| /dports/science/drawxtl/DRAWxtl/source/DRAWxtl55/ |
| H A D | Import.cxx | 678 drvui->ellips[drvui->n_ellips].ellips[0], in import_cif()
679 drvui->ellips[drvui->n_ellips].ellips[1], in import_cif()
680 drvui->ellips[drvui->n_ellips].ellips[2], in import_cif()
681 drvui->ellips[drvui->n_ellips].ellips[3], in import_cif()
682 drvui->ellips[drvui->n_ellips].ellips[4], in import_cif()
683 drvui->ellips[drvui->n_ellips].ellips[5]); in import_cif()
2016 …ellips[drvui->n_ellips].ellips[0], &drvui->ellips[drvui->n_ellips].ellips[1], &drvui->ellips[drvui… in import_gsas()
2029 drvui->ellips[drvui->n_ellips].ellips[0], in import_gsas()
2030 drvui->ellips[drvui->n_ellips].ellips[1], in import_gsas()
2398 if (drvui->ellips[i].ellips[0] <= 0.0f) in import_shelx()
[all …]
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| H A D | DRAWxtl1.cxx | 678 drvui->ellips[i].ellips[j] *= in convert_ellipsoid()
680 drvui->ellips[i].ellips[3] *= in convert_ellipsoid()
682 drvui->ellips[i].ellips[4] *= in convert_ellipsoid()
684 drvui->ellips[i].ellips[5] *= in convert_ellipsoid()
688 drvui->ellips[i].ellips[j] *= 78.9568f; in convert_ellipsoid()
1582 B[0][1] = B[1][0] = drvui->ellips[p1].ellips[3]; in generate_bonds()
1583 B[0][2] = B[2][0] = drvui->ellips[p1].ellips[4]; in generate_bonds()
1584 B[1][2] = B[2][1] = drvui->ellips[p1].ellips[5]; in generate_bonds()
1652 B[0][1] = B[1][0] = drvui->ellips[p1].ellips[3]; in generate_bonds()
1653 B[0][2] = B[2][0] = drvui->ellips[p1].ellips[4]; in generate_bonds()
[all …]
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| /dports/astro/R-cran-maptools/maptools/R/ |
| H A D | gc_dist.R | 62 ellips <- ellipsoid(model) functionVar
63 if (is.na(ellips["a"])) stop("no such ellipsoid model")
75 tan.u1 <- (1 - ellips["f"]) * tan(lat)
81 u.sq <- cos.sq.alpha * ((ellips["a"] ^ 2) - (ellips["b"] ^ 2)) /
82 (ellips["b"] ^ 2)
87 sigma <- dist / (ellips["b"] * cap.A)
99 sigma <- dist / (ellips["a"] * cap.A) + delta.sigma
103 (1 - ellips["f"]) * sqrt(sin.alpha ^ 2 + tmp ^ 2))
106 cap.C <- ellips["f"] / 16 * cos.sq.alpha * (4 + ellips["f"] *
107 (ellips["f"] - 3 * cos.sq.alpha))
[all …]
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| /dports/astro/gpstk/GPSTk-8.0.0/ext/lib/Geomatics/ |
| H A D | PreciseRange.cpp | 74 GPSEllipsoid ellips; in ComputeAtTransmitTime() local
79 transmit -= pr/ellips.c(); // correct for measured time of flight and Rx clock in ComputeAtTransmitTime()
97 Sagnac = ( (SatR.X()/ellips.c()) * (Rx.Y()/ellips.c()) in ComputeAtTransmitTime()
98 - (SatR.Y()/ellips.c()) * (Rx.X()/ellips.c()) ) * ellips.angVelocity(); in ComputeAtTransmitTime()
108 transmit -= relativity2 / ellips.c(); in ComputeAtTransmitTime()
121 relativity = svPosVel.relcorr * ellips.c(); in ComputeAtTransmitTime()
122 satclkbias = svPosVel.clkbias * ellips.c(); in ComputeAtTransmitTime()
123 satclkdrift = svPosVel.clkdrift * ellips.c(); in ComputeAtTransmitTime()
128 wt = ellips.angVelocity() * rawrange/ellips.c(); in ComputeAtTransmitTime()
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| /dports/graphics/gimp-app/gimp-2.10.30/app/vectors/ |
| H A D | gimpbezierstroke.c | 2039 gimp_coords_mix (1, &(ellips[0]), circlemagic, &(ellips[3]), &(ellips[1])); in arcto_ellipsesegment()
2040 gimp_coords_mix (circlemagic, &(ellips[0]), 1, &(ellips[3]), &(ellips[2])); in arcto_ellipsesegment()
