def etc_do(request):
if request.method == 'GET':
# import matplotlib.pyplot as plt
# import mpld3
# from mpld3 import plugins, utils
#
# plt.plot([3,1,4,1,5], 'ks-', mec='w', mew=5, ms=20)
# mpld3.save_html()
return HttpResponse("<html><body>It works!</body></html>")
elif request.method == 'POST':
outputofcalc = compute5(request)
tocheck = str(outputofcalc['outtext'])
if not tocheck:
outtextstring = "" #No warning.
else:
outtextstring = tocheck
# GET relevant data
vph = request.POST['vph']
queryvph = VPHSetup.objects.filter(pk=vph).values()
vph_val = queryvph[0]['name']
spec = request.POST['spectype']
queryspec = SpectralTemplate.objects.filter(pk=spec).values()
entry_spec_name = queryspec[0]['name']
if not tocheck:
x = outputofcalc['lamb']
y = outputofcalc['fc']
label1 = entry_spec_name
label2 = outputofcalc['mag_val']
label3 = outputofcalc['bandc_val']
x2 = x
y2 = outputofcalc['pframesn_psp_asp']
x2b = x2
y2b = outputofcalc['allframesn_psp_asp']
x2c = x2
y2c = outputofcalc['pframesn_psp_asp_all']
x2d = x2
y2d = outputofcalc['allframesn_psp_asp_all']
label2a = entry_spec_name
label2b = vph_val
label2c = outputofcalc['bandc_val']
else:
x = numpy.arange(1, 100, 1)
y = numpy.arange(1, 100, 1)
x2 = numpy.arange(1, 100, 1)
y2 = numpy.arange(1, 100, 1)
x2b = numpy.arange(1, 100, 1)
y2b = numpy.arange(1, 100, 1)
x2c = numpy.arange(1, 100, 1)
y2c = numpy.arange(1, 100, 1)
x2d = numpy.arange(1, 100, 1)
y2d = numpy.arange(1, 100, 1)
label1 = "none"
label2 = 20.0 # Float
label3 = "none"
label2a = "none"
label2b = "none"
label2c = "none"
# # CREATE TEMPORARY FILE
# temp = tempfile.NamedTemporaryFile(suffix=".png", prefix="temp", dir="etc/static/etc/tmp/", delete=False)
#
# graphic = plot_and_save(temp.name, x, y, label1, label2, label3)
# temp2 = tempfile.NamedTemporaryFile(suffix=".png", prefix="temp", dir="etc/static/etc/tmp/", delete=False)
# graphic2 = plot_and_save2(temp2.name, x2, y2, x2b, y2b, x2c, y2c, x2d, y2d, label2a, label2b, label2c)
#
# # RENAME FILE PATH
# dirname, basename = os.path.split(graphic)
# newpath = '/static/etc/tmp/'
# graphic = os.path.join(newpath, basename)
#
# dirname2, basename2 = os.path.split(graphic2)
# newpath2 = '/static/etc/tmp/'
# graphic2 = os.path.join(newpath2, basename2)
inputstring = '<br /><p>' + str(outputofcalc['texti']) + '</p>'
coutputstring = '<br /><p>' + str(outputofcalc['textoc']) + '</p>'
loutputstring = '<br /><p>' + str(outputofcalc['textol']) + '</p>'
figura = plot_and_save_new('', x, y, label1, label2, label3)
html = mpld3.fig_to_html(figura)
figura2 = plot_and_save2_new('', x2, y2, x2b, y2b, x2c, y2c, x2d, y2d, label2a, label2b, label2c)
html += mpld3.fig_to_html(figura2)
html = html.replace("None", "") # No se xq introduce string None
if not tocheck:
om_val_string = str(outputofcalc['om_val'])
bandc_val_string = str(outputofcalc['bandc_val'])
sourcet_val_string = str(outputofcalc['sourcet_val'])
mag_val_string = str(outputofcalc['mag_val'])
netflux_string = str(outputofcalc['netflux'])
size_val_string = str(outputofcalc['size_val'])
seeingx_string = str(outputofcalc['seeingx'])
fluxt_val_string = str(outputofcalc['fluxt_val'])
wline_val_string = str(outputofcalc['wline_val'])
fline_val_string = str(outputofcalc['fline_val'])
fwhmline_val_string = str(outputofcalc['fwhmline_val'])
vph_val_string = str(outputofcalc['vph_val'])
skycond_val_string = str(outputofcalc['skycond_val'])
moon_val_string = str(outputofcalc['moon_val'])
airmass_val_string = str(outputofcalc['airmass_val'])
seeing_zenith_string = str(outputofcalc['seeing_zenith'])
