common/preproc.py - third_party/opencircuitdesign.com/open_pdks - Git at Google

 #!/usr/bin/env python3
 #--------------------------------------------------------------------
 #
 # preproc.py
 #
 # General purpose macro preprocessor
 #
 #--------------------------------------------------------------------
 # Usage:
 #
 #	preproc.py input_file [output_file] [-D<variable> ...]
 #
 # Where <variable> may be a keyword or a key=value pair
 #
 # Syntax:  Basically like cpp.  However, this preprocessor handles
 # only a limited set of keywords, so it does not otherwise mangle
 # the file in the belief that it must be C code.  Handling of boolean
 # relations is important, so these are thoroughly defined (see below)
 #
 #	#if defined(<variable>) [...]
 #	#ifdef <variable>
 #	#ifndef <variable>
 #	#elseif <variable>
 #	#else
 #	#endif
 #
 #	#define <variable> [...]
 #	#define <variable>(<parameters>) [...]
 #	#undef <variable>
 #
 #	#include <filename>
 #
 # <variable> may be
 #	<keyword>
 #	<keyword>=<value>
 #
 #	<keyword> without '=' is effectively the same as <keyword>=1
 #	Lack of a keyword is equivalent to <keyword>=0, in a conditional.
 #
 # Boolean operators (in order of precedence):
 #	!	NOT
 #	&&	AND
 #	||	OR
 #
 # Comments:
 #       Most comments (C-like or Tcl-like) are output as-is.  A
 #	line beginning with "###" is treated as a preprocessor
 #	comment and is not copied to the output.
 #
 # Examples;
 #	#if defined(X) || defined(Y)
 #	#else
 #	#if defined(Z)
 #	#endif
 #--------------------------------------------------------------------

 import os
 import re
 import sys

 def solve_statement(condition):

     defrex = re.compile('defined[ \t]*\(([^\)]+)\)')
     orrex = re.compile('(.+)\|\|(.+)')
     andrex = re.compile('(.+)&&(.+)')
     notrex = re.compile('!([^&\|]+)')
     parenrex = re.compile('\(([^\)]+)\)')
     leadspacerex = re.compile('^[ \t]+(.*)')
     endspacerex = re.compile('(.*)[ \t]+$')

     matchfound = True
     while matchfound:
         matchfound = False

         # Search for defined(K) (K must be a single keyword)
         # If the keyword was defined, then it should have been replaced by 1
         lmatch = defrex.search(condition)
         if lmatch:
             key = lmatch.group(1)
             if key == 1 or key == '1' or key == True:
                 repl = 1
             else:
                 repl = 0

             condition = defrex.sub(str(repl), condition)
             matchfound = True

         # Search for (X) recursively
         lmatch = parenrex.search(condition)
         if lmatch:
             repl = solve_statement(lmatch.group(1))
             condition = parenrex.sub(str(repl), condition)
             matchfound = True

         # Search for !X recursively
         lmatch = notrex.search(condition)
         if lmatch:
             only = solve_statement(lmatch.group(1))
             if only == '1':
                 repl = '0'
             else:
                 repl = '1'
             condition = notrex.sub(str(repl), condition)
             matchfound = True

         # Search for A&&B recursively
         lmatch = andrex.search(condition)
         if lmatch:
             first = solve_statement(lmatch.group(1))
             second = solve_statement(lmatch.group(2))
             if first == '1' and second == '1':
                 repl = '1'
             else:
                 repl = '0'
             condition = andrex.sub(str(repl), condition)
             matchfound = True

         # Search for A||B recursively
         lmatch = orrex.search(condition)
         if lmatch:
             first = solve_statement(lmatch.group(1))
             second = solve_statement(lmatch.group(2))
             if first == '1' or second == '1':
                 repl = '1'
             else:
                 repl = '0'
             condition = orrex.sub(str(repl), condition)
             matchfound = True

