/dports/graphics/engauge-digitizer/engauge-digitizer-12.2.2/src/Checker/ |
H A D | Checker.cpp | 67 double angle2 = points.at(2).posGraph().x(); in adjustPolarAngleRanges() local 73 QPointF (angle2, UNIT_LENGTH)); in adjustPolarAngleRanges() 85 path += QString ("from 1=%1 through 0 to 2=%2").arg (angle1).arg (angle2); in adjustPolarAngleRanges() 87 xMax = angle2; in adjustPolarAngleRanges() 89 path += QString ("from 2=%1 through 0 to 1=%2").arg (angle2).arg (angle1); in adjustPolarAngleRanges() 90 xMin = angle2; in adjustPolarAngleRanges() 98 path += QString ("from 0=%1 through 1 to 2=%2").arg (angle0).arg (angle2); in adjustPolarAngleRanges() 100 xMax = angle2; in adjustPolarAngleRanges() 102 path += QString ("from 2=%1 through 1 to 0=%2").arg (angle2).arg (angle0); in adjustPolarAngleRanges() 103 xMin = angle2; in adjustPolarAngleRanges()
|
/dports/x11/xditview/xditview-1.0.5/ |
H A D | draw.c | 216 int angle1, angle2; in DrawArc() local 251 angle2 = 90; in DrawArc() 253 angle2 = 270; in DrawArc() 258 angle2 = 180 - angle2; in DrawArc() 260 angle2 = -angle2; in DrawArc() 265 if (angle2 < 0) in DrawArc() 266 angle2 += 360; in DrawArc() 268 if (angle2 < angle1) in DrawArc() 270 angle2 = angle2 - angle1; in DrawArc() 273 angle2 = ConvertAngle(angle2); in DrawArc() [all …]
|
/dports/games/trenchbroom/TrenchBroom-ed46601/test/src/ |
H A D | QuatTest.cpp | 79 const float angle2 = Math::radians(10.0f); in TEST() local 80 const Quatf q2(Vec<float,3>::PosZ, angle2); in TEST() 85 ASSERT_VEC_EQ(Vec3f(std::cos(angle1 + angle2), std::sin(angle1 + angle2), 0.0f), w); in TEST() 91 const float angle2 = Math::radians(10.0f); in TEST() local 92 const Quatf q2(Vec<float,3>::PosZ, angle2); in TEST() 97 ASSERT_VEC_EQ(Vec3f(std::cos(angle1 + angle2), std::sin(angle1 + angle2), 0.0f), w); in TEST()
|
/dports/science/py-oddt/oddt-0.7/oddt/ |
H A D | interactions.py | 105 angle2 = angle(a['coords'][:, np.newaxis, :], 111 ((np.nan_to_num(angle2) > (base_angle / d_neighbors_num - tolerance)) | 112 np.isnan(angle2))).all(axis=-1) 200 angle2 = angle(a['coords'][:, np.newaxis, :], 207 ((np.nan_to_num(angle2) > (base_angle_halogen / h_neighbors_num - tolerance)) | 208 np.isnan(angle2))).all(axis=-1) 289 angle2 = angle(r1['vector'] + r1['centroid'], 293 ((angle2 > 180 - tolerance) | (angle2 < tolerance))) 295 ((angle2 > 180 - tolerance) | (angle2 < tolerance)))
|
/dports/games/quake2max/Quake2maX_0.45-src_unix/ref_gl/ |
H A D | gl_vlights.c | 66 float angle1, angle2, light; in VLight_GetLightValue() local 70 angle2 = 0; in VLight_GetLightValue() 80 angle2 = atan2( normal[1], normal[0] ) * ( 180.0f / M_PI ); in VLight_GetLightValue() 81 if (angle2 < 0) in VLight_GetLightValue() 82 angle2 += 360; in VLight_GetLightValue() 91 yawofs = ( angle2 + ayaw ) * VLIGHT_GRIDSIZE_Y / 360; in VLight_GetLightValue()
|
/dports/cad/geda/geda-gaf-1.8.2/libgeda/src/ |
H A D | o_circle_basic.c | 260 angle2 = -1; in o_circle_read() 354 angle2 = object->fill_angle2; in o_circle_save() 679 angle2 = o_current->fill_angle2; in o_circle_print() 685 angle2 = -1; pitch2 = 1; in o_circle_print() 695 angle2 = -1; pitch2 = 1; in o_circle_print() 702 angle2 = -1; pitch2 = 1; in o_circle_print() 714 angle2 = -1; pitch2 = 1; in o_circle_print() 970 int angle2, int pitch2, in o_circle_print_filled() argument 1016 int angle2, int pitch2, in o_circle_print_mesh() argument 1030 angle2, pitch2, in o_circle_print_mesh() [all …]
|
