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Removed fstream include which seemed unnecessary, and gave errors for BC++ 5.5 anyway.
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1 //
2 // SWIG Typemap library
3 // Dave Beazley
4 // May 5, 1997
5 //
6 // Python implementation
7 //
8 // This library provides standard typemaps for modifying SWIG's behavior.
9 // With enough entries in this file, I hope that very few people actually
10 // ever need to write a typemap.
11 //
12 // Disclaimer : Unless you really understand how typemaps work, this file
13 // probably isn't going to make much sense.
14 //
15 #ifdef AUTODOC
16 %section "Typemap Library (Python)",info,after,pre,nosort,skip=1,chop_left=3,chop_right=0,chop_top=0,chop_bottom=0
17 %text %{
18 %include typemaps.i
19
20 The SWIG typemap library provides a language independent mechanism for
21 supporting output arguments, input values, and other C function
22 calling mechanisms. The primary use of the library is to provide a
23 better interface to certain C function--especially those involving
24 pointers.
25 %}
26
27 #endif
28
29 // ------------------------------------------------------------------------
30 // Pointer handling
31 //
32 // These mappings provide support for input/output arguments and common
33 // uses for C/C++ pointers.
34 // ------------------------------------------------------------------------
35
36 // INPUT typemaps.
37 // These remap a C pointer to be an "INPUT" value which is passed by value
38 // instead of reference.
39
40
41 #ifdef AUTODOC
42 %subsection "Input Methods"
43
44 %text %{
45 The following methods can be applied to turn a pointer into a simple
46 "input" value. That is, instead of passing a pointer to an object,
47 you would use a real value instead.
48
49 int *INPUT
50 short *INPUT
51 long *INPUT
52 unsigned int *INPUT
53 unsigned short *INPUT
54 unsigned long *INPUT
55 unsigned char *INPUT
56 float *INPUT
57 double *INPUT
58
59 To use these, suppose you had a C function like this :
60
61 double fadd(double *a, double *b) {
62 return *a+*b;
63 }
64
65 You could wrap it with SWIG as follows :
66
67 %include typemaps.i
68 double fadd(double *INPUT, double *INPUT);
69
70 or you can use the %apply directive :
71
72 %include typemaps.i
73 %apply double *INPUT { double *a, double *b };
74 double fadd(double *a, double *b);
75
76 %}
77 #endif
78
79 %typemap(python,in) double *INPUT(double temp)
80 {
81 temp = PyFloat_AsDouble($source);
82 $target = &temp;
83 }
84
85 %typemap(python,in) float *INPUT(float temp)
86 {
87 temp = (float) PyFloat_AsDouble($source);
88 $target = &temp;
89 }
90
91 %typemap(python,in) int *INPUT(int temp)
92 {
93 temp = (int) PyInt_AsLong($source);
94 $target = &temp;
95 }
96
97 %typemap(python,in) short *INPUT(short temp)
98 {
99 temp = (short) PyInt_AsLong($source);
100 $target = &temp;
101 }
102
103 %typemap(python,in) long *INPUT(long temp)
104 {
105 temp = (long) PyInt_AsLong($source);
106 $target = &temp;
107 }
108 %typemap(python,in) unsigned int *INPUT(unsigned int temp)
109 {
110 temp = (unsigned int) PyInt_AsLong($source);
111 $target = &temp;
112 }
113 %typemap(python,in) unsigned short *INPUT(unsigned short temp)
114 {
115 temp = (unsigned short) PyInt_AsLong($source);
116 $target = &temp;
117 }
118 %typemap(python,in) unsigned long *INPUT(unsigned long temp)
119 {
120 temp = (unsigned long) PyInt_AsLong($source);
121 $target = &temp;
122 }
123 %typemap(python,in) unsigned char *INPUT(unsigned char temp)
124 {
125 temp = (unsigned char) PyInt_AsLong($source);
126 $target = &temp;
127 }
128
129 %typemap(python,in) signed char *INPUT(signed char temp)
130 {
131 temp = (unsigned char) PyInt_AsLong($source);
132 $target = &temp;
133 }
134
135 // OUTPUT typemaps. These typemaps are used for parameters that
136 // are output only. The output value is appended to the result as
137 // a list element.
