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530 lines
22 KiB
530 lines
22 KiB
/*
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* Copyright 2013 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 "PathOpsTestCommon.h"
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#include "SkIntersections.h"
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#include "SkOpContour.h"
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#include "SkOpSegment.h"
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#include "SkRandom.h"
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#include "SkTSort.h"
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#include "Test.h"
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static bool gDisableAngleTests = true;
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static float next(float f)
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{
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int fBits = SkFloatAs2sCompliment(f);
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++fBits;
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float fNext = Sk2sComplimentAsFloat(fBits);
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return fNext;
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}
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static float prev(float f)
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{
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int fBits = SkFloatAs2sCompliment(f);
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--fBits;
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float fNext = Sk2sComplimentAsFloat(fBits);
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return fNext;
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}
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DEF_TEST(PathOpsAngleFindCrossEpsilon, reporter) {
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if (gDisableAngleTests) {
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return;
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}
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SkRandom ran;
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int maxEpsilon = 0;
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for (int index = 0; index < 10000000; ++index) {
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SkDLine line = {{{0, 0}, {ran.nextRangeF(0.0001f, 1000), ran.nextRangeF(0.0001f, 1000)}}};
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for (int inner = 0; inner < 10; ++inner) {
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float t = ran.nextRangeF(0.0001f, 1);
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SkDPoint dPt = line.ptAtT(t);
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SkPoint pt = dPt.asSkPoint();
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float xs[3] = { prev(pt.fX), pt.fX, next(pt.fX) };
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float ys[3] = { prev(pt.fY), pt.fY, next(pt.fY) };
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for (int xIdx = 0; xIdx < 3; ++xIdx) {
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for (int yIdx = 0; yIdx < 3; ++yIdx) {
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SkPoint test = { xs[xIdx], ys[yIdx] };
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float p1 = SkDoubleToScalar(line[1].fX * test.fY);
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float p2 = SkDoubleToScalar(line[1].fY * test.fX);
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int p1Bits = SkFloatAs2sCompliment(p1);
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int p2Bits = SkFloatAs2sCompliment(p2);
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int epsilon = SkTAbs(p1Bits - p2Bits);
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if (maxEpsilon < epsilon) {
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SkDebugf("line={{0, 0}, {%1.7g, %1.7g}} t=%1.7g pt={%1.7g, %1.7g}"
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" epsilon=%d\n",
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line[1].fX, line[1].fY, t, test.fX, test.fY, epsilon);
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maxEpsilon = epsilon;
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}
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}
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}
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}
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}
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}
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DEF_TEST(PathOpsAngleFindQuadEpsilon, reporter) {
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if (gDisableAngleTests) {
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return;
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}
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SkRandom ran;
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int maxEpsilon = 0;
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double maxAngle = 0;
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for (int index = 0; index < 100000; ++index) {
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SkDLine line = {{{0, 0}, {ran.nextRangeF(0.0001f, 1000), ran.nextRangeF(0.0001f, 1000)}}};
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float t = ran.nextRangeF(0.0001f, 1);
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SkDPoint dPt = line.ptAtT(t);
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float t2 = ran.nextRangeF(0.0001f, 1);
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SkDPoint qPt = line.ptAtT(t2);
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float t3 = ran.nextRangeF(0.0001f, 1);
