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from rsf.proj import * from rsf.recipes.beg import server as private ########################################################################### input = 'input.curve.segy' Fetch(input,'ray',private) Flow('curve hcurve bcurve',input, ''' segyread tape=$SOURCE read=d hfile=${TARGETS[1]} bfile=${TARGETS[2]} ''',stdin=0) #################### # TEST ONE #################### Flow('curve2','curve','window min1=1.2 max1=2 | bandpass fhi=60') Plot('curve','curve2', 'grey clip=0.02 yreverse=y transp=y poly=y title=Input') Plot('jcurve','curve2', ''' grey yreverse=y transp=y poly=y label2=Position title=Input screenratio=0.4 screenht=6. labelsz=5. titlesz=7 clip=0.02 labelfat=2 font=2 titlefat=2 ''') # Nonstationary PEFs Flow('cpad cmask','curve2','lpad jump=4 mask=${TARGETS[1]}') Flow('cdmask','cpad','math output=1.') Flow('capef','cpad cdmask', ''' apef a=20,3 jump=4 rect1=20 rect2=3 niter=200 verb=y maskin=${SOURCES[1]} ''') Flow('cacov','cpad capef cmask', 'miss4 filt=${SOURCES[1]} mask=${SOURCES[2]} verb=y') Plot('cacov', ''' grey clip=0.02 yreverse=y transp=y poly=y title="RNA Interpolation" ''') Plot('jcacov','cacov', ''' grey yreverse=y transp=y poly=y label2=Position title="RNA Interpolation" screenratio=0.4 screenht=6. labelsz=5. titlesz=7 clip=0.02 labelfat=2 font=2 titlefat=2 ''') #Result('curve-comp','curve cscov cacov','OverUnderAniso') # Adaptive coefficients Flow('mcoe','capef','stack axis=2 norm=y | stack axis=1 norm=y') Plot('jmcoe','mcoe', ''' grey yreverse=y transp=y poly=y label2=Position title="Mean coefficient" screenratio=0.4 screenht=6. labelsz=5. titlesz=7 labelfat=2 font=2 titlefat=2 color=j gainpanel=e scalebar=y barwidth=0.2 ''') # Mask for random traces Flow('mcut','cacov', ''' window n1=1 | noise rep=y type=n seed=2010 | math output="input^1" | mask min=0.2 ''') # Zero out random traces Flow('zero','cacov mcut','headercut mask=${SOURCES[1]}') Result('zero', ''' grey yreverse=y transp=y poly=y label2=Position title="Missing 70% traces" screenratio=0.4 screenht=5.9 labelsz=5. titlesz=7 clip=0.02 parallel2=n format2="%3.1f" font=2 labelfat=2 titlefat=2 d2num=0.2 o2num=1.2 n2tic=5 ''') # Yang's recovery Flow('mask','mcut','spray axis=1 n=401 d=0.002 | dd type=float') Plot('mask', ''' grey title=Mask label2=Trace label1="Time" unit1=s labelfat=4 font=2 titlefat=4 color=j scalebar=y screenratio=0.4 screenht=6. labelsz=5. titlesz=7 ''') # Adaptive PEFs Flow('apef mask2','zero mask', ''' apef maskin=${SOURCES[1]} maskout=${TARGETS[1]} jump=1 a=4,2 niter=1000 rect1=50 rect2=10 verb=y ''') Plot('mask2', ''' grey title=Mask2 label2=Trace label1="Time" unit1=s labelfat=4 font=2 titlefat=4 color=j scalebar=y screenratio=0.4 screenht=6. labelsz=5. titlesz=7 ''') Flow('amiss','zero apef mask', 'miss4 filt=${SOURCES[1]} mask=${SOURCES[2]} niter=1000 verb=y') Result('jamiss','amiss', ''' grey yreverse=y transp=y poly=y label2=Position title="RNA Interpolation" screenratio=0.4 screenht=5.9 labelsz=5. titlesz=7 clip=0.02 parallel2=n format2="%3.1f" font=2 labelfat=2 titlefat=2 d2num=0.2 o2num=1.2 n2tic=5 ''') Flow('diff','cacov amiss','add scale=1,-1 ${SOURCES[1]}') Plot('jdiff','diff', ''' grey yreverse=y transp=y poly=y label2=Position title="Difference" screenratio=0.4 screenht=6. labelsz=5. titlesz=7 clip=0.02 labelfat=2 font=2 titlefat=2 ''') End() |
| sfsegyread sfwindow sfbandpass sfgrey | sflpad sfmath sfapef sfmiss4 | sfstack sfnoise sfmask sfheadercut | sfspray sfdd sfadd |