2011-07-28 14:26:00 +00:00
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/*
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* Copyright 2011 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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2013-12-12 21:11:12 +00:00
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2019-04-23 17:05:21 +00:00
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#include "include/core/SkScalar.h"
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#include "src/core/SkMathPriv.h"
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#include "src/core/SkPointPriv.h"
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#include "tests/Test.h"
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2011-06-08 14:46:28 +00:00
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/*
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Duplicates lots of code from gpu/src/GrPathUtils.cpp
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2011-06-24 15:43:24 +00:00
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It'd be nice not to do so, but that code's set up currently to only have
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a single implementation.
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2011-06-08 14:46:28 +00:00
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*/
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2011-06-24 15:43:24 +00:00
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// Sk uses 6, Gr (implicitly) used 10, both apparently arbitrarily.
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2011-06-08 14:46:28 +00:00
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#define MAX_COEFF_SHIFT 6
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static const uint32_t MAX_POINTS_PER_CURVE = 1 << MAX_COEFF_SHIFT;
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2011-06-24 15:43:24 +00:00
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// max + 0.5 min has error [0.0, 0.12]
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// max + 0.375 min has error [-.03, 0.07]
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// 0.96043387 max + 0.397824735 min has error [-.06, +.05]
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// For determining the maximum possible number of points to use in
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// drawing a quadratic, we want to err on the high side.
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2011-06-08 14:46:28 +00:00
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static inline int cheap_distance(SkScalar dx, SkScalar dy) {
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2013-12-17 19:22:07 +00:00
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int idx = SkAbs32(SkScalarRoundToInt(dx));
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int idy = SkAbs32(SkScalarRoundToInt(dy));
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2011-06-08 14:46:28 +00:00
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if (idx > idy) {
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idx += idy >> 1;
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} else {
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idx = idy + (idx >> 1);
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}
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return idx;
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}
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2011-06-24 15:43:24 +00:00
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static inline int estimate_distance(const SkPoint points[]) {
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return cheap_distance(points[1].fX * 2 - points[2].fX - points[0].fX,
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points[1].fY * 2 - points[2].fY - points[0].fY);
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2011-06-08 14:46:28 +00:00
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}
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2011-06-24 15:43:24 +00:00
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static inline SkScalar compute_distance(const SkPoint points[]) {
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2017-11-08 16:44:31 +00:00
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return SkPointPriv::DistanceToLineSegmentBetween(points[1], points[0], points[2]);
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2011-06-24 15:43:24 +00:00
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}
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2011-06-08 14:46:28 +00:00
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2011-06-24 15:43:24 +00:00
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static inline uint32_t estimate_pointCount(int distance) {
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// Includes -2 bias because this estimator runs 4x high?
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int shift = 30 - SkCLZ(distance);
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// Clamp to zero if above subtraction went negative.
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shift &= ~(shift>>31);
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2011-06-08 14:46:28 +00:00
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if (shift > MAX_COEFF_SHIFT) {
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shift = MAX_COEFF_SHIFT;
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}
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2011-06-24 15:43:24 +00:00
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return 1 << shift;
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2011-06-08 14:46:28 +00:00
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}
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2011-06-24 15:43:24 +00:00
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static inline uint32_t compute_pointCount(SkScalar d, SkScalar tol) {
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2011-06-08 14:46:28 +00:00
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if (d < tol) {
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return 1;
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} else {
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2015-05-12 17:37:34 +00:00
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int temp = SkScalarCeilToInt(SkScalarSqrt(d / tol));
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2020-02-06 16:25:43 +00:00
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uint32_t count = std::min<uint32_t>(SkNextPow2(temp), MAX_POINTS_PER_CURVE);
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2011-06-08 14:46:28 +00:00
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return count;
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}
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}
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2013-02-27 19:17:41 +00:00
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static uint32_t quadraticPointCount_EE(const SkPoint points[]) {
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2011-06-24 15:43:24 +00:00
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int distance = estimate_distance(points);
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return estimate_pointCount(distance);
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}
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2012-06-06 12:03:39 +00:00
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static uint32_t quadraticPointCount_EC(const SkPoint points[], SkScalar tol) {
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2011-06-24 15:43:24 +00:00
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int distance = estimate_distance(points);
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return compute_pointCount(SkIntToScalar(distance), tol);
