# This script generates the Sound interface for Python. # It uses the "bgen" package to generate C code. # It execs the file sndgen.py which contain the function definitions # (sndgen.py was generated by sndscan.py, scanning the header file). from macsupport import * # define our own function and module generators class SndMixIn: pass class SndFunction(SndMixIn, OSErrFunctionGenerator): pass class SndMethod(SndMixIn, OSErrMethodGenerator): pass # includestuff etc. are imported from macsupport includestuff = includestuff + """ #ifdef WITHOUT_FRAMEWORKS #include #include /* for Set(Current)A5 */ #else #include #endif """ initstuff = initstuff + """ """ # define types used for arguments (in addition to standard and macsupport types) class SndChannelPtrType(OpaqueByValueType): def declare(self, name): # Initializing all SndChannelPtr objects to 0 saves # special-casing NewSndChannel(), where it is formally an # input-output parameter but we treat it as output-only # (since Python users are not supposed to allocate memory) Output("SndChannelPtr %s = 0;", name) SndChannelPtr = SndChannelPtrType('SndChannelPtr', 'SndCh') SndCommand = OpaqueType('SndCommand', 'SndCmd') SndCommand_ptr = OpaqueType('SndCommand', 'SndCmd') SndListHandle = OpaqueByValueType("SndListHandle", "ResObj") SPBPtr = OpaqueByValueType("SPBPtr", "SPBObj") ModalFilterUPP = FakeType("(ModalFilterUPP)0") # # NOTE: the following is pretty dangerous. For void pointers we pass buffer addresses # but we have no way to check that the buffer is big enough. This is the same problem # as in C, though (but Pythoneers may not be suspecting this...) void_ptr = Type("void *", "w") class SndCallBackType(InputOnlyType): def __init__(self): Type.__init__(self, 'PyObject*', 'O') def getargsCheck(self, name): Output("if (%s != Py_None && !PyCallable_Check(%s))", name, name) OutLbrace() Output('PyErr_SetString(PyExc_TypeError, "callback must be callable");') Output("goto %s__error__;", name) OutRbrace() def passInput(self, name): return "NewSndCallBackUPP(SndCh_UserRoutine)" def cleanup(self, name): # XXX This knows it is executing inside the SndNewChannel wrapper Output("if (_res != NULL && %s != Py_None)", name) OutLbrace() Output("SndChannelObject *p = (SndChannelObject *)_res;") Output("p->ob_itself->userInfo = (long)p;") Output("Py_INCREF(%s);", name) Output("p->ob_callback = %s;", name) OutRbrace() DedentLevel() Output(" %s__error__: ;", name) IndentLevel() SndCallBackProcPtr = SndCallBackType() SndCallBackUPP = SndCallBackProcPtr SndCompletionProcPtr = FakeType('(SndCompletionProcPtr)0') # XXX SndCompletionUPP = SndCompletionProcPtr ##InOutBuf128 = FixedInputOutputBufferType(128) StateBlock = StructInputOutputBufferType('StateBlock') AudioSelectionPtr = FakeType('0') # XXX ProcPtr = FakeType('0') # XXX FilePlayCompletionUPP = FakeType('0') # XXX SCStatus = StructOutputBufferType('SCStatus') SMStatus = StructOutputBufferType('SMStatus') CompressionInfo = StructOutputBufferType('CompressionInfo') includestuff = includestuff + """ #if !TARGET_API_MAC_CARBON /* Create a SndCommand object (an (int, int, int) tuple) */ static PyObject * SndCmd_New(SndCommand *pc) { return Py_BuildValue("hhl", pc->cmd, pc->param1, pc->param2); } #endif /* Convert a SndCommand argument */ static int SndCmd_Convert(PyObject *v, SndCommand *pc) { int len; pc->param1 = 0; pc->param2 = 