use xsnprintf for generating git object headers
[git] / diff-delta.c
1 /*
2  * diff-delta.c: generate a delta between two buffers
3  *
4  * This code was greatly inspired by parts of LibXDiff from Davide Libenzi
5  * http://www.xmailserver.org/xdiff-lib.html
6  *
7  * Rewritten for GIT by Nicolas Pitre <nico@fluxnic.net>, (C) 2005-2007
8  *
9  * This code is free software; you can redistribute it and/or modify
10  * it under the terms of the GNU General Public License version 2 as
11  * published by the Free Software Foundation.
12  */
13
14 #include "git-compat-util.h"
15 #include "delta.h"
16
17 /* maximum hash entry list for the same hash bucket */
18 #define HASH_LIMIT 64
19
20 #define RABIN_SHIFT 23
21 #define RABIN_WINDOW 16
22
23 static const unsigned int T[256] = {
24         0x00000000, 0xab59b4d1, 0x56b369a2, 0xfdeadd73, 0x063f6795, 0xad66d344,
25         0x508c0e37, 0xfbd5bae6, 0x0c7ecf2a, 0xa7277bfb, 0x5acda688, 0xf1941259,
26         0x0a41a8bf, 0xa1181c6e, 0x5cf2c11d, 0xf7ab75cc, 0x18fd9e54, 0xb3a42a85,
27         0x4e4ef7f6, 0xe5174327, 0x1ec2f9c1, 0xb59b4d10, 0x48719063, 0xe32824b2,
28         0x1483517e, 0xbfdae5af, 0x423038dc, 0xe9698c0d, 0x12bc36eb, 0xb9e5823a,
29         0x440f5f49, 0xef56eb98, 0x31fb3ca8, 0x9aa28879, 0x6748550a, 0xcc11e1db,
30         0x37c45b3d, 0x9c9defec, 0x6177329f, 0xca2e864e, 0x3d85f382, 0x96dc4753,
31         0x6b369a20, 0xc06f2ef1, 0x3bba9417, 0x90e320c6, 0x6d09fdb5, 0xc6504964,
32         0x2906a2fc, 0x825f162d, 0x7fb5cb5e, 0xd4ec7f8f, 0x2f39c569, 0x846071b8,
33         0x798aaccb, 0xd2d3181a, 0x25786dd6, 0x8e21d907, 0x73cb0474, 0xd892b0a5,
34         0x23470a43, 0x881ebe92, 0x75f463e1, 0xdeadd730, 0x63f67950, 0xc8afcd81,
35         0x354510f2, 0x9e1ca423, 0x65c91ec5, 0xce90aa14, 0x337a7767, 0x9823c3b6,
36         0x6f88b67a, 0xc4d102ab, 0x393bdfd8, 0x92626b09, 0x69b7d1ef, 0xc2ee653e,
37         0x3f04b84d, 0x945d0c9c, 0x7b0be704, 0xd05253d5, 0x2db88ea6, 0x86e13a77,
38         0x7d348091, 0xd66d3440, 0x2b87e933, 0x80de5de2, 0x7775282e, 0xdc2c9cff,
39         0x21c6418c, 0x8a9ff55d, 0x714a4fbb, 0xda13fb6a, 0x27f92619, 0x8ca092c8,
40         0x520d45f8, 0xf954f129, 0x04be2c5a, 0xafe7988b, 0x5432226d, 0xff6b96bc,
41         0x02814bcf, 0xa9d8ff1e, 0x5e738ad2, 0xf52a3e03, 0x08c0e370, 0xa39957a1,
42         0x584ced47, 0xf3155996, 0x0eff84e5, 0xa5a63034, 0x4af0dbac, 0xe1a96f7d,
43         0x1c43b20e, 0xb71a06df, 0x4ccfbc39, 0xe79608e8, 0x1a7cd59b, 0xb125614a,
44         0x468e1486, 0xedd7a057, 0x103d7d24, 0xbb64c9f5, 0x40b17313, 0xebe8c7c2,
45         0x16021ab1, 0xbd5bae60, 0x6cb54671, 0xc7ecf2a0, 0x3a062fd3, 0x915f9b02,
46         0x6a8a21e4, 0xc1d39535, 0x3c394846, 0x9760fc97, 0x60cb895b, 0xcb923d8a,
47         0x3678e0f9, 0x9d215428, 0x66f4eece, 0xcdad5a1f, 0x3047876c, 0x9b1e33bd,
48         0x7448d825, 0xdf116cf4, 0x22fbb187, 0x89a20556, 0x7277bfb0, 0xd92e0b61,
49         0x24c4d612, 0x8f9d62c3, 0x7836170f, 0xd36fa3de, 0x2e857ead, 0x85dcca7c,
