OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [vec.h] - Blame information for rev 865

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 684 jeremybenn
/* Vector API for GNU compiler.
2
   Copyright (C) 2004, 2005, 2007, 2008, 2009, 2010
3
   Free Software Foundation, Inc.
4
   Contributed by Nathan Sidwell <nathan@codesourcery.com>
5
 
6
This file is part of GCC.
7
 
8
GCC is free software; you can redistribute it and/or modify it under
9
the terms of the GNU General Public License as published by the Free
10
Software Foundation; either version 3, or (at your option) any later
11
version.
12
 
13
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14
WARRANTY; without even the implied warranty of MERCHANTABILITY or
15
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
16
for more details.
17
 
18
You should have received a copy of the GNU General Public License
19
along with GCC; see the file COPYING3.  If not see
20
<http://www.gnu.org/licenses/>.  */
21
 
22
#ifndef GCC_VEC_H
23
#define GCC_VEC_H
24
 
25
#include "statistics.h"         /* For MEM_STAT_DECL.  */
26
 
27
/* The macros here implement a set of templated vector types and
28
   associated interfaces.  These templates are implemented with
29
   macros, as we're not in C++ land.  The interface functions are
30
   typesafe and use static inline functions, sometimes backed by
31
   out-of-line generic functions.  The vectors are designed to
32
   interoperate with the GTY machinery.
33
 
34
   Because of the different behavior of structure objects, scalar
35
   objects and of pointers, there are three flavors, one for each of
36
   these variants.  Both the structure object and pointer variants
37
   pass pointers to objects around -- in the former case the pointers
38
   are stored into the vector and in the latter case the pointers are
39
   dereferenced and the objects copied into the vector.  The scalar
40
   object variant is suitable for int-like objects, and the vector
41
   elements are returned by value.
42
 
43
   There are both 'index' and 'iterate' accessors.  The iterator
44
   returns a boolean iteration condition and updates the iteration
45
   variable passed by reference.  Because the iterator will be
46
   inlined, the address-of can be optimized away.
47
 
48
   The vectors are implemented using the trailing array idiom, thus
49
   they are not resizeable without changing the address of the vector
50
   object itself.  This means you cannot have variables or fields of
51
   vector type -- always use a pointer to a vector.  The one exception
52
   is the final field of a structure, which could be a vector type.
53
   You will have to use the embedded_size & embedded_init calls to
54
   create such objects, and they will probably not be resizeable (so
55
   don't use the 'safe' allocation variants).  The trailing array
56
   idiom is used (rather than a pointer to an array of data), because,
57
   if we allow NULL to also represent an empty vector, empty vectors
58
   occupy minimal space in the structure containing them.
59
 
60
   Each operation that increases the number of active elements is
61
   available in 'quick' and 'safe' variants.  The former presumes that
62
   there is sufficient allocated space for the operation to succeed
63
   (it dies if there is not).  The latter will reallocate the
64
   vector, if needed.  Reallocation causes an exponential increase in
65
   vector size.  If you know you will be adding N elements, it would
66
   be more efficient to use the reserve operation before adding the
67
   elements with the 'quick' operation.  This will ensure there are at
68
   least as many elements as you ask for, it will exponentially
69
   increase if there are too few spare slots.  If you want reserve a
70
   specific number of slots, but do not want the exponential increase
71
   (for instance, you know this is the last allocation), use the
72
   reserve_exact operation.  You can also create a vector of a
73
   specific size from the get go.
74
 
75
   You should prefer the push and pop operations, as they append and
76
   remove from the end of the vector. If you need to remove several
77
   items in one go, use the truncate operation.  The insert and remove
78
   operations allow you to change elements in the middle of the
79
   vector.  There are two remove operations, one which preserves the
80
   element ordering 'ordered_remove', and one which does not
81
   'unordered_remove'.  The latter function copies the end element
82
   into the removed slot, rather than invoke a memmove operation.  The
83
   'lower_bound' function will determine where to place an item in the
84
   array using insert that will maintain sorted order.
85
 
86
   When a vector type is defined, first a non-memory managed version
87
   is created.  You can then define either or both garbage collected
88
   and heap allocated versions.  The allocation mechanism is specified
89
   when the type is defined, and is therefore part of the type.  If
90
   you need both gc'd and heap allocated versions, you still must have
91
   *exactly* one definition of the common non-memory managed base vector.
92
 
93
   If you need to directly manipulate a vector, then the 'address'
94
   accessor will return the address of the start of the vector.  Also
95
   the 'space' predicate will tell you whether there is spare capacity
96
   in the vector.  You will not normally need to use these two functions.
97
 
98
   Vector types are defined using a DEF_VEC_{O,P,I}(TYPEDEF) macro, to
99
   get the non-memory allocation version, and then a
100
   DEF_VEC_ALLOC_{O,P,I}(TYPEDEF,ALLOC) macro to get memory managed
101
   vectors.  Variables of vector type are declared using a
102
   VEC(TYPEDEF,ALLOC) macro.  The ALLOC argument specifies the
103
   allocation strategy, and can be either 'gc' or 'heap' for garbage
104
   collected and heap allocated respectively.  It can be 'none' to get
105
   a vector that must be explicitly allocated (for instance as a
106
   trailing array of another structure).  The characters O, P and I
107
   indicate whether TYPEDEF is a pointer (P), object (O) or integral
108
   (I) type.  Be careful to pick the correct one, as you'll get an
109
   awkward and inefficient API if you use the wrong one.  There is a
110
   check, which results in a compile-time warning, for the P and I
111
   versions, but there is no check for the O versions, as that is not
112
   possible in plain C.  Due to the way GTY works, you must annotate
113
   any structures you wish to insert or reference from a vector with a
114
   GTY(()) tag.  You need to do this even if you never declare the GC
115
   allocated variants.
116
 
117
   An example of their use would be,
118
 
119
   DEF_VEC_P(tree);   // non-managed tree vector.
120
   DEF_VEC_ALLOC_P(tree,gc);    // gc'd vector of tree pointers.  This must
121
                                // appear at file scope.
122
 
123
   struct my_struct {
124
     VEC(tree,gc) *v;      // A (pointer to) a vector of tree pointers.
125
   };
126
 
127
   struct my_struct *s;
128
 
129
   if (VEC_length(tree,s->v)) { we have some contents }
130
   VEC_safe_push(tree,gc,s->v,decl); // append some decl onto the end
131
   for (ix = 0; VEC_iterate(tree,s->v,ix,elt); ix++)
132
     { do something with elt }
133
 
134
*/
135
 
136
/* Macros to invoke API calls.  A single macro works for both pointer
137
   and object vectors, but the argument and return types might well be
138
   different.  In each macro, T is the typedef of the vector elements,
139
   and A is the allocation strategy.  The allocation strategy is only
140
   present when it is required.  Some of these macros pass the vector,
141
   V, by reference (by taking its address), this is noted in the
142
   descriptions.  */
143
 
144
/* Length of vector
145
   unsigned VEC_T_length(const VEC(T) *v);
146
 
147
   Return the number of active elements in V.  V can be NULL, in which
148
   case zero is returned.  */
149
 
150
#define VEC_length(T,V) (VEC_OP(T,base,length)(VEC_BASE(V)))
151
 
152
 
153
/* Check if vector is empty
154
   int VEC_T_empty(const VEC(T) *v);
155
 
156
   Return nonzero if V is an empty vector (or V is NULL), zero otherwise.  */
157
 
158
#define VEC_empty(T,V)  (VEC_length (T,V) == 0)
159
 
160
 
161
/* Get the final element of the vector.
162
   T VEC_T_last(VEC(T) *v); // Integer
163
   T VEC_T_last(VEC(T) *v); // Pointer
164
   T *VEC_T_last(VEC(T) *v); // Object
165
 
166
   Return the final element.  V must not be empty.  */
167
 
168
#define VEC_last(T,V)   (VEC_OP(T,base,last)(VEC_BASE(V) VEC_CHECK_INFO))
169
 
170
/* Index into vector
171
   T VEC_T_index(VEC(T) *v, unsigned ix); // Integer
172
   T VEC_T_index(VEC(T) *v, unsigned ix); // Pointer
173
   T *VEC_T_index(VEC(T) *v, unsigned ix); // Object
174
 
175
   Return the IX'th element.  If IX must be in the domain of V.  */
176
 
177
#define VEC_index(T,V,I) (VEC_OP(T,base,index)(VEC_BASE(V),I VEC_CHECK_INFO))
178
 
179
/* Iterate over vector
180
   int VEC_T_iterate(VEC(T) *v, unsigned ix, T &ptr); // Integer
181
   int VEC_T_iterate(VEC(T) *v, unsigned ix, T &ptr); // Pointer
182
   int VEC_T_iterate(VEC(T) *v, unsigned ix, T *&ptr); // Object
183
 
184
   Return iteration condition and update PTR to point to the IX'th
185
   element.  At the end of iteration, sets PTR to NULL.  Use this to
186
   iterate over the elements of a vector as follows,
187
 
188
     for (ix = 0; VEC_iterate(T,v,ix,ptr); ix++)
189
       continue;  */
190
 
191
#define VEC_iterate(T,V,I,P)    (VEC_OP(T,base,iterate)(VEC_BASE(V),I,&(P)))
192
 
193
/* Convenience macro for forward iteration.  */
194
 
195
#define FOR_EACH_VEC_ELT(T, V, I, P)            \
196
  for (I = 0; VEC_iterate (T, (V), (I), (P)); ++(I))
197
 
