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annotate insert.cpp @ 442:16c5c51a4c32 api-inversion

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Add more information to adb_t In this case, add a vector to store track offsets. WARNING WARNING WARNING: unlike trackOffsetTable, this is a raw off_t in bytes of the feature data: in other words, it already has sizeof(double) and dbH->dim in it. (I think this is probably minimally unsurprising in the long run, but as I convert stuff there might well be errors creeping in...)
author mas01cr
date Wed, 24 Dec 2008 10:56:29 +0000
parents 1a1ea05a94ce
children cb44e57a96fa
rev   line source
mas01cr@239 1 #include "audioDB.h"
mas01cr@404 2 extern "C" {
mas01cr@404 3 #include "audioDB_API.h"
mas01cr@404 4 }
mas01cr@404 5 #include "audioDB-internals.h"
mas01cr@404 6
mas01cr@404 7 static bool audiodb_enough_data_space_free(adb_t *adb, off_t size) {
mas01cr@404 8 adb_header_t *header = adb->header;
mas01cr@409 9 if(header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@409 10 return true;
mas01cr@409 11 } else {
mas01cr@409 12 /* FIXME: timesTableOffset isn't necessarily the next biggest
mas01cr@409 13 * offset after dataOffset. Maybe make the offsets into an array
mas01cr@409 14 * that we can iterate over... */
mas01cr@409 15 return (header->timesTableOffset >
mas01cr@409 16 (header->dataOffset + header->length + size));
mas01cr@409 17 }
mas01cr@404 18 }
mas01cr@404 19
mas01cr@404 20 static bool audiodb_enough_per_file_space_free(adb_t *adb) {
mas01cr@404 21 /* FIXME: the comment above about the ordering of the tables applies
mas01cr@404 22 here too. */
mas01cr@404 23 adb_header_t *header = adb->header;
mas01cr@404 24 off_t file_table_length = header->trackTableOffset - header->fileTableOffset;
mas01cr@404 25 off_t track_table_length = header->dataOffset - header->trackTableOffset;
mas01cr@404 26 int fmaxfiles = file_table_length / O2_FILETABLE_ENTRY_SIZE;
mas01cr@404 27 int tmaxfiles = track_table_length / O2_TRACKTABLE_ENTRY_SIZE;
mas01cr@404 28 /* maxfiles is the _minimum_ of the two. Do not be confused... */
mas01cr@409 29 int maxfiles = fmaxfiles > tmaxfiles ? tmaxfiles : fmaxfiles;
mas01cr@409 30 if(header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@409 31 /* by default, these tables are created with the same size as the
mas01cr@409 32 * fileTable (which should be called key_table); relying on that
mas01cr@409 33 * always being the case, though, smacks of optimism, so instead
mas01cr@409 34 * we code defensively... */
mas01cr@409 35 off_t data_table_length = header->timesTableOffset - header->dataOffset;
mas01cr@409 36 off_t times_table_length = header->powerTableOffset - header->timesTableOffset;
mas01cr@409 37 off_t power_table_length = header->dbSize - header->powerTableOffset;
mas01cr@409 38 int dmaxfiles = data_table_length / O2_FILETABLE_ENTRY_SIZE;
mas01cr@409 39 int timaxfiles = times_table_length / O2_FILETABLE_ENTRY_SIZE;
mas01cr@409 40 int pmaxfiles = power_table_length / O2_FILETABLE_ENTRY_SIZE;
mas01cr@409 41 /* ... even though it means a certain amount of tedium. */
mas01cr@409 42 maxfiles = maxfiles > dmaxfiles ? dmaxfiles : maxfiles;
mas01cr@409 43 maxfiles = maxfiles > timaxfiles ? timaxfiles : maxfiles;
mas01cr@409 44 maxfiles = maxfiles > pmaxfiles ? pmaxfiles : maxfiles;
mas01cr@409 45 }
mas01cr@409 46 return (header->numFiles < (unsigned int) maxfiles);
mas01cr@404 47 }
mas01cr@404 48
mas01cr@404 49 /*
mas01cr@404 50 * Hey, look, a comment. Normally I wouldn't bother, as the code
mas01cr@404 51 * should be self-documenting, but a lot of logic is concentrated in
mas01cr@404 52 * this one place, so let's give an overview beforehand. To insert a
mas01cr@404 53 * datum into the database, we:
mas01cr@404 54 *
mas01cr@404 55 * 1. check write permission;
mas01cr@409 56 * 2. check for enough space;
mas01cr@409 57 * 3. check that datum->dim and adb->header->dim agree (or that the
mas01cr@404 58 * header dimension is zero, in which case write datum->dim to
mas01cr@404 59 * adb->header->dim).
