Exemplo n.º 1
0
    def test_draw_light_PJaffe(self):
        lightProfile = LightProfile(profile_list=['PJAFFE'])
        kwargs_profile = [{'sigma0': 1., 'Rs': 0.5, 'Ra': 0.2}]
        r_list = lightProfile.draw_light_2d(kwargs_profile, n=50000)
        bins = np.linspace(0, 1, 10)
        hist, bins_hist = np.histogram(r_list, bins=bins, normed=True)
        light2d = lightProfile.light_2d(R=(bins_hist[1:] + bins_hist[:-1]) /
                                        2.,
                                        kwargs_list=kwargs_profile)
        light2d *= (bins_hist[1:] + bins_hist[:-1]) / 2.
        light2d /= np.sum(light2d)
        hist /= np.sum(hist)
        #print light2d / hist
        npt.assert_almost_equal(light2d[4] / hist[4], 1, decimal=2)

        lightProfile = LightProfile(profile_list=['PJAFFE'],
                                    kwargs_numerics={
                                        'min_interpolate': 0.0001,
                                        'max_interpolate': 20.
                                    })
        kwargs_profile = [{'sigma0': 1., 'Rs': 0.04, 'Ra': 0.02}]
        r_list = lightProfile.draw_light_2d(kwargs_profile, n=50000)
        bins = np.linspace(0., 0.1, 10)
        hist, bins_hist = np.histogram(r_list, bins=bins, normed=True)
        light2d = lightProfile.light_2d(R=(bins_hist[1:] + bins_hist[:-1]) /
                                        2.,
                                        kwargs_list=kwargs_profile)
        light2d *= (bins_hist[1:] + bins_hist[:-1]) / 2.
        light2d /= np.sum(light2d)
        hist /= np.sum(hist)
        print light2d / hist
        npt.assert_almost_equal(light2d[4] / hist[4], 1, decimal=2)
Exemplo n.º 2
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 def test_realistic(self):
     """
     realistic test example
     :return:
     """
     light_profile_list = ['HERNQUIST_ELLIPSE', 'PJAFFE_ELLIPSE']
     kwargs_light = [{
         'Rs': 0.10535462602138289,
         'q': 0.46728323131925864,
         'center_x': -0.02678473951679429,
         'center_y': 0.88691126347462712,
         'phi_G': 0.74260706384506325,
         'sigma0': 3.7114695634960109
     }, {
         'Rs': 0.44955054610388684,
         'q': 0.66582356813012267,
         'center_x': 0.019536801118136753,
         'center_y': 0.0218888643537157,
         'Ra': 0.0010000053334891974,
         'phi_G': -0.33379268413794494,
         'sigma0': 967.00280526319796
     }]
     lightProfile = LightProfile(light_profile_list)
     R = 0.01
     light2d = lightProfile.light_2d(R=R, kwargs_list=kwargs_light)
     out = integrate.quad(
         lambda x: lightProfile.light_3d(np.sqrt(R**2 + x**2), kwargs_light
                                         ), 0, 100)
     print out, 'out'
     npt.assert_almost_equal(light2d / (out[0] * 2), 1., decimal=3)
Exemplo n.º 3
0
 def test_draw_light(self):
     lightProfile = LightProfile(profile_list=['HERNQUIST'])
     kwargs_profile = [{'sigma0': 1., 'Rs': 0.8}]
     r_list = lightProfile.draw_light_2d(kwargs_profile, n=100000)
     bins = np.linspace(0., 1, 20)
     hist, bins_hist = np.histogram(r_list, bins=bins, normed=True)
     light2d = lightProfile.light_2d(R=(bins_hist[1:] + bins_hist[:-1]) /
                                     2.,
                                     kwargs_list=kwargs_profile)
     light2d *= (bins_hist[1:] + bins_hist[:-1]) / 2.
     light2d /= np.sum(light2d)
     hist /= np.sum(hist)
     print light2d / hist
     for i in range(len(hist)):
         print bins_hist[i], i, light2d[i] / hist[i]
         npt.assert_almost_equal(light2d[i] / hist[i], 1, decimal=1)
Exemplo n.º 4
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    def test_projected_light_integral_hernquist(self):
        """

        :return:
        """
        light_profile_list = ['HERNQUIST']
        r_eff = 1.
        kwargs_light = [{
            'Rs': r_eff,
            'sigma0': 1.
        }]  # effective half light radius (2d projected) in arcsec
        lightProfile = LightProfile(light_profile_list)
        R = 2
        light2d = lightProfile.light_2d(R=R, kwargs_list=kwargs_light)
        out = integrate.quad(
            lambda x: lightProfile.light_3d(np.sqrt(R**2 + x**2), kwargs_light
                                            ), 0, 100)
        npt.assert_almost_equal(light2d, out[0] * 2, decimal=3)
Exemplo n.º 5
0
    def test_projected_light_integral_pjaffe(self):
        """

        :return:
        """
        light_profile_list = ['PJAFFE']
        kwargs_light = [{
            'Rs': .5,
            'Ra': 0.01,
            'sigma0': 1.
        }]  # effective half light radius (2d projected) in arcsec
        lightProfile = LightProfile(light_profile_list)
        R = 0.01
        light2d = lightProfile.light_2d(R=R, kwargs_list=kwargs_light)
        out = integrate.quad(
            lambda x: lightProfile.light_3d(np.sqrt(R**2 + x**2), kwargs_light
                                            ), 0, 100)
        print out, 'out'
        npt.assert_almost_equal(light2d / (out[0] * 2), 1., decimal=3)
Exemplo n.º 6
0
 def test_realistic_0(self):
     """
     realistic test example
     :return:
     """
     light_profile_list = ['HERNQUIST']
     kwargs_light = [{
         'Rs': 0.10535462602138289,
         'center_x': -0.02678473951679429,
         'center_y': 0.88691126347462712,
         'sigma0': 3.7114695634960109
     }]
     lightProfile = LightProfile(light_profile_list)
     R = 0.01
     light2d = lightProfile.light_2d(R=R, kwargs_list=kwargs_light)
     out = integrate.quad(
         lambda x: lightProfile.light_3d(np.sqrt(R**2 + x**2), kwargs_light
                                         ), 0, 100)
     print out, 'out'
     npt.assert_almost_equal(light2d / (out[0] * 2), 1., decimal=3)