tests/TessellatingPathRendererTests.cpp - platform/external/skqp - Gitiles

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "Test.h"

 #include "SkPath.h"

 #if SK_SUPPORT_GPU
 #include "GrClip.h"
 #include "GrContext.h"
 #include "GrContextPriv.h"
 #include "SkGradientShader.h"
 #include "SkShaderBase.h"
 #include "effects/GrPorterDuffXferProcessor.h"
 #include "ops/GrTessellatingPathRenderer.h"

 /*
  * These tests pass by not crashing, hanging or asserting in Debug.
  */

 // Tests active edges made inactive by splitting.
 // Also tests active edge list forced into an invalid ordering by
 // splitting (mopped up in cleanup_active_edges()).
 static SkPath create_path_0() {
     SkPath path;
     path.moveTo(229.127044677734375f,  67.34100341796875f);
     path.lineTo(187.8097381591796875f, -6.7729740142822265625f);
     path.lineTo(171.411407470703125f,  50.94266510009765625f);
     path.lineTo(245.5253753662109375f,  9.6253643035888671875f);
     path.moveTo(208.4683990478515625f, 30.284009933471679688f);
     path.lineTo(171.411407470703125f,  50.94266510009765625f);
     path.lineTo(187.8097381591796875f, -6.7729740142822265625f);
     return path;
 }

 // Intersections which fall exactly on the current vertex, and require
 // a restart of the intersection checking.
 static SkPath create_path_1() {
     SkPath path;
     path.moveTo(314.483551025390625f, 486.246002197265625f);
     path.lineTo(385.41949462890625f,  532.8087158203125f);
     path.lineTo(373.232879638671875f, 474.05938720703125f);
     path.lineTo(326.670166015625f,    544.995361328125f);
     path.moveTo(349.951507568359375f, 509.52734375f);
     path.lineTo(373.232879638671875f, 474.05938720703125f);
     path.lineTo(385.41949462890625f,  532.8087158203125f);
     return path;
 }

 // Tests active edges which are removed by splitting.
 static SkPath create_path_2() {
     SkPath path;
     path.moveTo(343.107391357421875f, 613.62176513671875f);
     path.lineTo(426.632415771484375f, 628.5740966796875f);
     path.lineTo(392.3460693359375f,   579.33544921875f);
     path.lineTo(377.39373779296875f,  662.86041259765625f);
     path.moveTo(384.869873046875f,    621.097900390625f);
     path.lineTo(392.3460693359375f,   579.33544921875f);
     path.lineTo(426.632415771484375f, 628.5740966796875f);
     return path;
 }

 // Collinear edges merged in set_top().
 // Also, an intersection between left and right enclosing edges which
 // falls above the current vertex.
 static SkPath create_path_3() {
     SkPath path;
     path.moveTo(545.95751953125f,    791.69854736328125f);
     path.lineTo(612.05816650390625f, 738.494140625f);
     path.lineTo(552.4056396484375f,  732.0460205078125f);
     path.lineTo(605.61004638671875f, 798.14666748046875f);
     path.moveTo(579.00787353515625f, 765.0963134765625f);
     path.lineTo(552.4056396484375f,  732.0460205078125f);
     path.lineTo(612.05816650390625f, 738.494140625f);
     return path;
 }

 // Tests active edges which are made inactive by set_top().
 static SkPath create_path_4() {
     SkPath path;
     path.moveTo(819.2725830078125f,  751.77447509765625f);
     path.lineTo(820.70904541015625f, 666.933837890625f);
     path.lineTo(777.57049560546875f, 708.63592529296875f);
     path.lineTo(862.4111328125f,     710.0723876953125f);
     path.moveTo(819.99078369140625f, 709.3541259765625f);
     path.lineTo(777.57049560546875f, 708.63592529296875f);
     path.lineTo(820.70904541015625f, 666.933837890625f);
     return path;
 }

 static SkPath create_path_5() {
     SkPath path;
     path.moveTo(823.33209228515625f, 749.052734375f);
     path.lineTo(823.494873046875f,   664.20013427734375f);
     path.lineTo(780.9871826171875f,  706.5450439453125f);
     path.lineTo(865.8397216796875f,  706.70782470703125f);
     path.moveTo(823.4134521484375f,  706.6263427734375f);
     path.lineTo(780.9871826171875f,  706.5450439453125f);
     path.lineTo(823.494873046875f,   664.20013427734375f);
     return path;
 }

 static SkPath create_path_6() {
     SkPath path;
     path.moveTo(954.862548828125f,   562.8349609375f);
     path.lineTo(899.32818603515625f, 498.679443359375f);
     path.lineTo(895.017578125f,      558.52435302734375f);
     path.lineTo(959.17315673828125f, 502.990081787109375f);
     path.moveTo(927.0953369140625f,  530.7572021484375f);
     path.lineTo(895.017578125f,      558.52435302734375f);
     path.lineTo(899.32818603515625f, 498.679443359375f);
     return path;
 }

 static SkPath create_path_7() {
     SkPath path;
     path.moveTo(958.5330810546875f,  547.35516357421875f);
     path.lineTo(899.93109130859375f, 485.989013671875f);
     path.lineTo(898.54901123046875f, 545.97308349609375f);
     path.lineTo(959.9151611328125f,  487.37109375f);
     path.moveTo(929.2320556640625f,  516.67205810546875f);
     path.lineTo(898.54901123046875f, 545.97308349609375f);
     path.lineTo(899.93109130859375f, 485.989013671875f);
     return path;
 }

