

671

fill<apply_alpha>(dstC, n, rec[0].fColor);

count -= n;

dstC += n;

fx += n * dx;

SkASSERT(0 == count || fx >= 0);

676

if (n & 1) {

677

SkTSwap(dither0, dither1);

}

}

} else { // dx < 0

if (fx > 1) {

fmalita

2016-05-26 11:13:52 -0700

[diff] [blame]

682

// count is guaranteed to be positive, but the first arg may overflow int32 after

683

// increment => casting to uint32 ensures correct clamping.

fmalita

7dcb131

2016-05-26 18:10:24 -0700

[diff] [blame]

684

int n = SkTMin<uint32_t>(static_cast<uint32_t>(SkFloatToIntFloor((1 - fx) * invDx)) + 1,

685

count);

fmalita

2016-05-26 11:13:52 -0700

[diff] [blame]

686

SkASSERT(n > 0);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

687

fill<apply_alpha>(dstC, n, rec[fRecs.count() - 1].fColor);

count -= n;

dstC += n;

fx += n * dx;

SkASSERT(0 == count || fx <= 1);

692

if (n & 1) {

693

SkTSwap(dither0, dither1);

}

}

}

SkASSERT(count >= 0);

const Rec* r;

if (dx_is_pos) {

r = fRecs.begin(); // start at the beginning

702

} else {

703

r = fRecs.begin() + fRecs.count() - 2; // start at the end

}

while (count > 0) {

if (dx_is_pos) {

if (fx >= 1) {

fill<apply_alpha>(dstC, count, rec[fRecs.count() - 1].fColor);

return;

}

} else { // dx < 0

if (fx <= 0) {

fill<apply_alpha>(dstC, count, rec[0].fColor);

return;

}

}

if (dx_is_pos) {

r = find_forward(r, fx);

721

} else {

722

r = find_backward(r, fx);

723

}

724

SkASSERT(r >= fRecs.begin() && r < fRecs.begin() + fRecs.count() - 1);

725

726

const float p0 = r[0].fPos;

727

const Sk4f c0 = r[0].fColor;

728

const float p1 = r[1].fPos;

729

const Sk4f diffc = Sk4f(r[1].fColor) - c0;

730

const float scale = r[1].fPosScale;

731

const float t = (fx - p0) * scale;

732

const Sk4f c = c0 + Sk4f(t) * diffc;

733

const Sk4f dc = diffc * dx4 * Sk4f(scale);

int n;

if (dx_is_pos) {

n = SkTMin((int)((p1 - fx) * invDx) + 1, count);

738

} else {

739

n = SkTMin((int)((p0 - fx) * invDx) + 1, count);

740

}

741

742

fx += n * dx;

reed

2016-01-05 10:01:38 -0800

[diff] [blame]

743

// fx should now outside of the p0..p1 interval. However, due to float precision loss,

744

// its possible that fx is slightly too small/large, so we clamp it.

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

745

if (dx_is_pos) {

reed

2016-01-05 10:01:38 -0800

[diff] [blame]

746

fx = SkTMax(fx, p1);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

747

} else {

reed

2016-01-05 10:01:38 -0800

[diff] [blame]

748

fx = SkTMin(fx, p0);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

749

}

750

751

ramp<apply_alpha>(dstC, n, c, dc, dither0, dither1);

752

dstC += n;

753

SkASSERT(dstC <= endDstC);

mtklein

2015-12-01 07:10:21 -0800

[diff] [blame]

754

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

755

if (n & 1) {

756

SkTSwap(dither0, dither1);

757

}

reed

2016-01-05 10:01:38 -0800

[diff] [blame]

758

759

count -= n;

760

SkASSERT(count >= 0);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

}

}

void SkLinearGradient::LinearGradientContext::shade4_clamp(int x, int y, SkPMColor dstC[],

765

int count) {

766

SkASSERT(count > 0);

767

SkASSERT(kLinear_MatrixClass == fDstToIndexClass);

768

769

SkPoint srcPt;

770

fDstToIndexProc(fDstToIndex, x + SK_ScalarHalf, y + SK_ScalarHalf, &srcPt);

771

float fx = srcPt.x();

772

const float dx = fDstToIndex.getScaleX();

773

774

// Default our dither bias values to 1/2, (rounding), which is no dithering

775

float dither0 = 0.5f;

776

float dither1 = 0.5f;

777

if (fDither) {

778

const float ditherCell[] = {

1/8.0f, 5/8.0f,

7/8.0f, 3/8.0f,

};

const int rowIndex = (y & 1) << 1;

783

dither0 = ditherCell[rowIndex];

784

dither1 = ditherCell[rowIndex + 1];

785

if (x & 1) {

786

SkTSwap(dither0, dither1);

787

}

788

}

789

const float dither[2] = { dither0, dither1 };

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

790

fmalita

2b46913

2015-11-23 08:30:23 -0800

[diff] [blame]

791

if (SkScalarNearlyZero(dx * count)) { // gradient is vertical

reed

de3aac8

2015-11-22 13:00:04 -0800

[diff] [blame]

792

const float pinFx = SkTPin(fx, 0.0f, 1.0f);

793

Sk4f c = lerp_color(pinFx, find_forward(fRecs.begin(), pinFx));

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

794

if (fApplyAlphaAfterInterp) {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

795

fill<true>(dstC, count, c, dither0, dither1);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

796

} else {

fmalita

2016-12-06 08:57:47 -0800

[diff] [blame]

797

fill<false>(dstC, count, c, dither0, dither1);

reed

2015-11-17 08:12:19 -0800

[diff] [blame]

}

return;

}

James Zern

2016-11-09 19:22:46 -0800

[diff] [blame]

802

SkASSERT(0.f != dx);

803

const float invDx = 1 / dx;

reed