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10e6f88a MW |
1 | /* -*-c-*- |
2 | * | |
3 | * Pyke: the Python Kit for Extensions | |
4 | * | |
5 | * (c) 2019 Straylight/Edgeware | |
6 | */ | |
7 | ||
8 | /*----- Licensing notice --------------------------------------------------* | |
9 | * | |
10 | * This file is part of Pyke: the Python Kit for Extensions. | |
11 | * | |
12 | * Pyke is free software: you can redistribute it and/or modify it under | |
13 | * the terms of the GNU General Public License as published by the Free | |
14 | * Software Foundation; either version 2 of the License, or (at your | |
15 | * option) any later version. | |
16 | * | |
17 | * Pyke is distributed in the hope that it will be useful, but WITHOUT | |
18 | * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
19 | * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
20 | * for more details. | |
21 | * | |
22 | * You should have received a copy of the GNU General Public License | |
23 | * along with Pyke. If not, write to the Free Software Foundation, Inc., | |
24 | * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. | |
25 | */ | |
26 | ||
27 | #ifndef PYKE_H | |
28 | #define PYKE_H | |
29 | ||
30 | #ifdef __cplusplus | |
31 | extern "C" { | |
32 | #endif | |
33 | ||
34 | /*----- Header files ------------------------------------------------------*/ | |
35 | ||
36 | #define PY_SSIZE_T_CLEAN | |
37 | ||
38 | #include <Python.h> | |
39 | #include <structmember.h> | |
40 | ||
41 | /*----- Other preliminaries -----------------------------------------------*/ | |
42 | ||
43 | #define NOTHING | |
44 | #define COMMA , | |
45 | ||
46 | /*----- Symbol visibility -------------------------------------------------* | |
47 | * | |
48 | * This library is very messy regarding symbol namespace. Keep this mess | |
49 | * within our shared-object. | |
50 | */ | |
51 | ||
52 | #define GOBBLE_SEMI extern int notexist | |
53 | #if defined(__GNUC__) && defined(__ELF__) | |
54 | # define PRIVATE_SYMBOLS _Pragma("GCC visibility push(hidden)") GOBBLE_SEMI | |
55 | # define PUBLIC_SYMBOLS _Pragma("GCC visibility pop") GOBBLE_SEMI | |
56 | # define EXPORT __attribute__((__visibility__("default"))) | |
57 | #else | |
58 | # define PRIVATE_SYMBOLS GOBBLE_SEMI | |
59 | # define PUBLIC_SYMBOLS GOBBLE_SEMI | |
60 | # define EXPORT | |
61 | #endif | |
62 | ||
63 | PRIVATE_SYMBOLS; | |
64 | ||
2a448f86 MW |
65 | /*----- Python version compatibility hacks --------------------------------*/ |
66 | ||
67 | /* The handy `Py_TYPE' and `Py_SIZE' macros turned up in 2.6. Define them if | |
68 | * they're not already here. | |
69 | */ | |
70 | #ifndef Py_TYPE | |
71 | # define Py_TYPE(obj) (((PyObject *)(obj))->ob_type) | |
72 | #endif | |
73 | #ifndef Py_SIZE | |
74 | # define Py_SIZE(obj) (((PyVarObject *)(obj))->ob_size) | |
75 | #endif | |
76 | ||
591bf41b MW |
77 | /* Python 3 added internal structure to the various object headers, and |
78 | * defined a new macro `PyVarObject_HEAD_INIT' to initialize variable-length | |
79 | * static instances correctly. Define it if it's not already here. | |
80 | */ | |
81 | #ifndef PyVarObject_HEAD_INIT | |
82 | # define PyVarObject_HEAD_INIT(super, sz) PyObject_HEAD_INIT(super) sz, | |
83 | #endif | |
84 | ||
d6d78edc MW |
85 | /* Python 3.2 changed the type of hash values, so paper over this annoying |
86 | * difference. | |
87 | */ | |
88 | #if PY_VERSION_HEX < 0x03020000 | |
89 | typedef long Py_hash_t; | |
90 | #endif | |
91 | ||
2135a6d3 MW |
92 | /* Plain octet strings. Python 2 calls these `str', while Python 3 calls |
93 | * them `bytes'. We call them `bin' here, and define the following. | |
94 | * | |
