esta.grrmBag package
Contents
esta.grrmBag package#
Submodules#
esta.grrmBag.LUPINP module#
get xxx_LUPINP.log file from pos and label variables data
- esta.grrmBag.LUPINP.get_LUPINP(atm_pos, label, name_outfile=None)#
get xxx_LUPINP.log file from pos and label variables data
- input:
atm_pos: array of shape (no_of_atomic_strs, natoms, 3 ) label: list of shape (no_of_atomic_sts, natoms) name_outfile: prefic of name of the output file, optional
- output:
- output “name_outfile”+’_LUPINP.log’ file to be used as an initial path
for the LUP calculation
—exampe of XXX_LUPINP.log file: ————
# NODE 0: O 5.490527361273 -7.301039647118 -6.111826190422 H 5.733518415093 -6.371725434573 -5.886303868739 H 5.483149357281 -6.641347567148 -3.750888719682
# NODE 1: O 5.539350619528 -7.324436803847 -6.035948874142 H 5.785226928656 -6.401397049756 -5.821165568507 H 5.502797674893 -6.666317168224 -3.712799145260
esta.grrmBag.a module#
- esta.grrmBag.a.get_EQ_IRC(filename, natoms=None)#
get the eq structures from the IRC calculations
filename: str, name of the IRC log file
position: array of shape (2, natoms, 3) ; 2 for two EQ strs label: list of atomic symbols of shape (2, natoms); 2 for eq strs
- esta.grrmBag.a.get_EQ_TS_IRC(filename, natoms=None)#
get the EQ and TS structures from the IRC calculations
filename: str, name of the IRC log file
position: array of shape (3, natoms, 3) ; 3 for two EQ and 1 TS strs label: list of atomic symbols of shape (3, natoms); 3 for 2 eq strs and 1 TS strs
- esta.grrmBag.a.get_free_energy(filename)#
get free energy of all Geometry strs in Hartree from grrm log file of IRC calculations
- esta.grrmBag.a.get_irc_path(filename, path_direction=False)#
read log file or any other file containing IRC path information:
string; filename string;optinal, path_direction can be forward or reversed
default is forward direction
plot the path in png file named filename.png
- Reading starts from following …………..
Energy profile along IRC Length (A amu1/2) Energy (Hartree) -61.2536469474 -140.1040646722
30.6359900582 -140.0788979553 30.8934801390 -140.0788985106
Reverse Length (A amu1/2) Energy (Hartree) -30.8934801390 -140.0788985106 -30.6359900582 -140.0788979553 .. .. 60.7900934845 -140.1040632542 61.2536469474 -140.1040646722
- esta.grrmBag.a.get_natoms_IRC(filename) int #
get no. of atoms present in a strs in IRC log file
esta.grrmBag.com2xyz module#
get xyz file from *com file of the GRRM or gaussian input file
- esta.grrmBag.com2xyz.get_coord(filename)#
get coord and atomic labesls from com file of gaussian or GRRM17
input filename
scalar; no of atoms list; for atomic labels array; for atomic positions
- esta.grrmBag.com2xyz.get_coord_grrm_kin(filename)#
get coord and atomic labesls from com file of GRRM17 com file with kinetic options
input filename
scalar; no of atoms list; for atomic labels array; for atomic positions
- esta.grrmBag.com2xyz.get_xyz_file(filename, filetype=None)#
get xyz file from com file
label: string list or string array pos: array of shape (natoms, 3) infile: input file name
xyz file in the present dir; name of file derived from input file
esta.grrmBag.get_IRC_path module#
- esta.grrmBag.get_IRC_path.get_EQ_IRC(filename, natoms=None)#
get the eq structures from the IRC calculations
filename: str, name of the IRC log file
position: array of shape (2, natoms, 3) ; 2 for two EQ strs label: list of atomic symbols of shape (2, natoms); 2 for eq strs
