60c9b58b32
BUG=skia: GOLD_TRYBOT_URL= https://gold.skia.org/search2?unt=true&query=source_type%3Dgm&master=false&issue=1855733002 Review URL: https://codereview.chromium.org/1855733002
395 lines
13 KiB
C++
395 lines
13 KiB
C++
/*
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* Copyright 2006 The Android Open Source Project
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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 "SkDashPathEffect.h"
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#include "SkDashPathPriv.h"
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#include "SkReadBuffer.h"
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#include "SkWriteBuffer.h"
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#include "SkStrokeRec.h"
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SkDashPathEffect::SkDashPathEffect(const SkScalar intervals[], int count, SkScalar phase)
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: fPhase(0)
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, fInitialDashLength(-1)
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, fInitialDashIndex(0)
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, fIntervalLength(0) {
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SkASSERT(intervals);
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SkASSERT(count > 1 && SkAlign2(count) == count);
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fIntervals = (SkScalar*)sk_malloc_throw(sizeof(SkScalar) * count);
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fCount = count;
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for (int i = 0; i < count; i++) {
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fIntervals[i] = intervals[i];
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}
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// set the internal data members
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SkDashPath::CalcDashParameters(phase, fIntervals, fCount,
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&fInitialDashLength, &fInitialDashIndex, &fIntervalLength, &fPhase);
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}
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SkDashPathEffect::~SkDashPathEffect() {
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sk_free(fIntervals);
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}
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bool SkDashPathEffect::filterPath(SkPath* dst, const SkPath& src,
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SkStrokeRec* rec, const SkRect* cullRect) const {
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return SkDashPath::InternalFilter(dst, src, rec, cullRect, fIntervals, fCount,
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fInitialDashLength, fInitialDashIndex, fIntervalLength);
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}
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static void outset_for_stroke(SkRect* rect, const SkStrokeRec& rec) {
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SkScalar radius = SkScalarHalf(rec.getWidth());
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if (0 == radius) {
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radius = SK_Scalar1; // hairlines
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}
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if (SkPaint::kMiter_Join == rec.getJoin()) {
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radius = SkScalarMul(radius, rec.getMiter());
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}
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rect->outset(radius, radius);
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}
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// Attempt to trim the line to minimally cover the cull rect (currently
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// only works for horizontal and vertical lines).
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// Return true if processing should continue; false otherwise.
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static bool cull_line(SkPoint* pts, const SkStrokeRec& rec,
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const SkMatrix& ctm, const SkRect* cullRect,
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const SkScalar intervalLength) {
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if (nullptr == cullRect) {
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SkASSERT(false); // Shouldn't ever occur in practice
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return false;
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}
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SkScalar dx = pts[1].x() - pts[0].x();
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SkScalar dy = pts[1].y() - pts[0].y();
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if ((dx && dy) || (!dx && !dy)) {
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return false;
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}
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SkRect bounds = *cullRect;
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outset_for_stroke(&bounds, rec);
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// cullRect is in device space while pts are in the local coordinate system
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// defined by the ctm. We want our answer in the local coordinate system.
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SkASSERT(ctm.rectStaysRect());
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SkMatrix inv;
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if (!ctm.invert(&inv)) {
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return false;
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}
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inv.mapRect(&bounds);
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if (dx) {
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SkASSERT(dx && !dy);
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SkScalar minX = pts[0].fX;
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SkScalar maxX = pts[1].fX;
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if (dx < 0) {
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SkTSwap(minX, maxX);
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}
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SkASSERT(minX < maxX);
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if (maxX <= bounds.fLeft || minX >= bounds.fRight) {
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return false;
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}
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// Now we actually perform the chop, removing the excess to the left and
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// right of the bounds (keeping our new line "in phase" with the dash,
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// hence the (mod intervalLength).
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if (minX < bounds.fLeft) {
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minX = bounds.fLeft - SkScalarMod(bounds.fLeft - minX, intervalLength);
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}
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if (maxX > bounds.fRight) {
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maxX = bounds.fRight + SkScalarMod(maxX - bounds.fRight, intervalLength);
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}
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SkASSERT(maxX > minX);
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if (dx < 0) {
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SkTSwap(minX, maxX);
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}
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pts[0].fX = minX;
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pts[1].fX = maxX;
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} else {
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SkASSERT(dy && !dx);
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SkScalar minY = pts[0].fY;
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SkScalar maxY = pts[1].fY;
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if (dy < 0) {
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SkTSwap(minY, maxY);
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}
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SkASSERT(minY < maxY);
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if (maxY <= bounds.fTop || minY >= bounds.fBottom) {
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return false;
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}
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// Now we actually perform the chop, removing the excess to the top and
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// bottom of the bounds (keeping our new line "in phase" with the dash,
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// hence the (mod intervalLength).