95 | * * `BINOBJ' is the C type of a `bin' object. | |
96 | * * `BIN_TYPE' is the Python `type' object for `bin'. | |
97 | * * `BIN_CHECK(OBJ)' is true if OBJ is a `bin' object. | |
98 | * * `BIN_PTR(OBJ)' points to the first octet of OBJ, without checking! | |
99 | * * `BIN_LEN(OBJ)' yields the length of OBJ in octets, without checking! | |
100 | * * `BIN_FROMSTR(STR)' makes a `bin' object from a null-terminated string. | |
101 | * * `BIN_FORMAT(FMT, ARGS...)' and `BIN_VFORMAT(FMT, AP)' make a `bin' | |
102 | * object from a `printf'-like format string and arguments. | |
103 | * * `BIN_PREPAREWRITE(OBJ, PTR, LEN)' prepares to make a `bin' object: it | |
104 | * sets PTR to point to a buffer of LEN bytes; call `BIN_DONEWRITE' when | |
105 | * finished. The variable OBJ will eventually be the resulting object, | |
106 | * but until `BIN_DONEWRITE' is called, it may in fact be some different | |
107 | * object. | |
108 | * * `BIN_DONEWRITE(OBJ, LEN)' completes making a `bin' object: it adjusts | |
109 | * its length to be LEN, which must not be larger than the LEN given to | |
110 | * `BIN_PREPAREWRITE', and sets OBJ to point to the finished object. | |
111 | * * `BIN_SETLEN(OBJ, LEN)' adjusts the length of OBJ downwards to LEN, | |
112 | * without checking! | |
113 | # * `Y' is a format character for `PyArg_ParseTuple...' for retrieving a | |
114 | * null-terminated octet string from a `bin' object. | |
115 | # * `YN' is a format character for `PyArg_ParseTuple...' for retrieving an | |
116 | * octet string and length from any sort-of vaguely binary-ish object. | |
117 | */ | |
118 | #define BINOBJ PyStringObject | |
119 | #define BIN_TYPE PyString_Type | |
120 | #define BIN_CHECK(obj) PyString_Check(obj) | |
121 | #define BIN_PTR(obj) PyString_AS_STRING(obj) | |
122 | #define BIN_LEN(obj) PyString_GET_SIZE(obj) | |
123 | #define BIN_FROMSTR(str) PyString_FromString(str) | |
124 | #define BIN_FROMSTRLEN(str, len) PyString_FromStringAndSize(str, len) | |
125 | #define BIN_FORMAT PyString_FromFormat | |
126 | #define BIN_VFORMAT PyString_FromFormatV | |
127 | #define BIN_PREPAREWRITE(obj, ptr, sz) do { \ | |
128 | (obj) = PyString_FromStringAndSize(0, (sz)); \ | |
129 | (ptr) = PyString_AS_STRING(obj); \ | |
130 | } while (0) | |
131 | #define BIN_DONEWRITE(obj, sz) do Py_SIZE(obj) = (sz); while (0) | |
132 | #define BIN_SETLEN(obj, len) do Py_SIZE(obj) = (len); while (0) | |
133 | #define Y "s" | |
134 | #define YN "s#" | |
135 | ||
136 | /* Text strings. Both Python 2 and Python 3 call these `str', but they're | |
137 | * very different because a Python 3 `str' is Unicode inside. When dealing | |
138 | * with Python 3 text, the data is UTF-8 encoded. We call them `text' here, | |
139 | * and define the following. | |
140 | * | |
141 | * * `TEXTOBJ' is the C type of a `text' object. | |
142 | * * `TEXT_TYPE' is the Python `type' object for `text'. | |
143 | * * `TEXT_CHECK(OBJ)' is true if OBJ is a `text' object. | |
144 | * * `TEXT_STR(OBJ)' points to the first byte of a null-terminated string | |
145 | * OBJ, or is null. | |
146 | * * `TEXT_PTR(OBJ)' points to the first byte of OBJ, without checking! | |
147 | * * `TEXT_LEN(OBJ)' yields the length of OBJ in octets, without checking! | |
148 | * * `TEXT_FROMSTR(STR)' makes a `text' object from a null-terminated | |
149 | * string. | |
150 | * * `TEXT_FORMAT(FMT, ARGS...)' and `TEST_VFORMAT(FMT, AP)' make a `text' | |
151 | * object from a `printf'-like format string and arguments. | |
152 | * * `TEXT_PREPAREWRITE(OBJ, PTR, LEN)' prepares to make a `text' object: | |
153 | * it sets PTR to point to a buffer of LEN bytes; call `TEXT_DONEWRITE' | |
154 | * when finished. The variable OBJ will eventually be the resulting | |
