#define ZDIVERR(str) EXCERR(PyExc_ZeroDivisionError, str)
#define SYSERR(str) EXCERR(PyExc_SystemError, str)
#define NIERR(str) EXCERR(PyExc_NotImplementedError, str)
-#define INDEXERR(idx) do { \
+#define MAPERR(idx) do { \
PyErr_SetObject(PyExc_KeyError, idx); \
goto end; \
} while (0)
extern PyObject *abstract_pynew(PyTypeObject *, PyObject *, PyObject *);
/* A `tp_new' function which refuses to make the object. */
-#define KWLIST (/*unconst*/ char **)kwlist
+#ifndef CONVERT_CAREFULLY
+# define CONVERT_CAREFULLY(newty, expty, obj) \
+ (!sizeof(*(expty *)0 = (obj)) + (/*unconst*/ newty)(obj))
+ /* Convert OBJ to the type NEWTY, having previously checked that it is
+ * convertible to the expected type EXPTY.
+ *
+ * Because of the way we set up types, we can make many kinds of tables be
+ * `const' which can't usually be so (because Python will want to fiddle
+ * with their reference counts); and, besides, Python's internals are
+ * generally quite bad at being `const'-correct about tables. One frequent
+ * application of this macro, then, is in removing `const' from a type
+ * without sacrificing all type safety. The other common use is in
+ * checking that method function types match up with the signatures
+ * expected in their method definitions.
+ */
+#endif
+
+#define KWLIST CONVERT_CAREFULLY(char **, const char *const *, kwlist)
/* Strip `const' qualifiers from the keyword list `kwlist'. Useful when
* calling `PyArg_ParseTupleAndKeywords', which isn't `const'-correct.
*/
#define INITTYPE(ty, base) INITTYPE_META(ty, base, type)
/* Macros to initialize a type from its skeleton. */
+/* Macros for filling in `PyMethodDef' tables, ensuring that functions have
+ * the expected signatures.
+ */
+#define STD_METHOD(decor, func, flags, doc) \
+ { #func, decor(func), METH_VARARGS | flags, doc },
+#define KEYWORD_METHOD(decor, func, flags, doc) \
+ { #func, \
+ CONVERT_CAREFULLY(PyCFunction, PyCFunctionWithKeywords, decor(func)), \
+ METH_VARARGS | METH_KEYWORDS | flags, \
+ doc },
+#define NOARG_METHOD(decor, func, flags, doc) \
+ { #func, \
+ CONVERT_CAREFULLY(PyCFunction, PyNoArgsFunction, decor(func)), \
+ METH_NOARGS | flags, \
+ doc },
+
/* Convenience wrappers for filling in `PyMethodDef' tables, following
* Pyke naming convention. Define `METHNAME' locally as
*
*
* around the method table.
*/
-#define METH(func, doc) \
- { #func, METHNAME(func), METH_VARARGS, doc },
-#define KWMETH(func, doc) \
- { #func, (PyCFunction)METHNAME(func), \
- METH_VARARGS | METH_KEYWORDS, doc },
+#define METH(func, doc) STD_METHOD(METHNAME, func, 0, doc)
+#define KWMETH(func, doc) KEYWORD_METHOD(METHNAME, func, 0, doc)
+#define NAMETH(func, doc) NOARG_METHOD(METHNAME, func, 0, doc)
+#define CMTH(func, doc) STD_METHOD(METHNAME, func, METH_CLASS, doc)
+#define KWCMTH(func, doc) KEYWORD_METHOD(METHNAME, func, METH_CLASS, doc)
+#define NACMTH(func, doc) NOARG_METHOD(METHNAME, func, METH_CLASS, doc)
+#define SMTH(func, doc) STD_METHOD(METHNAME, func, METH_STATIC, doc)
+#define KWSMTH(func, doc) KEYWORD_METHOD(METHNAME, func, METH_STATIC, doc)
+#define NASMTH(func, doc) NOARG_METHOD(METHNAME, func, METH_STATIC, doc)
/* Convenience wrappers for filling in `PyGetSetDef' tables, following Pyke
* naming convention. Define `GETSETNAME' locally as
#define GETSET(func, doc) \
{ #func, GETSETNAME(get, func), GETSETNAME(set, func), doc },
-/* Convenience wrapper for filling in `PyMemberDef' tables. Define
+/* Convenience wrappers for filling in `PyMemberDef' tables. Define
* `MEMBERSTRUCT' locally as
*
* #define MEMBERSTRUCT foo_pyobj
*
* around the member table.
*/
-#define MEMBER(name, ty, f, doc) \
- { #name, ty, offsetof(MEMBERSTRUCT, name), f, doc },
+#define MEMRNM(name, ty, mem, f, doc) \
+ { #name, ty, offsetof(MEMBERSTRUCT, mem), f, doc },
+#define MEMBER(name, ty, f, doc) MEMRNM(name, ty, name, f, doc)
+
+/* Wrappers for filling in pointers in a `PyTypeObject' structure, (a)
+ * following Pyke naming convention, and (b) stripping `const' from the types
+ * without losing type safety.
