5a064e3af8
Skia prefers 'static' over 'unnamed' namespaces. BUG=None TEST=skgpu and tools R=robertphillips@google.com, bsalomon@google.com Review URL: https://codereview.chromium.org/139743010 git-svn-id: http://skia.googlecode.com/svn/trunk@13146 2bbb7eff-a529-9590-31e7-b0007b416f81
301 lines
13 KiB
C++
301 lines
13 KiB
C++
/*
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* Copyright 2012 Google Inc.
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*
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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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#include "GrStrokePathRenderer.h"
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#include "GrDrawTarget.h"
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#include "SkPath.h"
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#include "SkStrokeRec.h"
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static bool is_clockwise(const SkVector& before, const SkVector& after) {
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return before.cross(after) > 0;
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}
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enum IntersectionType {
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kNone_IntersectionType,
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kIn_IntersectionType,
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kOut_IntersectionType
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};
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static IntersectionType intersection(const SkPoint& p1, const SkPoint& p2,
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const SkPoint& p3, const SkPoint& p4,
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SkPoint& res) {
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// Store the values for fast access and easy
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// equations-to-code conversion
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SkScalar x1 = p1.x(), x2 = p2.x(), x3 = p3.x(), x4 = p4.x();
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SkScalar y1 = p1.y(), y2 = p2.y(), y3 = p3.y(), y4 = p4.y();
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SkScalar d = SkScalarMul(x1 - x2, y3 - y4) - SkScalarMul(y1 - y2, x3 - x4);
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// If d is zero, there is no intersection
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if (SkScalarNearlyZero(d)) {
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return kNone_IntersectionType;
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}
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// Get the x and y
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SkScalar pre = SkScalarMul(x1, y2) - SkScalarMul(y1, x2),
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post = SkScalarMul(x3, y4) - SkScalarMul(y3, x4);
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// Compute the point of intersection
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res.set(SkScalarDiv(SkScalarMul(pre, x3 - x4) - SkScalarMul(x1 - x2, post), d),
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SkScalarDiv(SkScalarMul(pre, y3 - y4) - SkScalarMul(y1 - y2, post), d));
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// Check if the x and y coordinates are within both lines
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return (res.x() < GrMin(x1, x2) || res.x() > GrMax(x1, x2) ||
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res.x() < GrMin(x3, x4) || res.x() > GrMax(x3, x4) ||
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res.y() < GrMin(y1, y2) || res.y() > GrMax(y1, y2) ||
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res.y() < GrMin(y3, y4) || res.y() > GrMax(y3, y4)) ?
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kOut_IntersectionType : kIn_IntersectionType;
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}
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GrStrokePathRenderer::GrStrokePathRenderer() {
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}
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bool GrStrokePathRenderer::canDrawPath(const SkPath& path,
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const SkStrokeRec& stroke,
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const GrDrawTarget* target,
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bool antiAlias) const {
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// FIXME : put the proper condition once GrDrawTarget::isOpaque is implemented
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const bool isOpaque = true; // target->isOpaque();
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// FIXME : remove this requirement once we have AA circles and implement the
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// circle joins/caps appropriately in the ::onDrawPath() function.
