/dports/print/gutenprint/gutenprint-5.3.3/test/ |
H A D | curve.c | 677 curve1 = NULL; in main() 867 if (curve1) in main() 870 curve1 = NULL; in main() 882 if (curve1) in main() 914 if (curve1) in main() 917 curve1 = NULL; in main() 934 if (curve1) in main() 943 curve1 = NULL; in main() 1019 if (curve1) in main() 1022 curve1 = NULL; in main() [all …]
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/dports/print/gimp-gutenprint/gutenprint-5.3.3/test/ |
H A D | curve.c | 677 curve1 = NULL; in main() 867 if (curve1) in main() 870 curve1 = NULL; in main() 882 if (curve1) in main() 914 if (curve1) in main() 917 curve1 = NULL; in main() 934 if (curve1) in main() 943 curve1 = NULL; in main() 1019 if (curve1) in main() 1022 curve1 = NULL; in main() [all …]
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/dports/graphics/nurbs++/nurbs++-3.0.11/examples/nurbs/ |
H A D | tclose.cpp | 25 PlNurbsCurvef curve1 ; in main() local 28 curve1.globalInterpH(P,deg) ; in main() 30 cout << "U1= " << curve1.knot() << endl ; in main() 31 cout << "P1 = " << curve1.ctrlPnts() << endl ; in main() 32 cout << "D1 = " << curve1.degree() << endl ; in main() 49 curve1.drawImg(image,Color(0,0,255),0.01) ; in main() 60 curve1 = curve2 ; in main() 61 curve1.clamp(); in main() 71 curve1.writePS("tnClosedB.ps",1,2.0,5,true) ; in main() 75 curve1.unclamp() ; in main() [all …]
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H A D | tmeasures.cpp | 24 PlNurbsCurvef curve1 ; in main() local 26 curve1.globalInterpH(P,deg) ; in main() 27 double length = curve1.length(1e-6,100); in main() 37 surface.sweep(curve1,curve2,10) ; in main()
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/dports/misc/vxl/vxl-3.3.2/contrib/gel/vsol/tests/ |
H A D | test_vsol_digital_curve_3d.cxx | 57 vsol_digital_curve_3d_sptr curve1, curve2; in test_vsol_digital_curve_3d() local 61 bool split_test = split(dc, 1.5, curve1, curve2); in test_vsol_digital_curve_3d() 62 TEST("split curve at 1.5", split_test && curve1 && curve2, true); in test_vsol_digital_curve_3d() 63 std::cout << "curve 1: " << *curve1 << std::endl in test_vsol_digital_curve_3d() 64 << curve1->point(2)->get_p() << std::endl; in test_vsol_digital_curve_3d() 66 && curve1->size() == 3, true); in test_vsol_digital_curve_3d() 76 split_test = split(dc, index, curve1, curve2); in test_vsol_digital_curve_3d() 78 std::cout << "curve 1: " << *curve1 << std::endl; in test_vsol_digital_curve_3d() 80 && curve1->size() == 4, true); in test_vsol_digital_curve_3d() 89 split_test = split(dc, index, curve1, curve2); in test_vsol_digital_curve_3d() [all …]
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H A D | test_vsol_digital_curve_2d.cxx | 73 vsol_digital_curve_2d_sptr curve1, curve2; in test_vsol_digital_curve_2d() local 77 bool split_test = split(dc, 1.5, curve1, curve2); in test_vsol_digital_curve_2d() 78 TEST("split curve at 1.5", split_test && curve1 && curve2, true); in test_vsol_digital_curve_2d() 80 && curve1->size() == 3, true); in test_vsol_digital_curve_2d() 83 std::cout << "curve 1: " << *curve1 << std::endl in test_vsol_digital_curve_2d() 89 split_test = split(dc, 3.0, curve1, curve2); in test_vsol_digital_curve_2d() 90 TEST("split curve at 3.0", split_test && curve1 && curve2, true); in test_vsol_digital_curve_2d() 92 && curve1->size() == 4, true); in test_vsol_digital_curve_2d() 95 std::cout << "curve 1: " << *curve1 << std::endl in test_vsol_digital_curve_2d() 101 split_test = split(dc, 4.0, curve1, curve2); in test_vsol_digital_curve_2d() [all …]
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/dports/science/axom/axom-0.6.1/src/axom/primal/tests/ |
H A D | primal_bezier_intersect.cpp | 143 checkIntersections(curve1, in TEST() 168 checkIntersections(curve1, in TEST() 193 checkIntersections(curve1, in TEST() 240 checkIntersections(curve1, in TEST() 249 curve1, in TEST() 291 checkIntersections(curve1, in TEST() 315 BezierCurveType curve1(0); in TEST() local 316 curve1[0] = data1; in TEST() 338 curve1[i][0] = curve1[i][0] * (otherorder - 1) / (1.0 * otherorder); in TEST() 347 checkIntersections(curve1, in TEST() [all …]