     # Remove whitespace
     lmatch = leadspacerex.match(condition)
     if lmatch:
         condition = lmatch.group(1)
     lmatch = endspacerex.match(condition)
     if lmatch:
         condition = lmatch.group(1)

     return condition

 def solve_condition(condition, keys, defines, keyrex):
     # Do definition replacement on the conditional
     for keyword in keys:
         condition = keyrex[keyword].sub(defines[keyword], condition)

     value = solve_statement(condition)
     if value == '1':
         return 1
     else:
         return 0

 def sortkeys(keys):
     newkeys = []
     for i in range(0, len(keys)):
         keyword = keys[i]
         found = False
         for j in range(0, len(newkeys)):
             inword = newkeys[j]
             if inword in keyword:
                 # Insert keyword before inword
                 newkeys.insert(j, keyword)
                 found = True
                 break
         if not found:
             newkeys.append(keyword)
     return newkeys

 def runpp(keys, keyrex, defines, ccomm, incdirs, inputfile, ofile):

     includerex = re.compile('^[ \t]*#include[ \t]+"*([^ \t\n\r"]+)')
     definerex = re.compile('^[ \t]*#define[ \t]+([^ \t]+)[ \t]+(.+)')
     paramrex = re.compile('^([^\(]+)\(([^\)]+)\)')
     defrex = re.compile('^[ \t]*#define[ \t]+([^ \t\n\r]+)')
     undefrex = re.compile('^[ \t]*#undef[ \t]+([^ \t\n\r]+)')
     ifdefrex = re.compile('^[ \t]*#ifdef[ \t]+(.+)')
     ifndefrex = re.compile('^[ \t]*#ifndef[ \t]+(.+)')
     ifrex = re.compile('^[ \t]*#if[ \t]+(.+)')
     elseifrex = re.compile('^[ \t]*#elseif[ \t]+(.+)')
     elserex = re.compile('^[ \t]*#else')
     endifrex = re.compile('^[ \t]*#endif')
     commentrex = re.compile('^###[^#]*$')
     ccstartrex = re.compile('/\*')		# C-style comment start
     ccendrex = re.compile('\*/')		# C-style comment end
     contrex = re.compile('.*\\\\$')		# Backslash continuation line

     badifrex = re.compile('^[ \t]*#if[ \t]*.*')
     badelserex = re.compile('^[ \t]*#else[ \t]*.*')

     # This code is not designed to operate on huge files.  Neither is it designed to be
     # efficient.

     # ifblock state:
     # -1 : not in an if/else block
     #  0 : no condition satisfied yet
     #  1 : condition satisfied
     #  2 : condition was handled, waiting for endif

     ifile = False
     try:
         ifile = open(inputfile, 'r')
     except FileNotFoundError:
         for dir in incdirs:
             try:
                 ifile = open(dir + '/' + inputfile, 'r')
             except FileNotFoundError:
                 pass
             else:
                 break

     if not ifile:
         print("Error:  Cannot open file " + inputfile + " for reading.\n", file=sys.stderr)
         return

     ccblock = -1
     ifblock = -1
     ifstack = []
     lineno = 0

     filetext = ifile.readlines()
     lastline = []

     for line in filetext:
         lineno += 1

         # C-style comments override everything else
         if ccomm:
             if ccblock == -1:
                 pmatch = ccstartrex.search(line)
                 if pmatch:
                     ematch = ccendrex.search(line[pmatch.end(0):])
                     if ematch:
                         line = line[0:pmatch.start(0)] + line[pmatch.end(0) + ematch.end(0):]
                     else:
                         line = line[0:pmatch.start(0)]
                         ccblock = 1
             elif ccblock == 1:
                 ematch = ccendrex.search(line)
                 if ematch:
                     line = line[ematch.end(0)+2:]
                     ccblock = -1
                 else:
                     continue

         # Handle continuation detected in previous line
         if lastline:
             # Note:  Apparently there is a character retained after the backslash,
             # so strip the last two characters from the line.
             line = lastline[0:-2] + line
             lastline = []

         # Continuation lines have the next highest priority.  However, this
         # script will attempt to keep continuation lines in the body of the
         # text and only collapse lines where continuation lines occur in
         # a preprocessor statement.

         cmatch = contrex.match(line)

