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// Input classes
//
// This file is part of sfftobmp, a program to convert
// structured fax files (sff) to windows bitmap files (bmp),
// portable bitmap graphics (pbm), tagged image file format (tiff)
// or JPEG (jpg).
//
// Copyright (C) 1998-2008 Peter Schaefer-Hutter and contributors ("THE AUTHORS")
//
// Permission to use, copy, modify, distribute, and sell this software and
// its documentation for any purpose is hereby granted without fee.
//
// THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF ANY KIND,
// EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY
// WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
//
// IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL,
// INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY KIND, OR ANY
// DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
// WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE, AND ON ANY
// THEORY OF LIABILITY, ARISING OUT OF OR IN CONNECTION WITH THE USE
// OR PERFORMANCE OF THIS SOFTWARE.
//
// Contributor(s):
// Ulf Zibis <ulf.zibis@gmx.de> (resolution preserving, RVS COM resolutions,
// inheritance from CFile)
//
// You can contact the original author by email at peter.schaefer@gmx.de.
//
// I'm always pleased to hear that somebody is actually using my software.
// If you can manage it, e-mail me a quick notice. Thanks!
//
/*-RCS-Info----------------------------------------------------
$Id: input.cpp,v 1.6 2008/09/13 13:06:26 pschaefer Exp $
---RCS-Info--------------------------------------------------*/
#include <cstring>
#include <vector>
#include <iostream>
#include "sfftypes.h"
#include "common.h"
extern "C"
{
#define XMD_H
#include <jpeglib.h>
#include <tiffio.h>
}
#include "codes.h"
#include "output.h"
#include "decoder.h"
#include "input.h"
using namespace std;
//-Constants-------------------------------------------------------
sff_byte CSffFile::m_SFFID[4] = { 0x53, 0x66, 0x66, 0x66 };
//-Types-----------------------------------------------------------
typedef enum {
NEED_MAGIC,
NEED_PAGESTART,
NEED_PAGEHEADER,
NEED_RECORD,
LAST_PAGE
} TScannerState;
//-----------------------------------------------------------------
CSffFile::CSffFile(const std::string& strFileName) :
CFile(strFileName)
{
ScanFile();
}
CSffFile::~CSffFile()
{
PAGEVECTOR::iterator it = m_acPages.begin();
for (; it != m_acPages.end(); it++) {
delete (*it);
}
}
void CSffFile::ScanFile()
{
TSFFFileHeader dh;
TSFFPageHeader ph;
sff_byte b1 = 0, b2 = 0;
sff_word w;
int nLineCount = 0;
int fuzz = 0;
TSFFPage *pPage;
if (Eof())
return;
TScannerState state = NEED_MAGIC;
do {
switch (state) {
case NEED_MAGIC :
for (fuzz = 0; fuzz < 2048; ++fuzz) {
Seek(fuzz, CFile::sk_from_start);
Read(&dh, sizeof(dh));
if (Eof())
throw CSimpleException(CSimpleException::err_invalidfile);
if (::memcmp(&dh.sff_id, &m_SFFID, sizeof(m_SFFID)) == 0)
break;
}
if (::memcmp(&dh.sff_id, &m_SFFID, sizeof(m_SFFID)) != 0)
throw CSimpleException(CSimpleException::err_invalidfile);
if (dh.version > 1)
throw CSimpleException(CSimpleException::err_invalidversion);
if (fuzz>0) {
cerr << "NOTE: File starts with " << fuzz << " bytes of garbage." << endl;
dh.first_page += fuzz;
}
Seek(dh.first_page, CFile::sk_from_start);
state = NEED_PAGESTART;
break;
case NEED_PAGESTART :
b1 = GetC(); // record header (0xFE fuer beginning of page)
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
if (b1 != 0xFE)
throw CSimpleException(CSimpleException::err_corruptfile);
b1 = GetC(); // record length (usually 0x10)
if (b1 == 0)
state = LAST_PAGE;
else
state = NEED_PAGEHEADER;
break;
case NEED_PAGEHEADER :
Read(&ph, sizeof(TSFFPageHeader));
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
if (ph.coding > 0)
throw CSimpleException(CSimpleException::err_unknowncoding);
Seek(b1 - sizeof(TSFFPageHeader), CFile::sk_current); // skip user data
pPage = new TSFFPage;
pPage->filepos = Tell();
pPage->width = ph.linelen;