 static SkPath create_path_8() {
     SkPath path;
     path.moveTo(389.8609619140625f,   369.326873779296875f);
     path.lineTo(470.6290283203125f,   395.33697509765625f);
     path.lineTo(443.250030517578125f, 341.9478759765625f);
     path.lineTo(417.239959716796875f, 422.7159423828125f);
     path.moveTo(430.244964599609375f, 382.3319091796875f);
     path.lineTo(443.250030517578125f, 341.9478759765625f);
     path.lineTo(470.6290283203125f,   395.33697509765625f);
     return path;
 }

 static SkPath create_path_9() {
     SkPath path;
     path.moveTo(20, 20);
     path.lineTo(50, 80);
     path.lineTo(20, 80);
     path.moveTo(80, 50);
     path.lineTo(50, 50);
     path.lineTo(20, 50);
     return path;
 }

 static SkPath create_path_10() {
     SkPath path;
     path.moveTo(257.19439697265625f, 320.876617431640625f);
     path.lineTo(190.113037109375f,   320.58978271484375f);
     path.lineTo(203.64404296875f,    293.8145751953125f);
     path.moveTo(203.357177734375f,   360.896026611328125f);
     path.lineTo(216.88824462890625f, 334.120819091796875f);
     path.lineTo(230.41925048828125f, 307.345611572265625f);
     return path;
 }

 // A degenerate segments case, where both upper and lower segments of
 // a split edge must remain active.
 static SkPath create_path_11() {
     SkPath path;
     path.moveTo(231.9331207275390625f, 306.2012939453125f);
     path.lineTo(191.4859161376953125f, 306.04547119140625f);
     path.lineTo(231.0659332275390625f, 300.2642822265625f);
     path.moveTo(189.946807861328125f,  302.072265625f);
     path.lineTo(179.79705810546875f,   294.859771728515625f);
     path.lineTo(191.0016021728515625f, 296.165679931640625f);
     path.moveTo(150.8942108154296875f, 304.900146484375f);
     path.lineTo(179.708892822265625f,  297.849029541015625f);
     path.lineTo(190.4742279052734375f, 299.11895751953125f);
     return path;
 }

 // Handle the case where edge.dist(edge.fTop) != 0.0.
 static SkPath create_path_12() {
     SkPath path;
     path.moveTo(                  0.0f,  400.0f);
     path.lineTo(                138.0f,  202.0f);
     path.lineTo(                  0.0f,  202.0f);
     path.moveTo( 12.62693023681640625f,  250.57464599609375f);
     path.lineTo(  8.13896942138671875f,  254.556884765625f);
     path.lineTo(-18.15641021728515625f,  220.40203857421875f);
     path.lineTo(-15.986493110656738281f, 219.6513519287109375f);
     path.moveTo( 36.931194305419921875f, 282.485504150390625f);
     path.lineTo( 15.617521286010742188f, 261.2901611328125f);
     path.lineTo( 10.3829498291015625f,   252.565765380859375f);
     path.lineTo(-16.165292739868164062f, 222.646026611328125f);
     return path;
 }

 // A degenerate segments case which exercises inactive edges being
 // made active by splitting.
 static SkPath create_path_13() {
     SkPath path;
     path.moveTo(690.62127685546875f, 509.25555419921875f);
     path.lineTo(99.336181640625f,    511.71405029296875f);
     path.lineTo(708.362548828125f,   512.4349365234375f);
     path.lineTo(729.9940185546875f,  516.3114013671875f);
     path.lineTo(738.708984375f,      518.76995849609375f);
     path.lineTo(678.3463134765625f,  510.0819091796875f);
     path.lineTo(681.21795654296875f, 504.81378173828125f);
     path.moveTo(758.52764892578125f, 521.55963134765625f);
     path.lineTo(719.1549072265625f,  514.50372314453125f);
     path.lineTo(689.59063720703125f, 512.0628662109375f);
     path.lineTo(679.78216552734375f, 507.447845458984375f);
     return path;
 }

 // Tests vertices which become "orphaned" (ie., no connected edges)
 // after simplification.
 static SkPath create_path_14() {
     SkPath path;
     path.moveTo(217.326019287109375f, 166.4752960205078125f);
     path.lineTo(226.279266357421875f, 170.929473876953125f);
     path.lineTo(234.3973388671875f,   177.0623626708984375f);
     path.lineTo(262.0921630859375f,   188.746124267578125f);
     path.moveTo(196.23638916015625f,  174.0722198486328125f);
     path.lineTo(416.15277099609375f,  180.138214111328125f);
     path.lineTo(192.651947021484375f, 304.0228271484375f);
     return path;
 }

 static SkPath create_path_15() {
     SkPath path;
     path.moveTo(    0.0f,   0.0f);
     path.lineTo(10000.0f,   0.0f);
     path.lineTo(    0.0f,  -1.0f);
     path.lineTo(10000.0f,   0.000001f);
     path.lineTo(    0.0f, -30.0f);
     return path;
 }

