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/*
* Copyright 2013 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "GrOvalRenderer.h"
#include "GrEffect.h"
#include "gl/GrGLEffect.h"
#include "gl/GrGLSL.h"
#include "GrTBackendEffectFactory.h"
#include "GrDrawState.h"
#include "GrDrawTarget.h"
#include "SkStrokeRec.h"
SK_DEFINE_INST_COUNT(GrOvalRenderer)
namespace {
struct CircleVertex {
GrPoint fPos;
GrPoint fOffset;
SkScalar fOuterRadius;
SkScalar fInnerRadius;
};
struct EllipseVertex {
GrPoint fPos;
SkScalar fOuterXRadius;
SkScalar fInnerXRadius;
GrPoint fOuterOffset;
GrPoint fInnerOffset;
};
inline bool circle_stays_circle(const SkMatrix& m) {
return m.isSimilarity();
}
}
///////////////////////////////////////////////////////////////////////////////
/**
* The output of this effect is a modulation of the input color and coverage for a circle,
* specified as offset_x, offset_y (both from center point), outer radius and inner radius.
*/
class CircleEdgeEffect : public GrEffect {
public:
static GrEffectRef* Create(bool stroke) {
GR_CREATE_STATIC_EFFECT(gCircleStrokeEdge, CircleEdgeEffect, (true));
GR_CREATE_STATIC_EFFECT(gCircleFillEdge, CircleEdgeEffect, (false));
if (stroke) {
gCircleStrokeEdge->ref();
return gCircleStrokeEdge;
} else {
gCircleFillEdge->ref();
return gCircleFillEdge;
}
}
virtual void getConstantColorComponents(GrColor* color,
uint32_t* validFlags) const SK_OVERRIDE {
*validFlags = 0;
}
virtual const GrBackendEffectFactory& getFactory() const SK_OVERRIDE {
return GrTBackendEffectFactory<CircleEdgeEffect>::getInstance();
}
virtual ~CircleEdgeEffect() {}
static const char* Name() { return "CircleEdge"; }
inline bool isStroked() const { return fStroke; }
class GLEffect : public GrGLEffect {
public:
GLEffect(const GrBackendEffectFactory& factory, const GrDrawEffect&)
: INHERITED (factory) {}
virtual void emitCode(GrGLShaderBuilder* builder,
const GrDrawEffect& drawEffect,
EffectKey key,
const char* outputColor,
const char* inputColor,
const TextureSamplerArray& samplers) SK_OVERRIDE {
const CircleEdgeEffect& circleEffect = drawEffect.castEffect<CircleEdgeEffect>();
const char *vsName, *fsName;
builder->addVarying(kVec4f_GrSLType, "CircleEdge", &vsName, &fsName);
const SkString* attrName =
builder->getEffectAttributeName(drawEffect.getVertexAttribIndices()[0]);
builder->vsCodeAppendf("\t%s = %s;\n", vsName, attrName->c_str());
builder->fsCodeAppendf("\tfloat d = length(%s.xy);\n", fsName);
builder->fsCodeAppendf("\tfloat edgeAlpha = clamp(%s.z - d, 0.0, 1.0);\n", fsName);
if (circleEffect.isStroked()) {
builder->fsCodeAppendf("\tfloat innerAlpha = clamp(d - %s.w, 0.0, 1.0);\n", fsName);
builder->fsCodeAppend("\tedgeAlpha *= innerAlpha;\n");
}
SkString modulate;
GrGLSLModulatef<4>(&modulate, inputColor, "edgeAlpha");
builder->fsCodeAppendf("\t%s = %s;\n", outputColor, modulate.c_str());
}
static inline EffectKey GenKey(const GrDrawEffect& drawEffect, const GrGLCaps&) {
const CircleEdgeEffect& circleEffect = drawEffect.castEffect<CircleEdgeEffect>();
return circleEffect.isStroked() ? 0x1 : 0x0;
}
virtual void setData(const GrGLUniformManager&, const GrDrawEffect&) SK_OVERRIDE {}
private:
typedef GrGLEffect INHERITED;
};
private:
CircleEdgeEffect(bool stroke) : GrEffect() {
this->addVertexAttrib(kVec4f_GrSLType);
fStroke = stroke;
}
virtual bool onIsEqual(const GrEffect& other) const SK_OVERRIDE {
const CircleEdgeEffect& cee = CastEffect<CircleEdgeEffect>(other);
return cee.fStroke == fStroke;
}
bool fStroke;
GR_DECLARE_EFFECT_TEST;
typedef GrEffect INHERITED;
};
GR_DEFINE_EFFECT_TEST(CircleEdgeEffect);
GrEffectRef* CircleEdgeEffect::TestCreate(SkMWCRandom* random,
GrContext* context,
const GrDrawTargetCaps&,
GrTexture* textures[]) {
return CircleEdgeEffect::Create(random->nextBool());
}
///////////////////////////////////////////////////////////////////////////////
/**
* The output of this effect is a modulation of the input color and coverage for an axis-aligned
* ellipse, specified as outer and inner radii, and outer and inner offsets from center.