- esta.grrmBag.get_IRC_path.get_EQ_TS_IRC(filename, natoms=None)#
get the EQ and TS structures from the IRC calculations
filename: str, name of the IRC log file
position: array of shape (3, natoms, 3) ; 3 for two EQ and 1 TS strs label: list of atomic symbols of shape (3, natoms); 3 for 2 eq strs and 1 TS strs
- esta.grrmBag.get_IRC_path.get_energy(filename)#
- get free energy, electronic, and enthalpies of all Geometry strs in Hartree from grrm log file
of IRC calculations
- ..note:
Check following matches:: Thermochemistry at 298.150 K, 1.000 Atm Thermochemistry (use all positive eigenvalues) at 298.15 K, 1.00 Atm Thermochemistry (after the above replacements)
- esta.grrmBag.get_IRC_path.get_enthalpy(filename)#
get Enthalpie from grrm saddle/saddle+irc log files in Hartree from grrm log file of IRC calculations
- ..note:
Check following matches:: Thermochemistry at 298.150 K, 1.000 Atm Thermochemistry (use all positive eigenvalues) at 298.15 K, 1.00 Atm Thermochemistry (after the above replacements)
Enthalpie(0K) = -4972.234296259576 Enthalpie = -4972.155864233614
Thermochemistry (use all positive eigenvalues) at 298.15 K, 1.00 Atm Thermochemistry (after the above replacements) at 298.15 K, 1.00 Atm
free_energy[j] = float( lines[i+14].split()[-1] ) elec_energy[j] = float( lines[i+1].split()[-1] ) enthalpy[j] = float( lines[i+8].split()[-1] )
- esta.grrmBag.get_IRC_path.get_free_energy(filename)#
get free energy of all Geometry strs in Hartree from grrm log file of IRC calculations
- esta.grrmBag.get_IRC_path.get_irc_path(filename, path_direction=False)#
read log file or any other file containing IRC path information:
- Parameters
filename (string) –
path_direction (string (optinal),) – path_direction can be forward or reversed; default is forward direction
- Return type
plot the path in png file named filename.png
- ..note:
- Reading starts from following …………..
Energy profile along IRC Length (A amu1/2) Energy (Hartree) -61.2536469474 -140.1040646722
30.6359900582 -140.0788979553 30.8934801390 -140.0788985106
Reverse Length (A amu1/2) Energy (Hartree) -30.8934801390 -140.0788985106 -30.6359900582 -140.0788979553 .. .. 60.7900934845 -140.1040632542 61.2536469474 -140.1040646722
- esta.grrmBag.get_IRC_path.get_natoms_IRC(filename) int #
get no. of atoms present in a strs in IRC log file
esta.grrmBag.get_LUP module#
- esta.grrmBag.get_LUP.get_lup_inp(filename)#
read XXX_LUPINP.log file for getting the Path (xyz strs)
- Parameters
filename (str) – filename, name of xxx_LUPINP.log file
- Returns
position_all (array) – array of atomic positions
atom_symbol (string) – strings representing atomic symbols
- esta.grrmBag.get_LUP.get_lup_out(filename)#
read XXX_LUPIOUTt.log file for getting the Path (xyz strs)
- Parameters
filename (str) – filename, name of xxx_LUPINP.log file
- Returns
position_all (array) – array of atomic positions
atom_symbol (string) – strings representing atomic symbols
esta.grrmBag.get_LUPINP module#
- esta.grrmBag.get_LUPINP.get_lup_inp(filename, lenergy=None)#
read XXX_LUPINP.log file for getting the Path (xyz strs)
- Parameters
filename (string) – filename, name of xxx_LUPINP.log file
lenergy (logical, optional) – lenergy, whether energy to be extracted from the input filename
- Return type
create xyz file containing all xyz strs with energy information in the comment if lenergy is true ..
