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IO.h
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IO.h
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#ifndef _IO_H_
#define _IO_H_
#define UNUSED(x) ((void)(x))
#include <stdio.h> //fopen
#include <stdlib.h> //malloc
#include <string.h> //strchr
#include <assert.h> //assert
#include <stdarg.h> // va_list
#include <string>
#include <vector>
// cannot forward declare an typdef anonymous struct
// http://stackoverflow.com/questions/804894/forward-declaration-of-a-typedef-in-c
// so include the header file
#include "bgzf.h"
// #define IO_DEBUG
typedef enum FileType {
IO_PLAIN = 0,
IO_GZIP = 1,
IO_BGZIP = 3,
IO_UNKNOWN = 99
} FileType;
/**
* Sample usage:
* std::string line;
* LineReader* f = AbstractFileReader::open("abc");
* while (f->readLine(line) > 0) {
* ...
* }
* delete f;
*/
class AbstractFileReader{
public:
/* typedef enum FileType { */
/* PLAIN = 0, */
/* GZIP = 1, */
/* BZIP2 = 2, */
/* UNKNOWN = 99 */
/* } FileType; */
virtual ~AbstractFileReader() {}; // make it virtual so subclass types can close file handle
static AbstractFileReader* open(const char* fileName);
static void close(AbstractFileReader** f);
// virtual functions
// each specific file type will need to implement the following function
//virtual int readLine(std::string* line) = 0;
//virtual int readLineBySep(std::vector<std::string>* fields, const char* sep) = 0;
virtual int getc() = 0;
virtual bool isEof() = 0;
virtual void close() = 0;
virtual int read(void* buf, int len) = 0;
// common utility function
static FileType checkFileType(const char* fileName);
protected:
AbstractFileReader() {}; // forbid explicit create AbstractFileReader class.
};
class PlainFileReader: public AbstractFileReader{
public:
PlainFileReader(const char* fileName):
fp(NULL) {
this->open(fileName);
#ifdef IO_DEBUG
fprintf(stderr, "PlainFileReader() open %s\n", fileName);
#endif
};
virtual ~PlainFileReader() {
#ifdef IO_DEBUG
fprintf(stderr, "~PlainFileReader() close\n");
#endif
this->close();
};
// get a char, if EOF, return EOF
int getc(){
return ::getc(this->fp);
}
// check eof
bool isEof() {
return (feof(this->fp) != 0);
}
// open
FILE* open(const char* fileName) {
this->fp = fopen(fileName, "r");
if (!this->fp) {
fprintf(stderr, "ERROR: Cannot open %s\n", fileName);
}
return this->fp;
}
// close
void close() {
if (this->fp) {
fclose(fp);
fp = NULL;
}
}
int read(void* buf, int len) {
return ::fread(buf, sizeof(char), len, this->fp);
};
private:
FILE* fp;
};
//////////////////////////////////////////////////////////////////////
// Gzip reading class
#include <zlib.h>
class GzipFileReader: public AbstractFileReader{
public:
GzipFileReader(const char* fileName):
fp(NULL) {
this->open(fileName);
#ifdef IO_DEBUG
fprintf(stderr, "GzipFileReader() open %s\n", fileName);
#endif
};
virtual ~GzipFileReader() {
#ifdef IO_DEBUG
fprintf(stderr, "~PlainFileReader() close\n");
#endif
this->close();
};