mas01cr@409 60 * 4. check for presence of datum->key in adb->keys;
mas01cr@409 61 * 5. check for consistency between power and O2_FLAG_POWER, and
mas01cr@404 62 * times and O2_FLAG_TIMES;
mas01cr@409 63 * 6. write in data, power, times as appropriate; add to track
mas01cr@404 64 * and key tables too;
mas01cr@409 65 * 7. if O2_FLAG_L2NORM and !O2_FLAG_LARGE_ADB, compute norms and fill
mas01cr@409 66 * in table;
mas01cr@442 67 * 8. update adb->keys, adb->track_lengths, adb->track_offsets and
mas01cr@442 68 * adb->header;
mas01cr@409 69 * 9. sync adb->header with disk.
mas01cr@404 70 *
mas01cr@409 71 * Step 9 essentially commits the transaction; until we update
mas01cr@408 72 * header->length, nothing will recognize the newly-written data. In
mas01cr@408 73 * principle, if it fails, we should roll back, which we can in fact
mas01cr@409 74 * do on the assumption that nothing in step 8 can ever fail; on the
mas01cr@408 75 * other hand, if it's failed, then it's unlikely that rolling back by
mas01cr@408 76 * syncing the original header back to disk is going to work
mas01cr@408 77 * desperately well. We should perhaps take an operating-system lock
mas01cr@409 78 * around step 9, so that we can't be interrupted part-way through
mas01cr@408 79 * (except of course for SIGKILL, but if we're hit with that we will
mas01cr@408 80 * always lose).
mas01cr@404 81 */
mas01cr@408 82 static int audiodb_insert_datum_internal(adb_t *adb, adb_datum_internal_t *datum) {
mas01cr@404 83
mas01cr@404 84 off_t size, offset, nfiles;
mas01cr@426 85 double *l2norm_buffer = NULL;
mas01cr@404 86
mas01cr@404 87 /* 1. check write permission; */
mas01cr@404 88 if(!(adb->flags & O_RDWR)) {
mas01cr@404 89 return 1;
mas01cr@404 90 }
mas01cr@409 91 /* 2. check for enough space; */
mas01cr@404 92 size = sizeof(double) * datum->nvectors * datum->dim;
mas01cr@404 93 if(!audiodb_enough_data_space_free(adb, size)) {
mas01cr@404 94 return 1;
mas01cr@404 95 }
mas01cr@404 96 if(!audiodb_enough_per_file_space_free(adb)) {
mas01cr@404 97 return 1;
mas01cr@404 98 }
mas01cr@409 99 /* 3. check that datum->dim and adb->header->dim agree (or that the
mas01cr@404 100 * header dimension is zero, in which case write datum->dim to
mas01cr@404 101 * adb->header->dim).
mas01cr@404 102 */
mas01cr@404 103 if(adb->header->dim == 0) {
mas01cr@404 104 adb->header->dim = datum->dim;
mas01cr@404 105 } else if (adb->header->dim != datum->dim) {
mas01cr@404 106 return 1;
mas01cr@404 107 }
mas01cr@409 108 /* 4. check for presence of datum->key in adb->keys; */
mas01cr@404 109 if(adb->keys->count(datum->key)) {
mas01cr@404 110 /* not part of an explicit API/ABI, but we need a distinguished
mas01cr@404 111 value in this circumstance to preserve somewhat wonky behaviour
mas01cr@404 112 of audioDB::batchinsert. */
mas01cr@404 113 return 2;
mas01cr@404 114 }
mas01cr@409 115 /* 5. check for consistency between power and O2_FLAG_POWER, and
mas01cr@404 116 * times and O2_FLAG_TIMES;
mas01cr@404 117 */
mas01cr@404 118 if((datum->power && !(adb->header->flags & O2_FLAG_POWER)) ||
mas01cr@404 119 ((adb->header->flags & O2_FLAG_POWER) && !datum->power)) {
mas01cr@404 120 return 1;
mas01cr@404 121 }
mas01cr@404 122 if(datum->times && !(adb->header->flags & O2_FLAG_TIMES)) {
mas01cr@404 123 if(adb->header->numFiles == 0) {
mas01cr@404 124 adb->header->flags |= O2_FLAG_TIMES;
mas01cr@404 125 } else {