         # Ignore lines beginning with "###"
         pmatch = commentrex.match(line)
         if pmatch:
             continue

         # Handle ifdef
         pmatch = ifdefrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             if ifblock != -1:
                 ifstack.append(ifblock)

             if ifblock == 1 or ifblock == -1:
                 condition = pmatch.group(1)
                 ifblock = solve_condition(condition, keys, defines, keyrex)
             else:
                 ifblock = 2
             continue

         # Handle ifndef
         pmatch = ifndefrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             if ifblock != -1:
                 ifstack.append(ifblock)

             if ifblock == 1 or ifblock == -1:
                 condition = pmatch.group(1)
                 ifblock = solve_condition(condition, keys, defines, keyrex)
                 ifblock = 1 if ifblock == 0 else 0
             else:
                 ifblock = 2
             continue

         # Handle if
         pmatch = ifrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             if ifblock != -1:
                 ifstack.append(ifblock)

             if ifblock == 1 or ifblock == -1:
                 condition = pmatch.group(1)
                 ifblock = solve_condition(condition, keys, defines, keyrex)
             else:
                 ifblock = 2
             continue

         # Handle elseif
         pmatch = elseifrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             if ifblock == -1:
                print("Error: #elseif without preceding #if at line " + str(lineno) + ".", file=sys.stderr)
                ifblock = 0

             if ifblock == 1:
                 ifblock = 2
             elif ifblock != 2:
                 condition = pmatch.group(1)
                 ifblock = solve_condition(condition, keys, defines, keyrex)
             continue

         # Handle else
         pmatch = elserex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             if ifblock == -1:
                print("Error: #else without preceding #if at line " + str(lineno) + ".", file=sys.stderr)
                ifblock = 0

             if ifblock == 1:
                 ifblock = 2
             elif ifblock == 0:
                 ifblock = 1
             continue

         # Handle endif
         pmatch = endifrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             if ifblock == -1:
                 print("Error:  #endif outside of #if block at line " + str(lineno) + " (ignored)", file=sys.stderr)
             elif ifstack:
                 ifblock = ifstack.pop()
             else:
                 ifblock = -1
             continue

         # Check for 'if' or 'else' that were not properly formed
         pmatch = badifrex.match(line)
         if pmatch:
             print("Error:  Badly formed #if statement at line " + str(lineno) + " (ignored)", file=sys.stderr)
             if ifblock != -1:
                 ifstack.append(ifblock)

             if ifblock == 1 or ifblock == -1:
                 ifblock = 0
             else:
                 ifblock = 2
             continue

         pmatch = badelserex.match(line)
         if pmatch:
             print("Error:  Badly formed #else statement at line " + str(lineno) + " (ignored)", file=sys.stderr)
             ifblock = 2
             continue

         # Ignore all lines that are not satisfied by a conditional
         if ifblock == 0 or ifblock == 2:
             continue

         # Handle include.  Note that this code does not expect or
         # handle 'if' blocks that cross file boundaries.
         pmatch = includerex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             inclfile = pmatch.group(1)
             runpp(keys, keyrex, defines, ccomm, incdirs, inclfile, ofile)
             continue

         # Handle define (with value)
         pmatch = definerex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             condition = pmatch.group(1)

             # Additional handling of definition w/parameters: #define X(a,b,c) ..."
             rmatch = paramrex.match(condition)
             if rmatch:
                 # 'condition' as a key into keyrex only needs to be unique.
                 # Use the definition word without everything in parentheses
                 condition = rmatch.group(1)

                 # 'pcondition' is the actual search regexp and must capture all
                 # the parameters individually for substitution

                 parameters = rmatch.group(2).split(',')

                 # Generate the regexp string to match comma-separate values
                 # Note that this is based on the cpp preprocessor, which
                 # apparently allows commas in arguments if surrounded by
                 # parentheses;  e.g., "def(a, b, (c1,c2))".  This is NOT
                 # handled.

                 pcondition = condition + '\('
                 for param in parameters[0:-1]:
                     pcondition += '(.*),'
                 pcondition += '(.*)\)'

