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ONElib.h
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ONElib.h
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/******************************************************************************************
*
* File: ONElib.h
* Header for ONE file reading and writing
*
* Authors: Richard Durbin (rd109@cam.ac.uk), Gene Myers (myers@mpi-cbg.de)
* Copyright (C) Richard Durbin, Gene Myers, 2019-
*
* HISTORY:
* Last edited: Dec 3 06:08 2022 (rd109)
* * Dec 3 06:01 2022 (rd109): remove oneWriteHeader(), switch to stdarg for oneWriteComment etc.
* * Dec 27 09:46 2019 (gene): style edits
* * Created: Sat Feb 23 10:12:43 2019 (rd109)
*
*****************************************************************************************/
#ifndef ONE_DEFINED
#define ONE_DEFINED
#include <stdio.h> // for FILE etc.
#include <stdarg.h> // for formatted writing in oneWriteComment(), oneAddProvenance()
#include <inttypes.h> // for standard size int types and their PRI print macros
#include <stdbool.h> // for standard bool types
#include <limits.h> // for INT_MAX etc.
#include <pthread.h>
/***********************************************************************************
*
* DATA TYPES
*
**********************************************************************************/
// Basic Types
#ifndef U8_DEFINED
#define U8_DEFINED
typedef int8_t I8;
typedef int16_t I16;
typedef int32_t I32;
typedef int64_t I64;
typedef unsigned char U8;
#endif // U8_DEFINED
typedef enum { oneINT = 1, oneREAL, oneCHAR, oneSTRING,
oneINT_LIST, oneREAL_LIST, oneSTRING_LIST, oneDNA } OneType;
extern char* oneTypeString[] ;
// = { 0, "INT", "REAL", "CHAR", "STRING", "INT_LIST", "REAL_LIST", "STRING_LIST", "DNA" } ;
typedef union
{ I64 i;
double r;
char c;
I64 len; // For lists : top 8 bits encode excess bytes, low 56 length
} OneField;
typedef struct
{ char *program;
char *version;
char *command;
char *date;
} OneProvenance;
typedef struct
{ char *filename;
I64 count;
} OneReference;
typedef struct
{ I64 count;
I64 max;
I64 total;
I64 groupCount;
I64 groupTotal;
} OneCounts;
// OneCodecs are a private package for binary one file compression
typedef void OneCodec; // forward declaration of opaque type for compression codecs
// DNAcodec is a special pre-existing compressor one should use for DNA.
// It compresses every base to 2-bits, where any non-ACGT letter is
// effectively converted to an A. Compression is case insensitive,
// but decompression always delivers lower-case.
extern OneCodec *DNAcodec;
// Record for a particular line type. There is at most one list element.
typedef struct
{ OneCounts accum; // counts read or written to this moment
OneCounts given; // counts read from header
I64 gCount; // used internally to calculate groupCount and groupTotal
I64 gTotal;
I64 oCount; // # of objects in prefix before first group (if any)
I64 oTotal; // + of objects in prefix (these 2 are for thread parallel apps)
int nField; // number of fields
OneType *fieldType; // type of each field
int listEltSize; // size of list field elements (if present, else 0)
int listField; // field index of list
char *comment; // the comment on the definition line in the schema
bool isUserBuf; // flag for whether buffer is owned by user
I64 bufSize; // system buffer and size if not user supplied
void *buffer;
OneCodec *listCodec; // compression codec and flags
bool isUseListCodec; // on once enough data collected to train associated codec
char binaryTypePack; // binary code for line type, bit 8 set.
// bit 0: list compressed
I64 listTack; // accumulated training data for this threads codeCodec (master)
} OneInfo;
// the schema type - the first record is the header spec, then a linked list of primary classes
typedef struct OneSchema
{
char *primary ;
int nSecondary ;
char **secondary ;
OneInfo *info[128] ;
int nFieldMax ;
char objectType ;
char groupType ;
struct OneSchema *nxt ;
} OneSchema ;
typedef struct OneHeaderText
{ char *text ;
struct OneHeaderText *nxt ;
} OneHeaderText ;
// The main OneFile type - this is the primary handle used by the end user
typedef struct
{
// this field may be set by the user
bool isCheckString; // set if want to validate string char by char
// these fields may be read by user - but don't change them!
