-
Notifications
You must be signed in to change notification settings - Fork 9
/
DB.h
729 lines (564 loc) · 31.9 KB
/
DB.h
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
/*******************************************************************************************
*
* Compressed data base module. Auxiliary routines to open and manipulate a data base for
* which the sequence and read information are separated into two separate files, and the
* sequence is compressed into 2-bits for each base. Support for tracks of additional
* information, and trimming according to the current partition. Eventually will also
* support compressed quality information.
*
* Author : Gene Myers
* Date : July 2013
* Revised: April 2014
*
********************************************************************************************/
#ifndef _DAZZ_DB
#define _DAZZ_DB
#include <stdio.h>
#include "QV.h"
#define HIDE_FILES // Auxiliary DB files start with a . so they are "hidden"
// Undefine if you don't want this
// For interactive applications where it is inappropriate to simply exit with an error
// message to standard error, define the constant INTERACTIVE. If set, then error
// messages are put in the global variable Ebuffer and the caller of a DB routine
// can decide how to deal with the error.
//
// DB, QV, or alignment routines that can encounter errors function as before in
// non-INTERACTIVE mode by exiting after printing an error message to stderr. In
// INTERACTIVE mode the routines place a message at EPLACE and return an error
// value. For such routines that were previously void, they are now int, and
// return 1 if an error occured, 0 otherwise.
#ifdef INTERACTIVE
#define EPRINTF sprintf
#define EPLACE Ebuffer
#define EXIT(x) return (x)
#else // BATCH
#define EPRINTF fprintf
#define EPLACE stderr
#define EXIT(x) exit (1)
#endif
typedef unsigned char uint8;
typedef unsigned short uint16;
typedef unsigned int uint32;
typedef unsigned long long uint64;
typedef signed char int8;
typedef signed short int16;
typedef signed int int32;
typedef signed long long int64;
typedef float float32;
typedef double float64;
#define LAST_READ_SYMBOL '$'
#define BLOCK_SYMBOL '@'
/*******************************************************************************************
*
* COMMAND LINE INTERPRETATION MACROS
*
********************************************************************************************/
extern char *Prog_Name; // Name of program
#ifdef INTERACTIVE
extern char Ebuffer[];
#endif
#define ARG_INIT(name) \
Prog_Name = Strdup(name,""); \
for (i = 0; i < 128; i++) \
flags[i] = 0;
#define ARG_FLAGS(set) \
for (k = 1; argv[i][k] != '\0'; k++) \
{ if (index(set,argv[i][k]) == NULL) \
{ fprintf(stderr,"%s: -%c is an illegal option\n",Prog_Name,argv[i][k]); \
exit (1); \
} \
flags[(int) argv[i][k]] = 1; \
}
#define ARG_POSITIVE(var,name) \
var = strtol(argv[i]+2,&eptr,10); \
if (*eptr != '\0' || argv[i][2] == '\0') \
{ fprintf(stderr,"%s: -%c '%s' argument is not an integer\n", \
