| /dports/print/scribus-devel/scribus-1.5.7/scribus/third_party/lib2geom/ |
| H A D | sbasis-roots.cpp | 58 vector<double>extrema = roots(df); in bounds_exact() local
59 for (unsigned i=0; i<extrema.size(); i++){ in bounds_exact()
60 result.extendTo(a(extrema[i])); in bounds_exact()
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| /dports/math/py-yt/yt-4.0.1/yt/utilities/lib/ |
| H A D | lenses.pyx | 28 cdef np.float64_t extrema[4]
32 extrema[0] = extrema[2] = 1e300; extrema[1] = extrema[3] = -1e300
40 if temp < extrema[0]: extrema[0] = temp
41 if temp > extrema[1]: extrema[1] = temp
45 if temp < extrema[2]: extrema[2] = temp
46 if temp > extrema[3]: extrema[3] = temp
51 rv[0] = lrint((extrema[0] - cx - image.bounds[0])/image.pdx)
52 rv[1] = rv[0] + lrint((extrema[1] - extrema[0])/image.pdx)
53 rv[2] = lrint((extrema[2] - cy - image.bounds[2])/image.pdy)
54 rv[3] = rv[2] + lrint((extrema[3] - extrema[2])/image.pdy)
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| /dports/math/py-yt/yt-4.0.1/yt/utilities/answer_testing/ |
| H A D | answer_tests.py | 100 minimum, maximum = obj.quantities.extrema(field)
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| H A D | framework.py | 511 mi, ma = obj.quantities.extrema(self.field)
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| /dports/math/py-yt/yt-4.0.1/yt/frontends/athena/tests/ |
| H A D | test_outputs.py | 106 sp1.quantities.extrema(("gas", "pressure")),
107 sp2.quantities.extrema(("gas", "pressure")),
115 sp1.quantities.extrema(("gas", f"velocity_{ax}")),
116 sp2.quantities.extrema(("gas", f"velocity_{ax}")),
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| /dports/math/py-yt/yt-4.0.1/yt/visualization/tests/ |
| H A D | test_particle_plot.py | 267 dens_ex = ad.quantities.extrema(("Gas", "density"))
268 temp_ex = ad.quantities.extrema(("Gas", "temperature"))
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| /dports/math/py-yt/yt-4.0.1/yt/visualization/volume_rendering/tests/ |
| H A D | test_scene.py | 54 mi, ma = dd.quantities.extrema(("gas", "density"))
66 mi, ma = dd2.quantities.extrema(("gas", "density"))
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| H A D | test_varia.py | 99 np.log10(ad.quantities.extrema(("gas", "density"))),
107 ad.quantities.extrema(("gas", "velocity_x"))
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| /dports/math/py-yt/yt-4.0.1/yt/visualization/volume_rendering/ |
| H A D | transfer_function_helper.py | 226 extrema={self.field: self.bounds},
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| /dports/math/py-yt/yt-4.0.1/yt/visualization/ |
| H A D | profile_plotter.py | 647 extrema = {p.x_field: ((xmi, str(p.x.units)), (xma, str(p.x.units)))}
664 extrema=extrema,
1596 extrema = {p.x_field: self._xlim, p.y_field: self._ylim}
1618 extrema=extrema,
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| /dports/math/py-yt/yt-4.0.1/yt/geometry/ |
| H A D | particle_smooth.pyx | 472 # or right-of the extrema. Thanks to
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| /dports/math/py-yt/yt-4.0.1/yt/data_objects/tests/ |
| H A D | test_derived_quantities.py | 180 ex = ad.quantities.extrema([("io", "x"), ("io", "y"), ("io", "z")])
215 ad.quantities.extrema([("gas", "density"), ("gas", "temperature")])
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| H A D | test_profiles.py | 66 extrema={("gas", "density"): (rmi * e1, rma * e2)},
76 extrema={("gas", "density"): (rmi * e1, rma * e2)},
230 extrema={("gas", "density"): (None, rma * e2)},
241 extrema={("gas", "density"): (rmi * e2, None)},
271 extrema=extrema_s,
282 extrema=extrema_t,
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| H A D | test_fluxes.py | 81 mi, ma = sp.quantities.extrema(("gas", "temperature"))
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| /dports/math/py-yt/yt-4.0.1/yt/data_objects/ |
| H A D | profiles.py | 1192 extrema=None, argument
1288 extrema = sanitize_field_tuple_keys(extrema, data_source)
1350 if extrema is None:
1365 field_ex = list(extrema[bin_field[-1]])
1368 field_ex = list(extrema[bin_field])
1380 ds_extrema = data_source.quantities.extrema(bin_field)
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| H A D | data_containers.py | 990 mi, ma = self.quantities.extrema(field)
1114 extrema=None, argument
1191 extrema,
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| /dports/math/py-yt/yt-4.0.1/doc/source/quickstart/ |
| H A D | 4)_Data_Objects_and_Time_Series.ipynb | 54 …function for this.) We'll then call the `extrema` Derived Quantity, and append the min and max to…
72 " rho_ex.append(ad.quantities.extrema(\"density\"))\n",
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| H A D | 5)_Derived_Fields_and_Profiles.ipynb | 82 …oduction rates in our isolated galaxy? We can do that by examining the `extrema` quantity -- the …
96 "print (dd.quantities.extrema((\"gas\", \"dinosaurs\")))"
126 …re, calculate the baryonic angular momentum vector, and then the density extrema. All of this is …
143 "rho_min, rho_max = sp.quantities.extrema((\"gas\", \"density\"))\n",
275 "rv1 = sp.quantities.extrema((\"gas\", \"radial_velocity\"))\n",
279 "rv2 = sp.quantities.extrema((\"gas\", \"radial_velocity\"))\n",
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| /dports/math/py-yt/yt-4.0.1/doc/source/visualizing/ |
| H A D | plots.rst | 1165 extrema={("gas", "temperature"): (1e3, 1e7), ("gas", "density"): (1e-26, 1e-22)},
1175 ``set_xlim`` must recreate the profile object using the specified extrema.
1545 extrema = {("gas", "density"): (1e-5, 1e1), ("gas", "temperature"): (1, 1e7)}
1554 extrema=extrema,
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| H A D | volume_rendering.rst | 602 based on the extrema of the field that you are rendering. The transfer function
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| /dports/math/py-yt/yt-4.0.1/doc/source/cookbook/ |
| H A D | simulation_analysis.py | 23 extrema = ad.quantities.extrema(("gas", "density")) variable
26 data[ds.basename] = (extrema, ds.current_redshift)
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| H A D | profile_with_standard_deviation.py | 22 extrema={"radius": ((0.1, "kpc"), (1000.0, "kpc"))},
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| H A D | calculating_information.rst | 52 calculate the extrema of a series of outputs, whose names it guesses in
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| H A D | customized_profile_plot.py | 21 extrema=dict(radius=(0, 40)),
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| H A D | customized_phase_plot.py | 21 extrema=dict(radius=(0, 40), velocity_cylindrical_theta=(-250, 250)),
|