| /dports/science/rdkit/rdkit-Release_2021_03_5/Code/GraphMol/Fingerprints/ |
| H A D | MHFP.cpp | 94 bool kekulize, unsigned char min_radius) { in CreateShingling() argument
111 unsigned char min_radius_internal = min_radius; in CreateShingling()
113 if (!min_radius) { in CreateShingling()
153 bool kekulize, unsigned char min_radius) { in CreateShingling() argument
169 bool kekulize, unsigned char min_radius) { in Encode() argument
175 mols[i], radius, rings, isomeric, kekulize, min_radius)); in Encode()
192 bool isomeric, bool kekulize, unsigned char min_radius) { in Encode() argument
207 unsigned char min_radius, in EncodeSECFP() argument
216 bool kekulize, unsigned char min_radius, size_t length) { in EncodeSECFP() argument
223 kekulize, min_radius)), in EncodeSECFP()
[all …]
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| H A D | MHFP.h | 122 unsigned char min_radius = 1);
131 unsigned char min_radius = 1);
163 unsigned char min_radius = 1);
172 unsigned char min_radius = 1);
181 unsigned char min_radius = 1);
190 unsigned char min_radius = 1);
224 unsigned char min_radius = 1,
234 unsigned char min_radius = 1,
244 unsigned char min_radius = 1,
254 unsigned char min_radius = 1,
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| /dports/science/rdkit/rdkit-Release_2021_03_5/Code/GraphMol/Fingerprints/Wrap/ |
| H A D | MHFPWrapper.cpp | 52 unsigned char min_radius = 1) { in CreateShinglingFromSmiles() argument
63 unsigned char min_radius = 1) { in CreateShinglingFromMol() argument
74 unsigned char min_radius = 1) { in EncodeSmiles() argument
85 unsigned char min_radius = 1) { in EncodeMol() argument
86 return mhfpEnc->Encode(mol, radius, rings, isomeric, kekulize, min_radius); in EncodeMol()
96 unsigned char min_radius = 1) { in EncodeSmilesBulk() argument
111 unsigned char min_radius = 1) { in EncodeMolsBulk() argument
125 unsigned char min_radius = 1, in EncodeSECFPSmiles() argument
137 unsigned char min_radius = 1, in EncodeSECFPMol() argument
149 unsigned char min_radius = 1, in EncodeSECFPSmilesBulk() argument
[all …]
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| /dports/graphics/vips/vips-8.12.0/libvips/arithmetic/ |
| H A D | hough_circle.c | 58 int min_radius; member
80 int min_radius = hough_circle->min_radius; in vips_hough_circle_normalise() local
91 int radius = b * scale + min_radius; in vips_hough_circle_normalise()
111 int range = hough_circle->max_radius - hough_circle->min_radius; in vips_hough_circle_build()
188 int min_radius = hough_circle->min_radius; in vips_hough_circle_vote() local
194 g_assert( hough_circle->max_radius - min_radius >= 0 ); in vips_hough_circle_vote()
199 int r = rb + min_radius / hough_circle->scale; in vips_hough_circle_vote()
244 G_STRUCT_OFFSET( VipsHoughCircle, min_radius ), in vips_hough_circle_class_init()
260 hough_circle->min_radius = 10; in vips_hough_circle_init()
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| /dports/graphics/pcl-pointclouds/pcl-pcl-1.12.0/segmentation/include/pcl/segmentation/impl/ |
| H A D | sac_segmentation.hpp | 159 double min_radius, max_radius; in initSACModel() local
160 model_->getRadiusLimits (min_radius, max_radius); in initSACModel()
173 double min_radius, max_radius; in initSACModel() local
174 model_circle->getRadiusLimits (min_radius, max_radius); in initSACModel()
187 double min_radius, max_radius; in initSACModel() local
188 model_circle3d->getRadiusLimits (min_radius, max_radius); in initSACModel()
201 double min_radius, max_radius; in initSACModel() local
202 model_sphere->getRadiusLimits (min_radius, max_radius); in initSACModel()
377 double min_radius, max_radius; in initSACModel() local