pPage->height = ph.pagelen;
// Values 254/255 are known for RVS COM
pPage->dpi = (ph.horiz_res == 0) ? 203 :
(ph.horiz_res == 255) ? 300 :
(ph.horiz_res == 254) ? 400 : 0;
pPage->lpi = (ph.vert_res == 0) ? 98 :
(ph.vert_res == 1) ? 196 :
(ph.vert_res == 255) ? 300 :
(ph.vert_res == 254) ? 400 : 0;
m_acPages.push_back(pPage);
state = NEED_RECORD;
nLineCount = 0;
break;
case NEED_RECORD :
b1 = GetC(); // read record type
if (Eof()) {
m_acPages[GetPageCount()-1]->height = nLineCount;
state = LAST_PAGE;
} else if (b1 == 0) {
// variable amount of bytes following
b1 = GetC(); // LSB
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
b2 = GetC(); // MSB
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
w = ((b2 << 8) | b1);
Seek(w, CFile::sk_current); // skip data
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
++nLineCount;
} else if (b1 < 217) {
// normal amount of bytes following
Seek((long)b1, CFile::sk_current); // skip data
if (Eof()) {
throw CSimpleException(CSimpleException::err_corruptfile);
}
++nLineCount;
} else if (b1 < 254) {
// white skip
nLineCount+=(b1 - 216);
} else if (b1 < 255) {
// 254 -> page header
m_acPages[GetPageCount()-1]->height = nLineCount;
nLineCount = 0;
b1 = GetC(); // record length (usually 0x10)
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
if (b1 == 0) {
state = LAST_PAGE;
} else {
state = NEED_PAGEHEADER;
}
} else {
// bad line or user info
b1 = GetC(); // LSB
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
if (b1 == 0) {
++nLineCount;
} else {
Seek(b1, CFile::sk_current); // skip user info
if (Eof())
throw CSimpleException(CSimpleException::err_corruptfile);
}
}
break;
case LAST_PAGE :
break;
}
} while(state != LAST_PAGE);
return;
}
bool CSffFile::PageIsValid(int nPage)
{
return ((nPage >= 0) && (nPage < GetPageCount()));
}
bool CSffFile::SeekPage(int nPage)
{
if (!PageIsValid(nPage))
return false;
Seek(m_acPages[nPage]->filepos, CFile::sk_from_start);
return true;
}
TSFFPage *CSffFile::GetPage(int nPage)
{
return PageIsValid(nPage) ? m_acPages[nPage] : (TSFFPage *)NULL;
}
bool CSffFile::IsLowRes(int nPage)
{
return PageIsValid(nPage) && (m_acPages[nPage]->lpi == 98);
}
sff_word CSffFile::GetHorizontalResolution(int nPage)
{
return PageIsValid(nPage) ? m_acPages[nPage]->dpi :0;
}
sff_word CSffFile::GetVerticalResolution(int nPage)
{
return PageIsValid(nPage) ? m_acPages[nPage]->lpi :0;
}
sff_dword CSffFile::GetPageWidth(int nPage)
{
return PageIsValid(nPage) ? m_acPages[nPage]->width :0;
}
sff_dword CSffFile::GetPageHeight(int nPage)
{
return PageIsValid(nPage) ? m_acPages[nPage]->height :0;
}
bool CSffFile::GetRecord(TSFFRecord& rec)
{
sff_byte b1, b2;
sff_word w;
bool result;
if (Eof()) {
return false;
}
b1 = GetC(); // read record type
if (Eof()) {
result = FALSE;
} else if (b1 == 0) {
// variable amount of bytes following
b1 = GetC(); // LSB
b2 = GetC(); // MSB
w = ((b2 << 8) | b1);
rec.type = NORMAL;
rec.cb = w;
rec.pData = (sff_byte *)malloc(w);
Read(rec.pData, w);
result = TRUE;
} else if (b1 < 217) {
// normal amount of bytes following
rec.type = NORMAL;
rec.cb = b1;
rec.pData = (sff_byte *)malloc(b1);
Read(rec.pData, b1);
result = TRUE;
} else if (b1 < 254) {
// white skip
rec.type = WHITESKIP;
rec.cb = (b1 - 216);
rec.pData = 0;
result = TRUE;
} else if (b1 < 255) {
// 254 -> page header
result = FALSE;
} else {
// bad line or user info
b1 = GetC(); // LSB
if (b1 == 0) {
rec.type = BADLINE;
rec.cb = 1;
rec.pData = 0;
} else {
rec.type = USERINFO;
rec.cb = b1;
rec.pData = (sff_byte *)malloc(b1);
Read(rec.pData, b1);
}
result = TRUE;
}
return result;
}
bool CSffFile::DecodeRecord(TSFFRecord& rec, CBitSink& bitsink)
{
bool rc;
if (rec.type != NORMAL)
return FALSE;
CHuffDecoder source(rec.pData, rec.cb);
try {
rec.runlength = source.DecodeLine(bitsink);
rc = TRUE;
}
catch(CSimpleException e)
{
cerr << "ERROR: " << e.what() << endl;
rc = FALSE;
}
return rc;
}
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