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SkDPoint qPt2 = line.ptAtT(t3);
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qPt.fX += qPt2.fY;
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qPt.fY -= qPt2.fX;
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QuadPts q = {{line[0], dPt, qPt}};
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SkDQuad quad;
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quad.debugSet(q.fPts);
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// binary search for maximum movement of quad[1] towards test that still has 1 intersection
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double moveT = 0.5f;
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double deltaT = moveT / 2;
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SkDPoint last;
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do {
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last = quad[1];
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quad[1].fX = dPt.fX - line[1].fY * moveT;
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quad[1].fY = dPt.fY + line[1].fX * moveT;
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SkIntersections i;
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i.intersect(quad, line);
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REPORTER_ASSERT(reporter, i.used() > 0);
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if (i.used() == 1) {
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moveT += deltaT;
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} else {
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moveT -= deltaT;
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}
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deltaT /= 2;
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} while (last.asSkPoint() != quad[1].asSkPoint());
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float p1 = SkDoubleToScalar(line[1].fX * last.fY);
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float p2 = SkDoubleToScalar(line[1].fY * last.fX);
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int p1Bits = SkFloatAs2sCompliment(p1);
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int p2Bits = SkFloatAs2sCompliment(p2);
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int epsilon = SkTAbs(p1Bits - p2Bits);
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if (maxEpsilon < epsilon) {
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SkDebugf("line={{0, 0}, {%1.7g, %1.7g}} t=%1.7g/%1.7g/%1.7g moveT=%1.7g"
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" pt={%1.7g, %1.7g} epsilon=%d\n",
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line[1].fX, line[1].fY, t, t2, t3, moveT, last.fX, last.fY, epsilon);
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maxEpsilon = epsilon;
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}
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double a1 = atan2(line[1].fY, line[1].fX);
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double a2 = atan2(last.fY, last.fX);
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double angle = fabs(a1 - a2);
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if (maxAngle < angle) {
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SkDebugf("line={{0, 0}, {%1.7g, %1.7g}} t=%1.7g/%1.7g/%1.7g moveT=%1.7g"
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" pt={%1.7g, %1.7g} angle=%1.7g\n",
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line[1].fX, line[1].fY, t, t2, t3, moveT, last.fX, last.fY, angle);
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maxAngle = angle;
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}
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}
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}
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static int find_slop(double x, double y, double rx, double ry) {
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int slopBits = 0;
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bool less1, less2;
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double absX = fabs(x);
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double absY = fabs(y);
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double length = absX < absY ? absX / 2 + absY : absX + absY / 2;
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int exponent;
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(void) frexp(length, &exponent);
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double epsilon = ldexp(FLT_EPSILON, exponent);
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do {
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// get the length as the larger plus half the smaller (both same signs)
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// find the ulps of the length
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// compute the offsets from there
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double xSlop = epsilon * slopBits;
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double ySlop = x * y < 0 ? -xSlop : xSlop; // OPTIMIZATION: use copysign / _copysign ?
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double x1 = x - xSlop;
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double y1 = y + ySlop;
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double x_ry1 = x1 * ry;
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double rx_y1 = rx * y1;
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less1 = x_ry1 < rx_y1;
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double x2 = x + xSlop;
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double y2 = y - ySlop;
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double x_ry2 = x2 * ry;