*/
class EllipseEdgeEffect : public GrEffect {
public:
static GrEffectRef* Create(bool stroke) {
GR_CREATE_STATIC_EFFECT(gEllipseStrokeEdge, EllipseEdgeEffect, (true));
GR_CREATE_STATIC_EFFECT(gEllipseFillEdge, EllipseEdgeEffect, (false));
if (stroke) {
gEllipseStrokeEdge->ref();
return gEllipseStrokeEdge;
} else {
gEllipseFillEdge->ref();
return gEllipseFillEdge;
}
}
virtual void getConstantColorComponents(GrColor* color,
uint32_t* validFlags) const SK_OVERRIDE {
*validFlags = 0;
}
virtual const GrBackendEffectFactory& getFactory() const SK_OVERRIDE {
return GrTBackendEffectFactory<EllipseEdgeEffect>::getInstance();
}
virtual ~EllipseEdgeEffect() {}
static const char* Name() { return "EllipseEdge"; }
inline bool isStroked() const { return fStroke; }
class GLEffect : public GrGLEffect {
public:
GLEffect(const GrBackendEffectFactory& factory, const GrDrawEffect&)
: INHERITED (factory) {}
virtual void emitCode(GrGLShaderBuilder* builder,
const GrDrawEffect& drawEffect,
EffectKey key,
const char* outputColor,
const char* inputColor,
const TextureSamplerArray& samplers) SK_OVERRIDE {
const EllipseEdgeEffect& ellipseEffect = drawEffect.castEffect<EllipseEdgeEffect>();
const char *vsRadiiName, *fsRadiiName;
const char *vsOffsetsName, *fsOffsetsName;
builder->addVarying(kVec2f_GrSLType, "EllipseRadii", &vsRadiiName, &fsRadiiName);
const SkString* attr0Name =
builder->getEffectAttributeName(drawEffect.getVertexAttribIndices()[0]);
builder->vsCodeAppendf("\t%s = %s;\n", vsRadiiName, attr0Name->c_str());
builder->addVarying(kVec4f_GrSLType, "EllipseOffsets", &vsOffsetsName, &fsOffsetsName);
const SkString* attr1Name =
builder->getEffectAttributeName(drawEffect.getVertexAttribIndices()[1]);
builder->vsCodeAppendf("\t%s = %s;\n", vsOffsetsName, attr1Name->c_str());
// get length of offset
builder->fsCodeAppendf("\tfloat dOuter = length(%s.xy);\n", fsOffsetsName);
// compare outer lengths against xOuterRadius
builder->fsCodeAppendf("\tfloat edgeAlpha = clamp(%s.x-dOuter, 0.0, 1.0);\n",
fsRadiiName);
if (ellipseEffect.isStroked()) {
builder->fsCodeAppendf("\tfloat dInner = length(%s.zw);\n", fsOffsetsName);
// compare inner lengths against xInnerRadius
builder->fsCodeAppendf("\tfloat innerAlpha = clamp(dInner-%s.y, 0.0, 1.0);\n",
fsRadiiName);
builder->fsCodeAppend("\tedgeAlpha *= innerAlpha;\n");
}
SkString modulate;
GrGLSLModulatef<4>(&modulate, inputColor, "edgeAlpha");
builder->fsCodeAppendf("\t%s = %s;\n", outputColor, modulate.c_str());
}
static inline EffectKey GenKey(const GrDrawEffect& drawEffect, const GrGLCaps&) {
const EllipseEdgeEffect& ellipseEffect = drawEffect.castEffect<EllipseEdgeEffect>();
return ellipseEffect.isStroked() ? 0x1 : 0x0;
}
virtual void setData(const GrGLUniformManager&, const GrDrawEffect&) SK_OVERRIDE {
}
private:
typedef GrGLEffect INHERITED;
};
private:
EllipseEdgeEffect(bool stroke) : GrEffect() {
this->addVertexAttrib(kVec2f_GrSLType);
this->addVertexAttrib(kVec4f_GrSLType);
fStroke = stroke;
}
virtual bool onIsEqual(const GrEffect& other) const SK_OVERRIDE {
const EllipseEdgeEffect& eee = CastEffect<EllipseEdgeEffect>(other);
return eee.fStroke == fStroke;
}
bool fStroke;
GR_DECLARE_EFFECT_TEST;