H A D | o_path_basic.c | 165 int fill_type, fill_width, angle1, pitch1, angle2, pitch2; in o_path_read() local 180 &pitch1, &angle2, &pitch2, &num_lines) != 14) { in o_path_read() 254 int fill_width, angle1, pitch1, angle2, pitch2; in o_path_save() local 269 angle2 = object->fill_angle2; in o_path_save() 277 fill_width, angle1, pitch1, angle2, pitch2, in o_path_save() 911 int fill_width, angle1, pitch1, angle2, pitch2; in o_path_print() local 998 angle2 = o_current->fill_angle2; in o_path_print() 1004 angle2 = -1; pitch2 = 1; in o_path_print() 1014 angle2 = -1; pitch2 = 1; in o_path_print() 1021 angle2 = -1; pitch2 = 1; in o_path_print() [all …]
|
/dports/cad/PrusaSlicer/PrusaSlicer-version_2.3.3/xs/xsp/ |
H A D | Geometry.xsp | 23 directions_parallel(angle1, angle2) 25 double angle2 27 RETVAL = Slic3r::Geometry::directions_parallel(angle1, angle2); 32 directions_parallel_within(angle1, angle2, max_diff) 34 double angle2 37 RETVAL = Slic3r::Geometry::directions_parallel(angle1, angle2, max_diff);
|
/dports/graphics/plotutils/plotutils-2.6/libxmi/ |
H A D | mi_fllarc.c | 316 int angle1, angle2; in miFillArcSliceSetup() local 319 if (arc->angle2 < 0) in miFillArcSliceSetup() 321 angle2 = angle1; in miFillArcSliceSetup() 325 angle2 = angle1 + arc->angle2; in miFillArcSliceSetup() 330 while (angle2 < 0) in miFillArcSliceSetup() 331 angle2 += FULLCIRCLE; in miFillArcSliceSetup() 333 angle2 -= FULLCIRCLE; in miFillArcSliceSetup() 368 if ((angle2 == 0) || (angle2 == HALFCIRCLE)) in miFillArcSliceSetup() 373 else if ((angle2 == QUADRANT) || (angle2 == QUADRANT3)) in miFillArcSliceSetup() 508 if (angle2 < angle1) in miFillArcSliceSetup() [all …]
|
/dports/x11-toolkits/py-wxPython40/wxPython-4.0.7/demo/snippets/ |
H A D | arc.py | 5 angle2 = 180.0 * (M_PI/180.0) #/* in radians */ variable 9 cr.arc (xc, yc, radius, angle1, angle2) 19 cr.arc (xc, yc, radius, angle2, angle2)
|
H A D | arc_negative.py | 5 angle2 = 180.0 * (M_PI/180.0) #/* in radians */ variable 9 cr.arc_negative (xc, yc, radius, angle1, angle2) 19 cr.arc (xc, yc, radius, angle2, angle2)
|
/dports/science/quantum-espresso/q-e-qe-6.7.0/PW/examples/example06/ |
H A D | run_example | 98 angle2(1) = 0.0 144 angle2(1) = 0.0 212 angle2(1) = 0.0 260 angle2(1) = 0.0 313 angle2(1) = 53.0 357 angle2(1) = 0.0 389 angle2(1) = 0.0 454 angle2(1) = 0.0 534 angle2(1) = 0.0 627 angle2(1) = 0.0 [all …]
|
/dports/graphics/py-cairo/pycairo-1.18.1/examples/cairo_snippets/snippets/ |
H A D | arc.py | 12 angle2 = 180.0 * (pi / 180.0) # in radians 14 cr.arc(xc, yc, radius, angle1, angle2) 24 cr.arc(xc, yc, radius, angle2, angle2)
|
H A D | arc_negative.py | 12 angle2 = 180.0 * (pi / 180.0) # in radians 14 cr.arc_negative(xc, yc, radius, angle1, angle2) 24 cr.arc(xc, yc, radius, angle2, angle2)
|
/dports/graphics/pyl-cairo/pycairo-1.18.1/examples/cairo_snippets/snippets/ |
H A D | arc.py | 12 angle2 = 180.0 * (pi / 180.0) # in radians 14 cr.arc(xc, yc, radius, angle1, angle2) 24 cr.arc(xc, yc, radius, angle2, angle2)
|
H A D | arc_negative.py | 12 angle2 = 180.0 * (pi / 180.0) # in radians 14 cr.arc_negative(xc, yc, radius, angle1, angle2) 24 cr.arc(xc, yc, radius, angle2, angle2)
|
/dports/games/xpilot-ng-server/xpilot-ng-4.7.3/src/client/NT/ |
H A D | paintdata.c | 109 p->arc.angle1, p->arc.angle2); in Arc_end() 118 int angle1, int angle2) in Arc_add() argument 128 t.angle2 = angle2; in Arc_add() 137 int angle1, int angle2) in Arc_add_rgb() argument 143 return Arc_add(fallback_color, x, y, width, height, angle1, angle2); in Arc_add_rgb() 152 t.arc.angle2 = angle2; in Arc_add_rgb()
|
/dports/games/xpilot-ng-server/xpilot-ng-4.7.3/src/client/x11/ |
