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skia2/tests/PathOpsCubicReduceOrderTest.cpp
caryclark@google.com 8d0a524a48 harden and speed up path op unit tests 
PathOps tests internal routines direcctly. Check to make sure that
test points, lines, quads, curves, triangles, and bounds read from
arrays are valid (i.e., don't contain NaN) before calling the
test function.

Repurpose the test flags.
- make 'v' verbose test region output against path output
- make 'z' single threaded (before it made it multithreaded)

The latter change speeds up tests run by the buildbot by 2x to 3x.

BUG=

Review URL: https://codereview.chromium.org/19374003

git-svn-id: http://skia.googlecode.com/svn/trunk@10107 2bbb7eff-a529-9590-31e7-b0007b416f81
2013-07-16 16:11:16 +00:00

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/*
* Copyright 2012 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "PathOpsCubicIntersectionTestData.h"
#include "PathOpsQuadIntersectionTestData.h"
#include "PathOpsTestCommon.h"
#include "SkIntersections.h"
#include "SkPathOpsRect.h"
#include "SkReduceOrder.h"
#include "Test.h"
static bool controls_inside(const SkDCubic& cubic) {
return between(cubic[0].fX, cubic[1].fX, cubic[3].fX)
&& between(cubic[0].fX, cubic[2].fX, cubic[3].fX)
&& between(cubic[0].fY, cubic[1].fY, cubic[3].fY)
&& between(cubic[0].fY, cubic[2].fY, cubic[3].fY);
}
static bool tiny(const SkDCubic& cubic) {
int index, minX, maxX, minY, maxY;
minX = maxX = minY = maxY = 0;
for (index = 1; index < 4; ++index) {
if (cubic[minX].fX > cubic[index].fX) {
minX = index;
}
if (cubic[minY].fY > cubic[index].fY) {
minY = index;
}
if (cubic[maxX].fX < cubic[index].fX) {
maxX = index;
}
if (cubic[maxY].fY < cubic[index].fY) {
maxY = index;
}
}
return approximately_equal(cubic[maxX].fX, cubic[minX].fX)
&& approximately_equal(cubic[maxY].fY, cubic[minY].fY);
}
static void find_tight_bounds(const SkDCubic& cubic, SkDRect& bounds) {
SkDCubicPair cubicPair = cubic.chopAt(0.5);
if (!tiny(cubicPair.first()) && !controls_inside(cubicPair.first())) {
find_tight_bounds(cubicPair.first(), bounds);
} else {
bounds.add(cubicPair.first()[0]);
bounds.add(cubicPair.first()[3]);
}
if (!tiny(cubicPair.second()) && !controls_inside(cubicPair.second())) {
find_tight_bounds(cubicPair.second(), bounds);
} else {
bounds.add(cubicPair.second()[0]);
bounds.add(cubicPair.second()[3]);
}
}
static void PathOpsReduceOrderCubicTest(skiatest::Reporter* reporter) {
size_t index;
SkReduceOrder reducer;
int order;
enum {
RunAll,
RunPointDegenerates,
RunNotPointDegenerates,
RunLines,
RunNotLines,
RunModEpsilonLines,
RunLessEpsilonLines,
RunNegEpsilonLines,
RunQuadraticLines,
RunQuadraticPoints,
RunQuadraticModLines,
RunComputedLines,
RunNone
} run = RunAll;
int firstTestIndex = 0;
#if 0
run = RunComputedLines;
firstTestIndex = 18;
#endif
int firstPointDegeneratesTest = run == RunAll ? 0 : run == RunPointDegenerates
? firstTestIndex : SK_MaxS32;
int firstNotPointDegeneratesTest = run == RunAll ? 0 : run == RunNotPointDegenerates
? firstTestIndex : SK_MaxS32;
int firstLinesTest = run == RunAll ? 0 : run == RunLines ? firstTestIndex : SK_MaxS32;
int firstNotLinesTest = run == RunAll ? 0 : run == RunNotLines ? firstTestIndex : SK_MaxS32;
int firstModEpsilonTest = run == RunAll ? 0 : run == RunModEpsilonLines
? firstTestIndex : SK_MaxS32;
int firstLessEpsilonTest = run == RunAll ? 0 : run == RunLessEpsilonLines
? firstTestIndex : SK_MaxS32;
int firstNegEpsilonTest = run == RunAll ? 0 : run == RunNegEpsilonLines
? firstTestIndex : SK_MaxS32;
int firstQuadraticPointTest = run == RunAll ? 0 : run == RunQuadraticPoints
? firstTestIndex : SK_MaxS32;
int firstQuadraticLineTest = run == RunAll ? 0 : run == RunQuadraticLines
? firstTestIndex : SK_MaxS32;
int firstQuadraticModLineTest = run == RunAll ? 0 : run == RunQuadraticModLines
? firstTestIndex : SK_MaxS32;
int firstComputedLinesTest = run == RunAll ? 0 : run == RunComputedLines
? firstTestIndex : SK_MaxS32;
for (index = firstPointDegeneratesTest; index < pointDegenerates_count; ++index) {
const SkDCubic& cubic = pointDegenerates[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 1) {
SkDebugf("[%d] pointDegenerates order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstNotPointDegeneratesTest; index < notPointDegenerates_count; ++index) {
