# This script generates a Python interface for an Apple Macintosh Manager. # It uses the "bgen" package to generate C code. # The function specifications are generated by scanning the mamager's header file, # using the "scantools" package (customized for this particular manager). #error missing SetActionFilter import string # Declarations that change for each manager MODNAME = '_CG' # The name of the module # The following is *usually* unchanged but may still require tuning MODPREFIX = 'CG' # The prefix for module-wide routines INPUTFILE = string.lower(MODPREFIX) + 'gen.py' # The file generated by the scanner OUTPUTFILE = MODNAME + "module.c" # The file generated by this program from macsupport import * CGrafPtr = OpaqueByValueType("CGrafPtr", "GrafObj") # Create the type objects includestuff = includestuff + """ #ifdef WITHOUT_FRAMEWORKS #include #include #else #include #endif #if !TARGET_API_MAC_OSX /* This code is adapted from the CallMachOFramework demo at: http://developer.apple.com/samplecode/Sample_Code/Runtime_Architecture/CallMachOFramework.htm It allows us to call Mach-O functions from CFM apps. */ #include #include "CFMLateImport.h" static OSStatus LoadFrameworkBundle(CFStringRef framework, CFBundleRef *bundlePtr) // This routine finds a the named framework and creates a CFBundle // object for it. It looks for the framework in the frameworks folder, // as defined by the Folder Manager. Currently this is // "/System/Library/Frameworks", but we recommend that you avoid hard coded // paths to ensure future compatibility. // // You might think that you could use CFBundleGetBundleWithIdentifier but // that only finds bundles that are already loaded into your context. // That would work in the case of the System framework but it wouldn't // work if you're using some other, less-obvious, framework. { OSStatus err; FSRef frameworksFolderRef; CFURLRef baseURL; CFURLRef bundleURL; *bundlePtr = nil; baseURL = nil; bundleURL = nil; // Find the frameworks folder and create a URL for it. err = FSFindFolder(kOnAppropriateDisk, kFrameworksFolderType, true, &frameworksFolderRef); if (err == noErr) { baseURL = CFURLCreateFromFSRef(kCFAllocatorSystemDefault, &frameworksFolderRef); if (baseURL == nil) { err = coreFoundationUnknownErr; } } // Append the name of the framework to the URL. if (err == noErr) { bundleURL = CFURLCreateCopyAppendingPathComponent(kCFAllocatorSystemDefault, baseURL, framework, false); if (bundleURL == nil) { err = coreFoundationUnknownErr; } } // Create a bundle based on that URL and load the bundle into memory. // We never unload the bundle, which is reasonable in this case because // the sample assumes that you'll be calling functions from this // framework throughout the life of your application. if (err == noErr) { *bundlePtr = CFBundleCreate(kCFAllocatorSystemDefault, bundleURL); if (*bundlePtr == nil) { err = coreFoundationUnknownErr; } } if (err == noErr) { if ( ! CFBundleLoadExecutable( *bundlePtr ) ) { err = coreFoundationUnknownErr; } } // Clean up. if (err != noErr && *bundlePtr != nil) { CFRelease(*bundlePtr); *bundlePtr = nil; } if (bundleURL != nil) { CFRelease(bundleURL); } if (baseURL != nil) { CFRelease(baseURL); } return err; } // The CFMLateImport approach requires that you define a fragment // initialisation routine that latches the fragment's connection // ID and locator. If your code already has a fragment initialiser // you will have to integrate the following into it. static CFragConnectionID gFragToFixConnID; static FSSpec gFragToFixFile; static CFragSystem7DiskFlatLocator gFragToFixLocator; extern OSErr FragmentInit(const CFragInitBlock *initBlock); extern OSErr FragmentInit(const CFragInitBlock *initBlock) { __initialize(initBlock); /* call the "original" initializer */ gFragToFixConnID = (CFragConnectionID) initBlock->closureID; gFragToFixFile = *(initBlock->fragLocator.u.onDisk.fileSpec); gFragToFixLocator = initBlock->fragLocator.u.onDisk; gFragToFixLocator.fileSpec = &gFragToFixFile; return noErr; } #endif extern int GrafObj_Convert(PyObject *, GrafPtr *); /* ** Manual converters */ PyObject *CGPoint_New(CGPoint *itself) { return Py_BuildValue("(ff)", itself->x, itself->y); } int CGPoint_Convert(PyObject *v, CGPoint *p_itself) { if( !PyArg_Parse(v, "(ff)", &p_itself->x, &p_itself->y) ) return 0; return 1; } PyObject *CGRect_New(CGRect *itself) { return Py_BuildValue("(ffff)", itself->origin.x, itself->origin.y, itself->size.width, itself->size.height); } int CGRect_Convert(PyObject *v, CGRect *p_itself) { if( !PyArg_Parse(v, "(ffff)", &p_itself->origin.x, &p_itself->origin.y, &p_itself->size.width, &p_itself->size.height) ) return 0; return 1; } PyObject *CGAffineTransform_New(CGAffineTransform *itself) { return Py_BuildValue("(ffffff)", itself->a, itself->b, itself->c, itself->d, itself->tx, itself->ty); } int CGAffineTransform_Convert(PyObject *v, CGAffineTransform *p_itself) { if( !PyArg_Parse(v, "(ffffff)", &p_itself->a, &p_itself->b, &p_itself->c, &p_itself->d, &p_itself->tx, &p_itself->ty) ) return 0; return 1; } """ initstuff = initstuff + """ #if !TARGET_API_MAC_OSX CFBundleRef sysBundle; OSStatus err; if (&LoadFrameworkBundle == NULL) { PyErr_SetString(PyExc_ImportError, "CoreCraphics not supported"); return; } err = LoadFrameworkBundle(CFSTR("ApplicationServices.framework"), &sysBundle); if (err == noErr) err = CFMLateImportBundle(&gFragToFixLocator, gFragToFixConnID, FragmentInit, "\pCGStubLib", sysBundle); if (err != noErr) { PyErr_SetString(PyExc_ImportError, "CoreCraphics not supported"); return; }; #endif /* !TARGET_API_MAC_OSX */ """ class MyOpaqueByValueType(OpaqueByValueType): """Sort of a mix between OpaqueByValueType and OpaqueType.""" def mkvalueArgs(self, name): return "%s, &%s" % (self.new, name) CGPoint = MyOpaqueByValueType('CGPoint', 'CGPoint') CGRect = MyOpaqueByValueType('CGRect', 'CGRect') CGAffineTransform = MyOpaqueByValueType('CGAffineTransform', 'CGAffineTransform') char_ptr = Type("char *", "s") CGTextEncoding = int CGLineCap = int CGLineJoin = int CGTextDrawingMode = int CGPathDrawingMode = int # The real objects CGContextRef = OpaqueByValueType("CGContextRef", "CGContextRefObj") class MyObjectDefinition(GlobalObjectDefinition): def outputStructMembers(self): ObjectDefinition.outputStructMembers(self) def outputCleanupStructMembers(self): Output("CGContextRelease(self->ob_itself);") # Create the generator groups and link them module = MacModule(MODNAME, MODPREFIX, includestuff, finalstuff, initstuff) CGContextRef_object = MyObjectDefinition('CGContextRef', 'CGContextRefObj', 'CGContextRef') # ADD object here module.addobject(CGContextRef_object) Function = FunctionGenerator Method = MethodGenerator CGContextRef_methods = [] # ADD _methods initializer here execfile(INPUTFILE) # manual method, lives in Quickdraw.h f = Method(void, 'SyncCGContextOriginWithPort', (CGContextRef, 'ctx', InMode), (CGrafPtr, 'port', InMode), ) CGContextRef_methods.append(f) CreateCGContextForPort_body = """\ GrafPtr port; CGContextRef ctx; OSStatus _err; if (!PyArg_ParseTuple(_args, "O&", GrafObj_Convert, &port)) return NULL; _err = CreateCGContextForPort(port, &ctx); if (_err != noErr) if (_err != noErr) return PyMac_Error(_err); _res = Py_BuildValue("O&", CGContextRefObj_New, ctx); return _res; """ f = ManualGenerator("CreateCGContextForPort", CreateCGContextForPort_body); f.docstring = lambda: "(CGrafPtr) -> CGContextRef" module.add(f) # ADD add forloop here for f in CGContextRef_methods: CGContextRef_object.add(f) # generate output (open the output file as late as possible) SetOutputFileName(OUTPUTFILE) module.generate()