furnace/src/engine/safeWriter.cpp
2023-03-16 03:33:55 -05:00

217 lines
5.1 KiB
C++

/**
* Furnace Tracker - multi-system chiptune tracker
* Copyright (C) 2021-2023 tildearrow and contributors
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "safeWriter.h"
#define WRITER_BUF_SIZE 16384
unsigned char* SafeWriter::getFinalBuf() {
return buf;
}
void SafeWriter::checkSize(size_t amount) {
while ((curSeek+amount)>=bufLen) {
unsigned char* newBuf=new unsigned char[bufLen+WRITER_BUF_SIZE];
memcpy(newBuf,buf,bufLen);
delete[] buf;
buf=newBuf;
bufLen+=WRITER_BUF_SIZE;
}
}
bool SafeWriter::seek(ssize_t where, int whence) {
ssize_t supposed;
switch (whence) {
case SEEK_SET:
supposed=where;
break;
case SEEK_CUR:
supposed=curSeek+where;
break;
case SEEK_END:
supposed=len+where;
break;
default:
return false;
}
if (supposed<0) supposed=0;
if (supposed>(ssize_t)len) supposed=len;
curSeek=supposed;
return true;
}
size_t SafeWriter::tell() {
return curSeek;
}
size_t SafeWriter::size() {
return len;
}
int SafeWriter::write(const void* what, size_t count) {
if (!operative) return 0;
checkSize(count);
memcpy(buf+curSeek,what,count);
curSeek+=count;
if (curSeek>len) len=curSeek;
return count;
}
int SafeWriter::writeC(signed char val) {
return write(&val,1);
}
#ifdef TA_BIG_ENDIAN
int SafeWriter::writeS_BE(short val) {
return write(&val,2);
}
int SafeWriter::writeS(short val) {
unsigned char bytes[2]{(unsigned char)((val>>8)&0xff), (unsigned char)(val&0xff)};
return write(bytes,2);
}
int SafeWriter::writeI(int val) {
unsigned char bytes[4];
bytes[0]=((unsigned int)val)&0xff;
bytes[1]=(((unsigned int)val)>>8)&0xff;
bytes[2]=(((unsigned int)val)>>16)&0xff;
bytes[3]=(((unsigned int)val)>>24)&0xff;
return write(bytes,4);
}
int SafeWriter::writeL(int64_t val) {
unsigned char bytes[8];
bytes[0]=((uint64_t)val)&0xff;
bytes[1]=(((uint64_t)val)>>8)&0xff;
bytes[2]=(((uint64_t)val)>>16)&0xff;
bytes[3]=(((uint64_t)val)>>24)&0xff;
bytes[4]=(((uint64_t)val)>>32)&0xff;
bytes[5]=(((uint64_t)val)>>40)&0xff;
bytes[6]=(((uint64_t)val)>>48)&0xff;
bytes[7]=(((uint64_t)val)>>56)&0xff;
return write(bytes,8);
}
int SafeWriter::writeF(float val) {
unsigned char bytes[4];
bytes[0]=((unsigned char*)(&val))[3];
bytes[1]=((unsigned char*)(&val))[2];
bytes[2]=((unsigned char*)(&val))[1];
bytes[3]=((unsigned char*)(&val))[0];
return write(bytes,4);
}
int SafeWriter::writeD(double val) {
unsigned char bytes[8];
bytes[0]=((unsigned char*)(&val))[7];
bytes[1]=((unsigned char*)(&val))[6];
bytes[2]=((unsigned char*)(&val))[5];
bytes[3]=((unsigned char*)(&val))[4];
bytes[4]=((unsigned char*)(&val))[3];
bytes[5]=((unsigned char*)(&val))[2];
bytes[6]=((unsigned char*)(&val))[1];
bytes[7]=((unsigned char*)(&val))[0];
return write(bytes,8);
}
#else
int SafeWriter::writeS(short val) {
return write(&val,2);
}
int SafeWriter::writeS_BE(short val) {
unsigned char bytes[2]{(unsigned char)((val>>8)&0xff), (unsigned char)(val&0xff)};
return write(bytes,2);
}
int SafeWriter::writeI(int val) {
return write(&val,4);
}
int SafeWriter::writeI_BE(int val) {
unsigned char bytes[4] {
(unsigned char)((val>>24)&0xff),
(unsigned char)((val>>16)&0xff),
(unsigned char)((val>>8)&0xff),
(unsigned char)(val&0xff)
};
return write(bytes,4);
}
int SafeWriter::writeL(int64_t val) {
return write(&val,8);
}
int SafeWriter::writeF(float val) {
return write(&val,4);
}
int SafeWriter::writeD(double val) {
return write(&val,8);
}
#endif
int SafeWriter::writeWString(WString val, bool pascal) {
if (pascal) {
writeS((unsigned short)val.size());
for (wchar_t& i: val) {
writeS(i);
}
return 2+val.size()*2;
} else {
for (wchar_t& i: val) {
writeS(i);
}
writeS(0);
return 2+val.size()*2;
}
}
int SafeWriter::writeText(String val) {
return write(val.c_str(),val.size());
}
int SafeWriter::writeString(String val, bool pascal) {
if (pascal) {
writeC((unsigned char)val.size());
return write(val.c_str(),val.size())+1;
} else {
return write(val.c_str(),val.size()+1);
}
}
void SafeWriter::init() {
if (operative) return;
buf=new unsigned char[WRITER_BUF_SIZE];
bufLen=WRITER_BUF_SIZE;
len=0;
curSeek=0;
operative=true;
}
SafeReader* SafeWriter::toReader() {
return new SafeReader(buf,len);
}
void SafeWriter::finish() {
if (!operative) return;
delete[] buf;
buf=NULL;
operative=false;
}