 // Reduction of Nebraska-StateSeal.svg. Floating point error causes the
 // same edge to be added to more than one poly on the same side.
 static SkPath create_path_16() {
     SkPath path;
     path.moveTo(170.8199920654296875,   491.86700439453125);
     path.lineTo(173.7649993896484375,    489.7340087890625);
     path.lineTo(174.1450958251953125,  498.545989990234375);
     path.lineTo( 171.998992919921875,   500.88201904296875);
     path.moveTo(168.2922515869140625,   498.66265869140625);
     path.lineTo(169.8589935302734375,   497.94500732421875);
     path.lineTo(                 172,   500.88299560546875);
     path.moveTo( 169.555267333984375,   490.70111083984375);
     path.lineTo(173.7649993896484375,    489.7340087890625);
     path.lineTo(  170.82000732421875,   491.86700439453125);
     return path;
 }

 // A simple concave path. Test this with a non-invertible matrix.
 static SkPath create_path_17() {
     SkPath path;
     path.moveTo(20, 20);
     path.lineTo(80, 20);
     path.lineTo(30, 30);
     path.lineTo(20, 80);
     return path;
 }

 // A shape with a vertex collinear to the right hand edge.
 // This messes up find_enclosing_edges.
 static SkPath create_path_18() {
     SkPath path;
     path.moveTo(80, 20);
     path.lineTo(80, 60);
     path.lineTo(20, 60);
     path.moveTo(80, 50);
     path.lineTo(80, 80);
     path.lineTo(20, 80);
     return path;
 }

 // Exercises the case where an edge becomes collinear with *two* of its
 // adjacent neighbour edges after splitting.
 // This is a reduction from
 // http://mooooo.ooo/chebyshev-sine-approximation/horner_ulp.svg
 static SkPath create_path_19() {
     SkPath path;
     path.moveTo(  351.99298095703125,         348.23046875);
     path.lineTo(  351.91876220703125,         347.33984375);
     path.lineTo(  351.91876220703125,          346.1953125);
     path.lineTo(  351.90313720703125,           347.734375);
     path.lineTo(  351.90313720703125,          346.1328125);
     path.lineTo(  351.87579345703125,         347.93359375);
     path.lineTo(  351.87579345703125,           345.484375);
     path.lineTo(  351.86407470703125,          347.7890625);
     path.lineTo(  351.86407470703125,          346.2109375);
     path.lineTo(  351.84844970703125,   347.63763427734375);
     path.lineTo(  351.84454345703125,   344.19232177734375);
     path.lineTo(  351.78204345703125,    346.9483642578125);
     path.lineTo( 351.758636474609375,      347.18310546875);
     path.lineTo(  351.75469970703125,               346.75);
     path.lineTo(  351.75469970703125,            345.46875);
     path.lineTo(         352.5546875,            345.46875);
     path.lineTo(        352.55078125,         347.01953125);
     path.lineTo(  351.75079345703125,   347.02313232421875);
     path.lineTo(  351.74688720703125,   346.15203857421875);
     path.lineTo(  351.74688720703125,  347.646148681640625);
     path.lineTo(         352.5390625,         346.94140625);
     path.lineTo(  351.73907470703125,   346.94268798828125);
     path.lineTo(  351.73516845703125,   344.48565673828125);
     path.lineTo(          352.484375,         346.73828125);
     path.lineTo(  351.68438720703125,    346.7401123046875);
     path.lineTo(         352.4765625,           346.546875);
     path.lineTo(  351.67657470703125,   346.54937744140625);
     path.lineTo(        352.47265625,         346.75390625);
     path.lineTo(  351.67266845703125,  346.756622314453125);
     path.lineTo(  351.66876220703125,  345.612091064453125);
     return path;
 }

 // An intersection above the first vertex in the mesh.
 // Reduction from http://crbug.com/730687
 static SkPath create_path_20() {
     SkPath path;
     path.moveTo(           2822128.5,  235.026336669921875);
     path.lineTo(          2819349.25, 235.3623504638671875);
     path.lineTo(          -340558688, 23.83478546142578125);
     path.lineTo(          -340558752, 25.510419845581054688);
     path.lineTo(          -340558720, 27.18605804443359375);
     return path;
 }

 // An intersection whose result is NaN (due to rounded-to-inf endpoint).
 static SkPath create_path_21() {
     SkPath path;
     path.moveTo(1.7889142061167663539e+38, 39338463358011572224.0);
     path.lineTo(  1647.4193115234375,       -522.603515625);
     path.lineTo(    1677.74560546875,   -529.0028076171875);
     path.lineTo(    1678.29541015625,   -528.7847900390625);
     path.lineTo(  1637.5167236328125,  -519.79266357421875);
     path.lineTo(  1647.4193115234375,       -522.603515625);
     return path;
 }

 // A quad which becomes NaN when interpolated.
 static SkPath create_path_22() {
     SkPath path;
     path.moveTo(-5.71889e+13f, 1.36759e+09f);
     path.quadTo(2.45472e+19f, -3.12406e+15f, -2.19589e+18f, 2.79462e+14f);
     return path;
 }

 // A path which contains out-of-range colinear intersections.
 static SkPath create_path_23() {
     SkPath path;
     path.moveTo(                   0, 63.39080047607421875);
     path.lineTo(-0.70804601907730102539, 63.14350128173828125);
     path.lineTo(-7.8608899287380243391e-17, 64.14080047607421875);
     path.moveTo(                   0, 64.14080047607421875);
     path.lineTo(44.285900115966796875, 64.14080047607421875);
     path.lineTo(                   0, 62.64080047607421875);
     path.moveTo(21.434900283813476562, -0.24732701480388641357);
     path.lineTo(-0.70804601907730102539, 63.14350128173828125);
     path.lineTo(0.70804601907730102539,  63.6381988525390625);
     return path;
 }