esta.grrmBag.get_LUP_profile_advv module#
- esta.grrmBag.get_LUP_profile_advv.get_lup_profile(filename, natoms)#
extract the LUP path
from DS-AFIR calculated log file of GRRM … xxx.log file
finally plot the LUP profile
- esta.grrmBag.get_LUP_profile_advv.get_lup_profile2(filename)#
extract the LUP path
from - from xxx__LUPOUTt.log file
esta.grrmBag.get_nTS_nEQ_nPT module#
get number of EQ, TS, and PT structures from logs of GRRM output
- esta.grrmBag.get_nTS_nEQ_nPT.get_nEQ(filename)#
- esta.grrmBag.get_nTS_nEQ_nPT.get_nPT(filename)#
- esta.grrmBag.get_nTS_nEQ_nPT.get_nTS(filename)#
esta.grrmBag.input_grrm module#
- class esta.grrmBag.input_grrm.GenerateCom(xyzfile, charge, multiplicity, cal_type)#
Bases:
object
- flags_grrm(**kwargs)#
other options in GRRM code for calculation types e.g:
Options sublink=/home/kumarsonu/bin/link_excode_allv3.1_.py Add Interaction Fragm.1=56,57,58,1 Fragm.2=59-62 1 2 Gamma=200.0 END NOFC KeepIntFiles DownDC=12
- np = <module 'numpy' from '/home/sonu/anaconda3/envs/py3a/lib/python3.7/site-packages/numpy/__init__.py'>#
- read_xyz()#
filename, str, filename xyz file name
atomic positions: array: rank 2 array of shape (natoms, 3) atomic labels: list/array of strings: rank 1 array of atomic labels no of atoms: scalar
- read_xyz2(xyz2file)#
filename, str, filename xyz file name
atomic positions: array: rank 2 array of shape (natoms, 3) atomic labels: list/array of strings: rank 1 array of atomic labels no of atoms: scalar
- write_com(**kwargs)#
atomic postions atomic labels no of atoms
com file containing info of atomic structure
- write_com_2xyz(xyz2file, **kwargs)#
atomic postions atomic labels no of atoms _________________ –> all of these variable read form 1xyz file ..by
calling self.read_xyz()
str: xyz file name —2nd xyz filename correspinding to product of rxn
com file containing info of atomic structure info of two atomic systems
esta.grrmBag.input_grrm_advv module#
- class esta.grrmBag.input_grrm_advv.GenerateCom(xyzfile, charge, multiplicity, cal_type)#
Bases:
object
python class to generate input files (*.com file) for different type of calculations for GRRM using:
non-supported
orca
gaussian
Note
Different types of calculation are carried out by the
GRRM software given below:
calculaiton type …. status of Implementation
Normal mode analysis (FREQ)
Minimum point optimization (MIN) ……DONE
Saddle-point optimization (SADDLE)
IRC following (IRC)
LUP path optimization (LUP) …. DONE
- – to do
Crossing point (MECI or MESX) optimization …. will not be done Crossing point (MECI or MESX) estimation …. will not be done External atoms (microiterations) Frozen atoms …. DONE
MIN-AFIR calculations … DONE AFIR calculations … DONE DS-AFIR calculations … DONE
Refinement calculations ….. TODO
author: skumar
email: sonukumar.physics@gmail.com
- flags_grrm(**kwargs)#
options in GRRM code for calculation types
Note
Options sublink=/home/kumarsonu/bin/link_excode_allv3.1_.py Add Interaction Fragm.1=56,57,58,1 Fragm.2=59-62 1 2 Gamma=200.0 END NOFC KeepIntFiles DownDC=12
- freeze_notfreeze_atoms(fix_atm_list=None)#
xyzfile : name of the xyz file containing xyz coords, and symbols fix_atm_list = [i,j] ; starting atom i to the last last atom j number.
- Returns
frozen_tuple (tuple) – tuple containg fixed atomic_positins, atomic_symbols, and atom index
not_frozen_tuple (tuple) – tuple containg not fixed atomic_positins, atomic_symbols, and atom index
- read_xyz()#
- Parameters
filename (str) – xyz file name
- Returns
atomic positions (array) – rank 2 array of shape (natoms, 3)
atomic labels (list/array of strings) – rank 1 array of atomic labels
strings (string) – string mentioning the units of coordinates
- read_xyz2(xyz2file)#
- Parameters
filename –
str –
name (filename xyz file) –
- Returns
atomic positions (array: rank 2 array of shape (natoms, 3))
atomic labels (list/array of strings: rank 1 array of atomic labels)
no of atoms (scalar)
- write_com(interface=None, basis=None, solvent=None, log_filename=None, Frozen_dict=None, **kwargs)#
atomic postions atomic labels no of atoms kwargs containing GRRM related parameters
input com GRRM file containing info of atomic structure as well as other GRRM parameteres
- write_com_2xyz(xyz2file, interface=None, **kwargs)#
xyz files of products read from command line arguments ….mainly used for creating DS-AFIR input file …
atomic postions atomic labels no of atoms _________________ –> all of these variable read form 1xyz file ..by
calling self.read_xyz()
str: xyz file name —2nd xyz filename correspinding to product of rxn
com file containing info of atomic structure info of two atomic systems
- write_inp(xyzfile, charge, multiplicity, ncores=None, memory=None, interface=None)#
generate input file for ORCA like below:
- Parameters
prefix (string) – name of inp file with .inp extension
charge (sclar) – chare on ths system
multiplicity (integer) – spin multiplicity (2S+1); for a single electron: S =1/2
- Returns
file – inp file for orca containg charge and multiplicity options
- Return type
string
Note
! XTB2 NoUseSym @job
xyz 0 1
@geometry *
- write_input_oniom()#
get input file for the oniom-msm method by suzuki etal. (ICReDD) for:
saddle calculations (see general folder for the implementation)
EQ/TS sampling calculations (this may not be possible as I tried setting up the calculation, but failed!!)
