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annotate audioDB-internals.h @ 580:633614461994

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API for retrieving a track's data. A new function, audiodb_retrieve_datum() fills a provided adb_datum_t structure with the data corresponding to a given database key; the companion audiodb_free_datum() function frees the data in a given datum appropriately. Just in case, I continue to require passing in the adb_t * as the first argument to audiodb_free_datum(), even though it's not currently used: I couldn't convince myself that _all_ possible implementations could free a datum without reference to the adb_t. This meant rewriting the internal code to use a new internal audiodb_really_free_datum() function, which audiodb_free_datum() also calls. Sanity-checked by implementing a binding in sb-alien to this function, lightly-tested. All this fixes ticket:20 in Trac.
author mas01cr
date Tue, 14 Jul 2009 15:35:36 +0000
parents c6036e0a511a
children 638e1647b199
rev   line source
mas01cr@563 1 #include <sys/types.h>
mas01cr@563 2 #include <unistd.h>
mas01cr@563 3
mas01cr@509 4 #include <set>
mas01cr@509 5 #include <queue>
mas01cr@509 6 #include <map>
mas01cr@509 7 #include <string>
mas01cr@535 8 #include <algorithm>
mas01cr@509 9
mas01cr@509 10 #include "pointpair.h"
mas01cr@498 11 #include "accumulator.h"
mas01cr@509 12 #include "lshlib.h"
mas01cr@498 13
mas01cr@498 14 /* this struct is for writing polymorphic routines as puns. When
mas01cr@498 15 * inserting, we might have a "datum" (with actual numerical data) or
mas01cr@498 16 * a "reference" (with strings denoting pathnames containing numerical
mas01cr@498 17 * data), but most of the operations are the same. This struct, used
mas01cr@498 18 * only internally, allows us to write the main body of the insert
mas01cr@498 19 * code only once.
mas01cr@498 20 */
mas01cr@498 21 typedef struct adb_datum_internal {
mas01cr@498 22 uint32_t nvectors;
mas01cr@498 23 uint32_t dim;
mas01cr@498 24 const char *key;
mas01cr@498 25 void *data;
mas01cr@498 26 void *times;
mas01cr@498 27 void *power;
mas01cr@498 28 } adb_datum_internal_t;
mas01cr@498 29
mas01cr@498 30 /* this struct is to collect together a bunch of information about a
mas01cr@498 31 * query (or, in fact, a single database entry, or even a whole
mas01cr@498 32 * database). The _data pointers are immutable (hey, FIXME: should
mas01cr@498 33 * they be constified in some way?) so that free() can work on them
mas01cr@498 34 * later, while the ones without the suffix are mutable to maintain
mas01cr@498 35 * the "current" position in some way. mean_duration points to a
mas01cr@498 36 * (possibly single-element) array of mean durations for each track.
mas01cr@498 37 */
mas01cr@498 38 typedef struct adb_qpointers_internal {
mas01cr@498 39 uint32_t nvectors;
mas01cr@498 40 double *l2norm_data;
mas01cr@498 41 double *l2norm;
mas01cr@498 42 double *power_data;
mas01cr@498 43 double *power;
mas01cr@498 44 double *mean_duration;
mas01cr@498 45 } adb_qpointers_internal_t;
mas01cr@498 46
mas01cr@498 47 /* this struct is for maintaining per-query state. We don't want to
mas01cr@498 48 * store this stuff in the adb struct itself, because (a) it doesn't
mas01cr@498 49 * belong there and (b) in principle people might do two queries in
mas01cr@498 50 * parallel using the same adb handle. (b) is in practice a little
mas01cr@498 51 * bit academic because at the moment we're seeking all over the disk
mas01cr@498 52 * using adb->fd, but changing to use pread() might win us
mas01cr@498 53 * threadsafety eventually.
