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from struct import *
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from pylab import *
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import sys
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# Updated 10/11/15 BMM : Added mesh.
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# Updated 10/11/15 MD : Added dictionnary initialisation in mesh.
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class rma:
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def __init__(self):
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self.file='not opened yet'
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# May want to do some other things here later
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def open(self,filename):
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self.file=open(('%s.rma' % (filename)),'rb')
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self.header=self.file.read(1000)
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self.type=self.header[0:10]
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self.title=self.header[100:172]
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self.geometry=self.header[200:300]
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self.num_nodes=int(self.header[40:50])
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self.num_elements=int(self.header[50:60])
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if self.type==b'RMA11 ':
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self.num_constits=int(self.header[60:70])
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if len(self.header[80:90].strip())==0:
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self.num_sedlayers=0
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else:
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self.num_sedlayers=int(self.header[80:90])
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self.constit_name=[]
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self.constit_name.append("NULL")
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i=1
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#print(self.num_constits)
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while i <= self.num_constits:
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#print(i, self.num_constits, i <= self.num_constits)
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self.constit_name.append(self.header[300+(i-1)*8:308+(i-1)*8])
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if self.header[300+(i-1)*8:308+(i-1)*8]==" SSED ":
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self.constit_name.append(" BSHEAR")
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self.constit_name.append("BedThick")
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j=1
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while j<=self.num_sedlayers:
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self.constit_name.append(" L%dThick" % j)
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j=j+1
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i=i+1
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#if self.num_sedlayers > 0:
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# self.num_constits=self.num_constits+2+self.num_sedlayers
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# Header format in RMA2
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# HEADER(1:10) ='RMA2 '
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# HEADER(11:20)=DATEC = Date of run
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# HEADER(21:30)=TIMEC = Time of run
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# HEADER(31:40)=ZONEC = Time zone
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# HEADER(41:50)=NP = Number of nodes
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# HEADER(51:60)=NE = Number of elements
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# HEADER(101:172)=TITLE = Title line
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# HEADER(201:300)=FNAME = File name of binary geometry
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# Header format in RMA11
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# HEADER(1:10) - Model
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# HEADER(11:20) - DATEC of model runtime
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# HEADER(21:30) - TIMEC of model runtime
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# HEADER(31:40) - ZONEC of model runtime
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# HEADER(41:90) - '(5I10)' NP,NE,NQAL,IGS,LGS or '(5I10)' NP,NE,NQAL,ISEDS,NLAYT
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# HEADER(101:172) - TITLE
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# HEADER(301:540) - '(30A8)' CLABL
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# HEADER(201:248) - FNAMD directory of the geometry
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# HEADER(251:298) - FNAM2 filename of the geometry
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def mesh(self,filename):
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self.meshfile=open(('%s.rm1' % (filename)),'r')
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l=self.meshfile.readline()
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while l[0:5]!=' 9999' and len(l)!=5:
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l=self.meshfile.readline()
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l=self.meshfile.readline()
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self.node_e={}
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self.node_n={}
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self.node_z={}
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while l[0:10]!=' 9999' and len(l)!=10:
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ll=l.split()
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self.node_e[ll[0]]=ll[1]
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self.node_n[ll[0]]=ll[2]
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self.node_z[ll[0]]=ll[3]
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l=self.meshfile.readline()
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def next(self):
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# This reads the next timestep and populates the variables.
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# Reset all of the variables
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self.time=0.0
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self.year=0
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self.xvel=[]
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self.yvel=[]
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self.zvel=[]
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self.depth=[]
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self.elevation=[]
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# Add in an entry to fill position 0. Important since RMA files start numbering nodes from 1.
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self.xvel.append(-999)
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self.yvel.append(-999)
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self.zvel.append(-999)
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self.depth.append(-999)
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self.elevation.append(-999)
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if self.type==b'RMA2 ':
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# WRITE(IRMAFM) TETT,NP,IYRR,((VEL(J,K),J=1,3),K=1,NP),(WSEL(J),J=1,NP),(VDOT(3,K),K=1,NP)
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t=self.file.read(12)
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if t:
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a=unpack('fii',t)
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self.time=a[0]
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np=int(a[1])
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self.year=a[2]
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if (np!=self.num_nodes):
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print ("Warning - NP (%d) on this timestep does not match header (%d)" % (np,self.num_nodes))
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b=unpack('%df' % 5*np, self.file.read(20*np))
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i=1
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while i<=np:
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self.xvel.append(b[0+(i-1)*3])
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self.yvel.append(b[1+(i-1)*3])
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self.depth.append(b[2+(i-1)*3])
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self.elevation.append(b[np*3+(i-1)])
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i=i+1
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if self.type==b'RMA11 ':
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self.constit=[]
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c=0
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# Start at zero to leave an empty array space. Constits numbered 1 .. num_constits
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while c<=self.num_constits:
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self.constit.append([])
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# Put a null into the 0 position so that RMA node numbers are in the same numbered array position.
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self.constit[c].append(-999)
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c=c+1
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# READ(file1,END=100) TETT1,NQAL,NP,IYRR, ((VEL(K,J),J=1,NP),K=1,3), (wd(j),j=1,np), (wsel(j),j=1,np), ((TCON1(K,J),J=1,NP),K=1,NQAL-5)
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t=self.file.read(16)
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if t:
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a=unpack('fiii',t)
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self.time=a[0]
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nqal=int(a[1])
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np=int(a[2])
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self.year=a[3]
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if ((nqal-5)!=(self.num_constits)):
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print ("Warning - NQAL-5 {} on this timestep {} does not match header {}".format(nqal-5,self.time,self.num_constits))
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if (np!=self.num_nodes):
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print ("Warning - NP {} on this timestep {} does not match header {}".format(np,self.time,self.num_nodes))
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b=unpack('%df' % nqal*np, self.file.read(4*nqal*np))
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i=1
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while i<=np:
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self.xvel.append(b[0+(i-1)*3])
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self.yvel.append(b[1+(i-1)*3])
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self.zvel.append(b[2+(i-1)*3])
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self.depth.append(b[np*3+(i-1)])
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self.elevation.append(b[np*4+(i-1)])
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c=1
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while c<=self.num_constits:
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self.constit[c].append(b[np*((c-1)+5)+(i-1)])
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c=c+1
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i=i+1
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if len(self.xvel)==1:
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# Note that this is a 1 now as we've filled the zero array position
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return False
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else:
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return True
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