aditya95sriram · December 7, 2023 00:35
diff --git a/cubetools.py b/cubetools.py
 #------------------------------------------------------------------------------
 # Module: cubetools
 #------------------------------------------------------------------------------
 #
 # Description:
 # Module to work with Gaussian cube format files
 # (see http://paulbourke.net/dataformats/cube/)
 #
 #------------------------------------------------------------------------------
 #
 # What does it do:
 # * Read/write cube files to/from numpy arrays (dtype=float*)
 # * Read/write pairse of cube files to/from numpy arrays (dtype=complex*)
 # * Provides a CubeFile object, to be used when cubefiles with 
 #   constant and static data is required. It simulates the readline method
 #   of a file object with a cube file opened, without creating a file
 #
 #------------------------------------------------------------------------------
 #
 # Dependency: numpy
 #
 #------------------------------------------------------------------------------
 #
 # Author: P. R. Vaidyanathan (aditya95sriram <at> gmail <dot> com)
 # Date: 25th June 2017
 #
 #------------------------------------------------------------------------------
 #
 # MIT License
 # 
 # Copyright (c) 2019 P. R. Vaidyanathan
 # 
 # Permission is hereby granted, free of charge, to any person obtaining a copy
 # of this software and associated documentation files (the "Software"), to deal
 # in the Software without restriction, including without limitation the rights
 # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 # copies of the Software, and to permit persons to whom the Software is
 # furnished to do so, subject to the following conditions:
 # 
 # The above copyright notice and this permission notice shall be included in all
 # copies or substantial portions of the Software.
 # 
 # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 # SOFTWARE.
 #
 #------------------------------------------------------------------------------

 import numpy as np

 if __name__ == '__main__':
    DEBUGMODE = True
 else:
    DEBUGMODE = False

 def _debug(*args):
    global DEBUGMODE
    if DEBUGMODE:
        print " ".join(map(str, args))

 class CubeFile(object):
    """
    Object which mimics a cube file opened as a file object 
    by returning output in the correct format, matching the 
    metadata of the source cube file and replacing volumetric
    data with static data provided as arg to the constructor. 
    Doesn't copy atoms metadata, retains number of atoms, but
    returns dummy atoms
    Mimics file object's readline method.
    
    params:
        srcname: source file to copy metadata from
        const: numeric value to return instead of volumetric data
        
    returns: CubeFile object
    """

    def __init__(self, srcname, const=1):
        self.cursor = 0 
        self.const = const
        self.src = src = open(srcname)
        src.readline(); src.readline(); # comments
        _debug(srcname)
        self.lines = [" Cubefile created by cubetools.py\n", 
                      "  source: {0}\n".format(srcname)]
        self.lines.append(src.readline()) # read natm and origin
        self.natm = int(self.lines[-1].strip().split()[0])
        # read cube dim and vectors along 3 axes
        self.lines.extend(src.readline() for i in range(3))
        self.src.close()
        self.nx, self.ny, self.nz = [int(l.strip().split()[0]) for l in self.lines[3:6]]
        self.remvals = self.nz
        self.remrows = self.nx*self.ny
        for i in range(self.natm):
            self.lines.append("{0:^ 8d}".format(1) + "{0:< 12.6f}".format(0)*4 + '\n')

    def __del__(self):
        self.src.close()

    def readline(self):
        """ Mimic readline method of file object with cube file opened """
        try:
            retval = self.lines[self.cursor]
        except IndexError:
            if not self.remrows:
                return ""
            if self.remvals <= 6:
                nval = min(6,self.remvals)
                self.remrows -= 1
                self.remvals = self.nz 
            else:
                nval = 6
                self.remvals -= nval
            return " {0: .5E}".format(self.const)*nval + "\n"
        else:
            self.cursor += 1
            return retval
    
 def _getline(cube):
    """
    Read a line from cube file where first field is an int 
    and the remaining fields are floats.
    
