| /external/opencv/cv/src/ |
| _cvgeom.h | 46 CV_INLINE float icvDistanceL2_32f( CvPoint2D32f pt1, CvPoint2D32f pt2 )
48 float dx = pt2.x - pt1.x;
49 float dy = pt2.y - pt1.y;
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| cvpgh.cpp | 192 CvPoint pt1, pt2; local
195 CV_READ_EDGE( pt1, pt2, reader1 );
197 dx = pt2.x - pt1.x;
198 dy = pt2.y - pt1.y;
214 CvPoint pt1, pt2; local
218 CV_READ_EDGE( pt1, pt2, reader1 );
220 dx = pt2.x - pt1.x;
221 dy = pt2.y - pt1.y;
242 int d1 = (pt3.y - pt1.y) * dx - (pt3.x - pt1.x) * dy
[all...] |
| cvcontourtree.cpp | 73 CvPoint *pt1, *pt2; /* pointer to current points */ local
160 pt1 = pt_p;
171 pt1 = pt_p;
181 pt1 = pt_n;
187 t = pt1[0];
189 tp1 = pt1[i - 1];
191 tp2 = pt1[i - 2];
193 tp3 = pt1[i - 3];
195 tn1 = pt1[1];
197 tn2 = pt1[2]
[all...] |
| /external/skia/src/pathops/ |
| SkPathWriter.h | 24 void conicTo(const SkPoint& pt1, const SkOpPtT* pt2, SkScalar weight);
25 void cubicTo(const SkPoint& pt1, const SkPoint& pt2, const SkOpPtT* pt3);
33 void quadTo(const SkPoint& pt1, const SkOpPtT* pt2);
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| SkPathWriter.cpp | 33 void SkPathWriter::conicTo(const SkPoint& pt1, const SkOpPtT* pt2, SkScalar weight) {
37 pt1.fX, pt1.fY, pt2->fPt.fX, pt2->fPt.fY, weight);
39 fCurrent.conicTo(pt1, pt2->fPt, weight);
42 void SkPathWriter::cubicTo(const SkPoint& pt1, const SkPoint& pt2, const SkOpPtT* pt3) {
46 pt1.fX, pt1.fY, pt2.fX, pt2.fY, pt3->fPt.fX, pt3->fPt.fY);
48 fCurrent.cubicTo(pt1, pt2, pt3->fPt);
145 void SkPathWriter::quadTo(const SkPoint& pt1, const SkOpPtT* pt2) {
149 pt1.fX, pt1.fY, pt2->fPt.fX, pt2->fPt.fY)
[all...] |
| /external/valgrind/drd/tests/ |
| pth_cleanup_handler.c | 39 pthread_t pt1, pt2; local
49 if (pthread_create(&pt1, NULL, f, NULL) != 0)
60 pthread_join(pt1, 0);
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| /external/fonttools/Lib/fontTools/misc/ |
| bezierTools.py | 24 def calcQuadraticBounds(pt1, pt2, pt3):
26 pt1 and pt3 are the "anchor" points, pt2 is the "handle".
33 (ax, ay), (bx, by), (cx, cy) = calcQuadraticParameters(pt1, pt2, pt3)
41 points = [(ax*t*t + bx*t + cx, ay*t*t + by*t + cy) for t in roots if 0 <= t < 1] + [pt1, pt3]
45 def calcCubicBounds(pt1, pt2, pt3, pt4):
47 pt1 and pt4 are the "anchor" points, pt2 and pt3 are the "handles".
