/* * Copyright 2012 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkBitmap.h" #include "SkMagnifierImageFilter.h" #include "SkColorPriv.h" #include "SkReadBuffer.h" #include "SkWriteBuffer.h" #include "SkValidationUtils.h" //////////////////////////////////////////////////////////////////////////////// #if SK_SUPPORT_GPU #include "effects/GrSingleTextureEffect.h" #include "gl/GrGLEffect.h" #include "gl/GrGLSL.h" #include "gl/GrGLTexture.h" #include "GrTBackendEffectFactory.h" class GrGLMagnifierEffect; class GrMagnifierEffect : public GrSingleTextureEffect { public: static GrEffectRef* Create(GrTexture* texture, float xOffset, float yOffset, float xInvZoom, float yInvZoom, float xInvInset, float yInvInset) { AutoEffectUnref effect(SkNEW_ARGS(GrMagnifierEffect, (texture, xOffset, yOffset, xInvZoom, yInvZoom, xInvInset, yInvInset))); return CreateEffectRef(effect); } virtual ~GrMagnifierEffect() {}; static const char* Name() { return "Magnifier"; } virtual const GrBackendEffectFactory& getFactory() const SK_OVERRIDE; virtual void getConstantColorComponents(GrColor* color, uint32_t* validFlags) const SK_OVERRIDE; float x_offset() const { return fXOffset; } float y_offset() const { return fYOffset; } float x_inv_zoom() const { return fXInvZoom; } float y_inv_zoom() const { return fYInvZoom; } float x_inv_inset() const { return fXInvInset; } float y_inv_inset() const { return fYInvInset; } typedef GrGLMagnifierEffect GLEffect; private: GrMagnifierEffect(GrTexture* texture, float xOffset, float yOffset, float xInvZoom, float yInvZoom, float xInvInset, float yInvInset) : GrSingleTextureEffect(texture, MakeDivByTextureWHMatrix(texture)) , fXOffset(xOffset) , fYOffset(yOffset) , fXInvZoom(xInvZoom) , fYInvZoom(yInvZoom) , fXInvInset(xInvInset) , fYInvInset(yInvInset) {} virtual bool onIsEqual(const GrEffect&) const SK_OVERRIDE; GR_DECLARE_EFFECT_TEST; float fXOffset; float fYOffset; float fXInvZoom; float fYInvZoom; float fXInvInset; float fYInvInset; typedef GrSingleTextureEffect INHERITED; }; // For brevity typedef GrGLUniformManager::UniformHandle UniformHandle; class GrGLMagnifierEffect : public GrGLEffect { public: GrGLMagnifierEffect(const GrBackendEffectFactory&, const GrDrawEffect&); 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; private: UniformHandle fOffsetVar; UniformHandle fInvZoomVar; UniformHandle fInvInsetVar; typedef GrGLEffect INHERITED; }; GrGLMagnifierEffect::GrGLMagnifierEffect(const GrBackendEffectFactory& factory, const GrDrawEffect&) : INHERITED(factory) { } void GrGLMagnifierEffect::emitCode(GrGLShaderBuilder* builder, const GrDrawEffect&, EffectKey key, const char* outputColor, const char* inputColor, const TransformedCoordsArray& coords, const TextureSamplerArray& samplers) { SkString coords2D = builder->ensureFSCoords2D(coords, 0); fOffsetVar = builder->addUniform( GrGLShaderBuilder::kFragment_Visibility | GrGLShaderBuilder::kVertex_Visibility, kVec2f_GrSLType, "Offset"); fInvZoomVar = builder->addUniform( GrGLShaderBuilder::kFragment_Visibility | GrGLShaderBuilder::kVertex_Visibility, kVec2f_GrSLType, "InvZoom"); fInvInsetVar = builder->addUniform( GrGLShaderBuilder::kFragment_Visibility | GrGLShaderBuilder::kVertex_Visibility, kVec2f_GrSLType, "InvInset"); builder->fsCodeAppendf("\t\tvec2 coord = %s;\n", coords2D.c_str()); builder->fsCodeAppendf("\t\tvec2 zoom_coord = %s + %s * %s;\n", builder->getUniformCStr(fOffsetVar), coords2D.c_str(), builder->getUniformCStr(fInvZoomVar)); builder->fsCodeAppend("\t\tvec2 