"""\ Tools for scanning header files in search of function prototypes. Often, the function prototypes in header files contain enough information to automatically generate (or reverse-engineer) interface specifications from them. The conventions used are very vendor specific, but once you've figured out what they are they are often a great help, and it sure beats manually entering the interface specifications. (These are needed to generate the glue used to access the functions from Python.) In order to make this class useful, almost every component can be overridden. The defaults are (currently) tuned to scanning Apple Macintosh header files, although most Mac specific details are contained in header-specific subclasses. """ import regex import regsub import string import sys import os import fnmatch from types import * try: import MacOS except ImportError: MacOS = None # Default preferences CREATOR = 'KAHL' # My favorite text editor on the Mac INCLUDEDIR = "D:Development:THINK C:Mac #includes:Apple #includes:" Error = "scantools.Error" class Scanner: def __init__(self, input = None, output = None, defsoutput = None): self.initsilent() self.initblacklists() self.initrepairinstructions() self.initpaths() self.initfiles() self.initpatterns() self.compilepatterns() self.initosspecifics() self.initusedtypes() if output: self.setoutput(output, defsoutput) if input: self.setinput(input) def initusedtypes(self): self.usedtypes = {} def typeused(self, type, mode): if not self.usedtypes.has_key(type): self.usedtypes[type] = {} self.usedtypes[type][mode] = None def reportusedtypes(self): types = self.usedtypes.keys() types.sort() for type in types: modes = self.usedtypes[type].keys() modes.sort() print type, string.join(modes) def initsilent(self): self.silent = 0 def error(self, format, *args): if self.silent >= 0: print format%args def report(self, format, *args): if not self.silent: print format%args def initblacklists(self): self.blacklistnames = self.makeblacklistnames() self.blacklisttypes = ["unknown", "-"] + self.makeblacklisttypes() def makeblacklistnames(self): return [] def makeblacklisttypes(self): return [] def initrepairinstructions(self): self.repairinstructions = self.makerepairinstructions() def makerepairinstructions(self): """Parse the repair file into repair instructions. The file format is simple: 1) use \ to split a long logical line in multiple physical lines 2) everything after the first # on a line is ignored (as comment) 3) empty lines are ignored 4) remaining lines must have exactly 3 colon-separated fields: functionpattern : argumentspattern : argumentsreplacement 5) all patterns use shell style pattern matching 6) an empty functionpattern means the same as * 7) the other two fields are each comma-separated lists of triples 8) a triple is a space-separated list of 1-3 words 9) a triple with less than 3 words is padded at the end with "*" words 10) when used as a pattern, a triple matches the type, name, and mode of an argument, respectively 11) when used as a replacement, the words of a triple specify replacements for the corresponding words of the argument, with "*" as a word by itself meaning leave the original word (no other uses of "*" is allowed) 12) the replacement need not have the same number of triples as the pattern """ f = self.openrepairfile() if not f: return [] print "Reading repair file", `f.name`, "..." list = [] lineno = 0 while 1: line = f.readline() if not line: break lineno = lineno + 1 startlineno = lineno while line[-2:] == '\\\n': line = line[:-2] + ' ' + f.readline() lineno = lineno + 1 i = string.find(line, '#') if i >= 0: line = line[:i] words = map(string.strip, string.splitfields(line, ':')) if words == ['']: continue if len(words) <> 3: print "Line", startlineno, print ": bad line (not 3 colon-separated fields)" print `line` continue [fpat, pat, rep] = words if not fpat: fpat = "*" if not pat: print "Line", startlineno, print "Empty pattern" print `line` continue patparts = map(string.strip, string.splitfields(pat, ',')) repparts = map(string.strip, string.splitfields(rep, ',')) patterns = [] for p in patparts: if not p: print "Line", startlineno, print "Empty pattern part" print `line` continue pattern = string.split(p) if len(pattern) > 3: print "Line", startlineno, print "Pattern part has > 3 words" print `line` pattern = pattern[:3] else: while len(pattern) < 3: pattern.append("*") patterns.append(pattern) replacements = [] for p in repparts: if not p: print "Line", startlineno, print "Empty replacement part" print `line` continue replacement = string.split(p) if len(replacement) > 3: print "Line", startlineno, print "Pattern part has > 3 words" print `line` replacement = replacement[:3] else: while len(replacement) < 3: replacement.append("*") replacements.append(replacement) list.append((fpat, patterns, replacements)) return list def openrepairfile(self, filename = "REPAIR"): try: return open(filename, "r") except IOError, msg: print `filename`, ":", msg print "Cannot open repair file -- assume no repair needed" return None def initfiles(self): self.specmine = 0 self.defsmine = 0 self.scanmine = 0 self.specfile = sys.stdout self.defsfile = None self.scanfile = sys.stdin self.lineno = 0 self.line = "" def initpaths(self): self.includepath = [':', INCLUDEDIR] def initpatterns(self): self.head_pat = "^pascal[ \t]+" # XXX Mac specific! self.tail_pat = "[;={}]" self.type_pat = "pascal[ \t\n]+\([a-zA-Z0-9_]+\)[ \t\n]+" self.name_pat = "\([a-zA-Z0-9_]+\)[ \t\n]*" self.args_pat = "(\(\([^(;=)]+\|([^(;=)]*)\)*\))" self.whole_pat = self.type_pat + self.name_pat + self.args_pat self.sym_pat = "^[ \t]*\([a-zA-Z0-9_]+\)[ \t]*=" + \ "[ \t]*\([-0-9'\"][^\t\n,;}]*\),?" self.asplit_pat = "^\(.*[^a-zA-Z0-9_]\)\([a-zA-Z0-9_]+\)$" def compilepatterns(self): for name in dir(self): if name[-4:] == "_pat": pat = getattr(self, name) prog = regex.symcomp(pat) setattr(self, name[:-4], prog) def initosspecifics(self): if MacOS: self.filetype = 'TEXT' self.filecreator = CREATOR else: self.filetype = self.filecreator = None def setfiletype(self, filename): if MacOS and (self.filecreator or self.filetype): creator, type = MacOS.GetCreatorAndType(filename) if self.filecreator: creator = self.filecreator if self.filetype: type = self.filetype MacOS.SetCreatorAndType(filename, creator, type) def close(self): self.closefiles() def closefiles(self): self.closespec() self.closedefs() self.closescan() def closespec(self): tmp = self.specmine and self.specfile self.specfile = None if tmp: tmp.close() def closedefs(self): tmp = self.defsmine and self.defsfile self.defsfile = None if tmp: tmp.close() def closescan(self): tmp = self.scanmine and self.scanfile self.scanfile = None if tmp: tmp.close() def setoutput(self, spec, defs = None): self.closespec() self.closedefs() if spec: if type(spec) == StringType: file = self.openoutput(spec) mine = 1 else: file = spec mine = 0 self.specfile = file self.specmine = mine if defs: if type(defs) == StringType: file = self.openoutput(defs) mine = 1 else: file = defs mine = 0 self.defsfile = file self.defsmine = mine def openoutput(self, filename): file = open(filename, 'w') self.setfiletype(filename) return file def setinput(self, scan = sys.stdin): self.closescan() if scan: if type(scan) == StringType: file = self.openinput(scan) mine = 1 else: file = scan mine = 0 self.scanfile = file self.scanmine = mine self.lineno = 0 def openinput(self, filename): if not os.path.isabs(filename): for dir in self.includepath: fullname = os.path.join(dir, filename) #self.report("trying full name %s", `fullname`) try: return open(fullname, 'r') except IOError: pass # If not on the path, or absolute, try default open() return open(filename, 'r') def getline(self): if not self.scanfile: raise Error, "input file not set" self.line = self.scanfile.readline() if not self.line: raise EOFError self.lineno = self.lineno + 1 return self.line def scan(self): if not self.scanfile: self.error("No input file has been specified") return inputname = self.scanfile.name self.report("scanfile = %s", `inputname`) if not self.specfile: self.report("(No interface specifications will be written)") else: self.report("specfile = %s", `self.specfile.name`) self.specfile.write("# Generated from %s\n\n" % `inputname`) if not self.defsfile: self.report("(No symbol definitions will be written)") else: self.report("defsfile = %s", `self.defsfile.name`) self.defsfile.write("# Generated from %s\n\n" % `inputname`) self.alreadydone = [] try: while 1: try: line = self.getline() except EOFError: break if self.defsfile and self.sym.match(line) >= 0: self.dosymdef() continue if self.head.match(line) >= 