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/dports/games/abstreet/abstreet-0.2.9-49-g74aca40c0/cargo-crates/lyon_geom-0.15.3/src/ |
H A D | cubic_bezier_intersections.rs | 26 if !curve1 29 || curve1 == curve2 51 let point1 = midpoint(&curve1.from, &curve1.to); 83 &curve1, 289 curve1, 302 curve1, 314 curve1, 374 &curve1, 420 curve1, 432 curve1, [all …]
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/dports/textproc/cast2gif/cast2gif-0.1.0/cargo-crates/lyon_geom-0.15.2/src/ |
H A D | cubic_bezier_intersections.rs | 26 if !curve1 29 || curve1 == curve2 51 let point1 = midpoint(&curve1.from, &curve1.to); 83 &curve1, 289 curve1, 302 curve1, 314 curve1, 374 &curve1, 420 curve1, 432 curve1, [all …]
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/dports/graphics/py-pyqtgraph/pyqtgraph-0.12.3/pyqtgraph/graphicsItems/ |
H A D | FillBetweenItem.py | 12 def __init__(self, curve1=None, curve2=None, brush=None, pen=None): argument 15 if curve1 is not None and curve2 is not None: 16 self.setCurves(curve1, curve2) 17 elif curve1 is not None or curve2 is not None: 32 def setCurves(self, curve1, curve2): argument 46 curves = [curve1, curve2] 51 curve1.sigPlotChanged.connect(self.curveChanged) 53 self.setZValue(min(curve1.zValue(), curve2.zValue())-1)
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/dports/graphics/blender/blender-2.91.0/release/scripts/addons/curve_tools/ |
H A D | auto_loft.py | 23 curve1 = context.selected_objects[1] 25 ls = surfaces.LoftedSurface(curves.Curve(curve0), curves.Curve(curve1), "AutoLoft") 37 "description": "Auto loft from %s to %s" % (curve0.name, curve1.name), 39 "curve1": curve1.name} 64 curve1 = scene.objects.get(rna["curve1"]) 65 if curve0 and curve1: 66 … ls = surfaces.LoftedSurface(curves.Curve(curve0), curves.Curve(curve1), loftmesh.name)
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/dports/math/sisl/SISL-SISL-4.6.0-44-g9114631/src/ |
H A D | s1537.c | 182 SISLCurve *curve1=SISL_NULL, *curve2=SISL_NULL; local 194 start, &end, &curve1, &pointpar, &numpt, &kstat); 202 newin2 = curve1->in; 209 s6chpar(curve1->ecoef, im1, newin2, idim, newcoeff); 233 curve1->et, newcoeff, 1, idim, 1)) == SISL_NULL) 239 (*rsurf)->cuopen_2 = curve1->cuopen; 267 if (curve1 != SISL_NULL) freeCurve(curve1);
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/dports/graphics/dia/dia-0.97.3/objects/SADT/ |
H A D | arrow.c | 329 BezPoint curve1[2]; in draw_tunnel() local 341 curve1[0].type = curve2[0].type = BEZ_MOVE_TO; in draw_tunnel() 342 curve1[0].p1 = curve2[0].p1 = *end; in draw_tunnel() 345 point_add(&curve1[0].p1,&vt1); point_add(&curve2[0].p1,&vt1); in draw_tunnel() 349 point_add(&curve1[0].p1,&vt2); point_sub(&curve2[0].p1,&vt2); in draw_tunnel() 355 curve1[1].type = curve2[1].type = BEZ_CURVE_TO; in draw_tunnel() 356 curve1[1].p1 = curve1[0].p1; curve2[1].p1 = curve2[0].p1; in draw_tunnel() 357 point_add(&curve1[1].p1,&vt1); point_add(&curve2[1].p1,&vt1); in draw_tunnel() 359 curve1[1].p2 = curve1[1].p1; curve2[1].p2 = curve2[1].p1; in draw_tunnel() 361 curve1[1].p3 = curve1[1].p2; curve2[1].p3 = curve2[1].p2; in draw_tunnel() [all …]
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/dports/math/octave-forge-matgeom/matgeom-1.2.3/inst/meshes3d/ |
H A D | triangulateCurvePair.m | 28 function [vertices, facets] = triangulateCurvePair(curve1, curve2) 37 % curve1 = [linspace(0, 10, 100)' 5 * sin(t') zeros(100,1)]; 40 % drawPolyline3d(curve1, 'b'); 43 % [v, f] = triangulateCurvePair(curve1, curve2); 60 n1 = size(curve1, 1); 69 p1 = curve1(1, :); 77 vertices = [curve1 ; curve2]; 92 dist1 = distancePoints(curve1(currentIndex1, :), curve2(nextIndex2,:)); 93 dist2 = distancePoints(curve1(nextIndex1, :), curve2(currentIndex2,:)); 96 % keep current vertex of curve1, use next vertex on curve2 [all …]
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/dports/math/sisl/SISL-SISL-4.6.0-44-g9114631/doc/manual/func/ |