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double rx_y2 = rx * y2;
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less2 = x_ry2 < rx_y2;
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} while (less1 == less2 && ++slopBits);
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return slopBits;
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}
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// from http://stackoverflow.com/questions/1427422/cheap-algorithm-to-find-measure-of-angle-between-vectors
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static double diamond_angle(double y, double x)
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{
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if (y >= 0)
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return (x >= 0 ? y/(x+y) : 1-x/(-x+y));
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else
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return (x < 0 ? 2-y/(-x-y) : 3+x/(x-y));
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}
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static const double slopTests[][4] = {
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// x y rx ry
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{-0.058554756452593892, -0.18804585843827226, -0.018568569646021160, -0.059615294434479438},
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{-0.0013717412948608398, 0.0041152238845825195, -0.00045837944195925573, 0.0013753175735478074},
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{-2.1033774145221198, -1.4046019261273715e-008, -0.70062688352066704, -1.2706324683777995e-008},
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};
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DEF_TEST(PathOpsAngleFindSlop, reporter) {
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if (gDisableAngleTests) {
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return;
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}
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for (int index = 0; index < (int) SK_ARRAY_COUNT(slopTests); ++index) {
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const double* slopTest = slopTests[index];
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double x = slopTest[0];
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double y = slopTest[1];
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double rx = slopTest[2];
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double ry = slopTest[3];
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SkDebugf("%s xy %d=%d\n", __FUNCTION__, index, find_slop(x, y, rx, ry));
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SkDebugf("%s rxy %d=%d\n", __FUNCTION__, index, find_slop(rx, ry, x, y));
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double angle = diamond_angle(y, x);
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double rAngle = diamond_angle(ry, rx);
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double diff = fabs(angle - rAngle);
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SkDebugf("%s diamond xy=%1.9g rxy=%1.9g diff=%1.9g factor=%d\n", __FUNCTION__,
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angle, rAngle, diff, (int) (diff / FLT_EPSILON));
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}
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}
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class PathOpsAngleTester {
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public:
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static int After(SkOpAngle& lh, SkOpAngle& rh) {
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return lh.after(&rh);
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}
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static int AllOnOneSide(SkOpAngle& lh, SkOpAngle& rh) {
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return lh.lineOnOneSide(&rh, false);
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}
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static int ConvexHullOverlaps(SkOpAngle& lh, SkOpAngle& rh) {
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return lh.convexHullOverlaps(&rh);
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}
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static int Orderable(SkOpAngle& lh, SkOpAngle& rh) {
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return lh.orderable(&rh);
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}
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static int EndsIntersect(SkOpAngle& lh, SkOpAngle& rh) {
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return lh.endsIntersect(&rh);
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}
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static void SetNext(SkOpAngle& lh, SkOpAngle& rh) {
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lh.fNext = &rh;
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}
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};
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class PathOpsSegmentTester {
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public:
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static void DebugReset(SkOpSegment* segment) {
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segment->debugReset();
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}
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};
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struct CircleData {
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const CubicPts fPts;
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const int fPtCount;
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SkPoint fShortPts[4];