198
/* Likewise, but start from FROM rather than 0.  */
199
 
200
#define FOR_EACH_VEC_ELT_FROM(T, V, I, P, FROM)         \
201
  for (I = (FROM); VEC_iterate (T, (V), (I), (P)); ++(I))
202
 
203
/* Convenience macro for reverse iteration.  */
204
 
205
#define FOR_EACH_VEC_ELT_REVERSE(T,V,I,P) \
206
  for (I = VEC_length (T, (V)) - 1;           \
207
       VEC_iterate (T, (V), (I), (P));    \
208
       (I)--)
209
 
210
/* Allocate new vector.
211
   VEC(T,A) *VEC_T_A_alloc(int reserve);
212
 
213
   Allocate a new vector with space for RESERVE objects.  If RESERVE
214
   is zero, NO vector is created.  */
215
 
216
#define VEC_alloc(T,A,N)        (VEC_OP(T,A,alloc)(N MEM_STAT_INFO))
217
 
218
/* Free a vector.
219
   void VEC_T_A_free(VEC(T,A) *&);
220
 
221
   Free a vector and set it to NULL.  */
222
 
223
#define VEC_free(T,A,V) (VEC_OP(T,A,free)(&V))
224
 
225
/* Use these to determine the required size and initialization of a
226
   vector embedded within another structure (as the final member).
227
 
228
   size_t VEC_T_embedded_size(int reserve);
229
   void VEC_T_embedded_init(VEC(T) *v, int reserve);
230
 
231
   These allow the caller to perform the memory allocation.  */
232
 
233
#define VEC_embedded_size(T,N)   (VEC_OP(T,base,embedded_size)(N))
234
#define VEC_embedded_init(T,O,N) (VEC_OP(T,base,embedded_init)(VEC_BASE(O),N))
235
 
236
/* Copy a vector.
237
   VEC(T,A) *VEC_T_A_copy(VEC(T) *);
238
 
239
   Copy the live elements of a vector into a new vector.  The new and
240
   old vectors need not be allocated by the same mechanism.  */
241
 
242
#define VEC_copy(T,A,V) (VEC_OP(T,A,copy)(VEC_BASE(V) MEM_STAT_INFO))
243
 
244
/* Determine if a vector has additional capacity.
245
 
246
   int VEC_T_space (VEC(T) *v,int reserve)
247
 
248
   If V has space for RESERVE additional entries, return nonzero.  You
249
   usually only need to use this if you are doing your own vector
250
   reallocation, for instance on an embedded vector.  This returns
251
   nonzero in exactly the same circumstances that VEC_T_reserve
252
   will.  */
253
 
254
#define VEC_space(T,V,R) \
255
        (VEC_OP(T,base,space)(VEC_BASE(V),R VEC_CHECK_INFO))
256
 
257
/* Reserve space.
258
   int VEC_T_A_reserve(VEC(T,A) *&v, int reserve);
259
 
260
   Ensure that V has at least RESERVE slots available.  This will
261
   create additional headroom.  Note this can cause V to be
262
   reallocated.  Returns nonzero iff reallocation actually
263
   occurred.  */
264
 
265
#define VEC_reserve(T,A,V,R)    \
266
        (VEC_OP(T,A,reserve)(&(V),R VEC_CHECK_INFO MEM_STAT_INFO))
267
 
268
/* Reserve space exactly.
269
   int VEC_T_A_reserve_exact(VEC(T,A) *&v, int reserve);
270
 
271
   Ensure that V has at least RESERVE slots available.  This will not
272
   create additional headroom.  Note this can cause V to be
273
   reallocated.  Returns nonzero iff reallocation actually
274
   occurred.  */
275
 
276
#define VEC_reserve_exact(T,A,V,R)      \
277
        (VEC_OP(T,A,reserve_exact)(&(V),R VEC_CHECK_INFO MEM_STAT_INFO))
278
 
279
/* Copy elements with no reallocation
280
   void VEC_T_splice (VEC(T) *dst, VEC(T) *src); // Integer
281
   void VEC_T_splice (VEC(T) *dst, VEC(T) *src); // Pointer
282
   void VEC_T_splice (VEC(T) *dst, VEC(T) *src); // Object
283
 
284
   Copy the elements in SRC to the end of DST as if by memcpy.  DST and
285
   SRC need not be allocated with the same mechanism, although they most
286
   often will be.  DST is assumed to have sufficient headroom
287
   available.  */
288
 
289
#define VEC_splice(T,DST,SRC)                   \
290
  (VEC_OP(T,base,splice)(VEC_BASE(DST), VEC_BASE(SRC) VEC_CHECK_INFO))
291
 
292
/* Copy elements with reallocation
293
   void VEC_T_safe_splice (VEC(T,A) *&dst, VEC(T) *src); // Integer
294
   void VEC_T_safe_splice (VEC(T,A) *&dst, VEC(T) *src); // Pointer
295
   void VEC_T_safe_splice (VEC(T,A) *&dst, VEC(T) *src); // Object
296
 
297
   Copy the elements in SRC to the end of DST as if by memcpy.  DST and
298
   SRC need not be allocated with the same mechanism, although they most
299
   often will be.  DST need not have sufficient headroom and will be
300
   reallocated if needed.  */
301
 
302
#define VEC_safe_splice(T,A,DST,SRC)                                    \
303
  (VEC_OP(T,A,safe_splice)(&(DST), VEC_BASE(SRC) VEC_CHECK_INFO MEM_STAT_INFO))
304
 
305
/* Push object with no reallocation
306
   T *VEC_T_quick_push (VEC(T) *v, T obj); // Integer
307
   T *VEC_T_quick_push (VEC(T) *v, T obj); // Pointer
308
   T *VEC_T_quick_push (VEC(T) *v, T *obj); // Object
309
 
310
   Push a new element onto the end, returns a pointer to the slot
311
   filled in. For object vectors, the new value can be NULL, in which
312
   case NO initialization is performed.  There must
313
   be sufficient space in the vector.  */
314
 
315
#define VEC_quick_push(T,V,O)   \
316
        (VEC_OP(T,base,quick_push)(VEC_BASE(V),O VEC_CHECK_INFO))
317
 
318
/* Push object with reallocation
319
   T *VEC_T_A_safe_push (VEC(T,A) *&v, T obj); // Integer
320
   T *VEC_T_A_safe_push (VEC(T,A) *&v, T obj); // Pointer
321
   T *VEC_T_A_safe_push (VEC(T,A) *&v, T *obj); // Object
322
 
323
   Push a new element onto the end, returns a pointer to the slot
324
   filled in. For object vectors, the new value can be NULL, in which
325
   case NO initialization is performed.  Reallocates V, if needed.  */
326
 
327
#define VEC_safe_push(T,A,V,O)          \
328
        (VEC_OP(T,A,safe_push)(&(V),O VEC_CHECK_INFO MEM_STAT_INFO))
329
 
330
/* Pop element off end
331
   T VEC_T_pop (VEC(T) *v);             // Integer
332
   T VEC_T_pop (VEC(T) *v);             // Pointer
333
   void VEC_T_pop (VEC(T) *v);          // Object
334
 
335
   Pop the last element off the end. Returns the element popped, for
336
   pointer vectors.  */
337
 
338
#define VEC_pop(T,V)    (VEC_OP(T,base,pop)(VEC_BASE(V) VEC_CHECK_INFO))
339
 
340
/* Truncate to specific length
341
   void VEC_T_truncate (VEC(T) *v, unsigned len);
342
 
343
   Set the length as specified.  The new length must be less than or
344
   equal to the current length.  This is an O(1) operation.  */
345
 
346
#define VEC_truncate(T,V,I)             \
347
        (VEC_OP(T,base,truncate)(VEC_BASE(V),I VEC_CHECK_INFO))
348
 
349
/* Grow to a specific length.
350
   void VEC_T_A_safe_grow (VEC(T,A) *&v, int len);
351
 
352
   Grow the vector to a specific length.  The LEN must be as
353
   long or longer than the current length.  The new elements are
354
   uninitialized.  */
355
 
356
#define VEC_safe_grow(T,A,V,I)          \
357
        (VEC_OP(T,A,safe_grow)(&(V),I VEC_CHECK_INFO MEM_STAT_INFO))
358
 
359
/* Grow to a specific length.
360
   void VEC_T_A_safe_grow_cleared (VEC(T,A) *&v, int len);
361
 
362
   Grow the vector to a specific length.  The LEN must be as
363
   long or longer than the current length.  The new elements are
364
   initialized to zero.  */
365
 
366
#define VEC_safe_grow_cleared(T,A,V,I)          \
367
        (VEC_OP(T,A,safe_grow_cleared)(&(V),I VEC_CHECK_INFO MEM_STAT_INFO))
368
 
369
/* Replace element
370
   T VEC_T_replace (VEC(T) *v, unsigned ix, T val); // Integer
371
   T VEC_T_replace (VEC(T) *v, unsigned ix, T val); // Pointer
372
   T *VEC_T_replace (VEC(T) *v, unsigned ix, T *val);  // Object
373
 
374
   Replace the IXth element of V with a new value, VAL.  For pointer
375
   vectors returns the original value. For object vectors returns a
376
   pointer to the new value.  For object vectors the new value can be
377
   NULL, in which case no overwriting of the slot is actually
378
   performed.  */
379
 
380
#define VEC_replace(T,V,I,O)            \
381
        (VEC_OP(T,base,replace)(VEC_BASE(V),I,O VEC_CHECK_INFO))
382
 