155 | * object, but until `TEXT_DONEWRITE' is called, it may in fact be some | |
156 | * different object. | |
157 | * * `TEXT_DONEWRITE(OBJ, LEN)' completes making a `text' object: it | |
158 | * adjusts its length to be LEN, which must not be larger than the LEN | |
159 | * given to `TEXT_PREPAREWRITE', and sets OBJ to point to the finished | |
160 | * object. | |
161 | * | |
162 | * (Use `s' and `s#' in `PyArg_ParseTuple...'.) | |
163 | */ | |
164 | #define TEXTOBJ PyStringObject | |
165 | #define TEXT_TYPE PyString_Type | |
166 | #define TEXT_CHECK(obj) PyString_Check(obj) | |
167 | #define TEXT_PTR(obj) PyString_AS_STRING(obj) | |
168 | #define TEXT_STR(obj) PyString_AsString(obj) | |
169 | #define TEXT_PTRLEN(obj, ptr, len) do { \ | |
170 | (ptr) = PyString_AS_STRING(obj); \ | |
171 | (len) = PyString_GET_SIZE(obj); \ | |
172 | } while (0) | |
173 | #define TEXT_FORMAT PyString_FromFormat | |
174 | #define TEXT_VFORMAT PyString_FromFormatV | |
175 | #define TEXT_PREPAREWRITE(obj, ptr, sz) do { \ | |
176 | (obj) = PyString_FromStringAndSize(0, (sz)); \ | |
177 | (ptr) = PyString_AS_STRING(obj); \ | |
178 | } while (0) | |
179 | #define TEXT_DONEWRITE(obj, sz) do { Py_SIZE(obj) = (sz); } while (0) | |
180 | #define TEXT_FROMSTR(str) PyString_FromString(str) | |
181 | #define TEXT_FROMSTRLEN(str, len) PyString_FromStringAndSize(str, len) | |
182 | ||
10e6f88a MW |
183 | /*----- Utilities for returning values and exceptions ---------------------*/ |
184 | ||
185 | /* Returning values. */ | |
186 | #define RETURN_OBJ(obj) do { Py_INCREF(obj); return (obj); } while (0) | |
187 | #define RETURN_NONE RETURN_OBJ(Py_None) | |
188 | #define RETURN_NOTIMPL RETURN_OBJ(Py_NotImplemented) | |
189 | #define RETURN_TRUE RETURN_OBJ(Py_True) | |
190 | #define RETURN_FALSE RETURN_OBJ(Py_False) | |
191 | #define RETURN_ME RETURN_OBJ(me) | |
192 | ||
193 | /* Returning exceptions. (Note that `KeyError' is `MAPERR' here, because | |
194 | * Catacomb has its own kind of `KeyError'.) | |
195 | */ | |
196 | #define EXCERR(exc, str) do { \ | |
197 | PyErr_SetString(exc, str); \ | |
198 | goto end; \ | |
199 | } while (0) | |
200 | #define VALERR(str) EXCERR(PyExc_ValueError, str) | |
201 | #define OVFERR(str) EXCERR(PyExc_OverflowError, str) | |
202 | #define TYERR(str) EXCERR(PyExc_TypeError, str) | |
203 | #define IXERR(str) EXCERR(PyExc_IndexError, str) | |
204 | #define ZDIVERR(str) EXCERR(PyExc_ZeroDivisionError, str) | |
205 | #define SYSERR(str) EXCERR(PyExc_SystemError, str) | |
206 | #define NIERR(str) EXCERR(PyExc_NotImplementedError, str) | |
f6a2cd66 | 207 | #define MAPERR(idx) do { \ |
10e6f88a MW |
208 | PyErr_SetObject(PyExc_KeyError, idx); \ |
209 | goto end; \ | |
210 | } while (0) | |
211 | #define OSERR(name) do { \ | |
212 | PyErr_SetFromErrnoWithFilename(PyExc_OSError, name); \ | |
213 | goto end; \ | |
214 | } while (0) | |
215 | ||
216 | /* Saving and restoring exceptions. */ | |
217 | struct excinfo { PyObject *ty, *val, *tb; }; | |
218 | #define EXCINFO_INIT { 0, 0, 0 } | |
219 | #define INIT_EXCINFO(exc) do { \ | |
220 | struct excinfo *_exc = (exc); _exc->ty = _exc->val = _exc->tb = 0; \ | |
221 | } while (0) | |
222 | #define RELEASE_EXCINFO(exc) do { \ | |
223 | struct excinfo *_exc = (exc); \ | |
224 | Py_XDECREF(_exc->ty); _exc->ty = 0; \ | |
225 | Py_XDECREF(_exc->val); _exc->val = 0; \ | |
226 | Py_XDECREF(_exc->tb); _exc->tb = 0; \ | |
227 | } while (0) | |
228 | #define STASH_EXCINFO(exc) do { \ | |
229 | struct excinfo *_exc = (exc); \ | |
230 | PyErr_Fetch(&_exc->ty, &_exc->val, &_exc->tb); \ | |
231 | PyErr_NormalizeException(&_exc->ty, &_exc->val, &_exc->tb); \ | |
232 | } while (0) | |
