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bin2vtu.py
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bin2vtu.py
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#!/usr/bin/python
#!/usr/bin/python
# ux*iHat+uy*jHat+uz*kHat
import struct as st
# Import subprocess library, so system calls can be made
# in this specific case we want to use it to delete old .vtu files
# in case partition size changes etc
import subprocess
import sys
# cvw = custom vtu writer
import makevtu as cvw
# "Global constants":
FIN = "output_00000.dat" # Std. input file format
FOUT = "output" # Std. output file format
def main(itr):
print("iter: " + str(itr))
# Delete all vtu files of same name
subprocess.call("rm " + FOUT + "*.vtu", shell=True)
# Try to open the file
try:
fin = open(FIN, "rb")
except:
exit("Could not open file.. exiting")
# The file always starts with a user defined string
# Here it is discarded, but if you have some information in it,
# it can be saved.
readInString(fin)
print("Reading in mesh information")
# Load information from header
nDom, nPointsT, nCellsT, nPFields, nCFields, nodesPerElement = readHeader(fin)
# The cell and point field names:
pointFieldNames = readInString(fin)
cellFieldNames = readInString(fin)
# Convert to tuples with, assume names are comma separated. Also strip for whitespaces/trailing characters
pointFieldNames = [x.strip() for x in pointFieldNames.split(",")]
cellFieldNames = [x.strip() for x in cellFieldNames.split(",")]
print("Read/write in mesh data: nodes")
# Open output stream
try:
fout = open(FOUT + "_" + str(itr).zfill(5) + ".vtu", "wb")
except:
exit("Cannot create output file... exiting")
# Node list - simple take and put
rawP = ""
for i in range(nDom):
# Multiply by 3 because we have 3D
# Multiply by 4 == length of float32
rawP += fin.read(3 * 4 * nPointsT[i])
cvw.writeHeader(fout, sum(nPointsT), sum(nCellsT))
cvw.writeRawPoints(fout, rawP)
rawP = None # delete rawP from memory
print("Read/write in mesh data: element connectivity")
# Cell data needs to be processed and cannot be read in raw
rawP = ""
for i in range(nDom):
# Multiply by 8 because we have 8 nodes per element
# Multiply by 8 == length of unsigned long int
rawP += fin.read(8 * 8 * nCellsT[i])
cvw.writeRawCellsConn(fout, rawP)
# print st.unpack('Q'*128*8,rawP[0:8*128*8])
rawP = ""
for i in range(nDom):
# Multiply by 8 == length of unsigned long int
rawP += fin.read(8 * nCellsT[i])
cvw.writeRawCellsOffset(fout, rawP)
# Convert from binary to e.g. floats and return in a tuple:
# print st.unpack('Q'*128,rawP[0:8*128])
rawP = ""
for i in range(nDom):
# Multiply by 8 == length of unsigned long int
rawP += fin.read(8 * nCellsT[i])
cvw.writeRawCellsType(fout, rawP)
# print st.unpack('Q'*128,rawP[0:8*128])
rawP = None
print("Done writing in mesh")
# Write out a vtu file for each time step
dataset = 0
foundRequestedDataset = False
while 1:
try:
iteration = readdata(fin, "Q")
iteration = iteration[0]
print(
"Optimization iter. "
+ str(iteration)
+ " = dataset "
+ str(dataset)
+ ", you requested dataset "
+ str(itr)
)
except:
break # break loop
if int(dataset) == int(itr):
foundRequestedDataset = True
print("Processing dataset " + str(dataset))
lPFieldNames = []
lCFieldNames = []
lrawPFields = []
lrawCFields = []
for j in range(nPFields[i]):
lrawPFields.append("")
for j in range(nCFields[i]):
lrawCFields.append("")
for i in range(nDom):
for j in range(nPFields[i]):
if i == 0:
try:
lPFieldNames.append(pointFieldNames[j])
except:
lPFieldNames.append("Point Field " + str(j))
# Multiply by 4 == length of float32
lrawPFields[j] += fin.read(4 * nPointsT[i])
for j in range(nCFields[i]):
if i == 0:
try:
lCFieldNames.append(cellFieldNames[j])
except:
lCFieldNames.append("Cell Field " + str(j))
# Multiply by 4 == length of float32
lrawCFields[j] += fin.read(4 * nCellsT[i])
cvw.writeRawScalarPointData(fout, lrawPFields, lPFieldNames)
cvw.writeRawScalarCellData(fout, lrawCFields, lCFieldNames)
cvw.writeFooter(fout)
fout.close()
else:
tmp1 = 0
for i in range(nDom):
for j in range(nPFields[i]):
# fin.read(4*nPointsT[i])
tmp1 += 4 * nPointsT[i]
for j in range(nCFields[i]):
# fin.read(4*nCellsT[i])
tmp1 += 4 * nCellsT[i]
fin.seek(tmp1, 1)
dataset += 1
fin.close()
if foundRequestedDataset:
print("Done")
else:
print("!! The requested dataset was NOT found!! ")
subprocess.call("rm " + FOUT + "*.vtu", shell=True)
def getNoNodes(i):
if i == 10:
return 4
if i == 12:
return 8
if i == 1000:
return 8
exit(
"Sorry, but the element type "
+ str(i)
+ " is not defined. You may add it to getNoNodes() yourself... exiting"
)
# If the input file has specified a custom cell number format they can be added here
# and in the getNoNodes()
def convertToVtkCell(i):
if i == 1000:
return 12
return i
def readdata(fin, inpformat):
# fin = file input
# inpformat = type of character/string/number to read - see python manual.
# sequence of datatypes
# How many bytes should we read when format is inpformat:
bytecount = st.calcsize(inpformat)
# Read the bytes into tmp
tmp = fin.read(bytecount)
# Convert from binary to e.g. floats and return in a tuple:
return st.unpack(inpformat, tmp)
def readHeader(fin):
# Should be called right after fin.open()
try:
nDom = readdata(fin, "Q")[0]
tmp = readdata(fin, "Q" * nDom * 4)
nPointsT = list(tmp[0:nDom])
nCellsT = list(tmp[nDom : 2 * nDom])
nPFields = list(tmp[2 * nDom : 3 * nDom])
nCFields = list(tmp[3 * nDom : 4 * nDom])
nodesPerElement = readdata(fin, "Q")[0]
except:
exit("Could not read header format... exiting")
return nDom, nPointsT, nCellsT, nPFields, nCFields, nodesPerElement
def readInString(fin):
# Reads in a string until an end line symbol is detected
string = ""
while 1:
try:
tmp = readdata(fin, "c")[0] # The c means data of character type (length 1)
string += tmp
except:
exit(
"File ended while scanning for string. String not present or properly terminated?... exiting"
)
# Break if end character detected
if tmp == "\x01":
string = string[0:-1]
# Dont want to save last character
break
return string
# Make sure main is only called when the file is executed
if __name__ == "__main__":
itr = 0
if len(sys.argv) > 1:
itr = sys.argv[1]
main(itr)