383
/* Insert object with no reallocation
384
   T *VEC_T_quick_insert (VEC(T) *v, unsigned ix, T val); // Integer
385
   T *VEC_T_quick_insert (VEC(T) *v, unsigned ix, T val); // Pointer
386
   T *VEC_T_quick_insert (VEC(T) *v, unsigned ix, T *val); // Object
387
 
388
   Insert an element, VAL, at the IXth position of V. Return a pointer
389
   to the slot created.  For vectors of object, the new value can be
390
   NULL, in which case no initialization of the inserted slot takes
391
   place. There must be sufficient space.  */
392
 
393
#define VEC_quick_insert(T,V,I,O)       \
394
        (VEC_OP(T,base,quick_insert)(VEC_BASE(V),I,O VEC_CHECK_INFO))
395
 
396
/* Insert object with reallocation
397
   T *VEC_T_A_safe_insert (VEC(T,A) *&v, unsigned ix, T val); // Integer
398
   T *VEC_T_A_safe_insert (VEC(T,A) *&v, unsigned ix, T val); // Pointer
399
   T *VEC_T_A_safe_insert (VEC(T,A) *&v, unsigned ix, T *val); // Object
400
 
401
   Insert an element, VAL, at the IXth position of V. Return a pointer
402
   to the slot created.  For vectors of object, the new value can be
403
   NULL, in which case no initialization of the inserted slot takes
404
   place. Reallocate V, if necessary.  */
405
 
406
#define VEC_safe_insert(T,A,V,I,O)      \
407
        (VEC_OP(T,A,safe_insert)(&(V),I,O VEC_CHECK_INFO MEM_STAT_INFO))
408
 
409
/* Remove element retaining order
410
   T VEC_T_ordered_remove (VEC(T) *v, unsigned ix); // Integer
411
   T VEC_T_ordered_remove (VEC(T) *v, unsigned ix); // Pointer
412
   void VEC_T_ordered_remove (VEC(T) *v, unsigned ix); // Object
413
 
414
   Remove an element from the IXth position of V. Ordering of
415
   remaining elements is preserved.  For pointer vectors returns the
416
   removed object.  This is an O(N) operation due to a memmove.  */
417
 
418
#define VEC_ordered_remove(T,V,I)       \
419
        (VEC_OP(T,base,ordered_remove)(VEC_BASE(V),I VEC_CHECK_INFO))
420
 
421
/* Remove element destroying order
422
   T VEC_T_unordered_remove (VEC(T) *v, unsigned ix); // Integer
423
   T VEC_T_unordered_remove (VEC(T) *v, unsigned ix); // Pointer
424
   void VEC_T_unordered_remove (VEC(T) *v, unsigned ix); // Object
425
 
426
   Remove an element from the IXth position of V. Ordering of
427
   remaining elements is destroyed.  For pointer vectors returns the
428
   removed object.  This is an O(1) operation.  */
429
 
430
#define VEC_unordered_remove(T,V,I)     \
431
        (VEC_OP(T,base,unordered_remove)(VEC_BASE(V),I VEC_CHECK_INFO))
432
 
433
/* Remove a block of elements
434
   void VEC_T_block_remove (VEC(T) *v, unsigned ix, unsigned len);
435
 
436
   Remove LEN elements starting at the IXth.  Ordering is retained.
437
   This is an O(N) operation due to memmove.  */
438
 
439
#define VEC_block_remove(T,V,I,L)       \
440
        (VEC_OP(T,base,block_remove)(VEC_BASE(V),I,L VEC_CHECK_INFO))
441
 
442
/* Get the address of the array of elements
443
   T *VEC_T_address (VEC(T) v)
444
 
445
   If you need to directly manipulate the array (for instance, you
446
   want to feed it to qsort), use this accessor.  */
447
 
448
#define VEC_address(T,V)                (VEC_OP(T,base,address)(VEC_BASE(V)))
449
 
450
/* Conveniently sort the contents of the vector with qsort.
451
   void VEC_qsort (VEC(T) *v, int (*cmp_func)(const void *, const void *))  */
452
 
453
#define VEC_qsort(T,V,CMP) qsort(VEC_address (T,V), VEC_length(T,V),    \
454
                                 sizeof (T), CMP)
455
 
456
/* Find the first index in the vector not less than the object.
457
   unsigned VEC_T_lower_bound (VEC(T) *v, const T val,
458
                               bool (*lessthan) (const T, const T)); // Integer
459
   unsigned VEC_T_lower_bound (VEC(T) *v, const T val,
460
                               bool (*lessthan) (const T, const T)); // Pointer
461
   unsigned VEC_T_lower_bound (VEC(T) *v, const T *val,
462
                               bool (*lessthan) (const T*, const T*)); // Object
463
 
464
   Find the first position in which VAL could be inserted without
465
   changing the ordering of V.  LESSTHAN is a function that returns
466
   true if the first argument is strictly less than the second.  */
467
 
468
#define VEC_lower_bound(T,V,O,LT)    \
469
       (VEC_OP(T,base,lower_bound)(VEC_BASE(V),O,LT VEC_CHECK_INFO))
470
 
471
/* Reallocate an array of elements with prefix.  */
472
extern void *vec_gc_p_reserve (void *, int MEM_STAT_DECL);
473
extern void *vec_gc_p_reserve_exact (void *, int MEM_STAT_DECL);
474
extern void *vec_gc_o_reserve (void *, int, size_t, size_t MEM_STAT_DECL);
475
extern void *vec_gc_o_reserve_exact (void *, int, size_t, size_t
476
                                     MEM_STAT_DECL);
477
extern void ggc_free (void *);
478
#define vec_gc_free(V) ggc_free (V)
479
extern void *vec_heap_p_reserve (void *, int MEM_STAT_DECL);
480
extern void *vec_heap_p_reserve_exact (void *, int MEM_STAT_DECL);
481
extern void *vec_heap_o_reserve (void *, int, size_t, size_t MEM_STAT_DECL);
482
extern void *vec_heap_o_reserve_exact (void *, int, size_t, size_t
483
                                       MEM_STAT_DECL);
484
extern void dump_vec_loc_statistics (void);
485
#ifdef GATHER_STATISTICS
486
void vec_heap_free (void *);
487
#else
488
/* Avoid problems with frontends that #define free(x).  */
489
#define vec_heap_free(V) (free) (V)
490
#endif
491
 
492
#if ENABLE_CHECKING
493
#define VEC_CHECK_INFO ,__FILE__,__LINE__,__FUNCTION__
494
#define VEC_CHECK_DECL ,const char *file_,unsigned line_,const char *function_
495
#define VEC_CHECK_PASS ,file_,line_,function_
496
 
497
#define VEC_ASSERT(EXPR,OP,T,A) \
498
  (void)((EXPR) ? 0 : (VEC_ASSERT_FAIL(OP,VEC(T,A)), 0))
499
 
500
extern void vec_assert_fail (const char *, const char * VEC_CHECK_DECL)
501
     ATTRIBUTE_NORETURN;
502
#define VEC_ASSERT_FAIL(OP,VEC) vec_assert_fail (OP,#VEC VEC_CHECK_PASS)
503
#else
504
#define VEC_CHECK_INFO
505
#define VEC_CHECK_DECL
506
#define VEC_CHECK_PASS
507
#define VEC_ASSERT(EXPR,OP,T,A) (void)(EXPR)
508
#endif
509
 
510
/* Note: gengtype has hardwired knowledge of the expansions of the
511
   VEC, DEF_VEC_*, and DEF_VEC_ALLOC_* macros.  If you change the
512
   expansions of these macros you may need to change gengtype too.  */
513
 
514
typedef struct GTY(()) vec_prefix
515
{
516
  unsigned num;
517
  unsigned alloc;
518
} vec_prefix;
519
 
520
#define VEC(T,A) VEC_##T##_##A
521
#define VEC_OP(T,A,OP) VEC_##T##_##A##_##OP
522
 
523
/* Base of vector type, not user visible.  */
524
#define VEC_T(T,B)                                                        \
525
typedef struct VEC(T,B)                                                   \
526
{                                                                         \
527
  struct vec_prefix prefix;                                               \
528
  T vec[1];                                                               \
529
} VEC(T,B)
530
 
531
#define VEC_T_GTY(T,B)                                                    \
532
typedef struct GTY(()) VEC(T,B)                                           \
533
{                                                                         \
534
  struct vec_prefix prefix;                                               \
535
  T GTY ((length ("%h.prefix.num"))) vec[1];                              \
536
} VEC(T,B)
537
 
538
/* Derived vector type, user visible.  */
539
#define VEC_TA_GTY(T,B,A,GTY)                                             \
540
typedef struct GTY VEC(T,A)                                               \
541
{                                                                         \
542
  VEC(T,B) base;                                                          \
543
} VEC(T,A)
544
 
545
#define VEC_TA(T,B,A)                                                     \
546
typedef struct VEC(T,A)                                                   \
547
{                                                                         \
548
  VEC(T,B) base;                                                          \
549
} VEC(T,A)
550
 
551
/* Convert to base type.  */
552
#if GCC_VERSION >= 4000
553
#define VEC_BASE(P) \
554
  ((offsetof (__typeof (*P), base) == 0 || (P)) ? &(P)->base : 0)
555
#else
556
#define VEC_BASE(P)  ((P) ? &(P)->base : 0)
557
#endif
558
 