Prog_Name,argv[i][1],argv[i]+2); \
exit (1); \
} \
if (var <= 0) \
{ fprintf(stderr,"%s: %s must be positive (%d)\n",Prog_Name,name,var); \
exit (1); \
}
#define ARG_NON_NEGATIVE(var,name) \
var = strtol(argv[i]+2,&eptr,10); \
if (*eptr != '\0' || argv[i][2] == '\0') \
{ fprintf(stderr,"%s: -%c '%s' argument is not an integer\n", \
Prog_Name,argv[i][1],argv[i]+2); \
exit (1); \
} \
if (var < 0) \
{ fprintf(stderr,"%s: %s must be non-negative (%d)\n",Prog_Name,name,var); \
exit (1); \
}
#define ARG_REAL(var) \
var = strtod(argv[i]+2,&eptr); \
if (*eptr != '\0' || argv[i][2] == '\0') \
{ fprintf(stderr,"%s: -%c '%s' argument is not a real number\n", \
Prog_Name,argv[i][1],argv[i]+2); \
exit (1); \
}
/*******************************************************************************************
*
* GUARDED BATCH IO MACROS
*
********************************************************************************************/
// Utilitieis
int Count_Args(char *arg);
#define SYSTEM_READ_ERROR \
{ fprintf(stderr,"%s: System error, read failed!\n",Prog_Name); \
exit (2); \
}
#define SYSTEM_WRITE_ERROR \
{ fprintf(stderr,"%s: System error, write failed!\n",Prog_Name); \
exit (2); \
}
#define SYSTEM_CLOSE_ERROR \
{ fprintf(stderr,"%s: System error, file close failed!\n",Prog_Name); \
exit (2); \
}
// Output
#define FFWRITE(v,s,n,file) \
{ if (fwrite(v,s,n,file) != (size_t) n) \
SYSTEM_WRITE_ERROR \
}
#define FPRINTF(file,...) \
{ if (fprintf(file,__VA_ARGS__) < 0) \
SYSTEM_WRITE_ERROR \
}
#define PRINTF(...) \
{ if (printf(__VA_ARGS__) < 0) \
SYSTEM_WRITE_ERROR \
}
#define FPUTS(x,file) \
{ if (fputs(x,file) == EOF) \
SYSTEM_WRITE_ERROR \
}
// Close
#define FCLOSE(file) \
{ if (fclose(file) != 0) \
SYSTEM_CLOSE_ERROR \
}
// Input
#define FFREAD(v,s,n,file) \
{ if (fread(v,s,n,file) != (size_t) n) \
{ if (ferror(file)) \
SYSTEM_READ_ERROR \
else \
{ fprintf(stderr,"%s: The file %s is corrupted\n",Prog_Name,file ## _name); \
exit (1); \
} \
} \
}
#define FSCANF(file,...) \
{ if (fscanf(file,__VA_ARGS__) != Count_Args(#__VA_ARGS__)-1) \
{ if (ferror(file)) \
SYSTEM_READ_ERROR \
else \
{ fprintf(stderr,"%s: The file %s is corrupted\n",Prog_Name,file ## _name); \
exit (1); \
} \
} \
}
#define FGETS(v,n,file) \
{ if (fgets(v,n,file) == NULL) \
{ if (ferror(file)) \
SYSTEM_READ_ERROR \
else \
{ fprintf(stderr,"%s: The file %s is corrupted\n",Prog_Name,file ## _name); \
exit (1); \
} \
} \
}
#define FSEEKO(file,p,d) \
{ if (fseeko(file,p,d) < 0) \
SYSTEM_READ_ERROR \
}
#define FTELLO(val,file) \
{ val = ftello(file); \
if (val < 0) \
SYSTEM_READ_ERROR \
}
/*******************************************************************************************
*
* UTILITIES
*
********************************************************************************************/
// The following general utilities return NULL if any of their input pointers are NULL, or if they
// could not perform their function (in which case they also print an error to stderr).