fsky_string = str(outputofcalc['fsky'])
numframe_val_string = str(outputofcalc['numframe_val'])
exptimepframe_val_string = str(outputofcalc['exptimepframe_val'])
exptime_val_string = str(outputofcalc['exptime_val'])
npdark_val_string = str(outputofcalc['npdark_val'])
nsbundles_val_string = str(outputofcalc['nsbundles_val'])
nfwhmline_val_string = str(outputofcalc['nfwhmline_val'])
cnfwhmline_val_string = str(outputofcalc['cnfwhmline_val'])
resolvedline_val_string = str(outputofcalc['resolvedline_val'])
bandsky_string = str(outputofcalc['bandsky'])
sourcespectrum_string = str(outputofcalc['sourcespectrum'])
lamb_string = str(outputofcalc['lamb'])
spect_val_string = str(outputofcalc['spect_val'])
fc_string = str(outputofcalc['fc'])
pframesn_psp_asp_string = str(outputofcalc['pframesn_psp_asp'])
allframesn_psp_asp_string = str(outputofcalc['pframesn_psp_asp'])
pframesn_psp_asp_all_string = str(outputofcalc['pframesn_psp_asp_all'])
allframesn_psp_asp_all_string = str(outputofcalc['allframesn_psp_asp_all'])
nfibres_string = str(outputofcalc['nfibres'])
nfib_string = str(outputofcalc['nfib'])
nfib1def_string = str(outputofcalc['nfib1def'])
sncont_p2sp_all_string = "{0:.2f}".format(float(outputofcalc['sncont_p2sp_all'])/2)
tsncont_p2sp_all_string = "{0:.2f}".format(float(outputofcalc['tsncont_p2sp_all'])/2)
sncont_pspfwhm_all_string = "{0:.2f}".format(float(outputofcalc['sncont_p2sp_all']))
tsncont_pspfwhm_all_string = "{0:.2f}".format(float(outputofcalc['tsncont_p2sp_all']))
sncont_1aa_all_string = "{0:.2f}".format(float(outputofcalc['sncont_1aa_all']))
tsncont_1aa_all_string = "{0:.2f}".format(float(outputofcalc['tsncont_1aa_all']))
sncont_band_all_string = str(outputofcalc['sncont_band_all'])
tsncont_band_all_string = str(outputofcalc['tsncont_band_all'])
sncont_p2sp_fibre_string = "{0:.2f}".format(float(outputofcalc['sncont_p2sp_fibre']))
tsncont_p2sp_fibre_string = "{0:.2f}".format(float(outputofcalc['tsncont_p2sp_fibre']))
sncont_1aa_fibre_string = "{0:.2f}".format(float(outputofcalc['sncont_1aa_fibre']))
tsncont_1aa_fibre_string = "{0:.2f}".format(float(outputofcalc['tsncont_1aa_fibre']))
sncont_band_fibre_string = str(outputofcalc['sncont_band_fibre'])
tsncont_band_fibre_string = str(outputofcalc['tsncont_band_fibre'])
sncont_p2sp_seeing_string = "{0:.2f}".format(float(outputofcalc['sncont_p2sp_seeing']))
tsncont_p2sp_seeing_string = "{0:.2f}".format(float(outputofcalc['tsncont_p2sp_seeing']))
sncont_1aa_seeing_string = "{0:.2f}".format(float(outputofcalc['sncont_1aa_seeing']))
tsncont_1aa_seeing_string = "{0:.2f}".format(float(outputofcalc['tsncont_1aa_seeing']))
sncont_band_seeing_string = "{0:.2f}".format(float(outputofcalc['sncont_band_seeing']))
tsncont_band_seeing_string = "{0:.2f}".format(float(outputofcalc['tsncont_band_seeing']))
sncont_p2sp_1_string = "{0:.2f}".format(float(outputofcalc['sncont_p2sp_1']))
tsncont_p2sp_1_string = "{0:.2f}".format(float(outputofcalc['tsncont_p2sp_1']))
sncont_1aa_1_string = "{0:.2f}".format(float(outputofcalc['sncont_1aa_1']))
tsncont_1aa_1_string = "{0:.2f}".format(float(outputofcalc['tsncont_1aa_1']))
sncont_band_1_string = "{0:.2f}".format(float(outputofcalc['sncont_band_1']))
tsncont_band_1_string = "{0:.2f}".format(float(outputofcalc['tsncont_band_1']))
sncont_psp_pspp_string = "{0:.2f}".format(float(outputofcalc['sncont_psp_pspp']))
tsncont_psp_pspp_string = "{0:.2f}".format(float(outputofcalc['tsncont_psp_pspp']))
sncont_psp_pspp2_string = "{0:.2f}".format(float(outputofcalc['sncont_psp_pspp']*2))