559
/* Vector of integer-like object.  */
560
#define DEF_VEC_I(T)                                                      \
561
static inline void VEC_OP (T,must_be,integral_type) (void)                \
562
{                                                                         \
563
  (void)~(T)0;                                                             \
564
}                                                                         \
565
                                                                          \
566
VEC_T(T,base);                                                            \
567
VEC_TA(T,base,none);                                                      \
568
DEF_VEC_FUNC_P(T)                                                         \
569
struct vec_swallow_trailing_semi
570
#define DEF_VEC_ALLOC_I(T,A)                                              \
571
VEC_TA(T,base,A);                                                         \
572
DEF_VEC_ALLOC_FUNC_I(T,A)                                                 \
573
DEF_VEC_NONALLOC_FUNCS_I(T,A)                                             \
574
struct vec_swallow_trailing_semi
575
 
576
/* Vector of pointer to object.  */
577
#define DEF_VEC_P(T)                                                      \
578
static inline void VEC_OP (T,must_be,pointer_type) (void)                 \
579
{                                                                         \
580
  (void)((T)1 == (void *)1);                                              \
581
}                                                                         \
582
                                                                          \
583
VEC_T_GTY(T,base);                                                        \
584
VEC_TA(T,base,none);                                                      \
585
DEF_VEC_FUNC_P(T)                                                         \
586
struct vec_swallow_trailing_semi
587
#define DEF_VEC_ALLOC_P(T,A)                                              \
588
VEC_TA(T,base,A);                                                         \
589
DEF_VEC_ALLOC_FUNC_P(T,A)                                                 \
590
DEF_VEC_NONALLOC_FUNCS_P(T,A)                                             \
591
struct vec_swallow_trailing_semi
592
 
593
#define DEF_VEC_FUNC_P(T)                                                 \
594
static inline unsigned VEC_OP (T,base,length) (const VEC(T,base) *vec_)   \
595
{                                                                         \
596
  return vec_ ? vec_->prefix.num : 0;                                              \
597
}                                                                         \
598
                                                                          \
599
static inline T VEC_OP (T,base,last)                                      \
600
     (const VEC(T,base) *vec_ VEC_CHECK_DECL)                             \
601
{                                                                         \
602
  VEC_ASSERT (vec_ && vec_->prefix.num, "last", T, base);                         \
603
                                                                          \
604
  return vec_->vec[vec_->prefix.num - 1];                                         \
605
}                                                                         \
606
                                                                          \
607
static inline T VEC_OP (T,base,index)                                     \
608
     (const VEC(T,base) *vec_, unsigned ix_ VEC_CHECK_DECL)               \
609
{                                                                         \
610
  VEC_ASSERT (vec_ && ix_ < vec_->prefix.num, "index", T, base);                  \
611
                                                                          \
612
  return vec_->vec[ix_];                                                  \
613
}                                                                         \
614
                                                                          \
615
static inline int VEC_OP (T,base,iterate)                                 \
616
     (const VEC(T,base) *vec_, unsigned ix_, T *ptr)                      \
617
{                                                                         \
618
  if (vec_ && ix_ < vec_->prefix.num)                                             \
619
    {                                                                     \
620
      *ptr = vec_->vec[ix_];                                              \
621
      return 1;                                                           \
622
    }                                                                     \
623
  else                                                                    \
624
    {                                                                     \
625
      *ptr = (T) 0;                                                        \
626
      return 0;                                                            \
627
    }                                                                     \
628
}                                                                         \
629
                                                                          \
630
static inline size_t VEC_OP (T,base,embedded_size)                        \
631
     (int alloc_)                                                         \
632
{                                                                         \
633
  return offsetof (VEC(T,base),vec) + alloc_ * sizeof(T);                 \
634
}                                                                         \
635
                                                                          \
636
static inline void VEC_OP (T,base,embedded_init)                          \
637
     (VEC(T,base) *vec_, int alloc_)                                      \
638
{                                                                         \
639
  vec_->prefix.num = 0;                                                    \
640
  vec_->prefix.alloc = alloc_;                                                    \
641
}                                                                         \
642
                                                                          \
643
static inline int VEC_OP (T,base,space)                                   \
644
     (VEC(T,base) *vec_, int alloc_ VEC_CHECK_DECL)                       \
645
{                                                                         \
646
  VEC_ASSERT (alloc_ >= 0, "space", T, base);                              \
647
  return vec_ ? vec_->prefix.alloc - vec_->prefix.num >= (unsigned)alloc_ : !alloc_;      \
648
}                                                                         \
649
                                                                          \
650
static inline void VEC_OP(T,base,splice)                                  \
651
     (VEC(T,base) *dst_, VEC(T,base) *src_ VEC_CHECK_DECL)                \
652
{                                                                         \
653
  if (src_)                                                               \
654
    {                                                                     \
655
      unsigned len_ = src_->prefix.num;                                   \
656
      VEC_ASSERT (dst_->prefix.num + len_ <= dst_->prefix.alloc, "splice", T, base);      \
657
                                                                          \
658
      memcpy (&dst_->vec[dst_->prefix.num], &src_->vec[0], len_ * sizeof (T));     \
659
      dst_->prefix.num += len_;                                           \
660
    }                                                                     \
661
}                                                                         \
662
                                                                          \
663
static inline T *VEC_OP (T,base,quick_push)                               \
664
     (VEC(T,base) *vec_, T obj_ VEC_CHECK_DECL)                           \
665
{                                                                         \
666
  T *slot_;                                                               \
667
                                                                          \
668
  VEC_ASSERT (vec_->prefix.num < vec_->prefix.alloc, "push", T, base);            \
669
  slot_ = &vec_->vec[vec_->prefix.num++];                                         \
670
  *slot_ = obj_;                                                          \
671
                                                                          \
672
  return slot_;                                                           \
673
}                                                                         \
674
                                                                          \
675
static inline T VEC_OP (T,base,pop) (VEC(T,base) *vec_ VEC_CHECK_DECL)    \
676
{                                                                         \
677
  T obj_;                                                                 \
678
                                                                          \
679
  VEC_ASSERT (vec_->prefix.num, "pop", T, base);                                  \
680
  obj_ = vec_->vec[--vec_->prefix.num];                                   \
681
                                                                          \
682
  return obj_;                                                            \
683
}                                                                         \
684
                                                                          \
685
static inline void VEC_OP (T,base,truncate)                               \
686
     (VEC(T,base) *vec_, unsigned size_ VEC_CHECK_DECL)                   \
687
{                                                                         \
688
  VEC_ASSERT (vec_ ? vec_->prefix.num >= size_ : !size_, "truncate", T, base);    \
689
  if (vec_)                                                               \
690
    vec_->prefix.num = size_;                                                     \
691
}                                                                         \
692
                                                                          \
693
static inline T VEC_OP (T,base,replace)                                   \
694
     (VEC(T,base) *vec_, unsigned ix_, T obj_ VEC_CHECK_DECL)             \
695
{                                                                         \
696
  T old_obj_;                                                             \
697
                                                                          \
698
  VEC_ASSERT (ix_ < vec_->prefix.num, "replace", T, base);                        \
699
  old_obj_ = vec_->vec[ix_];                                              \
700
  vec_->vec[ix_] = obj_;                                                  \
701
                                                                          \
702
  return old_obj_;                                                        \
703
}                                                                         \
704
                                                                          \
705
static inline T *VEC_OP (T,base,quick_insert)                             \
706
     (VEC(T,base) *vec_, unsigned ix_, T obj_ VEC_CHECK_DECL)             \
707
{                                                                         \
708
  T *slot_;                                                               \
709
                                                                          \
710
  VEC_ASSERT (vec_->prefix.num < vec_->prefix.alloc, "insert", T, base);                  \
711
  VEC_ASSERT (ix_ <= vec_->prefix.num, "insert", T, base);                        \
712
  slot_ = &vec_->vec[ix_];                                                \
713
  memmove (slot_ + 1, slot_, (vec_->prefix.num++ - ix_) * sizeof (T));            \
714
  *slot_ = obj_;                                                          \
715
                                                                          \
716
  return slot_;                                                           \
717
}                                                                         \
718
                                                                          \
719
static inline T VEC_OP (T,base,ordered_remove)                            \
720
     (VEC(T,base) *vec_, unsigned ix_ VEC_CHECK_DECL)                     \
721
{                                                                         \
722
  T *slot_;                                                               \
723
  T obj_;                                                                 \
724
                                                                          \
725
  VEC_ASSERT (ix_ < vec_->prefix.num, "remove", T, base);                         \
726
  slot_ = &vec_->vec[ix_];                                                \
727
  obj_ = *slot_;                                                          \
728
  memmove (slot_, slot_ + 1, (--vec_->prefix.num - ix_) * sizeof (T));            \
729
                                                                          \
730
  return obj_;                                                            \
731
}                                                                         \
732
                                                                          \
733
static inline T VEC_OP (T,base,unordered_remove)                          \
734
     (VEC(T,base) *vec_, unsigned ix_ VEC_CHECK_DECL)                     \
735
{                                                                         \
736
  T *slot_;                                                               \
737
  T obj_;                                                                 \
738
                                                                          \
739
  VEC_ASSERT (ix_ < vec_->prefix.num, "remove", T, base);                         \
740
  slot_ = &vec_->vec[ix_];                                                \
741
  obj_ = *slot_;                                                          \
742
  *slot_ = vec_->vec[--vec_->prefix.num];                                         \
743
                                                                          \
744
  return obj_;                                                            \
745
}                                                                         \
746
                                                                          \
747
static inline void VEC_OP (T,base,block_remove)                           \
748
     (VEC(T,base) *vec_, unsigned ix_, unsigned len_ VEC_CHECK_DECL)      \
749
{                                                                         \
750
  T *slot_;                                                               \
751
                                                                          \
752
  VEC_ASSERT (ix_ + len_ <= vec_->prefix.num, "block_remove", T, base);   \
753
  slot_ = &vec_->vec[ix_];                                                \
754
  vec_->prefix.num -= len_;                                                       \
755
  memmove (slot_, slot_ + len_, (vec_->prefix.num - ix_) * sizeof (T));   \
756
}                                                                         \
757
                                                                          \
758
static inline T *VEC_OP (T,base,address)                                  \
759
     (VEC(T,base) *vec_)                                                  \
760
{                                                                         \
761
  return vec_ ? vec_->vec : 0;                                             \
762
}                                                                         \
763
                                                                          \
764
static inline unsigned VEC_OP (T,base,lower_bound)                        \
765
     (VEC(T,base) *vec_, const T obj_,                                    \
766
      bool (*lessthan_)(const T, const T) VEC_CHECK_DECL)                 \
767
{                                                                         \
768
   unsigned int len_ = VEC_OP (T,base, length) (vec_);                    \
769
   unsigned int half_, middle_;                                           \
770
   unsigned int first_ = 0;                                                \
771
   while (len_ > 0)                                                        \
772
     {                                                                    \
773
        T middle_elem_;                                                   \
774
        half_ = len_ >> 1;                                                \
775
        middle_ = first_;                                                 \
776
        middle_ += half_;                                                 \
777
        middle_elem_ = VEC_OP (T,base,index) (vec_, middle_ VEC_CHECK_PASS); \
778
        if (lessthan_ (middle_elem_, obj_))                               \
779
          {                                                               \
780
             first_ = middle_;                                            \
781
             ++first_;                                                    \
782
             len_ = len_ - half_ - 1;                                     \
783
          }                                                               \
784
        else                                                              \
785
          len_ = half_;                                                   \
786
     }                                                                    \
787
   return first_;                                                         \
788
}
789
 