138
139 #ifdef AUTODOC
140 %subsection "Output Methods"
141
142 %text %{
143 The following methods can be applied to turn a pointer into an "output"
144 value. When calling a function, no input value would be given for
145 a parameter, but an output value would be returned. In the case of
146 multiple output values, they are returned in the form of a Python tuple.
147
148 int *OUTPUT
149 short *OUTPUT
150 long *OUTPUT
151 unsigned int *OUTPUT
152 unsigned short *OUTPUT
153 unsigned long *OUTPUT
154 unsigned char *OUTPUT
155 float *OUTPUT
156 double *OUTPUT
157
158 A Python List can also be returned by using L_OUTPUT instead of OUTPUT.
159
160 For example, suppose you were trying to wrap the modf() function in the
161 C math library which splits x into integral and fractional parts (and
162 returns the integer part in one of its parameters).K:
163
164 double modf(double x, double *ip);
165
166 You could wrap it with SWIG as follows :
167
168 %include typemaps.i
169 double modf(double x, double *OUTPUT);
170
171 or you can use the %apply directive :
172
173 %include typemaps.i
174 %apply double *OUTPUT { double *ip };
175 double modf(double x, double *ip);
176
177 The Python output of the function would be a tuple containing both
178 output values.
179 %}
180 #endif
181
182
183 // I don't use this anywhere, get rid of it...
184
185 // Helper function for List output
186 // static PyObject* l_output_helper(PyObject* target, PyObject* o) {
187 // PyObject* o2;
188 // if (!target) {
189 // target = o;
190 // } else if (target == Py_None) {
191 // Py_DECREF(Py_None);
192 // target = o;
193 // } else {
194 // if (!PyList_Check(target)) {
195 // o2 = target;
196 // target = PyList_New(0);
197 // PyList_Append(target, o2);
198 // Py_XDECREF(o2);
199 // }
200 // PyList_Append(target,o);
201 // Py_XDECREF(o);
202 // }
203 // return target;
204 // }
205
206 %{
207 %}
208
209 // Force the argument to be ignored.
210
211 %typemap(python,ignore) int *L_OUTPUT(int temp),
212 short *L_OUTPUT(short temp),
213 long *L_OUTPUT(long temp),
214 unsigned int *L_OUTPUT(unsigned int temp),
215 unsigned short *L_OUTPUT(unsigned short temp),
216 unsigned long *L_OUTPUT(unsigned long temp),
217 unsigned char *L_OUTPUT(unsigned char temp),
218 signed char *L_OUTPUT(signed char temp),
219 float *L_OUTPUT(float temp),
220 double *L_OUTPUT(double temp)
221 {
222 $target = &temp;
223 }
224
225 %typemap(python,argout) int *L_OUTPUT,
226 short *L_OUTPUT,
227 long *L_OUTPUT,
228 unsigned int *L_OUTPUT,
229 unsigned short *L_OUTPUT,
230 unsigned long *L_OUTPUT,
231 unsigned char *L_OUTPUT,
232 signed char *L_OUTPUT
233 {
234 PyObject *o;
235 o = PyInt_FromLong((long) (*$source));
236 l_output_helper($target,o);
237 }
238
239 %typemap(python,argout) float *L_OUTPUT,
240 double *L_OUTPUT
241 {
242 PyObject *o;
243 o = PyFloat_FromDouble((double) (*$source));
244 $target = l_output_helper($target,o);
245 }
246
247 // These typemaps contributed by Robin Dunn
248 //----------------------------------------------------------------------
249 //
250 // T_OUTPUT typemap (and helper function) to return multiple argouts as
251 // a tuple instead of a list.
