115 lines
3.4 KiB
Python
115 lines
3.4 KiB
Python
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import numpy as np
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from scipy.special import (ellipkinc as ellip_F, ellipeinc as ellip_E)
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def ellipsoid(a, b, c, spacing=(1., 1., 1.), levelset=False):
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"""
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Generates ellipsoid with semimajor axes aligned with grid dimensions
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on grid with specified `spacing`.
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Parameters
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----------
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a : float
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Length of semimajor axis aligned with x-axis.
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b : float
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Length of semimajor axis aligned with y-axis.
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c : float
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Length of semimajor axis aligned with z-axis.
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spacing : tuple of floats, length 3
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Spacing in (x, y, z) spatial dimensions.
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levelset : bool
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If True, returns the level set for this ellipsoid (signed level
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set about zero, with positive denoting interior) as np.float64.
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False returns a binarized version of said level set.
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Returns
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-------
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ellip : (N, M, P) array
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Ellipsoid centered in a correctly sized array for given `spacing`.
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Boolean dtype unless `levelset=True`, in which case a float array is
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returned with the level set above 0.0 representing the ellipsoid.
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"""
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if (a <= 0) or (b <= 0) or (c <= 0):
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raise ValueError('Parameters a, b, and c must all be > 0')
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offset = np.r_[1, 1, 1] * np.r_[spacing]
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# Calculate limits, and ensure output volume is odd & symmetric
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low = np.ceil((- np.r_[a, b, c] - offset))
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high = np.floor((np.r_[a, b, c] + offset + 1))
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for dim in range(3):
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if (high[dim] - low[dim]) % 2 == 0:
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low[dim] -= 1
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num = np.arange(low[dim], high[dim], spacing[dim])
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if 0 not in num:
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low[dim] -= np.max(num[num < 0])
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# Generate (anisotropic) spatial grid
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x, y, z = np.mgrid[low[0]:high[0]:spacing[0],
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low[1]:high[1]:spacing[1],
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low[2]:high[2]:spacing[2]]
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if not levelset:
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arr = ((x / float(a)) ** 2 +
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(y / float(b)) ** 2 +
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(z / float(c)) ** 2) <= 1
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else:
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arr = ((x / float(a)) ** 2 +
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(y / float(b)) ** 2 +
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(z / float(c)) ** 2) - 1
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return arr
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def ellipsoid_stats(a, b, c):
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"""
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Calculates analytical surface area and volume for ellipsoid with
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semimajor axes aligned with grid dimensions of specified `spacing`.
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Parameters
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----------
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a : float
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Length of semimajor axis aligned with x-axis.
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b : float
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Length of semimajor axis aligned with y-axis.
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c : float
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Length of semimajor axis aligned with z-axis.
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Returns
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-------
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vol : float
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Calculated volume of ellipsoid.
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surf : float
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Calculated surface area of ellipsoid.
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"""
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if (a <= 0) or (b <= 0) or (c <= 0):
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raise ValueError('Parameters a, b, and c must all be > 0')
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# Calculate volume & surface area
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# Surface calculation requires a >= b >= c and a != c.
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abc = [a, b, c]
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abc.sort(reverse=True)
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a = abc[0]
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b = abc[1]
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c = abc[2]
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# Volume
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vol = 4 / 3. * np.pi * a * b * c
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# Analytical ellipsoid surface area
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phi = np.arcsin((1. - (c ** 2 / (a ** 2.))) ** 0.5)
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d = float((a ** 2 - c ** 2) ** 0.5)
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m = (a ** 2 * (b ** 2 - c ** 2) /
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float(b ** 2 * (a ** 2 - c ** 2)))
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F = ellip_F(phi, m)
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E = ellip_E(phi, m)
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surf = 2 * np.pi * (c ** 2 +
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b * c ** 2 / d * F +
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b * d * E)
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return vol, surf
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