def plotEn(basename):
filelist = getIntFileSlices(basename)
print(filelist)
axLab = 'Energy (J)'
ens = np.zeros(len(filelist))
zData = np.zeros(len(filelist))
fcount = 0
for ij in filelist:
ens[fcount] = getEnFromInt(ij, qScale = 0)
zData[fcount] = getZData(ij)
fcount += 1
ax1 = plt.subplot(111)
plt.semilogy(zData, ens)
plt.xlabel(r'$z (m)$')
plt.ylabel(axLab)
ax1.set_title('Energy')
opname = basename + "-Energy.png"
plt.savefig(opname)
def plotPowVsZ(basename, cfr=None, dfr=None):
filelist = getFileSlices(basename)
print filelist
mdata = fdata(filelist[0])
sampleFreq = 1.0 / mdata.vars.dz2
lenz2 = (mdata.vars.nz2 - 1) * mdata.vars.dz2
z2axis = (np.arange(0, mdata.vars.nz2)) * mdata.vars.dz2
xaxis = (np.arange(0, mdata.vars.nx)) * mdata.vars.dxbar
yaxis = (np.arange(0, mdata.vars.ny)) * mdata.vars.dybar
fcount = 0
pows = np.zeros(len(filelist))
zData = np.zeros(len(filelist))
if (mdata.vars.iMesh == iPeriodic):
gAv = 1 # for average...
else:
gAv = 2 # for peak...
for ij in filelist:
pows[fcount] = getPow(ij, cfr, dfr, irtype=gAv, qScale=0)
zData[fcount] = getZData(ij)
fcount += 1
# plotLab = 'SI Power'
# axLab = 'Power (W)'
if (mdata.vars.iMesh == iPeriodic):
plotLab = 'Power'
axLab = 'Power (W)'
else:
plotLab = 'Peak Power'
axLab = 'Power (W)'
ax1 = plt.subplot(111)
plt.semilogy(zData, pows, label=plotLab)
#ax1.set_title(axLab)
plt.xlabel('z (m)')
plt.ylabel(axLab)
#plt.legend()
if ((cfr == None) or (dfr == None)):
opname = basename + "-unfiltered-power.png"
else:
opname = basename + "-filt-" + str(cfr) + "-" + str(dfr) + "-power.png"
plt.savefig(opname)
def plotPowVsZ(basename):
filelist = getIntFileSlices(basename)
print filelist
mdata = fdata(filelist[0])
sampleFreq = 1.0 / mdata.vars.dz2
lenz2 = (mdata.vars.nz2 - 1) * mdata.vars.dz2
z2axis = (np.arange(0, mdata.vars.nz2)) * mdata.vars.dz2
xaxis = (np.arange(0, mdata.vars.nx)) * mdata.vars.dxbar
yaxis = (np.arange(0, mdata.vars.ny)) * mdata.vars.dybar
fcount = 0
pows = np.zeros(len(filelist))
zData = np.zeros(len(filelist))
if (mdata.vars.iMesh == iPeriodic):
gAv = iav # for average...
plotLab = 'Power'
axLab = 'Power (W)'
else:
gAv = ipeak # for peak...
plotLab = 'Peak Power'
axLab = 'Power (W)'
for ij in filelist:
pows[fcount] = getPowFromInt(ij, irtype=gAv, qScale=0)
zData[fcount] = getZData(ij)
fcount += 1
ax1 = plt.subplot(111)
plt.semilogy(zData, pows, label=plotLab)
#ax1.set_title(axLab)
plt.xlabel('z (m)')
plt.ylabel(axLab)
#plt.legend()
opname = basename + "-unfiltered-power.png"
plt.savefig(opname)
# plt.show()
outfilename = 'powers.h5'
h5o = tables.open_file(outfilename, 'w')
h5o.create_array('/', 'power_SI', pows)
h5o.create_array('/', 'z_SI', zData)
h5o.close()
def plotEn(basename):
filelist = getIntFileSlices(basename)
print filelist
mdata = fdata(filelist[0])
sampleFreq = 1.0 / mdata.vars.dz2
lenz2 = (mdata.vars.nz2 - 1) * mdata.vars.dz2
z2axis = (np.arange(0, mdata.vars.nz2)) * mdata.vars.dz2
saxis = z2axis * mdata.vars.lc * 1e6
xaxis = (np.arange(0, mdata.vars.nx)) * mdata.vars.dxbar
yaxis = (np.arange(0, mdata.vars.ny)) * mdata.vars.dybar
z = mdata.vars.z
gAv = iav # for average...