 // A path which results in infs and nans when conics are converted to quads.
 static SkPath create_path_24() {
      SkPath path;
      path.moveTo(-2.20883e+37f, -1.02892e+37f);
      path.conicTo(-2.00958e+38f, -9.36107e+37f, -1.7887e+38f, -8.33215e+37f, 0.707107f);
      path.conicTo(-1.56782e+38f, -7.30323e+37f, 2.20883e+37f, 1.02892e+37f, 0.707107f);
      path.conicTo(2.00958e+38f, 9.36107e+37f, 1.7887e+38f, 8.33215e+37f, 0.707107f);
      path.conicTo(1.56782e+38f, 7.30323e+37f, -2.20883e+37f, -1.02892e+37f, 0.707107f);
      return path;
 }

 static std::unique_ptr<GrFragmentProcessor> create_linear_gradient_processor(GrContext* ctx) {
     SkPoint pts[2] = { {0, 0}, {1, 1} };
     SkColor colors[2] = { SK_ColorGREEN, SK_ColorBLUE };
     sk_sp<SkShader> shader = SkGradientShader::MakeLinear(
         pts, colors, nullptr, SK_ARRAY_COUNT(colors), SkShader::kClamp_TileMode);
     GrColorSpaceInfo colorSpaceInfo(nullptr, kRGBA_8888_GrPixelConfig);
     SkShaderBase::AsFPArgs args(ctx, &SkMatrix::I(), &SkMatrix::I(),
                                 SkFilterQuality::kLow_SkFilterQuality, &colorSpaceInfo);
     return as_SB(shader)->asFragmentProcessor(args);
 }

 static void test_path(GrContext* ctx,
                       GrRenderTargetContext* renderTargetContext,
                       const SkPath& path,
                       const SkMatrix& matrix = SkMatrix::I(),
                       GrAAType aaType = GrAAType::kNone,
                       std::unique_ptr<GrFragmentProcessor> fp = nullptr) {
     GrTessellatingPathRenderer tess;

     GrPaint paint;
     paint.setXPFactory(GrPorterDuffXPFactory::Get(SkBlendMode::kSrc));
     if (fp) {
         paint.addColorFragmentProcessor(std::move(fp));
     }

     GrNoClip noClip;
     SkIRect clipConservativeBounds = SkIRect::MakeWH(renderTargetContext->width(),
                                                      renderTargetContext->height());
     GrStyle style(SkStrokeRec::kFill_InitStyle);
     GrShape shape(path, style);
     GrPathRenderer::DrawPathArgs args{ctx,
                                       std::move(paint),
                                       &GrUserStencilSettings::kUnused,
                                       renderTargetContext,
                                       &noClip,
                                       &clipConservativeBounds,
                                       &matrix,
                                       &shape,
                                       aaType,
                                       false};
     tess.drawPath(args);
 }

 DEF_GPUTEST_FOR_ALL_CONTEXTS(TessellatingPathRendererTests, reporter, ctxInfo) {
     GrContext* ctx = ctxInfo.grContext();
     sk_sp<GrRenderTargetContext> rtc(ctx->makeDeferredRenderTargetContext(
                                                                   SkBackingFit::kApprox,
                                                                   800, 800,
                                                                   kRGBA_8888_GrPixelConfig,
                                                                   nullptr,
                                                                   0,
                                                                   GrMipMapped::kNo,
                                                                   kTopLeft_GrSurfaceOrigin));
     if (!rtc) {
         return;
     }

     ctx->flush();
     test_path(ctx, rtc.get(), create_path_0());
     test_path(ctx, rtc.get(), create_path_1());
     test_path(ctx, rtc.get(), create_path_2());
     test_path(ctx, rtc.get(), create_path_3());
     test_path(ctx, rtc.get(), create_path_4());
     test_path(ctx, rtc.get(), create_path_5());
     test_path(ctx, rtc.get(), create_path_6());
     test_path(ctx, rtc.get(), create_path_7());
     test_path(ctx, rtc.get(), create_path_8());
     test_path(ctx, rtc.get(), create_path_9());
     test_path(ctx, rtc.get(), create_path_10());
     test_path(ctx, rtc.get(), create_path_11());
     test_path(ctx, rtc.get(), create_path_12());
     test_path(ctx, rtc.get(), create_path_13());
     test_path(ctx, rtc.get(), create_path_14());
     test_path(ctx, rtc.get(), create_path_15());
     test_path(ctx, rtc.get(), create_path_16());
     SkMatrix nonInvertibleMatrix = SkMatrix::MakeScale(0, 0);
     std::unique_ptr<GrFragmentProcessor> fp(create_linear_gradient_processor(ctx));
     test_path(ctx, rtc.get(), create_path_17(), nonInvertibleMatrix, GrAAType::kCoverage,
               std::move(fp));
     test_path(ctx, rtc.get(), create_path_18());
     test_path(ctx, rtc.get(), create_path_19());
     test_path(ctx, rtc.get(), create_path_20(), SkMatrix(), GrAAType::kCoverage);
     test_path(ctx, rtc.get(), create_path_21(), SkMatrix(), GrAAType::kCoverage);
     test_path(ctx, rtc.get(), create_path_22());
     test_path(ctx, rtc.get(), create_path_23());
     test_path(ctx, rtc.get(), create_path_24());
 }
 #endif
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "Test.h"