2054 ellips[0].x *= radius_x ; ellips[0].y *= radius_y; in arcto_ellipsesegment()
2182 ellips[0].x = tmpx; ellips[0].y = tmpy; in gimp_bezier_stroke_arcto()
2185 ellips[1].x = tmpx; ellips[1].y = tmpy; in gimp_bezier_stroke_arcto()
2188 ellips[2].x = tmpx; ellips[2].y = tmpy; in gimp_bezier_stroke_arcto()
2191 ellips[3].x = tmpx; ellips[3].y = tmpy; in gimp_bezier_stroke_arcto()
2217 ellips[0].x = tmpx; ellips[0].y = tmpy; in gimp_bezier_stroke_arcto()
2220 ellips[1].x = tmpx; ellips[1].y = tmpy; in gimp_bezier_stroke_arcto()
2223 ellips[2].x = tmpx; ellips[2].y = tmpy; in gimp_bezier_stroke_arcto()
[all …]
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| /dports/math/p5-Geo-Coordinates-UTM/Geo-Coordinates-UTM-0.11/ |
| H A D | UTM.pm | 124 { my ($ellips, $latitude, $longitude) = @_;
132 _latlon_to_utm($ellips, $zone, $latitude, $long2);
136 { my ($ellips, $zone, $latitude, $longitude) = @_;
148 _latlon_to_utm($ellips, $zone_number, $latitude, $long2);
169 { my ($ellips, $zone, $latitude, $long2) = @_;
171 my ($name, $radius, $eccentricity) = ellipsoid_info $ellips
172 or croak "Ellipsoid value ($ellips) invalid.";
242 { my ($ellips, $zone, $easting, $northing) = @_;
245 or croak "Ellipsoid value ($ellips) invalid.";
328 { my ($ellips, $latitude, $longitude) = @_;
[all …]
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| /dports/astro/gpstk/GPSTk-8.0.0/core/lib/GNSSCore/ |
| H A D | Xvt.cpp | 111 const EllipsoidModel& ellips, in preciseRho() argument
120 double dt = sr1 / ellips.c(); in preciseRho()
123 double rotation_angle = -ellips.angVelocity() * dt; in preciseRho()
149 dt = sr1 / ellips.c(); in preciseRho()
152 rotation_angle = -ellips.angVelocity() * dt; in preciseRho()
156 double rho = sr1 - (clkbias + relcorr) * ellips.c() - correction; in preciseRho()
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| /dports/astro/pykep/pykep-2.6/src/third_party/cspice/ |
| H A D | el2cgv.c | 9 /* Subroutine */ int el2cgv_(doublereal *ellips, doublereal *center, in el2cgv_() argument
180 vequ_(ellips, center); in el2cgv_()
181 vequ_(&ellips[3], smajor); in el2cgv_()
182 vequ_(&ellips[6], sminor); in el2cgv_()
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| H A D | cgv2el.c | 10 *vec2, doublereal *ellips) in cgv2el_() argument
186 vequ_(center, ellips); in cgv2el_()
190 saelgv_(vec1, vec2, &ellips[3], &ellips[6]); in cgv2el_()
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| /dports/astro/py-pykep/pykep-2.6/src/third_party/cspice/ |
| H A D | el2cgv.c | 9 /* Subroutine */ int el2cgv_(doublereal *ellips, doublereal *center, in el2cgv_() argument
180 vequ_(ellips, center); in el2cgv_()
181 vequ_(&ellips[3], smajor); in el2cgv_()
182 vequ_(&ellips[6], sminor); in el2cgv_()
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| H A D | cgv2el.c | 10 *vec2, doublereal *ellips) in cgv2el_() argument
186 vequ_(center, ellips); in cgv2el_()
190 saelgv_(vec1, vec2, &ellips[3], &ellips[6]); in cgv2el_()
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| /dports/math/vtk6/VTK-6.2.0/ThirdParty/libproj4/vtklibproj4/ |
| H A D | proj_eqdc.c | 36 int ellips;
43 P->rho = P->c - (P->ellips ? proj_mdist(lp.phi, sin(lp.phi),
57 if (P->ellips)
73 fac->k = P->n * (P->c - (P->ellips ? proj_mdist(lp.phi, sinphi,
87 if ((P->ellips = P->es > 0.)) {
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| H A D | proj_lcc.c | 35 int ellips, westo;