plotLab = 'Energy'
axLab = 'Energy (J)'
ens = np.zeros(len(filelist))
zData = np.zeros(len(filelist))
fcount = 0
for ij in filelist:
ens[fcount] = getEnFromInt(ij, qScale=0)
zData[fcount] = getZData(ij)
fcount += 1
ax1 = plt.subplot(111)
plt.semilogy(zData, ens)
plt.xlabel(r'$z (m)$')
plt.ylabel(axLab)
ax1.set_title('Energy')
#plt.legend()
opname = basename + "-Energy.png"
plt.savefig(opname)
def plotPowVsZ(basename):
filelist = getIntFileSlices(basename)
print(filelist)
mdata = fdata(filelist[0])
fcount = 0
pows = np.zeros(len(filelist))
zData = np.zeros(len(filelist))
if (mdata.vars.iMesh == iPeriodic):
gAv = iav # for average...
plotLab = 'Power'
axLab = 'Power (W)'
else:
gAv = ipeak # for peak...
plotLab = 'Peak Power'
axLab = 'Power (W)'
for ij in filelist:
pows[fcount] = getPowFromInt(ij, irtype = gAv, qScale = 0)
zData[fcount] = getZData(ij)
fcount += 1
plt.semilogy(zData, pows, label=plotLab)
plt.xlabel('z (m)')
plt.ylabel(axLab)
opname = basename + "-unfiltered-power.png"
plt.savefig(opname)
outfilename = 'powers.h5'
h5o = tables.open_file(outfilename,'w')
h5o.create_array('/','power_SI',pows)
h5o.create_array('/','z_SI',zData)
h5o.close()
def plotPowZZ2(basename, cfr=None, dfr=None):
filelist = getFileSlices(basename)
print(filelist)
mdata = fdata(filelist[0])
sampleFreq = 1.0 / mdata.vars.dz2
lenz2 = (mdata.vars.nz2 - 1) * mdata.vars.dz2
z2axis = (np.arange(
0, mdata.vars.nz2)) * mdata.vars.dz2 * mdata.vars.lc * 1.e6
xaxis = (np.arange(0, mdata.vars.nx)) * mdata.vars.dxbar
yaxis = (np.arange(0, mdata.vars.ny)) * mdata.vars.dybar
fcount = 0
pows = np.zeros(len(filelist))
zData = np.zeros(len(filelist))
# if (mdata.vars.iMesh == iPeriodic):
# gAv = 1 # for average...
# else:
# gAv = 2 # for peak...
gAv = 3 # for cycle averaged
pows = np.ones([len(filelist), mdata.vars.nz2])
powsN = np.ones([len(filelist), mdata.vars.nz2])
for ij in filelist:
pows[-1 - fcount, :] = getPow(ij, cfr, dfr, irtype=gAv, qScale=0)
mv = np.max(pows[-1 - fcount, :])
if (mv != 0.):
powsN[-1 - fcount, :] = pows[-1 - fcount, :] / np.max(
pows[-1 - fcount, :])
else:
powsN[-1 - fcount, :] = 0.
zData[fcount] = getZData(ij)
fcount += 1
# print fcount
# plotLab = 'SI Power'
# axLab = 'Power (W)'
# if (mdata.vars.iMesh == iPeriodic):
# plotLab = 'SI Power'
# axLab = 'Power (W)'
# else:
# plotLab = 'SI Peak Power'
axLab = 'Power (W)'
ax1 = plt.subplot(111)
im = plt.imshow(powsN, aspect='auto', interpolation='bilinear', \
extent=[z2axis[0], z2axis[-1], zData[0], zData[-1]])
ax1.set_title('Power')
plt.xlabel(r'$ct-z (\mu m)$')
plt.ylabel('z (m)')
cb = plt.colorbar(im)
plt.tight_layout()
#plt.legend()
if ((cfr == None) or (dfr == None)):
opname = basename + "-powerALL.png"
else:
opname = basename + "-filt-" + str(cfr) + "-" + str(
dfr) + "-powerALL.png"
plt.savefig(opname)