	#include "SkPath.h"

	#if SK_SUPPORT_GPU
	#include "GrClip.h"
	#include "GrContext.h"
	#include "GrContextPriv.h"
	#include "SkGradientShader.h"
	#include "SkShaderBase.h"
	#include "effects/GrPorterDuffXferProcessor.h"
	#include "ops/GrTessellatingPathRenderer.h"

	/*
	* These tests pass by not crashing, hanging or asserting in Debug.
	*/

	// Tests active edges made inactive by splitting.
	// Also tests active edge list forced into an invalid ordering by
	// splitting (mopped up in cleanup_active_edges()).
	static SkPath create_path_0() {
	SkPath path;
	path.moveTo(229.127044677734375f, 67.34100341796875f);
	path.lineTo(187.8097381591796875f, -6.7729740142822265625f);
	path.lineTo(171.411407470703125f, 50.94266510009765625f);
	path.lineTo(245.5253753662109375f, 9.6253643035888671875f);
	path.moveTo(208.4683990478515625f, 30.284009933471679688f);
	path.lineTo(171.411407470703125f, 50.94266510009765625f);
	path.lineTo(187.8097381591796875f, -6.7729740142822265625f);
	return path;
	}

	// Intersections which fall exactly on the current vertex, and require
	// a restart of the intersection checking.
	static SkPath create_path_1() {
	SkPath path;
	path.moveTo(314.483551025390625f, 486.246002197265625f);
	path.lineTo(385.41949462890625f, 532.8087158203125f);
	path.lineTo(373.232879638671875f, 474.05938720703125f);
	path.lineTo(326.670166015625f, 544.995361328125f);
	path.moveTo(349.951507568359375f, 509.52734375f);
	path.lineTo(373.232879638671875f, 474.05938720703125f);
	path.lineTo(385.41949462890625f, 532.8087158203125f);
	return path;
	}

	// Tests active edges which are removed by splitting.
	static SkPath create_path_2() {
	SkPath path;
	path.moveTo(343.107391357421875f, 613.62176513671875f);
	path.lineTo(426.632415771484375f, 628.5740966796875f);
	path.lineTo(392.3460693359375f, 579.33544921875f);
	path.lineTo(377.39373779296875f, 662.86041259765625f);
	path.moveTo(384.869873046875f, 621.097900390625f);
	path.lineTo(392.3460693359375f, 579.33544921875f);
	path.lineTo(426.632415771484375f, 628.5740966796875f);
	return path;
	}

	// Collinear edges merged in set_top().
	// Also, an intersection between left and right enclosing edges which
	// falls above the current vertex.
	static SkPath create_path_3() {
	SkPath path;
	path.moveTo(545.95751953125f, 791.69854736328125f);
	path.lineTo(612.05816650390625f, 738.494140625f);
	path.lineTo(552.4056396484375f, 732.0460205078125f);
	path.lineTo(605.61004638671875f, 798.14666748046875f);
	path.moveTo(579.00787353515625f, 765.0963134765625f);
	path.lineTo(552.4056396484375f, 732.0460205078125f);
	path.lineTo(612.05816650390625f, 738.494140625f);
	return path;
	}

	// Tests active edges which are made inactive by set_top().
	static SkPath create_path_4() {
	SkPath path;
	path.moveTo(819.2725830078125f, 751.77447509765625f);
	path.lineTo(820.70904541015625f, 666.933837890625f);
	path.lineTo(777.57049560546875f, 708.63592529296875f);
	path.lineTo(862.4111328125f, 710.0723876953125f);
	path.moveTo(819.99078369140625f, 709.3541259765625f);
	path.lineTo(777.57049560546875f, 708.63592529296875f);
	path.lineTo(820.70904541015625f, 666.933837890625f);
	return path;
	}

	static SkPath create_path_5() {
	SkPath path;
	path.moveTo(823.33209228515625f, 749.052734375f);
	path.lineTo(823.494873046875f, 664.20013427734375f);
	path.lineTo(780.9871826171875f, 706.5450439453125f);
	path.lineTo(865.8397216796875f, 706.70782470703125f);
	path.moveTo(823.4134521484375f, 706.6263427734375f);
	path.lineTo(780.9871826171875f, 706.5450439453125f);
	path.lineTo(823.494873046875f, 664.20013427734375f);
	return path;
	}

	static SkPath create_path_6() {
	SkPath path;
	path.moveTo(954.862548828125f, 562.8349609375f);
	path.lineTo(899.32818603515625f, 498.679443359375f);
	path.lineTo(895.017578125f, 558.52435302734375f);
	path.lineTo(959.17315673828125f, 502.990081787109375f);
	path.moveTo(927.0953369140625f, 530.7572021484375f);
	path.lineTo(895.017578125f, 558.52435302734375f);
	path.lineTo(899.32818603515625f, 498.679443359375f);
	return path;
	}

	static SkPath create_path_7() {
	SkPath path;
	path.moveTo(958.5330810546875f, 547.35516357421875f);
	path.lineTo(899.93109130859375f, 485.989013671875f);
	path.lineTo(898.54901123046875f, 545.97308349609375f);
	path.lineTo(959.9151611328125f, 487.37109375f);
	path.moveTo(929.2320556640625f, 516.67205810546875f);
	path.lineTo(898.54901123046875f, 545.97308349609375f);
	path.lineTo(899.93109130859375f, 485.989013671875f);
	return path;
	}

