src/pathops/SkOpEdgeBuilder.cpp - Issue 14407006: path ops -- handle non-finite numbers

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Issue 14407006: path ops -- handle non-finite numbers (Closed) Base URL: http://skia.googlecode.com/svn/trunk/

Patch Set: Created 7 years, 8 months ago

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1 /*	1 /*

2 * Copyright 2012 Google Inc.	2 * Copyright 2012 Google Inc.

3 *	3 *

4 * Use of this source code is governed by a BSD-style license that can be	4 * Use of this source code is governed by a BSD-style license that can be

5 * found in the LICENSE file.	5 * found in the LICENSE file.

6 */	6 */

7 #include "SkOpEdgeBuilder.h"	7 #include "SkOpEdgeBuilder.h"

8 #include "SkReduceOrder.h"	8 #include "SkReduceOrder.h"

9	9

10 void SkOpEdgeBuilder::init() {	10 void SkOpEdgeBuilder::init() {

(...skipping 10 matching lines...) Expand all Loading...
21	21

22 void SkOpEdgeBuilder::addOperand(const SkPath& path) {	22 void SkOpEdgeBuilder::addOperand(const SkPath& path) {

23 SkASSERT(fPathVerbs.count() > 0 && fPathVerbs.end()[-1] == SkPath::kDone_Ver b);	23 SkASSERT(fPathVerbs.count() > 0 && fPathVerbs.end()[-1] == SkPath::kDone_Ver b);

24 fPathVerbs.pop();	24 fPathVerbs.pop();

25 fPath = &path;	25 fPath = &path;

26 fXorMask[1] = (fPath->getFillType() & 1) ? kEvenOdd_PathOpsMask	26 fXorMask[1] = (fPath->getFillType() & 1) ? kEvenOdd_PathOpsMask

27 : kWinding_PathOpsMask;	27 : kWinding_PathOpsMask;

28 preFetch();	28 preFetch();

29 }	29 }

30	30

31 void SkOpEdgeBuilder::finish() {	31 bool SkOpEdgeBuilder::finish() {

32 walk();	32 if (!walk()) {

	33 return false;

	34 }

33 complete();	35 complete();

34 if (fCurrentContour && !fCurrentContour->segments().count()) {	36 if (fCurrentContour && !fCurrentContour->segments().count()) {

35 fContours.pop_back();	37 fContours.pop_back();

36 }	38 }

37 // correct pointers in contours since fReducePts may have moved as it grew	39 // correct pointers in contours since fReducePts may have moved as it grew

38 int cIndex = 0;	40 int cIndex = 0;

39 int extraCount = fExtra.count();	41 int extraCount = fExtra.count();

40 SkASSERT(extraCount == 0 \|\| fExtra[0] == -1);	42 SkASSERT(extraCount == 0 \|\| fExtra[0] == -1);

41 int eIndex = 0;	43 int eIndex = 0;

42 int rIndex = 0;	44 int rIndex = 0;

43 while (++eIndex < extraCount) {	45 while (++eIndex < extraCount) {

44 int offset = fExtra[eIndex];	46 int offset = fExtra[eIndex];

45 if (offset < 0) {	47 if (offset < 0) {

46 ++cIndex;	48 ++cIndex;

47 continue;	49 continue;

48 }	50 }

49 fCurrentContour = &fContours[cIndex];	51 fCurrentContour = &fContours[cIndex];

50 rIndex += fCurrentContour->updateSegment(offset - 1,	52 rIndex += fCurrentContour->updateSegment(offset - 1,

51 &fReducePts[rIndex]);	53 &fReducePts[rIndex]);

52 }	54 }

53 fExtra.reset(); // we're done with this	55 fExtra.reset(); // we're done with this

	56 return true;

54 }	57 }

55	58

56 // Note that copying the points here avoids copying the resulting path later.	59 // Note that copying the points here avoids copying the resulting path later.