252 //
253 // Author: Robin Dunn
254 //----------------------------------------------------------------------
255
256 %{
257 static PyObject* t_output_helper(PyObject* target, PyObject* o) {
258 PyObject* o2;
259 PyObject* o3;
260
261 if (!target) {
262 target = o;
263 } else if (target == Py_None) {
264 Py_DECREF(Py_None);
265 target = o;
266 } else {
267 if (!PyTuple_Check(target)) {
268 o2 = target;
269 target = PyTuple_New(1);
270 PyTuple_SetItem(target, 0, o2);
271 }
272 o3 = PyTuple_New(1);
273 PyTuple_SetItem(o3, 0, o);
274
275 o2 = target;
276 target = PySequence_Concat(o2, o3);
277 Py_DECREF(o2);
278 Py_DECREF(o3);
279 }
280 return target;
281 }
282 %}
283
284 // Force the argument to be ignored.
285 %typemap(python,ignore) int *T_OUTPUT(int temp),
286 short *T_OUTPUT(short temp),
287 long *T_OUTPUT(long temp),
288 unsigned int *T_OUTPUT(unsigned int temp),
289 unsigned short *T_OUTPUT(unsigned short temp),
290 unsigned long *T_OUTPUT(unsigned long temp),
291 unsigned char *T_OUTPUT(unsigned char temp),
292 float *T_OUTPUT(float temp),
293 double *T_OUTPUT(double temp)
294 {
295 $target = &temp;
296 }
297
298 %typemap(python,argout) int *T_OUTPUT,
299 short *T_OUTPUT,
300 long *T_OUTPUT,
301 unsigned int *T_OUTPUT,
302 unsigned short *T_OUTPUT,
303 unsigned long *T_OUTPUT,
304 unsigned char *T_OUTPUT
305 {
306 PyObject *o;
307 o = PyInt_FromLong((long) (*$source));
308 $target = t_output_helper($target, o);
309 }
310
311 %typemap(python,argout) float *T_OUTPUT,
312 double *T_OUTPUT
313 {
314 PyObject *o;
315 o = PyFloat_FromDouble((double) (*$source));
316 $target = t_output_helper($target, o);
317 }
318
319 // Set the default output typemap
320
321 #ifdef OUTPUT_LIST
322 %typemap(python,ignore) int *OUTPUT = int *L_OUTPUT;
323 %typemap(python,ignore) short *OUTPUT = short *L_OUTPUT;
324 %typemap(python,ignore) long *OUTPUT = long *L_OUTPUT;
325 %typemap(python,ignore) unsigned *OUTPUT = unsigned *L_OUTPUT;
326 %typemap(python,ignore) unsigned short *OUTPUT = unsigned short *L_OUTPUT;
327 %typemap(python,ignore) unsigned long *OUTPUT = unsigned long *L_OUTPUT;
328 %typemap(python,ignore) unsigned char *OUTPUT = unsigned char *L_OUTPUT;
329 %typemap(python,ignore) signed char *OUTPUT = signed char *L_OUTPUT;
330 %typemap(python,ignore) double *OUTPUT = double *L_OUTPUT;
331 %typemap(python,ignore) float *OUTPUT = float *L_OUTPUT;
332
333 %typemap(python,argout) int *OUTPUT = int *L_OUTPUT;
334 %typemap(python,argout) short *OUTPUT = short *L_OUTPUT;
335 %typemap(python,argout) long *OUTPUT = long *L_OUTPUT;
336 %typemap(python,argout) unsigned *OUTPUT = unsigned *L_OUTPUT;
337 %typemap(python,argout) unsigned short *OUTPUT = unsigned short *L_OUTPUT;
338 %typemap(python,argout) unsigned long *OUTPUT = unsigned long *L_OUTPUT;
339 %typemap(python,argout) unsigned char *OUTPUT = unsigned char *L_OUTPUT;
340 %typemap(python,argout) signed char *OUTPUT = signed char *L_OUTPUT;
341 %typemap(python,argout) double *OUTPUT = double *L_OUTPUT;
