/external/opencv3/modules/imgproc/src/ |
_geom.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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drawing.cpp | 80 bool clipLine( Size img_size, Point& pt1, Point& pt2 ) 89 x1 = pt1.x; y1 = pt1.y; x2 = pt2.x; y2 = pt2.y; 132 pt2.x = (int)x2; 133 pt2.y = (int)y2; 139 bool clipLine( Rect img_rect, Point& pt1, Point& pt2 ) 142 pt1 -= tl; pt2 -= tl; 143 bool inside = clipLine(img_rect.size(), pt1, pt2); 144 pt1 += tl; pt2 += tl; 153 LineIterator::LineIterator(const Mat& img, Point pt1, Point pt2, 2570 cv::LineIterator li(cv::cvarrToMat(img), pt1, pt2, connectivity, left_to_right!=0); local [all...] |
/external/skia/src/pathops/ |
SkPathWriter.cpp | 38 void SkPathWriter::conicTo(const SkPoint& pt1, const SkPoint& pt2, SkScalar weight) { 40 if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2)) { 41 deferredLine(pt2); 45 fDefer[1] = pt2; 56 void SkPathWriter::cubicTo(const SkPoint& pt1, const SkPoint& pt2, const SkPoint& pt3) { 58 if (fEmpty && AlmostEqualUlps(fDefer[0], pt1) && AlmostEqualUlps(pt1, pt2) 59 && AlmostEqualUlps(pt2, pt3)) { 69 pt1.fX, pt1.fY, pt2.fX, pt2.fY, fDefer[1].fX, fDefer[1].fY); 71 fPathPtr->cubicTo(pt1.fX, pt1.fY, pt2.fX, pt2.fY, fDefer[1].fX, fDefer[1].fY) [all...] |
SkPathWriter.h | 16 void conicTo(const SkPoint& pt1, const SkPoint& pt2, SkScalar weight); 17 void cubicTo(const SkPoint& pt1, const SkPoint& pt2, const SkPoint& pt3); 28 void quadTo(const SkPoint& pt1, const SkPoint& pt2);
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/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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/external/valgrind/drd/tests/ |
pth_cleanup_handler.c | 39 pthread_t pt1, pt2; local 54 if (pthread_create(&pt2, NULL, f, NULL) != 0) 61 pthread_join(pt2, 0);
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/external/fonttools/Lib/fontTools/pens/ |
basePen.py | 164 def _curveToOne(self, pt1, pt2, pt3): 175 def _qCurveToOne(self, pt1, pt2): 182 pt2x, pt2y = pt2 187 self._curveToOne((mid1x, mid1y), (mid2x, mid2y), pt2) 245 for pt1, pt2, pt3 in decomposeSuperBezierSegment(points): 246 _curveToOne(pt1, pt2, pt3) 277 for pt1, pt2 in decomposeQuadraticSegment(points): 278 _qCurveToOne(pt1, pt2) 279 self.__currentPoint = pt2 291 This function returns a list of (pt1, pt2, pt3) tuples, which eac [all...] |
/external/opencv3/samples/cpp/ |
houghlines.cpp | 40 Point pt1, pt2; 45 pt2.x = cvRound(x0 - 1000*(-b)); 46 pt2.y = cvRound(y0 - 1000*(a)); 47 line( cdst, pt1, pt2, Scalar(0,0,255), 3, CV_AA);
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drawing.cpp | 36 Point pt1, pt2; local 39 pt2.x = rng.uniform(x1, x2); 40 pt2.y = rng.uniform(y1, y2); 42 line( image, pt1, pt2, randomColor(rng), rng.uniform(1,10), lineType ); 51 Point pt1, pt2; local 54 pt2.x = rng.uniform(x1, x2); 55 pt2.y = rng.uniform(y1, y2); 58 rectangle( image, pt1, pt2, randomColor(rng), MAX(thickness, -1), lineType );
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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) 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) 70 def splitLine(pt1, pt2, where, isHorizontal): 71 """Split the line between pt1 and pt2 at position 'where', which 90 pt2x, pt2y = pt2 99 return [(pt1, pt2)] [all...] |
/external/libgdx/extensions/gdx-bullet/jni/src/bullet/BulletCollision/CollisionShapes/ |
btTetrahedronShape.h | 39 btBU_Simplex1to4(const btVector3& pt0,const btVector3& pt1,const btVector3& pt2); 40 btBU_Simplex1to4(const btVector3& pt0,const btVector3& pt1,const btVector3& pt2,const btVector3& pt3);
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btTetrahedronShape.cpp | 40 btBU_Simplex1to4::btBU_Simplex1to4(const btVector3& pt0,const btVector3& pt1,const btVector3& pt2) : btPolyhedralConvexAabbCachingShape (), 46 addVertex(pt2); 49 btBU_Simplex1to4::btBU_Simplex1to4(const btVector3& pt0,const btVector3& pt1,const btVector3& pt2,const btVector3& pt3) : btPolyhedralConvexAabbCachingShape (), 55 addVertex(pt2);