56 (ax, ay), (bx, by), (cx, cy), (dx, dy) = calcCubicParameters(pt1, pt2, pt3, pt4)
66 points = [(ax*t*t*t + bx*t*t + cx * t + dx, ay*t*t*t + by*t*t + cy * t + dy) for t in roots] + [pt1, pt4]
70 def splitLine(pt1, pt2, where, isHorizontal):
71 """Split the line between pt1 and pt2 at position 'where', whic
[all...] |
| /external/opencv/cxcore/src/ |
| cxdrawing.cpp | 81 cvClipLine( CvSize img_size, CvPoint* pt1, CvPoint* pt2 )
93 if( !pt1 || !pt2 )
99 x1 = pt1->x; y1 = pt1->y; x2 = pt2->x; y2 = pt2->y;
141 pt1->x = x1;
142 pt1->y = y1;
160 cvInitLineIterator( const CvArr* img, CvPoint pt1, CvPoint pt2,
183 if( (unsigned)pt1.x >= (unsigned)(mat->width) ||
185 (unsigned)pt1.y >= (unsigned)(mat->height) ||
193 dx = pt2.x - pt1.x
1041 CvPoint pt0, pt1; local
1166 CvPoint pt0, pt1, t0, t1; local
2539 CvPoint pt1, pt2; local
[all...] |
| /external/fonttools/Lib/fontTools/pens/ |
| basePen.py | 164 def _curveToOne(self, pt1, pt2, pt3):
175 def _qCurveToOne(self, pt1, pt2):
181 pt1x, pt1y = pt1
245 for pt1, pt2, pt3 in decomposeSuperBezierSegment(points):
246 _curveToOne(pt1, pt2, pt3)
277 for pt1, pt2 in decomposeQuadraticSegment(points):
278 _qCurveToOne(pt1, pt2)
291 This function returns a list of (pt1, pt2, pt3) tuples, which each
297 pt1, pt2, pt3 = points[0], None, None
312 bezierSegments.append((pt1, pt2, pt3)
[all...] |
| /frameworks/layoutlib/bridge/src/android/graphics/ |
| BitmapShader_Delegate.java | 174 float[] pt1 = new float[2]; local
179 pt1[0] = x + ix;
180 pt1[1] = y + iy;
181 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1);
184 pt1[0] = pt2[0];
185 pt1[1] = pt2[1];
186 mLocalMatrix.transform(pt1, 0, pt2, 0, 1);
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| LinearGradient_Delegate.java | 184 float[] pt1 = new float[2]; local
189 pt1[0] = x + ix;
190 pt1[1] = y + iy;
191 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1);
194 pt1[0] = pt2[0];
195 pt1[1] = pt2[1];
196 mLocalMatrix.transform(pt1, 0, pt2, 0, 1);
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| RadialGradient_Delegate.java | 175 float[] pt1 = new float[2]; local
180 pt1[0] = x + ix;
181 pt1[1] = y + iy;
182 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1);
185 pt1[0] = pt2[0] - mX;
186 pt1[1] = pt2[1] - mY;
187 mLocalMatrix.transform(pt1, 0, pt2, 0, 1);
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| SweepGradient_Delegate.java | 168 float[] pt1 = new float[2]; local
173 pt1[0] = x + ix;
174 pt1[1] = y + iy;
175 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1);
178 pt1[0] = pt2[0] - mCx;
179 pt1[1] = pt2[1] - mCy;
180 mLocalMatrix.transform(pt1, 0, pt2, 0, 1);
|
| /external/freetype/src/cff/ |
| cf2glue.h | 105 FT_Vector pt1; member in struct:CF2_CallbackParamsRec_
|
| /external/pdfium/third_party/freetype/src/cff/ |
| cf2glue.h | 105 FT_Vector pt1; member in struct:CF2_CallbackParamsRec_
|