tsncont_psp_pspp2_string = "{0:.2f}".format(float(outputofcalc['tsncont_psp_pspp']*2))
lambdaeff_string = str(outputofcalc['lambdaeff'])
snline_all_string = "{0:.2f}".format(float(outputofcalc['snline_all']))
snline_fibre_string = "{0:.2f}".format(float(outputofcalc['snline_fibre']))
snline_pspp_string = "{0:.2f}".format(float(outputofcalc['snline_pspp']))
snline_1_aa_string = "{0:.2f}".format(float(outputofcalc['snline_1_aa']))
snline_seeing_string = str(outputofcalc['snline_seeing'])
snline_1_string = str(outputofcalc['snline_1'])
snline_spaxel_string = "{0:.2f}".format(float(outputofcalc['snline_spaxel']))
snline_fibre1aa_string = "{0:.2f}".format(float(outputofcalc['snline_fibre1aa']))
tablecoutstring = 'OUTPUT CONTINUUM SNR:'+\
'<br />(at lambda_c(VPH) = '+lambdaeff_string+' AA)'+\
'<table border=1>'+\
'<tr><th class="iconcolumn" scope="col"> </th><th scope="col" colspan="2">* SNR per fibre:</th><th scope="col"></th></tr>'+\
'<tr><th class="iconcolumn" scope="row"> </th><td class="perframecolumn">per frame</td><td class="allframecolumn">all frames</td><td></td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pdp.jpeg" /></td><td class="perframecolumn"> '+sncont_psp_pspp_string+' </td><td> '+tsncont_psp_pspp_string+'</td><td> per detector pixel</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pspp.jpeg" /></td><td class="perframecolumn"> '+sncont_psp_pspp2_string+' </td><td> '+tsncont_psp_pspp2_string+'</td><td> per spectral pixel</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pspfwhm.jpeg" /></td><td class="perframecolumn"> '+sncont_p2sp_fibre_string+' </td><td> '+tsncont_p2sp_fibre_string+'</td><td> per spectral FWHM (voxel)</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_peraa.jpeg" /></td><td class="perframecolumn"> '+sncont_1aa_fibre_string+' </td><td> '+tsncont_1aa_fibre_string+'</td><td> per AA</td></tr>'+\
'<tr class="rowheight"><td> </td></tr>'+\
'<tr><td class="iconcolumn"> </td><th scope="col" colspan="2">* SNR in total source area:</th><th>(number of fibers = '+nfibres_string+')</th></tr>'+\
'<tr><td class="iconcolumn"> </td><td class="perframecolumn">per frame</td><td class="allframecolumn">all frames</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pspp.jpeg" /></td><td> '+sncont_p2sp_all_string+' </td><td> '+tsncont_p2sp_all_string+'</td><td> per spectral pixel</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pspfwhm.jpeg" /></td><td> '+sncont_pspfwhm_all_string+' </td><td> '+tsncont_pspfwhm_all_string+'</td><td> per spectral FWHM</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_peraa.jpeg" /></td><td> '+sncont_1aa_all_string+' </td><td> '+tsncont_1aa_all_string+'</td><td> per AA</td></tr>'+\
'</table><br />'
if sourcet_val_string == 'E':
tablecoutstring = tablecoutstring+\
'<table border=1>'+\
'<tr><th class="iconcolumn" scope="col"> </td><th scope="col" colspan="2">* SNR in one seeing:</th><th scope="col"></th></tr>'+\
'<tr><th class="iconcolumn" scope="row"> </th><td class="perframecolumn">per frame</td><td class="allframecolumn">all frames</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pspfwhm.jpeg" /></td><td> '+sncont_p2sp_seeing_string+' </td><td> '+tsncont_p2sp_seeing_string+'</td><td> per spectral FWHM</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_peraa.jpeg" /></td><td> '+sncont_1aa_seeing_string+' </td><td> '+tsncont_1aa_seeing_string+'</td><td> per AA</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_collapsed.jpeg" /></td><td> '+sncont_band_seeing_string+' </td><td> '+tsncont_band_seeing_string+'</td><td> per collapsed spectrum (spaxel)</td></tr>'+\