ReStruct calculation ..
esta.grrmBag.output_grrm module#
grrm class to extract the xyz file/files from the GRRM17 log file
- class esta.grrmBag.output_grrm.grrm(filename)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions_from_EQ_list()#
get xyz files: atomic positions and atomic labels from “*_EQ_list.log” file of GRRM17
- get_all_xyz_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_all_xyz_in_a_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_ITR_adv module#
grrm class to extract the xyz file/files from the GRRM17 ITR.log file
- class esta.grrmBag.output_grrm_ITR_adv.grrm(filename)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions_from_ITR_list()#
get xyz files: atomic positions and atomic labels from “*_ITR_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_all_xyz_in_a_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of ITR list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_ITR_adv1 module#
grrm class to process the GRRM Ilog file. Basically process the log file containg ITR keywords (used for min, opt etc in GRRM)
- class esta.grrmBag.output_grrm_ITR_adv1.grrm(filename)#
Bases:
object
extract the xyz files and energies from the log file
- get_all_atomic_positions_from_ITR_list()#
get xyz files: atomic positions and atomic labels from “*_ITR_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
outfile : write data in xyz file specified by name outfile
- get_all_xyz_in_a_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of ITR list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_ITR_adv2 module#
grrm class to process the GRRM Ilog file. Basically process the log file containg ITR keywords (used for min, opt etc in GRRM)
- class esta.grrmBag.output_grrm_ITR_adv2.grrm(filename)#
Bases:
object
extract the xyz files and energies from the log file
- get_all_atomic_positions_from_ITR_list()#
get xyz files: atomic positions and atomic labels from “*_ITR_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
outfile : write data in xyz file specified by name outfile
- get_all_xyz_in_a_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of ITR list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_bare_energy()#
get Bare Energy from log file of MIN-AFIR calculations
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_ITR_adv3 module#
grrm class to process the GRRM log file. Basically process the log file containg ITR keywords (used for min, opt etc in GRRM)
- class esta.grrmBag.output_grrm_ITR_adv3.grrm(filename)#
Bases:
object
extract the xyz files and energies from the log file
- get_all_atomic_positions_from_ITR_list()#
get xyz files: atomic positions and atomic labels from “*_ITR_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
outfile : write data in xyz file specified by name outfile
- get_all_xyz_in_a_file(comment=None, min_afir=None, reverse=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of ITR list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_bare_energy()#
get Bare Energy from log file of MIN-AFIR calculations
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_ITR_adv4 module#
grrm class to process the GRRM log file. Basically process the log file containg ITR keywords (used for min, opt etc in GRRM)
- class esta.grrmBag.output_grrm_ITR_adv4.grrm(filename)#
Bases:
object
extract the xyz files and energies from the log file
- get_all_atomic_positions_from_ITR_list()#
get xyz files: atomic positions and atomic labels from “*_ITR_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
outfile : write data in xyz file specified by name outfile
- get_all_xyz_in_a_file(comment=None, min_afir=None, reverse=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of ITR list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_bare_energy()#
get Bare Energy from log file of MIN-AFIR calculations
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_ITR_adv5 module#
grrm class to process the GRRM log file. Basically process the log file containg ITR keywords (used for min, opt etc in GRRM)
- class esta.grrmBag.output_grrm_ITR_adv5.grrm(filename)#
Bases:
object
extract the xyz files and energies from the log file
- get_all_atomic_positions_from_ITR_list()#
get xyz files: atomic positions and atomic labels from “*_ITR_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
outfile : write data in xyz file specified by name outfile
- get_all_xyz_in_a_file(comment=None, min_afir=None, reverse=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of ITR list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_bare_energy()#
get Bare Energy from log file of MIN-AFIR calculations