mas01cr@404 126 return 1;
mas01cr@404 127 }
mas01cr@404 128 } else if ((adb->header->flags & O2_FLAG_TIMES) && !datum->times) {
mas01cr@404 129 return 1;
mas01cr@404 130 }
mas01cr@409 131 /* 6. write in data, power, times as appropriate; add to track
mas01cr@404 132 * and key tables too;
mas01cr@404 133 */
mas01cr@404 134 offset = adb->header->length;
mas01cr@404 135 nfiles = adb->header->numFiles;
mas01cr@404 136
mas01cr@410 137 /* FIXME: checking for all these lseek()s */
mas01cr@409 138 lseek(adb->fd, adb->header->fileTableOffset + nfiles * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@410 139 write_or_goto_error(adb->fd, datum->key, strlen(datum->key)+1);
mas01cr@404 140 lseek(adb->fd, adb->header->trackTableOffset + nfiles * O2_TRACKTABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@410 141 write_or_goto_error(adb->fd, &datum->nvectors, O2_TRACKTABLE_ENTRY_SIZE);
mas01cr@409 142 if(adb->header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@409 143 char cwd[PATH_MAX];
mas01cr@409 144 char slash = '/';
mas01cr@404 145
mas01cr@410 146 if(!getcwd(cwd, PATH_MAX)) {
mas01cr@410 147 goto error;
mas01cr@410 148 }
mas01cr@409 149 lseek(adb->fd, adb->header->dataOffset + nfiles * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@409 150 if(*((char *) datum->data) != '/') {
mas01cr@410 151 write_or_goto_error(adb->fd, cwd, strlen(cwd));
mas01cr@410 152 write_or_goto_error(adb->fd, &slash, 1);
mas01cr@409 153 }
mas01cr@410 154 write_or_goto_error(adb->fd, datum->data, strlen((const char *) datum->data)+1);
mas01cr@409 155 if(datum->power) {
mas01cr@409 156 lseek(adb->fd, adb->header->powerTableOffset + nfiles * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@409 157 if(*((char *) datum->power) != '/') {
mas01cr@410 158 write_or_goto_error(adb->fd, cwd, strlen(cwd));
mas01cr@410 159 write_or_goto_error(adb->fd, &slash, 1);
mas01cr@409 160 }
mas01cr@410 161 write_or_goto_error(adb->fd, datum->power, strlen((const char *) datum->power)+1);
mas01cr@409 162 }
mas01cr@409 163 if(datum->times) {
mas01cr@409 164 lseek(adb->fd, adb->header->timesTableOffset + nfiles * O2_FILETABLE_ENTRY_SIZE, SEEK_SET);
mas01cr@409 165 if(*((char *) datum->times) != '/') {
mas01cr@410 166 write_or_goto_error(adb->fd, cwd, strlen(cwd));
mas01cr@410 167 write_or_goto_error(adb->fd, &slash, 1);
mas01cr@409 168 }
mas01cr@410 169 write_or_goto_error(adb->fd, datum->times, strlen((const char *) datum->times)+1);
mas01cr@409 170 }
mas01cr@409 171 } else {
mas01cr@409 172 lseek(adb->fd, adb->header->dataOffset + offset, SEEK_SET);
mas01cr@410 173 write_or_goto_error(adb->fd, datum->data, sizeof(double) * datum->nvectors * datum->dim);
mas01cr@409 174 if(datum->power) {
mas01cr@409 175 lseek(adb->fd, adb->header->powerTableOffset + offset / datum->dim, SEEK_SET);
mas01cr@410 176 write_or_goto_error(adb->fd, datum->power, sizeof(double) * datum->nvectors);
mas01cr@409 177 }
mas01cr@409 178 if(datum->times) {
mas01cr@409 179 lseek(adb->fd, adb->header->timesTableOffset + offset / datum->dim * 2, SEEK_SET);
mas01cr@410 180 write_or_goto_error(adb->fd, datum->times, sizeof(double) * datum->nvectors * 2);
mas01cr@409 181 }
mas01cr@409 182 }
mas01cr@409 183
mas01cr@409 184 /* 7. if O2_FLAG_L2NORM and !O2_FLAG_LARGE_ADB, compute norms and fill
mas01cr@409 185 * in table;
mas01cr@409 186 */
mas01cr@409 187 if((adb->header->flags & O2_FLAG_L2NORM) &&