	static SkPath create_path_8() {
	SkPath path;
	path.moveTo(389.8609619140625f, 369.326873779296875f);
	path.lineTo(470.6290283203125f, 395.33697509765625f);
	path.lineTo(443.250030517578125f, 341.9478759765625f);
	path.lineTo(417.239959716796875f, 422.7159423828125f);
	path.moveTo(430.244964599609375f, 382.3319091796875f);
	path.lineTo(443.250030517578125f, 341.9478759765625f);
	path.lineTo(470.6290283203125f, 395.33697509765625f);
	return path;
	}

	static SkPath create_path_9() {
	SkPath path;
	path.moveTo(20, 20);
	path.lineTo(50, 80);
	path.lineTo(20, 80);
	path.moveTo(80, 50);
	path.lineTo(50, 50);
	path.lineTo(20, 50);
	return path;
	}

	static SkPath create_path_10() {
	SkPath path;
	path.moveTo(257.19439697265625f, 320.876617431640625f);
	path.lineTo(190.113037109375f, 320.58978271484375f);
	path.lineTo(203.64404296875f, 293.8145751953125f);
	path.moveTo(203.357177734375f, 360.896026611328125f);
	path.lineTo(216.88824462890625f, 334.120819091796875f);
	path.lineTo(230.41925048828125f, 307.345611572265625f);
	return path;
	}

	// A degenerate segments case, where both upper and lower segments of
	// a split edge must remain active.
	static SkPath create_path_11() {
	SkPath path;
	path.moveTo(231.9331207275390625f, 306.2012939453125f);
	path.lineTo(191.4859161376953125f, 306.04547119140625f);
	path.lineTo(231.0659332275390625f, 300.2642822265625f);
	path.moveTo(189.946807861328125f, 302.072265625f);
	path.lineTo(179.79705810546875f, 294.859771728515625f);
	path.lineTo(191.0016021728515625f, 296.165679931640625f);
	path.moveTo(150.8942108154296875f, 304.900146484375f);
	path.lineTo(179.708892822265625f, 297.849029541015625f);
	path.lineTo(190.4742279052734375f, 299.11895751953125f);
	return path;
	}

	// Handle the case where edge.dist(edge.fTop) != 0.0.
	static SkPath create_path_12() {
	SkPath path;
	path.moveTo( 0.0f, 400.0f);
	path.lineTo( 138.0f, 202.0f);
	path.lineTo( 0.0f, 202.0f);
	path.moveTo( 12.62693023681640625f, 250.57464599609375f);
	path.lineTo( 8.13896942138671875f, 254.556884765625f);
	path.lineTo(-18.15641021728515625f, 220.40203857421875f);
	path.lineTo(-15.986493110656738281f, 219.6513519287109375f);
	path.moveTo( 36.931194305419921875f, 282.485504150390625f);
	path.lineTo( 15.617521286010742188f, 261.2901611328125f);
	path.lineTo( 10.3829498291015625f, 252.565765380859375f);
	path.lineTo(-16.165292739868164062f, 222.646026611328125f);
	return path;
	}

	// A degenerate segments case which exercises inactive edges being
	// made active by splitting.
	static SkPath create_path_13() {
	SkPath path;
	path.moveTo(690.62127685546875f, 509.25555419921875f);
	path.lineTo(99.336181640625f, 511.71405029296875f);
	path.lineTo(708.362548828125f, 512.4349365234375f);
	path.lineTo(729.9940185546875f, 516.3114013671875f);
	path.lineTo(738.708984375f, 518.76995849609375f);
	path.lineTo(678.3463134765625f, 510.0819091796875f);
	path.lineTo(681.21795654296875f, 504.81378173828125f);
	path.moveTo(758.52764892578125f, 521.55963134765625f);
	path.lineTo(719.1549072265625f, 514.50372314453125f);
	path.lineTo(689.59063720703125f, 512.0628662109375f);
	path.lineTo(679.78216552734375f, 507.447845458984375f);
	return path;
	}

	// Tests vertices which become "orphaned" (ie., no connected edges)
	// after simplification.
	static SkPath create_path_14() {
	SkPath path;
	path.moveTo(217.326019287109375f, 166.4752960205078125f);
	path.lineTo(226.279266357421875f, 170.929473876953125f);
	path.lineTo(234.3973388671875f, 177.0623626708984375f);
	path.lineTo(262.0921630859375f, 188.746124267578125f);
	path.moveTo(196.23638916015625f, 174.0722198486328125f);
	path.lineTo(416.15277099609375f, 180.138214111328125f);
	path.lineTo(192.651947021484375f, 304.0228271484375f);
	return path;
	}

	static SkPath create_path_15() {
	SkPath path;
	path.moveTo( 0.0f, 0.0f);
	path.lineTo(10000.0f, 0.0f);
	path.lineTo( 0.0f, -1.0f);
	path.lineTo(10000.0f, 0.000001f);
	path.lineTo( 0.0f, -30.0f);
	return path;
	}