'<tr class="rowheight"><td> </td></tr>'+\
'<tr><td class="iconcolumn"> </td><th scope="col" colspan="2">* SNR in one arcsec^2:</th><th></th></tr>'+\
'<tr><td class="iconcolumn"> </td><td class="perframecolumn">per frame</td><td class="allframecolumn">all frames</td><td></td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_pspfwhm.jpeg" /></td><td> '+sncont_p2sp_1_string+' </td><td> '+tsncont_p2sp_1_string+'</td><td> per spectral FWHM</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_peraa.jpeg" /></td><td> '+sncont_1aa_1_string+' </td><td> '+tsncont_1aa_1_string+'</td><td> per AA</td></tr>'+\
'<tr><td class="iconcolumn"><img class="iconsize" src="/static/etc/images/icon_collapsed.jpeg" /></td><td> '+sncont_band_1_string+' </td><td> '+tsncont_band_1_string+'</td><td> per collapsed spectrum (spaxel)</td></tr>'+\
'</table><br />'
tableloutstring = '<table border=1>'+\
'<tr><td>OUTPUT LINE SNR:</td><td></td></tr>'+\
'<tr><td>* SNR per arcsec per AA = </td><td>'+ snline_1_aa_string +'</td></tr>'+\
'<tr><td>* SNR in 1 fibre (in aperture) = </td><td>'+ snline_fibre_string +'</td></tr>'+\
'<tr><td>* SNR in 1 fibre (in 1 AA) = </td><td>'+ snline_fibre1aa_string +'</td></tr>'+\
'<tr><td>* SNR per voxel = </td><td>'+ snline_spaxel_string +'</td></tr>'+\
'<tr><td>* SNR per detector pixel = </td><td>'+ snline_pspp_string +'</td></tr>'+\
'<tr><td>* SNR total (in aperture) = </td><td>'+ snline_all_string +'</td></tr>'+\
'</table><br />'
tableinputstring = '<table border=1>'+\
'<tr><td>INPUT PARAMETERS:</td><td></td></tr>'+\
'<tr><td>Observing mode:</td><td>'+om_val_string+'</td></tr>'+\
'<tr><td>VPH:</td><td>'+vph_val_string+'</td></tr>'+\
'<tr><td>Source type:</td><td>'+sourcet_val_string+'</td></tr>'+\
'<tr><td>Continuum:</td><td>'+bandc_val_string+' = '+mag_val_string+'mag</td></tr>'+\
'<tr><td>Continuum flux:</td><td>'+netflux_string+' cgs</td></tr>'+\
'<tr><td>*Sky Condition:</td><td>'+skycond_val_string+'</td></tr>'+\
'<tr><td>Moon:</td><td>'+moon_val_string+'</td></tr>'+\
'<tr><td>Airmass: X=</td><td>'+airmass_val_string+'</td></tr>'+\
'<tr><td>Seeing(@X=1):</td><td>'+seeing_zenith_string+'</td></tr>'+\
'<tr><td>Sky-flux(R,@X):</td><td>'+fsky_string+' cgs</td></tr>'+\
'<tr><td>Seeing(@X):</td><td>'+seeingx_string+'</td></tr>'+\
'<tr><td>*Observation:</td></td><td></tr>'+\
'<tr><td>Number of frames:</td><td>'+numframe_val_string+'</td></tr>'+\
'<tr><td>Exptime per frame:</td><td>'+exptimepframe_val_string+' s</td></tr>'+\
'<tr><td>Total exptime:</td><td>'+exptime_val_string+' s</td></tr>'+\
'<tr><td>NP_Dark:</td><td>'+npdark_val_string+'</td></tr>'+\
'<tr><td>Sky-bundles:</td><td>'+nsbundles_val_string+'</td></tr>'+\
'</table><br />'
else:
tablecoutstring = ''
tableloutstring = ''
tableinputstring = ''
from django.http import JsonResponse
return JsonResponse({'outtext' : outtextstring,
'textinput' : inputstring,
'textcout' : coutputstring,
'textlout' : loutputstring,
'tablecout' : tablecoutstring,
'tablelout' : tableloutstring,
'tableinput' : tableinputstring,
'graphic' : html,
})
def etc_do(request):
if request.method == 'GET':
# import matplotlib.pyplot as plt
# import mpld3
# from mpld3 import plugins, utils
#
# plt.plot([3,1,4,1,5], 'ks-', mec='w', mew=5, ms=20)
# mpld3.save_html()
return HttpResponse("<html><body>It works!</body></html>")
elif request.method == 'POST':
outputofcalc = compute5(request)
tocheck = str(outputofcalc['outtext'])
if not tocheck:
outtextstring = "" #No warning.