mas01cr@409 188 !(adb->header->flags & O2_FLAG_LARGE_ADB)) {
mas01cr@408 189 l2norm_buffer = (double *) malloc(datum->nvectors * sizeof(double));
mas01cr@408 190
mas01cr@426 191 audiodb_l2norm_buffer((double *) datum->data, datum->dim, datum->nvectors, l2norm_buffer);
mas01cr@408 192 lseek(adb->fd, adb->header->l2normTableOffset + offset / datum->dim, SEEK_SET);
mas01cr@410 193 write_or_goto_error(adb->fd, l2norm_buffer, sizeof(double) * datum->nvectors);
mas01cr@408 194 free(l2norm_buffer);
mas01cr@410 195 l2norm_buffer = NULL;
mas01cr@404 196 }
mas01cr@404 197
mas01cr@442 198 /* 8. update adb->keys, adb->track_lengths, adb->track_offsets and
mas01cr@442 199 * adb->header;
mas01cr@442 200 */
mas01cr@430 201 (*adb->keys)[datum->key] = adb->header->numFiles;
mas01cr@432 202 adb->track_lengths->push_back(datum->nvectors);
mas01cr@442 203 if(adb->header->numFiles > 0) {
mas01cr@442 204 adb->track_offsets->push_back(offset);
mas01cr@442 205 }
mas01cr@404 206 adb->header->numFiles += 1;
mas01cr@404 207 adb->header->length += sizeof(double) * datum->nvectors * datum->dim;
mas01cr@404 208
mas01cr@409 209 /* 9. sync adb->header with disk. */
mas01cr@404 210 return audiodb_sync_header(adb);
mas01cr@404 211
mas01cr@404 212 error:
mas01cr@410 213 if(l2norm_buffer) {
mas01cr@410 214 free(l2norm_buffer);
mas01cr@410 215 }
mas01cr@404 216 return 1;
mas01cr@404 217 }
mas01cr@239 218
mas01cr@408 219 int audiodb_insert_datum(adb_t *adb, adb_datum_t *datum) {
mas01cr@440 220 if(adb->header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@440 221 return 1;
mas01cr@440 222 } else {
mas01cr@440 223 adb_datum_internal_t d;
mas01cr@440 224 d.nvectors = datum->nvectors;
mas01cr@440 225 d.dim = datum->dim;
mas01cr@440 226 d.key = datum->key;
mas01cr@440 227 d.data = datum->data;
mas01cr@440 228 d.times = datum->times;
mas01cr@440 229 d.power = datum->power;
mas01cr@440 230 return audiodb_insert_datum_internal(adb, &d);
mas01cr@440 231 }
mas01cr@408 232 }
mas01cr@408 233
mas01cr@441 234 int audiodb_insert_reference(adb_t *adb, adb_reference_t *reference) {
mas01cr@441 235 if(!(adb->header->flags & O2_FLAG_LARGE_ADB)) {
mas01cr@441 236 return 1;
mas01cr@441 237 } else {
mas01cr@441 238 adb_datum_internal_t d;
mas01cr@441 239 struct stat st;
mas01cr@441 240 int fd;
mas01cr@441 241 off_t size;
mas01cr@441 242
mas01cr@441 243 if((fd = open(reference->features, O_RDONLY)) == -1) {
mas01cr@441 244 return 1;
mas01cr@441 245 }
mas01cr@441 246 if(fstat(fd, &st)) {
mas01cr@441 247 goto error;
mas01cr@441 248 }
mas01cr@441 249 read_or_goto_error(fd, &(d.dim), sizeof(uint32_t));
mas01cr@441 250 close(fd);
mas01cr@441 251 fd = 0;
mas01cr@441 252 size = st.st_size - sizeof(uint32_t);
mas01cr@441 253 d.nvectors = size / (sizeof(double) * d.dim);
mas01cr@441 254 d.data = (void *) reference->features;
mas01cr@441 255 if(reference->power) {
mas01cr@441 256 if(stat(reference->power, &st)) {
mas01cr@441 257 return 1;
mas01cr@441 258 }
mas01cr@441 259 }
mas01cr@441 260 d.power = (void *) reference->power;
mas01cr@441 261 if(reference->times) {
mas01cr@441 262 if(stat(reference->times, &st)) {
mas01cr@441 263 return 1;
mas01cr@441 264 }
mas01cr@441 265 }
mas01cr@441 266 d.times = (void *) reference->times;
mas01cr@441 267 d.key = reference->key ? reference->key : reference->features;
mas01cr@441 268 return audiodb_insert_datum_internal(adb, &d);
