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load_crust.py
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164 lines (130 loc) · 5.87 KB
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"""
-------------------------------------------------------------------
Copyright (C) 2015-2022, Andrew W. Steiner
This neutron star plot 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 neutron star plot 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 should have received a copy of the GNU General Public License
along with this neutron star plot. If not, see
<http://www.gnu.org/licenses/>.
-------------------------------------------------------------------
"""
import o2sclpy
import numpy
class load_crust:
# Crust data
w_nn=[]
r_nn=[]
w_nnuc=[]
r_nnuc=[]
Rn_nnuc=[]
A_nnuc=[]
nb_nnuc=[]
w_nnuc_outer=[]
r_nnuc_outer=[]
Rn_nnuc_outer=[]
A_nnuc_outer=[]
nb_nnuc_outer=[]
rho_108=0
rho_109=0
rho_110=0
rho_111=0
rho_112=0
rho_113=0
rho_114=0
rho_115=0
rho_116=0
rho_117=0
# o2scl dll
link=0
def load(self):
hf=o2sclpy.hdf_file(self.link)
# Read inner crust data for neutrons
if len(self.w_nn)==0:
hf.open('inner_nn.o2')
name=o2sclpy.std_string(self.link)
name.init_bytes(b'inner_nn')
nn_tab=o2sclpy.table(self.link)
o2sclpy.hdf_input_n_table(self.link,hf,nn_tab,name)
hf.close()
self.w_nn=[nn_tab['w'][i] for i in range(0,100000)]
self.r_nn=[nn_tab['r'][i] for i in range(0,100000)]
#self.w_nn=self.w_nn[:100000]
#self.r_nn=self.r_nn[:100000]
print('Loaded',len(self.w_nn),'nucleons.')
# Read inner crust data for nuclei
if len(self.w_nnuc)==0:
hf.open('inner_nnuc.o2')
name.init_bytes(b'inner_nnuc')
nnuc_tab=o2sclpy.table(self.link)
o2sclpy.hdf_input_n_table(self.link,hf,nnuc_tab,name)
hf.close()
nt=nnuc_tab.get_nlines()
print('nt',nt)
self.w_nnuc=[nnuc_tab['w'] for i in range(0,nt)]
self.r_nnuc=[nnuc_tab['r'] for i in range(0,nt)]
self.Rn_nnuc=[nnuc_tab['Rn'] for i in range(0,nt)]
self.A_nnuc=[nnuc_tab['A'] for i in range(0,nt)]
self.nb_nnuc=[nnuc_tab['nb'] for i in range(0,nt)]
#self.w_nnuc=self.w_nnuc[:nt]
#self.r_nnuc=self.r_nnuc[:nt]
#self.Rn_nnuc=self.Rn_nnuc[:nt]
#self.A_nnuc=self.A_nnuc[:nt]
#self.nb_nnuc=self.nb_nnuc[:nt]
nb_nnuc_temp=[abs(self.r_nnuc[i]-10.8)
for i in range(0,len(self.r_nnuc))]
self.rho_108=self.nb_nnuc[numpy.argmin(nb_nnuc_temp)]*2.8e14/0.16
nb_nnuc_temp=[abs(self.r_nnuc[i]-10.9)
for i in range(0,len(self.r_nnuc))]
self.rho_109=self.nb_nnuc[numpy.argmin(nb_nnuc_temp)]*2.8e14/0.16
nb_nnuc_temp=[abs(self.r_nnuc[i]-11.0)
for i in range(0,len(self.r_nnuc))]
self.rho_110=self.nb_nnuc[numpy.argmin(nb_nnuc_temp)]*2.8e14/0.16
nb_nnuc_temp=[abs(self.r_nnuc[i]-11.1)
for i in range(0,len(self.r_nnuc))]
self.rho_111=self.nb_nnuc[numpy.argmin(nb_nnuc_temp)]*2.8e14/0.16
nb_nnuc_temp=[abs(self.r_nnuc[i]-11.2)
for i in range(0,len(self.r_nnuc))]
self.rho_112=self.nb_nnuc[numpy.argmin(nb_nnuc_temp)]*2.8e14/0.16
nb_nnuc_temp=[abs(self.r_nnuc[i]-11.3)
for i in range(0,len(self.r_nnuc))]
self.rho_113=self.nb_nnuc[numpy.argmin(nb_nnuc_temp)]*2.8e14/0.16
print('Loaded',len(self.w_nnuc),
'nuclei for inner crust.')
# Read outer crust data for nuclei
if len(self.w_nnuc_outer)==0:
hf.open('outer_nnuc.o2')
name.init_bytes(b'outer_nnuc')
nnuc_tab_outer=o2sclpy.table(self.link)
o2sclpy.hdf_input_n_table(self.link,hf,nnuc_tab_outer,name)
hf.close()
nt=nnuc_tab_outer.get_nlines()
print('nt2',nt)
self.w_nnuc_outer=[nnuc_tab_outer['w'][i] for i in range(0,nt)]
self.r_nnuc_outer=[nnuc_tab_outer['r'][i] for i in range(0,nt)]
self.Rn_nnuc_outer=[nnuc_tab_outer['Rn'][i] for i in range(0,nt)]
self.A_nnuc_outer=[nnuc_tab_outer['A'][i] for i in range(0,nt)]
self.nb_nnuc_outer=[nnuc_tab_outer['nb'][i] for i in range(0,nt)]
nb_nnuc_temp=[abs(self.r_nnuc_outer[i]-11.4)
for i in range(0,len(self.r_nnuc_outer))]
self.rho_114=(self.nb_nnuc_outer[numpy.argmin(nb_nnuc_temp)]*
2.8e14/0.16)
nb_nnuc_temp=[abs(self.r_nnuc_outer[i]-11.5)
for i in range(0,len(self.r_nnuc_outer))]
self.rho_115=(self.nb_nnuc_outer[numpy.argmin(nb_nnuc_temp)]*
2.8e14/0.16)
nb_nnuc_temp=[abs(self.r_nnuc_outer[i]-11.6)
for i in range(0,len(self.r_nnuc_outer))]
self.rho_116=(self.nb_nnuc_outer[numpy.argmin(nb_nnuc_temp)]*
2.8e14/0.16)
nb_nnuc_temp=[abs(self.r_nnuc_outer[i]-11.7)
for i in range(0,len(self.r_nnuc_outer))]
self.rho_117=(self.nb_nnuc_outer[numpy.argmin(nb_nnuc_temp)]*
2.8e14/0.16)
print('Loaded',len(self.w_nnuc_outer),
'nuclei for outer crust.')