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[/] [or1k/] [trunk/] [gdb-5.3/] [libiberty/] [alloca.c] - Blame information for rev 1782

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1 1181 sfurman
/* alloca.c -- allocate automatically reclaimed memory
2
   (Mostly) portable public-domain implementation -- D A Gwyn
3
 
4
   This implementation of the PWB library alloca function,
5
   which is used to allocate space off the run-time stack so
6
   that it is automatically reclaimed upon procedure exit,
7
   was inspired by discussions with J. Q. Johnson of Cornell.
8
   J.Otto Tennant <jot@cray.com> contributed the Cray support.
9
 
10
   There are some preprocessor constants that can
11
   be defined when compiling for your specific system, for
12
   improved efficiency; however, the defaults should be okay.
13
 
14
   The general concept of this implementation is to keep
15
   track of all alloca-allocated blocks, and reclaim any
16
   that are found to be deeper in the stack than the current
17
   invocation.  This heuristic does not reclaim storage as
18
   soon as it becomes invalid, but it will do so eventually.
19
 
20
   As a special case, alloca(0) reclaims storage without
21
   allocating any.  It is a good idea to use alloca(0) in
22
   your main control loop, etc. to force garbage collection.  */
23
 
24
/*
25
 
26
@deftypefn Replacement void* alloca (size_t @var{size})
27
 
28
This function allocates memory which will be automatically reclaimed
29
after the procedure exits.  The @libib{} implementation does not free
30
the memory immediately but will do so eventually during subsequent
31
calls to this function.  Memory is allocated using @code{xmalloc} under
32
normal circumstances.
33
 
34
The header file @file{alloca-conf.h} can be used in conjunction with the
35
GNU Autoconf test @code{AC_FUNC_ALLOCA} to test for and properly make
36
available this function.  The @code{AC_FUNC_ALLOCA} test requires that
37
client code use a block of preprocessor code to be safe (see the Autoconf
38
manual for more); this header incorporates that logic and more, including
39
the possibility of a GCC built-in function.
40
 
41
@end deftypefn
42
 
43
*/
44
 
45
#ifdef HAVE_CONFIG_H
46
#include <config.h>
47
#endif
48
 
49
#include <libiberty.h>
50
 
51
#ifdef HAVE_STRING_H
52
#include <string.h>
53
#endif
54
#ifdef HAVE_STDLIB_H
55
#include <stdlib.h>
56
#endif
57
 
58
/* These variables are used by the ASTRDUP implementation that relies
59
   on C_alloca.  */
60
const char *libiberty_optr;
61
char *libiberty_nptr;
62
unsigned long libiberty_len;
63
 
64
/* If your stack is a linked list of frames, you have to
65
   provide an "address metric" ADDRESS_FUNCTION macro.  */
66
 
67
#if defined (CRAY) && defined (CRAY_STACKSEG_END)
68
static long i00afunc ();
69
#define ADDRESS_FUNCTION(arg) (char *) i00afunc (&(arg))
70
#else
71
#define ADDRESS_FUNCTION(arg) &(arg)
72
#endif
73
 
74
#ifndef NULL
75
#define NULL    0
76
#endif
77
 
78
/* Define STACK_DIRECTION if you know the direction of stack
79
   growth for your system; otherwise it will be automatically
80
   deduced at run-time.
81
 
82
   STACK_DIRECTION > 0 => grows toward higher addresses
83
   STACK_DIRECTION < 0 => grows toward lower addresses
84
   STACK_DIRECTION = 0 => direction of growth unknown  */
85
 
86
#ifndef STACK_DIRECTION
87
#define STACK_DIRECTION 0        /* Direction unknown.  */
88
#endif
89
 
90
#if STACK_DIRECTION != 0
91
 
92
#define STACK_DIR       STACK_DIRECTION /* Known at compile-time.  */
93
 
94
#else /* STACK_DIRECTION == 0; need run-time code.  */
95
 
96
static int stack_dir;           /* 1 or -1 once known.  */
97
#define STACK_DIR       stack_dir
98
 
99
static void
100
find_stack_direction ()
101
{
102
  static char *addr = NULL;     /* Address of first `dummy', once known.  */
103
  auto char dummy;              /* To get stack address.  */
104
 
105
  if (addr == NULL)
106
    {                           /* Initial entry.  */
107
      addr = ADDRESS_FUNCTION (dummy);
108
 