                 # Generate the substitution string with group substitutions
                 pvalue = pmatch.group(2)
                 idx = 1
                 for param in parameters:
                     pvalue = pvalue.replace(param, '\g<' + str(idx) + '>')
                     idx = idx + 1

                 defines[condition] = pvalue
                 keyrex[condition] = re.compile(pcondition)
             else:
                 parameters = []
                 value = pmatch.group(2)
                 # Note:  Need to check for infinite recursion here, but it's tricky.
                 defines[condition] = value
                 keyrex[condition] = re.compile(condition)

             if condition not in keys:
                 # Parameterized keys go to the front of the list
                 if parameters:
                     keys.insert(0, condition)
                 else:
                     keys.append(condition)
                 keys = sortkeys(keys)
             continue

         # Handle define (simple case, no value)
         pmatch = defrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             condition = pmatch.group(1)
             defines[condition] = '1'
             keyrex[condition] = re.compile(condition)
             if condition not in keys:
                 keys.append(condition)
                 keys = sortkeys(keys)
             continue

         # Handle undef
         pmatch = undefrex.match(line)
         if pmatch:
             if cmatch:
                 lastline = line
                 continue
             condition = pmatch.group(1)
             if condition in keys:
                 defines.pop(condition)
                 keyrex.pop(condition)
                 keys.remove(condition)
             continue

         # Now do definition replacement on what's left (if anything)
         # This must be done repeatedly from the top until there are no
         # more substitutions to make.

         while True:
             origline = line
             for keyword in keys:
                 newline = keyrex[keyword].sub(defines[keyword], line)
                 if newline != line:
                     line = newline
                     break

             if line == origline:
                 break

         # Output the line
         print(line, file=ofile, end='')

     if ifblock != -1 or ifstack != []:
         print("Error:  input file ended with an unterminated #if block.", file=sys.stderr)

     if ifile != sys.stdin:
         ifile.close()
     return

 def printusage(progname):
     print('Usage: ' + progname + ' input_file [output_file] [-options]')
     print('   Options are:')
     print('      -help         Print this help text.')
     print('      -quiet        Stop without error if input file is not found.')
     print('      -ccomm        Remove C comments in /* ... */ delimiters.')
     print('      -D<def>       Define word <def> and set its value to 1.')
     print('      -D<def>=<val> Define word <def> and set its value to <val>.')
     print('      -I<dir>       Add <dir> to search path for input files.')
     return

 if __name__ == '__main__':

    # Parse command line for options and arguments
     options = []
     arguments = []
     for item in sys.argv[1:]:
         if item.find('-', 0) == 0:
             options.append(item)
         else:
             arguments.append(item)

     if len(arguments) > 0:
         inputfile = arguments[0]
         if len(arguments) > 1:
             outputfile = arguments[1]
         else:
             outputfile = []
     else:
         printusage(sys.argv[0])
         sys.exit(0)

     defines = {}
     keyrex = {}
     keys = []
     incdirs = []
     ccomm = False
     quiet = False
     for item in options:
         result = item.split('=')
         if result[0] == '-help':
             printusage(sys.argv[0])
             sys.exit(0)
         elif result[0] == '-ccomm':
             ccomm = True
         elif result[0] == '-quiet':
             quiet = True
         elif result[0][0:2] == '-I':
             incdirs.append(result[0][2:])
         elif result[0][0:2] == '-D':
             keyword = result[0][2:]
             try:
                 value = result[1]
             except:
                 value = '1'
             defines[keyword] = value
             keyrex[keyword] = re.compile(keyword)
             keys.append(keyword)
             keys = sortkeys(keys)
         else:
             print('Bad option ' + item + ', options are -help, -quiet, -ccomm, -D<def> -I<dir>\n')
             sys.exit(1)

     if not os.path.isfile(inputfile):
         if not quiet:
             print("Error:  No input file " + inputfile + " found.")
         else:
             sys.exit(0)

     if outputfile:
         ofile = open(outputfile, 'w')
     else:
         ofile = sys.stdout

     if not ofile:
         print("Error:  Cannot open file " + outputfile + " for writing.")
         sys.exit(1)

     # Sort keys so that if any definition contains another definition, the
     # subset word is handled last;  otherwise the subset word will get
     # substituted, screwing up the definition names in which it occurs.

     keys = sortkeys(keys)

     runpp(keys, keyrex, defines, ccomm, incdirs, inputfile, ofile)
     if ofile != sys.stdout:
         ofile.close()