233 | #define RESTORE_EXCINFO(exc) do { \ | |
234 | struct excinfo *_exc = (exc); \ | |
235 | PyErr_Restore(_exc->ty, _exc->val, _exc->tb); \ | |
236 | _exc->ty = _exc->val = _exc->tb = 0; \ | |
237 | } while (0) | |
238 | extern void report_lost_exception(struct excinfo *, const char *, ...); | |
239 | extern void report_lost_exception_v(struct excinfo *, const char *, va_list); | |
240 | extern void stash_exception(struct excinfo *, const char *, ...); | |
241 | extern void restore_exception(struct excinfo *, const char *, ...); | |
242 | ||
243 | /*----- Conversions -------------------------------------------------------*/ | |
244 | ||
245 | /* Define an input conversion (`O&') function: check that the object has | |
246 | * Python type TY, and extract a C pointer to CTY by calling EXT on the | |
247 | * object (which may well be a macro). | |
248 | */ | |
249 | #define CONVFUNC(ty, cty, ext) \ | |
250 | int conv##ty(PyObject *o, void *p) \ | |
251 | { \ | |
252 | if (!PyObject_TypeCheck(o, ty##_pytype)) \ | |
253 | TYERR("wanted a " #ty); \ | |
254 | *(cty *)p = ext(o); \ | |
255 | return (1); \ | |
256 | end: \ | |
257 | return (0); \ | |
258 | } | |
259 | ||
260 | /* Input conversion functions for standard kinds of objects, with overflow | |
261 | * checking where applicable. | |
262 | */ | |
67c75893 | 263 | struct bin { const void *p; Py_ssize_t sz; }; |
10e6f88a MW |
264 | extern int convulong(PyObject *, void *); /* unsigned long */ |
265 | extern int convuint(PyObject *, void *); /* unsigned int */ | |
266 | extern int convszt(PyObject *, void *); /* size_t */ | |
267 | extern int convbool(PyObject *, void *); /* bool */ | |
67c75893 | 268 | extern int convbin(PyObject *, void *); /* read buffer holding bytes */ |
10e6f88a MW |
269 | |
270 | /* Output conversions. */ | |
271 | extern PyObject *getbool(int); /* bool */ | |
272 | extern PyObject *getulong(unsigned long); /* any kind of unsigned integer */ | |
273 | ||
274 | /*----- Miscellaneous utilities -------------------------------------------*/ | |
275 | ||
2a448f86 | 276 | #define FREEOBJ(obj) (Py_TYPE(obj)->tp_free((PyObject *)(obj))) |
10e6f88a MW |
277 | /* Actually free OBJ, e.g., in a deallocation function. */ |
278 | ||
279 | extern PyObject *abstract_pynew(PyTypeObject *, PyObject *, PyObject *); | |
280 | /* A `tp_new' function which refuses to make the object. */ | |
281 | ||
77535854 MW |
282 | extern PyObject *enrich_compare(int /*op*/, int /*cmp*/); |
283 | /* Use a traditional compare-against-zero comparison result CMP to answer a | |
284 | * modern Python `tp_richcompare' operation OP. | |
285 | */ | |
286 | ||
c93e8163 MW |
287 | #ifndef CONVERT_CAREFULLY |
288 | # define CONVERT_CAREFULLY(newty, expty, obj) \ | |
289 | (!sizeof(*(expty *)0 = (obj)) + (/*unconst*/ newty)(obj)) | |
290 | /* Convert OBJ to the type NEWTY, having previously checked that it is | |
291 | * convertible to the expected type EXPTY. | |
292 | * | |
293 | * Because of the way we set up types, we can make many kinds of tables be | |
294 | * `const' which can't usually be so (because Python will want to fiddle | |
295 | * with their reference counts); and, besides, Python's internals are | |
296 | * generally quite bad at being `const'-correct about tables. One frequent | |
297 | * application of this macro, then, is in removing `const' from a type | |
298 | * without sacrificing all type safety. The other common use is in | |
299 | * checking that method function types match up with the signatures | |
300 | * expected in their method definitions. | |
301 | */ | |
302 | #endif | |
303 | ||
304 | #define KWLIST CONVERT_CAREFULLY(char **, const char *const *, kwlist) | |
10e6f88a MW |