typedef GrEffect INHERITED;
};
GR_DEFINE_EFFECT_TEST(EllipseEdgeEffect);
GrEffectRef* EllipseEdgeEffect::TestCreate(SkMWCRandom* random,
GrContext* context,
const GrDrawTargetCaps&,
GrTexture* textures[]) {
return EllipseEdgeEffect::Create(random->nextBool());
}
///////////////////////////////////////////////////////////////////////////////
bool GrOvalRenderer::drawOval(GrDrawTarget* target, const GrContext* context, const GrPaint& paint,
const GrRect& oval, const SkStrokeRec& stroke)
{
if (!paint.isAntiAlias()) {
return false;
}
const SkMatrix& vm = context->getMatrix();
// we can draw circles
if (SkScalarNearlyEqual(oval.width(), oval.height())
&& circle_stays_circle(vm)) {
drawCircle(target, paint, oval, stroke);
// and axis-aligned ellipses only
} else if (vm.rectStaysRect()) {
return drawEllipse(target, paint, oval, stroke);
} else {
return false;
}
return true;
}
namespace {
// position + edge
extern const GrVertexAttrib gCircleVertexAttribs[] = {
{kVec2f_GrVertexAttribType, 0, kPosition_GrVertexAttribBinding},
{kVec4f_GrVertexAttribType, sizeof(GrPoint), kEffect_GrVertexAttribBinding}
};
};
void GrOvalRenderer::drawCircle(GrDrawTarget* target,
const GrPaint& paint,
const GrRect& circle,
const SkStrokeRec& stroke)
{
GrDrawState* drawState = target->drawState();
const SkMatrix& vm = drawState->getViewMatrix();
GrPoint center = GrPoint::Make(circle.centerX(), circle.centerY());
vm.mapPoints(¢er, 1);
SkScalar radius = vm.mapRadius(SkScalarHalf(circle.width()));
SkScalar strokeWidth = vm.mapRadius(stroke.getWidth());
GrDrawState::AutoDeviceCoordDraw adcd(drawState);
if (!adcd.succeeded()) {
return;
}
drawState->setVertexAttribs<gCircleVertexAttribs>(SK_ARRAY_COUNT(gCircleVertexAttribs));
GrAssert(sizeof(CircleVertex) == drawState->getVertexSize());
GrDrawTarget::AutoReleaseGeometry geo(target, 4, 0);
if (!geo.succeeded()) {
GrPrintf("Failed to get space for vertices!\n");
return;
}
CircleVertex* verts = reinterpret_cast<CircleVertex*>(geo.vertices());
SkStrokeRec::Style style = stroke.getStyle();
bool isStroked = (SkStrokeRec::kStroke_Style == style || SkStrokeRec::kHairline_Style == style);
enum {
// the edge effects share this stage with glyph rendering
// (kGlyphMaskStage in GrTextContext) && SW path rendering
// (kPathMaskStage in GrSWMaskHelper)
kEdgeEffectStage = GrPaint::kTotalStages,
};
GrEffectRef* effect = CircleEdgeEffect::Create(isStroked);
static const int kCircleEdgeAttrIndex = 1;
drawState->setEffect(kEdgeEffectStage, effect, kCircleEdgeAttrIndex)->unref();
SkScalar innerRadius = 0.0f;
SkScalar outerRadius = radius;
SkScalar halfWidth = 0;
if (style != SkStrokeRec::kFill_Style) {
if (SkScalarNearlyZero(strokeWidth)) {
halfWidth = SK_ScalarHalf;
} else {
halfWidth = SkScalarHalf(strokeWidth);
}
outerRadius += halfWidth;
if (isStroked) {
innerRadius = SkMaxScalar(0, radius - halfWidth);
}
}
// The radii are outset for two reasons. First, it allows the shader to simply perform
// clamp(distance-to-center - radius, 0, 1). Second, the outer radius is used to compute the
// verts of the bounding box that is rendered and the outset ensures the box will cover all
// pixels partially covered by the circle.