char *fileType;
char *subType;
char lineType; // current lineType
char objectType; // line designation character for primary objects
char groupType; // line designation character for groups (optional)
I64 line; // current line number
I64 byte; // current byte position when writing binary
I64 object; // current object - incremented when object line read
I64 group; // current group - incremented when group line read
OneProvenance *provenance; // if non-zero then count['!'] entries
OneReference *reference; // if non-zero then count['<'] entries
OneReference *deferred; // if non-zero then count['>'] entries
OneField *field; // used to hold the current line - accessed by macros
OneInfo *info[128]; // all the per-linetype information
I64 codecTrainingSize; // amount of data to see before building codec
// fields below here are private to the package
FILE *f;
bool isWrite; // true if open for writing
bool isHeaderOut; // true if header already written
bool isBinary; // true if writing a binary file
bool inGroup; // set once inside a group
bool isLastLineBinary; // needed to deal with newlines on ascii files
bool isIndexIn; // index read in
bool isBig; // are we on a big-endian machine?
bool isNoAsciiHeader; // backdoor for ONEview to avoid writing header in ascii
char lineBuf[128]; // working buffers
char numberBuf[32];
int nFieldMax;
I64 codecBufSize;
char *codecBuf;
I64 nBits; // number of bits of list currently in codecBuf
I64 intListBytes; // number of bytes per integer in the compacted INT_LIST
I64 linePos; // current line position
OneHeaderText *headerText; // arbitrary descriptive text that goes with the header
char binaryTypeUnpack[256]; // invert binary line code to ASCII line character.
int share; // index if slave of threaded write, +nthreads > 0 if master
int isFinal; // oneFinalizeCounts has been called on file
pthread_mutex_t fieldLock; // Mutexs to protect training accumumulation stats when threadded
pthread_mutex_t listLock;
} OneFile; // the footer will be in the concatenated result.
/***********************************************************************************
*
* ROUTINES FOR READING & WRITING ONE FILES IN BOTH ASCII & BINARY (TRANSPARENTLY)
*
**********************************************************************************/
// CREATING AND DESTROYING SCHEMAS
OneSchema *oneSchemaCreateFromFile (char *path) ;
OneSchema *oneSchemaCreateFromText (char *text) ;
// These functions create a schema handle that can be used to open One-code data files
// for reading and writing. A schema file is itself a One-code file, consisting of
// a set of objects, one per primary file type. Valid lines in this file are:
// P <primary file type> // a short string
// S <secondary file type> // a short string - any number of these
// O <char> <field_list> // definition of object type
// G <char> <field_list> // definition of group type - first field must be an int
// D <char> <field_list> // definition of line
// <char> must be a lower or upper case letter.
// <field_list> is a list of field types from:
// CHAR, INT, REAL, STRING, INT_LIST, REAL_LIST, STRING_LIST, DNA
// Only one list type (STRING, *_LIST or DNA) is allowed per line type.
// All the D lines following an O line apply to that object type.
// By convention comments on each line explain the definition.
// Example, with lists and strings preceded by their length in OneCode style
// P 3 seq this is a sequence file
// O S 1 3 DNA the DNA sequence - each S line starts an object
// D Q 1 6 STRING the phred encoded quality score + ASCII 33
// D N 4 4 REAL 4 REAL 4 REAL 4 REAL signal to noise ratio in A, C, G, T channels
// G g 2 3 INT 6 STRING group designator: number of objects, name
// The ...FromText() alternative writes the text to a temp file and reads it with
// oneSchemaCreateFromFile(). This allows code to set the schema.
// Internally a schema is a linked list of OneSchema objects, with the first holding
// the (hard-coded) schema for the header and footer, and the remainder each
// corresponding to one primary file type.
void oneSchemaDestroy (OneSchema *schema) ;
// READING ONE FILES:
OneFile *oneFileOpenRead (const char *path, OneSchema *schema, char *type, int nthreads) ;
// Open ONE file 'path', either binary or ascii encoded, for reading.
// If the file doesn't have a header, then 'type' must be specified,
// otherwise, if 'type' is non-zero it must match the header type.