     # Set mode of outputfile to be equal to that of inputfile (if not stdout)
     if outputfile:
         statinfo = os.stat(inputfile)
         mode = statinfo.st_mode
         os.chmod(outputfile, mode)

     sys.exit(0)
	#!/usr/bin/env python3
	#--------------------------------------------------------------------
	#
	# preproc.py
	#
	# General purpose macro preprocessor
	#
	#--------------------------------------------------------------------
	# Usage:
	#
	# preproc.py input_file [output_file] [-D<variable> ...]
	#
	# Where <variable> may be a keyword or a key=value pair
	#
	# Syntax: Basically like cpp. However, this preprocessor handles
	# only a limited set of keywords, so it does not otherwise mangle
	# the file in the belief that it must be C code. Handling of boolean
	# relations is important, so these are thoroughly defined (see below)
	#
	# #if defined(<variable>) [...]
	# #ifdef <variable>
	# #ifndef <variable>
	# #elseif <variable>
	# #else
	# #endif
	#
	# #define <variable> [...]
	# #define <variable>(<parameters>) [...]
	# #undef <variable>
	#
	# #include <filename>
	#
	# <variable> may be
	# <keyword>
	# <keyword>=<value>
	#
	# <keyword> without '=' is effectively the same as <keyword>=1
	# Lack of a keyword is equivalent to <keyword>=0, in a conditional.
	#
	# Boolean operators (in order of precedence):
	# ! NOT
	# && AND
	# \|\| OR
	#
	# Comments:
	# Most comments (C-like or Tcl-like) are output as-is. A
	# line beginning with "###" is treated as a preprocessor
	# comment and is not copied to the output.
	#
	# Examples;
	# #if defined(X) \|\| defined(Y)
	# #else
	# #if defined(Z)
	# #endif
	#--------------------------------------------------------------------

	import os
	import re
	import sys

	def solve_statement(condition):

	defrex = re.compile('defined[ \t]*\(([^\)]+)\)')
	orrex = re.compile('(.+)\\|\\|(.+)')
	andrex = re.compile('(.+)&&(.+)')
	notrex = re.compile('!([^&\\|]+)')
	parenrex = re.compile('\(([^\)]+)\)')
	leadspacerex = re.compile('^[ \t]+(.*)')
	endspacerex = re.compile('(.*)[ \t]+$')

	matchfound = True
	while matchfound:
	matchfound = False

	# Search for defined(K) (K must be a single keyword)
	# If the keyword was defined, then it should have been replaced by 1
	lmatch = defrex.search(condition)
	if lmatch:
	key = lmatch.group(1)
	if key == 1 or key == '1' or key == True:
	repl = 1
	else:
	repl = 0

	condition = defrex.sub(str(repl), condition)
	matchfound = True

	# Search for (X) recursively
	lmatch = parenrex.search(condition)
	if lmatch:
	repl = solve_statement(lmatch.group(1))
	condition = parenrex.sub(str(repl), condition)
	matchfound = True

	# Search for !X recursively
	lmatch = notrex.search(condition)
	if lmatch:
	only = solve_statement(lmatch.group(1))
	if only == '1':
	repl = '0'
	else:
	repl = '1'
	condition = notrex.sub(str(repl), condition)
	matchfound = True

	# Search for A&&B recursively
	lmatch = andrex.search(condition)
	if lmatch:
	first = solve_statement(lmatch.group(1))
	second = solve_statement(lmatch.group(2))
	if first == '1' and second == '1':
	repl = '1'
	else:
	repl = '0'
	condition = andrex.sub(str(repl), condition)
	matchfound = True

	# Search for A\|\|B recursively
	lmatch = orrex.search(condition)
	if lmatch:
	first = solve_statement(lmatch.group(1))
	second = solve_statement(lmatch.group(2))
	if first == '1' or second == '1':
	repl = '1'
	else:
	repl = '0'
	condition = orrex.sub(str(repl), condition)
	matchfound = True