342 %typemap(python,argout) float *OUTPUT = float *L_OUTPUT;
343 #else
344 %typemap(python,ignore) int *OUTPUT = int *T_OUTPUT;
345 %typemap(python,ignore) short *OUTPUT = short *T_OUTPUT;
346 %typemap(python,ignore) long *OUTPUT = long *T_OUTPUT;
347 %typemap(python,ignore) unsigned *OUTPUT = unsigned *T_OUTPUT;
348 %typemap(python,ignore) unsigned short *OUTPUT = unsigned short *T_OUTPUT;
349 %typemap(python,ignore) unsigned long *OUTPUT = unsigned long *T_OUTPUT;
350 %typemap(python,ignore) unsigned char *OUTPUT = unsigned char *T_OUTPUT;
351 %typemap(python,ignore) signed char *OUTPUT = signed char *T_OUTPUT;
352 %typemap(python,ignore) double *OUTPUT = double *T_OUTPUT;
353 %typemap(python,ignore) float *OUTPUT = float *T_OUTPUT;
354
355 %typemap(python,argout) int *OUTPUT = int *T_OUTPUT;
356 %typemap(python,argout) short *OUTPUT = short *T_OUTPUT;
357 %typemap(python,argout) long *OUTPUT = long *T_OUTPUT;
358 %typemap(python,argout) unsigned *OUTPUT = unsigned *T_OUTPUT;
359 %typemap(python,argout) unsigned short *OUTPUT = unsigned short *T_OUTPUT;
360 %typemap(python,argout) unsigned long *OUTPUT = unsigned long *T_OUTPUT;
361 %typemap(python,argout) unsigned char *OUTPUT = unsigned char *T_OUTPUT;
362 %typemap(python,argout) signed char *OUTPUT = signed char *T_OUTPUT;
363 %typemap(python,argout) double *OUTPUT = double *T_OUTPUT;
364 %typemap(python,argout) float *OUTPUT = float *T_OUTPUT;
365 #endif
366
367 // INOUT
368 // Mappings for an argument that is both an input and output
369 // parameter
370
371
372 #ifdef AUTODOC
373 %subsection "Input/Output Methods"
374
375 %text %{
376 The following methods can be applied to make a function parameter both
377 an input and output value. This combines the behavior of both the
378 "INPUT" and "OUTPUT" methods described earlier. Output values are
379 returned in the form of a Python tuple. To return a Python list,
380 using L_INOUT instead.
381
382 int *INOUT
383 short *INOUT
384 long *INOUT
385 unsigned int *INOUT
386 unsigned short *INOUT
387 unsigned long *INOUT
388 unsigned char *INOUT
389 float *INOUT
390 double *INOUT
391
392 For example, suppose you were trying to wrap the following function :
393
394 void neg(double *x) {
395 *x = -(*x);
396 }
397
398 You could wrap it with SWIG as follows :
399
400 %include typemaps.i
401 void neg(double *INOUT);
402
403 or you can use the %apply directive :
404
405 %include typemaps.i
406 %apply double *INOUT { double *x };
407 void neg(double *x);
408
409 Unlike C, this mapping does not directly modify the input value (since
410 this makes no sense in Python). Rather, the modified input value shows
411 up as the return value of the function. Thus, to apply this function
412 to a Python variable you might do this :
413
414 x = neg(x)
415
416 Note : previous versions of SWIG used the symbol 'BOTH' to mark
417 input/output arguments. This is still supported, but will be slowly
418 phased out in future releases.