mas01cr@498 54 */
mas01cr@498 55 typedef struct adb_qstate_internal {
mas01cr@498 56 Accumulator *accumulator;
mas01cr@498 57 std::set<std::string> *allowed_keys;
mas01cr@498 58 std::priority_queue<PointPair> *exact_evaluation_queue;
mas01cr@498 59 LSH *lsh;
mas01cr@498 60 } adb_qstate_internal_t;
mas01cr@498 61
mas01cr@509 62 /* this struct is the in-memory representation of the binary
mas01cr@509 63 * information stored at the head of each adb file */
mas01cr@509 64 typedef struct adbheader {
mas01cr@509 65 uint32_t magic;
mas01cr@509 66 uint32_t version;
mas01cr@509 67 uint32_t numFiles;
mas01cr@509 68 uint32_t dim;
mas01cr@509 69 uint32_t flags;
mas01cr@509 70 uint32_t headerSize;
mas01cr@509 71 off_t length;
mas01cr@509 72 off_t fileTableOffset;
mas01cr@509 73 off_t trackTableOffset;
mas01cr@509 74 off_t dataOffset;
mas01cr@509 75 off_t l2normTableOffset;
mas01cr@509 76 off_t timesTableOffset;
mas01cr@509 77 off_t powerTableOffset;
mas01cr@509 78 off_t dbSize;
mas01cr@509 79 } adb_header_t;
mas01cr@509 80
mas01cr@509 81 #define ADB_HEADER_SIZE (sizeof(struct adbheader))
mas01cr@509 82
mas01cr@509 83 #define ADB_HEADER_FLAG_L2NORM (0x1U)
mas01cr@509 84 #define ADB_HEADER_FLAG_POWER (0x4U)
mas01cr@509 85 #define ADB_HEADER_FLAG_TIMES (0x20U)
mas01cr@509 86 #define ADB_HEADER_FLAG_REFERENCES (0x40U)
mas01cr@509 87
mas01cr@498 88 /* the transparent version of the opaque (forward-declared) adb_t. */
mas01cr@498 89 struct adb {
mas01cr@498 90 char *path;
mas01cr@498 91 int fd;
mas01cr@498 92 int flags;
mas01cr@498 93 adb_header_t *header;
mas01cr@498 94 std::vector<std::string> *keys;
mas01cr@498 95 std::map<std::string,uint32_t> *keymap;
mas01cr@498 96 std::vector<uint32_t> *track_lengths;
mas01cr@498 97 std::vector<off_t> *track_offsets;
mas01cr@498 98 LSH *cached_lsh;
mas01cr@498 99 };
mas01cr@498 100
mas01cr@498 101 typedef struct {
mas01cr@498 102 bool operator() (const adb_result_t &r1, const adb_result_t &r2) {
mas01cr@498 103 return strcmp(r1.key, r2.key) < 0;
mas01cr@498 104 }
mas01cr@498 105 } adb_result_key_lt;
mas01cr@498 106
mas01cr@498 107 typedef struct {
mas01cr@498 108 bool operator() (const adb_result_t &r1, const adb_result_t &r2) {
mas01cr@498 109 return r1.qpos < r2.qpos;
mas01cr@498 110 }
mas01cr@498 111 } adb_result_qpos_lt;
mas01cr@498 112
mas01cr@498 113 typedef struct {
mas01cr@498 114 bool operator() (const adb_result_t &r1, const adb_result_t &r2) {
mas01cr@498 115 return r1.dist < r2.dist;
mas01cr@498 116 }
mas01cr@498 117 } adb_result_dist_lt;
mas01cr@498 118
mas01cr@498 119 typedef struct {
mas01cr@498 120 bool operator() (const adb_result_t &r1, const adb_result_t &r2) {
mas01cr@498 121 return r1.dist > r2.dist;
mas01cr@498 122 }
mas01cr@498 123 } adb_result_dist_gt;
mas01cr@498 124
mas01cr@498 125 typedef struct {
mas01cr@498 126 bool operator() (const adb_result_t &r1, const adb_result_t &r2) {
mas01cr@498 127 return ((r1.ipos < r2.ipos) ||
mas01cr@498 128 ((r1.ipos == r2.ipos) &&
mas01cr@498 129 ((r1.qpos < r2.qpos) ||
mas01cr@498 130 ((r1.qpos == r2.qpos) && (strcmp(r1.key, r2.key) < 0)))));
mas01cr@498 131 }
mas01cr@498 132 } adb_result_triple_lt;
mas01cr@498 133
mas01cr@498 134 /* We could go gcc-specific here and use typeof() instead of passing