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};
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static CircleData circleDataSet[] = {
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{ {{{313.0155029296875, 207.90290832519531}, {320.05078125, 227.58743286132812}}}, 2, {} },
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{ {{{313.0155029296875, 207.90290832519531}, {313.98246891063195, 219.33615203830394},
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{320.05078125, 227.58743286132812}}}, 3, {} },
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};
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static const int circleDataSetSize = (int) SK_ARRAY_COUNT(circleDataSet);
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DEF_TEST(PathOpsAngleCircle, reporter) {
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SkSTArenaAlloc<4096> allocator;
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SkOpContourHead contour;
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SkOpGlobalState state(&contour, &allocator SkDEBUGPARAMS(false) SkDEBUGPARAMS(nullptr));
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contour.init(&state, false, false);
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for (int index = 0; index < circleDataSetSize; ++index) {
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CircleData& data = circleDataSet[index];
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for (int idx2 = 0; idx2 < data.fPtCount; ++idx2) {
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data.fShortPts[idx2] = data.fPts.fPts[idx2].asSkPoint();
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}
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switch (data.fPtCount) {
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case 2:
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contour.addLine(data.fShortPts);
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break;
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case 3:
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contour.addQuad(data.fShortPts);
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break;
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case 4:
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contour.addCubic(data.fShortPts);
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break;
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}
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}
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SkOpSegment* first = contour.first();
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first->debugAddAngle(0, 1);
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SkOpSegment* next = first->next();
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next->debugAddAngle(0, 1);
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PathOpsAngleTester::Orderable(*first->debugLastAngle(), *next->debugLastAngle());
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}
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struct IntersectData {
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const CubicPts fPts;
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const int fPtCount;
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double fTStart;
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double fTEnd;
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SkPoint fShortPts[4];
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};
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static IntersectData intersectDataSet1[] = {
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{ {{{322.935669,231.030273}, {312.832214,220.393295}, {312.832214,203.454178}}}, 3,
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0.865309956, 0.154740299, {} },
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{ {{{322.12738,233.397751}, {295.718353,159.505829}}}, 2,
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0.345028807, 0.0786326511, {} },
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{ {{{322.935669,231.030273}, {312.832214,220.393295}, {312.832214,203.454178}}}, 3,
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0.865309956, 1, {} },
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{ {{{322.12738,233.397751}, {295.718353,159.505829}}}, 2,
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0.345028807, 1, {} },
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};
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static IntersectData intersectDataSet2[] = {
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{ {{{364.390686,157.898193}, {375.281769,136.674606}, {396.039917,136.674606}}}, 3,
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0.578520747, 1, {} },
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{ {{{364.390686,157.898193}, {375.281769,136.674606}, {396.039917,136.674606}}}, 3,
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0.578520747, 0.536512973, {} },
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{ {{{366.608826,151.196014}, {378.803101,136.674606}, {398.164948,136.674606}}}, 3,
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0.490456543, 1, {} },
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};
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static IntersectData intersectDataSet3[] = {
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{ {{{2.000000,0.000000}, {1.33333333,0.66666667}}}, 2, 1, 0, {} },
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{ {{{1.33333333,0.66666667}, {0.000000,2.000000}}}, 2, 0, 0.25, {} },
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{ {{{2.000000,2.000000}, {1.33333333,0.66666667}}}, 2, 1, 0, {} },
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};