50         0x7e09709a, 0xd550c44b, 0x28ba1938, 0x83e3ade9, 0x5d4e7ad9, 0xf617ce08,
51         0x0bfd137b, 0xa0a4a7aa, 0x5b711d4c, 0xf028a99d, 0x0dc274ee, 0xa69bc03f,
52         0x5130b5f3, 0xfa690122, 0x0783dc51, 0xacda6880, 0x570fd266, 0xfc5666b7,
53         0x01bcbbc4, 0xaae50f15, 0x45b3e48d, 0xeeea505c, 0x13008d2f, 0xb85939fe,
54         0x438c8318, 0xe8d537c9, 0x153feaba, 0xbe665e6b, 0x49cd2ba7, 0xe2949f76,
55         0x1f7e4205, 0xb427f6d4, 0x4ff24c32, 0xe4abf8e3, 0x19412590, 0xb2189141,
56         0x0f433f21, 0xa41a8bf0, 0x59f05683, 0xf2a9e252, 0x097c58b4, 0xa225ec65,
57         0x5fcf3116, 0xf49685c7, 0x033df00b, 0xa86444da, 0x558e99a9, 0xfed72d78,
58         0x0502979e, 0xae5b234f, 0x53b1fe3c, 0xf8e84aed, 0x17bea175, 0xbce715a4,
59         0x410dc8d7, 0xea547c06, 0x1181c6e0, 0xbad87231, 0x4732af42, 0xec6b1b93,
60         0x1bc06e5f, 0xb099da8e, 0x4d7307fd, 0xe62ab32c, 0x1dff09ca, 0xb6a6bd1b,
61         0x4b4c6068, 0xe015d4b9, 0x3eb80389, 0x95e1b758, 0x680b6a2b, 0xc352defa,
62         0x3887641c, 0x93ded0cd, 0x6e340dbe, 0xc56db96f, 0x32c6cca3, 0x999f7872,
63         0x6475a501, 0xcf2c11d0, 0x34f9ab36, 0x9fa01fe7, 0x624ac294, 0xc9137645,
64         0x26459ddd, 0x8d1c290c, 0x70f6f47f, 0xdbaf40ae, 0x207afa48, 0x8b234e99,
65         0x76c993ea, 0xdd90273b, 0x2a3b52f7, 0x8162e626, 0x7c883b55, 0xd7d18f84,
66         0x2c043562, 0x875d81b3, 0x7ab75cc0, 0xd1eee811
67 };
68
69 static const unsigned int U[256] = {
70         0x00000000, 0x7eb5200d, 0x5633f4cb, 0x2886d4c6, 0x073e5d47, 0x798b7d4a,
71         0x510da98c, 0x2fb88981, 0x0e7cba8e, 0x70c99a83, 0x584f4e45, 0x26fa6e48,
72         0x0942e7c9, 0x77f7c7c4, 0x5f711302, 0x21c4330f, 0x1cf9751c, 0x624c5511,
73         0x4aca81d7, 0x347fa1da, 0x1bc7285b, 0x65720856, 0x4df4dc90, 0x3341fc9d,
74         0x1285cf92, 0x6c30ef9f, 0x44b63b59, 0x3a031b54, 0x15bb92d5, 0x6b0eb2d8,
75         0x4388661e, 0x3d3d4613, 0x39f2ea38, 0x4747ca35, 0x6fc11ef3, 0x11743efe,
76         0x3eccb77f, 0x40799772, 0x68ff43b4, 0x164a63b9, 0x378e50b6, 0x493b70bb,
77         0x61bda47d, 0x1f088470, 0x30b00df1, 0x4e052dfc, 0x6683f93a, 0x1836d937,
78         0x250b9f24, 0x5bbebf29, 0x73386bef, 0x0d8d4be2, 0x2235c263, 0x5c80e26e,
79         0x740636a8, 0x0ab316a5, 0x2b7725aa, 0x55c205a7, 0x7d44d161, 0x03f1f16c,
80         0x2c4978ed, 0x52fc58e0, 0x7a7a8c26, 0x04cfac2b, 0x73e5d470, 0x0d50f47d,
81         0x25d620bb, 0x5b6300b6, 0x74db8937, 0x0a6ea93a, 0x22e87dfc, 0x5c5d5df1,
82         0x7d996efe, 0x032c4ef3, 0x2baa9a35, 0x551fba38, 0x7aa733b9, 0x041213b4,
83         0x2c94c772, 0x5221e77f, 0x6f1ca16c, 0x11a98161, 0x392f55a7, 0x479a75aa,
84         0x6822fc2b, 0x1697dc26, 0x3e1108e0, 0x40a428ed, 0x61601be2, 0x1fd53bef,
85         0x3753ef29, 0x49e6cf24, 0x665e46a5, 0x18eb66a8, 0x306db26e, 0x4ed89263,
86         0x4a173e48, 0x34a21e45, 0x1c24ca83, 0x6291ea8e, 0x4d29630f, 0x339c4302,
87         0x1b1a97c4, 0x65afb7c9, 0x446b84c6, 0x3adea4cb, 0x1258700d, 0x6ced5000,
88         0x4355d981, 0x3de0f98c, 0x15662d4a, 0x6bd30d47, 0x56ee4b54, 0x285b6b59,