outerRadius += SK_ScalarHalf;
innerRadius -= SK_ScalarHalf;
SkRect bounds = SkRect::MakeLTRB(
center.fX - outerRadius,
center.fY - outerRadius,
center.fX + outerRadius,
center.fY + outerRadius
);
verts[0].fPos = SkPoint::Make(bounds.fLeft, bounds.fTop);
verts[0].fOffset = SkPoint::Make(-outerRadius, -outerRadius);
verts[0].fOuterRadius = outerRadius;
verts[0].fInnerRadius = innerRadius;
verts[1].fPos = SkPoint::Make(bounds.fRight, bounds.fTop);
verts[1].fOffset = SkPoint::Make(outerRadius, -outerRadius);
verts[1].fOuterRadius = outerRadius;
verts[1].fInnerRadius = innerRadius;
verts[2].fPos = SkPoint::Make(bounds.fLeft, bounds.fBottom);
verts[2].fOffset = SkPoint::Make(-outerRadius, outerRadius);
verts[2].fOuterRadius = outerRadius;
verts[2].fInnerRadius = innerRadius;
verts[3].fPos = SkPoint::Make(bounds.fRight, bounds.fBottom);
verts[3].fOffset = SkPoint::Make(outerRadius, outerRadius);
verts[3].fOuterRadius = outerRadius;
verts[3].fInnerRadius = innerRadius;
target->drawNonIndexed(kTriangleStrip_GrPrimitiveType, 0, 4, &bounds);
}
namespace {
// position + edge
extern const GrVertexAttrib gEllipseVertexAttribs[] = {
{kVec2f_GrVertexAttribType, 0, kPosition_GrVertexAttribBinding},
{kVec2f_GrVertexAttribType, sizeof(GrPoint), kEffect_GrVertexAttribBinding},
{kVec4f_GrVertexAttribType, 2*sizeof(GrPoint), kEffect_GrVertexAttribBinding}
};
};
bool GrOvalRenderer::drawEllipse(GrDrawTarget* target,
const GrPaint& paint,
const GrRect& ellipse,
const SkStrokeRec& stroke)
{
GrDrawState* drawState = target->drawState();
#ifdef SK_DEBUG
{
// we should have checked for this previously
bool isAxisAlignedEllipse = drawState->getViewMatrix().rectStaysRect();
SkASSERT(paint.isAntiAlias() && isAxisAlignedEllipse);
}
#endif
// do any matrix crunching before we reset the draw state for device coords
const SkMatrix& vm = drawState->getViewMatrix();
GrPoint center = GrPoint::Make(ellipse.centerX(), ellipse.centerY());
vm.mapPoints(¢er, 1);
SkScalar ellipseXRadius = SkScalarHalf(ellipse.width());
SkScalar ellipseYRadius = SkScalarHalf(ellipse.height());
SkScalar xRadius = SkScalarAbs(vm[SkMatrix::kMScaleX]*ellipseXRadius +
vm[SkMatrix::kMSkewY]*ellipseYRadius);
SkScalar yRadius = SkScalarAbs(vm[SkMatrix::kMSkewX]*ellipseXRadius +
vm[SkMatrix::kMScaleY]*ellipseYRadius);
if (SkScalarDiv(xRadius, yRadius) > 2 || SkScalarDiv(yRadius, xRadius) > 2) {
return false;
}
// do (potentially) anisotropic mapping of stroke
SkVector scaledStroke;
SkScalar strokeWidth = stroke.getWidth();
scaledStroke.fX = SkScalarAbs(strokeWidth*(vm[SkMatrix::kMScaleX] + vm[SkMatrix::kMSkewY]));
scaledStroke.fY = SkScalarAbs(strokeWidth*(vm[SkMatrix::kMSkewX] + vm[SkMatrix::kMScaleY]));
GrDrawState::AutoDeviceCoordDraw adcd(drawState);
if (!adcd.succeeded()) {
return false;
}
drawState->setVertexAttribs<gEllipseVertexAttribs>(SK_ARRAY_COUNT(gEllipseVertexAttribs));
GrAssert(sizeof(EllipseVertex) == drawState->getVertexSize());
GrDrawTarget::AutoReleaseGeometry geo(target, 4, 0);
if (!geo.succeeded()) {
GrPrintf("Failed to get space for vertices!\n");
return false;
}
EllipseVertex* verts = reinterpret_cast<EllipseVertex*>(geo.vertices());
SkStrokeRec::Style style = stroke.getStyle();