// get a char, if EOF, return EOF
int getc(){
return gzgetc(this->fp);
}
// check eof
bool isEof() {
return (gzeof(this->fp) != 0);
}
// open
gzFile open(const char* fileName) {
this->fp = gzopen(fileName, "r");
if (!this->fp) {
fprintf(stderr, "ERROR: Cannot open %s\n", fileName);
}
return this->fp;
}
// close
void close() {
if (this->fp) {
gzclose(fp);
fp = NULL;
}
}
int read(void* buf, int len) {
return gzread(this->fp, buf, len);
};
private:
gzFile fp;
};
/*
//////////////////////////////////////////////////////////////////////
// Bzip2 reading class
#include <bzlib.h>
class Bzip2FileReader: public AbstractFileReader{
public:
Bzip2FileReader(const char* fileName):
fp(NULL) {
this->open(fileName);
#ifdef IO_DEBUG
fprintf(stderr, "Bzip2FileReader() open %s\n", fileName);
#endif
};
virtual ~Bzip2FileReader() {
#ifdef IO_DEBUG
fprintf(stderr, "~Bzip2FileReader() close\n");
#endif
if (this->fp) {
BZ2_bzclose(fp);
}
};
// get a char, if EOF, return EOF
int getc(){
char c;
this->bzerror = BZ_OK;
int nBuf = BZ2_bzRead(&this->bzerror, this->bzp, &c, sizeof(char));
UNUSED(nBuf);
if (this->bzerror == BZ_OK) {
return c;
} else {
return EOF;
}
}
// check eof
bool isEof() {
return (this->bzerror == BZ_STREAM_END);
}
// open
BZFILE* open(const char* fileName) {
this->fp = fopen(fileName, "rb");
if (!this->fp) {
fprintf(stderr, "ERROR: Cannot open %s\n", fileName);
return NULL;
}
this->bzp = BZ2_bzReadOpen(&this->bzerror, this->fp, 0, 0, NULL, 0);
if (this->bzerror != BZ_OK) {
BZ2_bzReadClose ( &bzerror, this->bzp );
fprintf(stderr, "ERROR: Cannot open %s\n", fileName);
return NULL;
}
return this->bzp;
}
// close
void close() {
if (this->bzerror != BZ_STREAM_END) {
BZ2_bzReadClose(&this->bzerror, this->bzp);
} else {
BZ2_bzReadClose(&this->bzerror, this->bzp);
}
if (this->fp) fclose(this->fp);
this->fp = NULL;
this->bzp = NULL;
this->bzerror = 0;
};
int read(void* buf, int len) {
return BZ2_bzRead ( &this->bzerror, this->bzp, buf, len);
};
private:
FILE* fp;
BZFILE* bzp;
int bzerror;
};
//////////////////////////////////////////////////////////////////////
*/
/**
* Example code:
BufferedReader br("Makefile", 200);
char buf[500] = {};
int nRead = 0;
while ( (nRead = br.read(buf, 500)) > 0) {
for (int i = 0; i < nRead; i++) {
printf("%c", buf[i]);
}
}
*/
class BufferedReader: public AbstractFileReader{
public:
BufferedReader(const char* fileName, int bufferCapacity):
bufCap(0),bufEnd(0),bufPtr(0),buf(NULL),fp(NULL) {
#ifdef IO_DEBUG
fprintf(stderr, "BufferedReader open %s\n", fileName);
#endif
// initialize buf
if (bufferCapacity == 0) {
fprintf(stderr, "Buffer size should be greater than 0, now use default buffer size 8096 instead of %d.\n", bufferCapacity);
this->bufCap = 8096;
} else {
this->bufCap = (int) (bufferCapacity);
}
this->buf = new char[this->bufCap];
if (!this->buf) {
fprintf(stderr, "Cannot allocate buffer for BufferedReader.\n");
return;
}
this->bufPtr = 0;
this->bufEnd = 0;
// initialize fp
this->fp = AbstractFileReader::open(fileName);