51 P->rho = P->c * (P->ellips ? pow(proj_tsfn(lp.phi, sin(lp.phi),
69 if (P->ellips) {
87 P->rho = P->c * (P->ellips ? pow(proj_tsfn(lp.phi, sin(lp.phi),
113 if ((P->ellips = (P->es != 0.))) {
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| /dports/graphics/proj/proj-7.2.1/src/projections/ |
| H A D | eqdc.cpp | 19 int ellips; member
32 Q->rho = Q->c - (Q->ellips ? pj_mlfn(lp.phi, sin(lp.phi), in eqdc_e_forward()
53 if (Q->ellips) in eqdc_e_inverse()
101 Q->ellips = (P->es > 0.); in PROJECTION()
102 if( Q->ellips ) { in PROJECTION()
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| /dports/math/vtk8/VTK-8.2.0/ThirdParty/libproj/vtklibproj/src/ |
| H A D | PJ_eqdc.c | 12 int ellips; member
24 Q->rho = Q->c - (Q->ellips ? pj_mlfn(lp.phi, sin(lp.phi), in e_forward()
44 if (Q->ellips) in e_inverse()
63 fac->k = Q->n * (Q->c - (Q->ellips ? pj_mlfn(lp.phi, sinphi, in special()
105 if( (Q->ellips = (P->es > 0.)) ) { in PROJECTION()
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| H A D | PJ_lcc.c | 15 int ellips; member
28 rho = Q->c * (Q->ellips ? pow(pj_tsfn(lp.phi, sin(lp.phi), in e_forward()
54 if (Q->ellips) { in e_inverse()
75 rho = Q->c * (Q->ellips ? pow(pj_tsfn(lp.phi, sin(lp.phi), in special()
122 if( (Q->ellips = (P->es != 0.)) ) { in PROJECTION()
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| /dports/math/vtk9/VTK-9.1.0/ThirdParty/libproj/vtklibproj/src/ |
| H A D | PJ_eqdc.c | 12 int ellips; member
24 Q->rho = Q->c - (Q->ellips ? pj_mlfn(lp.phi, sin(lp.phi), in e_forward()
44 if (Q->ellips) in e_inverse()
63 fac->k = Q->n * (Q->c - (Q->ellips ? pj_mlfn(lp.phi, sinphi, in special()
105 if( (Q->ellips = (P->es > 0.)) ) { in PROJECTION()
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| H A D | PJ_lcc.c | 15 int ellips; member
28 rho = Q->c * (Q->ellips ? pow(pj_tsfn(lp.phi, sin(lp.phi), in e_forward()
54 if (Q->ellips) { in e_inverse()
75 rho = Q->c * (Q->ellips ? pow(pj_tsfn(lp.phi, sin(lp.phi), in special()
122 if( (Q->ellips = (P->es != 0.)) ) { in PROJECTION()
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| /dports/devel/boost-docs/boost_1_72_0/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
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| /dports/devel/boost-python-libs/boost_1_72_0/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
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| /dports/devel/R-cran-BH/BH/inst/include/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
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| /dports/math/stanmath/math-4.2.0/lib/boost_1.75.0/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
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| /dports/science/py-scipy/scipy-1.7.1/scipy/_lib/boost/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
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| /dports/devel/hyperscan/boost_1_75_0/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
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| /dports/devel/boost-libs/boost_1_72_0/boost/geometry/srs/projections/proj/ |
| H A D | eqdc.hpp | 75 bool ellips; member
89 … rho = this->m_proj_parm.c - (this->m_proj_parm.ellips ? pj_mlfn(lp_lat, sin(lp_lat), in fwd()
110 if (this->m_proj_parm.ellips) in inv()
144 if( (proj_parm.ellips = (par.es > 0.)) ) { in setup_eqdc()
|