790
#define DEF_VEC_ALLOC_FUNC_P(T,A)                                         \
791
static inline VEC(T,A) *VEC_OP (T,A,alloc)                                \
792
     (int alloc_ MEM_STAT_DECL)                                           \
793
{                                                                         \
794
  return (VEC(T,A) *) vec_##A##_p_reserve_exact (NULL, alloc_             \
795
                                                 PASS_MEM_STAT);          \
796
}
797
 
798
 
799
#define DEF_VEC_NONALLOC_FUNCS_P(T,A)                                     \
800
static inline void VEC_OP (T,A,free)                                      \
801
     (VEC(T,A) **vec_)                                                    \
802
{                                                                         \
803
  if (*vec_)                                                              \
804
    vec_##A##_free (*vec_);                                               \
805
  *vec_ = NULL;                                                           \
806
}                                                                         \
807
                                                                          \
808
static inline VEC(T,A) *VEC_OP (T,A,copy) (VEC(T,base) *vec_ MEM_STAT_DECL) \
809
{                                                                         \
810
  size_t len_ = vec_ ? vec_->prefix.num : 0;                                       \
811
  VEC (T,A) *new_vec_ = NULL;                                             \
812
                                                                          \
813
  if (len_)                                                               \
814
    {                                                                     \
815
      new_vec_ = (VEC (T,A) *)(vec_##A##_p_reserve_exact                  \
816
                               (NULL, len_ PASS_MEM_STAT));               \
817
                                                                          \
818
      new_vec_->base.prefix.num = len_;                                   \
819
      memcpy (new_vec_->base.vec, vec_->vec, sizeof (T) * len_);          \
820
    }                                                                     \
821
  return new_vec_;                                                        \
822
}                                                                         \
823
                                                                          \
824
static inline int VEC_OP (T,A,reserve)                                    \
825
     (VEC(T,A) **vec_, int alloc_ VEC_CHECK_DECL MEM_STAT_DECL)           \
826
{                                                                         \
827
  int extend = !VEC_OP (T,base,space) (VEC_BASE(*vec_), alloc_            \
828
                                       VEC_CHECK_PASS);                   \
829
                                                                          \
830
  if (extend)                                                             \
831
    *vec_ = (VEC(T,A) *) vec_##A##_p_reserve (*vec_, alloc_ PASS_MEM_STAT); \
832
                                                                          \
833
  return extend;                                                          \
834
}                                                                         \
835
                                                                          \
836
static inline int VEC_OP (T,A,reserve_exact)                              \
837
     (VEC(T,A) **vec_, int alloc_ VEC_CHECK_DECL MEM_STAT_DECL)           \
838
{                                                                         \
839
  int extend = !VEC_OP (T,base,space) (VEC_BASE(*vec_), alloc_            \
840
                                       VEC_CHECK_PASS);                   \
841
                                                                          \
842
  if (extend)                                                             \
843
    *vec_ = (VEC(T,A) *) vec_##A##_p_reserve_exact (*vec_, alloc_         \
844
                                                    PASS_MEM_STAT);       \
845
                                                                          \
846
  return extend;                                                          \
847
}                                                                         \
848
                                                                          \
849
static inline void VEC_OP (T,A,safe_grow)                                 \
850
     (VEC(T,A) **vec_, int size_ VEC_CHECK_DECL MEM_STAT_DECL)            \
851
{                                                                         \
852
  VEC_ASSERT (size_ >= 0                                           \
853
              && VEC_OP(T,base,length) VEC_BASE(*vec_) <= (unsigned)size_, \
854
                                                 "grow", T, A);           \
855
  VEC_OP (T,A,reserve_exact) (vec_,                                       \
856
                              size_ - (int)(*vec_ ? VEC_BASE(*vec_)->prefix.num : 0) \
857
                              VEC_CHECK_PASS PASS_MEM_STAT);              \
858
  VEC_BASE (*vec_)->prefix.num = size_;                                   \
859
}                                                                         \
860
                                                                          \
861
static inline void VEC_OP (T,A,safe_grow_cleared)                         \
862
     (VEC(T,A) **vec_, int size_ VEC_CHECK_DECL MEM_STAT_DECL)            \
863
{                                                                         \
864
  int oldsize = VEC_OP(T,base,length) VEC_BASE(*vec_);                    \
865
  VEC_OP (T,A,safe_grow) (vec_, size_ VEC_CHECK_PASS PASS_MEM_STAT);      \
866
  memset (&(VEC_OP (T,base,address) VEC_BASE(*vec_))[oldsize], 0,          \
867
          sizeof (T) * (size_ - oldsize));                                \
868
}                                                                         \
869
                                                                          \
870
static inline void VEC_OP(T,A,safe_splice)                                \
871
     (VEC(T,A) **dst_, VEC(T,base) *src_ VEC_CHECK_DECL MEM_STAT_DECL)    \
872
{                                                                         \
873
  if (src_)                                                               \
874
    {                                                                     \
875
      VEC_OP (T,A,reserve_exact) (dst_, src_->prefix.num                          \
876
                                  VEC_CHECK_PASS MEM_STAT_INFO);          \
877
                                                                          \
878
      VEC_OP (T,base,splice) (VEC_BASE (*dst_), src_                      \
879
                              VEC_CHECK_PASS);                            \
880
    }                                                                     \
881
}                                                                         \
882
                                                                          \
883
static inline T *VEC_OP (T,A,safe_push)                                   \
884
     (VEC(T,A) **vec_, T obj_ VEC_CHECK_DECL MEM_STAT_DECL)               \
885
{                                                                         \
886
  VEC_OP (T,A,reserve) (vec_, 1 VEC_CHECK_PASS PASS_MEM_STAT);            \
887
                                                                          \
888
  return VEC_OP (T,base,quick_push) (VEC_BASE(*vec_), obj_ VEC_CHECK_PASS); \
889
}                                                                         \
890
                                                                          \
891
static inline T *VEC_OP (T,A,safe_insert)                                 \
892
     (VEC(T,A) **vec_, unsigned ix_, T obj_ VEC_CHECK_DECL MEM_STAT_DECL)  \
893
{                                                                         \
894
  VEC_OP (T,A,reserve) (vec_, 1 VEC_CHECK_PASS PASS_MEM_STAT);            \
895
                                                                          \
896
  return VEC_OP (T,base,quick_insert) (VEC_BASE(*vec_), ix_, obj_         \
897
                                       VEC_CHECK_PASS);                   \
898
}
899
 
900
/* Vector of object.  */
901
#define DEF_VEC_O(T)                                                      \
902
VEC_T_GTY(T,base);                                                        \
903
VEC_TA(T,base,none);                                              \
904
DEF_VEC_FUNC_O(T)                                                         \
905
struct vec_swallow_trailing_semi
906
#define DEF_VEC_ALLOC_O(T,A)                                              \
907
VEC_TA(T,base,A);                                                         \
908
DEF_VEC_ALLOC_FUNC_O(T,A)                                                 \
909
DEF_VEC_NONALLOC_FUNCS_O(T,A)                                             \
910
struct vec_swallow_trailing_semi
911
 