if (!this->fp) {
fprintf(stderr, "Canont open file %s\n", fileName);
this->fp = NULL;
}
}
virtual ~BufferedReader(){
this->close();
}
int getc() {
if (this->bufPtr == this->bufEnd) { //buffer all used, need to refresh
this->bufEnd = this->fp->read(this->buf, this->bufCap);
this->bufPtr = 0;
}
if (this->bufPtr < this->bufEnd)
return (this->buf [ this->bufPtr++ ] );
else
return EOF;
}
bool isEof() {
if (this->fp && this->fp->isEof() && this->bufPtr == this->bufEnd){
return true;
}
return false;
}
void close() {
#ifdef IO_DEBUG
fprintf(stderr, "BufferedReader close\n");
#endif
// delete fp
if (this->fp){
AbstractFileReader::close(&fp);
}
this->fp = NULL;
// delete buf
if (this->buf) {
delete [] this->buf;
this->buf = NULL;
this->bufCap = 0;
this->bufPtr = 0;
this->bufEnd = 0;
}
this->buf = NULL;
}
int read(void* buf, int len) {
// use current buffer to fill in buf
int idx = 0;
while (this->bufPtr < this->bufEnd && len > 0) {
((char*)buf)[idx++] = this->buf[this->bufPtr++];
len --;
}
if (len == 0) {
return idx;
}
// fill rest of buf
int nRead = this->fp->read(((char*)buf)+idx, len);
idx += nRead;
// refill buffer
this->bufEnd = this->fp->read(this->buf, this->bufCap);
this->bufPtr = 0;
return idx;
}
private:
int bufCap; // capacity of the buffer
int bufEnd; // bufPtr should not read beyond bufEnd(incluive)
int bufPtr; // from which buffer begins to read
char* buf;
AbstractFileReader* fp;
};
/** Example code:
// LineReader lr(fn);
// while(lr.readLine(&line)>0){
// fprintf(stdout, "%s\n", line.c_str());
// }
*/
class LineReader{
public:
LineReader(const std::string& fileName){
init(fileName.c_str());
}
LineReader(const char* fileName){
init(fileName);
}
void init(const char* fileName) {
#ifdef IO_DEBUG
fprintf(stderr, "LineReader open %s\n", fileName);
#endif
this->fp = new BufferedReader(fileName, 1024);
if (!this->fp) {
fprintf(stderr, "Canont open file %s\n", fileName);
this->fp = NULL;
}
}
LineReader(AbstractFileReader* fp) {
this->fp = fp;
}
virtual ~LineReader(){
if (this->fp){
fp->close();
delete this->fp;
this->fp = NULL;
}
#ifdef IO_DEBUG
fprintf(stderr, "LineReader close\n");
#endif
}
// return number of characters read.
// when reading an empty line, will return 1, as we read '\n', however, line will be empty
// when reading the end, we will return 0
int readLine(std::string* line) {
assert(this->fp && line);
if (this->fp->isEof()) return 0;
line->clear();
char c;
unsigned nRead = 0;
while (true) {
c = this->fp->getc();
if (c == EOF) {
return nRead;
} else if (c == '\r') {
// skip this
continue;
} else if (c == '\n') {
++nRead;
return nRead;
} else { // normal characters
++nRead;
line->push_back(c);
}
}
assert(false); // should not reach here
return 0;
};
// return number of fields read.
// when reading an empty line, will return 1, meaning 1 field are read, although its content is empty
// consecutive separators, e.g. \t\t, will yield empty field
// when reading to the EOF, will return 0.
