# Scan an Apple header file, generating a Python file of generator calls. import sys from bgenlocations import TOOLBOXDIR, BGENDIR sys.path.append(BGENDIR) from scantools import Scanner_OSX LONG = "CoreFoundation" SHORT = "cf" OBJECTS = ("CFTypeRef", "CFArrayRef", "CFMutableArrayRef", "CFDataRef", "CFMutableDataRef", "CFDictionaryRef", "CFMutableDictionaryRef", "CFStringRef", "CFMutableStringRef", "CFURLRef", ## "CFPropertyListRef", ) # ADD object typenames here def main(): input = [ "CFBase.h", "CFArray.h", ## "CFBag.h", ## "CFBundle.h", ## "CFCharacterSet.h", "CFData.h", ## "CFDate.h", "CFDictionary.h", ## "CFNumber.h", ## "CFPlugIn.h", "CFPreferences.h", "CFPropertyList.h", ## "CFSet.h", "CFString.h", ## "CFStringEncodingExt.h", ## "CFTimeZone.h", "CFURL.h", ] output = SHORT + "gen.py" defsoutput = TOOLBOXDIR + LONG + ".py" scanner = MyScanner(input, output, defsoutput) scanner.scan() scanner.gentypetest(SHORT+"typetest.py") scanner.close() print "=== Testing definitions output code ===" execfile(defsoutput, {}, {}) print "=== Done scanning and generating, now importing the generated code... ===" exec "import " + SHORT + "support" print "=== Done. It's up to you to compile it now! ===" class MyScanner(Scanner_OSX): def destination(self, type, name, arglist): classname = "Function" listname = "functions" if arglist and name[:13] != 'CFPreferences': t, n, m = arglist[0] if t in OBJECTS and m == "InMode": classname = "Method" listname = t + "_methods" # Special case for the silly first AllocatorRef argument if t == 'CFAllocatorRef' and m == 'InMode' and len(arglist) > 1: t, n, m = arglist[1] if t in OBJECTS and m == "InMode": classname = "MethodSkipArg1" listname = t + "_methods" return classname, listname def writeinitialdefs(self): self.defsfile.write("def FOUR_CHAR_CODE(x): return x\n") def makeblacklistnames(self): return [ # Memory allocator functions "CFAllocatorGetDefault", "CFAllocatorSetDefault", "CFAllocatorAllocate", "CFAllocatorReallocate", "CFAllocatorDeallocate", "CFGetAllocator", # Array functions we skip for now. "CFArrayGetValueAtIndex", # Data pointer functions. Skip for now. "CFDataGetBytePtr", "CFDataGetMutableBytePtr", "CFDataGetBytes", # XXXX Should support this one # String functions "CFStringGetPascalString", # Use the C-string methods. "CFStringGetPascalStringPtr", # TBD automatically "CFStringGetCStringPtr", "CFStringGetCharactersPtr", "CFStringGetCString", "CFStringGetCharacters", "CFURLCreateStringWithFileSystemPath", # Gone in later releases "CFStringCreateMutableWithExternalCharactersNoCopy", # Not a clue... "CFStringSetExternalCharactersNoCopy", "CFStringGetCharacterAtIndex", # No format for single unichars yet. "kCFStringEncodingInvalidId", # incompatible constant declaration "CFPropertyListCreateFromXMLData", # Manually generated ] def makegreylist(self): return [] def makeblacklisttypes(self): return [ "CFComparatorFunction", # Callback function pointer "CFAllocatorContext", # Not interested in providing our own allocator "void_ptr_ptr", # Tricky. This is the initializer for arrays... "void_ptr", # Ditto for various array lookup methods "CFArrayApplierFunction", # Callback function pointer "CFDictionaryApplierFunction", # Callback function pointer "va_list", # For printf-to-a-cfstring. Use Python. "const_CFStringEncoding_ptr", # To be done, I guess ] def makerepairinstructions(self): return [ # Buffers in CF seem to be passed as UInt8 * normally. ([("UInt8_ptr", "*", "InMode"), ("CFIndex", "*", "InMode")], [("UcharInBuffer", "*", "*")]), ([("UniChar_ptr", "*", "InMode"), ("CFIndex", "*", "InMode")], [("UnicodeInBuffer", "*", "*")]), # Some functions return a const char *. Don't worry, we won't modify it. ([("const_char_ptr", "*", "ReturnMode")], [("return_stringptr", "*", "*")]), # base URLs are optional (pass None for NULL) ([("CFURLRef", "baseURL", "InMode")], [("OptionalCFURLRef", "*", "*")]), # We handle CFPropertyListRef objects as plain CFTypeRef ([("CFPropertyListRef", "*", "*")], [("CFTypeRef", "*", "*")]), ] if __name__ == "__main__": main()