+ */
+#define UNCONST_TYPE_SLOT(type, suffix, op, ty) \
+ CONVERT_CAREFULLY(type *, const type *, op ty##_py##suffix)
+#define PYGETSET(ty) UNCONST_TYPE_SLOT(PyGetSetDef, getset, NOTHING, ty)
+#define PYMETHODS(ty) UNCONST_TYPE_SLOT(PyMethodDef, methods, NOTHING, ty)
+#define PYMEMBERS(ty) UNCONST_TYPE_SLOT(PyMemberDef, members, NOTHING, ty)
+#define PYNUMBER(ty) UNCONST_TYPE_SLOT(PyNumberMethods, number, &, ty)
+#define PYSEQUENCE(ty) UNCONST_TYPE_SLOT(PySequenceMethods, sequence, &, ty)
+#define PYMAPPING(ty) UNCONST_TYPE_SLOT(PyMappingMethods, mapping, &, ty)
+#define PYBUFFER(ty) UNCONST_TYPE_SLOT(PyBufferProcs, buffer, &, ty)
/*----- Populating modules ------------------------------------------------*/
/* The overall module object. */
extern PyObject *mkexc(PyObject */*mod*/, PyObject */*base*/,
- const char */*name*/, PyMethodDef */*methods*/);
+ const char */*name*/, const PyMethodDef */*methods*/);
/* Make and return an exception class called NAME, which will end up in
* module MOD (though it is not added at this time). The new class is a
* subclass of BASE. Attach the METHODS to it.
/*----- Generic mapping support -------------------------------------------*/
/* Mapping methods. */
-#define GMAP_METH(func, doc) { #func, gmapmeth_##func, METH_VARARGS, doc },
-#define GMAP_KWMETH(func, doc) \
- { #func, (PyCFunction)gmapmeth_##func, METH_VARARGS|METH_KEYWORDS, doc },
+#define GMAP_METMNAME(func) gmapmeth_##func
+#define GMAP_METH(func, doc) STD_METHOD(GMAP_METMNAME, func, 0, doc)
+#define GMAP_KWMETH(func, doc) KEYWORD_METHOD(GMAP_METMNAME, func, 0, doc)
+#define GMAP_NAMETH(func, doc) NOARG_METHOD(GMAP_METMNAME, func, 0, doc)
#define GMAP_METHDECL(func, doc) \
extern PyObject *gmapmeth_##func(PyObject *, PyObject *);
#define GMAP_KWMETHDECL(func, doc) \
extern PyObject *gmapmeth_##func(PyObject *, PyObject *, PyObject *);
+#define GMAP_NAMETHDECL(func, doc) \
+ extern PyObject *gmapmeth_##func(PyObject *);
-#define GMAP_DOROMETHODS(METH, KWMETH) \
+#define GMAP_DOROMETHODS(METH, KWMETH, NAMETH) \
METH (has_key, "D.has_key(KEY) -> BOOL") \
- METH (keys, "D.keys() -> LIST") \
- METH (values, "D.values() -> LIST") \
- METH (items, "D.items() -> LIST") \
- METH (iterkeys, "D.iterkeys() -> ITER") \
- METH (itervalues, "D.itervalues() -> ITER") \
- METH (iteritems, "D.iteritems() -> ITER") \
+ NAMETH(keys, "D.keys() -> LIST") \
+ NAMETH(values, "D.values() -> LIST") \
+ NAMETH(items, "D.items() -> LIST") \
+ NAMETH(iterkeys, "D.iterkeys() -> ITER") \
+ NAMETH(itervalues, "D.itervalues() -> ITER") \
+ NAMETH(iteritems, "D.iteritems() -> ITER") \
KWMETH(get, "D.get(KEY, [default = None]) -> VALUE")
-#define GMAP_DOMETHODS(METH, KWMETH) \
- GMAP_DOROMETHODS(METH, KWMETH) \
- METH (clear, "D.clear()") \
+#define GMAP_DOMETHODS(METH, KWMETH, NAMETH) \
+ GMAP_DOROMETHODS(METH, KWMETH, NAMETH) \
+ NAMETH(clear, "D.clear()") \
KWMETH(setdefault, "D.setdefault(K, [default = None]) -> VALUE") \
KWMETH(pop, "D.pop(KEY, [default = <error>]) -> VALUE") \
- METH (popitem, "D.popitem() -> (KEY, VALUE)") \
+ NAMETH(popitem, "D.popitem() -> (KEY, VALUE)") \
METH (update, "D.update(MAP)")
-GMAP_DOMETHODS(GMAP_METHDECL, GMAP_KWMETHDECL)
-#define GMAP_ROMETHODS GMAP_DOROMETHODS(GMAP_METH, GMAP_KWMETH)
-#define GMAP_METHODS GMAP_DOMETHODS(GMAP_METH, GMAP_KWMETH)
+GMAP_DOMETHODS(GMAP_METHDECL, GMAP_KWMETHDECL, GMAP_NAMETHDECL)
+#define GMAP_ROMETHODS GMAP_DOROMETHODS(GMAP_METH, GMAP_KWMETH, GMAP_NAMETH)
+#define GMAP_METHODS GMAP_DOMETHODS(GMAP_METH, GMAP_KWMETH, GMAP_NAMETH)
/* Mapping protocol implementation. */
extern Py_ssize_t gmap_pysize(PyObject *); /* for `mp_length' */
-extern PySequenceMethods gmap_pysequence; /* for `tp_as_sequence' */
-extern PyMethodDef gmap_pymethods[]; /* all the standard methods */
+extern const PySequenceMethods gmap_pysequence; /* for `tp_as_sequence' */
+extern const PyMethodDef gmap_pymethods[]; /* all the standard methods */
/*----- That's all, folks -------------------------------------------------*/