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if (minY < bounds.fTop) {
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minY = bounds.fTop - SkScalarMod(bounds.fTop - minY, intervalLength);
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}
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if (maxY > bounds.fBottom) {
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maxY = bounds.fBottom + SkScalarMod(maxY - bounds.fBottom, intervalLength);
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}
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SkASSERT(maxY > minY);
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if (dy < 0) {
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SkTSwap(minY, maxY);
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}
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pts[0].fY = minY;
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pts[1].fY = maxY;
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}
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return true;
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}
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// Currently asPoints is more restrictive then it needs to be. In the future
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// we need to:
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// allow kRound_Cap capping (could allow rotations in the matrix with this)
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// allow paths to be returned
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bool SkDashPathEffect::asPoints(PointData* results,
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const SkPath& src,
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const SkStrokeRec& rec,
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const SkMatrix& matrix,
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const SkRect* cullRect) const {
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// width < 0 -> fill && width == 0 -> hairline so requiring width > 0 rules both out
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if (0 >= rec.getWidth()) {
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return false;
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}
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// TODO: this next test could be eased up. We could allow any number of
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// intervals as long as all the ons match and all the offs match.
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// Additionally, they do not necessarily need to be integers.
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// We cannot allow arbitrary intervals since we want the returned points
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// to be uniformly sized.
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if (fCount != 2 ||
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!SkScalarNearlyEqual(fIntervals[0], fIntervals[1]) ||
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!SkScalarIsInt(fIntervals[0]) ||
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!SkScalarIsInt(fIntervals[1])) {
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return false;
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}
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SkPoint pts[2];
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if (!src.isLine(pts)) {
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return false;
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}
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// TODO: this test could be eased up to allow circles
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if (SkPaint::kButt_Cap != rec.getCap()) {
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return false;
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}
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// TODO: this test could be eased up for circles. Rotations could be allowed.
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if (!matrix.rectStaysRect()) {
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return false;
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}
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// See if the line can be limited to something plausible.
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if (!cull_line(pts, rec, matrix, cullRect, fIntervalLength)) {
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return false;
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}
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SkScalar length = SkPoint::Distance(pts[1], pts[0]);
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SkVector tangent = pts[1] - pts[0];
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if (tangent.isZero()) {
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return false;
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}
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tangent.scale(SkScalarInvert(length));
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// TODO: make this test for horizontal & vertical lines more robust
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bool isXAxis = true;
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if (SkScalarNearlyEqual(SK_Scalar1, tangent.fX) ||
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SkScalarNearlyEqual(-SK_Scalar1, tangent.fX)) {
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results->fSize.set(SkScalarHalf(fIntervals[0]), SkScalarHalf(rec.getWidth()));
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} else if (SkScalarNearlyEqual(SK_Scalar1, tangent.fY) ||
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SkScalarNearlyEqual(-SK_Scalar1, tangent.fY)) {
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results->fSize.set(SkScalarHalf(rec.getWidth()), SkScalarHalf(fIntervals[0]));
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isXAxis = false;
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} else if (SkPaint::kRound_Cap != rec.getCap()) {
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// Angled lines don't have axis-aligned boxes.
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return false;
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}
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if (results) {
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results->fFlags = 0;
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SkScalar clampedInitialDashLength = SkMinScalar(length, fInitialDashLength);
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if (SkPaint::kRound_Cap == rec.getCap()) {
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results->fFlags |= PointData::kCircles_PointFlag;
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}
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results->fNumPoints = 0;
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SkScalar len2 = length;
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if (clampedInitialDashLength > 0 || 0 == fInitialDashIndex) {
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SkASSERT(len2 >= clampedInitialDashLength);
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if (0 == fInitialDashIndex) {
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if (clampedInitialDashLength > 0) {
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if (clampedInitialDashLength >= fIntervals[0]) {
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++results->fNumPoints; // partial first dash
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}
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len2 -= clampedInitialDashLength;
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}
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len2 -= fIntervals[1]; // also skip first space
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if (len2 < 0) {
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len2 = 0;
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}
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} else {
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len2 -= clampedInitialDashLength; // skip initial partial empty
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}
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}
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int numMidPoints = SkScalarFloorToInt(len2 / fIntervalLength);
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results->fNumPoints += numMidPoints;
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len2 -= numMidPoints * fIntervalLength;
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bool partialLast = false;
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if (len2 > 0) {
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if (len2 < fIntervals[0]) {
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partialLast = true;
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} else {
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++numMidPoints;
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++results->fNumPoints;
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}
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}
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results->fPoints = new SkPoint[results->fNumPoints];
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SkScalar distance = 0;
