sean/SConstruct

from rsf.proj import *

##################
# Input
##################
Fetch('sean.HH','bp')

def grey(title):
    return '''
    grey title="%s" label2=Trace label1="Time" unit1=s screenratio=1.5
    parallel2=n format2="%%3.1f" labelsz=6 titlesz=7.5 clip=675.48
    font=2 labelfat=2 titlefat=2 d2num=0.5 o2num=2 n2tic=4
    ''' % title

Flow('sean','sean.HH',
     'dd form=native | window n3=1 f3=3 n1=500 | bandpass fhi=50')
Result('sean',grey('Original'))

Flow('sean2','sean','window j2=2 | put d2=1')
Result('sean2',grey('Decimated'))

#Result('sean2','sean sean2','SideBySideAniso')
Flow('pad mask','sean2','lpad jump=2 mask=${TARGETS[1]}')

##################
# Nonstationary PEFs
##################
Flow('dmask','pad','math output=1')
Flow('sapef maskout','pad dmask',
     '''
     apef a=15,5 jump=2 rect1=50 rect2=20 niter=400 verb=y
     maskin=${SOURCES[1]} maskout=${TARGETS[1]}
     ''')
Flow('samiss','pad sapef mask',
     'miss4 filt=${SOURCES[1]} mask=${SOURCES[2]} verb=y | put d2=1')

Flow('serr','samiss sean','add scale=1,-1 ${SOURCES[1]}')
Result('samiss',grey('RNA Interpolation'))
Result('serr',grey('Interpolation error'))
#Result('ssean2-int','smis serr','SideBySideIso')

Flow('smcoe','sapef',
     '''
     put d4=1 |cut n1=8 n2=1 | stack axis=2 norm=n |
     stack axis=1 norm=n
     ''')
Result('smcoe',
       '''
       grey title="Mean Coefficient" screenratio=1.4 bias=0.
       wheretitle=b wherexlabel=t color=i gainpanel=e scalebar=y
       barwidth=0.2 parallel2=n format2="%3.1f" labelsz=6 titlesz=7.5
       label1=Time unit1=s label2=Trace
       font=2 labelfat=2 titlefat=2 d2num=0.5 o2num=2 n2tic=4 nbartic=20
       ''')

Flow('sfcoe','sapef','put d4=1 | window n1=1 f1=8 n2=1')
Result('sfcoe',
       '''
       grey title="First Coefficient" screenratio=1.4 bias=0.5
       wheretitle=b wherexlabel=t color=i gainpanel=e scalebar=y
       barwidth=0.2 parallel2=n format2="%3.1f" labelsz=6 titlesz=7.5
       label1=Time unit1=s label2=Trace
       font=2 labelfat=2 titlefat=2 d2num=0.5 o2num=2 n2tic=4 nbartic=20
       ''')

Result('win','sean',
       'window min1=2.5 max1=3.1 max2=120 | ' \
       + grey('Original') + 'd2num=0.1 o2num=2.5 n2tic=7')
Result('win2','samiss',
       'window min1=2.5 max1=3.1 max2=120 | ' \
       + grey('RNA Interpolation')+ 'd2num=0.1 o2num=2.5 n2tic=7')
Plot('sdiff2','serr',
     'window min1=2.5 max1=3.1 max2=120 | ' \
     + grey('RNA Error')+ 'd2num=0.1 o2num=2.5 n2tic=7')


#Result('sean2-close','win win2','SideBySideAniso')

# Choose different parameters
Flow('sapef1','pad dmask',
     '''
     apef a=15,2 jump=2 rect1=50 rect2=20 niter=400 verb=y
     maskin=${SOURCES[1]}
     ''')
Flow('samiss1','pad sapef1 mask',
     'miss4 filt=${SOURCES[1]} mask=${SOURCES[2]} verb=y')

Flow('serr1','samiss1 sean','add scale=1,-1 ${SOURCES[1]}')
Plot('samiss1',grey('RNA Interpolation'))
Plot('serr1',grey('RNA Error'))

##################
# Nonstationary PWD
##################
def twodip2(extra):
    return 'twodip2 order=2 nj1=2 nj2=2 eps=8 verb=y gauss=n ' + extra

Flow('pq','sean2',twodip2('niter=10'))
Flow('pq1','sean2 pq',twodip2('both=n dip1=${SOURCES[1]} dip2=${SOURCES[1]}'))
Flow('pq2','sean2 pq pq1',twodip2('dip1=${SOURCES[1]} dip2=${SOURCES[2]}'))
Flow('pq3','pq2','transp | spline n1=180 o1=0 d1=1 | transp')

def twodip0(extra):
    return 'twodip2 order=2 eps=8 verb=y gauss=n ' + extra

Flow('ppq','sean',twodip0('niter=10'))
Flow('ppq1','sean ppq',twodip0('both=n dip1=${SOURCES[1]} dip2=${SOURCES[1]}'))
Flow('ppq2','sean ppq ppq1',twodip0('dip1=${SOURCES[1]} dip2=${SOURCES[2]}'))

Plot('dip1','pq2',
     'window n3=1 | %s pclip=100 scalebar=y color=j' % grey('First Dip'))
Plot('dip2','pq2',
     'window f3=1 | %s pclip=100 scalebar=y color=j' % grey('Second Dip'))
Plot('sean2-dip','dip1 dip2','SideBySideIso')

Plot('ddip1','ppq2',
     'window n3=1 | %s pclip=100 scalebar=y color=j' % grey('First Dip'))
Plot('ddip2','ppq2',
     'window f3=1 | %s pclip=100 scalebar=y color=j' % grey('Second Dip'))
Plot('sean0-dip','ddip1 ddip2','SideBySideIso')

Flow('separ','sean ppq2','pwdsigk dips=${SOURCES[1]} verb=y niter=200 eps=1')

Flow('seans','sean','window n2=128')
Flow('ppq2s','ppq2','window n2=128')

Flow('separs','seans ppq2s',
     'seisigk dips=${SOURCES[1]} verb=y niter=200 eps=0.1')

Plot('sean3','pad',grey(' '))

Flow('mis','pad mask pq3',
     '''
     planemis2 mask=${SOURCES[1]} dip=${SOURCES[2]} order=2 verb=y |
     bandpass fhi=70
     ''')
Flow('err','mis sean','add scale=1,-1 ${SOURCES[1]}')
Plot('mis',grey('Interpolation Result'))
Plot('err',grey('Interpolation Error'))
#Result('sean2-int','mis err','SideBySideIso')

#Plot('win','sean',
#     'window min1=2.5 max1=3.1 max2=120 | ' + grey('Original'))
Plot('win3','mis',
     'window min1=2.5 max1=3.1 max2=120 | ' + grey('PWD'))
#Result('sean2-close','win win2','SideBySideAniso')
Plot('sdiff3','err',
     'window min1=2.5 max1=3.1 max2=120 | ' + grey('RNA'))

End()