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QV.h
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QV.h
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/*******************************************************************************************
*
* Compressor/decompressor for .quiv files: customized Huffman codes for each stream based on
* the histogram of values occuring in a given file. The two low complexity streams
* (deletionQV and substitutionQV) use a Huffman coding of the run length of the prevelant
* character.
*
* Author: Gene Myers
* Date: Jan 18, 2014
* Modified: July 25, 2014
*
********************************************************************************************/
#ifndef _QV_COMPRESSOR
#include <stdio.h>
#define _QV_COMPRESSOR
// The defined constant INTERACTIVE (set in DB.h) determines whether an interactive or
// batch version of the routines in this library are compiled. In batch mode, routines
// print an error message and exit. In interactive mode, the routines place the error
// message in EPLACE (also defined in DB.h) and return an error value, typically NULL
// if the routine returns a pointer, and an unusual integer value if the routine returns
// an integer.
// Below when an error return is described, one should understand that this value is returned
// only if the routine was compiled in INTERACTIVE mode.
// A PacBio compression scheme
typedef struct
{ void *delScheme; // Huffman scheme for deletion QVs
void *insScheme; // Huffman scheme for insertion QVs
void *mrgScheme; // Huffman scheme for merge QVs
void *subScheme; // Huffman scheme for substitution QVs
void *dRunScheme; // Huffman scheme for deletion run lengths (if delChar > 0)
void *sRunScheme; // Huffman scheme for substitution run lengths (if subChar > 0)
int delChar; // If > 0, run-encoded deletion value
int subChar; // If > 0, run-encoded substitution value
int flip; // Need to flip multi-byte integers
char *prefix; // Header line prefix
} QVcoding;
// Read the next nlines of input, and QVentry returns a pointer to the first line if needed.
// If end-of-input is encountered before any further input, -1 is returned. If there is
// an error than -2 is returned. Otherwise the length of the line(s) read is returned.
int Read_Lines(FILE *input, int nlines);
char *QVentry();
// Get and set the line counter for error reporting
void Set_QV_Line(int line);
int Get_QV_Line();
// Read up to the next num entries or until eof from the .quiva file on input and record
// frequency statistics. Copy these entries to the temporary file temp if != NULL.
// If there is an error then -1 is returned, otherwise the number of entries read.
int QVcoding_Scan(FILE *input, int num, FILE *temp);
void QVcoding_Scan1(int rlen, char *del, char *tag, char *ins, char *mrg, char *sub);
// Given QVcoding_Scan has been called at least once, create an encoding scheme based on
// the accumulated statistics and return a pointer to it. The returned encoding object
// is *statically allocated within the routine. If lossy is set then use a lossy scaling
// for the insertion and merge streams. If there is an error, then NULL is returned.
QVcoding *Create_QVcoding(int lossy);
// Read/write a coding scheme to input/output. The encoding object returned by the reader
// is *statically* allocated within the routine. If an error occurs while reading then
// NULL is returned.
QVcoding *Read_QVcoding(FILE *input);
void Write_QVcoding(FILE *output, QVcoding *coding);
// Free all the auxiliary storage associated with coding (but not the object itself!)
void Free_QVcoding(QVcoding *coding);
// Assuming the file pointer is positioned just beyond an entry header line, read the
// next set of 5 QV lines, compress them according to 'coding', and output. If lossy
// is set then the scheme is a lossy one. A negative value is returned if an error
// occurred, and the sequence length otherwise.
int Compress_Next_QVentry(FILE *input, FILE *output, QVcoding *coding, int lossy);
void Compress_Next_QVentry1(int rlen, char *del, char *tag, char *ins, char *mrg, char *sub,
FILE *output, QVcoding *coding, int lossy);
// Assuming the input is position just beyond the compressed encoding of an entry header,
// read the set of compressed encodings for the ensuing 5 QV vectors, decompress them,
// and place their decompressed values into entry which is a 5 element array of character
// pointers. The parameter rlen computed from the preceeding header line, critically
// provides the length of each of the 5 vectors. A non-zero value is return only if an
// error occured.
int Uncompress_Next_QVentry(FILE *input, char **entry, QVcoding *coding, int rlen);
#endif // _QV_COMPRESSOR