57 // To allow Op() to take one of the input paths as an output parameter, either t he source data	60 // To allow Op() to take one of the input paths as an output parameter, either t he source data

58 // must be copied (as implemented below) or the result must be copied.	61 // must be copied (as implemented below) or the result must be copied.

59 // OPTIMIZATION: This copies both sets of input points every time. If the input data was read	62 // OPTIMIZATION: This copies both sets of input points every time. If the input data was read

60 // directly, the output path would only need to be copied if it was also one of the input paths.	63 // directly, the output path would only need to be copied if it was also one of the input paths.

61 int SkOpEdgeBuilder::preFetch() {	64 int SkOpEdgeBuilder::preFetch() {

62 SkPath::RawIter iter(*fPath);	65 SkPath::RawIter iter(*fPath);

63 SkPoint pts[4];	66 SkPoint pts[4];

64 SkPath::Verb verb;	67 SkPath::Verb verb;

65 do {	68 do {

66 verb = iter.next(pts);	69 verb = iter.next(pts);

67 *fPathVerbs.append() = verb;	70 *fPathVerbs.append() = verb;

68 if (verb == SkPath::kMove_Verb) {	71 if (verb == SkPath::kMove_Verb) {

69 *fPathPts.append() = pts[0];	72 *fPathPts.append() = pts[0];

70 } else if (verb >= SkPath::kLine_Verb && verb <= SkPath::kCubic_Verb) {	73 } else if (verb >= SkPath::kLine_Verb && verb <= SkPath::kCubic_Verb) {

71 fPathPts.append(verb, &pts[1]);	74 fPathPts.append(verb, &pts[1]);

72 }	75 }

73 } while (verb != SkPath::kDone_Verb);	76 } while (verb != SkPath::kDone_Verb);

74 return fPathVerbs.count() - 1;	77 return fPathVerbs.count() - 1;

75 }	78 }

76	79

77 void SkOpEdgeBuilder::walk() {	80 static bool is_finite_point(const SkPoint& pt) {

	81 // repeat logic in SkRect::isFinite()

	82 float accum = 0;

	83 accum *= pt.fX;

	84 accum *= pt.fY;

	85

	86 // accum is either NaN or it is finite (zero).

	87 SkASSERT(0 == accum \|\| !(accum == accum));

	88

	89 // value==value will be true iff value is not NaN

	90 // TODO: is it faster to say !accum or accum==accum?

	91 return accum == accum;

	92 }

	93

	94 static bool is_finite_line(const SkPoint pts[2]) {

	95 // repeat logic in SkRect::isFinite()

	96 float accum = 0;

	97 accum *= pts[0].fX;

	98 accum *= pts[0].fY;

	99 accum *= pts[1].fX;

	100 accum *= pts[1].fY;

	101

	102 // accum is either NaN or it is finite (zero).

	103 SkASSERT(0 == accum \|\| !(accum == accum));

	104

	105 // value==value will be true iff value is not NaN

	106 // TODO: is it faster to say !accum or accum==accum?

	107 return accum == accum;

	108 }

	109

	110 static bool is_finite_quad(const SkPoint pts[3]) {

	111 // repeat logic in SkRect::isFinite()

	112 float accum = 0;

	113 accum *= pts[0].fX;

	114 accum *= pts[0].fY;

	115 accum *= pts[1].fX;

	116 accum *= pts[1].fY;

	117 accum *= pts[2].fX;

	118 accum *= pts[2].fY;

	119

	120 // accum is either NaN or it is finite (zero).

	121 SkASSERT(0 == accum \|\| !(accum == accum));

	122

	123 // value==value will be true iff value is not NaN

	124 // TODO: is it faster to say !accum or accum==accum?