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const bool requiresAACircle = (stroke.getCap() == SkPaint::kRound_Cap) ||
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(stroke.getJoin() == SkPaint::kRound_Join);
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// Indices being stored in uint16, we don't want to overflow the indices capacity
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static const int maxVBSize = 1 << 16;
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const int maxNbVerts = (path.countPoints() + 1) * 5;
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// Check that the path contains no curved lines, only straight lines
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static const uint32_t unsupportedMask = SkPath::kQuad_SegmentMask | SkPath::kCubic_SegmentMask;
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// Must not be filled nor hairline nor semi-transparent
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// Note : May require a check to path.isConvex() if AA is supported
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return ((stroke.getStyle() == SkStrokeRec::kStroke_Style) && (maxNbVerts < maxVBSize) &&
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!path.isInverseFillType() && isOpaque && !requiresAACircle && !antiAlias &&
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((path.getSegmentMasks() & unsupportedMask) == 0));
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}
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bool GrStrokePathRenderer::onDrawPath(const SkPath& origPath,
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const SkStrokeRec& stroke,
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GrDrawTarget* target,
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bool antiAlias) {
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if (origPath.isEmpty()) {
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return true;
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}
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SkScalar width = stroke.getWidth();
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if (width <= 0) {
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return false;
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}
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// Get the join type
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SkPaint::Join join = stroke.getJoin();
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SkScalar miterLimit = stroke.getMiter();
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SkScalar sqMiterLimit = SkScalarMul(miterLimit, miterLimit);
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if ((join == SkPaint::kMiter_Join) && (miterLimit <= SK_Scalar1)) {
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// If the miter limit is small, treat it as a bevel join
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join = SkPaint::kBevel_Join;
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}
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const bool isMiter = (join == SkPaint::kMiter_Join);
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const bool isBevel = (join == SkPaint::kBevel_Join);
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SkScalar invMiterLimit = isMiter ? SK_Scalar1 / miterLimit : 0;
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SkScalar invMiterLimitSq = SkScalarMul(invMiterLimit, invMiterLimit);
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// Allocate vertices
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const int nbQuads = origPath.countPoints() + 1; // Could be "-1" if path is not closed
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const int extraVerts = isMiter || isBevel ? 1 : 0;
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const int maxVertexCount = nbQuads * (4 + extraVerts);
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const int maxIndexCount = nbQuads * (6 + extraVerts * 3); // Each extra vert adds a triangle
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target->drawState()->setDefaultVertexAttribs();
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GrDrawTarget::AutoReleaseGeometry arg(target, maxVertexCount, maxIndexCount);
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if (!arg.succeeded()) {
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return false;
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}
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SkPoint* verts = reinterpret_cast<SkPoint*>(arg.vertices());
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uint16_t* idxs = reinterpret_cast<uint16_t*>(arg.indices());
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int vCount = 0, iCount = 0;
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// Transform the path into a list of triangles
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SkPath::Iter iter(origPath, false);
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SkPoint pts[4];
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const SkScalar radius = SkScalarMul(width, 0.5f);
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SkPoint *firstPt = verts, *lastPt = NULL;
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SkVector firstDir, dir;
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firstDir.set(0, 0);
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dir.set(0, 0);
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bool isOpen = true;
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for(SkPath::Verb v = iter.next(pts); v != SkPath::kDone_Verb; v = iter.next(pts)) {
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switch(v) {
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case SkPath::kMove_Verb:
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// This will already be handled as pts[0] of the 1st line
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break;
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case SkPath::kClose_Verb:
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isOpen = (lastPt == NULL);
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break;
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case SkPath::kLine_Verb:
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{
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SkVector v0 = dir;
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dir = pts[1] - pts[0];
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if (dir.setLength(radius)) {
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SkVector dirT;
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dirT.set(dir.fY, -dir.fX); // Get perpendicular direction
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SkPoint l1a = pts[0]+dirT, l1b = pts[1]+dirT,
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l2a = pts[0]-dirT, l2b = pts[1]-dirT;
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SkPoint miterPt[2];
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bool useMiterPoint = false;
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int idx0(-1), idx1(-1);
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if (NULL == lastPt) {
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firstDir = dir;
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} else {
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SkVector v1 = dir;
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if (v0.normalize() && v1.normalize()) {
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SkScalar dotProd = v0.dot(v1);
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// No need for bevel or miter join if the angle
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// is either 0 or 180 degrees
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if (!SkScalarNearlyZero(dotProd + SK_Scalar1) &&
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!SkScalarNearlyZero(dotProd - SK_Scalar1)) {
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bool ccw = !is_clockwise(v0, v1);
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int offset = ccw ? 1 : 0;
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idx0 = vCount-2+offset;
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idx1 = vCount+offset;
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const SkPoint* pt0 = &(lastPt[offset]);
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const SkPoint* pt1 = ccw ? &l2a : &l1a;
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switch(join) {
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case SkPaint::kMiter_Join:
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{
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// *Note : Logic is from MiterJoiner
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// FIXME : Special case if we have a right angle ?