mas01cr@498 135 * in an explicit type. Answers on a postcard as to whether that's a
mas01cr@498 136 * good plan or not. */
mas01cr@498 137 #define mmap_or_goto_error(type, var, start, length) \
mas01cr@498 138 { void *tmp = mmap(0, length, PROT_READ, MAP_SHARED, adb->fd, (start)); \
mas01cr@498 139 if(tmp == (void *) -1) { \
mas01cr@498 140 goto error; \
mas01cr@498 141 } \
mas01cr@498 142 var = (type) tmp; \
mas01cr@498 143 }
mas01cr@498 144
mas01cr@498 145 #define maybe_munmap(table, length) \
mas01cr@498 146 { if(table) { \
mas01cr@498 147 munmap(table, length); \
mas01cr@498 148 } \
mas01cr@498 149 }
mas01cr@498 150
mas01cr@509 151 #define maybe_delete_array(pointer) \
mas01cr@509 152 { if(pointer) { \
mas01cr@509 153 delete [] pointer; \
mas01cr@509 154 pointer = NULL; \
mas01cr@509 155 } \
mas01cr@509 156 }
mas01cr@509 157
mas01cr@498 158 #define write_or_goto_error(fd, buffer, size) \
mas01cr@498 159 { ssize_t tmp = size; \
mas01cr@498 160 if(write(fd, buffer, size) != tmp) { \
mas01cr@498 161 goto error; \
mas01cr@498 162 } \
mas01cr@498 163 }
mas01cr@498 164
mas01cr@498 165 #define read_or_goto_error(fd, buffer, size) \
mas01cr@498 166 { ssize_t tmp = size; \
mas01cr@498 167 if(read(fd, buffer, size) != tmp) { \
mas01cr@498 168 goto error; \
mas01cr@498 169 } \
mas01cr@498 170 }
mas01cr@498 171
mas01cr@498 172 static inline int audiodb_sync_header(adb_t *adb) {
mas01cr@498 173 off_t pos;
mas01cr@498 174 pos = lseek(adb->fd, (off_t) 0, SEEK_CUR);
mas01cr@498 175 if(pos == (off_t) -1) {
mas01cr@498 176 goto error;
mas01cr@498 177 }
mas01cr@498 178 if(lseek(adb->fd, (off_t) 0, SEEK_SET) == (off_t) -1) {
mas01cr@498 179 goto error;
mas01cr@498 180 }
mas01cr@509 181 if(write(adb->fd, adb->header, ADB_HEADER_SIZE) != ADB_HEADER_SIZE) {
mas01cr@498 182 goto error;
mas01cr@498 183 }
mas01cr@498 184
mas01cr@563 185 #if defined(_POSIX_SYNCHRONIZED_IO) && (_POSIX_SYNCHRONIZED_IO > 0)
mas01cr@498 186 fdatasync(adb->fd);
mas01cr@563 187 #else
mas01cr@563 188 fsync(adb->fd);
mas01cr@563 189 #endif
mas01cr@498 190 if(lseek(adb->fd, pos, SEEK_SET) == (off_t) -1) {
mas01cr@498 191 goto error;
mas01cr@498 192 }
mas01cr@498 193 return 0;
mas01cr@498 194
mas01cr@498 195 error:
mas01cr@498 196 return 1;
mas01cr@498 197 }
mas01cr@498 198
mas01cr@498 199 static inline double audiodb_dot_product(double *p, double *q, size_t count) {
mas01cr@498 200 double result = 0;
mas01cr@498 201 while(count--) {
mas01cr@498 202 result += *p++ * *q++;
mas01cr@498 203 }
mas01cr@498 204 return result;
mas01cr@498 205 }
mas01cr@498 206
mas01cr@498 207 static inline void audiodb_l2norm_buffer(double *d, size_t dim, size_t nvectors, double *l) {
mas01cr@498 208 while(nvectors--) {
mas01cr@498 209 double *d1 = d;
mas01cr@498 210 double *d2 = d;
mas01cr@498 211 *l++ = audiodb_dot_product(d1, d2, dim);
mas01cr@498 212 d += dim;
mas01cr@498 213 }
mas01cr@498 214 }
mas01cr@498 215
mas01cr@498 216 // This is a common pattern in sequence queries: what we are doing is
mas01cr@498 217 // taking a window of length seqlen over a buffer of length length,
mas01cr@498 218 // and placing the sum of the elements in that window in the first
mas01cr@498 219 // element of the window: thus replacing all but the last seqlen
mas01cr@498 220 // elements in the buffer with the corresponding windowed sum.