	125 return accum == accum;

	126 }

	127

	128 bool SkOpEdgeBuilder::close() {

	129 if (fFinalCurveStart && fFinalCurveEnd && fFinalCurveStart != fFinalCurveE nd) {

	130 fReducePts.append() = fFinalCurveStart;

	131 fReducePts.append() = fFinalCurveEnd;

	132 const SkPoint* lineStart = fReducePts.end() - 2;

	133 *fExtra.append() = fCurrentContour->addLine(lineStart);

	134 }

	135 complete();

	136 return true;

	137 }

	138

	139 bool SkOpEdgeBuilder::walk() {

78 SkPath::Verb reducedVerb;	140 SkPath::Verb reducedVerb;

79 uint8_t* verbPtr = fPathVerbs.begin();	141 uint8_t* verbPtr = fPathVerbs.begin();

80 uint8_t* endOfFirstHalf = &verbPtr[fSecondHalf];	142 uint8_t* endOfFirstHalf = &verbPtr[fSecondHalf];

81 const SkPoint* pointsPtr = fPathPts.begin();	143 const SkPoint* pointsPtr = fPathPts.begin();

82 const SkPoint* finalCurveStart = NULL;

83 const SkPoint* finalCurveEnd = NULL;

84 SkPath::Verb verb;	144 SkPath::Verb verb;

	145 fFinalCurveStart = NULL;

	146 fFinalCurveEnd = NULL;

85 while ((verb = (SkPath::Verb) *verbPtr) != SkPath::kDone_Verb) {	147 while ((verb = (SkPath::Verb) *verbPtr) != SkPath::kDone_Verb) {

86 if (verbPtr == endOfFirstHalf) {	148 if (verbPtr == endOfFirstHalf) {

87 fOperand = true;	149 fOperand = true;

88 }	150 }

89 verbPtr++;	151 verbPtr++;

90 switch (verb) {	152 switch (verb) {

91 case SkPath::kMove_Verb:	153 case SkPath::kMove_Verb:

92 complete();	154 if (fCurrentContour) {

	155 if (fAllowOpenContours) {

	156 complete();

	157 } else if (!close()) {

	158 return false;

	159 }

	160 }

93 if (!fCurrentContour) {	161 if (!fCurrentContour) {

94 fCurrentContour = fContours.push_back_n(1);	162 fCurrentContour = fContours.push_back_n(1);

95 fCurrentContour->setOperand(fOperand);	163 fCurrentContour->setOperand(fOperand);

96 fCurrentContour->setXor(fXorMask[fOperand] == kEvenOdd_PathO psMask);	164 fCurrentContour->setXor(fXorMask[fOperand] == kEvenOdd_PathO psMask);

97 *fExtra.append() = -1; // start new contour	165 *fExtra.append() = -1; // start new contour

98 }	166 }

99 finalCurveEnd = pointsPtr++;	167 if (!is_finite_point(pointsPtr[0])) {
	reed1 2013/04/26 17:49:14 Would it be faster to just ask for the path's boun Would it be faster to just ask for the path's bounds at the very beginning, since that can be cached, and should report if the path was finite? caryclark 2013/04/26 19:47:30 Yes indeed. Done and uploaded. On 2013/04/26 17:4 Yes indeed. Done and uploaded. On 2013/04/26 17:49:14, reed1 wrote: Show quoted text > Would it be faster to just ask for the path's bounds at the very beginning, > since that can be cached, and should report if the path was finite?
	168 return false;

	169 }

	170 fFinalCurveEnd = pointsPtr++;

100 continue;	171 continue;

101 case SkPath::kLine_Verb:	172 case SkPath::kLine_Verb: {

	173 const SkPoint& lineEnd = pointsPtr[0];

	174 if (!is_finite_point(lineEnd)) {

	175 return false;

	176 }

	177 const SkPoint& lineStart = pointsPtr[-1];

102 // skip degenerate points	178 // skip degenerate points

103 if (pointsPtr[-1].fX != pointsPtr[0].fX \|\| pointsPtr[-1].fY != p ointsPtr[0].fY) {	179 if (lineStart.fX != lineEnd.fX \|\| lineStart.fY != lineEnd.fY) {