89         0x00ddbf9f, 0x7e689f92, 0x51d01613, 0x2f65361e, 0x07e3e2d8, 0x7956c2d5,
90         0x5892f1da, 0x2627d1d7, 0x0ea10511, 0x7014251c, 0x5facac9d, 0x21198c90,
91         0x099f5856, 0x772a785b, 0x4c921c31, 0x32273c3c, 0x1aa1e8fa, 0x6414c8f7,
92         0x4bac4176, 0x3519617b, 0x1d9fb5bd, 0x632a95b0, 0x42eea6bf, 0x3c5b86b2,
93         0x14dd5274, 0x6a687279, 0x45d0fbf8, 0x3b65dbf5, 0x13e30f33, 0x6d562f3e,
94         0x506b692d, 0x2ede4920, 0x06589de6, 0x78edbdeb, 0x5755346a, 0x29e01467,
95         0x0166c0a1, 0x7fd3e0ac, 0x5e17d3a3, 0x20a2f3ae, 0x08242768, 0x76910765,
96         0x59298ee4, 0x279caee9, 0x0f1a7a2f, 0x71af5a22, 0x7560f609, 0x0bd5d604,
97         0x235302c2, 0x5de622cf, 0x725eab4e, 0x0ceb8b43, 0x246d5f85, 0x5ad87f88,
98         0x7b1c4c87, 0x05a96c8a, 0x2d2fb84c, 0x539a9841, 0x7c2211c0, 0x029731cd,
99         0x2a11e50b, 0x54a4c506, 0x69998315, 0x172ca318, 0x3faa77de, 0x411f57d3,
100         0x6ea7de52, 0x1012fe5f, 0x38942a99, 0x46210a94, 0x67e5399b, 0x19501996,
101         0x31d6cd50, 0x4f63ed5d, 0x60db64dc, 0x1e6e44d1, 0x36e89017, 0x485db01a,
102         0x3f77c841, 0x41c2e84c, 0x69443c8a, 0x17f11c87, 0x38499506, 0x46fcb50b,
103         0x6e7a61cd, 0x10cf41c0, 0x310b72cf, 0x4fbe52c2, 0x67388604, 0x198da609,
104         0x36352f88, 0x48800f85, 0x6006db43, 0x1eb3fb4e, 0x238ebd5d, 0x5d3b9d50,
105         0x75bd4996, 0x0b08699b, 0x24b0e01a, 0x5a05c017, 0x728314d1, 0x0c3634dc,
106         0x2df207d3, 0x534727de, 0x7bc1f318, 0x0574d315, 0x2acc5a94, 0x54797a99,
107         0x7cffae5f, 0x024a8e52, 0x06852279, 0x78300274, 0x50b6d6b2, 0x2e03f6bf,
108         0x01bb7f3e, 0x7f0e5f33, 0x57888bf5, 0x293dabf8, 0x08f998f7, 0x764cb8fa,
109         0x5eca6c3c, 0x207f4c31, 0x0fc7c5b0, 0x7172e5bd, 0x59f4317b, 0x27411176,
110         0x1a7c5765, 0x64c97768, 0x4c4fa3ae, 0x32fa83a3, 0x1d420a22, 0x63f72a2f,
111         0x4b71fee9, 0x35c4dee4, 0x1400edeb, 0x6ab5cde6, 0x42331920, 0x3c86392d,
112         0x133eb0ac, 0x6d8b90a1, 0x450d4467, 0x3bb8646a
113 };
114
115 struct index_entry {
116         const unsigned char *ptr;
117         unsigned int val;
118 };
119
120 struct unpacked_index_entry {
121         struct index_entry entry;
122         struct unpacked_index_entry *next;
123 };
124
125 struct delta_index {
126         unsigned long memsize;
127         const void *src_buf;
128         unsigned long src_size;
129         unsigned int hash_mask;
130         struct index_entry *hash[FLEX_ARRAY];
131 };
132
133 struct delta_index * create_delta_index(const void *buf, unsigned long bufsize)
134 {
135         unsigned int i, hsize, hmask, entries, prev_val, *hash_count;
136         const unsigned char *data, *buffer = buf;
137         struct delta_index *index;
138         struct unpacked_index_entry *entry, **hash;
139         struct index_entry *packed_entry, **packed_hash;
140         void *mem;
141         unsigned long memsize;
142
143         if (!buf || !bufsize)
144                 return NULL;
145