H A D | paintdata.c | 109 p->arc.angle1, p->arc.angle2); in Arc_end() 118 int angle1, int angle2) in Arc_add() argument 128 t.angle2 = angle2; in Arc_add() 137 int angle1, int angle2) in Arc_add_rgb() argument 143 return Arc_add(fallback_color, x, y, width, height, angle1, angle2); in Arc_add_rgb() 152 t.arc.angle2 = angle2; in Arc_add_rgb()
|
/dports/emulators/xbraitenberg/xbraitenberg-0.9/ |
H A D | view.cc | 144 View::draw_arc(int gc, const Point &p, double r, double angle1, double angle2) in draw_arc() argument 148 angle2 -= angle1; in draw_arc() 150 (int)(angle1 / M_PI * 11520), (int)(angle2 / M_PI * 11520)); in draw_arc() 166 View::fill_arc(int gc, const Point &p, double r, double angle1, double angle2) in fill_arc() argument 170 angle2 -= angle1; in fill_arc() 172 (int)(angle1 / M_PI * 11520), (int)(angle2 / M_PI * 11520)); in fill_arc() 209 EPSView::draw_arc(int, const Point &p, double r, double angle1, double angle2) in draw_arc() argument 213 ip.x, ip.y, r * _x_scale, angle1 * 180 / M_PI, angle2 * 180 / M_PI); in draw_arc() 234 EPSView::fill_arc(int gc, const Point &p, double r, double angle1, double angle2) in fill_arc() argument 236 draw_arc(gc, p, r, angle1, angle2); in fill_arc()
|
/dports/graphics/wdune/wdune-1.926/docs/typical_vrml_examples/ecmascript/ |
H A D | superellipsoid.wrl | 109 function superellipse2x(angle2) 111 var c2 = Math.cos(angle2); 115 return cossign(angle2)*Math.pow(Math.abs(c2),n); 118 function superellipse2y(angle2) 120 var s2 = Math.sin(angle2); 124 return sinsign(angle2)*Math.pow(Math.abs(s2),n); 138 var angle2=-Math.PI; 150 s2x[a2]=superellipse2x(angle2); 151 s2y[a2]=superellipse2y(angle2); 152 angle2+=inc2;
|
/dports/cad/sumo/sumo-1.2.0/src/utils/geom/ |
H A D | GeomHelper.cpp | 155 GeomHelper::getCCWAngleDiff(double angle1, double angle2) { in getCCWAngleDiff() argument 156 double v = angle2 - angle1; in getCCWAngleDiff() 165 GeomHelper::getCWAngleDiff(double angle1, double angle2) { in getCWAngleDiff() argument 166 double v = angle1 - angle2; in getCWAngleDiff() 175 GeomHelper::getMinAngleDiff(double angle1, double angle2) { in getMinAngleDiff() argument 176 return MIN2(getCWAngleDiff(angle1, angle2), getCCWAngleDiff(angle1, angle2)); in getMinAngleDiff() 181 GeomHelper::angleDiff(const double angle1, const double angle2) { in angleDiff() argument 182 double dtheta = angle2 - angle1; in angleDiff()
|
/dports/cad/librecad/LibreCAD-2.2.0-rc2/librecad/src/lib/engine/ |
H A D | rs_arc.cpp | 53 ,angle2(_angle2) in RS_ArcData() 62 angle2 = 0.0; in reset() 75 "," << ad.angle2 << in operator <<() 513 a = data.angle2 + aDist; in getNearestDist() 519 a = data.angle2 - aDist; in getNearestDist() 624 std::swap(data.angle1,data.angle2); in revertDirection() 633 double *pa2= & data.angle2; in correctAngles() 773 std::swap(data.angle1,data.angle2); in reverse() 790 data.angle2 = RS_Math::correctAngle(data.angle2+angle); in rotate() 800 data.angle2 = RS_Math::correctAngle(data.angle2+angle); in rotate() [all …]
|
/dports/science/py-gpaw/gpaw-21.6.0/gpaw/point_groups/ |
H A D | groups.py | 478 angle2 = 0. 481 angle2 = 36. 484 angle2 = 18. 607 angle2 = 0. 611 angle2 = 36. 615 angle2 = 18. 803 angle2 = 0. 806 angle2 = 36. 809 angle2 = 18. 907 angle2 = self.angle_captoedge [all …]
|
/dports/lang/mono/mono-5.10.1.57/mcs/class/Mono.Cairo/Samples/png/ |
H A D | arc.cs | 43 double angle2 = 180.0 * (M_PI/180.0); in draw() 48 gr.Arc (xc, yc, radius, angle1, angle2); in draw() 58 gr.Arc (xc, yc, radius, angle2, angle2); in draw()
|
H A D | arcneg.cs | 43 double angle2 = 180.0 * (M_PI/180.0); /* in radians */ in draw() 48 gr.ArcNegative (xc, yc, radius, angle1, angle2); in draw() 58 gr.Arc (xc, yc, radius, angle2, angle2); in draw()
|