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1 //
2 // SWIG pointer conversion and utility library
3 //
4 // Dave Beazley
5 // April 19, 1997
6 //
7 // Tcl specific implementation. This file is included
8 // by the file ../pointer.i
9
10
11 #if defined(SWIGTCL8)
12
13 // -----------------------------------------------------------------
14 // Define a hack for GetPtr on Tcl 8
15 //
16 // -----------------------------------------------------------------
17
18 %{
19
20 static char *_SWIG_GetPtr(Tcl_Interp *interp, char *s, void **ptr, char *type) {
21 Tcl_Obj *obj;
22 char *c;
23 obj = Tcl_NewStringObj(s, strlen(s));
24 c = SWIG_GetPointerObj(interp, obj, ptr, type);
25 if (c) {
26 c = strstr(s,c);
27 }
28 Tcl_DecrRefCount(obj);
29 return c;
30 }
31
32 #define SWIG_GetPtr(a,b,c) _SWIG_GetPtr(interp, a,b,c)
33
34 %}
35 #endif
36
37 %{
38
39 #include <ctype.h>
40
41 /*------------------------------------------------------------------
42 ptrcast(value,type)
43
44 Constructs a new pointer value. Value may either be a string
45 or an integer. Type is a string corresponding to either the
46 C datatype or mangled datatype.
47
48 ptrcast(0,"Vector *")
49 or
50 ptrcast(0,"Vector_p")
51 ------------------------------------------------------------------ */
52
53 static int ptrcast(Tcl_Interp *interp, char *_ptrvalue, char *type) {
54
55 char *r,*s;
56 void *ptr;
57 char *typestr,*c;
58 int pv;
59 int error = 0;
60
61 /* Produce a "mangled" version of the type string. */
62
63 typestr = (char *) malloc(strlen(type)+2);
64
65 /* Go through and munge the typestring */
66
67 r = typestr;
68 *(r++) = '_';
69 c = type;
70 while (*c) {
71 if (!isspace(*c)) {
72 if ((*c == '*') || (*c == '&')) {
73 *(r++) = 'p';
74 }
75 else *(r++) = *c;
76 } else {
77 *(r++) = '_';
78 }
79 c++;
80 }
81 *(r++) = 0;
82
83 /* Check to see what kind of object _PTRVALUE is */
84 if (Tcl_GetInt(interp,_ptrvalue,&pv) == TCL_OK) {
85 ptr = (void *) pv;
86 /* Received a numerical value. Make a pointer out of it */
87 r = (char *) malloc(strlen(typestr)+22);
88 if (ptr) {
89 SWIG_MakePtr(r, ptr, typestr);
90 } else {
91 sprintf(r,"_0%s",typestr);
92 }
93 Tcl_SetResult(interp,r,TCL_VOLATILE);
94 free(r);
95 } else {
96 /* Have a string. Try to get the real pointer value */
97 s = _ptrvalue;
98 r = (char *) malloc(strlen(type)+22);
99
100 /* Now extract the pointer value */
101 if (!SWIG_GetPtr(s,&ptr,0)) {
102 if (ptr) {
103 SWIG_MakePtr(r,ptr,typestr);
104 } else {
105 sprintf(r,"_0%s",typestr);
106 }
107 Tcl_SetResult(interp,r,TCL_VOLATILE);
108 } else {
109 error = 1;
110 }
111 free(r);
112 }
113 free(typestr);
114 if (error) {
115 Tcl_SetResult(interp,"Type error in ptrcast. Argument is not a valid pointer value.",TCL_VOLATILE);
116 return TCL_ERROR;
117 }
118 return TCL_OK;
119 }
120
121 /*------------------------------------------------------------------
122 ptrvalue(ptr,type = 0)
123
124 Attempts to dereference a pointer value. If type is given, it
125 will try to use that type. Otherwise, this function will attempt
126 to "guess" the proper datatype by checking against all of the
127 builtin C datatypes.