void *Malloc(int64 size, char *mesg); // Guarded versions of malloc, realloc
void *Realloc(void *object, int64 size, char *mesg); // and strdup, that output "mesg" to
char *Strdup(char *string, char *mesg); // stderr if out of memory
FILE *Fopen(char *path, char *mode); // Open file path for "mode"
char *PathTo(char *path); // Return path portion of file name "path"
char *Root(char *path, char *suffix); // Return the root name, excluding suffix, of "path"
// Catenate returns concatenation of path.sep.root.suffix in a *temporary* buffer
// Numbered_Suffix returns concatenation of left.<num>.right in a *temporary* buffer
char *Catenate(char *path, char *sep, char *root, char *suffix);
char *Numbered_Suffix(char *left, int num, char *right);
// DB-related utilities
void Print_Number(int64 num, int width, FILE *out); // Print big integer with commas
int Number_Digits(int64 num); // Return # of digits in printed number
#define COMPRESSED_LEN(len) (((len)+3) >> 2)
void Compress_Read(int len, char *s); // Compress read in-place into 2-bit form
void Uncompress_Read(int len, char *s); // Uncompress read in-place into numeric form
void Print_Read(char *s, int width);
void Lower_Read(char *s); // Convert read from numbers to lowercase letters (0-3 to acgt)
void Upper_Read(char *s); // Convert read from numbers to uppercase letters (0-3 to ACGT)
void Number_Read(char *s); // Convert read from letters to numbers
void Change_Read(char *s); // Convert read from one case to the other
void Letter_Arrow(char *s); // Convert arrow pw's from numbers to uppercase letters (0-3 to 1234)
void Number_Arrow(char *s); // Convert arrow pw string from letters to numbers
/*******************************************************************************************
*
* DB IN-CORE DATA STRUCTURES
*
********************************************************************************************/
#define DB_QV 0x03ff // Mask for 3-digit quality value
#define DB_CCS 0x0400 // This is the second or later of a group of subreads from a given insert
#define DB_BEST 0x0800 // This is the "best" subread of a given insert (may be the only 1)
#define DB_ARROW 0x2 // DB is an arrow DB
#define DB_ALL 0x1 // all wells are in the trimmed DB
// Fields have different interpretations if a .db versus a .dam
typedef struct
{ int origin; // Well # (DB), Contig # (DAM)
int rlen; // Length of the sequence (Last pulse = fpulse + rlen)
int fpulse; // First pulse (DB), left index of contig in scaffold (DAM)
int64 boff; // Offset (in bytes) of compressed read in 'bases' file, or offset of
// uncompressed bases in memory block
int64 coff; // Offset (in bytes) of compressed quiva streams in '.qvs' file (DB),
// Offset (in bytes) of scaffold header string in '.hdr' file (DAM)
// 4 compressed shorts containing snr info if an arrow DB.
int flags; // QV of read + flags above (DB only)
} DAZZ_READ;
// A track can be of 3 types:
// data == NULL: there are nreads 'anno' records of size 'size'.
// data != NULL && size == 4: anno is an array of nreads+1 int's and data[anno[i]..anno[i+1])
// contains the variable length data
// data != NULL && size == 8: anno is an array of nreads+1 int64's and data[anno[i]..anno[i+1])
// contains the variable length data
// if loaded is set then the data is not loaded if present, rather data is an open file pointer
// set for reading.
typedef struct _track
{ struct _track *next; // Link to next track
char *name; // Symbolic name of track
int size; // Size in bytes of anno records
int nreads; // Number of reads in track
void *anno; // over [0,nreads]: read i annotation: int, int64, or 'size' records
int *alen; // length of track data for read i (if data != NULL)
void *data; // data[anno[i] .. anno[i]+alen[i[) is data for read i (if data != NULL)
int loaded; // Is track data loaded in memory?
int64 dmax; // Largest read data segment in bytes
} DAZZ_TRACK;
// The tailing part of a .anno track file can contain meta-information produced by the
// command that produced the track. For example, the coverage, or good/bad parameters
// for trimming, or even say a histogram of QV values. Each item is an array of 'nelem'
// 64-bit ints or floats ('vtype' = DB_INT or DB_REAL), has a 'name' string that
// describes it, and an indicator as to whether the values should be equal accross all
// block tracks, or summed accross all block tracks (by Catrack). 'value' points at the
// array of values
#define DB_INT 0
#define DB_REAL 1
#define DB_EXACT 0
#define DB_SUM 1
typedef struct
{ int vtype; // INT64 or FLOAST64
int nelem; // >= 1
int accum; // EXACT, SUM
char *name;
void *value;
} DAZZ_EXTRA;
// The information for accessing QV streams is in a DAZZ_QV record that is a "pseudo-track"
// named ".@qvs" and is always the first track record in the list (if present). Since normal
// track names cannot begin with a . (this is enforced), this pseudo-track is never confused
// with a normal track.
typedef struct
{ struct _track *next;
char *name;
int ncodes; // # of coding tables
QVcoding *coding; // array [0..ncodes-1] of coding schemes (see QV.h)
uint16 *table; // for i in [0,db->nreads-1]: read i should be decompressed with
// scheme coding[table[i]]
FILE *quiva; // the open file pointer to the .qvs file
} DAZZ_QV;
// The information for accessing Arrow streams is in a DAZZ_ARW record that is a "pseudo-track"
// named ".@arw" and is always the first track record in the list (if present).