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/external/libgdx/extensions/gdx-bullet/jni/swig-src/collision/com/badlogic/gdx/physics/bullet/collision/ |
btBU_Simplex1to4.java | 73 public btBU_Simplex1to4(Vector3 pt0, Vector3 pt1, Vector3 pt2) { 74 this(CollisionJNI.new_btBU_Simplex1to4__SWIG_3(pt0, pt1, pt2), true); 77 public btBU_Simplex1to4(Vector3 pt0, Vector3 pt1, Vector3 pt2, Vector3 pt3) { 78 this(CollisionJNI.new_btBU_Simplex1to4__SWIG_4(pt0, pt1, pt2, pt3), true);
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/external/opencv3/samples/cpp/tutorial_code/viz/ |
creating_widgets.cpp | 45 WTriangle(const Point3f &pt1, const Point3f &pt2, const Point3f &pt3, const viz::Color & color = viz::Color::white()); 52 WTriangle::WTriangle(const Point3f &pt1, const Point3f &pt2, const Point3f &pt3, const viz::Color & color) 57 points->InsertNextPoint(pt2.x, pt2.y, pt2.z);
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/external/opencv3/samples/python2/ |
houghlines.py | 37 pt2 = ( int(x0-1000*(-b)), int(y0-1000*(a)) ) variable 38 cv2.line(cdst, pt1, pt2, (0, 0, 255), 3, cv2.LINE_AA)
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/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; 143 pt2->x = x2; 144 pt2->y = y2; 160 cvInitLineIterator( const CvArr* img, CvPoint pt1, CvPoint pt2, 184 (unsigned)pt2.x >= (unsigned)(mat->width) || 186 (unsigned)pt2.y >= (unsigned)(mat->height) ) 193 dx = pt2.x - pt1.x 2539 CvPoint pt1, pt2; local [all...] |
/frameworks/base/tools/layoutlib/bridge/src/android/graphics/ |
BitmapShader_Delegate.java | 174 float[] pt2 = new float[2]; local 180 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1); 183 pt1[0] = pt2[0]; 184 pt1[1] = pt2[1]; 185 mLocalMatrix.transform(pt1, 0, pt2, 0, 1); 187 data[index++] = getColor(pt2[0], pt2[1]);
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LinearGradient_Delegate.java | 185 float[] pt2 = new float[2]; local 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); 198 data[index++] = getColor(pt2[0], pt2[1]);
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RadialGradient_Delegate.java | 175 float[] pt2 = new float[2]; local 181 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1); 184 pt1[0] = pt2[0] - mX; 185 pt1[1] = pt2[1] - mY; 186 mLocalMatrix.transform(pt1, 0, pt2, 0, 1); 188 float _x = pt2[0]; 189 float _y = pt2[1];
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SweepGradient_Delegate.java | 165 float[] pt2 = new float[2]; local 171 mCanvasMatrix.transform(pt1, 0, pt2, 0, 1); 174 pt1[0] = pt2[0] - mCx; 175 pt1[1] = pt2[1] - mCy; 176 mLocalMatrix.transform(pt1, 0, pt2, 0, 1); 178 float dx = pt2[0]; 179 float dy = pt2[1];
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/external/freetype/src/cff/ |
cf2glue.h | 106 FT_Vector pt2; member in struct:CF2_CallbackParamsRec_
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/external/libgdx/extensions/gdx-freetype/jni/freetype-2.6.2/src/cff/ |
cf2glue.h | 106 FT_Vector pt2; member in struct:CF2_CallbackParamsRec_
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/external/pdfium/third_party/freetype/src/cff/ |
cf2glue.h | 106 FT_Vector pt2; member in struct:CF2_CallbackParamsRec_
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/external/pdfium/xfa/src/fdp/include/ |
fde_pth.h | 24 virtual void AddLine(const CFX_PointF& pt1, const CFX_PointF& pt2) = 0;
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/external/opencv3/samples/cpp/tutorial_code/core/Matrix/ |
Drawing_2.cpp | 110 Point pt1, pt2; local 116 pt2.x = rng.uniform( x_1, x_2 ); 117 pt2.y = rng.uniform( y_1, y_2 ); 119 line( image, pt1, pt2, randomColor(rng), rng.uniform(1, 10), 8 ); 133 Point pt1, pt2; local 141 pt2.x = rng.uniform( x_1, x_2 ); 142 pt2.y = rng.uniform( y_1, y_2 ); 144 rectangle( image, pt1, pt2, randomColor(rng), MAX( thickness, -1 ), lineType );
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