int readLineBySep(std::vector<std::string>* fields, const char* sep) {
assert(this->fp && fields && sep);
if (this->fp->isEof()) return 0;
fields->clear();
char c;
std::string s;
while (true) {
c = this->fp->getc();
if (c == EOF) {
fields->push_back(s);
return fields->size();
} else if (c == '\r') {
// skip this
continue;
} else if (c == '\n') {
fields->push_back(s);
return fields->size();
} else if (strchr(sep, c) != NULL) { // separator
fields->push_back(s);
s.clear();
} else { // normal characters
s.push_back(c);
}
}
assert(false); // should not reach here
return 0;
};
private:
AbstractFileReader* fp;
};
/**
* @return number of empty elements filtered out
*/
extern int removeEmptyField(std::vector<std::string>* fields);
//////////////////////////////////////////////////////////////////////
// FileWriter related classes
class AbstractFileWriter{
public:
/// when open is successful, return 0; else: return non-zero
virtual int open(const char* fn, bool append = false) = 0;
virtual void close() = 0;
virtual int write(const char* s) = 0;
virtual int writeLine(const char* s) = 0;
virtual ~AbstractFileWriter() = 0;
};
class TextFileWriter:public AbstractFileWriter{
public:
TextFileWriter(const char* fn, bool append = false){
if (this->open(fn, append)){
fprintf(stderr, "Cannot create text file %s\n", fn);
}
}
virtual ~TextFileWriter(){
#ifdef IO_DEBUG
fprintf(stderr, "TextFileWriter desc()\n");
#endif
this->close();
}
int open(const char* fn, bool append = false){
if (append)
this->fp = fopen(fn, "a");
else
this->fp = fopen(fn, "w");
if (!this->fp) {
fprintf(stderr, "ERROR: Cannot open %s for write\n", fn);
return -1;
}
return 0;
}
void close(){
if (this->fp) {
fclose(this->fp);
this->fp = NULL;
}
};
int write(const char* s) {
return fputs(s, this->fp);
};
int writeLine(const char* s) {
int ret = fputs(s, this->fp);
fputc('\n', this->fp);
return (ret + 1);
};
int printf(const char *fmt, ...){
va_list args;
va_start(args,fmt);
int ret = vfprintf(fp, fmt, args);
va_end(args);
return ret;
};
private:
FILE* fp;
}; // end TextFileWriter
class GzipFileWriter:public AbstractFileWriter{
public:
GzipFileWriter(const char* fn, bool append = false){
if (this->open(fn, append)){
fprintf(stderr, "Cannot create gzip file %s\n", fn);
}
}
virtual ~GzipFileWriter(){
this->close();
#ifdef IO_DEBUG
fprintf(stderr, "GzipFileWriter desc()\n");
#endif
};
int open(const char* fn, bool append = false){
if (append)
fprintf(stderr, "Gzip does not support appending.\n");
this->fp = gzopen(fn, "wb");
if (!this->fp) {
fprintf(stderr, "ERROR: Cannot open %s for write\n", fn);
return -1;
}
return 0;
}
void close(){
if (this->fp) {
gzclose(this->fp);
this->fp = NULL;
}
};
int write(const char* s) {
return gzputs(this->fp, s);
};
int writeLine(const char* s) {
int ret = gzputs(this->fp, s);
gzputc(this->fp, '\n');
return (ret + 1);
};
private:
gzFile fp;
}; // end GzipFileWriter
/*
class Bzip2FileWriter:public AbstractFileWriter{
public:
Bzip2FileWriter(const char* fn, bool append = false){
if (this->open(fn, append)){
fprintf(stderr, "Cannot create bzip2 file %s\n", fn);
}
}
virtual ~Bzip2FileWriter(){
this->close();
#ifdef IO_DEBUG
fprintf(stderr, "Bzip2FileWriter desc()\n");
#endif
};
int open(const char* fn, bool append = false){
if (append)
fprintf(stderr, "bzip2 does not support appending.\n");
this->fp = fopen(fn, "wb");
if (fp == NULL) return -1;
this->bzp = BZ2_bzWriteOpen(&this->bzerror, this->fp, 9, 0, 30); //block size is 9, 0 means silent, 30 means working factor
if (this->bzerror != BZ_OK) {
BZ2_bzWriteClose( & bzerror, this->bzp, 0, 0, 0); // 0: abandon, 0: results of # of bytes for input, 0: results of # of bytes outputted.
