def plot_sf(sff_fn='temp.sff',pmargin=0.1):
"""
Arguments
=========
sff_fn = 'temp.sff'
pmargin = 0.1
"""
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib
wf = mpl_lib.wide_fig
sff_converter.main(fn=sff_fn,difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, IG = read_IGSF(fn=sff_fn,fn_str='STR_STR.OUT')
tdat,_psis_,_vdat_,_ngrd_ = reader4(
fn='int_els_ph1.out',ndetector=2,iopt=1)
## sorting
import MP.ssort as sort
shsort = sort.shellSort
ss = sort.ind_swap
## sort psi and find ind
psis, ind = shsort(_psis_)
nstp, nphi, npsis = np.shape(_vdat_)
vdat = np.zeros((nstp,nphi,npsis))
ngrd = np.zeros((nstp,nphi,npsis))
for istp in range(nstp):
for iphi in range(nphi):
dum_v = _vdat_[istp,iphi,:][::]
vdat[istp,iphi,:] = ss(dum_v[::],ind)[::]
dum_n = _ngrd_[istp,iphi,:][::]
ngrd[istp,iphi,:] = ss(dum_n[::],ind)[::]
SF.mask_vol() ## shake off all zero values
SF.add_vf(vdat)
## Mask data lacking sufficient volume
SF.mask_vol(pmargin=pmargin)
fig=wf(nw=1,nh=1)
ax=fig.axes[0]
for istp in range(nstp):
sign_sin2psi = np.sign(SF.psi)*np.sin(SF.psi*np.pi/180.)**2
ax.plot(sign_sin2psi,SF.vf[istp,0,:],'--')
SF.plot(nbin_sin2psi=3,iopt=1)
return SF,tdat,psis,vdat,ngrd
def plot_sf(sff_fn='temp.sff',pmargin=0.1):
"""
Arguments
=========
sff_fn = 'temp.sff'
pmargin = 0.1
"""
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib
wf = mpl_lib.wide_fig
sff_converter.main(fn=sff_fn,difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, IG = read_IGSF(fn=sff_fn,fn_str='STR_STR.OUT')
tdat,_psis_,_vdat_,_ngrd_ = reader4(
fn='int_els_ph1.out',ndetector=2,iopt=1)
## sorting
import MP.ssort as sort
shsort = sort.shellSort
ss = sort.ind_swap
## sort psi and find ind
psis, ind = shsort(_psis_)
nstp, nphi, npsis = np.shape(_vdat_)
vdat = np.zeros((nstp,nphi,npsis))
ngrd = np.zeros((nstp,nphi,npsis))
for istp in xrange(nstp):
for iphi in xrange(nphi):
dum_v = _vdat_[istp,iphi,:][::]
vdat[istp,iphi,:] = ss(dum_v[::],ind)[::]
dum_n = _ngrd_[istp,iphi,:][::]
ngrd[istp,iphi,:] = ss(dum_n[::],ind)[::]
SF.mask_vol() ## shake off all zero values
SF.add_vf(vdat)
## Mask data lacking sufficient volume
SF.mask_vol(pmargin=pmargin)
fig=wf(nw=1,nh=1)
ax=fig.axes[0]
for istp in xrange(nstp):
sign_sin2psi = np.sign(SF.psi)*np.sin(SF.psi*np.pi/180.)**2
ax.plot(sign_sin2psi,SF.vf[istp,0,:],'--')
SF.plot(nbin_sin2psi=3,iopt=1)
return SF,tdat,psis,vdat,ngrd
def test_ig(sff_fn='dum.sff'):
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib
wf = mpl_lib.wide_fig
sff_converter.main(fn=sff_fn,difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, IG = read_IGSF(fn=sff_fn,fn_str='STR_STR.OUT')
IG.plot()
def test_ig(sff_fn='dum.sff'):
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib
wf = mpl_lib.wide_fig
sff_converter.main(fn=sff_fn,difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, IG = read_IGSF(fn=sff_fn,fn_str='STR_STR.OUT')
IG.plot()
def compare_exp_mod(ntot_psi=21):