128 ------------------------------------------------------------------ */
129
130 static int ptrvalue(Tcl_Interp *interp, char *_ptrvalue, int index, char *type) {
131 void *ptr;
132 char *s;
133 int error = 0;
134
135 if (type) {
136 if (strlen(type) == 0) type = 0;
137 }
138 s = _ptrvalue;
139 if (SWIG_GetPtr(s,&ptr,0)) {
140 Tcl_SetResult(interp,"Type error in ptrvalue. Argument is not a valid pointer value.",
141 TCL_STATIC);
142 return TCL_ERROR;
143 }
144
145 /* If no datatype was passed, try a few common datatypes first */
146
147 if (!type) {
148
149 /* No datatype was passed. Type to figure out if it's a common one */
150
151 if (!SWIG_GetPtr(s,&ptr,"_int_p")) {
152 type = "int";
153 } else if (!SWIG_GetPtr(s,&ptr,"_double_p")) {
154 type = "double";
155 } else if (!SWIG_GetPtr(s,&ptr,"_short_p")) {
156 type = "short";
157 } else if (!SWIG_GetPtr(s,&ptr,"_long_p")) {
158 type = "long";
159 } else if (!SWIG_GetPtr(s,&ptr,"_float_p")) {
160 type = "float";
161 } else if (!SWIG_GetPtr(s,&ptr,"_char_p")) {
162 type = "char";
163 } else if (!SWIG_GetPtr(s,&ptr,"_char_pp")) {
164 type = "char *";
165 } else {
166 type = "unknown";
167 }
168 }
169
170 if (!ptr) {
171 Tcl_SetResult(interp,"Unable to dereference NULL pointer.",TCL_STATIC);
172 return TCL_ERROR;
173 }
174
175 /* Now we have a datatype. Try to figure out what to do about it */
176 if (strcmp(type,"int") == 0) {
177 sprintf(interp->result,"%ld",(long) *(((int *) ptr) + index));
178 } else if (strcmp(type,"double") == 0) {
179 Tcl_PrintDouble(interp,(double) *(((double *) ptr)+index), interp->result);
180 } else if (strcmp(type,"short") == 0) {
181 sprintf(interp->result,"%ld",(long) *(((short *) ptr) + index));
182 } else if (strcmp(type,"long") == 0) {
183 sprintf(interp->result,"%ld",(long) *(((long *) ptr) + index));
184 } else if (strcmp(type,"float") == 0) {
185 Tcl_PrintDouble(interp,(double) *(((float *) ptr)+index), interp->result);
186 } else if (strcmp(type,"char") == 0) {
187 Tcl_SetResult(interp,((char *) ptr) + index, TCL_VOLATILE);
188 } else if (strcmp(type,"char *") == 0) {
189 char *c = *(((char **) ptr)+index);
190 if (c) Tcl_SetResult(interp,(char *) c, TCL_VOLATILE);
191 else Tcl_SetResult(interp,"NULL", TCL_VOLATILE);
192 } else {
193 Tcl_SetResult(interp,"Unable to dereference unsupported datatype.",TCL_STATIC);
194 return TCL_ERROR;
195 }
196 return TCL_OK;
197 }
198
199 /*------------------------------------------------------------------
200 ptrcreate(type,value = 0,numelements = 1)
201
202 Attempts to create a new object of given type. Type must be
203 a basic C datatype. Will not create complex objects.
204 ------------------------------------------------------------------ */
205
206 static int ptrcreate(Tcl_Interp *interp, char *type, char *_ptrvalue, int numelements) {
207 void *ptr;
208 int sz;
209 char *cast;
210 char temp[40];
211
212 /* Check the type string against a variety of possibilities */
213
214 if (strcmp(type,"int") == 0) {
215 sz = sizeof(int)*numelements;