    params:
        cube: file object of the cube file
    
    returns: (int, list<float>)
    """
    l = cube.readline().strip().split()
    return int(l[0]), map(float, l[1:])

 def _putline(*args):
    """
    Generate a line to be written to a cube file where 
    the first field is an int and the remaining fields are floats.
    
    params:
        *args: first arg is formatted as int and remaining as floats
    
    returns: formatted string to be written to file with trailing newline
    """
    s = "{0:^ 8d}".format(args[0])
    s += "".join("{0:< 12.6f}".format(arg) for arg in args[1:])
    return s + "\n"
    
 def read_cube(fname):
    """ 
    Read cube file into numpy array
    
    params:
        fname: filename of cube file
        
    returns: (data: np.array, metadata: dict)
    """
    meta = {}
    with open(fname, 'r') as cube:
        cube.readline(); cube.readline()  # ignore comments
        natm, meta['org'] = _getline(cube)
        nx, meta['xvec'] = _getline(cube)
        ny, meta['yvec'] = _getline(cube)
        nz, meta['zvec'] = _getline(cube)
        meta['atoms'] = [_getline(cube) for i in range(natm)]
        data = np.zeros((nx*ny*nz))
        idx = 0
        for line in cube:
            for val in line.strip().split():
                data[idx] = float(val)
                idx += 1
    data = np.reshape(data, (nx, ny, nz))
    return data, meta
    
 def read_imcube(rfname, ifname = ""):
    """
    Convenience function to read in two cube files at once, 
    where one contains the real part and the other contains the 
    imag part. If only one filename given, other filename is inferred.
    
    params:
        rfname: filename of cube file of real part
        ifname: optional, filename of cube file of imag part
        
    returns: np.array (real part + j*imag part)
    """
    ifname = ifname or rfname.replace('real', 'imag')
    _debug("reading from files", rfname, "and", ifname)
    re, im = read_cube(rfname), read_cube(ifname)
    fin = np.zeros(re[0].shape, dtype='complex128')
    if re[1] != im[1]:
        _debug("warning: meta data mismatch, real part metadata retained")
    fin += re[0] 
    fin += 1j*im[0]
    return fin, re[1]

 def write_cube(data, meta, fname):
    """
    Write volumetric data to cube file along
    
    params:
        data: volumetric data consisting real values
        meta: dict containing metadata with following keys
            atoms: list of atoms in the form (mass, [position])
            org: origin
            xvec,yvec,zvec: lattice vector basis
        fname: filename of cubefile (existing files overwritten)
    
    returns: None
    """
    with open(fname, "w") as cube:
        # first two lines are comments
        cube.write(" Cubefile created by cubetools.py\n  source: none\n")
        natm = len(meta['atoms'])
        nx, ny, nz = data.shape
        cube.write(_putline(natm, *meta['org'])) # 3rd line #atoms and origin
        cube.write(_putline(nx, *meta['xvec']))
        cube.write(_putline(ny, *meta['yvec']))
        cube.write(_putline(nz, *meta['zvec']))
        for atom_mass, atom_pos in meta['atoms']:
            cube.write(_putline(atom_mass, *atom_pos)) #skip the newline
        for i in range(nx):
            for j in range(ny):
                for k in range(nz):
                    if (i or j or k) and k%6==0:
                        cube.write("\n")
                    cube.write(" {0: .5E}".format(data[i,j,k]))
                    
 def write_imcube(data, meta, rfname, ifname=""):
    """
    Convenience function to write two cube files from complex valued 
    volumetric data, one for the real part and one for the imaginary part.
    Data about atoms, origin and lattice vectors are kept same for both.
    If only one filename given, other filename is inferred.
    