mas01cr@441 269 error:
mas01cr@441 270 if(fd) {
mas01cr@441 271 close(fd);
mas01cr@441 272 }
mas01cr@441 273 return 1;
mas01cr@441 274 }
mas01cr@441 275 }
mas01cr@441 276
mas01cr@406 277 static int audiodb_free_datum(adb_datum_t *datum) {
mas01cr@406 278 if(datum->data) {
mas01cr@406 279 free(datum->data);
mas01cr@406 280 }
mas01cr@406 281 if(datum->power) {
mas01cr@406 282 free(datum->power);
mas01cr@406 283 }
mas01cr@406 284 if(datum->times) {
mas01cr@406 285 free(datum->times);
mas01cr@406 286 }
mas01cr@406 287 return 0;
mas01cr@406 288 }
mas01cr@406 289
mas01cr@406 290 static int audiodb_insert_create_datum(adb_insert_t *insert, adb_datum_t *datum) {
mas01cr@405 291 int fd = 0;
mas01cr@405 292 FILE *file = NULL;
mas01cr@405 293 struct stat st;
mas01cr@404 294 off_t size;
mas01cr@405 295
mas01cr@406 296 datum->data = NULL;
mas01cr@406 297 datum->power = NULL;
mas01cr@406 298 datum->times = NULL;
mas01cr@405 299 if((fd = open(insert->features, O_RDONLY)) == -1) {
mas01cr@405 300 goto error;
mas01cr@370 301 }
mas01cr@405 302 if(fstat(fd, &st)) {
mas01cr@405 303 goto error;
mas01cr@404 304 }
mas01cr@410 305 read_or_goto_error(fd, &(datum->dim), sizeof(uint32_t));
mas01cr@405 306 size = st.st_size - sizeof(uint32_t);
mas01cr@406 307 datum->nvectors = size / (sizeof(double) * datum->dim);
mas01cr@406 308 datum->data = (double *) malloc(size);
mas01cr@406 309 if(!datum->data) {
mas01cr@405 310 goto error;
mas01cr@404 311 }
mas01cr@410 312 read_or_goto_error(fd, datum->data, size);
mas01cr@404 313 close(fd);
mas01cr@405 314 fd = 0;
mas01cr@405 315 if(insert->power) {
mas01cr@405 316 int dim;
mas01cr@405 317 if((fd = open(insert->power, O_RDONLY)) == -1) {
mas01cr@405 318 goto error;
mas01cr@405 319 }
mas01cr@405 320 if(fstat(fd, &st)) {
mas01cr@405 321 goto error;
mas01cr@405 322 }
mas01cr@412 323 /* This cast is so non-trivial that it deserves a comment.
mas01cr@412 324 *
mas01cr@412 325 * The data types in this expression, left to right, are: off_t,
mas01cr@412 326 * size_t, off_t, uint32_t. The rules for conversions in
mas01cr@412 327 * arithmetic expressions with mixtures of integral types are
mas01cr@412 328 * essentially that the widest type wins, with unsigned types
mas01cr@412 329 * winning on a tie-break.
mas01cr@412 330 *
mas01cr@412 331 * Because we are enforcing (through the use of sufficient
mas01cr@412 332 * compiler flags, if necessary) that off_t be a (signed) 64-bit
mas01cr@412 333 * type, the only variability in this set of types is in fact the
mas01cr@412 334 * size_t. On 32-bit machines, size_t is uint32_t and so the
mas01cr@412 335 * coercions on both sides of the equality end up promoting
mas01cr@412 336 * everything to int64_t, which is fine. On 64-bit machines,
mas01cr@412 337 * however, the left hand side is promoted to a uint64_t, while
mas01cr@412 338 * the right hand side remains int64_t.
mas01cr@412 339 *
mas01cr@412 340 * The mixture of signed and unsigned types in comparisons is Evil
mas01cr@412 341 * Bad and Wrong, and gcc complains about it. (It's right to do
mas01cr@412 342 * so, actually). Of course in this case it will never matter
mas01cr@412 343 * because of the particular relationships between all of these
mas01cr@412 344 * numbers, so we just cast the left hand side to off_t, which
mas01cr@412 345 * will do the right thing for us on all platforms.
mas01cr@412 346 *
mas01cr@412 347 * I hate C.