146         /* Determine index hash size.  Note that indexing skips the
147            first byte to allow for optimizing the Rabin's polynomial
148            initialization in create_delta(). */
149         entries = (bufsize - 1) / RABIN_WINDOW;
150         if (bufsize >= 0xffffffffUL) {
151                 /*
152                  * Current delta format can't encode offsets into
153                  * reference buffer with more than 32 bits.
154                  */
155                 entries = 0xfffffffeU / RABIN_WINDOW;
156         }
157         hsize = entries / 4;
158         for (i = 4; (1u << i) < hsize; i++);
159         hsize = 1 << i;
160         hmask = hsize - 1;
161
162         /* allocate lookup index */
163         memsize = sizeof(*hash) * hsize +
164                   sizeof(*entry) * entries;
165         mem = malloc(memsize);
166         if (!mem)
167                 return NULL;
168         hash = mem;
169         mem = hash + hsize;
170         entry = mem;
171
172         memset(hash, 0, hsize * sizeof(*hash));
173
174         /* allocate an array to count hash entries */
175         hash_count = calloc(hsize, sizeof(*hash_count));
176         if (!hash_count) {
177                 free(hash);
178                 return NULL;
179         }
180
181         /* then populate the index */
182         prev_val = ~0;
183         for (data = buffer + entries * RABIN_WINDOW - RABIN_WINDOW;
184              data >= buffer;
185              data -= RABIN_WINDOW) {
186                 unsigned int val = 0;
187                 for (i = 1; i <= RABIN_WINDOW; i++)
188                         val = ((val << 8) | data[i]) ^ T[val >> RABIN_SHIFT];
189                 if (val == prev_val) {
190                         /* keep the lowest of consecutive identical blocks */
191                         entry[-1].entry.ptr = data + RABIN_WINDOW;
192                         --entries;
193                 } else {
194                         prev_val = val;
195                         i = val & hmask;
196                         entry->entry.ptr = data + RABIN_WINDOW;
197                         entry->entry.val = val;
198                         entry->next = hash[i];
199                         hash[i] = entry++;
200                         hash_count[i]++;
201                 }
202         }
203
204         /*
205          * Determine a limit on the number of entries in the same hash
206          * bucket.  This guards us against pathological data sets causing
207          * really bad hash distribution with most entries in the same hash
208          * bucket that would bring us to O(m*n) computing costs (m and n
209          * corresponding to reference and target buffer sizes).
210          *
211          * Make sure none of the hash buckets has more entries than
212          * we're willing to test.  Otherwise we cull the entry list
213          * uniformly to still preserve a good repartition across
214          * the reference buffer.