	# Remove whitespace
	lmatch = leadspacerex.match(condition)
	if lmatch:
	condition = lmatch.group(1)
	lmatch = endspacerex.match(condition)
	if lmatch:
	condition = lmatch.group(1)

	return condition

	def solve_condition(condition, keys, defines, keyrex):
	# Do definition replacement on the conditional
	for keyword in keys:
	condition = keyrex[keyword].sub(defines[keyword], condition)

	value = solve_statement(condition)
	if value == '1':
	return 1
	else:
	return 0

	def sortkeys(keys):
	newkeys = []
	for i in range(0, len(keys)):
	keyword = keys[i]
	found = False
	for j in range(0, len(newkeys)):
	inword = newkeys[j]
	if inword in keyword:
	# Insert keyword before inword
	newkeys.insert(j, keyword)
	found = True
	break
	if not found:
	newkeys.append(keyword)
	return newkeys

	def runpp(keys, keyrex, defines, ccomm, incdirs, inputfile, ofile):

	includerex = re.compile('^[ \t]#include[ \t]+"([^ \t\n\r"]+)')
	definerex = re.compile('^[ \t]*#define[ \t]+([^ \t]+)[ \t]+(.+)')
	paramrex = re.compile('^([^\(]+)\(([^\)]+)\)')
	defrex = re.compile('^[ \t]*#define[ \t]+([^ \t\n\r]+)')
	undefrex = re.compile('^[ \t]*#undef[ \t]+([^ \t\n\r]+)')
	ifdefrex = re.compile('^[ \t]*#ifdef[ \t]+(.+)')
	ifndefrex = re.compile('^[ \t]*#ifndef[ \t]+(.+)')
	ifrex = re.compile('^[ \t]*#if[ \t]+(.+)')
	elseifrex = re.compile('^[ \t]*#elseif[ \t]+(.+)')
	elserex = re.compile('^[ \t]*#else')
	endifrex = re.compile('^[ \t]*#endif')
	commentrex = re.compile('^###[^#]*$')
	ccstartrex = re.compile('/\*') # C-style comment start
	ccendrex = re.compile('\*/') # C-style comment end
	contrex = re.compile('.*\\\\$') # Backslash continuation line

	badifrex = re.compile('^[ \t]#if[ \t].*')
	badelserex = re.compile('^[ \t]#else[ \t].*')

	# This code is not designed to operate on huge files. Neither is it designed to be
	# efficient.

	# ifblock state:
	# -1 : not in an if/else block
	# 0 : no condition satisfied yet
	# 1 : condition satisfied
	# 2 : condition was handled, waiting for endif

	ifile = False
	try:
	ifile = open(inputfile, 'r')
	except FileNotFoundError:
	for dir in incdirs:
	try:
	ifile = open(dir + '/' + inputfile, 'r')
	except FileNotFoundError:
	pass
	else:
	break

	if not ifile:
	print("Error: Cannot open file " + inputfile + " for reading.\n", file=sys.stderr)
	return

	ccblock = -1
	ifblock = -1
	ifstack = []
	lineno = 0

	filetext = ifile.readlines()
	lastline = []

	for line in filetext:
	lineno += 1

	# C-style comments override everything else
	if ccomm:
	if ccblock == -1:
	pmatch = ccstartrex.search(line)
	if pmatch:
	ematch = ccendrex.search(line[pmatch.end(0):])
	if ematch:
	line = line[0:pmatch.start(0)] + line[pmatch.end(0) + ematch.end(0):]
	else:
	line = line[0:pmatch.start(0)]
	ccblock = 1
	elif ccblock == 1:
	ematch = ccendrex.search(line)
	if ematch:
	line = line[ematch.end(0)+2:]
	ccblock = -1
	else:
	continue

	# Handle continuation detected in previous line
	if lastline:
	# Note: Apparently there is a character retained after the backslash,
	# so strip the last two characters from the line.
	line = lastline[0:-2] + line
	lastline = []

	# Continuation lines have the next highest priority. However, this
	# script will attempt to keep continuation lines in the body of the
	# text and only collapse lines where continuation lines occur in
	# a preprocessor statement.

	cmatch = contrex.match(line)

	# Ignore lines beginning with "###"
	pmatch = commentrex.match(line)
	if pmatch:
	continue

	# Handle ifdef
	pmatch = ifdefrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	if ifblock != -1:
	ifstack.append(ifblock)

	if ifblock == 1 or ifblock == -1:
	condition = pmatch.group(1)
	ifblock = solve_condition(condition, keys, defines, keyrex)
	else:
	ifblock = 2
	continue