mas01cr@412 348 */
mas01cr@412 349 if(((off_t) (st.st_size - sizeof(uint32_t))) != (size / datum->dim)) {
mas01cr@405 350 goto error;
mas01cr@405 351 }
mas01cr@410 352 read_or_goto_error(fd, &dim, sizeof(uint32_t));
mas01cr@405 353 if(dim != 1) {
mas01cr@405 354 goto error;
mas01cr@405 355 }
mas01cr@406 356 datum->power = (double *) malloc(size / datum->dim);
mas01cr@406 357 if(!datum->power) {
mas01cr@405 358 goto error;
mas01cr@405 359 }
mas01cr@410 360 read_or_goto_error(fd, datum->power, size / datum->dim);
mas01cr@405 361 close(fd);
mas01cr@405 362 }
mas01cr@405 363 if(insert->times) {
mas01cr@405 364 double t, *tp;
mas01cr@405 365 if(!(file = fopen(insert->times, "r"))) {
mas01cr@405 366 goto error;
mas01cr@405 367 }
mas01cr@406 368 datum->times = (double *) malloc(2 * size / datum->dim);
mas01cr@406 369 if(!datum->times) {
mas01cr@405 370 goto error;
mas01cr@404 371 }
mas01cr@405 372 if(fscanf(file, " %lf", &t) != 1) {
mas01cr@405 373 goto error;
mas01cr@405 374 }
mas01cr@406 375 tp = datum->times;
mas01cr@405 376 *tp++ = t;
mas01cr@406 377 for(unsigned int n = 0; n < datum->nvectors - 1; n++) {
mas01cr@405 378 if(fscanf(file, " %lf", &t) != 1) {
mas01cr@405 379 goto error;
mas01cr@405 380 }
mas01cr@405 381 *tp++ = t;
mas01cr@405 382 *tp++ = t;
mas01cr@405 383 }
mas01cr@405 384 if(fscanf(file, " %lf", &t) != 1) {
mas01cr@405 385 goto error;
mas01cr@405 386 }
mas01cr@405 387 *tp = t;
mas01cr@405 388 fclose(file);
mas01cr@404 389 }
mas01cr@406 390 datum->key = insert->key ? insert->key : insert->features;
mas01cr@406 391 return 0;
mas01cr@405 392
mas01cr@405 393 error:
mas01cr@405 394 if(fd > 0) {
mas01cr@405 395 close(fd);
mas01cr@405 396 }
mas01cr@405 397 if(file) {
mas01cr@405 398 fclose(file);
mas01cr@405 399 }
mas01cr@406 400 audiodb_free_datum(datum);
mas01cr@406 401 return 1;
mas01cr@406 402 }
mas01cr@406 403
mas01cr@406 404 int audiodb_insert(adb_t *adb, adb_insert_t *insert) {
mas01cr@406 405 if(adb->header->flags & O2_FLAG_LARGE_ADB) {
mas01cr@441 406 adb_reference_t *reference = insert;
mas01cr@409 407 int err;
mas01cr@441 408 err = audiodb_insert_reference(adb, reference);
mas01cr@409 409
mas01cr@409 410 if(err == 2) {
mas01cr@409 411 return 0;
mas01cr@409 412 } else {
mas01cr@409 413 return err;
mas01cr@409 414 }
mas01cr@406 415 } else {
mas01cr@406 416 adb_datum_t datum;
mas01cr@406 417 int err;
mas01cr@406 418
mas01cr@406 419 if(audiodb_insert_create_datum(insert, &datum)) {
mas01cr@406 420 return 1;
mas01cr@406 421 }
mas01cr@406 422 err = audiodb_insert_datum(adb, &datum);
mas01cr@406 423 audiodb_free_datum(&datum);
mas01cr@406 424
mas01cr@406 425 if(err == 2) {
mas01cr@406 426 return 0;
mas01cr@409 427 } else {
mas01cr@406 428 return err;
mas01cr@406 429 }
mas01cr@405 430 }
mas01cr@405 431 }
mas01cr@405 432
mas01cr@405 433 int audiodb_batchinsert(adb_t *adb, adb_insert_t *insert, unsigned int size) {
mas01cr@405 434 int err;
mas01cr@405 435 for(unsigned int n = 0; n < size; n++) {
mas01cr@405 436 if((err = audiodb_insert(adb, &(insert[n])))) {
mas01cr@405 437 return err;
mas01cr@404 438 }
mas01cr@404 439 }
mas01cr@405 440 return 0;
mas01cr@239 441 }