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}
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2013-02-27 19:17:41 +00:00
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static uint32_t quadraticPointCount_CE(const SkPoint points[]) {
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2011-06-24 15:43:24 +00:00
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SkScalar distance = compute_distance(points);
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2013-12-17 19:22:07 +00:00
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return estimate_pointCount(SkScalarRoundToInt(distance));
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2011-06-24 15:43:24 +00:00
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}
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2012-06-06 12:03:39 +00:00
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static uint32_t quadraticPointCount_CC(const SkPoint points[], SkScalar tol) {
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2011-06-24 15:43:24 +00:00
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SkScalar distance = compute_distance(points);
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return compute_pointCount(distance, tol);
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}
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2011-06-08 14:46:28 +00:00
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// Curve from samplecode/SampleSlides.cpp
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static const int gXY[] = {
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4, 0, 0, -4, 8, -4, 12, 0, 8, 4, 0, 4
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};
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static const int gSawtooth[] = {
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0, 0, 10, 10, 20, 20, 30, 10, 40, 0, 50, -10, 60, -20, 70, -10, 80, 0
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};
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static const int gOvalish[] = {
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0, 0, 5, 15, 20, 20, 35, 15, 40, 0
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};
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static const int gSharpSawtooth[] = {
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0, 0, 1, 10, 2, 0, 3, -10, 4, 0
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};
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// Curve crosses back over itself around 0,10
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static const int gRibbon[] = {
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-4, 0, 4, 20, 0, 25, -4, 20, 4, 0
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};
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static bool one_d_pe(const int* array, const unsigned int count,
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skiatest::Reporter* reporter) {
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SkPoint path [3];
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path[1] = SkPoint::Make(SkIntToScalar(array[0]), SkIntToScalar(array[1]));
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path[2] = SkPoint::Make(SkIntToScalar(array[2]), SkIntToScalar(array[3]));
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int numErrors = 0;
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2011-06-24 15:43:24 +00:00
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for (unsigned i = 4; i < count; i += 2) {
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2011-06-08 14:46:28 +00:00
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path[0] = path[1];
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path[1] = path[2];
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path[2] = SkPoint::Make(SkIntToScalar(array[i]),
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SkIntToScalar(array[i+1]));
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uint32_t computedCount =
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2011-06-24 15:43:24 +00:00
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quadraticPointCount_CC(path, SkIntToScalar(1));
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2011-06-08 14:46:28 +00:00
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uint32_t estimatedCount =
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2013-02-27 19:17:41 +00:00
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quadraticPointCount_EE(path);
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2012-08-23 18:14:13 +00:00
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2012-06-06 12:03:39 +00:00
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if (false) { // avoid bit rot, suppress warning
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computedCount =
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quadraticPointCount_EC(path, SkIntToScalar(1));
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estimatedCount =
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2013-02-27 19:17:41 +00:00
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quadraticPointCount_CE(path);
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2012-06-06 12:03:39 +00:00
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}
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2011-06-24 15:43:24 +00:00
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// Allow estimated to be high by a factor of two, but no less than
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// the computed value.
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bool isAccurate = (estimatedCount >= computedCount) &&
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(estimatedCount <= 2 * computedCount);
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if (!isAccurate) {
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2014-01-10 14:58:10 +00:00
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ERRORF(reporter, "Curve from %.2f %.2f through %.2f %.2f to "
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"%.2f %.2f computes %d, estimates %d\n",
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path[0].fX, path[0].fY, path[1].fX, path[1].fY,
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path[2].fX, path[2].fY, computedCount, estimatedCount);
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2011-06-08 14:46:28 +00:00
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numErrors++;
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}
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}
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return (numErrors == 0);
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}
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static void TestQuadPointCount(skiatest::Reporter* reporter) {
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one_d_pe(gXY, SK_ARRAY_COUNT(gXY), reporter);
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one_d_pe(gSawtooth, SK_ARRAY_COUNT(gSawtooth), reporter);
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one_d_pe(gOvalish, SK_ARRAY_COUNT(gOvalish), reporter);
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one_d_pe(gSharpSawtooth, SK_ARRAY_COUNT(gSharpSawtooth), reporter);
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one_d_pe(gRibbon, SK_ARRAY_COUNT(gRibbon), reporter);
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}
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2013-12-12 21:11:12 +00:00
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DEF_TEST(PathCoverage, reporter) {
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2011-06-08 14:46:28 +00:00
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TestQuadPointCount(reporter);
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}
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