mas01cr@498 221 static inline void audiodb_sequence_sum(double *buffer, int length, int seqlen) {
mas01cr@498 222 double tmp1, tmp2, *ps;
mas01cr@498 223 int j, w;
mas01cr@498 224
mas01cr@498 225 tmp1 = *buffer;
mas01cr@498 226 j = 1;
mas01cr@498 227 w = seqlen - 1;
mas01cr@498 228 while(w--) {
mas01cr@498 229 *buffer += buffer[j++];
mas01cr@498 230 }
mas01cr@498 231 ps = buffer + 1;
mas01cr@498 232 w = length - seqlen; // +1 - 1
mas01cr@498 233 while(w--) {
mas01cr@498 234 tmp2 = *ps;
mas01cr@498 235 if(isfinite(tmp1)) {
mas01cr@498 236 *ps = *(ps - 1) - tmp1 + *(ps + seqlen - 1);
mas01cr@498 237 } else {
mas01cr@498 238 for(int i = 1; i < seqlen; i++) {
mas01cr@498 239 *ps += *(ps + i);
mas01cr@498 240 }
mas01cr@498 241 }
mas01cr@498 242 tmp1 = tmp2;
mas01cr@498 243 ps++;
mas01cr@498 244 }
mas01cr@498 245 }
mas01cr@498 246
mas01cr@498 247 // In contrast to audiodb_sequence_sum() above,
mas01cr@498 248 // audiodb_sequence_sqrt() and audiodb_sequence_average() below are
mas01cr@498 249 // simple mappers across the sequence.
mas01cr@498 250 static inline void audiodb_sequence_sqrt(double *buffer, int length, int seqlen) {
mas01cr@498 251 int w = length - seqlen + 1;
mas01cr@498 252 while(w--) {
mas01cr@498 253 *buffer = sqrt(*buffer);
mas01cr@498 254 buffer++;
mas01cr@498 255 }
mas01cr@498 256 }
mas01cr@498 257
mas01cr@498 258 static inline void audiodb_sequence_average(double *buffer, int length, int seqlen) {
mas01cr@498 259 int w = length - seqlen + 1;
mas01cr@498 260 while(w--) {
mas01cr@498 261 *buffer /= seqlen;
mas01cr@498 262 buffer++;
mas01cr@498 263 }
mas01cr@498 264 }
mas01cr@498 265
mas01cr@498 266 static inline uint32_t audiodb_key_index(adb_t *adb, const char *key) {
mas01cr@498 267 std::map<std::string,uint32_t>::iterator it;
mas01cr@498 268 it = adb->keymap->find(key);
mas01cr@498 269 if(it == adb->keymap->end()) {
mas01cr@498 270 return (uint32_t) -1;
mas01cr@498 271 } else {
mas01cr@498 272 return (*it).second;
mas01cr@498 273 }
mas01cr@498 274 }
mas01cr@498 275
mas01cr@498 276 static inline const char *audiodb_index_key(adb_t *adb, uint32_t index) {
mas01cr@498 277 return (*adb->keys)[index].c_str();
mas01cr@498 278 }
mas01cr@498 279
mas01mc@557 280 static inline uint32_t audiodb_index_to_track_id(adb_t *adb, uint32_t lshid){
mas01mc@557 281 off_t offset = (off_t)lshid*adb->header->dim*sizeof(double);
mas01cr@536 282 std::vector<off_t>::iterator b = (*adb->track_offsets).begin();
mas01cr@536 283 std::vector<off_t>::iterator e = (*adb->track_offsets).end();
mas01cr@536 284 std::vector<off_t>::iterator p = std::upper_bound(b, e, offset);
mas01cr@536 285 return p - b - 1;
mas01cr@498 286 }
mas01cr@498 287
mas01mc@534 288 static inline uint32_t audiodb_index_to_track_pos(adb_t *adb, uint32_t track_id, uint32_t lshid) {
mas01mc@534 289 uint32_t trackIndexOffset = (*adb->track_offsets)[track_id] / (adb->header->dim * sizeof(double));
mas01mc@534 290 return lshid - trackIndexOffset;
mas01cr@498 291 }
mas01cr@498 292