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_PT module#
grrm class to extract the xyz file/files from the GRRM17 PT.log file
- class esta.grrmBag.output_grrm_PT.grrm(filename)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions_from_PT_list()#
get xyz files: atomic positions and atomic labels from “*_PT_list.log” file of GRRM17
- get_all_xyz_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_all_xyz_in_a_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of PT list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_RxnMap6 module#
- class esta.grrmBag.output_grrm_RxnMap6.grrm(comfile)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions(logfile_name)#
get xyz files: atomic positions and atomic labels from “*_TS_list.log” file of GRRM17
- get_all_xyz_file(logfile_name)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_atomic_positions(logfile_name)#
not called in case of TS list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_connection(logfile_name)#
find which TS stats is connected to which EQ states
str: filename
dictionary of TS and connections: {‘TS’: TS_list, ‘Connection’: connection}
e.g:
search the following is *TS_list.log file:
# Geometry of TS 0, SYMMETRY = C1 CONNECTION : 4 - 5
- get_energy_general(com_file_name, which_state='EQ')#
get Energy of all TS/PT/EQ states from comfile_TS/PT/EQ _list.log file
str: com file name with .com extension str: choose which states energies to get; EQ/TS/PT
list: energies list of EQ/TS/PT structures
- get_map(ts, ts_connection, file_name, layout_is='neato')#
list: eq_id list: connection
- get_map2(ts, ts_connection)#
list: eq_id list: connection
- get_xyz_file(logfile_name)#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_TS module#
grrm class to extract the xyz file/files from the GRRM17 TS.log file
- class esta.grrmBag.output_grrm_TS.grrm(filename)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions_from_TS_list()#
get xyz files: atomic positions and atomic labels from “*_TS_list.log” file of GRRM17
- get_all_xyz_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_all_xyz_in_a_file(comment=None)#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
- write data in a single xyz file specified by name outfile
here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
outfile
- get_atomic_positions()#
not called in case of TS list.log ……….
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.output_grrm_init module#
grrm class to extract the xyz file/files from the GRRM17 log file
- class esta.grrmBag.output_grrm_init.grrm(filename)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions_from_EQ_list()#
get xyz files: atomic positions and atomic labels from “*_EQ_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_atomic_positions()#
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
esta.grrmBag.plot_strs_energy module#
- esta.grrmBag.plot_strs_energy.data_exist()#
- esta.grrmBag.plot_strs_energy.process_data()#
process data0.dat and EQlist.dat files for plotting
generate plot of str vs energy in the e.pdf
esta.grrmBag.search_structure2 module#
to get all the possible atomic structures with some constrainds from a list of xyz strs
author: skumar email: sonukumar.physics@gmail.com/sonukumar.icredd.hokudai.ac.jp date: July 2020 place: QCL, ICReDD, Japan
- class esta.grrmBag.search_structure2.strInfo#
Bases:
object
class to just print the str information etc ; it takes as input information of strs from struct class.
- get_str_info(filenames, atoms_info, dist_criteria, atoms_info_unwanted=None, dist_criteria_unwanted=None)#
get information of all possible atomic strs with input constraints
filenames: list of all xyz files atoms_info: list of index of pair of atoms (atoms numbering starting from
1; like the vesta reads and assigns the atom numbers)
dist_criteria: list of distances for each pair of atoms
atoms_info_unwanted: strs with following dist criteria are not needed
- dist_criteria_unwanted: strs with this critea are not needed
((unwanted means dist = or > is needed )
3 output files named: 1) “data.dat” : all strs with distances between atom pairs 2) “dat0.dat” : contain possible xyz str with given distance constrains 3) “str_id_info” : contained id of xyz files; can be used to view the atomic
strs using vesta or other visualization tool
- class esta.grrmBag.search_structure2.struct#
Bases:
object
struct class for getting the possible strs with some contraints on atoms locations
- get_str(xyzfile_obj, xyz_file, atoms_list, threshold=None, atoms_list_unwanted=None, threshold_unwanted=None, **kwarg)#
get xyz files with constrains mentioned …..
