runtime/change_gds_cell.py - third_party/opencircuitdesign.com/open_pdks - Git at Google

 #!/usr/bin/env python3
 #
 # Script to read a GDS file, and replace a single cell structure with a cell of
 # the same name from a different GDS file.  If a checksum is provided, then
 # the cell contents will be checked against the checksum before allowing the
 # replacement.  The checksum is just the sum of the length of all GDS records in
 # the cell.  A checksum can be determined by running this routine once without
 # supplying a checksum;  the checksum will be calculated and printed.
 #
 # There are no checks to ensure that the replacement cell is in any way compatible
 # with the existing cell.  Validation must be done independently.  This script is
 # only a simple GDS data compositor.

 import os
 import sys

 def usage():
     print('change_gds_cell.py <cell_name> <path_to_cell_gds> <path_to_gds_in> [<path_to_gds_out>] [-checksum=<checksum>]')

 if __name__ == '__main__':
     debug = False

     if len(sys.argv) == 1:
         print("No options given to change_gds_cell.py.")
         usage()
         sys.exit(0)

     optionlist = []
     arguments = []

     for option in sys.argv[1:]:
         if option.find('-', 0) == 0:
             optionlist.append(option)
         else:
             arguments.append(option)

     if len(arguments) < 3 or len(arguments) > 4:
         print("Wrong number of arguments given to change_gds_cell.py.")
         usage()
         sys.exit(0)

     checksum = '0'
     for option in optionlist:
         if option == '-debug':
             debug = True
         elif option.split('=')[0] == '-checksum':
             checksum = option.split('=')[1]

     try:
         checksum = int(checksum)
     except:
         print('Checksum must evaluate to an integer.')
         sys.exit(1)

     cellname = arguments[0]
     cellsource = arguments[1]
     source = arguments[2]

     # If only three arguments are provided, then overwrite the source file.
     if len(arguments) == 4:
         dest = arguments[3]
     else:
         dest = arguments[2]

     cellsrcdir = os.path.split(cellsource)[0]
     cellinfile = os.path.split(cellsource)[1]
     sourcedir = os.path.split(source)[0]
     gdsinfile = os.path.split(source)[1]

     destdir = os.path.split(dest)[0]
     gdsoutfile = os.path.split(dest)[1]

     print('Reading GDS file for alternate cell ' + cellname)
     with open(cellsource, 'rb') as ifile:
         celldata = ifile.read()

     #----------------------------------------------------------------------
     # Assume that celldata contains the cell in question.
     # Find the extend of the data from 'beginstr' to 'endstr'
     #----------------------------------------------------------------------

     datalen = len(celldata)
     dataptr = 0
     incell = False
     datastart = dataend = -1
     while dataptr < datalen:
         # Read stream records up to 'beginstr', then save data through 'endstr'
         bheader = celldata[dataptr:dataptr + 2]
         reclen = int.from_bytes(bheader, 'big')
         if reclen == 0:
             print('Error: found zero-length record at position ' + str(dataptr))
             break

         rectype = celldata[dataptr + 2]
         datatype = celldata[dataptr + 3]

         brectype = rectype.to_bytes(1, byteorder='big')
         bdatatype = datatype.to_bytes(1, byteorder='big')

         if rectype == 5:            # beginstr
             saveptr = dataptr

         elif rectype == 6:            # strname
             if datatype != 6:
                 print('Error: Structure name record is not a string!')
                 sys.exit(1)

             bstring = celldata[dataptr + 4: dataptr + reclen]
             # Odd length strings end in null byte which needs to be removed
             if bstring[-1] == 0:
                 bstring = bstring[:-1]
             strname = bstring.decode('ascii')
             if strname == cellname:
                 print('Cell ' + cellname + ' found at position ' + str(saveptr))
                 datastart = saveptr
                 incell = True
             elif debug:
                 print('Cell ' + strname + ' position ' + str(dataptr) + ' (ignored)')

         elif rectype == 7:		# endstr
             if incell:
                 incell = False
                 dataend = dataptr + reclen
                 print('Cell ' + cellname + ' ends at position ' + str(dataend))

         # Advance the pointer past the data
         dataptr += reclen

     if datastart == -1 or dataend == -1:
         print('Failed to find the cell data for ' + cellname)
         sys.exit(1)