109
      find_stack_direction ();  /* Recurse once.  */
110
    }
111
  else
112
    {
113
      /* Second entry.  */
114
      if (ADDRESS_FUNCTION (dummy) > addr)
115
        stack_dir = 1;          /* Stack grew upward.  */
116
      else
117
        stack_dir = -1;         /* Stack grew downward.  */
118
    }
119
}
120
 
121
#endif /* STACK_DIRECTION == 0 */
122
 
123
/* An "alloca header" is used to:
124
   (a) chain together all alloca'ed blocks;
125
   (b) keep track of stack depth.
126
 
127
   It is very important that sizeof(header) agree with malloc
128
   alignment chunk size.  The following default should work okay.  */
129
 
130
#ifndef ALIGN_SIZE
131
#define ALIGN_SIZE      sizeof(double)
132
#endif
133
 
134
typedef union hdr
135
{
136
  char align[ALIGN_SIZE];       /* To force sizeof(header).  */
137
  struct
138
    {
139
      union hdr *next;          /* For chaining headers.  */
140
      char *deep;               /* For stack depth measure.  */
141
    } h;
142
} header;
143
 
144
static header *last_alloca_header = NULL;       /* -> last alloca header.  */
145
 
146
/* Return a pointer to at least SIZE bytes of storage,
147
   which will be automatically reclaimed upon exit from
148
   the procedure that called alloca.  Originally, this space
149
   was supposed to be taken from the current stack frame of the
150
   caller, but that method cannot be made to work for some
151
   implementations of C, for example under Gould's UTX/32.  */
152
 
153
/* @undocumented C_alloca */
154
 
155
PTR
156
C_alloca (size)
157
     size_t size;
158
{
159
  auto char probe;              /* Probes stack depth: */
160
  register char *depth = ADDRESS_FUNCTION (probe);
161
 
162
#if STACK_DIRECTION == 0
163
  if (STACK_DIR == 0)            /* Unknown growth direction.  */
164
    find_stack_direction ();
165
#endif
166
 
167
  /* Reclaim garbage, defined as all alloca'd storage that
168
     was allocated from deeper in the stack than currently.  */
169
 
170
  {
171
    register header *hp;        /* Traverses linked list.  */
172
 
173
    for (hp = last_alloca_header; hp != NULL;)
174
      if ((STACK_DIR > 0 && hp->h.deep > depth)
175
          || (STACK_DIR < 0 && hp->h.deep < depth))
176
        {
177
          register header *np = hp->h.next;
178
 
179
          free ((PTR) hp);      /* Collect garbage.  */
180
 
181
          hp = np;              /* -> next header.  */
182
        }
183
      else
184
        break;                  /* Rest are not deeper.  */
185
 
186
    last_alloca_header = hp;    /* -> last valid storage.  */
187
  }
188
 
189
  if (size == 0)
190
    return NULL;                /* No allocation required.  */
191
 
192
  /* Allocate combined header + user data storage.  */
193
 
194
  {
195
    register PTR new = xmalloc (sizeof (header) + size);
196
    /* Address of header.  */
197
 
198
    if (new == 0)
199
      abort();
200
 
201
    ((header *) new)->h.next = last_alloca_header;
202
    ((header *) new)->h.deep = depth;
203
 
204
    last_alloca_header = (header *) new;
205
 
206
    /* User storage begins just after header.  */
207
 
208
    return (PTR) ((char *) new + sizeof (header));
209
  }
210
}
211
 
212
#if defined (CRAY) && defined (CRAY_STACKSEG_END)
213
 
214
#ifdef DEBUG_I00AFUNC
215
#include <stdio.h>
216
#endif
217
 
218
#ifndef CRAY_STACK
219
#define CRAY_STACK
220
#ifndef CRAY2
221
/* Stack structures for CRAY-1, CRAY X-MP, and CRAY Y-MP */
222
struct stack_control_header
223
  {
224
    long shgrow:32;             /* Number of times stack has grown.  */
225
    long shaseg:32;             /* Size of increments to stack.  */
226
    long shhwm:32;              /* High water mark of stack.  */
227
    long shsize:32;             /* Current size of stack (all segments).  */
228
  };
229
 