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static IntersectData intersectDataSet4[] = {
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{ {{{1.3333333,0.6666667}, {0.000,2.000}}}, 2, 0.250000006, 0, {} },
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{ {{{1.000,0.000}, {1.000,1.000}}}, 2, 1, 0, {} },
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{ {{{1.000,1.000}, {0.000,0.000}}}, 2, 0, 1, {} },
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};
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static IntersectData intersectDataSet5[] = {
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{ {{{0.000,0.000}, {1.000,0.000}, {1.000,1.000}}}, 3, 1, 0.666666667, {} },
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{ {{{0.000,0.000}, {2.000,1.000}, {0.000,2.000}}}, 3, 0.5, 1, {} },
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{ {{{0.000,0.000}, {2.000,1.000}, {0.000,2.000}}}, 3, 0.5, 0, {} },
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};
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static IntersectData intersectDataSet6[] = { // pathops_visualizer.htm:3658
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{ {{{0.000,1.000}, {3.000,4.000}, {1.000,0.000}, {3.000,0.000}}}, 4, 0.0925339054, 0, {} }, // pathops_visualizer.htm:3616
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{ {{{0.000,1.000}, {0.000,3.000}, {1.000,0.000}, {4.000,3.000}}}, 4, 0.453872386, 0, {} }, // pathops_visualizer.htm:3616
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{ {{{0.000,1.000}, {3.000,4.000}, {1.000,0.000}, {3.000,0.000}}}, 4, 0.0925339054, 0.417096368, {} }, // pathops_visualizer.htm:3616
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};
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static IntersectData intersectDataSet7[] = { // pathops_visualizer.htm:3748
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{ {{{2.000,1.000}, {0.000,1.000}}}, 2, 0.5, 0, {} }, // pathops_visualizer.htm:3706
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{ {{{2.000,0.000}, {0.000,2.000}}}, 2, 0.5, 1, {} }, // pathops_visualizer.htm:3706
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{ {{{0.000,1.000}, {0.000,2.000}, {2.000,0.000}, {2.000,1.000}}}, 4, 0.5, 1, {} }, // pathops_visualizer.htm:3706
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}; //
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static IntersectData intersectDataSet8[] = { // pathops_visualizer.htm:4194
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{ {{{0.000,1.000}, {2.000,3.000}, {5.000,1.000}, {4.000,3.000}}}, 4, 0.311007457, 0.285714286, {} }, // pathops_visualizer.htm:4152
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{ {{{1.000,5.000}, {3.000,4.000}, {1.000,0.000}, {3.000,2.000}}}, 4, 0.589885081, 0.999982974, {} }, // pathops_visualizer.htm:4152
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{ {{{1.000,5.000}, {3.000,4.000}, {1.000,0.000}, {3.000,2.000}}}, 4, 0.589885081, 0.576935809, {} }, // pathops_visualizer.htm:4152
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}; //
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static IntersectData intersectDataSet9[] = { // pathops_visualizer.htm:4142
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{ {{{0.000,1.000}, {2.000,3.000}, {5.000,1.000}, {4.000,3.000}}}, 4, 0.476627072, 0.311007457, {} }, // pathops_visualizer.htm:4100
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{ {{{1.000,5.000}, {3.000,4.000}, {1.000,0.000}, {3.000,2.000}}}, 4, 0.999982974, 1, {} }, // pathops_visualizer.htm:4100
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{ {{{0.000,1.000}, {2.000,3.000}, {5.000,1.000}, {4.000,3.000}}}, 4, 0.476627072, 1, {} }, // pathops_visualizer.htm:4100
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}; //
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static IntersectData intersectDataSet10[] = { // pathops_visualizer.htm:4186
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{ {{{0.000,1.000}, {1.000,6.000}, {1.000,0.000}, {1.000,0.000}}}, 4, 0.788195121, 0.726275769, {} }, // pathops_visualizer.htm:4144
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{ {{{0.000,1.000}, {0.000,1.000}, {1.000,0.000}, {6.000,1.000}}}, 4, 0.473378977, 1, {} }, // pathops_visualizer.htm:4144
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{ {{{0.000,1.000}, {1.000,6.000}, {1.000,0.000}, {1.000,0.000}}}, 4, 0.788195121, 1, {} }, // pathops_visualizer.htm:4144
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}; //
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static IntersectData intersectDataSet11[] = { // pathops_visualizer.htm:4704
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{ {{{979.305,561.000}, {1036.695,291.000}}}, 2, 0.888888874, 0.11111108, {} }, // pathops_visualizer.htm:4662
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{ {{{1006.695,291.000}, {1023.264,291.000}, {1033.840,304.431}, {1030.318,321.000}}}, 4, 1, 0, {} }, // pathops_visualizer.htm:4662
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{ {{{979.305,561.000}, {1036.695,291.000}}}, 2, 0.888888874, 1, {} }, // pathops_visualizer.htm:4662
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}; //
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static IntersectData intersectDataSet12[] = { // pathops_visualizer.htm:5481
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{ {{{67.000,912.000}, {67.000,913.000}}}, 2, 1, 0, {} }, // pathops_visualizer.htm:5439
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{ {{{67.000,913.000}, {67.000,917.389}, {67.224,921.726}, {67.662,926.000}}}, 4, 0, 1, {} }, // pathops_visualizer.htm:5439
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{ {{{194.000,1041.000}, {123.860,1041.000}, {67.000,983.692}, {67.000,913.000}}}, 4, 1, 0, {} }, // pathops_visualizer.htm:5439