     #-----------------------------------------------------------------
     # Now do the same thing for the source GDS file.
     #-----------------------------------------------------------------

     print('Reading GDS file for original source ' + source)
     with open(source, 'rb') as ifile:
         gdsdata = ifile.read()

     datalen = len(gdsdata)
     dataptr = 0
     incell = False
     cellchecksum = 0
     oldstart = oldend = -1
     while dataptr < datalen:
         # Read stream records up to any structure, then check for structure name
         bheader = gdsdata[dataptr:dataptr + 2]
         reclen = int.from_bytes(bheader, 'big')
         if reclen == 0:
             print('Error: found zero-length record at position ' + str(dataptr))
             break

         rectype = gdsdata[dataptr + 2]
         datatype = gdsdata[dataptr + 3]

         brectype = rectype.to_bytes(1, byteorder='big')
         bdatatype = datatype.to_bytes(1, byteorder='big')

         if rectype == 5:            # beginstr
             saveptr = dataptr

         elif rectype == 6:            # strname
             if datatype != 6:
                 print('Error: Structure name record is not a string!')
                 sys.exit(1)

             bstring = gdsdata[dataptr + 4: dataptr + reclen]
             # Odd length strings end in null byte which needs to be removed
             if bstring[-1] == 0:
                 bstring = bstring[:-1]
             strname = bstring.decode('ascii')
             if strname == cellname:
                 print('Cell ' + cellname + ' found at position ' + str(saveptr))
                 oldstart = saveptr
                 incell = True
             elif debug:
                 print('Cell ' + strname + ' position ' + str(dataptr) + ' (copied)')

         elif rectype == 7:		# endstr
             if incell:
                 incell = False
                 cellchecksum = cellchecksum + reclen
                 oldend = dataptr + reclen
                 print('Cell ' + cellname + ' ends at position ' + str(oldend))
                 print('Cell ' + cellname + ' checksum is ' + str(cellchecksum))

         # Find checksum (sum of length of all records in the cell of interest)
         if incell:
             cellchecksum = cellchecksum + reclen

         # Advance the pointer past the data
         dataptr += reclen

     if oldstart == -1 or oldend == -1:
         print('Failed to find the cell data for ' + cellname)
         sys.exit(1)

     if checksum != 0:
         if cellchecksum == checksum:
             print('Info:  Structure ' + cellname + ' matches checksum ' + str(checksum))
         else:
             print('Info:  Structure ' + cellname + ' at ' + str(oldstart) + ' to ' +
 		str(oldend) + ' has checksum ' + str(cellchecksum) +
 		' != ' + str(checksum) + ' (checksum failure)')
             sys.exit(1)
     else:
         print('Info:  Structure ' + cellname + ' checksum is ' + str(cellchecksum))

     print('Info:  Structure ' + cellname + ' at ' + str(oldstart) + ' to ' +
 		str(oldend) + ' will be replaced by alternate data.')

     before = gdsdata[0:oldstart]
     after = gdsdata[oldend:]

     cellstrdata = celldata[datastart:dataend]

     # Reassemble the GDS data around the new cell
     gdsdata = before + cellstrdata + after

     with open(dest, 'wb') as ofile:
         ofile.write(gdsdata)

     exit(0)
	#!/usr/bin/env python3
	#
	# Script to read a GDS file, and replace a single cell structure with a cell of
	# the same name from a different GDS file. If a checksum is provided, then
	# the cell contents will be checked against the checksum before allowing the
	# replacement. The checksum is just the sum of the length of all GDS records in
	# the cell. A checksum can be determined by running this routine once without
	# supplying a checksum; the checksum will be calculated and printed.
	#
	# There are no checks to ensure that the replacement cell is in any way compatible
	# with the existing cell. Validation must be done independently. This script is
	# only a simple GDS data compositor.

	import os
	import sys

	def usage():
	print('change_gds_cell.py <cell_name> <path_to_cell_gds> <path_to_gds_in> [<path_to_gds_out>] [-checksum=<checksum>]')

	if __name__ == '__main__':
	debug = False

	if len(sys.argv) == 1:
	print("No options given to change_gds_cell.py.")
	usage()
	sys.exit(0)

	optionlist = []
	arguments = []

	for option in sys.argv[1:]:
	if option.find('-', 0) == 0:
	optionlist.append(option)
	else:
	arguments.append(option)

	if len(arguments) < 3 or len(arguments) > 4:
	print("Wrong number of arguments given to change_gds_cell.py.")
	usage()
	sys.exit(0)

	checksum = '0'
	for option in optionlist:
	if option == '-debug':
	debug = True
	elif option.split('=')[0] == '-checksum':
	checksum = option.split('=')[1]

	try:
	checksum = int(checksum)
	except:
	print('Checksum must evaluate to an integer.')
	sys.exit(1)

	cellname = arguments[0]
	cellsource = arguments[1]
	source = arguments[2]

	# If only three arguments are provided, then overwrite the source file.
	if len(arguments) == 4:
	dest = arguments[3]
	else:
	dest = arguments[2]

	cellsrcdir = os.path.split(cellsource)[0]
	cellinfile = os.path.split(cellsource)[1]
	sourcedir = os.path.split(source)[0]
	gdsinfile = os.path.split(source)[1]

	destdir = os.path.split(dest)[0]
	gdsoutfile = os.path.split(dest)[1]

	print('Reading GDS file for alternate cell ' + cellname)
	with open(cellsource, 'rb') as ifile:
	celldata = ifile.read()