230
/* The stack segment linkage control information occurs at
231
   the high-address end of a stack segment.  (The stack
232
   grows from low addresses to high addresses.)  The initial
233
   part of the stack segment linkage control information is
234
   0200 (octal) words.  This provides for register storage
235
   for the routine which overflows the stack.  */
236
 
237
struct stack_segment_linkage
238
  {
239
    long ss[0200];              /* 0200 overflow words.  */
240
    long sssize:32;             /* Number of words in this segment.  */
241
    long ssbase:32;             /* Offset to stack base.  */
242
    long:32;
243
    long sspseg:32;             /* Offset to linkage control of previous
244
                                   segment of stack.  */
245
    long:32;
246
    long sstcpt:32;             /* Pointer to task common address block.  */
247
    long sscsnm;                /* Private control structure number for
248
                                   microtasking.  */
249
    long ssusr1;                /* Reserved for user.  */
250
    long ssusr2;                /* Reserved for user.  */
251
    long sstpid;                /* Process ID for pid based multi-tasking.  */
252
    long ssgvup;                /* Pointer to multitasking thread giveup.  */
253
    long sscray[7];             /* Reserved for Cray Research.  */
254
    long ssa0;
255
    long ssa1;
256
    long ssa2;
257
    long ssa3;
258
    long ssa4;
259
    long ssa5;
260
    long ssa6;
261
    long ssa7;
262
    long sss0;
263
    long sss1;
264
    long sss2;
265
    long sss3;
266
    long sss4;
267
    long sss5;
268
    long sss6;
269
    long sss7;
270
  };
271
 
272
#else /* CRAY2 */
273
/* The following structure defines the vector of words
274
   returned by the STKSTAT library routine.  */
275
struct stk_stat
276
  {
277
    long now;                   /* Current total stack size.  */
278
    long maxc;                  /* Amount of contiguous space which would
279
                                   be required to satisfy the maximum
280
                                   stack demand to date.  */
281
    long high_water;            /* Stack high-water mark.  */
282
    long overflows;             /* Number of stack overflow ($STKOFEN) calls.  */
283
    long hits;                  /* Number of internal buffer hits.  */
284
    long extends;               /* Number of block extensions.  */
285
    long stko_mallocs;          /* Block allocations by $STKOFEN.  */
286
    long underflows;            /* Number of stack underflow calls ($STKRETN).  */
287
    long stko_free;             /* Number of deallocations by $STKRETN.  */
288
    long stkm_free;             /* Number of deallocations by $STKMRET.  */
289
    long segments;              /* Current number of stack segments.  */
290
    long maxs;                  /* Maximum number of stack segments so far.  */
291
    long pad_size;              /* Stack pad size.  */
292
    long current_address;       /* Current stack segment address.  */
293
    long current_size;          /* Current stack segment size.  This
294
                                   number is actually corrupted by STKSTAT to
295
                                   include the fifteen word trailer area.  */
296
    long initial_address;       /* Address of initial segment.  */
297
    long initial_size;          /* Size of initial segment.  */
298
  };
299
 
300
/* The following structure describes the data structure which trails
301
   any stack segment.  I think that the description in 'asdef' is
302
   out of date.  I only describe the parts that I am sure about.  */
303
 
304
struct stk_trailer
305
  {
306
    long this_address;          /* Address of this block.  */
307
    long this_size;             /* Size of this block (does not include
308
                                   this trailer).  */
309
    long unknown2;
310
    long unknown3;
311
    long link;                  /* Address of trailer block of previous
312
                                   segment.  */
313
    long unknown5;
314
    long unknown6;
315
    long unknown7;
316
    long unknown8;
317
    long unknown9;
318
    long unknown10;
319
    long unknown11;
320
    long unknown12;
321
    long unknown13;
322
    long unknown14;
323
  };
324
 
325
#endif /* CRAY2 */
326
#endif /* not CRAY_STACK */
327
 
328
#ifdef CRAY2
329
/* Determine a "stack measure" for an arbitrary ADDRESS.
330
   I doubt that "lint" will like this much.  */
331
 
332
static long
333
i00afunc (long *address)
334
{
335
  struct stk_stat status;
336
  struct stk_trailer *trailer;
337
  long *block, size;
338
  long result = 0;
339
 
340
  /* We want to iterate through all of the segments.  The first
341
     step is to get the stack status structure.  We could do this
342
     more quickly and more directly, perhaps, by referencing the
343
     $LM00 common block, but I know that this works.  */
344
 