378 model_cylinder->getRadiusLimits (min_radius, max_radius); in initSACModel()
[all …]
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| /dports/graphics/pcl-pointclouds/pcl-pcl-1.12.0/features/include/pcl/features/impl/ |
| H A D | rsd.hpp | 127 …float min_radius = Amint_Amin == 0.0f ? float (plane_radius) : float (std::min (Amint_d/Amint_Amin… in computeRSD() local
131 min_radius *= 1.1f; in computeRSD()
133 if (min_radius < max_radius) in computeRSD()
135 radii.r_min = min_radius; in computeRSD()
140 radii.r_max = min_radius; in computeRSD()
226 …float min_radius = Amint_Amin == 0.0f ? float (plane_radius) : float (std::min (Amint_d/Amint_Amin… in computeRSD() local
230 min_radius *= 1.1f; in computeRSD()
232 if (min_radius < max_radius) in computeRSD()
234 radii.r_min = min_radius; in computeRSD()
239 radii.r_max = min_radius; in computeRSD()
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| H A D | grsd.hpp | 46 pcl::GRSDEstimation<PointInT, PointNT, PointOutT>::getSimpleType (float min_radius, float max_radiu… in getSimpleType() argument
52 if (min_radius > min_radius_plane) in getSimpleType()
56 if (min_radius < max_radius_noise) in getSimpleType()
58 if (max_radius - min_radius < max_min_radius_diff) in getSimpleType()
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| /dports/science/py-obspy/obspy-1.2.2/obspy/taup/ |
| H A D | velocity_model.py | 19 def __init__(self, model_name, radius_of_planet, min_radius, max_radius, argument
57 self.min_radius = min_radius
268 if self.min_radius < 0.0:
270 self.min_radius, ))
278 if self.max_radius <= self.min_radius:
281 self.min_radius))
359 self.min_radius) + "\n max_radius=" + str(self.max_radius) + \
460 min_radius = 0
468 min_radius=min_radius,
608 min_radius=0, max_radius=max_radius,
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| /dports/graphics/s2/s2geometry-0.9.0/src/s2/ |
| H A D | s2testing_test.cc | 103 double min_radius = 2 * M_PI; in TestFractal() local
109 min_radius = min(min_radius, r); in TestFractal()
122 EXPECT_NEAR(min_radius, fractal.min_radius_factor() * nominal_radius, in TestFractal()
126 EXPECT_GE(min_radius, in TestFractal()
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| /dports/graphics/py-s2/s2geometry-0.9.0/src/s2/ |
| H A D | s2testing_test.cc | 103 double min_radius = 2 * M_PI; in TestFractal() local
109 min_radius = min(min_radius, r); in TestFractal()
122 EXPECT_NEAR(min_radius, fractal.min_radius_factor() * nominal_radius, in TestFractal()
126 EXPECT_GE(min_radius, in TestFractal()
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| /dports/graphics/py-scikit-image/scikit-image-0.19.0/skimage/draw/ |
| H A D | _random_shapes.py | 99 min_radius = shape[0] // 2.0
106 bottom, max_radius) - min_radius
109 radius = int(min_radius + random.integers(max(1, available_radius)))
213 min_radius = shape[0] / 2.0
220 if available_radius < min_radius:
226 r_radius = random.uniform(min_radius, available_radius + 1)
227 c_radius = random.uniform(min_radius, available_radius + 1)
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| /dports/math/py-matplotlib/matplotlib-3.4.3/examples/mplot3d/ |
| H A D | tricontourf3d.py | 19 min_radius = 0.25 variable
22 radii = np.linspace(min_radius, 0.95, n_radii)
37 < min_radius)
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| H A D | tricontour3d.py | 18 min_radius = 0.25 variable
21 radii = np.linspace(min_radius, 0.95, n_radii)
36 < min_radius)
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/examples/mplot3d/ |
| H A D | tricontourf3d.py | 20 min_radius = 0.25 variable
23 radii = np.linspace(min_radius, 0.95, n_radii)
38 < min_radius)
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| H A D | tricontour3d.py | 19 min_radius = 0.25 variable