// Since normal track names cannot begin with a . (this is enforced), this pseudo-track
// is never confused with a normal track.
typedef struct
{ struct _track *next;
char *name;
int64 *aoff; // offset in file or memory of arrow vector for read i
void *arrow; // FILE * to the .arw file if not loaded, memory block otherwise
int loaded; // Are arrow vectors loaded in memory?
} DAZZ_ARROW;
// Every DB is referred to by an ASCII stub file with extension .db or .dam. This file
// contains the information about the SMRT cells in the DB and the current division of
// the DB into blocks for HPC processing. This file can be read into the following
// data structure:
typedef struct
{ int nfiles; // Number of files/SMRT cells in DB
int *nreads; // [0..nfiles) = # of reads from cell
char **fname; // [0..nfiles) = file name of cell
char **prolog; // [0..nfiles) = fasta header prolog for cell
int all; // Keep only best read from each well?
int cutoff; // Trim reads less than cutoff
int64 bsize; // Target size for blocks
int nblocks; // Number of blocks for DB
int *ublocks; // [0..nblcoks] = index of 1st read in block in untrimmed DB
int *tblocks; // [0..nblcoks] = index of 1st read in block in trimmed DB
} DAZZ_STUB;
// The DB record holds all information about the current state of an active DB including an
// array of DAZZ_READS, one per read, and a linked list of DAZZ_TRACKs the first of which
// is always a DAZZ_QV pseudo-track (if the QVs have been loaded).
typedef struct
{ int ureads; // Total number of reads in untrimmed DB
int treads; // Total number of reads in trimmed DB
int cutoff; // Minimum read length in block (-1 if not yet set)
int allarr; // DB_ALL | DB_ARROW
float freq[4]; // frequency of A, C, G, T, respectively
// Set with respect to "active" part of DB (all vs block, untrimmed vs trimmed)
int maxlen; // length of maximum read (initially over all DB)
int64 totlen; // total # of bases (initially over all DB)
int nreads; // # of reads in actively loaded portion of DB
int trimmed; // DB has been trimmed by cutoff/all
int part; // DB block (if > 0), total DB (if == 0)
int ufirst; // Index of first read in block (without trimming)
int tfirst; // Index of first read in block (with trimming)
// In order to avoid forcing users to have to rebuild all thier DBs to accommodate
// the addition of fields for the size of the actively loaded trimmed and untrimmed
// blocks, an additional read record is allocated in "reads" when a DB is loaded into
// memory (reads[-1]) and the two desired fields are crammed into the first two
// integer spaces of the record.
char *path; // Root name of DB for .bps, .qvs, and tracks
int loaded; // Are reads loaded in memory?
void *bases; // file pointer for bases file (to fetch reads from),
// or memory pointer to uncompressed block of all sequences.
DAZZ_READ *reads; // Array [-1..nreads] of DAZZ_READ
DAZZ_TRACK *tracks; // Linked list of loaded tracks
} DAZZ_DB;
/*******************************************************************************************
*
* DB STUB FILE FORMAT = NFILE FDATA^nfile NBLOCK PARAMS BDATA^nblock
*
********************************************************************************************/
#define MAX_NAME 10000 // Longest file name or fasta header line
#define DB_NFILE "files = %9d\n" // number of files
#define DB_FDATA " %9d %s %s\n" // last read index + 1, fasta prolog, file name
#define DB_NBLOCK "blocks = %9d\n" // number of blocks
#define DB_PARAMS "size = %11lld cutoff = %9d all = %1d\n" // block size, len cutoff, all in well
#define DB_BDATA " %9d %9d\n" // First read index (untrimmed), first read index (trimmed)
// Read the specified contents of the DB stub file at "path" and return it encoded in a DAZZ_STUB
// structure. This is allocated by the routine. "path" is assumed to be the complete
// name of the file. If all flags are off, then just the scalar parts of the stub
// are returned (i.e. nfiles, all, cutoff, bsize, nblocks). Returns NULL if an error
// occured in INTERACTIVE mode
#define DB_STUB_NREADS 0x1
#define DB_STUB_FILES 0x2
#define DB_STUB_PROLOGS 0x4
#define DB_STUB_BLOCKS 0x8
DAZZ_STUB *Read_DB_Stub(char *path, int what);
// Read the DB stub file "path" and extract the read index range [*first,*last)
// for block n, for the trimmed DB if trim is set, the untrimmed DB otherwise.