fprintf(stderr, "ERROR: Cannot open %s for write\n", fn);
return -1;
}
return 0;
}
void close(){
BZ2_bzWriteClose(&bzerror, this->bzp, 0, 0, 0);
if (bzerror != BZ_OK){
};
if (this->fp) fclose(this->fp);
this->bzp = NULL;
this->fp = NULL;
};
int write(const char* s) {
int ret = strlen(s);
BZ2_bzWrite(&this->bzerror, this->bzp, (void*)s, ret);
if (this->bzerror != BZ_OK) {
this->close();
return -1;
}
return ret;
};
int writeLine(const char* s) {
int ret = strlen(s);
BZ2_bzWrite(&this->bzerror, this->bzp, (void*)s, ret);
if (this->bzerror != BZ_OK) {
this->close();
return -1;
}
char buf[] = "\n";
BZ2_bzWrite(&this->bzerror, this->bzp, buf, 1);
if (this->bzerror != BZ_OK) {
this->close();
return -1;
}
return (ret + 1);
};
private:
FILE* fp;
BZFILE* bzp;
int bzerror;
}; // end Bzip2FileWriter
*/
class BGZipFileWriter:public AbstractFileWriter{
public:
BGZipFileWriter(const char* fn, bool append = false){
if (this->open(fn)){
fprintf(stderr, "Cannot create BGzip file %s\n", fn);
}
}
virtual ~BGZipFileWriter(){
this->close();
#ifdef IO_DEBUG
fprintf(stderr, "BGZipFileWriter desc()\n");
#endif
};
/**
* @param append: ignored
*/
int open(const char* fn, bool append = false);
void close();
int write(const char* s);
int writeLine(const char* s);
private:
BGZF* fp;
}; // end BGZipFileWriter
#define DEFAULT_WRITER_BUFFER 4096
class BufferedFileWriter: public AbstractFileWriter{
public:
BufferedFileWriter(AbstractFileWriter* f, int bufLen = DEFAULT_WRITER_BUFFER){
this->bufLen = DEFAULT_WRITER_BUFFER;
this->buf = new char[bufLen + 1]; // last char in the buffer is always '\0'
// that help to use fputs()
if (!this->buf) {
fprintf(stderr, "Cannot create BufferedFileWriter\n");
abort();
}
this->buf[bufLen] = '\0';
this->bufPtr = 0;
if (!this->buf) {
fprintf(stderr, "Buffer allocation failed!\n");
}
this->f = f;
}
~BufferedFileWriter(){
if (this->buf) {
delete [] this->buf;
this->buf = NULL;
}
#ifdef IO_DEBUG
fprintf(stderr, "BufferedFileWriter desc()\n");
#endif
};
int open(const char* fn, bool append = false){
return this->f->open(fn, append);
};
void close() {
this->flush();
//this->f->close();
};
int write(const char* s){
int nbyte = 0;
int i = 0;
while (s[i] != '\0'){
this->buf[this->bufPtr++] = s[i++];
nbyte ++ ;
if (this->bufPtr == this->bufLen) {
this->f->write(this->buf);
this->bufPtr = 0;
}
}
return nbyte;
};
int writeLine(const char* s){
int ret = this->write(s);
this->write("\n");
return (ret + 1) ;
};
int flush() {
this->buf[this->bufPtr] = '\0';
this->f->write(this->buf);
this->bufPtr = 0;
return 0;
};
private:
char* buf;
int bufLen;
int bufPtr;
AbstractFileWriter* f;
}; // end BufferedFileWriter
/**
* design:
* a high level file class, underlying using BufferedFileWriter
* usage:
* FileWriter* fout = new FileWriter("a.txt", "w");
* fout->write("abc");
* fout->writeLn("abc");
* fout->close();
* delete fout->write;
*/
class FileWriter{
public:
FileWriter(const char* fileName, bool append = false){
// int l = strlen(fileName);
if (this->checkSuffix(fileName, ".gz")) {
this->fpRaw = new GzipFileWriter(fileName, append);
// } else if (this->checkSuffix(fileName, ".bz2")){
//this->fpRaw = new Bzip2FileWriter(fileName, append);