215          */
216         for (i = 0; i < hsize; i++) {
217                 int acc;
218
219                 if (hash_count[i] <= HASH_LIMIT)
220                         continue;
221
222                 /* We leave exactly HASH_LIMIT entries in the bucket */
223                 entries -= hash_count[i] - HASH_LIMIT;
224
225                 entry = hash[i];
226                 acc = 0;
227
228                 /*
229                  * Assume that this loop is gone through exactly
230                  * HASH_LIMIT times and is entered and left with
231                  * acc==0.  So the first statement in the loop
232                  * contributes (hash_count[i]-HASH_LIMIT)*HASH_LIMIT
233                  * to the accumulator, and the inner loop consequently
234                  * is run (hash_count[i]-HASH_LIMIT) times, removing
235                  * one element from the list each time.  Since acc
236                  * balances out to 0 at the final run, the inner loop
237                  * body can't be left with entry==NULL.  So we indeed
238                  * encounter entry==NULL in the outer loop only.
239                  */
240                 do {
241                         acc += hash_count[i] - HASH_LIMIT;
242                         if (acc > 0) {
243                                 struct unpacked_index_entry *keep = entry;
244                                 do {
245                                         entry = entry->next;
246                                         acc -= HASH_LIMIT;
247                                 } while (acc > 0);
248                                 keep->next = entry->next;
249                         }
250                         entry = entry->next;
251                 } while (entry);
252         }
253         free(hash_count);
254
255         /*
256          * Now create the packed index in array form
257          * rather than linked lists.
258          */
259         memsize = sizeof(*index)
260                 + sizeof(*packed_hash) * (hsize+1)
261                 + sizeof(*packed_entry) * entries;
262         mem = malloc(memsize);
263         if (!mem) {
264                 free(hash);
265                 return NULL;
266         }
267
268         index = mem;
269         index->memsize = memsize;
270         index->src_buf = buf;
271         index->src_size = bufsize;
272         index->hash_mask = hmask;
273
274         mem = index->hash;
275         packed_hash = mem;
276         mem = packed_hash + (hsize+1);
277         packed_entry = mem;
278
279         for (i = 0; i < hsize; i++) {
280                 /*
281                  * Coalesce all entries belonging to one linked list
282                  * into consecutive array entries.
283                  */
284                 packed_hash[i] = packed_entry;
285                 for (entry = hash[i]; entry; entry = entry->next)
286                         *packed_entry++ = entry->entry;
287         }
288
289         /* Sentinel value to indicate the length of the last hash bucket */
290         packed_hash[hsize] = packed_entry;
291
292         assert(packed_entry - (struct index_entry *)mem == entries);
293         free(hash);
294
295         return index;
296 }
297
298 void free_delta_index(struct delta_index *index)
299 {
300         free(index);
301 }
302
303 unsigned long sizeof_delta_index(struct delta_index *index)
304 {
305         if (index)
306                 return index->memsize;
307         else
308                 return 0;
309 }
310
311 /*
312  * The maximum size for any opcode sequence, including the initial header
313  * plus Rabin window plus biggest copy.
314  */
315 #define MAX_OP_SIZE     (5 + 5 + 1 + RABIN_WINDOW + 7)
316
317 void *
318 create_delta(const struct delta_index *index,
319              const void *trg_buf, unsigned long trg_size,
320              unsigned long *delta_size, unsigned long max_size)
321 {
322         unsigned int i, outpos, outsize, moff, msize, val;
323         int inscnt;
324         const unsigned char *ref_data, *ref_top, *data, *top;
325         unsigned char *out;
326
327         if (!trg_buf || !trg_size)
328                 return NULL;
329
330         outpos = 0;
331         outsize = 8192;
332         if (max_size && outsize >= max_size)
333                 outsize = max_size + MAX_OP_SIZE + 1;
334         out = malloc(outsize);
335         if (!out)
336                 return NULL;
337
338         /* store reference buffer size */
339         i = index->src_size;
340         while (i >= 0x80) {
341                 out[outpos++] = i | 0x80;
342                 i >>= 7;
343         }
344         out[outpos++] = i;
345
346         /* store target buffer size */
347         i = trg_size;
348         while (i >= 0x80) {
349                 out[outpos++] = i | 0x80;
350                 i >>= 7;
351         }
352         out[outpos++] = i;
353
354         ref_data = index->src_buf;
355         ref_top = ref_data + index->src_size;
356         data = trg_buf;
357         top = (const unsigned char *) trg_buf + trg_size;
358
359         outpos++;
360         val = 0;
361         for (i = 0; i < RABIN_WINDOW && data < top; i++, data++) {
362                 out[outpos++] = *data;
363                 val = ((val << 8) | *data) ^ T[val >> RABIN_SHIFT];
364         }
365         inscnt = i;
366
367         moff = 0;
368         msize = 0;
369         while (data < top) {
370                 if (msize < 4096) {
371                         struct index_entry *entry;
372                         val ^= U[data[-RABIN_WINDOW]];