mas01mc@534 293 static inline uint32_t audiodb_index_from_trackinfo(adb_t *adb, uint32_t track_id, uint32_t track_pos) {
mas01mc@534 294 uint32_t trackIndexOffset = (*adb->track_offsets)[track_id] / (adb->header->dim * sizeof(double));
mas01mc@534 295 return trackIndexOffset + track_pos;
mas01cr@498 296 }
mas01cr@498 297
mas01cr@498 298 int audiodb_read_data(adb_t *, int, int, double **, size_t *);
mas01cr@498 299 int audiodb_insert_create_datum(adb_insert_t *, adb_datum_t *);
mas01cr@498 300 int audiodb_track_id_datum(adb_t *, uint32_t, adb_datum_t *);
mas01cr@580 301 int audiodb_really_free_datum(adb_datum_t *);
mas01cr@498 302 int audiodb_datum_qpointers(adb_datum_t *, uint32_t, double **, double **, adb_qpointers_internal_t *);
mas01cr@498 303 int audiodb_query_spec_qpointers(adb_t *, const adb_query_spec_t *, double **, double **, adb_qpointers_internal_t *);
mas01cr@498 304 int audiodb_query_queue_loop(adb_t *, const adb_query_spec_t *, adb_qstate_internal_t *, double *, adb_qpointers_internal_t *);
mas01cr@498 305 int audiodb_query_loop(adb_t *, const adb_query_spec_t *, adb_qstate_internal_t *);
mas01cr@498 306 char *audiodb_index_get_name(const char *, double, uint32_t);
mas01cr@498 307 bool audiodb_index_exists(const char *, double, uint32_t);
mas01cr@498 308 int audiodb_index_query_loop(adb_t *, const adb_query_spec_t *, adb_qstate_internal_t *);
mas01cr@509 309 LSH *audiodb_index_allocate(adb_t *, char *, bool);
mas01cr@509 310 vector<vector<float> > *audiodb_index_initialize_shingles(uint32_t, uint32_t, uint32_t);
mas01cr@509 311 void audiodb_index_delete_shingles(vector<vector<float> > *);
mas01cr@509 312 void audiodb_index_make_shingle(vector<vector<float> > *, uint32_t, double *, uint32_t, uint32_t);
mas01cr@509 313 int audiodb_index_norm_shingles(vector<vector<float> > *, double *, double *, uint32_t, uint32_t, double, bool, bool, float);
mas01cr@509 314
mas01cr@509 315 #define ADB_MAXSTR (512U)
mas01cr@509 316 #define ADB_FILETABLE_ENTRY_SIZE (256U)
mas01cr@509 317 #define ADB_TRACKTABLE_ENTRY_SIZE (sizeof(uint32_t))
mas01cr@509 318 #define ADB_DISTANCE_TOLERANCE (1e-6)
mas01cr@509 319
mas01cr@509 320 #define ADB_DEFAULT_DATASIZE (1355U) /* in MB */
mas01cr@509 321 #define ADB_DEFAULT_NTRACKS (20000U)
mas01cr@509 322 #define ADB_DEFAULT_DATADIM (9U)
mas01cr@509 323
mas01cr@509 324 #define ADB_FIXME_LARGE_ADB_SIZE (ADB_DEFAULT_DATASIZE+1)
mas01cr@509 325 #define ADB_FIXME_LARGE_ADB_NTRACKS (ADB_DEFAULT_NTRACKS+1)
mas01cr@509 326
mas01cr@509 327 #define ADB_OLD_MAGIC ('O'|'2'<<8|'D'<<16|'B'<<24)
mas01cr@509 328 #define ADB_MAGIC ('o'|'2'<<8|'d'<<16|'b'<<24)
mas01cr@509 329 #define ADB_FORMAT_VERSION (4U)
mas01cr@509 330
mas01cr@509 331 #define align_up(x,w) (((x) + ((1<<w)-1)) & ~((1<<w)-1))
mas01cr@509 332 #define align_down(x,w) ((x) & ~((1<<w)-1))
mas01cr@509 333
mas01cr@509 334 #define align_page_up(x) (((x) + (getpagesize()-1)) & ~(getpagesize()-1))
mas01cr@509 335 #define align_page_down(x) ((x) & ~(getpagesize()-1))
mas01cr@509 336