// All header information (if present) is read.
// 'schema' is also optional. If it is NULL then the file must contain its own schema.
// If 'schema' is present then it must support 'type', and if the file contains its
// own schema, then that must be a subset of the one for this type in 'schema'.
// If nthreads > 1 then nthreadds OneFiles are generated as an array and the pointer
// to the first, called the master, is returned. The other nthreads-1 files are
// called slaves. The package routines are aware of when a OneFile argument is a
// slave or master in a parallel group. The master recieves provenance, counts, etc.
// The slaves only read data and have the virtue of sharing indices and codecs with
// the master if relevant.
bool oneFileCheckSchema (OneFile *vf, char *textSchema) ;
// Checks if file schema is consistent with text schema. Mismatches are reported to stderr.
// Filetype and all linetypes in text must match. File schema can contain additional linetypes.
// e.g. if (! oneFileCheckSchema (vf, "P 3 seq\nD S 1 3 DNA\nD Q 1 6 STRING\nD P 0\n")) die () ;
// This is provided to enable a program to ensure that its assumptions about data layout
// are satisfied.
char oneReadLine (OneFile *vf) ;
// Read the next ONE formatted line returning the line type of the line, or 0
// if at the end of the data section. The content macros immediately below are
// used to access the information of the line most recently read.
void *_oneList (OneFile *vf) ; // lazy codec decompression if required
void *_oneCompressedList (OneFile *vf) ; // lazy codec compression if required
#define oneInt(vf,x) ((vf)->field[x].i)
#define oneReal(vf,x) ((vf)->field[x].r)
#define oneChar(vf,x) ((vf)->field[x].c)
#define _LF(vf) ((vf)->info[(int)(vf)->lineType]->listField)
#define oneLen(vf) ((vf)->field[_LF(vf)].len & 0xffffffffffffffll)
#define oneString(vf) (char *) _oneList(vf)
#define oneDNAchar(vf) (char *) _oneList(vf)
#define oneDNA2bit(vf) (U8 *) _oneCompressedList(vf)
#define oneIntList(vf) (I64 *) _oneList(vf)
#define oneRealList(vf) (double *) _oneList(vf)
#define oneNextString(vf,s) (s + strlen(s) + 1)
// Access field information. The index x of a list object is not required as there is
// only one list per line, stored in ->buffer.
// A "string list" is implicitly supported, get the first string with oneString, and
// subsequent strings sequentially with oneNextString, e.g.:
//
// char *s = oneString(vf);
// for (i = 0; i < oneLen(vf); i++)
// { // do something with i'th string
// s = oneNextString(vf,s);
// }
char *oneReadComment (OneFile *vf);
// Can be called after oneReadLine() to read any optional comment text after the fixed fields.
// Returns NULL if there is no comment.
// WRITING ONE FILES:
OneFile *oneFileOpenWriteNew (const char *path, OneSchema *schema, char *type,
bool isBinary, int nthreads);
OneFile *oneFileOpenWriteFrom (const char *path, OneFile *vfIn,
bool isBinary, int nthreads);
// Create a new oneFile that will be written to 'path'. For the 'New' variant supply
// the file type, subtype (if non-zero), and whether it should be binary or ASCII.
// For the 'From' variant, specify binary or ASCII, schema and all other header
// information is inherited from 'vfIn', where the count stats are from vfIn's
// accumulation (assumes vfIn has been fully read or written) if 'useAccum is true,
// and from vfIn's header otherwise.
// If nthreads > 1 then nthreads OneFiles are generated as an array and the pointer
// to the first, called the master, is returned. The other nthreads-1 files are
// called slaves. The package routines are aware of when a OneFile argument is a
// slave or master in a parallel group. The slaves are expected to only write data
// lines, with the master adding provenance, producing the header, and then some
// segment of the initial data lines. Upon close the final result is effectively
// the concatenation of the master, followed by the output of each slave in sequence.
bool oneInheritProvenance (OneFile *vf, OneFile *source);
bool oneInheritReference (OneFile *vf, OneFile *source);
bool oneInheritDeferred (OneFile *vf, OneFile *source);
// Add all provenance/reference/deferred entries in source to header of vf. Must be
// called before first call to oneWriteLine.
bool oneAddProvenance (OneFile *vf, char *prog, char *version, char *format, ...);
bool oneAddReference (OneFile *vf, char *filename, I64 count);
bool oneAddDeferred (OneFile *vf, char *filename);
// Append provenance/reference/deferred to header information. Must be called before
// first call to oneWriteLine.