22 radii = np.linspace(min_radius, 0.95, n_radii)
37 < min_radius)
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/lib/mpl_examples/mplot3d/ |
| H A D | tricontour3d.py | 19 min_radius = 0.25 variable
22 radii = np.linspace(min_radius, 0.95, n_radii)
37 < min_radius)
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| H A D | tricontourf3d.py | 20 min_radius = 0.25 variable
23 radii = np.linspace(min_radius, 0.95, n_radii)
38 < min_radius)
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| /dports/deskutils/mate-utils/mate-utils-1.26.0/baobab/src/ |
| H A D | baobab-ringschart.c | 56 gdouble min_radius; member
207 data->min_radius, in baobab_ringschart_draw_item()
208 data->max_radius - data->min_radius, in baobab_ringschart_draw_item()
245 data->min_radius = 0; in baobab_ringschart_calculate_item_geometry()
255 data->min_radius = (item->depth) * thickness; in baobab_ringschart_calculate_item_geometry()
257 if (data->min_radius + thickness > max_radius) in baobab_ringschart_calculate_item_geometry()
260 data->max_radius = data->min_radius + thickness; in baobab_ringschart_calculate_item_geometry()
296 return (radius >= data->min_radius) && in baobab_ringschart_is_point_over_item()
334 r1 = data->min_radius; in baobab_ringschart_get_item_rectangle()
537 middle_radius = data->min_radius + (data->max_radius - data->min_radius) / 2; in baobab_ringschart_draw_subfolder_tips()
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| /dports/math/py-matplotlib/matplotlib-3.4.3/examples/images_contours_and_fields/ |
| H A D | triplot_demo.py | 19 min_radius = 0.25 variable
20 radii = np.linspace(min_radius, 0.95, n_radii)
35 < min_radius)
|
| /dports/math/py-matplotlib2/matplotlib-2.2.4/examples/images_contours_and_fields/ |
| H A D | triplot_demo.py | 19 min_radius = 0.25 variable
20 radii = np.linspace(min_radius, 0.95, n_radii)
35 < min_radius)
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/lib/mpl_examples/images_contours_and_fields/ |
| H A D | triplot_demo.py | 19 min_radius = 0.25 variable
20 radii = np.linspace(min_radius, 0.95, n_radii)
35 < min_radius)
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/examples/event_handling/ |
| H A D | trifinder_event_demo.py | 39 min_radius = 0.25 variable
40 radii = np.linspace(min_radius, 0.95, n_radii)
49 < min_radius)
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| /dports/math/py-matplotlib2/matplotlib-2.2.4/lib/mpl_examples/event_handling/ |
| H A D | trifinder_event_demo.py | 39 min_radius = 0.25 variable
40 radii = np.linspace(min_radius, 0.95, n_radii)
49 < min_radius)
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| /dports/math/py-matplotlib/matplotlib-3.4.3/examples/event_handling/ |
| H A D | trifinder_event_demo.py | 39 min_radius = 0.25 variable
40 radii = np.linspace(min_radius, 0.95, n_radii)
49 < min_radius)
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| /dports/graphics/appleseed/appleseed-2.1.0-beta/src/appleseed.shaders/include/appleseed/maya/ |
| H A D | as_maya_fractal_helpers.h | 738 output float min_radius) in compute_mandelbox() argument
759 min_radius = min(min_radius, sqr_distance); in compute_mandelbox()
784 output float min_radius) in compute_mandelbrot() argument
815 min_radius = min(min_radius, sqr_distance); in compute_mandelbrot()
834 float min_radius, in mandelbrot_interior_coloring() argument
852 mapping = pow(min_radius, 0.25) * pow(escape_radius, 0.25) / log(2); in mandelbrot_interior_coloring()
884 float min_radius, in mandelbrot_exterior_coloring() argument
910 mapping = sqrt(sqr_escape_radius) - sqrt(min_radius); in mandelbrot_exterior_coloring()
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