419 %}
420
421 #endif
422
423 %typemap(python,in) int *INOUT = int *INPUT;
424 %typemap(python,in) short *INOUT = short *INPUT;
425 %typemap(python,in) long *INOUT = long *INPUT;
426 %typemap(python,in) unsigned *INOUT = unsigned *INPUT;
427 %typemap(python,in) unsigned short *INOUT = unsigned short *INPUT;
428 %typemap(python,in) unsigned long *INOUT = unsigned long *INPUT;
429 %typemap(python,in) unsigned char *INOUT = unsigned char *INPUT;
430 %typemap(python,in) float *INOUT = float *INPUT;
431 %typemap(python,in) double *INOUT = double *INPUT;
432
433 %typemap(python,argout) int *INOUT = int *OUTPUT;
434 %typemap(python,argout) short *INOUT = short *OUTPUT;
435 %typemap(python,argout) long *INOUT = long *OUTPUT;
436 %typemap(python,argout) unsigned *INOUT = unsigned *OUTPUT;
437 %typemap(python,argout) unsigned short *INOUT = unsigned short *OUTPUT;
438 %typemap(python,argout) unsigned long *INOUT = unsigned long *OUTPUT;
439 %typemap(python,argout) unsigned char *INOUT = unsigned char *OUTPUT;
440 %typemap(python,argout) float *INOUT = float *OUTPUT;
441 %typemap(python,argout) double *INOUT = double *OUTPUT;
442
443 %typemap(python,in) int *T_INOUT = int *INPUT;
444 %typemap(python,in) short *T_INOUT = short *INPUT;
445 %typemap(python,in) long *T_INOUT = long *INPUT;
446 %typemap(python,in) unsigned *T_INOUT = unsigned *INPUT;
447 %typemap(python,in) unsigned short *T_INOUT = unsigned short *INPUT;
448 %typemap(python,in) unsigned long *T_INOUT = unsigned long *INPUT;
449 %typemap(python,in) unsigned char *T_INOUT = unsigned char *INPUT;
450 %typemap(python,in) float *T_INOUT = float *INPUT;
451 %typemap(python,in) double *T_INOUT = double *INPUT;
452
453 %typemap(python,argout) int *T_INOUT = int *T_OUTPUT;
454 %typemap(python,argout) short *T_INOUT = short *T_OUTPUT;
455 %typemap(python,argout) long *T_INOUT = long *T_OUTPUT;
456 %typemap(python,argout) unsigned *T_INOUT = unsigned *T_OUTPUT;
457 %typemap(python,argout) unsigned short *T_INOUT = unsigned short *T_OUTPUT;
458 %typemap(python,argout) unsigned long *T_INOUT = unsigned long *T_OUTPUT;
459 %typemap(python,argout) unsigned char *T_INOUT = unsigned char *T_OUTPUT;
460 %typemap(python,argout) float *T_INOUT = float *T_OUTPUT;
461 %typemap(python,argout) double *T_INOUT = double *T_OUTPUT;
462
463 %typemap(python,in) int *L_INOUT = int *INPUT;
464 %typemap(python,in) short *L_INOUT = short *INPUT;
465 %typemap(python,in) long *L_INOUT = long *INPUT;
466 %typemap(python,in) unsigned *L_INOUT = unsigned *INPUT;
467 %typemap(python,in) unsigned short *L_INOUT = unsigned short *INPUT;
468 %typemap(python,in) unsigned long *L_INOUT = unsigned long *INPUT;
469 %typemap(python,in) unsigned char *L_INOUT = unsigned char *INPUT;
470 %typemap(python,in) float *L_INOUT = float *INPUT;
471 %typemap(python,in) double *L_INOUT = double *INPUT;
472
473 %typemap(python,argout) int *L_INOUT = int *L_OUTPUT;
474 %typemap(python,argout) short *L_INOUT = short *L_OUTPUT;
475 %typemap(python,argout) long *L_INOUT = long *L_OUTPUT;
476 %typemap(python,argout) unsigned *L_INOUT = unsigned *L_OUTPUT;
477 %typemap(python,argout) unsigned short *L_INOUT = unsigned short *L_OUTPUT;
478 %typemap(python,argout) unsigned long *L_INOUT = unsigned long *L_OUTPUT;
479 %typemap(python,argout) unsigned char *L_INOUT = unsigned char *L_OUTPUT;
480 %typemap(python,argout) float *L_INOUT = float *L_OUTPUT;