912
#define DEF_VEC_FUNC_O(T)                                                 \
913
static inline unsigned VEC_OP (T,base,length) (const VEC(T,base) *vec_)   \
914
{                                                                         \
915
  return vec_ ? vec_->prefix.num : 0;                                              \
916
}                                                                         \
917
                                                                          \
918
static inline T *VEC_OP (T,base,last) (VEC(T,base) *vec_ VEC_CHECK_DECL)  \
919
{                                                                         \
920
  VEC_ASSERT (vec_ && vec_->prefix.num, "last", T, base);                         \
921
                                                                          \
922
  return &vec_->vec[vec_->prefix.num - 1];                                        \
923
}                                                                         \
924
                                                                          \
925
static inline T *VEC_OP (T,base,index)                                    \
926
     (VEC(T,base) *vec_, unsigned ix_ VEC_CHECK_DECL)                     \
927
{                                                                         \
928
  VEC_ASSERT (vec_ && ix_ < vec_->prefix.num, "index", T, base);                  \
929
                                                                          \
930
  return &vec_->vec[ix_];                                                 \
931
}                                                                         \
932
                                                                          \
933
static inline int VEC_OP (T,base,iterate)                                 \
934
     (VEC(T,base) *vec_, unsigned ix_, T **ptr)                           \
935
{                                                                         \
936
  if (vec_ && ix_ < vec_->prefix.num)                                             \
937
    {                                                                     \
938
      *ptr = &vec_->vec[ix_];                                             \
939
      return 1;                                                           \
940
    }                                                                     \
941
  else                                                                    \
942
    {                                                                     \
943
      *ptr = 0;                                                            \
944
      return 0;                                                            \
945
    }                                                                     \
946
}                                                                         \
947
                                                                          \
948
static inline size_t VEC_OP (T,base,embedded_size)                        \
949
     (int alloc_)                                                         \
950
{                                                                         \
951
  return offsetof (VEC(T,base),vec) + alloc_ * sizeof(T);                 \
952
}                                                                         \
953
                                                                          \
954
static inline void VEC_OP (T,base,embedded_init)                          \
955
     (VEC(T,base) *vec_, int alloc_)                                      \
956
{                                                                         \
957
  vec_->prefix.num = 0;                                                    \
958
  vec_->prefix.alloc = alloc_;                                                    \
959
}                                                                         \
960
                                                                          \
961
static inline int VEC_OP (T,base,space)                                   \
962
     (VEC(T,base) *vec_, int alloc_ VEC_CHECK_DECL)                       \
963
{                                                                         \
964
  VEC_ASSERT (alloc_ >= 0, "space", T, base);                              \
965
  return vec_ ? vec_->prefix.alloc - vec_->prefix.num >= (unsigned)alloc_ : !alloc_;      \
966
}                                                                         \
967
                                                                          \
968
static inline void VEC_OP(T,base,splice)                                  \
969
     (VEC(T,base) *dst_, VEC(T,base) *src_ VEC_CHECK_DECL)                \
970
{                                                                         \
971
  if (src_)                                                               \
972
    {                                                                     \
973
      unsigned len_ = src_->prefix.num;                                   \
974
      VEC_ASSERT (dst_->prefix.num + len_ <= dst_->prefix.alloc, "splice", T, base);      \
975
                                                                          \
976
      memcpy (&dst_->vec[dst_->prefix.num], &src_->vec[0], len_ * sizeof (T));     \
977
      dst_->prefix.num += len_;                                           \
978
    }                                                                     \
979
}                                                                         \
980
                                                                          \
981
static inline T *VEC_OP (T,base,quick_push)                               \
982
     (VEC(T,base) *vec_, const T *obj_ VEC_CHECK_DECL)                    \
983
{                                                                         \
984
  T *slot_;                                                               \
985
                                                                          \
986
  VEC_ASSERT (vec_->prefix.num < vec_->prefix.alloc, "push", T, base);            \
987
  slot_ = &vec_->vec[vec_->prefix.num++];                                         \
988
  if (obj_)                                                               \
989
    *slot_ = *obj_;                                                       \
990
                                                                          \
991
  return slot_;                                                           \
992
}                                                                         \
993
                                                                          \
994
static inline void VEC_OP (T,base,pop) (VEC(T,base) *vec_ VEC_CHECK_DECL) \
995
{                                                                         \
996
  VEC_ASSERT (vec_->prefix.num, "pop", T, base);                                  \
997
  --vec_->prefix.num;                                                             \
998
}                                                                         \
999
                                                                          \
1000
static inline void VEC_OP (T,base,truncate)                               \
1001
     (VEC(T,base) *vec_, unsigned size_ VEC_CHECK_DECL)                   \
1002
{                                                                         \
1003
  VEC_ASSERT (vec_ ? vec_->prefix.num >= size_ : !size_, "truncate", T, base);    \
1004
  if (vec_)                                                               \
1005
    vec_->prefix.num = size_;                                                     \
1006
}                                                                         \
1007
                                                                          \
1008
static inline T *VEC_OP (T,base,replace)                                  \
1009
     (VEC(T,base) *vec_, unsigned ix_, const T *obj_ VEC_CHECK_DECL)      \
1010
{                                                                         \
1011
  T *slot_;                                                               \
1012
                                                                          \
1013
  VEC_ASSERT (ix_ < vec_->prefix.num, "replace", T, base);                        \
1014
  slot_ = &vec_->vec[ix_];                                                \
1015
  if (obj_)                                                               \
1016
    *slot_ = *obj_;                                                       \
1017
                                                                          \
1018
  return slot_;                                                           \
1019
}                                                                         \
1020
                                                                          \
1021
static inline T *VEC_OP (T,base,quick_insert)                             \
1022
     (VEC(T,base) *vec_, unsigned ix_, const T *obj_ VEC_CHECK_DECL)      \
1023
{                                                                         \
1024
  T *slot_;                                                               \
1025
                                                                          \
1026
  VEC_ASSERT (vec_->prefix.num < vec_->prefix.alloc, "insert", T, base);                  \
1027
  VEC_ASSERT (ix_ <= vec_->prefix.num, "insert", T, base);                        \
1028
  slot_ = &vec_->vec[ix_];                                                \
1029
  memmove (slot_ + 1, slot_, (vec_->prefix.num++ - ix_) * sizeof (T));            \
1030
  if (obj_)                                                               \
1031
    *slot_ = *obj_;                                                       \
1032
                                                                          \
1033
  return slot_;                                                           \
1034
}                                                                         \
1035
                                                                          \
1036
static inline void VEC_OP (T,base,ordered_remove)                         \
1037
     (VEC(T,base) *vec_, unsigned ix_ VEC_CHECK_DECL)                     \
1038
{                                                                         \
1039
  T *slot_;                                                               \
1040
                                                                          \
1041
  VEC_ASSERT (ix_ < vec_->prefix.num, "remove", T, base);                         \
1042
  slot_ = &vec_->vec[ix_];                                                \
1043
  memmove (slot_, slot_ + 1, (--vec_->prefix.num - ix_) * sizeof (T));            \
1044
}                                                                         \
1045
                                                                          \
1046
static inline void VEC_OP (T,base,unordered_remove)                       \
1047
     (VEC(T,base) *vec_, unsigned ix_ VEC_CHECK_DECL)                     \
1048
{                                                                         \
1049
  VEC_ASSERT (ix_ < vec_->prefix.num, "remove", T, base);                         \
1050
  vec_->vec[ix_] = vec_->vec[--vec_->prefix.num];                                 \
1051
}                                                                         \
1052
                                                                          \
1053
static inline void VEC_OP (T,base,block_remove)                           \
1054
     (VEC(T,base) *vec_, unsigned ix_, unsigned len_ VEC_CHECK_DECL)      \
1055
{                                                                         \
1056
  T *slot_;                                                               \
1057
                                                                          \
1058
  VEC_ASSERT (ix_ + len_ <= vec_->prefix.num, "block_remove", T, base);   \
1059
  slot_ = &vec_->vec[ix_];                                                \
1060
  vec_->prefix.num -= len_;                                                       \
1061
  memmove (slot_, slot_ + len_, (vec_->prefix.num - ix_) * sizeof (T));   \
1062
}                                                                         \
1063
                                                                          \
1064
static inline T *VEC_OP (T,base,address)                                  \
1065
     (VEC(T,base) *vec_)                                                  \
1066
{                                                                         \
1067
  return vec_ ? vec_->vec : 0;                                             \
1068
}                                                                         \
1069
                                                                          \
1070
static inline unsigned VEC_OP (T,base,lower_bound)                        \
1071
     (VEC(T,base) *vec_, const T *obj_,                                   \
1072
      bool (*lessthan_)(const T *, const T *) VEC_CHECK_DECL)             \
1073
{                                                                         \
1074
   unsigned int len_ = VEC_OP (T, base, length) (vec_);                   \
1075
   unsigned int half_, middle_;                                           \
1076
   unsigned int first_ = 0;                                                \
1077
   while (len_ > 0)                                                        \
1078
     {                                                                    \
1079
        T *middle_elem_;                                                  \
1080
        half_ = len_ >> 1;                                                \
1081
        middle_ = first_;                                                 \
1082
        middle_ += half_;                                                 \
1083
        middle_elem_ = VEC_OP (T,base,index) (vec_, middle_ VEC_CHECK_PASS); \
1084
        if (lessthan_ (middle_elem_, obj_))                               \
1085
          {                                                               \
1086
             first_ = middle_;                                            \
1087
             ++first_;                                                    \
1088
             len_ = len_ - half_ - 1;                                     \
1089
          }                                                               \
1090
        else                                                              \
1091
          len_ = half_;                                                   \
1092
     }                                                                    \
1093
   return first_;                                                         \
1094
}
1095
 