	# Handle ifndef
	pmatch = ifndefrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	if ifblock != -1:
	ifstack.append(ifblock)

	if ifblock == 1 or ifblock == -1:
	condition = pmatch.group(1)
	ifblock = solve_condition(condition, keys, defines, keyrex)
	ifblock = 1 if ifblock == 0 else 0
	else:
	ifblock = 2
	continue

	# Handle if
	pmatch = ifrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	if ifblock != -1:
	ifstack.append(ifblock)

	if ifblock == 1 or ifblock == -1:
	condition = pmatch.group(1)
	ifblock = solve_condition(condition, keys, defines, keyrex)
	else:
	ifblock = 2
	continue

	# Handle elseif
	pmatch = elseifrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	if ifblock == -1:
	print("Error: #elseif without preceding #if at line " + str(lineno) + ".", file=sys.stderr)
	ifblock = 0

	if ifblock == 1:
	ifblock = 2
	elif ifblock != 2:
	condition = pmatch.group(1)
	ifblock = solve_condition(condition, keys, defines, keyrex)
	continue

	# Handle else
	pmatch = elserex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	if ifblock == -1:
	print("Error: #else without preceding #if at line " + str(lineno) + ".", file=sys.stderr)
	ifblock = 0

	if ifblock == 1:
	ifblock = 2
	elif ifblock == 0:
	ifblock = 1
	continue

	# Handle endif
	pmatch = endifrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	if ifblock == -1:
	print("Error: #endif outside of #if block at line " + str(lineno) + " (ignored)", file=sys.stderr)
	elif ifstack:
	ifblock = ifstack.pop()
	else:
	ifblock = -1
	continue

	# Check for 'if' or 'else' that were not properly formed
	pmatch = badifrex.match(line)
	if pmatch:
	print("Error: Badly formed #if statement at line " + str(lineno) + " (ignored)", file=sys.stderr)
	if ifblock != -1:
	ifstack.append(ifblock)

	if ifblock == 1 or ifblock == -1:
	ifblock = 0
	else:
	ifblock = 2
	continue

	pmatch = badelserex.match(line)
	if pmatch:
	print("Error: Badly formed #else statement at line " + str(lineno) + " (ignored)", file=sys.stderr)
	ifblock = 2
	continue

	# Ignore all lines that are not satisfied by a conditional
	if ifblock == 0 or ifblock == 2:
	continue

	# Handle include. Note that this code does not expect or
	# handle 'if' blocks that cross file boundaries.
	pmatch = includerex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	inclfile = pmatch.group(1)
	runpp(keys, keyrex, defines, ccomm, incdirs, inclfile, ofile)
	continue

	# Handle define (with value)
	pmatch = definerex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	condition = pmatch.group(1)

	# Additional handling of definition w/parameters: #define X(a,b,c) ..."
	rmatch = paramrex.match(condition)
	if rmatch:
	# 'condition' as a key into keyrex only needs to be unique.
	# Use the definition word without everything in parentheses
	condition = rmatch.group(1)

	# 'pcondition' is the actual search regexp and must capture all
	# the parameters individually for substitution

	parameters = rmatch.group(2).split(',')

	# Generate the regexp string to match comma-separate values
	# Note that this is based on the cpp preprocessor, which
	# apparently allows commas in arguments if surrounded by
	# parentheses; e.g., "def(a, b, (c1,c2))". This is NOT
	# handled.

	pcondition = condition + '\('
	for param in parameters[0:-1]:
	pcondition += '(.*),'
	pcondition += '(.*)\)'

	# Generate the substitution string with group substitutions
	pvalue = pmatch.group(2)
	idx = 1
	for param in parameters:
	pvalue = pvalue.replace(param, '\g<' + str(idx) + '>')
	idx = idx + 1

	defines[condition] = pvalue
	keyrex[condition] = re.compile(pcondition)
	else:
	parameters = []
	value = pmatch.group(2)
	# Note: Need to check for infinite recursion here, but it's tricky.
	defines[condition] = value
	keyrex[condition] = re.compile(condition)

	if condition not in keys:
	# Parameterized keys go to the front of the list
	if parameters:
	keys.insert(0, condition)
	else:
	keys.append(condition)
	keys = sortkeys(keys)
	continue