// If n is out of range first and last will be set to -1. Returns 0 unless
// an error occurs in INTERACTIVE mode in which case it returns 1.
int Fetch_Block_Range(char *path, int trim, int n, int *first, int *last);
// Free a DAZZ_STUB data structure returned by Read_DB_Stub
void Free_DB_Stub(DAZZ_STUB *stub);
/*******************************************************************************************
*
* DB ROUTINES
*
********************************************************************************************/
// Suppose DB is the name of an original database. Then there will be files .DB.idx, .DB.bps,
// .DB.qvs, and files .DB.<track>.anno and DB.<track>.data where <track> is a track name
// (not containing a . !).
// A DAM is basically a DB except that:
// 1. there are no QV's, instead .coff points to the '\0' terminated fasta header of the read
// in an additional file: .DB.hdr
// 2. .origin contains the contig # of the read within a fasta entry (assembly sequences
// contain N-separated contigs), and .fpulse the first base of the contig in the
// fasta entry
// Open the given database or dam, "path", into the supplied DAZZ_DB record "db". If the name has
// a part # in it then just the part is opened. The index array is allocated (for all or
// just the part) and read in.
// Return status of routine:
// -1: The DB could not be opened for a reason reported by the routine to EPLACE
// 0: Open of DB proceeded without mishap
// 1: Open of DAM proceeded without mishap
int Open_DB(char *path, DAZZ_DB *db);
// Trim the DB or part thereof and all loaded tracks according to the cutoff and all settings
// of the current DB partition. Reallocate smaller memory blocks for the information kept
// for the retained reads.
void Trim_DB(DAZZ_DB *db);
// Return the size in bytes of the given DB
int64 sizeof_DB(DAZZ_DB *db);
// For the DB or DAM "path" = "prefix/root.[db|dam]", find all the files for that DB, i.e. all
// those of the form "prefix/[.]root.part" and call actor with the complete path to each file
// pointed at by path, and the suffix of the path by extension. The . proceeds the root
// name if the defined constant HIDE_FILES is set. Always the first call is with the
// path "prefix/root.[db|dam]" and extension "db" or "dam". There will always be calls for
// "prefix/[.]root.idx" and "prefix/[.]root.bps". All other calls are for *tracks* and
// so this routine gives one a way to know all the tracks associated with a given DB.
// -1 is returned if the path could not be found, and 1 is returned if an error (reported
// to EPLACE) occured and INTERACTIVE is defined. Otherwise a 0 is returned.
int List_DB_Files(char *path, void actor(char *path, char *extension));
// Shut down an open 'db' by freeing all associated space, including tracks and QV structures,
// and any open file pointers. The record pointed at by db however remains (the user
// supplied it and so should free it).
void Close_DB(DAZZ_DB *db);
/*******************************************************************************************
*
* READ ROUTINES
*
********************************************************************************************/
// Allocate and return a buffer big enough for the largest read in 'db'.
// **NB** free(x-1) if x is the value returned as *prefix* and suffix '\0'(4)-byte
// are needed by the alignment algorithms. If cannot allocate memory then return NULL
// if INTERACTIVE is defined, or print error to stderr and exit otherwise.
char *New_Read_Buffer(DAZZ_DB *db);
// Load into 'read' the i'th read in 'db'. As a lower case ascii string if ascii is 1, an
// upper case ascii string if ascii is 2, and a numeric string over 0(A), 1(C), 2(G), and 3(T)
// otherwise. A '\0' (or 4) is prepended and appended to the string so it has a delimeter
// for traversals in either direction. A non-zero value is returned if an error occured
// and INTERACTIVE is defined.
int Load_Read(DAZZ_DB *db, int i, char *read, int ascii);
// Load into 'read' the subread [beg,end] of the i'th read in 'db' and return a pointer to the
// the start of the subinterval (not necessarily = to read !!! ). As a lower case ascii
// string if ascii is 1, an upper case ascii string if ascii is 2, and a numeric string
// over 0(A), 1(C), 2(G), and 3(T) otherwise. A '\0' (or 4) is prepended and appended to
// the string holding the substring so it has a delimeter for traversals in either direction.