else:
outtextstring = tocheck
# GET relevant data
vph = request.POST['vph']
queryvph = VPHSetup.objects.filter(pk=vph).values()
vph_val = queryvph[0]['name']
spec = request.POST['spectype']
queryspec = SpectralTemplate.objects.filter(pk=spec).values()
entry_spec_name = queryspec[0]['name']
if not tocheck:
x = outputofcalc['lamb']
y = outputofcalc['fc']
label1 = entry_spec_name
label2 = outputofcalc['mag_val']
label3 = outputofcalc['bandc_val']
x2 = outputofcalc['lamb']
y2 = outputofcalc['pframesn_psp_asp']
x2b = x2
y2b = outputofcalc['allframesn_psp_asp']
x2c = x2
y2c = outputofcalc['pframesn_psp_asp_all']
x2d = x2
y2d = outputofcalc['allframesn_psp_asp_all']
label2a = entry_spec_name
label2b = vph_val
label2c = outputofcalc['bandc_val']
else:
x = numpy.arange(1, 100, 1)
y = numpy.arange(1, 100, 1)
x2 = numpy.arange(1, 100, 1)
y2 = numpy.arange(1, 100, 1)
x2b = numpy.arange(1, 100, 1)
y2b = numpy.arange(1, 100, 1)
x2c = numpy.arange(1, 100, 1)
y2c = numpy.arange(1, 100, 1)
x2d = numpy.arange(1, 100, 1)
y2d = numpy.arange(1, 100, 1)
label1 = "none"
label2 = 20.0 # Float
label3 = "none"
label2a = "none"
label2b = "none"
label2c = "none"
# # CREATE TEMPORARY FILE
# temp = tempfile.NamedTemporaryFile(suffix=".png", prefix="temp", dir="etc/static/etc/tmp/", delete=False)
#
# graphic = plot_and_save(temp.name, x, y, label1, label2, label3)
# temp2 = tempfile.NamedTemporaryFile(suffix=".png", prefix="temp", dir="etc/static/etc/tmp/", delete=False)
# graphic2 = plot_and_save2(temp2.name, x2, y2, x2b, y2b, x2c, y2c, x2d, y2d, label2a, label2b, label2c)
#
# # RENAME FILE PATH
# dirname, basename = os.path.split(graphic)
# newpath = '/static/etc/tmp/'
# graphic = os.path.join(newpath, basename)
#
# dirname2, basename2 = os.path.split(graphic2)
# newpath2 = '/static/etc/tmp/'
# graphic2 = os.path.join(newpath2, basename2)
inputstring = '<br /><p>' + str(outputofcalc['texti']) + '</p>'
coutputstring = '<br /><p>' + str(outputofcalc['textoc']) + '</p>'
loutputstring = '<br /><p>' + str(outputofcalc['textol']) + '</p>'
figura = plot_and_save_new('', x, y, label1, label2, label3)
html = mpld3.fig_to_html(figura)
figura2 = plot_and_save2_new('', x2, y2, x2b, y2b, x2c, y2c, x2d, y2d,
label2a, label2b, label2c)
html += mpld3.fig_to_html(figura2)
html = html.replace("None", "") # No se xq introduce string None
from django.http import JsonResponse
return JsonResponse({
'outtext': outtextstring,
'textinput': inputstring,
'textcout': coutputstring,
'textlout': loutputstring,
'graphic': html,
})
def etc_do(request):
if request.method == 'GET':
# import matplotlib.pyplot as plt
# import mpld3
# from mpld3 import plugins, utils
#
# plt.plot([3,1,4,1,5], 'ks-', mec='w', mew=5, ms=20)
# mpld3.save_html()
return HttpResponse("<html><body>It works!</body></html>")
elif request.method == 'POST':
outputofcalc = compute5(request)
tocheck = str(outputofcalc['outtext'])
if not tocheck:
outtextstring = "" #No warning.