xyzobj: xyz data object atoms_list: a list of atleast 2 atoms; e.g. [1,10], or [[1,4], [6,8]] x lfind: threshold: list of scalars depending on list of atoms, scalars are
distance between atoms in angstrom; if one value given then all atoms pairs have same threshold
atoms_list_unwanted: same as atoms_list, but these are not wanted in search sts threshold_unwanted: same as threshold, but atoms with these distances or more
are needed in the final xyz str
only xyz files with specific constrains
- read_xyz(xyzfile)#
filename, str, filename xyz file name
atomic positions: array: rank 2 array of shape (natoms, 3) atomic labels: list/array of strings: rank 1 array of atomic labels no of atoms: scalar
esta.grrmBag.search_structure2_mod module#
to get all the possible atomic structures with some constrainds from a list of xyz strs
author: skumar email: sonukumar.physics@gmail.com/sonukumar.icredd.hokudai.ac.jp date: July 2020 place: QCL, ICReDD, Japan
- class esta.grrmBag.search_structure2_mod.strInfo#
Bases:
object
class to just print the str information etc ; it takes as input information of strs from struct class.
- get_str_info(filenames, atoms_info, dist_criteria, atoms_info_unwanted=None, dist_criteria_unwanted=None)#
get information of all possible atomic strs with input constraints
filenames: list of all xyz files atoms_info: list of index of pair of atoms (atoms numbering starting from
1; like the vesta reads and assigns the atom numbers)
dist_criteria: list of distances for each pair of atoms
atoms_info_unwanted: strs with following dist criteria are not needed
- dist_criteria_unwanted: strs with this critea are not needed
((unwanted means dist = or > is needed )
3 output files named: 1) “data.dat” : all strs with distances between atom pairs 2) “dat0.dat” : contain possible xyz str with given distance constrains 3) “str_id_info” : contained id of xyz files; can be used to view the atomic
strs using vesta or other visualization tool
- class esta.grrmBag.search_structure2_mod.struct#
Bases:
object
struct class for getting the possible strs with some contraints on atoms locations
- get_str(xyzfile_obj, xyz_file, atoms_list, threshold=None, atoms_list_unwanted=None, threshold_unwanted=None, **kwarg)#
get xyz files with constrains mentioned …..
xyzobj: xyz data object atoms_list: a list of atleast 2 atoms; e.g. [1,10], or [[1,4], [6,8]] x lfind: threshold: list of scalars depending on list of atoms, scalars are
distance between atoms in angstrom; if one value given then all atoms pairs have same threshold
atoms_list_unwanted: same as atoms_list, but these are not wanted in search sts threshold_unwanted: same as threshold, but atoms with these distances or more
are needed in the final xyz str
only xyz files with specific constrains
- read_xyz(xyzfile)#
filename, str, filename xyz file name
atomic positions: array: rank 2 array of shape (natoms, 3) atomic labels: list/array of strings: rank 1 array of atomic labels no of atoms: scalar
esta.grrmBag.search_structure3 module#
to get all the possible atomic structures with some constrainds from a list of xyz strs
author: skumar email: sonukumar.physics@gmail.com/sonukumar.icredd.hokudai.ac.jp date: July 2020 place: QCL, ICReDD, Japan
- class esta.grrmBag.search_structure3.strInfo#
Bases:
object
class to just print the str information etc. Iit takes as input information of strs from struct class.