305 | /* Strip `const' qualifiers from the keyword list `kwlist'. Useful when |
306 | * calling `PyArg_ParseTupleAndKeywords', which isn't `const'-correct. | |
307 | */ | |
308 | ||
309 | /*----- Type definitions --------------------------------------------------* | |
310 | * | |
311 | * Pyke types are defined in a rather unusual way. | |
312 | * | |
313 | * The main code defines a `type skeleton' of type `PyTypeObject', | |
314 | * conventionally named `TY_pytype_skel'. Unlike typical Python type | |
315 | * definitions in extensions, this can (and should) be read-only. Also, | |
316 | * there's no point in setting the `tp_base' pointer here, because the actual | |
317 | * runtime base type object won't, in general, be known at compile time. | |
318 | * Instead, the type skeletons are converted into Python `heap types' by the | |
319 | * `INITTYPE' macro. The main difference is that Python code can add | |
320 | * attributes to heap types, and we make extensive use of this ability. | |
321 | */ | |
322 | ||
323 | extern void *newtype(PyTypeObject */*meta*/, | |
324 | const PyTypeObject */*skel*/, const char */*name*/); | |
325 | /* Make and return a new Python type object, of type META (typically | |
326 | * `PyType_Type', but may be a subclass), filled in from the skeleton SKEL | |
327 | * (null to inherit everything), and named NAME. The caller can mess with | |
328 | * the type object further at this time: call `typeready' when it's set up | |
329 | * properly. | |
330 | */ | |
331 | ||
332 | extern void typeready(PyTypeObject *); | |
333 | /* The type object is now ready to be used. */ | |
334 | ||
c263b05c MW |
335 | extern PyTypeObject *inittype(const PyTypeObject */*skel*/, |
336 | PyTypeObject */*base*/, | |
10e6f88a MW |
337 | PyTypeObject */*meta*/); |
338 | /* All-in-one function to construct a working type from a type skeleton | |
c263b05c | 339 | * SKEL, with known base type BASE (null for `object') and metaclass. |
10e6f88a MW |
340 | */ |
341 | ||
342 | /* Alias for built-in types, to fit in with Pyke naming conventions. */ | |
343 | #define root_pytype 0 | |
344 | #define type_pytype &PyType_Type | |
345 | ||
346 | #define INITTYPE_META(ty, base, meta) do { \ | |
c263b05c | 347 | ty##_pytype = inittype(&ty##_pytype_skel, base##_pytype, meta##_pytype); \ |
10e6f88a MW |
348 | } while (0) |
349 | #define INITTYPE(ty, base) INITTYPE_META(ty, base, type) | |
350 | /* Macros to initialize a type from its skeleton. */ | |
351 | ||
c93e8163 MW |
352 | /* Macros for filling in `PyMethodDef' tables, ensuring that functions have |
353 | * the expected signatures. | |
354 | */ | |
a157093f MW |
355 | #define STD_METHOD(decor, func, flags, doc) \ |
356 | { #func, decor(func), METH_VARARGS | flags, doc }, | |
357 | #define KEYWORD_METHOD(decor, func, flags, doc) \ | |
c93e8163 MW |
358 | { #func, \ |
359 | CONVERT_CAREFULLY(PyCFunction, PyCFunctionWithKeywords, decor(func)), \ | |
a157093f | 360 | METH_VARARGS | METH_KEYWORDS | flags, \ |
c93e8163 | 361 | doc }, |
91e56f06 MW |
362 | #define NOARG_METHOD(decor, func, flags, doc) \ |
363 | { #func, \ | |
364 | CONVERT_CAREFULLY(PyCFunction, PyNoArgsFunction, decor(func)), \ | |
365 | METH_NOARGS | flags, \ | |
366 | doc }, | |
c93e8163 | 367 | |
10e6f88a MW |
368 | /* Convenience wrappers for filling in `PyMethodDef' tables, following |
369 | * Pyke naming convention. Define `METHNAME' locally as | |
370 | * | |
371 | * #define METHNAME(name) foometh_##func | |
372 | * | |
373 | * around the method table. | |
374 | */ | |
a157093f MW |
375 | #define METH(func, doc) STD_METHOD(METHNAME, func, 0, doc) |
376 | #define KWMETH(func, doc) KEYWORD_METHOD(METHNAME, func, 0, doc) | |
