Python cosdの例

コード例 #1

ファイル: convertm.py プロジェクト: minzastro/sage_ga

def equatorial_to_galactic(alpha, delta):
    """
    Convert equatorial coordinates to galactic system.
    """
    cbcX, cbsX, sb = np.dot(MATRIXT, [cosd(delta)*cosd(alpha),
                                      cosd(delta)*sind(alpha),
                                      sind(delta)])
    b = np.arcsin(sb)
    l = np.arctan2(cbsX/cosd(b),cbcX/cosd(b))
    if l < 0.:
        l = l + np.pi * 2
    return np.degrees(l), np.degrees(b)

コード例 #2

ファイル: convertm.py プロジェクト: minzastro/sage_ga

def convert_all(ra, de, pmra, pmde, dpmra, dpmde, 
                vr, dvr, distance, e_distance):
    """
    """
    rotRA = np.array([[cosd(ra), -sind(ra), 0.],
                      [sind(ra),  cosd(ra), 0.],
                      [0.,        0.,       1.]])
    rotDE = np.array([[cosd(de), 0., -sind(de)],
                      [0.,       1.,        0.],
                      [sind(de), 0.,  cosd(de)]])
    l, b = equatorial_to_galactic(ra, de)
    pos = np.array([cosd(b)*cosd(l),
                    cosd(b)*sind(l),
                    sind(b)])
    
    matrixA = np.dot(rotRA, rotDE)
    XYZ = distance * np.dot(MATRIXT, pos)
    UVW = np.dot(MATRIXT, np.dot(matrixA, np.array([vr, 
                                                    K*distance * pmra,
                                                    K*distance * pmde])))

    #print cov_pmrapmdec_to_pmllpmbb(np.array([[dpmra**2, 0.], [0., dpmde**2]]), ra ,de, degree=True)
    # Now to uncertainces:
    #sinb = XYZ[2] / distance
    #cosb = np.sqrt(1. - sinb**2)
    #matrixP = get_P_matrix(ra, de, sinb, cosb)
    # eq. 76
    #cov_mu = np.dot(matrixP, 
    #                np.dot(np.diag([dpmra * cosd(de), dpmde]), matrixP.T))
    # eq. 70
    jac_vavd = K * np.array([[pmra, distance, 0.],
                             [pmde, 0., distance]])
    # eq. 71
    cov_d_pm = np.diag([e_distance**2, dpmra**2, dpmde**2])
    cov_vpm = doubledot(jac_vavd, cov_d_pm)
    # eq. 72
    cov_v = block_diag(dvr**2, cov_vpm)
    cov_UVW = doubledot(MATRIXT, doubledot(matrixA, cov_v))
    return XYZ, UVW, cov_UVW

コード例 #3

ファイル: convertm.py プロジェクト: minzastro/sage_ga

def get_P_matrix(ra, de, sinb, cosb):
    cos_phi = (SIN_DEC_NGP - sind(de)*sinb)/(cosd(de)*cosb)
    sin_phi = sind(ra - RA_NGP) * COS_DEC_NGP / cosb
    return np.array([[cos_phi, sin_phi], [-sin_phi, cos_phi]])

コード例 #4

ファイル: convertm.py プロジェクト: minzastro/sage_ga

"""
Created on Mon Oct 26 14:28:40 2015

@author: mints
"""

import numpy as np
from sage.convert import R_SUN, V_SUN, cosd, sind, K
from scipy.linalg import block_diag
from galpy.util.bovy_coords import cov_pmrapmdec_to_pmllpmbb, cov_dvrpmllbb_to_vxyz

THETA = 122.932
RA_NGP = 192.85948
DEC_NGP = 27.12825

COS_THETA = cosd(THETA)
SIN_THETA = sind(THETA)

COS_RA_NGP = cosd(RA_NGP)
SIN_RA_NGP = sind(RA_NGP)

COS_DEC_NGP = cosd(DEC_NGP)
SIN_DEC_NGP = sind(DEC_NGP)

MATRIXT = np.dot(np.array([[COS_THETA,  SIN_THETA, 0.],
                           [SIN_THETA, -COS_THETA, 0.],
                           [0.,         0.,        1.]]),
          np.dot(np.array([[-SIN_DEC_NGP, 0., COS_DEC_NGP],
                           [0.,           1., 0.],
                           [COS_DEC_NGP,  0., SIN_DEC_NGP]]),
                 np.array([[ COS_RA_NGP, SIN_RA_NGP, 0.],