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib
from MP.mat.mech import FlowCurve as FC
wf = mpl_lib.wide_fig
sff_converter.main(fn='temp.sff',difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, dum = read_IGSF(fn='temp.sff',fn_str='STR_STR.OUT')
SF.reduce_psi(bounds=[0.,0.5],ntot_psi=ntot_psi)
SF.mask_vol()
SF.plot(ylim=[-2,2])
## biaxial
flow = FC()
exx = open('YJ_Bsteel_BB.sff','r').read().split('\n')[4].split()[1:]
exx = np.array(exx,dtype='float'); eyy = exx[::]; ezz = -(exx+eyy)
flow.epsilon_vm = abs(ezz)
flow.nstp = len(ezz)
SF, dum = read_IGSF(fn='YJ_Bsteel_BB.sff',fc=flow)
SF.plot(mxnphi=3,ylim=[-2,2])
def compare_exp_mod(ntot_psi=21):
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib
from MP.mat.mech import FlowCurve as FC
wf = mpl_lib.wide_fig
sff_converter.main(fn='temp.sff',difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, dum = read_IGSF(fn='temp.sff',fn_str='STR_STR.OUT')
SF.reduce_psi(bounds=[0.,0.5],ntot_psi=ntot_psi)
SF.mask_vol()
SF.plot(ylim=[-2,2])
## biaxial
flow = FC()
exx = open('YJ_Bsteel_BB.sff','r').read().split('\n')[4].split()[1:]
exx = np.array(exx,dtype='float'); eyy = exx[::]; ezz = -(exx+eyy)
flow.epsilon_vm = abs(ezz)
flow.nstp = len(ezz)
SF, dum = read_IGSF(fn='YJ_Bsteel_BB.sff',fc=flow)
SF.plot(mxnphi=3,ylim=[-2,2])
def plot_sf_psis(
sff_fn='temp.sff',
psi_ref=[45.0, 42.4, 39.8, 37.1, 34.3, 31.5,
28.5, 25.2, 21.7, 17.5, 12.3, 0]):
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib, axes_label
from RS.rs import find_nearest
deco = axes_label.__deco__
wf = mpl_lib.wide_fig
sff_converter.main(fn=sff_fn,difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, IG = read_IGSF(fn=sff_fn,fn_str='STR_STR.OUT')
tdat,_psis_,_vdat_,_ngrd_ = reader4(
fn='int_els_ph1.out',ndetector=2,iopt=1)
## sorting
import MP.ssort as sort
shsort = sort.shellSort
ss = sort.ind_swap
## sort psi and find ind
psis, ind = shsort(_psis_)
nstp, nphi, npsis = np.shape(_vdat_)
vdat = np.zeros((nstp,nphi,npsis))
ngrd = np.zeros((nstp,nphi,npsis))
for istp in range(nstp):
for iphi in range(nphi):
dum_v = _vdat_[istp,iphi,:][::]
vdat[istp,iphi,:] = ss(dum_v[::],ind)[::]
dum_n = _ngrd_[istp,iphi,:][::]
ngrd[istp,iphi,:] = ss(dum_n[::],ind)[::]
## Find only psi_ref values
## sin2psi_ref = np.sin(psi_ref*np.pi/180.)**2
inds = []
for i in range(len(psi_ref)):
inds.append(find_nearest(SF.psi, psi_ref[i]))
#SF.mask_vol() ## shake off all zero values
fig=wf(nh=nphi,nw=len(psi_ref),iarange=True)
figv=wf(nh=nphi,nw=len(psi_ref),iarange=True)
fe0=wf(nh=nphi,nw=len(psi_ref),iarange=True)
for iphi in range(nphi):
for ipsi in range(len(psi_ref)):
#ax = fig.axes[iphi+nphi*ipsi]
ax = fig.axes[ipsi+len(psi_ref)*iphi]
axt = figv.axes[ipsi+len(psi_ref)*iphi]
aig = fe0.axes[ipsi+len(psi_ref)*iphi]
if iphi==0:
ax.set_title(
r'$\psi= %3.1f^\circ{}$'%\
SF.psi[inds[ipsi]]
)
axt.set_title(
r'$\psi= %3.1f^\circ{}$'%\
SF.psi[inds[ipsi]]
)
aig.set_title(