	#----------------------------------------------------------------------
	# Assume that celldata contains the cell in question.
	# Find the extend of the data from 'beginstr' to 'endstr'
	#----------------------------------------------------------------------

	datalen = len(celldata)
	dataptr = 0
	incell = False
	datastart = dataend = -1
	while dataptr < datalen:
	# Read stream records up to 'beginstr', then save data through 'endstr'
	bheader = celldata[dataptr:dataptr + 2]
	reclen = int.from_bytes(bheader, 'big')
	if reclen == 0:
	print('Error: found zero-length record at position ' + str(dataptr))
	break

	rectype = celldata[dataptr + 2]
	datatype = celldata[dataptr + 3]

	brectype = rectype.to_bytes(1, byteorder='big')
	bdatatype = datatype.to_bytes(1, byteorder='big')

	if rectype == 5: # beginstr
	saveptr = dataptr

	elif rectype == 6: # strname
	if datatype != 6:
	print('Error: Structure name record is not a string!')
	sys.exit(1)

	bstring = celldata[dataptr + 4: dataptr + reclen]
	# Odd length strings end in null byte which needs to be removed
	if bstring[-1] == 0:
	bstring = bstring[:-1]
	strname = bstring.decode('ascii')
	if strname == cellname:
	print('Cell ' + cellname + ' found at position ' + str(saveptr))
	datastart = saveptr
	incell = True
	elif debug:
	print('Cell ' + strname + ' position ' + str(dataptr) + ' (ignored)')

	elif rectype == 7: # endstr
	if incell:
	incell = False
	dataend = dataptr + reclen
	print('Cell ' + cellname + ' ends at position ' + str(dataend))

	# Advance the pointer past the data
	dataptr += reclen

	if datastart == -1 or dataend == -1:
	print('Failed to find the cell data for ' + cellname)
	sys.exit(1)

	#-----------------------------------------------------------------
	# Now do the same thing for the source GDS file.
	#-----------------------------------------------------------------

	print('Reading GDS file for original source ' + source)
	with open(source, 'rb') as ifile:
	gdsdata = ifile.read()

	datalen = len(gdsdata)
	dataptr = 0
	incell = False
	cellchecksum = 0
	oldstart = oldend = -1
	while dataptr < datalen:
	# Read stream records up to any structure, then check for structure name
	bheader = gdsdata[dataptr:dataptr + 2]
	reclen = int.from_bytes(bheader, 'big')
	if reclen == 0:
	print('Error: found zero-length record at position ' + str(dataptr))
	break

	rectype = gdsdata[dataptr + 2]
	datatype = gdsdata[dataptr + 3]

	brectype = rectype.to_bytes(1, byteorder='big')
	bdatatype = datatype.to_bytes(1, byteorder='big')

	if rectype == 5: # beginstr
	saveptr = dataptr

	elif rectype == 6: # strname
	if datatype != 6:
	print('Error: Structure name record is not a string!')
	sys.exit(1)

	bstring = gdsdata[dataptr + 4: dataptr + reclen]
	# Odd length strings end in null byte which needs to be removed
	if bstring[-1] == 0:
	bstring = bstring[:-1]
	strname = bstring.decode('ascii')
	if strname == cellname:
	print('Cell ' + cellname + ' found at position ' + str(saveptr))
	oldstart = saveptr
	incell = True
	elif debug:
	print('Cell ' + strname + ' position ' + str(dataptr) + ' (copied)')

	elif rectype == 7: # endstr
	if incell:
	incell = False
	cellchecksum = cellchecksum + reclen
	oldend = dataptr + reclen
	print('Cell ' + cellname + ' ends at position ' + str(oldend))
	print('Cell ' + cellname + ' checksum is ' + str(cellchecksum))

	# Find checksum (sum of length of all records in the cell of interest)
	if incell:
	cellchecksum = cellchecksum + reclen

	# Advance the pointer past the data
	dataptr += reclen

	if oldstart == -1 or oldend == -1:
	print('Failed to find the cell data for ' + cellname)
	sys.exit(1)

	if checksum != 0:
	if cellchecksum == checksum:
	print('Info: Structure ' + cellname + ' matches checksum ' + str(checksum))
	else:
	print('Info: Structure ' + cellname + ' at ' + str(oldstart) + ' to ' +
	str(oldend) + ' has checksum ' + str(cellchecksum) +
	' != ' + str(checksum) + ' (checksum failure)')
	sys.exit(1)
	else:
	print('Info: Structure ' + cellname + ' checksum is ' + str(cellchecksum))

	print('Info: Structure ' + cellname + ' at ' + str(oldstart) + ' to ' +
	str(oldend) + ' will be replaced by alternate data.')

	before = gdsdata[0:oldstart]
	after = gdsdata[oldend:]

	cellstrdata = celldata[datastart:dataend]

	# Reassemble the GDS data around the new cell
	gdsdata = before + cellstrdata + after

	with open(dest, 'wb') as ofile:
	ofile.write(gdsdata)

	exit(0)