216 cast = "_int_p";
217 } else if (strcmp(type,"short") == 0) {
218 sz = sizeof(short)*numelements;
219 cast = "_short_p";
220 } else if (strcmp(type,"long") == 0) {
221 sz = sizeof(long)*numelements;
222 cast = "_long_p";
223 } else if (strcmp(type,"double") == 0) {
224 sz = sizeof(double)*numelements;
225 cast = "_double_p";
226 } else if (strcmp(type,"float") == 0) {
227 sz = sizeof(float)*numelements;
228 cast = "_float_p";
229 } else if (strcmp(type,"char") == 0) {
230 sz = sizeof(char)*numelements;
231 cast = "_char_p";
232 } else if (strcmp(type,"char *") == 0) {
233 sz = sizeof(char *)*(numelements+1);
234 cast = "_char_pp";
235 } else if (strcmp(type,"void") == 0) {
236 sz = numelements;
237 } else {
238 Tcl_SetResult(interp,"Unable to create unknown datatype.",TCL_STATIC);
239 return TCL_ERROR;
240 }
241
242 /* Create the new object */
243
244 ptr = (void *) malloc(sz);
245 if (!ptr) {
246 Tcl_SetResult(interp,"Out of memory in ptrcreate.",TCL_STATIC);
247 return TCL_ERROR;
248 }
249
250 /* Now try to set its default value */
251
252 if (_ptrvalue) {
253 if (strcmp(type,"int") == 0) {
254 int *ip,i,ivalue;
255 Tcl_GetInt(interp,_ptrvalue,&ivalue);
256 ip = (int *) ptr;
257 for (i = 0; i < numelements; i++)
258 ip[i] = ivalue;
259 } else if (strcmp(type,"short") == 0) {
260 short *ip;
261 int i, ivalue;
262 Tcl_GetInt(interp,_ptrvalue,&ivalue);
263 ip = (short *) ptr;
264 for (i = 0; i < numelements; i++)
265 ip[i] = (short) ivalue;
266 } else if (strcmp(type,"long") == 0) {
267 long *ip;
268 int i, ivalue;
269 Tcl_GetInt(interp,_ptrvalue,&ivalue);
270 ip = (long *) ptr;
271 for (i = 0; i < numelements; i++)
272 ip[i] = (long) ivalue;
273 } else if (strcmp(type,"double") == 0) {
274 double *ip,ivalue;
275 int i;
276 Tcl_GetDouble(interp,_ptrvalue,&ivalue);
277 ip = (double *) ptr;
278 for (i = 0; i < numelements; i++)
279 ip[i] = ivalue;
280 } else if (strcmp(type,"float") == 0) {
281 float *ip;
282 double ivalue;
283 int i;
284 Tcl_GetDouble(interp,_ptrvalue,&ivalue);
285 ip = (float *) ptr;
286 for (i = 0; i < numelements; i++)
287 ip[i] = (double) ivalue;
288 } else if (strcmp(type,"char") == 0) {
289 char *ip,*ivalue;
290 ivalue = (char *) _ptrvalue;
291 ip = (char *) ptr;
292 strncpy(ip,ivalue,numelements-1);
293 } else if (strcmp(type,"char *") == 0) {
294 char **ip, *ivalue;
295 int i;
296 ivalue = (char *) _ptrvalue;
297 ip = (char **) ptr;
298 for (i = 0; i < numelements; i++) {
299 if (ivalue) {
300 ip[i] = (char *) malloc(strlen(ivalue)+1);
301 strcpy(ip[i],ivalue);
302 } else {
303 ip[i] = 0;
304 }
305 }
306 ip[numelements] = 0;
307 }
308 }
309 /* Create the pointer value */
310
311 SWIG_MakePtr(temp,ptr,cast);
312 Tcl_SetResult(interp,temp,TCL_VOLATILE);
313 return TCL_OK;
314 }
315
316 /*------------------------------------------------------------------
317 ptrset(ptr,value,index = 0,type = 0)
318
319 Attempts to set the value of a pointer variable. If type is
320 given, we will use that type. Otherwise, we'll guess the datatype.