104 fCurrentContour->addLine(&pointsPtr[-1]);	180 fCurrentContour->addLine(&lineStart);

105 }	181 }

106 break;	182 } break;

107 case SkPath::kQuad_Verb:	183 case SkPath::kQuad_Verb: {

108 reducedVerb = SkReduceOrder::Quad(&pointsPtr[-1], &fReducePts);	184 if (!is_finite_line(pointsPtr)) {

	185 return false;

	186 }

	187 const SkPoint* quadStart = &pointsPtr[-1];

	188 reducedVerb = SkReduceOrder::Quad(quadStart, &fReducePts);

109 if (reducedVerb == 0) {	189 if (reducedVerb == 0) {

110 break; // skip degenerate points	190 break; // skip degenerate points

111 }	191 }

112 if (reducedVerb == 1) {	192 if (reducedVerb == 1) {

113 *fExtra.append() =	193 const SkPoint* lineStart = fReducePts.end() - 2;

114 fCurrentContour->addLine(fReducePts.end() - 2);	194 *fExtra.append() = fCurrentContour->addLine(lineStart);

115 break;	195 break;

116 }	196 }

117 fCurrentContour->addQuad(&pointsPtr[-1]);	197 fCurrentContour->addQuad(quadStart);

118 break;	198 } break;

119 case SkPath::kCubic_Verb:	199 case SkPath::kCubic_Verb: {

120 reducedVerb = SkReduceOrder::Cubic(&pointsPtr[-1], &fReducePts);	200 if (!is_finite_quad(pointsPtr)) {

	201 return false;

	202 }

	203 const SkPoint* cubicStart = &pointsPtr[-1];

	204 reducedVerb = SkReduceOrder::Cubic(cubicStart, &fReducePts);

121 if (reducedVerb == 0) {	205 if (reducedVerb == 0) {

122 break; // skip degenerate points	206 break; // skip degenerate points

123 }	207 }

124 if (reducedVerb == 1) {	208 if (reducedVerb == 1) {

125 *fExtra.append() = fCurrentContour->addLine(fReducePts.end() - 2);	209 const SkPoint* lineStart = fReducePts.end() - 2;

	210 *fExtra.append() = fCurrentContour->addLine(lineStart);

126 break;	211 break;

127 }	212 }

128 if (reducedVerb == 2) {	213 if (reducedVerb == 2) {

129 *fExtra.append() = fCurrentContour->addQuad(fReducePts.end() - 3);	214 const SkPoint* quadStart = fReducePts.end() - 3;

	215 *fExtra.append() = fCurrentContour->addQuad(quadStart);

130 break;	216 break;

131 }	217 }

132 fCurrentContour->addCubic(&pointsPtr[-1]);	218 fCurrentContour->addCubic(cubicStart);

133 break;	219 } break;

134 case SkPath::kClose_Verb:	220 case SkPath::kClose_Verb:

135 SkASSERT(fCurrentContour);	221 SkASSERT(fCurrentContour);

136 if (finalCurveStart && finalCurveEnd	222 if (!close()) {

137 && finalCurveStart != finalCurveEnd) {	223 return false;

138 fReducePts.append() = finalCurveStart;

139 fReducePts.append() = finalCurveEnd;

140 *fExtra.append() = fCurrentContour->addLine(fReducePts.end() - 2);

141 }	224 }

142 complete();

143 continue;	225 continue;

144 default:	226 default:

145 SkDEBUGFAIL("bad verb");	227 SkDEBUGFAIL("bad verb");

146 return;	228 return false;

147 }	229 }

148 finalCurveStart = &pointsPtr[verb - 1];	230 fFinalCurveStart = &pointsPtr[verb - 1];

149 pointsPtr += verb;	231 pointsPtr += verb;

150 SkASSERT(fCurrentContour);	232 SkASSERT(fCurrentContour);

151 }	233 }

	234 if (fCurrentContour && !fAllowOpenContours && !close()) {

	235 return false;

	236 }

	237 return true;

152 }	238 }

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