0: self.dofuncspec() continue except EOFError: self.error("Uncaught EOF error") self.reportusedtypes() def dosymdef(self): name, defn = self.sym.group('name', 'defn') self.defsfile.write("%s = %s\n" % (name, defn)) def dofuncspec(self): raw = self.line while self.tail.search(raw) < 0: line = self.getline() raw = raw + line self.processrawspec(raw) def processrawspec(self, raw): if self.whole.search(raw) < 0: self.report("Bad raw spec: %s", `raw`) return type, name, args = self.whole.group('type', 'name', 'args') if name in self.alreadydone: self.report("Name has already been defined: %s", `name`) return self.report("==> %s %s <==", type, name) if self.blacklisted(type, name): self.error("*** %s %s blacklisted", type, name) return returnlist = [(type, name, 'ReturnMode')] returnlist = self.repairarglist(name, returnlist) [(type, name, returnmode)] = returnlist arglist = self.extractarglist(args) arglist = self.repairarglist(name, arglist) if self.unmanageable(type, name, arglist): ##for arg in arglist: ## self.report(" %s", `arg`) self.error("*** %s %s unmanageable", type, name) return self.alreadydone.append(name) self.generate(type, name, arglist) def extractarglist(self, args): args = string.strip(args) if not args or args == "void": return [] parts = map(string.strip, string.splitfields(args, ",")) arglist = [] for part in parts: arg = self.extractarg(part) arglist.append(arg) return arglist def extractarg(self, part): mode = "InMode" if self.asplit.match(part) < 0: self.error("Indecipherable argument: %s", `part`) return ("unknown", part, mode) type, name = self.asplit.group('type', 'name') type = regsub.gsub("\*", " ptr ", type) type = string.strip(type) type = regsub.gsub("[ \t]+", "_", type) return self.modifyarg(type, name, mode) def modifyarg(self, type, name, mode): if type[:6] == "const_": type = type[6:] elif type[-4:] == "_ptr": type = type[:-4] mode = "OutMode" if type[-4:] == "_far": type = type[:-4] return type, name, mode def repairarglist(self, functionname, arglist): arglist = arglist[:] i = 0 while i < len(arglist): for item in self.repairinstructions: if len(item) == 2: pattern, replacement = item functionpat = "*" else: functionpat, pattern, replacement = item if not fnmatch.fnmatchcase(functionname, functionpat): continue n = len(pattern) if i+n > len(arglist): continue current = arglist[i:i+n] for j in range(n): if not self.matcharg(pattern[j], current[j]): break else: # All items of the pattern match new = self.substituteargs( pattern, replacement, current) if new is not None: arglist[i:i+n] = new i = i+len(new) # No recursive substitutions break else: # No patterns match i = i+1 return arglist def matcharg(self, patarg, arg): return len(filter(None, map(fnmatch.fnmatchcase, arg, patarg))) == 3 def substituteargs(self, pattern, replacement, old): new = [] for k in range(len(replacement)): item = replacement[k] newitem = [item[0], item[1], item[2]] for i in range(3): if item[i] == '*': newitem[i] = old[k][i] elif item[i][:1] == '$': index = string.atoi(item[i][1:]) - 1 newitem[i] = old[index][i] new.append(tuple(newitem)) ##self.report("old: %s", `old`) ##self.report("new: %s", `new`) return new def generate(self, type, name, arglist): self.typeused(type, 'return') classname, listname = self.destination(type, name, arglist) if not self.specfile: return self.specfile.write("f = %s(%s, %s,\n" % (classname, type, `name`)) for atype, aname, amode in arglist: self.typeused(atype, amode) self.specfile.write(" (%s, %s, %s),\n" % (atype, `aname`, amode)) self.specfile.write(")\n") self.specfile.write("%s.append(f)\n\n" % listname) def destination(self, type, name, arglist): return "FunctionGenerator", "functions" def blacklisted(self, type, name): if type in self.blacklisttypes: ##self.report("return type %s is blacklisted", type) return 1 if name in self.blacklistnames: ##self.report("function name %s is blacklisted", name) return 1 return 0 def unmanageable(self, type, name, arglist): for atype, aname, amode in arglist: if atype in self.blacklisttypes: self.report("argument type %s is blacklisted", atype) return 1 return 0 def test(): input = "D:Development:THINK C:Mac #includes:Apple #includes:AppleEvents.h" output = "@aespecs.py" defsoutput = "@aedefs.py" s = Scanner(input, output, defsoutput) s.scan() if __name__ == '__main__': test()