# Copyright (c) 2017 Commissariat à l'énergie atomique et aux énergies alternatives (CEA)
# Copyright (c) 2017 Centre national de la recherche scientifique (CNRS)
# Copyright (c) 2020 Simons Foundation
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You may obtain a copy of the License at
# https:#www.gnu.org/licenses/gpl-3.0.txt
#
# Authors: Michel Ferrero, Olivier Parcollet, Nils Wentzell
from . import plot_base
#---------------------------------------------------------------
# A list of plot functions for
#---------------------------------------------------------------
[docs]
def imfreq(self, opt_dict):
r"""
Plot protocol for GfImFreq objects.
Parameters
----------
opt_dict: dictionary
Can contain:
- mode: string, default None
Mode to plot the Green's function in:
-- 'R': real part only
-- 'I': imaginary part only
- x_window: tuple, default None
(xmin,xmax)
- name: str
name of the gf for the label and legend
"""
return plot_base.plot_base( self, opt_dict, r'$\omega_n$',
lambda x : r'%s$(i\omega_n)$'%x, [x.imag for x in list(self.mesh.values())] )
#----------------------------------------------------------------
[docs]
def imtime(self, opt_dict):
r"""
Plot protocol for GfImTime objects.
Parameters
----------
opt_dict: dictionary
Can contain:
- mode: string, default None
Mode to plot the Green's function in:
-- 'R': real part only
-- 'I': imaginary part only
- x_window: tuple, default None
(xmin,xmax)
- name: str
name of the gf for the label and legend
"""
return plot_base.plot_base( self, opt_dict, r'$\tau$', lambda x : r'%s$(\tau)$'%x, list(self.mesh.values()))
#----------------------------------------------------------------
[docs]
def legendre(self, opt_dict):
r"""
Plot protocol for GfLegendre objects.
Parameters
----------
opt_dict: dictionary
Can contain:
- mode: string, default None
Mode to plot the Green's function in:
-- 'R': real part only
-- 'I': imaginary part only
- x_window: tuple, default None
(xmin,xmax)
- name: str
name of the gf for the label and legend
"""
return plot_base.plot_base( self, opt_dict, r'$l_n$', lambda x : r'%s$(l_n)$'%x, list(self.mesh.values()))
#----------------------------------------------------------------
[docs]
def refreq(self, opt_dict):
r"""
Plot protocol for GfReFreq objects.
Parameters
----------
opt_dict: dictionary
Can contain:
- mode: string, default None
Mode to plot the Green's function in:
-- 'R': real part only
-- 'I': imaginary part only
-- 'S': spectral function
- x_window: tuple, default None
(xmin,xmax)
- name: str
name of the gf for the label and legend
"""
return plot_base.plot_base(self, opt_dict, r'$\omega$', lambda x : r'%s$(\omega)$'%x, list(self.mesh.values()), allow_spectral_mode = True)
#----------------------------------------------------------------
[docs]
def retime (self, opt_dict):
r"""
Plot protocol for GfReTime objects.
Parameters
----------
opt_dict: dictionary
Can contain:
- mode: string, default None
Mode to plot the Green's function in:
-- 'R': real part only
-- 'I': imaginary part only
- x_window: tuple, default None
(xmin,xmax)
- name: str
name of the gf for the label and legend
"""
return plot_base.plot_base(self, opt_dict, r'$\t$', lambda x : r'%s$(\t)$'%x, list(self.mesh.values()))