	// Reduction of Nebraska-StateSeal.svg. Floating point error causes the
	// same edge to be added to more than one poly on the same side.
	static SkPath create_path_16() {
	SkPath path;
	path.moveTo(170.8199920654296875, 491.86700439453125);
	path.lineTo(173.7649993896484375, 489.7340087890625);
	path.lineTo(174.1450958251953125, 498.545989990234375);
	path.lineTo( 171.998992919921875, 500.88201904296875);
	path.moveTo(168.2922515869140625, 498.66265869140625);
	path.lineTo(169.8589935302734375, 497.94500732421875);
	path.lineTo( 172, 500.88299560546875);
	path.moveTo( 169.555267333984375, 490.70111083984375);
	path.lineTo(173.7649993896484375, 489.7340087890625);
	path.lineTo( 170.82000732421875, 491.86700439453125);
	return path;
	}

	// A simple concave path. Test this with a non-invertible matrix.
	static SkPath create_path_17() {
	SkPath path;
	path.moveTo(20, 20);
	path.lineTo(80, 20);
	path.lineTo(30, 30);
	path.lineTo(20, 80);
	return path;
	}

	// A shape with a vertex collinear to the right hand edge.
	// This messes up find_enclosing_edges.
	static SkPath create_path_18() {
	SkPath path;
	path.moveTo(80, 20);
	path.lineTo(80, 60);
	path.lineTo(20, 60);
	path.moveTo(80, 50);
	path.lineTo(80, 80);
	path.lineTo(20, 80);
	return path;
	}

	// Exercises the case where an edge becomes collinear with two of its
	// adjacent neighbour edges after splitting.
	// This is a reduction from
	// http://mooooo.ooo/chebyshev-sine-approximation/horner_ulp.svg
	static SkPath create_path_19() {
	SkPath path;
	path.moveTo( 351.99298095703125, 348.23046875);
	path.lineTo( 351.91876220703125, 347.33984375);
	path.lineTo( 351.91876220703125, 346.1953125);
	path.lineTo( 351.90313720703125, 347.734375);
	path.lineTo( 351.90313720703125, 346.1328125);
	path.lineTo( 351.87579345703125, 347.93359375);
	path.lineTo( 351.87579345703125, 345.484375);
	path.lineTo( 351.86407470703125, 347.7890625);
	path.lineTo( 351.86407470703125, 346.2109375);
	path.lineTo( 351.84844970703125, 347.63763427734375);
	path.lineTo( 351.84454345703125, 344.19232177734375);
	path.lineTo( 351.78204345703125, 346.9483642578125);
	path.lineTo( 351.758636474609375, 347.18310546875);
	path.lineTo( 351.75469970703125, 346.75);
	path.lineTo( 351.75469970703125, 345.46875);
	path.lineTo( 352.5546875, 345.46875);
	path.lineTo( 352.55078125, 347.01953125);
	path.lineTo( 351.75079345703125, 347.02313232421875);
	path.lineTo( 351.74688720703125, 346.15203857421875);
	path.lineTo( 351.74688720703125, 347.646148681640625);
	path.lineTo( 352.5390625, 346.94140625);
	path.lineTo( 351.73907470703125, 346.94268798828125);
	path.lineTo( 351.73516845703125, 344.48565673828125);
	path.lineTo( 352.484375, 346.73828125);
	path.lineTo( 351.68438720703125, 346.7401123046875);
	path.lineTo( 352.4765625, 346.546875);
	path.lineTo( 351.67657470703125, 346.54937744140625);
	path.lineTo( 352.47265625, 346.75390625);
	path.lineTo( 351.67266845703125, 346.756622314453125);
	path.lineTo( 351.66876220703125, 345.612091064453125);
	return path;
	}

	// An intersection above the first vertex in the mesh.
	// Reduction from http://crbug.com/730687
	static SkPath create_path_20() {
	SkPath path;
	path.moveTo( 2822128.5, 235.026336669921875);
	path.lineTo( 2819349.25, 235.3623504638671875);
	path.lineTo( -340558688, 23.83478546142578125);
	path.lineTo( -340558752, 25.510419845581054688);
	path.lineTo( -340558720, 27.18605804443359375);
	return path;
	}

	// An intersection whose result is NaN (due to rounded-to-inf endpoint).
	static SkPath create_path_21() {
	SkPath path;
	path.moveTo(1.7889142061167663539e+38, 39338463358011572224.0);
	path.lineTo( 1647.4193115234375, -522.603515625);
	path.lineTo( 1677.74560546875, -529.0028076171875);
	path.lineTo( 1678.29541015625, -528.7847900390625);
	path.lineTo( 1637.5167236328125, -519.79266357421875);
	path.lineTo( 1647.4193115234375, -522.603515625);
	return path;
	}

	// A quad which becomes NaN when interpolated.
	static SkPath create_path_22() {
	SkPath path;
	path.moveTo(-5.71889e+13f, 1.36759e+09f);
	path.quadTo(2.45472e+19f, -3.12406e+15f, -2.19589e+18f, 2.79462e+14f);
	return path;
	}

	// A path which contains out-of-range colinear intersections.
	static SkPath create_path_23() {
	SkPath path;
	path.moveTo( 0, 63.39080047607421875);
	path.lineTo(-0.70804601907730102539, 63.14350128173828125);
	path.lineTo(-7.8608899287380243391e-17, 64.14080047607421875);
	path.moveTo( 0, 64.14080047607421875);
	path.lineTo(44.285900115966796875, 64.14080047607421875);
	path.lineTo( 0, 62.64080047607421875);
	path.moveTo(21.434900283813476562, -0.24732701480388641357);
	path.lineTo(-0.70804601907730102539, 63.14350128173828125);
	path.lineTo(0.70804601907730102539, 63.6381988525390625);
	return path;
	}