bool isStroked = (SkStrokeRec::kStroke_Style == style || SkStrokeRec::kHairline_Style == style);
enum {
// the edge effects share this stage with glyph rendering
// (kGlyphMaskStage in GrTextContext) && SW path rendering
// (kPathMaskStage in GrSWMaskHelper)
kEdgeEffectStage = GrPaint::kTotalStages,
};
GrEffectRef* effect = EllipseEdgeEffect::Create(isStroked);
static const int kEllipseCenterAttrIndex = 1;
static const int kEllipseEdgeAttrIndex = 2;
drawState->setEffect(kEdgeEffectStage, effect,
kEllipseCenterAttrIndex, kEllipseEdgeAttrIndex)->unref();
SkScalar innerXRadius = 0.0f;
SkScalar innerRatio = 1.0f;
if (SkStrokeRec::kFill_Style != style) {
if (SkScalarNearlyZero(scaledStroke.length())) {
scaledStroke.set(SK_ScalarHalf, SK_ScalarHalf);
} else {
scaledStroke.scale(0.5f);
}
// this is legit only if scale & translation (which should be the case at the moment)
if (SkStrokeRec::kStroke_Style == style || SkStrokeRec::kHairline_Style == style) {
SkScalar innerYRadius = SkMaxScalar(0, yRadius - scaledStroke.fY);
if (innerYRadius > SK_ScalarNearlyZero) {
innerXRadius = SkMaxScalar(0, xRadius - scaledStroke.fX);
innerRatio = innerXRadius/innerYRadius;
}
}
xRadius += scaledStroke.fX;
yRadius += scaledStroke.fY;
}
SkScalar outerRatio = SkScalarDiv(xRadius, yRadius);
// We've extended the outer x radius out half a pixel to antialias.
// This will also expand the rect so all the pixels will be captured.
xRadius += SK_ScalarHalf;
yRadius += SK_ScalarHalf;
innerXRadius -= SK_ScalarHalf;
SkRect bounds = SkRect::MakeLTRB(
center.fX - xRadius,
center.fY - yRadius,
center.fX + xRadius,
center.fY + yRadius
);
// The offsets are created by scaling the y radius by the appropriate ratio. This way we end up
// with a circle equation which can be checked quickly in the shader. We need one offset for
// outer and one for inner because they have different scale factors -- otherwise we end up with
// non-uniform strokes.
verts[0].fPos = SkPoint::Make(bounds.fLeft, bounds.fTop);
verts[0].fOuterXRadius = xRadius;
verts[0].fInnerXRadius = innerXRadius;
verts[0].fOuterOffset = SkPoint::Make(-xRadius, -outerRatio*yRadius);
verts[0].fInnerOffset = SkPoint::Make(-xRadius, -innerRatio*yRadius);
verts[1].fPos = SkPoint::Make(bounds.fRight, bounds.fTop);
verts[1].fOuterXRadius = xRadius;
verts[1].fInnerXRadius = innerXRadius;
verts[1].fOuterOffset = SkPoint::Make(xRadius, -outerRatio*yRadius);
verts[1].fInnerOffset = SkPoint::Make(xRadius, -innerRatio*yRadius);
verts[2].fPos = SkPoint::Make(bounds.fLeft, bounds.fBottom);
verts[2].fOuterXRadius = xRadius;
verts[2].fInnerXRadius = innerXRadius;
verts[2].fOuterOffset = SkPoint::Make(-xRadius, outerRatio*yRadius);
verts[2].fInnerOffset = SkPoint::Make(-xRadius, innerRatio*yRadius);
verts[3].fPos = SkPoint::Make(bounds.fRight, bounds.fBottom);
verts[3].fOuterXRadius = xRadius;
verts[3].fInnerXRadius = innerXRadius;
verts[3].fOuterOffset = SkPoint::Make(xRadius, outerRatio*yRadius);
verts[3].fInnerOffset = SkPoint::Make(xRadius, innerRatio*yRadius);
target->drawNonIndexed(kTriangleStrip_GrPrimitiveType, 0, 4, &bounds);
return true;
}
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