373                         val = ((val << 8) | *data) ^ T[val >> RABIN_SHIFT];
374                         i = val & index->hash_mask;
375                         for (entry = index->hash[i]; entry < index->hash[i+1]; entry++) {
376                                 const unsigned char *ref = entry->ptr;
377                                 const unsigned char *src = data;
378                                 unsigned int ref_size = ref_top - ref;
379                                 if (entry->val != val)
380                                         continue;
381                                 if (ref_size > top - src)
382                                         ref_size = top - src;
383                                 if (ref_size <= msize)
384                                         break;
385                                 while (ref_size-- && *src++ == *ref)
386                                         ref++;
387                                 if (msize < ref - entry->ptr) {
388                                         /* this is our best match so far */
389                                         msize = ref - entry->ptr;
390                                         moff = entry->ptr - ref_data;
391                                         if (msize >= 4096) /* good enough */
392                                                 break;
393                                 }
394                         }
395                 }
396
397                 if (msize < 4) {
398                         if (!inscnt)
399                                 outpos++;
400                         out[outpos++] = *data++;
401                         inscnt++;
402                         if (inscnt == 0x7f) {
403                                 out[outpos - inscnt - 1] = inscnt;
404                                 inscnt = 0;
405                         }
406                         msize = 0;
407                 } else {
408                         unsigned int left;
409                         unsigned char *op;
410
411                         if (inscnt) {
412                                 while (moff && ref_data[moff-1] == data[-1]) {
413                                         /* we can match one byte back */
414                                         msize++;
415                                         moff--;
416                                         data--;
417                                         outpos--;
418                                         if (--inscnt)
419                                                 continue;
420                                         outpos--;  /* remove count slot */
421                                         inscnt--;  /* make it -1 */
422                                         break;
423                                 }
424                                 out[outpos - inscnt - 1] = inscnt;
425                                 inscnt = 0;
426                         }
427
428                         /* A copy op is currently limited to 64KB (pack v2) */
429                         left = (msize < 0x10000) ? 0 : (msize - 0x10000);
430                         msize -= left;
431
432                         op = out + outpos++;
433                         i = 0x80;
434
435                         if (moff & 0x000000ff)
436                                 out[outpos++] = moff >> 0,  i |= 0x01;
437                         if (moff & 0x0000ff00)
438                                 out[outpos++] = moff >> 8,  i |= 0x02;
439                         if (moff & 0x00ff0000)
440                                 out[outpos++] = moff >> 16, i |= 0x04;
441                         if (moff & 0xff000000)
442                                 out[outpos++] = moff >> 24, i |= 0x08;
443
444                         if (msize & 0x00ff)
445                                 out[outpos++] = msize >> 0, i |= 0x10;
446                         if (msize & 0xff00)
447                                 out[outpos++] = msize >> 8, i |= 0x20;
448
449                         *op = i;
450
451                         data += msize;
452                         moff += msize;
453                         msize = left;
454
455                         if (msize < 4096) {
456                                 int j;
457                                 val = 0;
458                                 for (j = -RABIN_WINDOW; j < 0; j++)
459                                         val = ((val << 8) | data[j])
460                                               ^ T[val >> RABIN_SHIFT];
461                         }
462                 }
463
464                 if (outpos >= outsize - MAX_OP_SIZE) {
465                         void *tmp = out;
466                         outsize = outsize * 3 / 2;
467                         if (max_size && outsize >= max_size)
468                                 outsize = max_size + MAX_OP_SIZE + 1;
469                         if (max_size && outpos > max_size)
470                                 break;
471                         out = realloc(out, outsize);
472                         if (!out) {
473                                 free(tmp);
474                                 return NULL;
475                         }
476                 }
477         }
478
479         if (inscnt)
480                 out[outpos - inscnt - 1] = inscnt;
481
482         if (max_size && outpos > max_size) {
483                 free(out);
484                 return NULL;
485         }
486
487         *delta_size = outpos;
488         return out;
489 }