321 ------------------------------------------------------------------ */
322
323 static int ptrset(Tcl_Interp *interp, char *_PTRVALUE, char *_VALUE, int index, char *type) {
324 void *ptr;
325 char *s;
326
327 s = _PTRVALUE;
328 if (SWIG_GetPtr(s,&ptr,0)) {
329 Tcl_SetResult(interp,"Type error in ptrset. Argument is not a valid pointer value.",
330 TCL_STATIC);
331 return TCL_ERROR;
332 }
333
334 /* If no datatype was passed, try a few common datatypes first */
335
336 if (!type) {
337
338 /* No datatype was passed. Type to figure out if it's a common one */
339
340 if (!SWIG_GetPtr(s,&ptr,"_int_p")) {
341 type = "int";
342 } else if (!SWIG_GetPtr(s,&ptr,"_double_p")) {
343 type = "double";
344 } else if (!SWIG_GetPtr(s,&ptr,"_short_p")) {
345 type = "short";
346 } else if (!SWIG_GetPtr(s,&ptr,"_long_p")) {
347 type = "long";
348 } else if (!SWIG_GetPtr(s,&ptr,"_float_p")) {
349 type = "float";
350 } else if (!SWIG_GetPtr(s,&ptr,"_char_p")) {
351 type = "char";
352 } else if (!SWIG_GetPtr(s,&ptr,"_char_pp")) {
353 type = "char *";
354 } else {
355 type = "unknown";
356 }
357 }
358
359 if (!ptr) {
360 Tcl_SetResult(interp,"Unable to set NULL pointer.",TCL_STATIC);
361 return TCL_ERROR;
362 }
363
364 /* Now we have a datatype. Try to figure out what to do about it */
365 if (strcmp(type,"int") == 0) {
366 int ivalue;
367 Tcl_GetInt(interp,_VALUE, &ivalue);
368 *(((int *) ptr)+index) = ivalue;
369 } else if (strcmp(type,"double") == 0) {
370 double ivalue;
371 Tcl_GetDouble(interp,_VALUE, &ivalue);
372 *(((double *) ptr)+index) = (double) ivalue;
373 } else if (strcmp(type,"short") == 0) {
374 int ivalue;
375 Tcl_GetInt(interp,_VALUE, &ivalue);
376 *(((short *) ptr)+index) = (short) ivalue;
377 } else if (strcmp(type,"long") == 0) {
378 int ivalue;
379 Tcl_GetInt(interp,_VALUE, &ivalue);
380 *(((long *) ptr)+index) = (long) ivalue;
381 } else if (strcmp(type,"float") == 0) {
382 double ivalue;
383 Tcl_GetDouble(interp,_VALUE, &ivalue);
384 *(((float *) ptr)+index) = (float) ivalue;
385 } else if (strcmp(type,"char") == 0) {
386 char *c = _VALUE;
387 strcpy(((char *) ptr)+index, c);
388 } else if (strcmp(type,"char *") == 0) {
389 char *c = _VALUE;
390 char **ca = (char **) ptr;
391 if (ca[index]) free(ca[index]);
392 if (strcmp(c,"NULL") == 0) {
393 ca[index] = 0;
394 } else {
395 ca[index] = (char *) malloc(strlen(c)+1);
396 strcpy(ca[index],c);
397 }
398 } else {
399 Tcl_SetResult(interp,"Unable to set unsupported datatype.",TCL_STATIC);
400 return TCL_ERROR;
401 }
402 return TCL_OK;
403 }
404
405 /*------------------------------------------------------------------
406 ptradd(ptr,offset)
407
408 Adds a value to an existing pointer value. Will do a type-dependent
409 add for basic datatypes. For other datatypes, will do a byte-add.
410 ------------------------------------------------------------------ */
411
412 static int ptradd(Tcl_Interp *interp, char *_PTRVALUE, int offset) {
413
414 char *r,*s;
415 void *ptr,*junk;
416 char *type;
417
418 /* Check to see what kind of object _PTRVALUE is */
419
420 s = _PTRVALUE;
421
422 /* Try to handle a few common datatypes first */
423
424 if (!SWIG_GetPtr(s,&ptr,"_int_p")) {
425 ptr = (void *) (((int *) ptr) + offset);
426 } else if (!SWIG_GetPtr(s,&ptr,"_double_p")) {
427 ptr = (void *) (((double *) ptr) + offset);
428 } else if (!SWIG_GetPtr(s,&ptr,"_short_p")) {
429 ptr = (void *) (((short *) ptr) + offset);
430 } else if (!SWIG_GetPtr(s,&ptr,"_long_p")) {
431 ptr = (void *) (((long *) ptr) + offset);
432 } else if (!SWIG_GetPtr(s,&ptr,"_float_p")) {
433 ptr = (void *) (((float *) ptr) + offset);
434 } else if (!SWIG_GetPtr(s,&ptr,"_char_p")) {
435 ptr = (void *) (((char *) ptr) + offset);
436 } else if (!SWIG_GetPtr(s,&ptr,0)) {
437 ptr = (void *) (((char *) ptr) + offset);
438 } else {
439 Tcl_SetResult(interp,"Type error in ptradd. Argument is not a valid pointer value.",TCL_STATIC);