// A NULL pointer is returned if an error occured and INTERACTIVE is defined.
char *Load_Subread(DAZZ_DB *db, int i, int beg, int end, char *read, int ascii);
// Allocate a block big enough for all the uncompressed read sequences and read and uncompress
// the reads into it, reset the 'boff' in each read record to be its in-memory offset,
// and set the bases pointer to point at the block after closing the bases file. Return
// with a zero, except when an error occurs and INTERACTIVE is defined in which
// case return wtih 1.
int Load_All_Reads(DAZZ_DB *db, int ascii);
/*******************************************************************************************
*
* ARROW ROUTINES
*
********************************************************************************************/
// If the Arrow pseudo track is not already in db's track list, then load it and set it up.
// The database reads must not have been loaded with Load_All_Reads yet.
// -1 is returned if a .arw file is not present, and 1 is returned if an error (reported
// to EPLACE) occured and INTERACTIVE is defined. Otherwise a 0 is returned.
int Open_Arrow(DAZZ_DB *db);
// Exactly the same as Load_Read, save the arrow information is loaded, not the DNA sequence,
// and there is only a choice between numeric (0) or ascii (1);
int Load_Arrow(DAZZ_DB *db, int i, char *read, int ascii);
// Allocate a block big enough for all the uncompressed Arrow vectors, read them into it,
// reset the 'off' in each arrow record to be its in-memory offset, and set the
// arrow pointer to point at the block after closing the arrow file. If ascii is
// non-zero then the arrows are converted to 0123 ascii, otherwise the arrows are left
// as numeric strings over [0-3].
int Load_All_Arrows(DAZZ_DB *db, int ascii);
// Remove the Arrow pseudo track, all space associated with it, and close the .arw file.
void Close_Arrow(DAZZ_DB *);
/*******************************************************************************************
*
* TRACK ROUTINES
*
********************************************************************************************/
// Look up the file and header in the file of the indicated track. Return:
// 1: Track is for trimmed DB
// 0: Track is for untrimmed DB
// -1: Track is not the right size of DB either trimmed or untrimmed
// -2: Could not find the track
// -3: Error return (if INTERACTIVE mode only)
// In addition, if opened (0 or 1 returned), then kind points at an integer indicating
// the type of track as follows:
// CUSTOM 0 => a custom track
// MASK 1 => a mask track
#define CUSTOM_TRACK 0
#define MASK_TRACK 1
int Check_Track(DAZZ_DB *db, char *track, int *kind);
// If track is not already in the db's track list, then allocate all the storage for the anno
// index, read it in from the appropriate file, add it to the track list, and return a pointer
// to the newly created DAZZ_TRACK record. If the track does not exist or cannot be
// opened for some reason, then NULL is returned if INTERACTIVE is defined. Otherwise
// the routine prints an error message to stderr and exits if an error occurs, and returns
// with NULL only if the track does not exist.
DAZZ_TRACK *Open_Track(DAZZ_DB *db, char *track);
// Allocate a data buffer large enough to hold the longest read data block that will occur
// in the track. If cannot allocate memory then return NULL if INTERACTIVE is defined,
// or print error to stderr and exit otherwise.
void *New_Track_Buffer(DAZZ_TRACK *track);
// Load into 'data' the read data block for read i's "track" data. Return the length of
// the data in bytes, unless an error occurs and INTERACTIVE is defined in which case
// return wtih -1.