| /external/pdfium/xfa/fwl/theme/ |
| cfwl_checkboxtp.cpp | 226 CFX_PointF pt1(fWidth / 15.0f, fBottom + fHeight * 2 / 5.0f);
243 m_pCheckPath->MoveTo(pt1);
245 CFX_PointF p1 = CFX_PointF(pt12.x - pt1.x, pt12.y - pt1.y) * FX_BEZIER;
247 m_pCheckPath->BezierTo(pt1 + p1, pt2 + p2, pt2);
262 p2 = CFX_PointF(pt15.x - pt1.x, pt15.y - pt1.y) * FX_BEZIER;
263 m_pCheckPath->BezierTo(pt5 + p1, pt1 + p2, pt1);
|
| /external/pdfium/fpdfsdk/pdfwindow/ |
| PWL_ScrollBar.cpp | 146 CFX_PointF pt1(ptCenter.x - PWL_TRIANGLE_HALFLEN * 0.5f, ptCenter.y);
155 sButton << pt1.x << " " << pt1.y << " m\n";
158 sButton << pt1.x << " " << pt1.y << " l f\n";
164 CFX_PointF pt1(ptCenter.x + PWL_TRIANGLE_HALFLEN * 0.5f, ptCenter.y);
173 sButton << pt1.x << " " << pt1.y << " m\n";
176 sButton << pt1.x << " " << pt1.y << " l f\n"
[all...] |
| PWL_Utils.cpp | 108 CFX_PointF pt1(crBBox.left, crBBox.bottom + fHeight / 2);
113 csAP << pt1.x << " " << pt1.y << " m\n";
115 FX_FLOAT px = pt2.x - pt1.x;
116 FX_FLOAT py = pt2.y - pt1.y;
118 csAP << pt1.x << " " << pt1.y + py * FX_BEZIER << " "
135 px = pt4.x - pt1.x;
136 py = pt1.y - pt4.y;
138 csAP << pt4.x - px * FX_BEZIER << " " << pt4.y << " " << pt1.x << "
[all...] |
| PWL_ComboBox.cpp | 107 CFX_PointF pt1(ptCenter.x - PWL_CBBUTTON_TRIANGLE_HALFLEN,
119 sButton << pt1.x << " " << pt1.y << " m\n";
122 sButton << pt1.x << " " << pt1.y << " l f\n";
138 CFX_PointF pt1(ptCenter.x - PWL_CBBUTTON_TRIANGLE_HALFLEN,
150 path.AppendPoint(pt1, FXPT_TYPE::MoveTo, false);
153 path.AppendPoint(pt1, FXPT_TYPE::LineTo, false);
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| /prebuilts/go/darwin-x86/src/runtime/testdata/testprog/ |
| deadlock.go | 202 pt1()
205 func pt1() { func
207 panic("panic pt1")
|
| /prebuilts/go/linux-x86/src/runtime/testdata/testprog/ |
| deadlock.go | 202 pt1()
205 func pt1() { func
207 panic("panic pt1")
|
| /external/pdfium/xfa/fde/tto/ |
| fde_textout.cpp | 777 CFX_PointF pt1, pt2; local
780 pt1.x = rtText.left;
781 pt1.y = rtText.top;
785 pt1.x = rtText.left;
786 pt1.y = rtText.bottom();
790 pPath->AddLine(pt1, pt2);
795 pt1.x = rtText.left + rtText.width * 2.0f / 5.0f;
796 pt1.y = rtText.top;
797 pt2.x = pt1.x;
800 pt1.x = rtText.left
[all...] |
| /external/pdfium/xfa/fde/ |
| cfde_path.h | 26 void AddLine(const CFX_PointF& pt1, const CFX_PointF& pt2);
|
| /external/dng_sdk/source/ |
| dng_rect.h | 242 dng_rect_real64 (const dng_point_real64 &pt1,
244 : t (Min_real64 (pt1.v, pt2.v))
245 , l (Min_real64 (pt1.h, pt2.h))
246 , b (Max_real64 (pt1.v, pt2.v))
247 , r (Max_real64 (pt1.h, pt2.h))
|
| /external/mesa3d/src/gallium/state_trackers/xa/ |
| xa_renderer.c | 205 float pt0[2], pt1[2], pt2[2], pt3[2]; local
209 pt1[0] = (srcX + width);
210 pt1[1] = srcY;
218 map_point((float *)src_matrix, pt1[0], pt1[1], &pt1[0], &pt1[1]);
224 s1 = pt1[0] / src->width0;
228 t1 = pt1[1] / src->height0;
|