// For ASCII output, if you want the header to contain count information then you must
// create and fill the relevant OneCounts objects before the first call to oneWriteLine.
// For BINARY output, the OneCounts information is accumulated and written automatically.
void oneWriteLine (OneFile *vf, char lineType, I64 listLen, void *listBuf);
// Set up a line for output just as it would be returned by oneReadLine and then call
// this routine to output the line (ASCII or binary).
// Use the macros above on the l.h.s. of assignments to fill fields (e.g. oneInt(vf,2) = 3).
// For lists, give the length in the listLen argument, and either place the list data in your
// own buffer and give it as listBuf, or put in the line's buffer and set listBuf == NULL.
void oneWriteLineFrom (OneFile *vf, OneFile *source) ; // copies a line from source into vf
void oneWriteLineDNA2bit (OneFile *vf, char lineType, I64 listLen, U8 *dnaBuf);
// Minor variants of oneWriteLine().
// Use oneWriteLineDNA2bit for DNA lists if your DNA is already 2-bit compressed.
void oneWriteComment (OneFile *vf, char *format, ...); // can not include newline \n chars
// Adds a comment to the current line. Extends line in ascii, adds special line type in binary.
// CLOSING FILES (FOR BOTH READ & WRITE)
void oneFileClose (OneFile *vf);
// Close vf (opened either for reading or writing). Finalizes counts, merges theaded files,
// and writes footer if binary. Frees all non-user memory associated with vf.
// GOTO & BUFFER MANAGEMENT
void oneUserBuffer (OneFile *vf, char lineType, void *buffer);
// A buffer is used to capture the list element of each line type that has one.
// This routine allows you to reassign the buffer to one you've allocated, or
// to revert to a default system buffer if 'buffer' = NULL. The previous buffer
// (if any) is freed. The user must ensure that a buffer they supply is large
// enough. BTW, this buffer is overwritten with each new line read of the given type.
bool oneGotoObject (OneFile *vf, I64 i);
// Goto i'th object in the file. This only works on binary files, which have an index.
I64 oneGotoGroup (OneFile *vf, I64 i);
// Goto the first object in group i. Return the size (in objects) of the group, or 0
// if an error (i out of range or vf has not group type). Only works for binary files.
/***********************************************************************************
*
* A BIT ABOUT THE FORMAT OF BINARY FILES
*
**********************************************************************************/
// <bin file> <- <ASCII Prolog> <$-line> <binary data> <footer> <^-line> <footer-size:int64>
//
// '$'-line flags file is binary and gives endian
// The data block ends with a blank line consisting of '\n'
//
// EWM: Removed '-' line, simply write off_t to footer start
//
// <ASCII Prolog> <- <'1'-line> [<'2'-line>] ( <'!'-line> | <'<'-line> | <'>'-line> )*
//
// The ASCII prolog contains the type, subtype, provenance, reference, and deferred lines
// in the ASCII format. The ONE count statistic lines for each data line type are found
// in the footer along with binary ';' and ':' lines that encode their compressors as
// needed. The footer also contains binary '&' and '*' lines that encode the object index
// and group indices, respectively.
//
// <Binary line> <- <Binary line code + tags> <fields> [<list data>]
//
// Line codes are >= 128 for binary encoded lines. The low two order bits of these are flags,
// so each binary-encoded line type has 4 codes and a table maps these to the ASCII code.
// Bit 0 indicates if the fields of the line type are compressed, and Bit 1 indicates if
// the list data (if present) is compressed.
//
// If a field is a list, then the field array element for that field is the list's length
// where the low 56 bits encode length, and the high 8 bits encode the # of high-order
// 0-bytes in every list element if an INT_LIST (0 otherwise).
#endif // ONE_DEFINED
/******************* end of file **************/