	# Handle define (simple case, no value)
	pmatch = defrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	condition = pmatch.group(1)
	defines[condition] = '1'
	keyrex[condition] = re.compile(condition)
	if condition not in keys:
	keys.append(condition)
	keys = sortkeys(keys)
	continue

	# Handle undef
	pmatch = undefrex.match(line)
	if pmatch:
	if cmatch:
	lastline = line
	continue
	condition = pmatch.group(1)
	if condition in keys:
	defines.pop(condition)
	keyrex.pop(condition)
	keys.remove(condition)
	continue

	# Now do definition replacement on what's left (if anything)
	# This must be done repeatedly from the top until there are no
	# more substitutions to make.

	while True:
	origline = line
	for keyword in keys:
	newline = keyrex[keyword].sub(defines[keyword], line)
	if newline != line:
	line = newline
	break

	if line == origline:
	break

	# Output the line
	print(line, file=ofile, end='')

	if ifblock != -1 or ifstack != []:
	print("Error: input file ended with an unterminated #if block.", file=sys.stderr)

	if ifile != sys.stdin:
	ifile.close()
	return

	def printusage(progname):
	print('Usage: ' + progname + ' input_file [output_file] [-options]')
	print(' Options are:')
	print(' -help Print this help text.')
	print(' -quiet Stop without error if input file is not found.')
	print(' -ccomm Remove C comments in /* ... */ delimiters.')
	print(' -D<def> Define word <def> and set its value to 1.')
	print(' -D<def>=<val> Define word <def> and set its value to <val>.')
	print(' -I<dir> Add <dir> to search path for input files.')
	return

	if __name__ == '__main__':

	# Parse command line for options and arguments
	options = []
	arguments = []
	for item in sys.argv[1:]:
	if item.find('-', 0) == 0:
	options.append(item)
	else:
	arguments.append(item)

	if len(arguments) > 0:
	inputfile = arguments[0]
	if len(arguments) > 1:
	outputfile = arguments[1]
	else:
	outputfile = []
	else:
	printusage(sys.argv[0])
	sys.exit(0)

	defines = {}
	keyrex = {}
	keys = []
	incdirs = []
	ccomm = False
	quiet = False
	for item in options:
	result = item.split('=')
	if result[0] == '-help':
	printusage(sys.argv[0])
	sys.exit(0)
	elif result[0] == '-ccomm':
	ccomm = True
	elif result[0] == '-quiet':
	quiet = True
	elif result[0][0:2] == '-I':
	incdirs.append(result[0][2:])
	elif result[0][0:2] == '-D':
	keyword = result[0][2:]
	try:
	value = result[1]
	except:
	value = '1'
	defines[keyword] = value
	keyrex[keyword] = re.compile(keyword)
	keys.append(keyword)
	keys = sortkeys(keys)
	else:
	print('Bad option ' + item + ', options are -help, -quiet, -ccomm, -D<def> -I<dir>\n')
	sys.exit(1)

	if not os.path.isfile(inputfile):
	if not quiet:
	print("Error: No input file " + inputfile + " found.")
	else:
	sys.exit(0)

	if outputfile:
	ofile = open(outputfile, 'w')
	else:
	ofile = sys.stdout

	if not ofile:
	print("Error: Cannot open file " + outputfile + " for writing.")
	sys.exit(1)

	# Sort keys so that if any definition contains another definition, the
	# subset word is handled last; otherwise the subset word will get
	# substituted, screwing up the definition names in which it occurs.

	keys = sortkeys(keys)

	runpp(keys, keyrex, defines, ccomm, incdirs, inputfile, ofile)
	if ofile != sys.stdout:
	ofile.close()

	# Set mode of outputfile to be equal to that of inputfile (if not stdout)
	if outputfile:
	statinfo = os.stat(inputfile)
	mode = statinfo.st_mode
	os.chmod(outputfile, mode)

	sys.exit(0)