H A D | s1715.tex | 5 translating the second curve. If {\fov curve1} is to be joined at the start, 7 end, the direction of this curve is turned. This means that {\fov curve1} 12 {\fov curve1}, {\fov curve2}, {\fov end1}, {\fov end2}, {\fov newcurve}, {\fov stat}) 14 \>\> SISLCurve \> *{\fov curve1};\\ 23 \>\> {\fov curve1} \> - \> First curve to join.\\ 45 \>\> SISLCurve \> *{\fov curve1};\\ 53 … {\fov curve1}, {\fov curve2}, {\fov end1}, {\fov end2}, \&{\fov newcurve}, \&{\fov stat});
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H A D | s1716.tex | 6 {\fov curve1} is to be joined at the start, the direction of the curve is turned. 8 curve is turned. This means that {\fov curve1} always makes up the 15 {\fov curve1}, {\fov curve2}, {\fov epsge}, {\fov newcurve}, {\fov stat}) 17 \>\> SISLCurve \> *{\fov curve1};\\ 25 \>\> {\fov curve1} \> - \> First curve to join.\\ 46 \>\> SISLCurve \> *{\fov curve1};\\ 53 {\fov curve1}, {\fov curve2}, {\fov epsge}, \&{\fov newcurve}, \&{\fov stat});
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H A D | s1332.tex | 8 … {\fov curve1}, {\fov curve2}, {\fov epsge}, {\fov point}, {\fov surf}, {\fov stat}) 10 \>\> SISLCurve \> *{\fov curve1};\\ 20 \>\> {\fov curve1} \> - \> \begin{minipg2} 45 \>\> curve \> *{\fov curve1};\\ 53 … {\fov curve1}, {\fov curve2}, {\fov epsge}, {\fov point}, \&{\fov surf}, \&{\fov stat});
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/dports/science/scidavis/scidavis-2.4.0/test/pythonTests/ |
H A D | linear_and_polynomial_fits.py | 22 curve1=t1Name+"_2" variable 23 l1.addErrorBars(curve1,t1,'3') 28 f1=LinearFit(l1,curve1) #linear fit 31 f2=PolynomialFit(l1,curve1,5) #polynomial fit of degree 5
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H A D | smoothing.py | 31 curve1=t1Name+"_2" variable 33 smth1=SmoothFilter(l1,curve1) 39 smth2=SmoothFilter(l1,curve1) 45 smth3=SmoothFilter(l1,curve1)
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H A D | nonlinear_and_gauss_fits.py | 28 curve1=t1Name+"_2" variable 29 l1.addErrorBars(curve1,t1,'3') 34 f1=GaussFit(l1,curve1) #Gauss fit 45 f2=NonLinearFit(l1,curve1)
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H A D | interpolation.py | 35 curve1=t1Name+"_2" variable 43 interp0=Interpolation(l1,curve1,start,end,0) 47 interp1=Interpolation(l1,curve1,start,end,1) 52 interp2=Interpolation(l1,curve1,start,end,2)
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/dports/graphics/cfdg/cfdg-3.3_1/input/tests/ |
H A D | complexparenttest.cfdg | 1 startshape curve1(0.95…0.99, 0±5) 3 shape curve1(shrink, turn) 12 curve1(=)[[y 0.5 s shrink r turn y 0.5]]
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/dports/cad/opencascade/opencascade-7.6.0/src/Bisector/ |
H A D | Bisector_BisecCC.cxx | 269 pointEnd = curve1->Value(curve1->LastParameter()); in Perform() 438 curve1 ->Transform(T); in Transform() 539 if (curve1->IsClosed()) { in IsClosed() 652 curve1->D1 (U1,P1,T1); in ValueAndDist() 774 curve1->D1(U1,P1,Tan1); in ValueByInt() 1075 curve1->D2(U0,P1,Tu,Tuu); in Values() 1170 U1 = curve1->LastParameter(); in Extension() 1219 curve1->D1(U1,P1,T1); in Extension() 1498 if (I == 1) curve1 = C; in Curve() 1770 U1 = curve1->FirstParameter(); in ComputePointEnd() [all …]
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/dports/misc/valentina/valentina-5b7e98bf48a86e3c444423a9f03533440a39aad9/src/libs/vtools/visualization/path/ |
H A D | vistoolpointofintersectioncurves.cpp | 66 auto curve1 = Visualization::data->GeometricObject<VAbstractCurve>(object1Id); in RefreshGeometry() local 67 …DrawPath(this, curve1->GetPath(), curve1->DirectionArrows(), supportColor, Qt::SolidLine, Qt::Roun… in RefreshGeometry() 76 … VToolPointOfIntersectionCurves::FindPoint(curve1->GetPoints(), curve2->GetPoints(), vCrossPoint, in RefreshGeometry()
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/dports/math/openturns/openturns-1.18/python/doc/examples/data_analysis/estimate_stochastic_processes/ |
H A D | plot_estimate_spectral_density_function.py | 86 curve1 = ot.Curve(plotSample.getMarginal([0, 1])) variable 87 curve1.setColor('blue') 88 curve1.setLegend('estimate model') 95 graph.add(curve1)
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