    params: 
        data: volumetric data consisting complex values
        meta: dict containing metadata with following keys
            atoms: list of atoms in the form (mass, [position])
            org: origin
            xvec,yvec,zvec: lattice vector basis
        rfname: filename of cube file containing real part
        ifname: optional, filename of cube file containing imag part
        
    returns: None
    """
    ifname = ifname or rfname.replace('real', 'imag')
    _debug("writing data to files", rfname, "and", ifname)
    write_cube(data.real, meta, rfname)
    write_cube(data.imag, meta, ifname)
	#------------------------------------------------------------------------------
	# Module: cubetools
	#------------------------------------------------------------------------------
	#
	# Description:
	# Module to work with Gaussian cube format files
	# (see http://paulbourke.net/dataformats/cube/)
	#
	#------------------------------------------------------------------------------
	#
	# What does it do:
	# * Read/write cube files to/from numpy arrays (dtype=float*)
	# * Read/write pairse of cube files to/from numpy arrays (dtype=complex*)
	# * Provides a CubeFile object, to be used when cubefiles with
	# constant and static data is required. It simulates the readline method
	# of a file object with a cube file opened, without creating a file
	#
	#------------------------------------------------------------------------------
	#
	# Dependency: numpy
	#
	#------------------------------------------------------------------------------
	#
	# Author: P. R. Vaidyanathan (aditya95sriram <at> gmail <dot> com)
	# Date: 25th June 2017
	#
	#------------------------------------------------------------------------------
	#
	# MIT License
	#
	# Copyright (c) 2019 P. R. Vaidyanathan
	#
	# Permission is hereby granted, free of charge, to any person obtaining a copy
	# of this software and associated documentation files (the "Software"), to deal
	# in the Software without restriction, including without limitation the rights
	# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	# copies of the Software, and to permit persons to whom the Software is
	# furnished to do so, subject to the following conditions:
	#
	# The above copyright notice and this permission notice shall be included in all
	# copies or substantial portions of the Software.
	#
	# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	# SOFTWARE.
	#
	#------------------------------------------------------------------------------

	import numpy as np

	if __name__ == '__main__':
	DEBUGMODE = True
	else:
	DEBUGMODE = False

	def _debug(*args):
	global DEBUGMODE
	if DEBUGMODE:
	print " ".join(map(str, args))

	class CubeFile(object):
	"""
	Object which mimics a cube file opened as a file object
	by returning output in the correct format, matching the
	metadata of the source cube file and replacing volumetric
	data with static data provided as arg to the constructor.
	Doesn't copy atoms metadata, retains number of atoms, but
	returns dummy atoms
	Mimics file object's readline method.

	params:
	srcname: source file to copy metadata from
	const: numeric value to return instead of volumetric data

	returns: CubeFile object
	"""

	def __init__(self, srcname, const=1):
	self.cursor = 0
	self.const = const
	self.src = src = open(srcname)
	src.readline(); src.readline(); # comments
	_debug(srcname)
	self.lines = [" Cubefile created by cubetools.py\n",
	" source: {0}\n".format(srcname)]
	self.lines.append(src.readline()) # read natm and origin
	self.natm = int(self.lines[-1].strip().split()[0])
	# read cube dim and vectors along 3 axes
	self.lines.extend(src.readline() for i in range(3))
	self.src.close()
	self.nx, self.ny, self.nz = [int(l.strip().split()[0]) for l in self.lines[3:6]]
	self.remvals = self.nz
	self.remrows = self.nx*self.ny
	for i in range(self.natm):
	self.lines.append("{0:^ 8d}".format(1) + "{0:< 12.6f}".format(0)*4 + '\n')

	def __del__(self):
	self.src.close()

	def readline(self):
	""" Mimic readline method of file object with cube file opened """
	try:
	retval = self.lines[self.cursor]
	except IndexError:
	if not self.remrows:
	return ""
	if self.remvals <= 6:
	nval = min(6,self.remvals)
	self.remrows -= 1
	self.remvals = self.nz
	else:
	nval = 6
	self.remvals -= nval
	return " {0: .5E}".format(self.const)*nval + "\n"
	else:
	self.cursor += 1
	return retval

	def _getline(cube):
	"""
	Read a line from cube file where first field is an int
	and the remaining fields are floats.