440 return TCL_ERROR;
441 }
442 type = SWIG_GetPtr(s,&junk,"INVALID POINTER");
443 r = (char *) malloc(strlen(type)+20);
444 if (ptr) {
445 SWIG_MakePtr(r,ptr,type);
446 } else {
447 sprintf(r,"_0%s",type);
448 }
449 Tcl_SetResult(interp,r,TCL_VOLATILE);
450 free(r);
451 return TCL_OK;
452 }
453
454
455 /*------------------------------------------------------------------
456 ptrmap(type1,type2)
457
458 Allows a mapping between type1 and type2. (Like a typedef)
459 ------------------------------------------------------------------ */
460
461 static void ptrmap(char *type1, char *type2) {
462
463 char *typestr1,*typestr2,*c,*r;
464
465 /* Produce a "mangled" version of the type string. */
466
467 typestr1 = (char *) malloc(strlen(type1)+2);
468
469 /* Go through and munge the typestring */
470
471 r = typestr1;
472 *(r++) = '_';
473 c = type1;
474 while (*c) {
475 if (!isspace(*c)) {
476 if ((*c == '*') || (*c == '&')) {
477 *(r++) = 'p';
478 }
479 else *(r++) = *c;
480 } else {
481 *(r++) = '_';
482 }
483 c++;
484 }
485 *(r++) = 0;
486
487 typestr2 = (char *) malloc(strlen(type2)+2);
488
489 /* Go through and munge the typestring */
490
491 r = typestr2;
492 *(r++) = '_';
493 c = type2;
494 while (*c) {
495 if (!isspace(*c)) {
496 if ((*c == '*') || (*c == '&')) {
497 *(r++) = 'p';
498 }
499 else *(r++) = *c;
500 } else {
501 *(r++) = '_';
502 }
503 c++;
504 }
505 *(r++) = 0;
506 SWIG_RegisterMapping(typestr1,typestr2,0);
507 SWIG_RegisterMapping(typestr2,typestr1,0);
508 }
509
510 /*------------------------------------------------------------------
511 ptrfree(ptr)
512
513 Destroys a pointer value
514 ------------------------------------------------------------------ */
515
516 int ptrfree(Tcl_Interp *interp, char *_PTRVALUE) {
517 void *ptr, *junk;
518 char *s;
519
520 s = _PTRVALUE;
521 if (SWIG_GetPtr(s,&ptr,0)) {
522 Tcl_SetResult(interp,"Type error in ptrfree. Argument is not a valid pointer value.",TCL_STATIC);
523 return TCL_ERROR;
524 }
525
526 /* Check to see if this pointer is a char ** */
527 if (!SWIG_GetPtr(s,&junk,"_char_pp")) {
528 char **c = (char **) ptr;
529 if (c) {
530 int i = 0;
531 while (c[i]) {
532 free(c[i]);
533 i++;
534 }
535 }
536 }
537 if (ptr)
538 free((char *) ptr);
539
540 return TCL_OK;
541 }
542 %}
543
544 %typemap(tcl,out) int ptrcast,
545 int ptrvalue,
546 int ptrcreate,
547 int ptrset,
548 int ptradd,
549 int ptrfree
550 {
551 return $source;
552 }
553 %typemap(tcl8,out) int ptrcast,
554 int ptrvalue,
555 int ptrcreate,
556 int ptrset,
557 int ptradd,
558 int ptrfree
559 {
560 return $source;
561 }
562
563 // Ignore the Tcl_Interp * value, but set it to a value
564
565 %typemap(tcl,ignore) Tcl_Interp * {
566 $target = interp;
567 }
568 %typemap(tcl8,ignore) Tcl_Interp * {
569 $target = interp;
570 }
571
572 int ptrcast(Tcl_Interp *interp, char *ptr, char *type);
573 // Casts a pointer ptr to a new datatype given by the string type.
574 // type may be either the SWIG generated representation of a datatype
575 // or the C representation. For example :
576 //
577 // ptrcast $ptr double_p # Tcl representation
578 // ptrcast $ptr "double *" # C representation
579 //
580 // A new pointer value is returned. ptr may also be an integer
581 // value in which case the value will be used to set the pointer
582 // value. For example :
583 //
584 // set a [ptrcast 0 Vector_p]
585 //
586 // Will create a NULL pointer of type "Vector_p"
587 //
588 // The casting operation is sensitive to formatting. As a result,
589 // "double *" is different than "double*". As a result of thumb,
590 // there should always be exactly one space between the C datatype
591 // and any pointer specifiers (*).
592
593
594 int ptrvalue(Tcl_Interp *interp, char *ptr, int index = 0, char *type = 0);
595 // Returns the value that a pointer is pointing to (ie. dereferencing).