345
  STKSTAT (&status);
346
 
347
  /* Set up the iteration.  */
348
 
349
  trailer = (struct stk_trailer *) (status.current_address
350
                                    + status.current_size
351
                                    - 15);
352
 
353
  /* There must be at least one stack segment.  Therefore it is
354
     a fatal error if "trailer" is null.  */
355
 
356
  if (trailer == 0)
357
    abort ();
358
 
359
  /* Discard segments that do not contain our argument address.  */
360
 
361
  while (trailer != 0)
362
    {
363
      block = (long *) trailer->this_address;
364
      size = trailer->this_size;
365
      if (block == 0 || size == 0)
366
        abort ();
367
      trailer = (struct stk_trailer *) trailer->link;
368
      if ((block <= address) && (address < (block + size)))
369
        break;
370
    }
371
 
372
  /* Set the result to the offset in this segment and add the sizes
373
     of all predecessor segments.  */
374
 
375
  result = address - block;
376
 
377
  if (trailer == 0)
378
    {
379
      return result;
380
    }
381
 
382
  do
383
    {
384
      if (trailer->this_size <= 0)
385
        abort ();
386
      result += trailer->this_size;
387
      trailer = (struct stk_trailer *) trailer->link;
388
    }
389
  while (trailer != 0);
390
 
391
  /* We are done.  Note that if you present a bogus address (one
392
     not in any segment), you will get a different number back, formed
393
     from subtracting the address of the first block.  This is probably
394
     not what you want.  */
395
 
396
  return (result);
397
}
398
 
399
#else /* not CRAY2 */
400
/* Stack address function for a CRAY-1, CRAY X-MP, or CRAY Y-MP.
401
   Determine the number of the cell within the stack,
402
   given the address of the cell.  The purpose of this
403
   routine is to linearize, in some sense, stack addresses
404
   for alloca.  */
405
 
406
static long
407
i00afunc (long address)
408
{
409
  long stkl = 0;
410
 
411
  long size, pseg, this_segment, stack;
412
  long result = 0;
413
 
414
  struct stack_segment_linkage *ssptr;
415
 
416
  /* Register B67 contains the address of the end of the
417
     current stack segment.  If you (as a subprogram) store
418
     your registers on the stack and find that you are past
419
     the contents of B67, you have overflowed the segment.
420
 
421
     B67 also points to the stack segment linkage control
422
     area, which is what we are really interested in.  */
423
 
424
  stkl = CRAY_STACKSEG_END ();
425
  ssptr = (struct stack_segment_linkage *) stkl;
426
 
427
  /* If one subtracts 'size' from the end of the segment,
428
     one has the address of the first word of the segment.
429
 
430
     If this is not the first segment, 'pseg' will be
431
     nonzero.  */
432
 
433
  pseg = ssptr->sspseg;
434
  size = ssptr->sssize;
435
 
436
  this_segment = stkl - size;
437
 
438
  /* It is possible that calling this routine itself caused
439
     a stack overflow.  Discard stack segments which do not
440
     contain the target address.  */
441
 
442
  while (!(this_segment <= address && address <= stkl))
443
    {
444
#ifdef DEBUG_I00AFUNC
445
      fprintf (stderr, "%011o %011o %011o\n", this_segment, address, stkl);
446
#endif
447
      if (pseg == 0)
448
        break;
449
      stkl = stkl - pseg;
450
      ssptr = (struct stack_segment_linkage *) stkl;
451
      size = ssptr->sssize;
452
      pseg = ssptr->sspseg;
453
      this_segment = stkl - size;
454
    }
455
 
456
  result = address - this_segment;
457
 
458
  /* If you subtract pseg from the current end of the stack,
459
     you get the address of the previous stack segment's end.
460
     This seems a little convoluted to me, but I'll bet you save
461
     a cycle somewhere.  */
462
 
463
  while (pseg != 0)
464
    {
465
#ifdef DEBUG_I00AFUNC
466
      fprintf (stderr, "%011o %011o\n", pseg, size);
467
#endif
468
      stkl = stkl - pseg;
469
      ssptr = (struct stack_segment_linkage *) stkl;
470
      size = ssptr->sssize;
471
      pseg = ssptr->sspseg;
472
      result += size;
473
    }
474
  return (result);
475
}
476
 
477
#endif /* not CRAY2 */
478
#endif /* CRAY */

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