91e56f06 | 377 | #define NAMETH(func, doc) NOARG_METHOD(METHNAME, func, 0, doc) |
a157093f MW |
378 | #define CMTH(func, doc) STD_METHOD(METHNAME, func, METH_CLASS, doc) |
379 | #define KWCMTH(func, doc) KEYWORD_METHOD(METHNAME, func, METH_CLASS, doc) | |
91e56f06 | 380 | #define NACMTH(func, doc) NOARG_METHOD(METHNAME, func, METH_CLASS, doc) |
a157093f MW |
381 | #define SMTH(func, doc) STD_METHOD(METHNAME, func, METH_STATIC, doc) |
382 | #define KWSMTH(func, doc) KEYWORD_METHOD(METHNAME, func, METH_STATIC, doc) | |
91e56f06 | 383 | #define NASMTH(func, doc) NOARG_METHOD(METHNAME, func, METH_STATIC, doc) |
10e6f88a MW |
384 | |
385 | /* Convenience wrappers for filling in `PyGetSetDef' tables, following Pyke | |
386 | * naming convention. Define `GETSETNAME' locally as | |
387 | * | |
388 | * #define GETSETNAME(op, name) foo##op##_##func | |
389 | * | |
390 | * around the get/set table. | |
391 | */ | |
392 | #define GET(func, doc) \ | |
393 | { #func, GETSETNAME(get, func), 0, doc }, | |
394 | #define GETSET(func, doc) \ | |
395 | { #func, GETSETNAME(get, func), GETSETNAME(set, func), doc }, | |
396 | ||
c43a1ddb | 397 | /* Convenience wrappers for filling in `PyMemberDef' tables. Define |
10e6f88a MW |
398 | * `MEMBERSTRUCT' locally as |
399 | * | |
400 | * #define MEMBERSTRUCT foo_pyobj | |
401 | * | |
402 | * around the member table. | |
403 | */ | |
c43a1ddb MW |
404 | #define MEMRNM(name, ty, mem, f, doc) \ |
405 | { #name, ty, offsetof(MEMBERSTRUCT, mem), f, doc }, | |
406 | #define MEMBER(name, ty, f, doc) MEMRNM(name, ty, name, f, doc) | |
10e6f88a | 407 | |
c90f712e MW |
408 | /* Wrappers for filling in pointers in a `PyTypeObject' structure, (a) |
409 | * following Pyke naming convention, and (b) stripping `const' from the types | |
410 | * without losing type safety. | |
411 | */ | |
412 | #define UNCONST_TYPE_SLOT(type, suffix, op, ty) \ | |
413 | CONVERT_CAREFULLY(type *, const type *, op ty##_py##suffix) | |
414 | #define PYGETSET(ty) UNCONST_TYPE_SLOT(PyGetSetDef, getset, NOTHING, ty) | |
415 | #define PYMETHODS(ty) UNCONST_TYPE_SLOT(PyMethodDef, methods, NOTHING, ty) | |
416 | #define PYMEMBERS(ty) UNCONST_TYPE_SLOT(PyMemberDef, members, NOTHING, ty) | |
417 | #define PYNUMBER(ty) UNCONST_TYPE_SLOT(PyNumberMethods, number, &, ty) | |
418 | #define PYSEQUENCE(ty) UNCONST_TYPE_SLOT(PySequenceMethods, sequence, &, ty) | |
419 | #define PYMAPPING(ty) UNCONST_TYPE_SLOT(PyMappingMethods, mapping, &, ty) | |
420 | #define PYBUFFER(ty) UNCONST_TYPE_SLOT(PyBufferProcs, buffer, &, ty) | |
421 | ||
10e6f88a MW |
422 | /*----- Populating modules ------------------------------------------------*/ |
423 | ||
424 | extern PyObject *modname; | |
2135a6d3 | 425 | /* The overall module name. Set this with `TEXT_FROMSTR'. */ |
10e6f88a MW |
426 | |
427 | extern PyObject *home_module; | |
428 | /* The overall module object. */ | |
429 | ||
430 | extern PyObject *mkexc(PyObject */*mod*/, PyObject */*base*/, | |
c90f712e | 431 | const char */*name*/, const PyMethodDef */*methods*/); |
10e6f88a MW |
432 | /* Make and return an exception class called NAME, which will end up in |
433 | * module MOD (though it is not added at this time). The new class is a | |
434 | * subclass of BASE. Attach the METHODS to it. | |
435 | */ | |
436 | ||
437 | #define INSERT(name, ob) do { \ | |
438 | PyObject *_o = (PyObject *)(ob); \ | |
439 | Py_INCREF(_o); \ | |
440 | PyModule_AddObject(mod, name, _o); \ | |
441 | } while (0) | |
442 | /* Insert a Python object OB into the module `mod' under the given NAME. */ | |
443 | ||
444 | /* Numeric constants. */ | |
445 | struct nameval { const char *name; unsigned f; unsigned long value; }; | |
446 | #define CF_SIGNED 1u | |
