| /dports/math/g2o/g2o-20201223_git/g2o/stuff/ |
| H A D | opengl_primitives.cpp | 235 double fov_rad = fov/180.*M_PI; // convert to rad in drawSlice() local
236 int num_slices = int(slices_per_circle * (fov_rad / (2*M_PI))) + 1; in drawSlice()
237 double angle_step = fov_rad / num_slices; in drawSlice()
244 GLfloat last_x = float(std::cos(-fov_rad * 0.5f) * radius); in drawSlice()
245 GLfloat last_y = float(std::sin(-fov_rad * 0.5f) * radius); in drawSlice()
249 glNormal3f((float)std::sin(-fov_rad * 0.5), (float)-std::cos(-fov_rad * 0.5), 0.f); in drawSlice()
257 double start_angle = -0.5*fov_rad + angle_step; in drawSlice()
289 glNormal3f(float(-std::sin(fov_rad * 0.5)), float(std::cos(fov_rad * 0.5)), -0.f); in drawSlice()
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/convert/src/ |
| H A D | oskar_convert_fov_to_cellsize.c | 37 double oskar_convert_fov_to_cellsize(double fov_rad, int num_pixels) in oskar_convert_fov_to_cellsize() argument
39 return asin(2.0 * sin(0.5 * fov_rad) / num_pixels); in oskar_convert_fov_to_cellsize()
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/sky/src/ |
| H A D | oskar_sky_generate_grid.c | 15 double dec0_rad, int side_length, double fov_rad, double mean_flux_jy, in oskar_sky_generate_grid() argument
38 const double l_max = sin(0.5 * fov_rad); in oskar_sky_generate_grid()
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| /dports/graphics/open3d/Open3D-0.2/src/Visualization/Visualizer/ |
| H A D | ViewControl.cpp | 125 double fov_rad = field_of_view_ / 180.0 * M_PI; in ConvertToPinholeCameraParameters() local
126 double tan_half_fov = std::tan(fov_rad / 2.0); in ConvertToPinholeCameraParameters()
161 double fov_rad = std::atan(tan_half_fov) * 2.0; in ConvertFromPinholeCameraParameters() local
163 field_of_view_ = std::max(std::min(fov_rad * 180.0 / M_PI, in ConvertFromPinholeCameraParameters()
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| /dports/graphics/py-open3d-python/Open3D-0.2/src/Visualization/Visualizer/ |
| H A D | ViewControl.cpp | 125 double fov_rad = field_of_view_ / 180.0 * M_PI; in ConvertToPinholeCameraParameters() local
126 double tan_half_fov = std::tan(fov_rad / 2.0); in ConvertToPinholeCameraParameters()
161 double fov_rad = std::atan(tan_half_fov) * 2.0; in ConvertFromPinholeCameraParameters() local
163 field_of_view_ = std::max(std::min(fov_rad * 180.0 / M_PI, in ConvertFromPinholeCameraParameters()
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| /dports/graphics/open3d/Open3D-0.2/src/Visualization/Utility/ |
| H A D | GLHelper.cpp | 59 double fov_rad = field_of_view_ / 180.0 * M_PI; in Perspective() local
60 double tan_half_fov = std::tan(fov_rad / 2.0); in Perspective()
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| /dports/graphics/py-open3d-python/Open3D-0.2/src/Visualization/Utility/ |
| H A D | GLHelper.cpp | 59 double fov_rad = field_of_view_ / 180.0 * M_PI; in Perspective() local
60 double tan_half_fov = std::tan(fov_rad / 2.0); in Perspective()
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/convert/ |
| H A D | oskar_convert_fov_to_cellsize.h | 53 double oskar_convert_fov_to_cellsize(double fov_rad, int num_pixels);
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/telescope/station/test/ |
| H A D | Test_evaluate_array_pattern.cpp | 243 double fov_rad = fov_deg * M_PI / 180.0; in TEST() local
262 oskar_evaluate_image_lon_lat_grid(image_side, image_side, fov_rad, fov_rad, in TEST()
268 oskar_evaluate_image_lon_lat_grid(image_side, image_side, fov_rad, fov_rad, in TEST()
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/sky/ |
| H A D | oskar_sky_generate_grid.h | 61 double dec0_rad, int side_length, double fov_rad, double mean_flux_jy,
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| /dports/astro/oskar/OSKAR-2.8.0/python/examples/ |