1096
#define DEF_VEC_ALLOC_FUNC_O(T,A)                                         \
1097
static inline VEC(T,A) *VEC_OP (T,A,alloc)                                \
1098
     (int alloc_ MEM_STAT_DECL)                                           \
1099
{                                                                         \
1100
  return (VEC(T,A) *) vec_##A##_o_reserve_exact (NULL, alloc_,            \
1101
                                                 offsetof (VEC(T,A),base.vec), \
1102
                                                 sizeof (T)               \
1103
                                                 PASS_MEM_STAT);          \
1104
}
1105
 
1106
#define DEF_VEC_NONALLOC_FUNCS_O(T,A)                                     \
1107
static inline VEC(T,A) *VEC_OP (T,A,copy) (VEC(T,base) *vec_ MEM_STAT_DECL) \
1108
{                                                                         \
1109
  size_t len_ = vec_ ? vec_->prefix.num : 0;                                       \
1110
  VEC (T,A) *new_vec_ = NULL;                                             \
1111
                                                                          \
1112
  if (len_)                                                               \
1113
    {                                                                     \
1114
      new_vec_ = (VEC (T,A) *)(vec_##A##_o_reserve_exact                  \
1115
                               (NULL, len_,                               \
1116
                                offsetof (VEC(T,A),base.vec), sizeof (T)  \
1117
                                PASS_MEM_STAT));                          \
1118
                                                                          \
1119
      new_vec_->base.prefix.num = len_;                                   \
1120
      memcpy (new_vec_->base.vec, vec_->vec, sizeof (T) * len_);          \
1121
    }                                                                     \
1122
  return new_vec_;                                                        \
1123
}                                                                         \
1124
                                                                          \
1125
static inline void VEC_OP (T,A,free)                                      \
1126
     (VEC(T,A) **vec_)                                                    \
1127
{                                                                         \
1128
  if (*vec_)                                                              \
1129
    vec_##A##_free (*vec_);                                               \
1130
  *vec_ = NULL;                                                           \
1131
}                                                                         \
1132
                                                                          \
1133
static inline int VEC_OP (T,A,reserve)                                    \
1134
     (VEC(T,A) **vec_, int alloc_ VEC_CHECK_DECL MEM_STAT_DECL)           \
1135
{                                                                         \
1136
  int extend = !VEC_OP (T,base,space) (VEC_BASE(*vec_), alloc_            \
1137
                                       VEC_CHECK_PASS);                   \
1138
                                                                          \
1139
  if (extend)                                                             \
1140
    *vec_ = (VEC(T,A) *) vec_##A##_o_reserve (*vec_, alloc_,              \
1141
                                              offsetof (VEC(T,A),base.vec),\
1142
                                              sizeof (T)                  \
1143
                                              PASS_MEM_STAT);             \
1144
                                                                          \
1145
  return extend;                                                          \
1146
}                                                                         \
1147
                                                                          \
1148
static inline int VEC_OP (T,A,reserve_exact)                              \
1149
     (VEC(T,A) **vec_, int alloc_ VEC_CHECK_DECL MEM_STAT_DECL)           \
1150
{                                                                         \
1151
  int extend = !VEC_OP (T,base,space) (VEC_BASE(*vec_), alloc_            \
1152
                                       VEC_CHECK_PASS);                   \
1153
                                                                          \
1154
  if (extend)                                                             \
1155
    *vec_ = (VEC(T,A) *) vec_##A##_o_reserve_exact                        \
1156
                         (*vec_, alloc_,                                  \
1157
                          offsetof (VEC(T,A),base.vec),                   \
1158
                          sizeof (T) PASS_MEM_STAT);                      \
1159
                                                                          \
1160
  return extend;                                                          \
1161
}                                                                         \
1162
                                                                          \
1163
static inline void VEC_OP (T,A,safe_grow)                                 \
1164
     (VEC(T,A) **vec_, int size_ VEC_CHECK_DECL MEM_STAT_DECL)            \
1165
{                                                                         \
1166
  VEC_ASSERT (size_ >= 0                                           \
1167
              && VEC_OP(T,base,length) VEC_BASE(*vec_) <= (unsigned)size_, \
1168
                                                 "grow", T, A);           \
1169
  VEC_OP (T,A,reserve_exact) (vec_,                                       \
1170
                              size_ - (int)(*vec_ ? VEC_BASE(*vec_)->prefix.num : 0) \
1171
                              VEC_CHECK_PASS PASS_MEM_STAT);              \
1172
  VEC_BASE (*vec_)->prefix.num = size_;                                   \
1173
}                                                                         \
1174
                                                                          \
1175
static inline void VEC_OP (T,A,safe_grow_cleared)                         \
1176
     (VEC(T,A) **vec_, int size_ VEC_CHECK_DECL MEM_STAT_DECL)            \
1177
{                                                                         \
1178
  int oldsize = VEC_OP(T,base,length) VEC_BASE(*vec_);                    \
1179
  VEC_OP (T,A,safe_grow) (vec_, size_ VEC_CHECK_PASS PASS_MEM_STAT);      \
1180
  memset (&(VEC_OP (T,base,address) VEC_BASE(*vec_))[oldsize], 0,          \
1181
          sizeof (T) * (size_ - oldsize));                                \
1182
}                                                                         \
1183
                                                                          \
1184
static inline void VEC_OP(T,A,safe_splice)                                \
1185
     (VEC(T,A) **dst_, VEC(T,base) *src_ VEC_CHECK_DECL MEM_STAT_DECL)    \
1186
{                                                                         \
1187
  if (src_)                                                               \
1188
    {                                                                     \
1189
      VEC_OP (T,A,reserve_exact) (dst_, src_->prefix.num                          \
1190
                                  VEC_CHECK_PASS MEM_STAT_INFO);          \
1191
                                                                          \
1192
      VEC_OP (T,base,splice) (VEC_BASE (*dst_), src_                      \
1193
                              VEC_CHECK_PASS);                            \
1194
    }                                                                     \
1195
}                                                                         \
1196
                                                                          \
1197
static inline T *VEC_OP (T,A,safe_push)                                   \
1198
     (VEC(T,A) **vec_, const T *obj_ VEC_CHECK_DECL MEM_STAT_DECL)        \
1199
{                                                                         \
1200
  VEC_OP (T,A,reserve) (vec_, 1 VEC_CHECK_PASS PASS_MEM_STAT);            \
1201
                                                                          \
1202
  return VEC_OP (T,base,quick_push) (VEC_BASE(*vec_), obj_ VEC_CHECK_PASS);  \
1203
}                                                                         \
1204
                                                                          \
1205
static inline T *VEC_OP (T,A,safe_insert)                                 \
1206
     (VEC(T,A) **vec_, unsigned ix_, const T *obj_                        \
1207
                VEC_CHECK_DECL MEM_STAT_DECL)                             \
1208
{                                                                         \
1209
  VEC_OP (T,A,reserve) (vec_, 1 VEC_CHECK_PASS PASS_MEM_STAT);            \
1210
                                                                          \
1211
  return VEC_OP (T,base,quick_insert) (VEC_BASE(*vec_), ix_, obj_         \
1212
                                       VEC_CHECK_PASS);                   \
1213
}
1214
 
1215
#define DEF_VEC_ALLOC_FUNC_I(T,A)                                         \
1216
static inline VEC(T,A) *VEC_OP (T,A,alloc)                                \
1217
     (int alloc_ MEM_STAT_DECL)                                           \
1218
{                                                                         \
1219
  return (VEC(T,A) *) vec_##A##_o_reserve_exact                           \
1220
                      (NULL, alloc_, offsetof (VEC(T,A),base.vec),        \
1221
                       sizeof (T) PASS_MEM_STAT);                         \
1222
}
1223
 