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}; //
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static IntersectData intersectDataSet13[] = { // pathops_visualizer.htm:5735
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{ {{{6.000,0.000}, {0.000,4.000}}}, 2, 0.625, 0.25, {} }, // pathops_visualizer.htm:5693
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{ {{{0.000,1.000}, {0.000,6.000}, {4.000,0.000}, {6.000,1.000}}}, 4, 0.5, 0.833333333, {} }, // pathops_visualizer.htm:5693
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{ {{{0.000,1.000}, {0.000,6.000}, {4.000,0.000}, {6.000,1.000}}}, 4, 0.5, 0.379043969, {} }, // pathops_visualizer.htm:5693
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}; //
|
|
|
|
static IntersectData intersectDataSet14[] = { // pathops_visualizer.htm:5875
|
|
{ {{{0.000,1.000}, {4.000,6.000}, {2.000,1.000}, {2.000,0.000}}}, 4, 0.0756502183, 0.0594570973, {} }, // pathops_visualizer.htm:5833
|
|
{ {{{1.000,2.000}, {0.000,2.000}, {1.000,0.000}, {6.000,4.000}}}, 4, 0.0756502184, 0, {} }, // pathops_visualizer.htm:5833
|
|
{ {{{0.000,1.000}, {4.000,6.000}, {2.000,1.000}, {2.000,0.000}}}, 4, 0.0756502183, 0.531917258, {} }, // pathops_visualizer.htm:5833
|
|
}; //
|
|
|
|
static IntersectData intersectDataSet15[] = { // pathops_visualizer.htm:6580
|
|
{ {{{490.435,879.407}, {405.593,909.436}}}, 2, 0.500554405, 1, {} }, // pathops_visualizer.htm:6538
|
|
{ {{{447.967,894.438}, {448.007,894.424}, {448.014,894.422}}}, 3, 0, 1, {} }, // pathops_visualizer.htm:6538
|
|
{ {{{490.435,879.407}, {405.593,909.436}}}, 2, 0.500554405, 0.500000273, {} }, // pathops_visualizer.htm:6538
|
|
}; //
|
|
|
|
static IntersectData intersectDataSet16[] = { // pathops_visualizer.htm:7419
|
|
{ {{{1.000,4.000}, {4.000,5.000}, {3.000,2.000}, {6.000,3.000}}}, 4, 0.5, 0, {} }, // pathops_visualizer.htm:7377
|
|
{ {{{2.000,3.000}, {3.000,6.000}, {4.000,1.000}, {5.000,4.000}}}, 4, 0.5, 0.112701665, {} }, // pathops_visualizer.htm:7377
|
|
{ {{{5.000,4.000}, {2.000,3.000}}}, 2, 0.5, 0, {} }, // pathops_visualizer.htm:7377
|
|
}; //
|
|
|
|
// from skpi_gino_com_16
|
|
static IntersectData intersectDataSet17[] = {
|
|
{ /*seg=7*/ {{{270.974121f, 770.025879f}, {234.948273f, 734}, {184, 734}}}
|
|
, 3, 0.74590454, 0.547660352, {} },
|
|
{ /*seg=8*/ {{{185, 734}, {252.93103f, 734}, {308, 789.06897f}, {308, 857}}}
|
|
, 4, 0.12052623, 0, {} },
|
|
{ /*seg=7*/ {{{270.974121f, 770.025879f}, {234.948273f, 734}, {184, 734}}}
|
|
, 3, 0.74590454, 1, {} },
|
|
};
|
|
|
|
static IntersectData intersectDataSet18[] = {
|
|
{ /*seg=7*/ {{{270.974121f, 770.025879f}, {234.948273f, 734}, {184, 734}}}
|
|
, 3, 0.74590454, 1, {} },
|
|
{ /*seg=8*/ {{{185, 734}, {252.93103f, 734}, {308, 789.06897f}, {308, 857}}}
|
|
, 4, 0.12052623, 0.217351928, {} },
|
|
{ /*seg=7*/ {{{270.974121f, 770.025879f}, {234.948273f, 734}, {184, 734}}}
|
|
, 3, 0.74590454, 0.547660352, {} },
|
|
};
|
|
|
|
static IntersectData intersectDataSet19[] = {
|
|
{ /*seg=1*/ {{{0, 1}, {3, 5}, {2, 1}, {3, 1}}}
|
|
, 4, 0.135148995, 0.134791946, {} },
|
|
{ /*seg=3*/ {{{1, 2}, {1, 2.15061641f}, {1, 2.21049166f}, {1.01366711f, 2.21379328f}}}
|
|
, 4, 0.956740456, 0.894913214, {} },
|
|
{ /*seg=1*/ {{{0, 1}, {3, 5}, {2, 1}, {3, 1}}}
|
|
, 4, 0.135148995, 0.551812363, {} },
|
|
};
|
|
|
|
#define I(x) intersectDataSet##x
|
|
|
|
static IntersectData* intersectDataSets[] = {
|
|
I(1), I(2), I(3), I(4), I(5), I(6), I(7), I(8), I(9), I(10),
|
|
I(11), I(12), I(13), I(14), I(15), I(16), I(17), I(18), I(19),
|
|
};
|
|
|
|
#undef I
|
|
#define I(x) (int) SK_ARRAY_COUNT(intersectDataSet##x)
|
|
|
|
static const int intersectDataSetSizes[] = {
|
|
I(1), I(2), I(3), I(4), I(5), I(6), I(7), I(8), I(9), I(10),
|
|
I(11), I(12), I(13), I(14), I(15), I(16), I(17), I(18), I(19),
|
|
};
|
|
|
|
#undef I
|
|
|
|
static const int intersectDataSetsSize = (int) SK_ARRAY_COUNT(intersectDataSetSizes);
|
|
|
|
struct FourPoints {
|
|
SkPoint pts[4];
|
|
};
|
|
|
|
DEF_TEST(PathOpsAngleAfter, reporter) {
|
|
SkSTArenaAlloc<4096> allocator;
|
|
SkOpContourHead contour;
|
|
SkOpGlobalState state(&contour, &allocator SkDEBUGPARAMS(false) SkDEBUGPARAMS(nullptr));
|
|
contour.init(&state, false, false);
|
|
for (int index = intersectDataSetsSize - 1; index >= 0; --index) {
|
|
IntersectData* dataArray = intersectDataSets[index];
|
|
const int dataSize = intersectDataSetSizes[index];
|
|
for (int index2 = 0; index2 < dataSize - 2; ++index2) {
|
|
allocator.reset();
|
|
contour.reset();
|
|
for (int index3 = 0; index3 < 3; ++index3) {
|
|
IntersectData& data = dataArray[index2 + index3];
|
|
SkPoint* temp = (SkPoint*) allocator.make<FourPoints>();
|
|
for (int idx2 = 0; idx2 < data.fPtCount; ++idx2) {
|
|
temp[idx2] = data.fPts.fPts[idx2].asSkPoint();
|
|
}
|
|
switch (data.fPtCount) {
|
|
case 2: {
|
|
contour.addLine(temp);
|
|
} break;
|
|
case 3: {
|
|
contour.addQuad(temp);
|
|
} break;
|
|
case 4: {
|
|
contour.addCubic(temp);
|
|
} break;
|
|
}
|
|
}
|
|
SkOpSegment* seg1 = contour.first();
|
|
seg1->debugAddAngle(dataArray[index2 + 0].fTStart, dataArray[index2 + 0].fTEnd);
|
|
SkOpSegment* seg2 = seg1->next();
|
|
seg2->debugAddAngle(dataArray[index2 + 1].fTStart, dataArray[index2 + 1].fTEnd);
|
|
SkOpSegment* seg3 = seg2->next();
|
|
seg3->debugAddAngle(dataArray[index2 + 2].fTStart, dataArray[index2 + 2].fTEnd);
|
|
SkOpAngle& angle1 = *seg1->debugLastAngle();
|
|
SkOpAngle& angle2 = *seg2->debugLastAngle();
|
|
SkOpAngle& angle3 = *seg3->debugLastAngle();
|
|
PathOpsAngleTester::SetNext(angle1, angle3);
|
|
// These data sets are seeded when the set itself fails, so likely the dataset does not
|
|
// match the expected result. The tests above return 1 when first added, but
|
|
// return 0 after the bug is fixed.