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// if (SkScalarNearlyZero(dotProd)) {...}
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SkScalar sinHalfAngleSq =
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SkScalarHalf(SK_Scalar1 + dotProd);
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if (sinHalfAngleSq >= invMiterLimitSq) {
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// Find the miter point (or points if it is further
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// than the miter limit)
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const SkPoint pt2 = *pt0+v0, pt3 = *pt1+v1;
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if (intersection(*pt0, pt2, *pt1, pt3, miterPt[0]) !=
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kNone_IntersectionType) {
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SkPoint miterPt0 = miterPt[0] - *pt0;
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SkPoint miterPt1 = miterPt[0] - *pt1;
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SkScalar sqDist0 = miterPt0.dot(miterPt0);
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SkScalar sqDist1 = miterPt1.dot(miterPt1);
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const SkScalar rSq =
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SkScalarDiv(SkScalarMul(radius, radius),
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sinHalfAngleSq);
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const SkScalar sqRLimit =
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SkScalarMul(sqMiterLimit, rSq);
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if (sqDist0 > sqRLimit || sqDist1 > sqRLimit) {
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if (sqDist1 > sqRLimit) {
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v1.setLength(SkScalarSqrt(sqRLimit));
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miterPt[1] = *pt1+v1;
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} else {
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miterPt[1] = miterPt[0];
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}
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if (sqDist0 > sqRLimit) {
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v0.setLength(SkScalarSqrt(sqRLimit));
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miterPt[0] = *pt0+v0;
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}
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} else {
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miterPt[1] = miterPt[0];
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}
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useMiterPoint = true;
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}
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}
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if (useMiterPoint && (miterPt[1] == miterPt[0])) {
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break;
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}
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}
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default:
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case SkPaint::kBevel_Join:
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{
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// Note : This currently causes some overdraw where both
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// lines initially intersect. We'd need to add
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// another line intersection check here if the
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// overdraw becomes an issue instead of using the
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// current point directly.
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// Add center point
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*verts++ = pts[0]; // Use current point directly
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// This idx is passed the current point so increment it
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++idx1;
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// Add center triangle
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*idxs++ = idx0;
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*idxs++ = vCount;
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*idxs++ = idx1;
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vCount++;
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iCount += 3;
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}
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break;
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}
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}
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}
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}
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*verts++ = l1a;
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*verts++ = l2a;
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lastPt = verts;
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*verts++ = l1b;
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*verts++ = l2b;
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if (useMiterPoint && (idx0 >= 0) && (idx1 >= 0)) {
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firstPt[idx0] = miterPt[0];
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firstPt[idx1] = miterPt[1];
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}
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// 1st triangle
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*idxs++ = vCount+0;
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*idxs++ = vCount+2;
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*idxs++ = vCount+1;
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// 2nd triangle
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*idxs++ = vCount+1;
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*idxs++ = vCount+2;
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*idxs++ = vCount+3;
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vCount += 4;
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iCount += 6;
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}
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}
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break;
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case SkPath::kQuad_Verb:
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case SkPath::kCubic_Verb:
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SkDEBUGFAIL("Curves not supported!");
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default:
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// Unhandled cases
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SkASSERT(false);
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}
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}
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if (isOpen) {
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// Add caps
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switch (stroke.getCap()) {
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case SkPaint::kSquare_Cap:
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firstPt[0] -= firstDir;
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firstPt[1] -= firstDir;
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lastPt [0] += dir;
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lastPt [1] += dir;
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break;
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case SkPaint::kRound_Cap:
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SkDEBUGFAIL("Round caps not supported!");
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default: // No cap
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break;
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}
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}
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SkASSERT(vCount <= maxVertexCount);
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SkASSERT(iCount <= maxIndexCount);
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if (vCount > 0) {
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target->drawIndexed(kTriangles_GrPrimitiveType,
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0, // start vertex
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0, // start index
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vCount,
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iCount);
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}
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return true;
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}
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