1224
#define DEF_VEC_NONALLOC_FUNCS_I(T,A)                                     \
1225
static inline VEC(T,A) *VEC_OP (T,A,copy) (VEC(T,base) *vec_ MEM_STAT_DECL) \
1226
{                                                                         \
1227
  size_t len_ = vec_ ? vec_->prefix.num : 0;                                       \
1228
  VEC (T,A) *new_vec_ = NULL;                                             \
1229
                                                                          \
1230
  if (len_)                                                               \
1231
    {                                                                     \
1232
      new_vec_ = (VEC (T,A) *)(vec_##A##_o_reserve_exact                  \
1233
                               (NULL, len_,                               \
1234
                                offsetof (VEC(T,A),base.vec), sizeof (T)  \
1235
                                PASS_MEM_STAT));                          \
1236
                                                                          \
1237
      new_vec_->base.prefix.num = len_;                                   \
1238
      memcpy (new_vec_->base.vec, vec_->vec, sizeof (T) * len_);          \
1239
    }                                                                     \
1240
  return new_vec_;                                                        \
1241
}                                                                         \
1242
                                                                          \
1243
static inline void VEC_OP (T,A,free)                                      \
1244
     (VEC(T,A) **vec_)                                                    \
1245
{                                                                         \
1246
  if (*vec_)                                                              \
1247
    vec_##A##_free (*vec_);                                               \
1248
  *vec_ = NULL;                                                           \
1249
}                                                                         \
1250
                                                                          \
1251
static inline int VEC_OP (T,A,reserve)                                    \
1252
     (VEC(T,A) **vec_, int alloc_ VEC_CHECK_DECL MEM_STAT_DECL)           \
1253
{                                                                         \
1254
  int extend = !VEC_OP (T,base,space) (VEC_BASE(*vec_), alloc_            \
1255
                                       VEC_CHECK_PASS);                   \
1256
                                                                          \
1257
  if (extend)                                                             \
1258
    *vec_ = (VEC(T,A) *) vec_##A##_o_reserve (*vec_, alloc_,              \
1259
                                              offsetof (VEC(T,A),base.vec),\
1260
                                              sizeof (T)                  \
1261
                                              PASS_MEM_STAT);             \
1262
                                                                          \
1263
  return extend;                                                          \
1264
}                                                                         \
1265
                                                                          \
1266
static inline int VEC_OP (T,A,reserve_exact)                              \
1267
     (VEC(T,A) **vec_, int alloc_ VEC_CHECK_DECL MEM_STAT_DECL)           \
1268
{                                                                         \
1269
  int extend = !VEC_OP (T,base,space) (VEC_BASE(*vec_), alloc_            \
1270
                                       VEC_CHECK_PASS);                   \
1271
                                                                          \
1272
  if (extend)                                                             \
1273
    *vec_ = (VEC(T,A) *) vec_##A##_o_reserve_exact                        \
1274
                         (*vec_, alloc_, offsetof (VEC(T,A),base.vec),    \
1275
                          sizeof (T) PASS_MEM_STAT);                      \
1276
                                                                          \
1277
  return extend;                                                          \
1278
}                                                                         \
1279
                                                                          \
1280
static inline void VEC_OP (T,A,safe_grow)                                 \
1281
     (VEC(T,A) **vec_, int size_ VEC_CHECK_DECL MEM_STAT_DECL)            \
1282
{                                                                         \
1283
  VEC_ASSERT (size_ >= 0                                           \
1284
              && VEC_OP(T,base,length) VEC_BASE(*vec_) <= (unsigned)size_, \
1285
                                                 "grow", T, A);           \
1286
  VEC_OP (T,A,reserve_exact) (vec_,                                       \
1287
                              size_ - (int)(*vec_ ? VEC_BASE(*vec_)->prefix.num : 0) \
1288
                              VEC_CHECK_PASS PASS_MEM_STAT);              \
1289
  VEC_BASE (*vec_)->prefix.num = size_;                                   \
1290
}                                                                         \
1291
                                                                          \
1292
static inline void VEC_OP (T,A,safe_grow_cleared)                         \
1293
     (VEC(T,A) **vec_, int size_ VEC_CHECK_DECL MEM_STAT_DECL)            \
1294
{                                                                         \
1295
  int oldsize = VEC_OP(T,base,length) VEC_BASE(*vec_);                    \
1296
  VEC_OP (T,A,safe_grow) (vec_, size_ VEC_CHECK_PASS PASS_MEM_STAT);      \
1297
  memset (&(VEC_OP (T,base,address) VEC_BASE(*vec_))[oldsize], 0,          \
1298
          sizeof (T) * (size_ - oldsize));                                \
1299
}                                                                         \
1300
                                                                          \
1301
static inline void VEC_OP(T,A,safe_splice)                                \
1302
     (VEC(T,A) **dst_, VEC(T,base) *src_ VEC_CHECK_DECL MEM_STAT_DECL)    \
1303
{                                                                         \
1304
  if (src_)                                                               \
1305
    {                                                                     \
1306
      VEC_OP (T,A,reserve_exact) (dst_, src_->prefix.num                          \
1307
                                  VEC_CHECK_PASS MEM_STAT_INFO);          \
1308
                                                                          \
1309
      VEC_OP (T,base,splice) (VEC_BASE (*dst_), src_                      \
1310
                              VEC_CHECK_PASS);                            \
1311
    }                                                                     \
1312
}                                                                         \
1313
                                                                          \
1314
static inline T *VEC_OP (T,A,safe_push)                                   \
1315
     (VEC(T,A) **vec_, const T obj_ VEC_CHECK_DECL MEM_STAT_DECL)         \
1316
{                                                                         \
1317
  VEC_OP (T,A,reserve) (vec_, 1 VEC_CHECK_PASS PASS_MEM_STAT);            \
1318
                                                                          \
1319
  return VEC_OP (T,base,quick_push) (VEC_BASE(*vec_), obj_ VEC_CHECK_PASS);  \
1320
}                                                                         \
1321
                                                                          \
1322
static inline T *VEC_OP (T,A,safe_insert)                                 \
1323
     (VEC(T,A) **vec_, unsigned ix_, const T obj_                         \
1324
                VEC_CHECK_DECL MEM_STAT_DECL)                             \
1325
{                                                                         \
1326
  VEC_OP (T,A,reserve) (vec_, 1 VEC_CHECK_PASS PASS_MEM_STAT);            \
1327
                                                                          \
1328
  return VEC_OP (T,base,quick_insert) (VEC_BASE(*vec_), ix_, obj_         \
1329
                                       VEC_CHECK_PASS);                   \
1330
}
1331
 
1332
/* We support a vector which starts out with space on the stack and
1333
   switches to heap space when forced to reallocate.  This works a
1334
   little differently.  Instead of DEF_VEC_ALLOC_P(TYPE, heap|gc), use
1335
   DEF_VEC_ALLOC_P_STACK(TYPE).  This uses alloca to get the initial
1336
   space; because alloca can not be usefully called in an inline
1337
   function, and because a macro can not define a macro, you must then
1338
   write a #define for each type:
1339
 
1340
   #define VEC_{TYPE}_stack_alloc(alloc)                          \
1341
     VEC_stack_alloc({TYPE}, alloc)
1342
 
1343
   This is really a hack and perhaps can be made better.  Note that
1344
   this macro will wind up evaluating the ALLOC parameter twice.
1345
 
1346
   Only the initial allocation will be made using alloca, so pass a
1347
   reasonable estimate that doesn't use too much stack space; don't
1348
   pass zero.  Don't return a VEC(TYPE,stack) vector from the function
1349
   which allocated it.  */
1350
 
1351
extern void *vec_stack_p_reserve (void *, int MEM_STAT_DECL);
1352
extern void *vec_stack_p_reserve_exact (void *, int MEM_STAT_DECL);
1353
extern void *vec_stack_p_reserve_exact_1 (int, void *);
1354
extern void *vec_stack_o_reserve (void *, int, size_t, size_t MEM_STAT_DECL);
1355
extern void *vec_stack_o_reserve_exact (void *, int, size_t, size_t
1356
                                         MEM_STAT_DECL);
1357
extern void vec_stack_free (void *);
1358
 
1359
#ifdef GATHER_STATISTICS
1360
#define VEC_stack_alloc(T,alloc,name,line,function)                       \
1361
  (VEC_OP (T,stack,alloc1)                                                \
1362
   (alloc, XALLOCAVAR (VEC(T,stack), VEC_embedded_size (T, alloc))))
1363
#else
1364
#define VEC_stack_alloc(T,alloc)                                          \
1365
  (VEC_OP (T,stack,alloc1)                                                \
1366
   (alloc, XALLOCAVAR (VEC(T,stack), VEC_embedded_size (T, alloc))))
1367
#endif
1368
 
1369
#define DEF_VEC_ALLOC_P_STACK(T)                                          \
1370
VEC_TA(T,base,stack);                                                     \
1371
DEF_VEC_ALLOC_FUNC_P_STACK(T)                                             \
1372
DEF_VEC_NONALLOC_FUNCS_P(T,stack)                                         \
1373
struct vec_swallow_trailing_semi
1374
 
1375
#define DEF_VEC_ALLOC_FUNC_P_STACK(T)                                     \
1376
static inline VEC(T,stack) *VEC_OP (T,stack,alloc1)                       \
1377
     (int alloc_, VEC(T,stack)* space)                                    \
1378
{                                                                         \
1379
  return (VEC(T,stack) *) vec_stack_p_reserve_exact_1 (alloc_, space);    \
1380
}
1381
 
1382
#define DEF_VEC_ALLOC_O_STACK(T)                                          \
1383
VEC_TA(T,base,stack);                                                     \
1384
DEF_VEC_ALLOC_FUNC_O_STACK(T)                                             \
1385
DEF_VEC_NONALLOC_FUNCS_O(T,stack)                                         \
1386
struct vec_swallow_trailing_semi
1387
 
1388
#define DEF_VEC_ALLOC_FUNC_O_STACK(T)                                     \
1389
static inline VEC(T,stack) *VEC_OP (T,stack,alloc1)                       \
1390
     (int alloc_, VEC(T,stack)* space)                                    \
1391
{                                                                         \
1392
  return (VEC(T,stack) *) vec_stack_p_reserve_exact_1 (alloc_, space);    \
1393
}
1394
 
1395
#define DEF_VEC_ALLOC_I_STACK(T)                                          \
1396
VEC_TA(T,base,stack);                                                     \
1397
DEF_VEC_ALLOC_FUNC_I_STACK(T)                                             \
1398
DEF_VEC_NONALLOC_FUNCS_I(T,stack)                                         \
1399
struct vec_swallow_trailing_semi
1400
 
1401
#define DEF_VEC_ALLOC_FUNC_I_STACK(T)                                     \
1402
static inline VEC(T,stack) *VEC_OP (T,stack,alloc1)                       \
1403
     (int alloc_, VEC(T,stack)* space)                                    \
1404
{                                                                         \
1405
  return (VEC(T,stack) *) vec_stack_p_reserve_exact_1 (alloc_, space);   \
1406
}
1407
 
1408
#endif /* GCC_VEC_H */

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.