} else {
this->fpRaw = new TextFileWriter(fileName, append);
}
this->fp = new BufferedFileWriter(this->fpRaw);
if (!this->fpRaw || !this->fp){
fprintf(stderr, "Cannot create file\n");
abort();
}
this->createBuffer();
}
FileWriter(const char* fileName, FileType t) {
bool append = false;
if ( IO_PLAIN == t) {
this->fpRaw = new TextFileWriter(fileName, append);
} else if (IO_GZIP == t) {
this->fpRaw = new GzipFileWriter(fileName, append);
} else if (IO_BGZIP == t) {
this->fpRaw = new BGZipFileWriter(fileName, append);
} else {
fprintf(stderr, "Unrecognized file type, use plain text format instead!\n");
this->fpRaw = new TextFileWriter(fileName, append);
}
this->fp = new BufferedFileWriter(this->fpRaw);
if (!this->fpRaw || !this->fp){
fprintf(stderr, "Cannot create file\n");
abort();
}
this->createBuffer();
};
void createBuffer() {
// create buffer for formatted string
this->bufLen = 1024;
this->buf = new char[this->bufLen];
if (!this->buf){
fprintf(stderr, "Cannot allocate printf buffer for FileWriter.\n");
};
};
void close() {
if (this->fp){
this->fp->close();
delete this->fp;
this->fp = NULL;
}
if (this->fpRaw){
delete this->fpRaw;
this->fpRaw = NULL;
}
if (this->buf){
delete [] this->buf;
this->buf = NULL;
}
#ifdef IO_DEBUG
fprintf(stderr, "FileWriter desc()\n");
#endif
};
~FileWriter(){
this->close();
};
int write(const char* s){
return this->fp->write(s);
};
int writeLine(const char* s){
int ret = this->fp->write(s);
this->fp->write("\n");
return (ret + 1);
};
// if @param fileName ends with @param suffix, then return true;
static bool checkSuffix(const char* fileName, const char* suffix){
int lf = strlen(fileName);
int ls = strlen(suffix);
if (lf < ls) return false;
for (int i = lf - ls, j = 0; j < ls;){
if (fileName[i++] != suffix[j++]) return false;
}
return true;
};
/**
* format string to this->buf, then write it out
*/
// since in C++, a hidden this pointer is passed, we will use 2, 3 instead of 1 and 2
int printf(const char *fmt, ...) __attribute__ ((format (printf, 2, 3))){
// we'll put the formatted string to internal buffer
va_list args;
int ret;
int newBufLen;
while (1) {
/* Try to print in the allocated space. */
va_start(args,fmt);
ret = vsnprintf(this->buf, this->bufLen, fmt, args);
va_end(args);
/* If that worked, return the string. */
if (ret > -1 && ret < this->bufLen) {
return this->write(this->buf);
}
/* Else try again with more space. */
if (ret > -1) /* glibc 2.1 */
newBufLen = ret + 1; /* precisely what is needed */
else /* glibc 2.0 */
newBufLen = bufLen * 2; /* twice the old size */
increaseBufferTo(newBufLen);
}
};
/* while (( ret = vsnprintf(this->buf, this->bufLen, fmt, args)) >= this->bufLen){ */
/* this->increaseBufferTo( ret + this->bufLen + 1); */
/* }; */
/* va_end(args); */
/* return this->write(this->buf); */
/* }; */
private:
void increaseBufferTo(int newBufLen){
delete[] this->buf;
this->buf = new char[newBufLen];
if (!this->buf){
fprintf(stderr, "Cannot increase printf buffer for FileWriter.\n");
abort();
};
this->bufLen = newBufLen;
};
AbstractFileWriter* fp;
AbstractFileWriter* fpRaw;
char* buf;
int bufLen;
}; // end class FileWriter
#endif /* _IO_H_ */