- get_str_info(filenames, atoms_info, dist_criteria, atoms_info_unwanted=None, dist_criteria_unwanted=None)#
get information of all possible atomic strs with input constraints
filenames: list of all xyz files atoms_info: list of index of pair of atoms (atoms numbering starting from
1; like the vesta reads and assigns the atom numbers)
dist_criteria: list of distances for each pair of atoms
atoms_info_unwanted: strs with following dist criteria are not needed
- dist_criteria_unwanted: strs with this critea are not needed
((unwanted means dist = or > is needed )
3 output files named: 1) “data.dat” : all strs with distances between atom pairs 2) “dat0.dat” : contain possible xyz str with given distance constrains 3) “str_id_info” : contained id of xyz files; can be used to view the atomic
strs using vesta or other visualization tool
- get_str_info1(filename, atoms_info, dist_criteria, atoms_info_unwanted=None, dist_criteria_unwanted=None)#
get information of all possible atomic strs with input constraints
- Parameters
filename (str) – file containing all the xyz files
atoms_info (list) – list of index of pair of atoms (atoms numbering starting from 1; like the vesta reads and assigns the atom numbers)
dist_criteria (list) – list of distances for each pair of atoms
atoms_info_unwanted (strs) – strs with following dist criteria are not needed
dist_criteria_unwanted (strs) – strs with this critea are not needed ((unwanted means dist = or > is needed )
- Returns
data.dat : all strs with distances between atom pairs dat0.dat : contain possible xyz str with given distance constrains str_id_info : contained id of xyz files; can be used to view the atomic
strs using vesta or other visualization tool
- Return type
3 output files
- class esta.grrmBag.search_structure3.struct#
Bases:
object
struct class for getting the possible strs with some contraints on atoms locations
- get_str(xyzfile_obj, xyz_file, atoms_list, threshold=None, atoms_list_unwanted=None, threshold_unwanted=None, **kwarg)#
get xyz files with constrains mentioned …..
xyzobj: xyz data object atoms_list: a list of atleast 2 atoms; e.g. [1,10], or [[1,4], [6,8]] x lfind: threshold: list of scalars depending on list of atoms, scalars are
distance between atoms in angstrom; if one value given then all atoms pairs have same threshold
atoms_list_unwanted: same as atoms_list, but these are not wanted in search sts threshold_unwanted: same as threshold, but atoms with these distances or more
are needed in the final xyz str
only xyz files with specific constrains
- read_xyz(xyzfile)#
filename, str, filename xyz file name
atomic positions: array: rank 2 array of shape (natoms, 3) atomic labels: list/array of strings: rank 1 array of atomic labels no of atoms: scalar
esta.grrmBag.to_location module#
mv all data files of spectic extensions to newly created directory
esta.grrmBag.to_location_adv module#
mv all data files of spectic extensions to newly created directory
esta.grrmBag.write_xyz module#
- esta.grrmBag.write_xyz.get_all_xyz_file(pos, label, prefix_ofile=None, comment=None)#
get all xyz file given atomic positions and atomic labels:
- Returns
write data in xyz file specified by name prefix_ofile
- Return type
outfile
- esta.grrmBag.write_xyz.get_all_xyz_in_a_file(pos, label, energy=None, prefix_ofile=None, comment=None, reverse=None)#
get all xyz files in a single file …
- Parameters
pos (rank 2 array) – arry of atomic positions, shape(natoms, 3)
label (list of strings) – list of string containing atomic symbols
energy (array) – array of energies of all atomic strs
prefix_ofile ((optional) string) – string for prefixing the name of the output file
comment ((optional) logical) – logical (True/False) for adding commnet in commnet line of the xyz file
reverse ((optional) logical) – logical for printing the path in reverse order
- Returns
outfile – write data in a single xyz file specified by name outfile here outfile = prefix+”_”+’all_’+’.xyz’
- Return type
str
esta.grrmBag.x module#
grrm class to extract the xyz file/files from the GRRM17 log file
- class esta.grrmBag.x.grrm(filename)#
Bases:
object
gauss class to extract the xyz file/files from the GRRM17 log file
- get_all_atomic_positions_from_EQ_list()#
get xyz files: atomic positions and atomic labels from “*_EQ_list.log” file of GRRM17
- get_all_xyz_file()#
get all xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile
- get_atomic_positions()#
get atomic positiions and atomic labels from *_P[0-nproc].log file of GRRM17
- get_xyz_file()#
get xyz file by reading the atomic positions and atomic labels:
- Returns
write data in xyz file specified by name outfile
- Return type
outfile