Cart to frac: Difference between revisions
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= Overview = | = Overview = | ||
This script will convert the real space orthonormal cartesian coordinates of a selection to the fractional coordinates given the loaded cell symmetry. | This script will convert the real space orthonormal cartesian coordinates of a selection to the fractional coordinates given the loaded cell symmetry. | ||
* Thanks to [http://en.wikipedia.org/wiki/Fractional_coordinates Wikipedia]. | |||
= Example = | = Example = | ||
Line 20: | Line 22: | ||
= The Code = | = The Code = | ||
<source lang="python"> | <source lang="python"> | ||
from pymol import cmd | from pymol import cmd | ||
def cart_to_frac(objSel,quiet=0,_self=cmd): | def cart_to_frac(objSel,quiet=0,_self=cmd): | ||
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x = cart_to_frac("solvent", quiet=1) | x = cart_to_frac("solvent", quiet=1) | ||
""" | """ | ||
import numpy | |||
from numpy import cos, sin, sqrt | |||
a2r = numpy.pi / 180.0 | a2r = numpy.pi / 180.0 | ||
Line 72: | Line 74: | ||
tmat = numpy.matrix( [ | tmat = numpy.matrix( [ | ||
[ 1.0 / a, -cos(gamma)/(a*sin(gamma)), (cos(alpha)*cos(gamma)-cos(beta)) / (a*v*sin(gamma)) ], | [ 1.0 / a, -cos(gamma)/(a*sin(gamma)), (cos(alpha)*cos(gamma)-cos(beta)) / (a*v*sin(gamma)) ], | ||
[ 0.0, 1.0 / b*sin(gamma), (cos(beta) *cos(gamma)-cos(alpha))/ (b*v*sin(gamma)) ], | [ 0.0, 1.0 / (b*sin(gamma)), (cos(beta) *cos(gamma)-cos(alpha))/ (b*v*sin(gamma)) ], | ||
[ 0.0, 0.0, sin(gamma) / (c*v) ] ] | [ 0.0, 0.0, sin(gamma) / (c*v) ] ] | ||
) | ) | ||
r = cart_coord * tmat.T | |||
if not quiet: | if not quiet: | ||
for (x,y,z) in r.tolist(): | |||
print '%8.5f %8.5f %8.5f' % (x,y,z) | |||
# return the Nx3 results | # return the Nx3 results | ||
return | return r | ||
cmd.extend("cart_to_frac", cart_to_frac) | cmd.extend("cart_to_frac", cart_to_frac) |
Latest revision as of 09:01, 15 September 2016
Overview
This script will convert the real space orthonormal cartesian coordinates of a selection to the fractional coordinates given the loaded cell symmetry.
- Thanks to Wikipedia.
Example
# load the script
run cart_to_frac.py
# fetch a protein and test
fetch 1rx1, async=0
# get the coordinates for the organic small
# molecule as fractional coordinates
print cart_to_frac("org")
The Code
from pymol import cmd
def cart_to_frac(objSel,quiet=0,_self=cmd):
"""
Returns an array of fractional atomic coordinates
for a given object or selection.
PARAMS
objSel -- any object or selection
quiet -- suppress output (default, no)
_self -- core CMD object; or none
RETURNS
Python list of fractional coordinates
NOTES/EXAMPLES
cart_to_frac org
x = cart_to_frac("solvent", quiet=1)
"""
import numpy
from numpy import cos, sin, sqrt
a2r = numpy.pi / 180.0
# get the model and coordinates
m = _self.get_model(objSel)
cart_coord = numpy.matrix(m.get_coord_list())
# get the symmetry information
try:
a,b,c,alpha,beta,gamma,gp = _self.get_symmetry(objSel)
except:
print "Error-Failed to get symmetry. Please ensure you have a"
print "valid object with proper crystal symmetry loaded."
return None
# convert to radians
alpha = a2r * alpha
beta = a2r * beta
gamma = a2r * gamma
# (scaled) volume of the cell
v = sqrt(1 -cos(alpha)*cos(alpha) - cos(beta)*cos(beta) - cos(gamma)*cos(gamma) + 2*cos(alpha)*cos(beta)*cos(gamma))
tmat = numpy.matrix( [
[ 1.0 / a, -cos(gamma)/(a*sin(gamma)), (cos(alpha)*cos(gamma)-cos(beta)) / (a*v*sin(gamma)) ],
[ 0.0, 1.0 / (b*sin(gamma)), (cos(beta) *cos(gamma)-cos(alpha))/ (b*v*sin(gamma)) ],
[ 0.0, 0.0, sin(gamma) / (c*v) ] ]
)
r = cart_coord * tmat.T
if not quiet:
for (x,y,z) in r.tolist():
print '%8.5f %8.5f %8.5f' % (x,y,z)
# return the Nx3 results
return r
cmd.extend("cart_to_frac", cart_to_frac)