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int curPt = 0;
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if (clampedInitialDashLength > 0 || 0 == fInitialDashIndex) {
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SkASSERT(clampedInitialDashLength <= length);
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if (0 == fInitialDashIndex) {
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if (clampedInitialDashLength > 0) {
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// partial first block
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SkASSERT(SkPaint::kRound_Cap != rec.getCap()); // can't handle partial circles
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SkScalar x = pts[0].fX + SkScalarMul(tangent.fX, SkScalarHalf(clampedInitialDashLength));
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SkScalar y = pts[0].fY + SkScalarMul(tangent.fY, SkScalarHalf(clampedInitialDashLength));
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SkScalar halfWidth, halfHeight;
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if (isXAxis) {
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halfWidth = SkScalarHalf(clampedInitialDashLength);
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halfHeight = SkScalarHalf(rec.getWidth());
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} else {
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halfWidth = SkScalarHalf(rec.getWidth());
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halfHeight = SkScalarHalf(clampedInitialDashLength);
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}
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if (clampedInitialDashLength < fIntervals[0]) {
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// This one will not be like the others
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results->fFirst.addRect(x - halfWidth, y - halfHeight,
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x + halfWidth, y + halfHeight);
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} else {
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SkASSERT(curPt < results->fNumPoints);
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results->fPoints[curPt].set(x, y);
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++curPt;
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}
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distance += clampedInitialDashLength;
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}
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distance += fIntervals[1]; // skip over the next blank block too
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} else {
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distance += clampedInitialDashLength;
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}
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}
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if (0 != numMidPoints) {
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distance += SkScalarHalf(fIntervals[0]);
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for (int i = 0; i < numMidPoints; ++i) {
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SkScalar x = pts[0].fX + SkScalarMul(tangent.fX, distance);
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SkScalar y = pts[0].fY + SkScalarMul(tangent.fY, distance);
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SkASSERT(curPt < results->fNumPoints);
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results->fPoints[curPt].set(x, y);
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++curPt;
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distance += fIntervalLength;
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}
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distance -= SkScalarHalf(fIntervals[0]);
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}
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if (partialLast) {
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// partial final block
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SkASSERT(SkPaint::kRound_Cap != rec.getCap()); // can't handle partial circles
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SkScalar temp = length - distance;
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SkASSERT(temp < fIntervals[0]);
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SkScalar x = pts[0].fX + SkScalarMul(tangent.fX, distance + SkScalarHalf(temp));
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SkScalar y = pts[0].fY + SkScalarMul(tangent.fY, distance + SkScalarHalf(temp));
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SkScalar halfWidth, halfHeight;
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if (isXAxis) {
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halfWidth = SkScalarHalf(temp);
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halfHeight = SkScalarHalf(rec.getWidth());
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} else {
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halfWidth = SkScalarHalf(rec.getWidth());
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halfHeight = SkScalarHalf(temp);
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}
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results->fLast.addRect(x - halfWidth, y - halfHeight,
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x + halfWidth, y + halfHeight);
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}
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SkASSERT(curPt == results->fNumPoints);
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}
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return true;
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}
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SkPathEffect::DashType SkDashPathEffect::asADash(DashInfo* info) const {
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if (info) {
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if (info->fCount >= fCount && info->fIntervals) {
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memcpy(info->fIntervals, fIntervals, fCount * sizeof(SkScalar));
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}
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info->fCount = fCount;
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info->fPhase = fPhase;
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}
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return kDash_DashType;
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}
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void SkDashPathEffect::flatten(SkWriteBuffer& buffer) const {
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buffer.writeScalar(fPhase);
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buffer.writeScalarArray(fIntervals, fCount);
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}
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sk_sp<SkFlattenable> SkDashPathEffect::CreateProc(SkReadBuffer& buffer) {
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const SkScalar phase = buffer.readScalar();
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uint32_t count = buffer.getArrayCount();
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SkAutoSTArray<32, SkScalar> intervals(count);
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if (buffer.readScalarArray(intervals.get(), count)) {
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return Make(intervals.get(), SkToInt(count), phase);
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}
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return nullptr;
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}
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#ifndef SK_IGNORE_TO_STRING
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void SkDashPathEffect::toString(SkString* str) const {
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str->appendf("SkDashPathEffect: (");
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str->appendf("count: %d phase %.2f intervals: (", fCount, fPhase);
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for (int i = 0; i < fCount; ++i) {
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str->appendf("%.2f", fIntervals[i]);
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if (i < fCount-1) {
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str->appendf(", ");
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}
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}
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str->appendf("))");
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}
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#endif
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//////////////////////////////////////////////////////////////////////////////////////////////////
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sk_sp<SkPathEffect> SkDashPathEffect::Make(const SkScalar intervals[], int count, SkScalar phase) {
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if (!SkDashPath::ValidDashPath(phase, intervals, count)) {
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return nullptr;
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}
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return sk_sp<SkPathEffect>(new SkDashPathEffect(intervals, count, phase));
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}
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