	// A path which results in infs and nans when conics are converted to quads.
	static SkPath create_path_24() {
	SkPath path;
	path.moveTo(-2.20883e+37f, -1.02892e+37f);
	path.conicTo(-2.00958e+38f, -9.36107e+37f, -1.7887e+38f, -8.33215e+37f, 0.707107f);
	path.conicTo(-1.56782e+38f, -7.30323e+37f, 2.20883e+37f, 1.02892e+37f, 0.707107f);
	path.conicTo(2.00958e+38f, 9.36107e+37f, 1.7887e+38f, 8.33215e+37f, 0.707107f);
	path.conicTo(1.56782e+38f, 7.30323e+37f, -2.20883e+37f, -1.02892e+37f, 0.707107f);
	return path;
	}

	static std::unique_ptr<GrFragmentProcessor> create_linear_gradient_processor(GrContext* ctx) {
	SkPoint pts[2] = { {0, 0}, {1, 1} };
	SkColor colors[2] = { SK_ColorGREEN, SK_ColorBLUE };
	sk_sp<SkShader> shader = SkGradientShader::MakeLinear(
	pts, colors, nullptr, SK_ARRAY_COUNT(colors), SkShader::kClamp_TileMode);
	GrColorSpaceInfo colorSpaceInfo(nullptr, kRGBA_8888_GrPixelConfig);
	SkShaderBase::AsFPArgs args(ctx, &SkMatrix::I(), &SkMatrix::I(),
	SkFilterQuality::kLow_SkFilterQuality, &colorSpaceInfo);
	return as_SB(shader)->asFragmentProcessor(args);
	}

	static void test_path(GrContext* ctx,
	GrRenderTargetContext* renderTargetContext,
	const SkPath& path,
	const SkMatrix& matrix = SkMatrix::I(),
	GrAAType aaType = GrAAType::kNone,
	std::unique_ptr<GrFragmentProcessor> fp = nullptr) {
	GrTessellatingPathRenderer tess;

	GrPaint paint;
	paint.setXPFactory(GrPorterDuffXPFactory::Get(SkBlendMode::kSrc));
	if (fp) {
	paint.addColorFragmentProcessor(std::move(fp));
	}

	GrNoClip noClip;
	SkIRect clipConservativeBounds = SkIRect::MakeWH(renderTargetContext->width(),
	renderTargetContext->height());
	GrStyle style(SkStrokeRec::kFill_InitStyle);
	GrShape shape(path, style);
	GrPathRenderer::DrawPathArgs args{ctx,
	std::move(paint),
	&GrUserStencilSettings::kUnused,
	renderTargetContext,
	&noClip,
	&clipConservativeBounds,
	&matrix,
	&shape,
	aaType,
	false};
	tess.drawPath(args);
	}

	DEF_GPUTEST_FOR_ALL_CONTEXTS(TessellatingPathRendererTests, reporter, ctxInfo) {
	GrContext* ctx = ctxInfo.grContext();
	sk_sp<GrRenderTargetContext> rtc(ctx->makeDeferredRenderTargetContext(
	SkBackingFit::kApprox,
	800, 800,
	kRGBA_8888_GrPixelConfig,
	nullptr,
	0,
	GrMipMapped::kNo,
	kTopLeft_GrSurfaceOrigin));
	if (!rtc) {
	return;
	}

	ctx->flush();
	test_path(ctx, rtc.get(), create_path_0());
	test_path(ctx, rtc.get(), create_path_1());
	test_path(ctx, rtc.get(), create_path_2());
	test_path(ctx, rtc.get(), create_path_3());
	test_path(ctx, rtc.get(), create_path_4());
	test_path(ctx, rtc.get(), create_path_5());
	test_path(ctx, rtc.get(), create_path_6());
	test_path(ctx, rtc.get(), create_path_7());
	test_path(ctx, rtc.get(), create_path_8());
	test_path(ctx, rtc.get(), create_path_9());
	test_path(ctx, rtc.get(), create_path_10());
	test_path(ctx, rtc.get(), create_path_11());
	test_path(ctx, rtc.get(), create_path_12());
	test_path(ctx, rtc.get(), create_path_13());
	test_path(ctx, rtc.get(), create_path_14());
	test_path(ctx, rtc.get(), create_path_15());
	test_path(ctx, rtc.get(), create_path_16());
	SkMatrix nonInvertibleMatrix = SkMatrix::MakeScale(0, 0);
	std::unique_ptr<GrFragmentProcessor> fp(create_linear_gradient_processor(ctx));
	test_path(ctx, rtc.get(), create_path_17(), nonInvertibleMatrix, GrAAType::kCoverage,
	std::move(fp));
	test_path(ctx, rtc.get(), create_path_18());
	test_path(ctx, rtc.get(), create_path_19());
	test_path(ctx, rtc.get(), create_path_20(), SkMatrix(), GrAAType::kCoverage);
	test_path(ctx, rtc.get(), create_path_21(), SkMatrix(), GrAAType::kCoverage);
	test_path(ctx, rtc.get(), create_path_22());
	test_path(ctx, rtc.get(), create_path_23());
	test_path(ctx, rtc.get(), create_path_24());
	}
	#endif