0; if (PyTuple_Check(v)) { if (PyArg_ParseTuple(v, "h|hl", &pc->cmd, &pc->param1, &pc->param2)) return 1; PyErr_Clear(); return PyArg_ParseTuple(v, "Hhs#", &pc->cmd, &pc->param1, &pc->param2, &len); } return PyArg_Parse(v, "H", &pc->cmd); } static pascal void SndCh_UserRoutine(SndChannelPtr chan, SndCommand *cmd); /* Forward */ static pascal void SPB_completion(SPBPtr my_spb); /* Forward */ #if !TARGET_API_MAC_CARBON static pascal void SPB_interrupt(SPBPtr my_spb); /* Forward */ #endif """ finalstuff = finalstuff + """ /* Routine passed to Py_AddPendingCall -- call the Python callback */ static int SndCh_CallCallBack(void *arg) { SndChannelObject *p = (SndChannelObject *)arg; PyObject *args; PyObject *res; args = Py_BuildValue("(O(hhl))", p, p->ob_cmd.cmd, p->ob_cmd.param1, p->ob_cmd.param2); res = PyEval_CallObject(p->ob_callback, args); Py_DECREF(args); if (res == NULL) return -1; Py_DECREF(res); return 0; } /* Routine passed to NewSndChannel -- schedule a call to SndCh_CallCallBack */ static pascal void SndCh_UserRoutine(SndChannelPtr chan, SndCommand *cmd) { SndChannelObject *p = (SndChannelObject *)(chan->userInfo); if (p->ob_callback != NULL) { long A5 = SetA5(p->ob_A5); p->ob_cmd = *cmd; Py_AddPendingCall(SndCh_CallCallBack, (void *)p); SetA5(A5); } } /* SPB callbacks - Schedule callbacks to Python */ static int SPB_CallCallBack(void *arg) { SPBObject *p = (SPBObject *)arg; PyObject *args; PyObject *res; if ( p->ob_thiscallback == 0 ) return 0; args = Py_BuildValue("(O)", p); res = PyEval_CallObject(p->ob_thiscallback, args); p->ob_thiscallback = 0; Py_DECREF(args); if (res == NULL) return -1; Py_DECREF(res); return 0; } static pascal void SPB_completion(SPBPtr my_spb) { SPBObject *p = (SPBObject *)(my_spb->userLong); if (p && p->ob_completion) { long A5 = SetA5(p->ob_A5); p->ob_thiscallback = p->ob_completion; /* Hope we cannot get two at the same time */ Py_AddPendingCall(SPB_CallCallBack, (void *)p); SetA5(A5); } } #if !TARGET_API_MAC_CARBON static pascal void SPB_interrupt(SPBPtr my_spb) { SPBObject *p = (SPBObject *)(my_spb->userLong); if (p && p->ob_interrupt) { long A5 = SetA5(p->ob_A5); p->ob_thiscallback = p->ob_interrupt; /* Hope we cannot get two at the same time */ Py_AddPendingCall(SPB_CallCallBack, (void *)p); SetA5(A5); } } #endif """ # create the module and object definition and link them class SndObjectDefinition(ObjectDefinition): def outputStructMembers(self): ObjectDefinition.outputStructMembers(self) Output("/* Members used to implement callbacks: */") Output("PyObject *ob_callback;") Output("long ob_A5;"); Output("SndCommand ob_cmd;") def outputInitStructMembers(self): ObjectDefinition.outputInitStructMembers(self) Output("it->ob_callback = NULL;") Output("it->ob_A5 = SetCurrentA5();"); def outputCleanupStructMembers(self): ObjectDefinition.outputCleanupStructMembers(self) Output("Py_XDECREF(self->ob_callback);") def outputFreeIt(self, itselfname): Output("SndDisposeChannel(%s, 1);", itselfname) def outputConvert(self): pass # Not needed # class SpbObjectDefinition(ObjectDefinition): def outputStructMembers(self): Output("/* Members used to implement callbacks: */") Output("PyObject *ob_completion;") Output("PyObject *ob_interrupt;") Output("PyObject *ob_thiscallback;"); Output("long ob_A5;") Output("SPB ob_spb;") def outputNew(self): Output() Output("%sPyObject *%s_New(void)", self.static, self.prefix) OutLbrace() Output("%s *it;", self.objecttype) self.outputCheckNewArg() Output("it = PyObject_NEW(%s, &%s);", self.objecttype, self.typename) Output("if (it == NULL) return NULL;") self.outputInitStructMembers() Output("return (PyObject *)it;") OutRbrace() def outputInitStructMembers(self): Output("it->ob_completion = NULL;") Output("it->ob_interrupt = NULL;") Output("it->ob_thiscallback = NULL;") Output("it->ob_A5 = SetCurrentA5();") Output("memset((char *)&it->ob_spb, 0, sizeof(it->ob_spb));") Output("it->ob_spb.userLong = (long)it;") def outputCleanupStructMembers(self): ObjectDefinition.outputCleanupStructMembers(self) Output("self->ob_spb.userLong = 0;") Output("self->ob_thiscallback = 0;") Output("Py_XDECREF(self->ob_completion);") Output("Py_XDECREF(self->ob_interrupt);") def outputConvert(self): Output("%sint %s_Convert(PyObject *v, %s *p_itself)", self.static, self.prefix, self.itselftype) OutLbrace() self.outputCheckConvertArg() Output("if (!%s_Check(v))", self.prefix) OutLbrace() Output('PyErr_SetString(PyExc_TypeError, "%s required");', self.name) Output("return 0;") OutRbrace() Output("*p_itself = &((%s *)v)->ob_spb;", self.objecttype) Output("return 1;") OutRbrace() def outputSetattr(self): Output() Output("static int %s_setattr(%s *self, char *name, PyObject *value)", self.prefix, self.objecttype) OutLbrace() self.outputSetattrBody() OutRbrace() def outputSetattrBody(self): Output(""" int rv = 0; if (strcmp(name, "inRefNum") == 0) rv = PyArg_Parse(value, "l", &self->ob_spb.inRefNum); else if (strcmp(name, "count") == 0) rv = PyArg_Parse(value, "l", &self->ob_spb.count); else if (strcmp(name, "milliseconds") == 0) rv = PyArg_Parse(value, "l", &self->ob_spb.milliseconds); else if (strcmp(name, "buffer") == 0) rv = PyArg_Parse(value, "w#", &self->ob_spb.bufferPtr, &self->ob_spb.bufferLength); else if (strcmp(name, "completionRoutine") == 0) { self->ob_spb.completionRoutine = NewSICompletionUPP(SPB_completion); self->ob_completion = value; Py_INCREF(value); rv = 1; #if !TARGET_API_MAC_CARBON } else if (strcmp(name, "interruptRoutine") == 0) { self->ob_spb.completionRoutine = NewSIInterruptUPP(SPB_interrupt); self->ob_interrupt = value; Py_INCREF(value); rv = 1; #endif } if ( rv ) return 0; else return -1;""") def outputGetattrHook(self): Output(""" if (strcmp(name, "inRefNum") == 0) return Py_BuildValue("l", self->ob_spb.inRefNum); else if (strcmp(name, "count") == 0) return Py_BuildValue("l", self->ob_spb.count); else if (strcmp(name, "milliseconds") == 0) return Py_BuildValue("l", self->ob_spb.milliseconds); else if (strcmp(name, "error") == 0) return Py_BuildValue("h", self->ob_spb.error);""") sndobject = SndObjectDefinition('SndChannel', 'SndCh', 'SndChannelPtr') spbobject = SpbObjectDefinition('SPB', 'SPBObj', 'SPBPtr') spbgenerator = ManualGenerator("SPB", "_res = SPBObj_New(); return _res;") module = MacModule('_Snd', 'Snd', includestuff, finalstuff, initstuff) module.addobject(sndobject) module.addobject(spbobject) module.add(spbgenerator) # create lists of functions and object methods functions = [] sndmethods = [] # populate the lists execfile('sndgen.py') # add the functions and methods to the module and object, respectively for f in functions: module.add(f) for f in sndmethods: sndobject.add(f) # generate output SetOutputFileName('_Sndmodule.c') module.generate()