|
|
SkDEBUGCODE(int result =) PathOpsAngleTester::After(angle2, angle1);
|
|
SkASSERT(result == 0 || result == 1);
|
|
}
|
|
}
|
|
}
|
|
|
|
void SkOpSegment::debugAddAngle(double startT, double endT) {
|
|
SkOpPtT* startPtT = startT == 0 ? fHead.ptT() : startT == 1 ? fTail.ptT()
|
|
: this->addT(startT);
|
|
SkOpPtT* endPtT = endT == 0 ? fHead.ptT() : endT == 1 ? fTail.ptT()
|
|
: this->addT(endT);
|
|
SkOpAngle* angle = this->globalState()->allocator()->make<SkOpAngle>();
|
|
SkOpSpanBase* startSpan = &fHead;
|
|
while (startSpan->ptT() != startPtT) {
|
|
startSpan = startSpan->upCast()->next();
|
|
}
|
|
SkOpSpanBase* endSpan = &fHead;
|
|
while (endSpan->ptT() != endPtT) {
|
|
endSpan = endSpan->upCast()->next();
|
|
}
|
|
angle->set(startSpan, endSpan);
|
|
if (startT < endT) {
|
|
startSpan->upCast()->setToAngle(angle);
|
|
endSpan->setFromAngle(angle);
|
|
} else {
|
|
endSpan->upCast()->setToAngle(angle);
|
|
startSpan->setFromAngle(angle);
|
|
}
|
|
}
|
|
|
|
DEF_TEST(PathOpsAngleAllOnOneSide, reporter) {
|
|
SkSTArenaAlloc<4096> allocator;
|
|
SkOpContourHead contour;
|
|
SkOpGlobalState state(&contour, &allocator SkDEBUGPARAMS(false) SkDEBUGPARAMS(nullptr));
|
|
contour.init(&state, false, false);
|
|
SkPoint conicPts[3] = {{494.37100219726562f, 224.66200256347656f},
|
|
{494.37360910682298f, 224.6729026561527f},
|
|
{494.37600708007813f, 224.68400573730469f}};
|
|
SkPoint linePts[2] = {{494.371002f, 224.662003f}, {494.375000f, 224.675995f}};
|
|
for (int i = 10; i >= 0; --i) {
|
|
SkPoint modLinePts[2] = { linePts[0], linePts[1] };
|
|
modLinePts[1].fX += i * .1f;
|
|
contour.addLine(modLinePts);
|
|
contour.addQuad(conicPts);
|
|
// contour.addConic(conicPts, 0.999935746f, &allocator);
|
|
SkOpSegment* first = contour.first();
|
|
first->debugAddAngle(0, 1);
|
|
SkOpSegment* next = first->next();
|
|
next->debugAddAngle(0, 1);
|
|
/* int result = */
|
|
PathOpsAngleTester::AllOnOneSide(*first->debugLastAngle(), *next->debugLastAngle());
|
|
// SkDebugf("i=%d result=%d\n", i , result);
|
|
// SkDebugf("");
|
|
}
|
|
}
|