const SkDCubic& cubic = notPointDegenerates[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order == 1) {
SkDebugf("[%d] notPointDegenerates order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstLinesTest; index < lines_count; ++index) {
const SkDCubic& cubic = lines[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 2) {
SkDebugf("[%d] lines order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstNotLinesTest; index < notLines_count; ++index) {
const SkDCubic& cubic = notLines[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order == 2) {
SkDebugf("[%d] notLines order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstModEpsilonTest; index < modEpsilonLines_count; ++index) {
const SkDCubic& cubic = modEpsilonLines[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order == 2) {
SkDebugf("[%d] line mod by epsilon order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstLessEpsilonTest; index < lessEpsilonLines_count; ++index) {
const SkDCubic& cubic = lessEpsilonLines[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 2) {
SkDebugf("[%d] line less by epsilon/2 order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstNegEpsilonTest; index < negEpsilonLines_count; ++index) {
const SkDCubic& cubic = negEpsilonLines[index];
SkASSERT(ValidCubic(cubic));
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 2) {
SkDebugf("[%d] line neg by epsilon/2 order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstQuadraticPointTest; index < quadraticPoints_count; ++index) {
const SkDQuad& quad = quadraticPoints[index];
SkASSERT(ValidQuad(quad));
SkDCubic cubic = quad.toCubic();
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 1) {
SkDebugf("[%d] point quad order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstQuadraticLineTest; index < quadraticLines_count; ++index) {
const SkDQuad& quad = quadraticLines[index];
SkASSERT(ValidQuad(quad));
SkDCubic cubic = quad.toCubic();
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 2) {
SkDebugf("[%d] line quad order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
for (index = firstQuadraticModLineTest; index < quadraticModEpsilonLines_count; ++index) {
const SkDQuad& quad = quadraticModEpsilonLines[index];
SkASSERT(ValidQuad(quad));
SkDCubic cubic = quad.toCubic();
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics, SkReduceOrder::kFill_Style);
if (order != 3) {
SkDebugf("[%d] line mod quad order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
// test if computed line end points are valid
for (index = firstComputedLinesTest; index < lines_count; ++index) {
const SkDCubic& cubic = lines[index];
SkASSERT(ValidCubic(cubic));
bool controlsInside = controls_inside(cubic);
order = reducer.reduce(cubic, SkReduceOrder::kAllow_Quadratics,
SkReduceOrder::kStroke_Style);
if (order == 2 && reducer.fLine[0] == reducer.fLine[1]) {
SkDebugf("[%d] line computed ends match order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
if (controlsInside) {
if ( (reducer.fLine[0].fX != cubic[0].fX && reducer.fLine[0].fX != cubic[3].fX)
|| (reducer.fLine[0].fY != cubic[0].fY && reducer.fLine[0].fY != cubic[3].fY)
|| (reducer.fLine[1].fX != cubic[0].fX && reducer.fLine[1].fX != cubic[3].fX)
|| (reducer.fLine[1].fY != cubic[0].fY && reducer.fLine[1].fY != cubic[3].fY)) {
SkDebugf("[%d] line computed ends order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
} else {
// binary search for extrema, compare against actual results
// while a control point is outside of bounding box formed by end points, split
SkDRect bounds = {DBL_MAX, DBL_MAX, -DBL_MAX, -DBL_MAX};
find_tight_bounds(cubic, bounds);
if ( (!AlmostEqualUlps(reducer.fLine[0].fX, bounds.fLeft)
&& !AlmostEqualUlps(reducer.fLine[0].fX, bounds.fRight))
|| (!AlmostEqualUlps(reducer.fLine[0].fY, bounds.fTop)
&& !AlmostEqualUlps(reducer.fLine[0].fY, bounds.fBottom))
|| (!AlmostEqualUlps(reducer.fLine[1].fX, bounds.fLeft)
&& !AlmostEqualUlps(reducer.fLine[1].fX, bounds.fRight))
|| (!AlmostEqualUlps(reducer.fLine[1].fY, bounds.fTop)
&& !AlmostEqualUlps(reducer.fLine[1].fY, bounds.fBottom))) {
SkDebugf("[%d] line computed tight bounds order=%d\n", static_cast<int>(index), order);
REPORTER_ASSERT(reporter, 0);
}
}
}
}
#include "TestClassDef.h"
DEFINE_TESTCLASS_SHORT(PathOpsReduceOrderCubicTest)
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