447 | extern void setconstants(PyObject *, const struct nameval *); | |
810542b0 MW |
448 | #define CONST(x) { #x, (x) >= 0 ? 0 : CF_SIGNED, x } |
449 | #define CONSTFLAG(f, x) { #x, f, x } | |
10e6f88a MW |
450 | |
451 | #define INSEXC(name, var, base, meth) \ | |
452 | INSERT(name, var = mkexc(mod, base, name, meth)) | |
453 | /* Insert an exception class into the module `mod'; other arguments are as | |
454 | * for `mkexc'. | |
455 | */ | |
456 | ||
457 | /*----- Submodules --------------------------------------------------------* | |
458 | * | |
459 | * It's useful to split the Python module up into multiple source files, and | |
460 | * have each one contribute its definitions into the main module. | |
461 | * | |
462 | * Define a list-macro `MODULES' in the master header file naming the | |
463 | * submodules to be processed, and run | |
464 | * | |
465 | * MODULES(DECLARE_MODINIT) | |
466 | * | |
467 | * to declare the interface functions. | |
468 | * | |
469 | * Each submodule FOO defines two functions: `FOO_pyinit' initializes types | |
470 | * (see `INITTYPE' above) and accumulates methods (`addmethods' below), while | |
471 | * `FOO_pyinsert' populates the module with additional definitions | |
472 | * (especially types, though also constants). | |
473 | * | |
474 | * The top-level module initialization should call `INIT_MODULES' before | |
475 | * creating the Python module, and `INSERT_MODULES' afterwards to make | |
476 | * everything work. | |
477 | */ | |
478 | ||
479 | extern void addmethods(const PyMethodDef *); | |
480 | extern PyMethodDef *donemethods(void); | |
481 | /* Accumulate method-table fragments, and return the combined table of all | |
482 | * of the fragments. | |
483 | */ | |
484 | ||
485 | #define DECLARE_MODINIT(m) \ | |
486 | extern void m##_pyinit(void); \ | |
487 | extern void m##_pyinsert(PyObject *); | |
488 | /* Declare submodule interface functions. */ | |
489 | ||
490 | #define DOMODINIT(m) m##_pyinit(); | |
491 | #define DOMODINSERT(m) m##_pyinsert(mod); | |
492 | #define INIT_MODULES do { MODULES(DOMODINIT) } while (0) | |
493 | #define INSERT_MODULES do { MODULES(DOMODINSERT) } while (0) | |
494 | /* Top-level dispatch to the various submodules. */ | |
495 | ||
496 | /*----- Generic mapping support -------------------------------------------*/ | |
497 | ||
31ff254e MW |
498 | /* Operations table. ME is the mapping object throughout. */ |
499 | typedef struct gmap_ops { | |
500 | size_t isz; /* iterator size */ | |
501 | ||
502 | void *(*lookup)(PyObject *me, PyObject *key, unsigned *f); | |
503 | /* Lookup the KEY. If it is found, return an entry pointer for it; if F | |
504 | * is not null, set *F nonzero. Otherwise, if F is null, return a null | |
505 | * pointer (without setting a pending exception); if F is not null, then | |
506 | * set *F zero and return a fresh entry pointer. Return null on a Python | |
507 | * exception (the caller will notice the difference.) | |
508 | */ | |
509 | ||
510 | void (*iter_init)(PyObject *me, void *i); | |
511 | /* Initialize an iterator at I. */ | |
512 | ||
513 | void *(*iter_next)(PyObject *me, void *i); | |
514 | /* Return an entry pointer for a different item, or null if all have been | |
515 | * visited. | |
516 | */ | |
517 | ||
518 | PyObject *(*entry_key)(PyObject *me, void *e); | |
519 | /* Return the key object for a mapping entry. */ | |
520 | ||
521 | PyObject *(*entry_value)(PyObject *me, void *e); | |
522 | /* Return the value object for a mapping entry. */ | |
523 | ||
524 | int (*set_entry)(PyObject *me, void *e, PyObject *val); | |
525 | /* Modify the entry by storing VAL in its place. Return 0 on success, | |