delta = min(coord, vec2(1.0, 1.0) - coord);\n"); builder->fsCodeAppendf("\t\tdelta = delta * %s;\n", builder->getUniformCStr(fInvInsetVar)); builder->fsCodeAppend("\t\tfloat weight = 0.0;\n"); builder->fsCodeAppend("\t\tif (delta.s < 2.0 && delta.t < 2.0) {\n"); builder->fsCodeAppend("\t\t\tdelta = vec2(2.0, 2.0) - delta;\n"); builder->fsCodeAppend("\t\t\tfloat dist = length(delta);\n"); builder->fsCodeAppend("\t\t\tdist = max(2.0 - dist, 0.0);\n"); builder->fsCodeAppend("\t\t\tweight = min(dist * dist, 1.0);\n"); builder->fsCodeAppend("\t\t} else {\n"); builder->fsCodeAppend("\t\t\tvec2 delta_squared = delta * delta;\n"); builder->fsCodeAppend("\t\t\tweight = min(min(delta_squared.x, delta_squared.y), 1.0);\n"); builder->fsCodeAppend("\t\t}\n"); builder->fsCodeAppend("\t\tvec2 mix_coord = mix(coord, zoom_coord, weight);\n"); builder->fsCodeAppend("\t\tvec4 output_color = "); builder->fsAppendTextureLookup(samplers[0], "mix_coord"); builder->fsCodeAppend(";\n"); builder->fsCodeAppendf("\t\t%s = output_color;", outputColor); SkString modulate; GrGLSLMulVarBy4f(&modulate, 2, outputColor, inputColor); builder->fsCodeAppend(modulate.c_str()); } void GrGLMagnifierEffect::setData(const GrGLUniformManager& uman, const GrDrawEffect& drawEffect) { const GrMagnifierEffect& zoom = drawEffect.castEffect(); uman.set2f(fOffsetVar, zoom.x_offset(), zoom.y_offset()); uman.set2f(fInvZoomVar, zoom.x_inv_zoom(), zoom.y_inv_zoom()); uman.set2f(fInvInsetVar, zoom.x_inv_inset(), zoom.y_inv_inset()); } ///////////////////////////////////////////////////////////////////// GR_DEFINE_EFFECT_TEST(GrMagnifierEffect); GrEffectRef* GrMagnifierEffect::TestCreate(SkRandom* random, GrContext* context, const GrDrawTargetCaps&, GrTexture** textures) { GrTexture* texture = textures[0]; const int kMaxWidth = 200; const int kMaxHeight = 200; const int kMaxInset = 20; uint32_t width = random->nextULessThan(kMaxWidth); uint32_t height = random->nextULessThan(kMaxHeight); uint32_t x = random->nextULessThan(kMaxWidth - width); uint32_t y = random->nextULessThan(kMaxHeight - height); uint32_t inset = random->nextULessThan(kMaxInset); GrEffectRef* effect = GrMagnifierEffect::Create( texture, (float) width / texture->width(), (float) height / texture->height(), texture->width() / (float) x, texture->height() / (float) y, (float) inset / texture->width(), (float) inset / texture->height()); SkASSERT(NULL != effect); return effect; } /////////////////////////////////////////////////////////////////////////////// const GrBackendEffectFactory& GrMagnifierEffect::getFactory() const { return GrTBackendEffectFactory::getInstance(); } bool GrMagnifierEffect::onIsEqual(const GrEffect& sBase) const { const GrMagnifierEffect& s = CastEffect(sBase); return (this->texture(0) == s.texture(0) && this->fXOffset == s.fXOffset && this->fYOffset == s.fYOffset && this->fXInvZoom == s.fXInvZoom && this->fYInvZoom == s.fYInvZoom && this->fXInvInset == s.fXInvInset && this->fYInvInset == s.fYInvInset); } void GrMagnifierEffect::getConstantColorComponents(GrColor* color, uint32_t* validFlags) const { this->updateConstantColorComponentsForModulation(color, validFlags); } #endif //////////////////////////////////////////////////////////////////////////////// SkMagnifierImageFilter::SkMagnifierImageFilter(SkReadBuffer& buffer) : INHERITED(1, buffer) { float x = buffer.readScalar(); float y = buffer.readScalar(); float width = buffer.readScalar(); float height = buffer.readScalar(); fSrcRect = SkRect::MakeXYWH(x, y, width, height); fInset = buffer.readScalar(); buffer.validate(SkScalarIsFinite(fInset) && SkIsValidRect(fSrcRect) && // Negative numbers in src rect are not supported (fSrcRect.fLeft >= 0) && (fSrcRect.fTop >= 0)); } // FIXME: implement single-input semantics SkMagnifierImageFilter::SkMagnifierImageFilter(const SkRect& srcRect, SkScalar inset) : INHERITED(0), fSrcRect(srcRect), fInset(inset) { SkASSERT(srcRect.x() >= 0 && srcRect.y() >= 0 && inset >= 0); } #if SK_SUPPORT_GPU bool SkMagnifierImageFilter::asNewEffect(GrEffectRef** effect, GrTexture* texture, const SkMatrix&, const SkIRect&) const { if (effect) { SkScalar yOffset = (texture->origin() == kTopLeft_GrSurfaceOrigin) ? fSrcRect.y() : (texture->height() - (fSrcRect.y() + fSrcRect.height())); SkScalar invInset = fInset > 0 ? SkScalarInvert(fInset) : SK_Scalar1; *effect = GrMagnifierEffect::Create(texture, fSrcRect.x() / texture->width(), yOffset / texture->height(), fSrcRect.width() / texture->width(), fSrcRect.height() / texture->height(), texture->width() * invInset, texture->height() * invInset); } return true; } #endif void SkMagnifierImageFilter::flatten(SkWriteBuffer& buffer) const { this->INHERITED::flatten(buffer); buffer.writeScalar(fSrcRect.x()); buffer.writeScalar(fSrcRect.y()); buffer.writeScalar(fSrcRect.width()); buffer.writeScalar(fSrcRect.height()); buffer.writeScalar(fInset); } bool SkMagnifierImageFilter::onFilterImage(Proxy*, const SkBitmap& src, const Context&, SkBitmap* dst, SkIPoint* offset) const { SkASSERT(src.colorType() == kPMColor_SkColorType); SkASSERT(fSrcRect.width() < src.width()); SkASSERT(fSrcRect.height() < src.height()); if ((src.colorType() != kPMColor_SkColorType) || (fSrcRect.width() >= src.width()) || (fSrcRect.height() >= src.height())) { return false; } SkAutoLockPixels alp(src); SkASSERT(src.getPixels()); if (!src.getPixels() || src.width() <= 0 || src.height() <= 0) { return false; } dst->setConfig(src.config(), src.width(), src.height()); dst->allocPixels(); if (!dst->getPixels()) { return false; } SkScalar inv_inset = fInset > 0 ? SkScalarInvert(fInset) : SK_Scalar1; SkScalar inv_x_zoom = fSrcRect.width() / src.width(); SkScalar inv_y_zoom = fSrcRect.height() / src.height(); SkColor* sptr = src.getAddr32(0, 0); SkColor* dptr = dst->getAddr32(0, 0); int width = src.width(), height = src.height(); for (int y = 0; y < height; ++y) { for (int x = 0; x < width; ++x) { SkScalar x_dist = SkMin32(x, width - x - 1) * inv_inset; SkScalar y_dist = SkMin32(y, height - y - 1) * inv_inset; SkScalar weight = 0; static const SkScalar kScalar2 = SkScalar(2); // To create a smooth curve at the corners, we need to work on // a square twice the size of the inset. if (x_dist < kScalar2 && y_dist < kScalar2) { x_dist = kScalar2 - x_dist; y_dist = kScalar2 - y_dist; SkScalar dist = SkScalarSqrt(SkScalarSquare(x_dist) + SkScalarSquare(y_dist)); dist = SkMaxScalar(kScalar2 - dist, 0); weight = SkMinScalar(SkScalarSquare(dist), SK_Scalar1); } else { SkScalar sqDist = SkMinScalar(SkScalarSquare(x_dist), SkScalarSquare(y_dist)); weight = SkMinScalar(sqDist, SK_Scalar1); } SkScalar x_interp = SkScalarMul(weight, (fSrcRect.x() + x * inv_x_zoom)) + (SK_Scalar1 - weight) * x; SkScalar y_interp = SkScalarMul(weight, (fSrcRect.y() + y * inv_y_zoom)) + (SK_Scalar1 - weight) * y; int x_val = SkPin32(SkScalarFloorToInt(x_interp), 0, width - 1); int y_val = SkPin32(SkScalarFloorToInt(y_interp), 0, height - 1); *dptr = sptr[y_val * width + x_val]; dptr++; } } return true; }