else:
outtextstring = tocheck
# GET relevant data
vph = request.POST['vph']
queryvph = VPHSetup.objects.filter(pk=vph).values()
vph_val = queryvph[0]['name']
spec = request.POST['spectype']
queryspec = SpectralTemplate.objects.filter(pk=spec).values()
entry_spec_name = queryspec[0]['name']
if not tocheck:
x = outputofcalc['lamb']
y = outputofcalc['fc']
label1 = entry_spec_name
label2 = outputofcalc['mag_val']
label3 = outputofcalc['bandc_val']
x2 = outputofcalc['lamb']
y2 = outputofcalc['pframesn_psp_asp']
x2b = x2
y2b = outputofcalc['allframesn_psp_asp']
x2c = x2
y2c = outputofcalc['pframesn_psp_asp_all']
x2d = x2
y2d = outputofcalc['allframesn_psp_asp_all']
label2a = entry_spec_name
label2b = vph_val
label2c = outputofcalc['bandc_val']
else:
x = numpy.arange(1, 100, 1)
y = numpy.arange(1, 100, 1)
x2 = numpy.arange(1, 100, 1)
y2 = numpy.arange(1, 100, 1)
x2b = numpy.arange(1, 100, 1)
y2b = numpy.arange(1, 100, 1)
x2c = numpy.arange(1, 100, 1)
y2c = numpy.arange(1, 100, 1)
x2d = numpy.arange(1, 100, 1)
y2d = numpy.arange(1, 100, 1)
label1 = "none"
label2 = 20.0 # Float
label3 = "none"
label2a = "none"
label2b = "none"
label2c = "none"
# # CREATE TEMPORARY FILE
# temp = tempfile.NamedTemporaryFile(suffix=".png", prefix="temp", dir="etc/static/etc/tmp/", delete=False)
#
# graphic = plot_and_save(temp.name, x, y, label1, label2, label3)
# temp2 = tempfile.NamedTemporaryFile(suffix=".png", prefix="temp", dir="etc/static/etc/tmp/", delete=False)
# graphic2 = plot_and_save2(temp2.name, x2, y2, x2b, y2b, x2c, y2c, x2d, y2d, label2a, label2b, label2c)
#
# # RENAME FILE PATH
# dirname, basename = os.path.split(graphic)
# newpath = '/static/etc/tmp/'
# graphic = os.path.join(newpath, basename)
#
# dirname2, basename2 = os.path.split(graphic2)
# newpath2 = '/static/etc/tmp/'
# graphic2 = os.path.join(newpath2, basename2)
inputstring = '<br /><p>' + str(outputofcalc['texti']) + '</p>'
coutputstring = '<br /><p>' + str(outputofcalc['textoc']) + '</p>'
loutputstring = '<br /><p>' + str(outputofcalc['textol']) + '</p>'
figura = plot_and_save_new('', x, y, label1, label2, label3)
html = mpld3.fig_to_html(figura)
figura2 = plot_and_save2_new('', x2, y2, x2b, y2b, x2c, y2c, x2d, y2d, label2a, label2b, label2c)
html += mpld3.fig_to_html(figura2)
html = html.replace("None", "") # No se xq introduce string None
from django.http import JsonResponse
return JsonResponse({'outtext' : outtextstring,
'textinput' : inputstring,
'textcout' : coutputstring,
'textlout' : loutputstring,
'graphic' : html,
})