526 | * or -1 on a Python error. | |
527 | */ | |
528 | ||
529 | int (*del_entry)(PyObject *me, void *e); | |
530 | /* Delete the entry. (It may be necessary to delete a freshly allocated | |
531 | * entry, e.g., if `set_entry' failed.) Return 0 on success, or -1 on a | |
532 | * Python error. | |
533 | */ | |
534 | } gmap_ops; | |
535 | ||
536 | /* The intrusion at the head of a mapping object. */ | |
537 | #define GMAP_PYOBJ_HEAD \ | |
538 | PyObject_HEAD \ | |
539 | const gmap_ops *gmops; | |
540 | ||
541 | typedef struct gmap_pyobj { | |
542 | GMAP_PYOBJ_HEAD | |
543 | } gmap_pyobj; | |
544 | #define GMAP_OPS(obj) (((gmap_pyobj *)(obj))->gmops) | |
545 | /* Discover the operations from a mapping object. */ | |
546 | ||
10e6f88a | 547 | /* Mapping methods. */ |
c93e8163 | 548 | #define GMAP_METMNAME(func) gmapmeth_##func |
a157093f MW |
549 | #define GMAP_METH(func, doc) STD_METHOD(GMAP_METMNAME, func, 0, doc) |
550 | #define GMAP_KWMETH(func, doc) KEYWORD_METHOD(GMAP_METMNAME, func, 0, doc) | |
91e56f06 | 551 | #define GMAP_NAMETH(func, doc) NOARG_METHOD(GMAP_METMNAME, func, 0, doc) |
10e6f88a MW |
552 | #define GMAP_METHDECL(func, doc) \ |
553 | extern PyObject *gmapmeth_##func(PyObject *, PyObject *); | |
554 | #define GMAP_KWMETHDECL(func, doc) \ | |
555 | extern PyObject *gmapmeth_##func(PyObject *, PyObject *, PyObject *); | |
91e56f06 MW |
556 | #define GMAP_NAMETHDECL(func, doc) \ |
557 | extern PyObject *gmapmeth_##func(PyObject *); | |
10e6f88a | 558 | |
91e56f06 | 559 | #define GMAP_DOROMETHODS(METH, KWMETH, NAMETH) \ |
10e6f88a | 560 | METH (has_key, "D.has_key(KEY) -> BOOL") \ |
91e56f06 MW |
561 | NAMETH(keys, "D.keys() -> LIST") \ |
562 | NAMETH(values, "D.values() -> LIST") \ | |
563 | NAMETH(items, "D.items() -> LIST") \ | |
564 | NAMETH(iterkeys, "D.iterkeys() -> ITER") \ | |
565 | NAMETH(itervalues, "D.itervalues() -> ITER") \ | |
566 | NAMETH(iteritems, "D.iteritems() -> ITER") \ | |
10e6f88a MW |
567 | KWMETH(get, "D.get(KEY, [default = None]) -> VALUE") |
568 | ||
91e56f06 MW |
569 | #define GMAP_DOMETHODS(METH, KWMETH, NAMETH) \ |
570 | GMAP_DOROMETHODS(METH, KWMETH, NAMETH) \ | |
571 | NAMETH(clear, "D.clear()") \ | |
10e6f88a MW |
572 | KWMETH(setdefault, "D.setdefault(K, [default = None]) -> VALUE") \ |
573 | KWMETH(pop, "D.pop(KEY, [default = <error>]) -> VALUE") \ | |
91e56f06 | 574 | NAMETH(popitem, "D.popitem() -> (KEY, VALUE)") \ |
31ff254e | 575 | KWMETH(update, "D.update(MAP)") |
10e6f88a | 576 | |
91e56f06 MW |
577 | GMAP_DOMETHODS(GMAP_METHDECL, GMAP_KWMETHDECL, GMAP_NAMETHDECL) |
578 | #define GMAP_ROMETHODS GMAP_DOROMETHODS(GMAP_METH, GMAP_KWMETH, GMAP_NAMETH) | |
579 | #define GMAP_METHODS GMAP_DOMETHODS(GMAP_METH, GMAP_KWMETH, GMAP_NAMETH) | |
10e6f88a MW |
580 | |
581 | /* Mapping protocol implementation. */ | |
582 | extern Py_ssize_t gmap_pysize(PyObject *); /* for `mp_length' */ | |
31ff254e MW |
583 | extern PyObject *gmap_pyiter(PyObject *); /* for `tp_iter' */ |
584 | extern PyObject *gmap_pylookup(PyObject *, PyObject *); /* for `mp_subscript' */ | |
585 | extern int gmap_pystore(PyObject *, PyObject *, PyObject *); /* for `mp_ass_subscript' */ | |
586 | extern int gmap_pyhaskey(PyObject *, PyObject *); /* for `sq_contains' */ | |
c90f712e | 587 | extern const PySequenceMethods gmap_pysequence; /* for `tp_as_sequence' */ |
31ff254e | 588 | extern const PyMethodDef gmapro_pymethods[]; /* read-only methods */ |
c90f712e | 589 | extern const PyMethodDef gmap_pymethods[]; /* all the standard methods */ |
10e6f88a MW |
590 | |
591 | /*----- That's all, folks -------------------------------------------------*/ | |
592 | ||
593 | #ifdef __cplusplus | |
594 | } | |
595 | #endif | |
596 | ||
597 | #endif |