int Load_Track_Data(DAZZ_TRACK *track, int i, void *data);
// Allocate a block big enough for all the track data and read the data into it,
// reset the 'off' in each anno pointer to be its in-memory offset, and set the
// data pointer to point at the block after closing the data file. Return with a
// zero, except when an error occurs and INTERACTIVE is defined in which
// case return wtih 1.
int Load_All_Track_Data(DAZZ_TRACK *track);
// Assumming file pointer for afile is correctly positioned at the start of an extra item,
// and aname is the name of the .anno file, decode the value present and place it in
// extra if extra->nelem == 0, otherwise reduce the value just read into extra according
// according to the directive given by 'accum'. Leave the read pointer at the next
// extra or end-of-file.
// Returns:
// 1 if at the end of file,
// 0 if item was read and folded correctly,
// -1 if there was a system IO or allocation error (if interactive), and
// -2 if the new value could not be reduced into the current value of extra (interactive)
int Read_Extra(FILE *afile, char *aname, DAZZ_EXTRA *extra);
// Write extra record to end of file afile and advance write pointer
// If interactive, then return non-zero on error, if batch, then print
// and halt if an error
int Write_Extra(FILE *afile, DAZZ_EXTRA *extra);
// If track is on the db's track list, then it is removed and all storage associated with it
// is freed.
void Close_Track(DAZZ_DB *db, DAZZ_TRACK *track);
/*******************************************************************************************
*
* QV ROUTINES
*
********************************************************************************************/
// If QV pseudo track is not already in db's track list, then load it and set it up.
// The database must not have been trimmed yet. -1 is returned if a .qvs file is not
// present, and 1 is returned if an error (reported to EPLACE) occured and INTERACTIVE
// is defined. Otherwise a 0 is returned.
int Open_QVs(DAZZ_DB *db);
// Allocate a set of 5 vectors large enough to hold the longest QV stream that will occur
// in the database. If cannot allocate memory then return NULL if INTERACTIVE is defined,
// or print error to stderr and exit otherwise.
#define DEL_QV 0 // The deletion QVs are x[DEL_QV] if x is the buffer returned by New_QV_Buffer
#define DEL_TAG 1 // The deleted characters
#define INS_QV 2 // The insertion QVs
#define SUB_QV 3 // The substitution QVs
#define MRG_QV 4 // The merge QVs
char **New_QV_Buffer(DAZZ_DB *db);
// Load into 'entry' the 5 QV vectors for i'th read in 'db'. The deletion tag or characters
// are converted to a numeric or upper/lower case ascii string as per ascii. Return with
// a zero, except when an error occurs and INTERACTIVE is defined in which case return wtih 1.
int Load_QVentry(DAZZ_DB *db, int i, char **entry, int ascii);
// Remove the QV pseudo track, all space associated with it, and close the .qvs file.
void Close_QVs(DAZZ_DB *db);
/*******************************************************************************************
*
* @-SIGN EXPANSION ROUTINES
*
********************************************************************************************/
// Take a command line argument and interpret the '@' block number ranges.
// Parse_Block_[LAS,DB]_Arg produces a Block_Looper iterator object that can then
// be invoked multiple times to iterate through all the file names implied by
// the @ pattern/range. Next_Block_Slice returns a string encoding the next
// slice files represented by an @-notation, and advances the iterator by
// that many files.
typedef void Block_Looper;
Block_Looper *Parse_Block_LAS_Arg(char *arg);
Block_Looper *Parse_Block_DB_Arg(char *arg);
int Next_Block_Exists(Block_Looper *e_parse);
FILE *Next_Block_Arg(Block_Looper *e_parse);
void Reset_Block_Arg(Block_Looper *e_parse); // Reset iterator to first file
int Advance_Block_Arg(Block_Looper *e_parse); // Advance iterator to next file, 0 if none
void Free_Block_Arg(Block_Looper *e_parse); // Free the iterator
char *Next_Block_Slice(Block_Looper *e_parse,int slice);
char *Block_Arg_Path(Block_Looper *e_parse); // Path of current file, must free
char *Block_Arg_Root(Block_Looper *e_parse); // Root name of current file, must free
#endif // _DAZZ_DB