r'$\psi= %3.1f^\circ{}$'%\
SF.psi[inds[ipsi]]
)
if ipsi==0:
ax.text(0,0,r'$\phi=%3.1f^\circ{}$'%\
SF.phi[iphi],transform=ax.transAxes)
axt.text(0,0,r'$\phi=%3.1f^\circ{}$'%\
SF.phi[iphi],transform=axt.transAxes)
aig.text(0,0,r'$\phi=%3.1f^\circ{}$'%\
SF.phi[iphi],transform=aig.transAxes)
deco(ax,iopt=6)
deco(axt,iopt=7)
x = SF.flow.epsilon_vm
y = SF.sf[:,iphi,inds[ipsi],0] # f11
ig = IG.ig[:,iphi,inds[ipsi]]
v = vdat[:,iphi,inds[ipsi]]
ax.plot(x,y*1e12,'b-o')
aig.plot(x,ig,'b-o')
axt.plot(x,v,'r-x')
axt.set_ylim(0.,0.10)
ax.set_xlim(0.,1.0)
aig.set_xlim(0.,1.0)
aig.set_ylim(-0.002,0.002)
def plot_sf_psis(
sff_fn='temp.sff',
psi_ref=[45.0, 42.4, 39.8, 37.1, 34.3, 31.5,
28.5, 25.2, 21.7, 17.5, 12.3, 0]):
import numpy as np
import matplotlib.pyplot as plt
from pepshkl import reader4
from RS import sff_converter
from rs_exp import read_IGSF
from MP.lib import mpl_lib, axes_label
from RS.rs import find_nearest
deco = axes_label.__deco__
wf = mpl_lib.wide_fig
sff_converter.main(fn=sff_fn,difile=None,itab=True,
ieps0=4, fn_str='STR_STR.OUT')
SF, IG = read_IGSF(fn=sff_fn,fn_str='STR_STR.OUT')
tdat,_psis_,_vdat_,_ngrd_ = reader4(
fn='int_els_ph1.out',ndetector=2,iopt=1)
## sorting
import MP.ssort as sort
shsort = sort.shellSort
ss = sort.ind_swap
## sort psi and find ind
psis, ind = shsort(_psis_)
nstp, nphi, npsis = np.shape(_vdat_)
vdat = np.zeros((nstp,nphi,npsis))
ngrd = np.zeros((nstp,nphi,npsis))
for istp in xrange(nstp):
for iphi in xrange(nphi):
dum_v = _vdat_[istp,iphi,:][::]
vdat[istp,iphi,:] = ss(dum_v[::],ind)[::]
dum_n = _ngrd_[istp,iphi,:][::]
ngrd[istp,iphi,:] = ss(dum_n[::],ind)[::]
## Find only psi_ref values
## sin2psi_ref = np.sin(psi_ref*np.pi/180.)**2
inds = []
for i in xrange(len(psi_ref)):
inds.append(find_nearest(SF.psi, psi_ref[i]))
#SF.mask_vol() ## shake off all zero values
fig=wf(nh=nphi,nw=len(psi_ref),iarange=True)
figv=wf(nh=nphi,nw=len(psi_ref),iarange=True)
fe0=wf(nh=nphi,nw=len(psi_ref),iarange=True)
for iphi in xrange(nphi):
for ipsi in xrange(len(psi_ref)):
#ax = fig.axes[iphi+nphi*ipsi]
ax = fig.axes[ipsi+len(psi_ref)*iphi]
axt = figv.axes[ipsi+len(psi_ref)*iphi]
aig = fe0.axes[ipsi+len(psi_ref)*iphi]
if iphi==0:
ax.set_title(
r'$\psi= %3.1f^\circ{}$'%\
SF.psi[inds[ipsi]]
)
axt.set_title(
r'$\psi= %3.1f^\circ{}$'%\
SF.psi[inds[ipsi]]
)
aig.set_title(
r'$\psi= %3.1f^\circ{}$'%\
SF.psi[inds[ipsi]]
)
if ipsi==0:
ax.text(0,0,r'$\phi=%3.1f^\circ{}$'%\
SF.phi[iphi],transform=ax.transAxes)
axt.text(0,0,r'$\phi=%3.1f^\circ{}$'%\
SF.phi[iphi],transform=axt.transAxes)
aig.text(0,0,r'$\phi=%3.1f^\circ{}$'%\
SF.phi[iphi],transform=aig.transAxes)
deco(ax,iopt=6)
deco(axt,iopt=7)
x = SF.flow.epsilon_vm
y = SF.sf[:,iphi,inds[ipsi],0] # f11
ig = IG.ig[:,iphi,inds[ipsi]]
v = vdat[:,iphi,inds[ipsi]]
ax.plot(x,y*1e12,'b-o')
aig.plot(x,ig,'b-o')
axt.plot(x,v,'r-x')
axt.set_ylim(0.,0.10)
ax.set_xlim(0.,1.0)
aig.set_xlim(0.,1.0)
aig.set_ylim(-0.002,0.002)