596 // The type is automatically inferred by the pointer type--thus, an
597 // integer pointer will return an integer, a double will return a double,
598 // and so on. The index and type fields are optional parameters. When
599 // an index is specified, this function returns the value of ptr[index].
600 // This allows array access. When a type is specified, it overrides
601 // the given pointer type. Examples :
602 //
603 // ptrvalue $a # Returns the value *a
604 // ptrvalue $a 10 # Returns the value a[10]
605 // ptrvalue $a 10 double # Returns a[10] assuming a is a double *
606
607 int ptrset(Tcl_Interp *interp, char *ptr, char *value, int index = 0, char *type = 0);
608 // Sets the value pointed to by a pointer. The type is automatically
609 // inferred from the pointer type so this function will work for
610 // integers, floats, doubles, etc... The index and type fields are
611 // optional. When an index is given, it provides array access. When
612 // type is specified, it overrides the given pointer type. Examples :
613 //
614 // ptrset $a 3 # Sets the value *a = 3
615 // ptrset $a 3 10 # Sets a[10] = 3
616 // ptrset $a 3 10 int # Sets a[10] = 3 assuming a is a int *
617
618 int ptrcreate(Tcl_Interp *interp, char *type, char *value = 0, int nitems = 1);
619 // Creates a new object and returns a pointer to it. This function
620 // can be used to create various kinds of objects for use in C functions.
621 // type specifies the basic C datatype to create and value is an
622 // optional parameter that can be used to set the initial value of the
623 // object. nitems is an optional parameter that can be used to create
624 // an array. This function results in a memory allocation using
625 // malloc(). Examples :
626 //
627 // set a [ptrcreate "double"] # Create a new double, return pointer
628 // set a [ptrcreate int 7] # Create an integer, set value to 7
629 // set a [ptrcreate int 0 1000] # Create an integer array with initial
630 // # values all set to zero
631 //
632 // This function only recognizes a few common C datatypes as listed below :
633 //
634 // int, short, long, float, double, char, char *, void
635 //
636 // All other datatypes will result in an error. However, other
637 // datatypes can be created by using the ptrcast function. For
638 // example:
639 //
640 // set a [ptrcast [ptrcreate int 0 100],"unsigned int *"]
641
642 int ptrfree(Tcl_Interp *interp, char *ptr);
643 // Destroys the memory pointed to by ptr. This function calls free()
644 // and should only be used with objects created by ptrcreate(). Since
645 // this function calls free, it may work with other objects, but this
646 // is generally discouraged unless you absolutely know what you're
647 // doing.
648
649 int ptradd(Tcl_Interp *interp, char *ptr, int offset);
650 // Adds a value to the current pointer value. For the C datatypes of
651 // int, short, long, float, double, and char, the offset value is the
652 // number of objects and works in exactly the same manner as in C. For
653 // example, the following code steps through the elements of an array
654 //
655 // set a [ptrcreate double 0 100] # Create an array double a[100]
656 // set b $a
657 // for {set i 0} {$i < 100} {incr i 1} {
658 // ptrset $b [expr{0.0025*$i}] # set *b = 0.0025*i
659 // set b [ptradd $b 1] # b++ (go to next double)
660 // }
661 //
662 // In this case, adding one to b goes to the next double.
663 //
664 // For all other datatypes (including all complex datatypes), the
665 // offset corresponds to bytes. This function does not perform any
666 // bounds checking and negative offsets are perfectly legal.
667
668 void ptrmap(char *type1, char *type2);
669 // This is a rarely used function that performs essentially the same
670 // operation as a C typedef. To manage datatypes at run-time, SWIG
671 // modules manage an internal symbol table of type mappings. This
672 // table keeps track of which types are equivalent to each other. The
673 // ptrmap() function provides a mechanism for scripts to add symbols
674 // to this table. For example :
675 //
676 // ptrmap double_p Real_p
677 //
678 // would make the types "double_p" and "Real_p" equivalent to each
679 // other. Pointers of either type could now be used interchangably.
680 //
681 // Normally this function is not needed, but it can be used to
682 // circumvent SWIG's normal type-checking behavior or to work around
683 // weird type-handling bugs.
684
685 // Clear the ignore typemap
686
687 %typemap(tcl,ignore) Tcl_Interp *;
688 %typemap(tcl8,ignore) Tcl_Interp *;
689
690
691
692
693
694
695