| H A D | image_fft_test.py | 60 fov_rad = Imager.uv_cellsize_to_fov(uv_cellsize_wavelengths, im_size)
64 imager.set(fov_deg=degrees(fov_rad), size=im_size, algorithm=algorithm,
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| /dports/astro/oskar/OSKAR-2.8.0/python/oskar/ |
| H A D | imager.py | 1272 def fov_to_cellsize(fov_rad, size): argument
1282 return math.asin(2.0 * math.sin(0.5 * fov_rad) / size)
1285 def fov_to_uv_cellsize(fov_rad, size): argument
1295 return 1.0 / (size * Imager.fov_to_cellsize(fov_rad, size))
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| /dports/graphics/aloadimage/arcan-0.6.1/src/tools/vrbridge/OpenHMD/ |
| H A D | omath.h | 71 void omat4x4f_init_perspective(mat4x4f* me, float fov_rad, float aspect, float znear, float zfar);
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| /dports/sysutils/acfgfs/arcan-0.6.1/src/tools/vrbridge/OpenHMD/ |
| H A D | omath.h | 71 void omat4x4f_init_perspective(mat4x4f* me, float fov_rad, float aspect, float znear, float zfar);
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| /dports/misc/openhmd/OpenHMD-0.3.0/src/ |
| H A D | omath.h | 71 void omat4x4f_init_perspective(mat4x4f* me, float fov_rad, float aspect, float znear, float zfar);
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| /dports/x11/arcan-trayicon/arcan-0.6.1/src/tools/vrbridge/OpenHMD/ |
| H A D | omath.h | 71 void omat4x4f_init_perspective(mat4x4f* me, float fov_rad, float aspect, float znear, float zfar);
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| /dports/x11/aclip/arcan-0.6.1/src/tools/vrbridge/OpenHMD/ |
| H A D | omath.h | 71 void omat4x4f_init_perspective(mat4x4f* me, float fov_rad, float aspect, float znear, float zfar);
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/imager/src/ |
| H A D | private_imager_init_wproj.c | 397 double cellsize_rad = 0.0, fov_rad = 0.0, w_scale = 0.0; in oskar_imager_trim_and_save_kernel_cube() local
439 fov_rad = h->fov_deg * M_PI / 180.0; in oskar_imager_trim_and_save_kernel_cube()
450 fits_write_key(f, TDOUBLE, "FOV", &fov_rad, in oskar_imager_trim_and_save_kernel_cube()
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| /dports/misc/usd/USD-21.11/third_party/renderman-24/plugin/hdPrman/ |
| H A D | interactiveRenderPass.cpp | 660 const float fov_rad = in _Execute() local
663 fov_rad / M_PI * 180.0; in _Execute()
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| /dports/astro/oskar/OSKAR-2.8.0/oskar/apps/src/ |
| H A D | oskar_settings_to_sky.cpp | 344 double fov_rad = s->to_double("fov_deg", status) * D2R; in gen_grid() local
349 side_length, fov_rad, mean_flux_jy, std_flux_jy, seed, status); in gen_grid()
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| /dports/science/chrono/chrono-7.0.1/src/chrono_irrlicht/ |
| H A D | ChIrrAssetConverter.cpp | 401 double fov_rad = mycamera->GetAngle() * CH_C_DEG_TO_RAD; in _recursePopulateIrrlicht() local
402 irrcamera->setFOV((irr::f32)fov_rad); in _recursePopulateIrrlicht()
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| /dports/math/py-yt/yt-4.0.1/yt/utilities/lib/ |
| H A D | grid_traversal.pyx | 350 cdef np.float64_t fov_rad = fov * np.pi / 180.0
363 theta = r * fov_rad / 2.0
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| /dports/graphics/kludge3d/kludge3d-20040822/src/ |
| H A D | glpreview.c | 274 GLfloat xd, yd, fov_rad; in glp_set_viewvolume() local
276 fov_rad = ( view_config.fov * M_PI ) / 360; in glp_set_viewvolume()
277 xd = view_config.near_plane * tan( fov_rad ); in glp_set_viewvolume()
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| /dports/math/py-yt/yt-4.0.1/yt/visualization/volume_rendering/ |
| H A D | lens.py | 624 fov_rad = self.fov * np.pi / 180.0
625 r = 2.0 * theta / fov_rad
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