481 %typemap(python,argout) double *L_INOUT = double *L_OUTPUT;
482
483 // Backwards compatibility
484
485 %typemap(python,in) int *BOTH = int *INOUT;
486 %typemap(python,in) short *BOTH = short *INOUT;
487 %typemap(python,in) long *BOTH = long *INOUT;
488 %typemap(python,in) unsigned *BOTH = unsigned *INOUT;
489 %typemap(python,in) unsigned short *BOTH = unsigned short *INOUT;
490 %typemap(python,in) unsigned long *BOTH = unsigned long *INOUT;
491 %typemap(python,in) unsigned char *BOTH = unsigned char *INOUT;
492 %typemap(python,in) float *BOTH = float *INOUT;
493 %typemap(python,in) double *BOTH = double *INOUT;
494
495 %typemap(python,argout) int *BOTH = int *INOUT;
496 %typemap(python,argout) short *BOTH = short *INOUT;
497 %typemap(python,argout) long *BOTH = long *INOUT;
498 %typemap(python,argout) unsigned *BOTH = unsigned *INOUT;
499 %typemap(python,argout) unsigned short *BOTH = unsigned short *INOUT;
500 %typemap(python,argout) unsigned long *BOTH = unsigned long *INOUT;
501 %typemap(python,argout) unsigned char *BOTH = unsigned char *INOUT;
502 %typemap(python,argout) float *BOTH = float *INOUT;
503 %typemap(python,argout) double *BOTH = double *INOUT;
504
505 %typemap(python,in) int *T_BOTH = int *T_INOUT;
506 %typemap(python,in) short *T_BOTH = short *T_INOUT;
507 %typemap(python,in) long *T_BOTH = long *T_INOUT;
508 %typemap(python,in) unsigned *T_BOTH = unsigned *T_INOUT;
509 %typemap(python,in) unsigned short *T_BOTH = unsigned short *T_INOUT;
510 %typemap(python,in) unsigned long *T_BOTH = unsigned long *T_INOUT;
511 %typemap(python,in) unsigned char *T_BOTH = unsigned char *T_INOUT;
512 %typemap(python,in) float *T_BOTH = float *T_INOUT;
513 %typemap(python,in) double *T_BOTH = double *T_INOUT;
514
515 %typemap(python,argout) int *T_BOTH = int *T_INOUT;
516 %typemap(python,argout) short *T_BOTH = short *T_INOUT;
517 %typemap(python,argout) long *T_BOTH = long *T_INOUT;
518 %typemap(python,argout) unsigned *T_BOTH = unsigned *T_INOUT;
519 %typemap(python,argout) unsigned short *T_BOTH = unsigned short *T_INOUT;
520 %typemap(python,argout) unsigned long *T_BOTH = unsigned long *T_INOUT;
521 %typemap(python,argout) unsigned char *T_BOTH = unsigned char *T_INOUT;
522 %typemap(python,argout) float *T_BOTH = float *T_INOUT;
523 %typemap(python,argout) double *T_BOTH = double *T_INOUT;
524
525 // --------------------------------------------------------------------
526 // Special types
527 //
528 // --------------------------------------------------------------------
529
530 #ifdef AUTODOC
531 %subsection "Special Methods"
532
533 %text %{
534 The typemaps.i library also provides the following mappings :
535
536 PyObject *
537
538 When a PyObject * appears as either an input value or return
539 value of a function, SWIG passes it through unmodified. Thus,
540 if you want to write a C function that operates on PyObjects,
541 it is easy to write. For example :
542
543 %include typemaps.i
544 PyObject *spam(PyObject *obj1, int n);
545
546 Unlike normal Python wrapper functions, These functions can
547 use any combination of parameters that you wish.
548
549 %}
550
551 #endif
552
553
554 // If a PyObject * appears as either an argument or a function return
555 // value, simply pass it straight through.
556
557 %typemap(python,in) PyObject * {
558 $target = $source;
559 }
560
561 %typemap(python,out) PyObject * {
562 $target = $source;
563 }
564