	params:
	cube: file object of the cube file

	returns: (int, list<float>)
	"""
	l = cube.readline().strip().split()
	return int(l[0]), map(float, l[1:])

	def _putline(*args):
	"""
	Generate a line to be written to a cube file where
	the first field is an int and the remaining fields are floats.

	params:
	*args: first arg is formatted as int and remaining as floats

	returns: formatted string to be written to file with trailing newline
	"""
	s = "{0:^ 8d}".format(args[0])
	s += "".join("{0:< 12.6f}".format(arg) for arg in args[1:])
	return s + "\n"

	def read_cube(fname):
	"""
	Read cube file into numpy array

	params:
	fname: filename of cube file

	returns: (data: np.array, metadata: dict)
	"""
	meta = {}
	with open(fname, 'r') as cube:
	cube.readline(); cube.readline() # ignore comments
	natm, meta['org'] = _getline(cube)
	nx, meta['xvec'] = _getline(cube)
	ny, meta['yvec'] = _getline(cube)
	nz, meta['zvec'] = _getline(cube)
	meta['atoms'] = [_getline(cube) for i in range(natm)]
	data = np.zeros((nxnynz))
	idx = 0
	for line in cube:
	for val in line.strip().split():
	data[idx] = float(val)
	idx += 1
	data = np.reshape(data, (nx, ny, nz))
	return data, meta

	def read_imcube(rfname, ifname = ""):
	"""
	Convenience function to read in two cube files at once,
	where one contains the real part and the other contains the
	imag part. If only one filename given, other filename is inferred.

	params:
	rfname: filename of cube file of real part
	ifname: optional, filename of cube file of imag part

	returns: np.array (real part + j*imag part)
	"""
	ifname = ifname or rfname.replace('real', 'imag')
	_debug("reading from files", rfname, "and", ifname)
	re, im = read_cube(rfname), read_cube(ifname)
	fin = np.zeros(re[0].shape, dtype='complex128')
	if re[1] != im[1]:
	_debug("warning: meta data mismatch, real part metadata retained")
	fin += re[0]
	fin += 1j*im[0]
	return fin, re[1]

	def write_cube(data, meta, fname):
	"""
	Write volumetric data to cube file along

	params:
	data: volumetric data consisting real values
	meta: dict containing metadata with following keys
	atoms: list of atoms in the form (mass, [position])
	org: origin
	xvec,yvec,zvec: lattice vector basis
	fname: filename of cubefile (existing files overwritten)

	returns: None
	"""
	with open(fname, "w") as cube:
	# first two lines are comments
	cube.write(" Cubefile created by cubetools.py\n source: none\n")
	natm = len(meta['atoms'])
	nx, ny, nz = data.shape
	cube.write(_putline(natm, *meta['org'])) # 3rd line #atoms and origin
	cube.write(_putline(nx, *meta['xvec']))
	cube.write(_putline(ny, *meta['yvec']))
	cube.write(_putline(nz, *meta['zvec']))
	for atom_mass, atom_pos in meta['atoms']:
	cube.write(_putline(atom_mass, *atom_pos)) #skip the newline
	for i in range(nx):
	for j in range(ny):
	for k in range(nz):
	if (i or j or k) and k%6==0:
	cube.write("\n")
	cube.write(" {0: .5E}".format(data[i,j,k]))

	def write_imcube(data, meta, rfname, ifname=""):
	"""
	Convenience function to write two cube files from complex valued
	volumetric data, one for the real part and one for the imaginary part.
	Data about atoms, origin and lattice vectors are kept same for both.
	If only one filename given, other filename is inferred.

	params:
	data: volumetric data consisting complex values
	meta: dict containing metadata with following keys
	atoms: list of atoms in the form (mass, [position])
	org: origin
	xvec,yvec,zvec: lattice vector basis
	rfname: filename of cube file containing real part
	ifname: optional, filename of cube file containing imag part

	returns: None
	"""
	ifname = ifname or rfname.replace('real', 'imag')
	_debug("writing data to files", rfname, "and", ifname)
	write_cube(data.real, meta, rfname)
	write_cube(data.imag, meta, ifname)