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tdepim/kaddressbook/xxport/pab_pablib.cpp

334 lines
6.2 KiB

/***************************************************************************
pablib.cxx - description
-------------------
begin : Tue Jul 4 2000
copyright : (C) 2000 by Hans Dijkema
email : kmailcvt@hum.org
***************************************************************************/
/***************************************************************************
* *
* 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. *
* *
***************************************************************************/
#include "pab_pablib.h"
#define REC_OK PAB_REC_OK
pab::pab(const char *_pabfile)
{
pabfile=_pabfile;
in.setName(pabfile);
in.open(IO_ReadOnly);
cap=i18n("Import MS Exchange Personal Address Book (.PAB)");
}
pab::~pab()
{
if (in.isOpen()) { in.close(); }
}
//////////////////////////////////////////////////////////////////////
//
// Main conversion
//
//////////////////////////////////////////////////////////////////////
bool pab::convert(void)
{
adr_t A;
bool ret;
if (!in.isOpen()) {TQString msg;
msg=i18n("Cannot open %1 for reading").tqarg(pabfile);
// info->alert(msg);
return false;
}
if (!knownPAB()) {
return false;
}
/*
if (!f->openAddressBook(info)) {
return false;
}
*/
A=go(INDEX_OF_INDEX);
ret=convert(A,0,0);
// f->closeAddressBook();
return ret;
}
bool pab::convert(adr_t A,content_t ,content_t )
{
adr_t table;
content_t start,stop,T;
int n, N = 0;
go(A);
T=read();
// Now we have to decide if this is a distribution list
// or an addressbook container. If it is the last just
// jump directly to dotable().
//if (upper(T)==PAB_REC_OK) {
// dotable(A,strt,stp);
// return true;
//}
// OK, it's not an addressbook container,
// handle it like a distribution list
start=T;
while(start!=0) {
N+=1;
stop=read();
table=read();
start=read();
}
if (N==0) { N=1; }
/* {char m[100];
sprintf(m,"%d",N);
info->alert("",m);
}*/
//A=go(INDEX_OF_INDEX);
//printf("IoI=%08lx\n",A);
go(A);
start=read();
n=0;
while(start!=0) {adr_t cp;
stop=read();
table=read();
cp=tell();
dotable(table,start,stop);
//convert(table,start,stop);
go(cp);
start=read();
n+=1;
// info->setOverall( 100 * n / N );
}
return true;
}
void pab::dotable(adr_t T,content_t start,content_t stop)
{
adr_t REC,pREC,cp;
content_t cmp,skip;
int N,n;
go(T);
cp=tell();
REC=0xffffffff;
pREC=0;
cmp=read();
if (cmp!=start) {
// first try processing as if this was a record. I.e. at the stop thing
processRec(stop);
// Then exit
// info->setCurrent();
// info->setCurrent(100);
return;
} // This is not a table.
// info->setCurrent();
N=0;
while (cmp!=stop && REC!=pREC) {
pREC=REC;
REC=read();
if (REC!=pREC) {
skip=read();
cmp=read();
}
N+=1;
}
go(cp);
REC=0xffffffff;
pREC=0;
cmp=read();
n=0;
while(cmp!=stop && REC!=pREC) {adr_t cp;
pREC=REC;
REC=read();
if (REC!=pREC) {
skip=read();
cp=tell();
processRec(REC);
go(cp);
cmp=read();
}
n+=1;
// info->setCurrent(100 * n / N);
}
// info->setCurrent();
// info->setCurrent(100);
}
void pab::processRec(adr_t REC)
{
content_t hdr;
hdr=go(REC);
if (upper(hdr)==REC_OK) { // Now read a record and instantiate!
pabrec rec(*this);
pabfields_t fields(rec, NULL);
if (fields.isOK() && fields.isUsable()) {
// f->addContact( fields.get() );
}
}
}
void pab::prt(unsigned char *,pabrec &,pabrec_entry )
{
}
#define PABREC_N (sizeof(pabrec)/sizeof(word_t))
void pab::rdPabRec(pabrec & )
{
}
//////////////////////////////////////////////////////////////////////
//
// Here's where we recognize the record types
//
//////////////////////////////////////////////////////////////////////
bool pab::recUnknown(pabrec &)
{
return false;
}
bool pab::recNoFunction(pabrec & )
{
return false;
}
const char *pab::get(unsigned char *,pabrec_entry ,pabrec & )
{
return "";
}
void pab::getrange(pabrec & ,pabrec_entry ,word_t & ,word_t & )
{
}
//////////////////////////////////////////////////////////////////////
//
// Here's where we recognize the PAB files
//
//////////////////////////////////////////////////////////////////////
bool pab::knownPAB(void)
{
content_t id;
id=go(0);
if (id!=PAB_FILE_ID) {TQString msg;
msg=i18n("%1 has no PAB id that I know of, cannot convert this").tqarg(pabfile);
// info->alert(msg);
return false;
}
return true;
}
//////////////////////////////////////////////////////////////////////
//
// Functions to do file reading/positioning
//
//////////////////////////////////////////////////////////////////////
content_t pab::go(adr_t a)
{
content_t A;
in.at(a);
A=read();
in.at(a);
return A;
}
content_t pab::read(void)
{
unsigned char mem[4];
content_t A;
in.readBlock((char *) &mem, sizeof(A)); // WinTel unsigned long opslag
A=mem[3];
A<<=8;A|=mem[2];
A<<=8;A|=mem[1];
A<<=8;A|=mem[0];
return A;
}
void pab::read(word_t & w)
{
unsigned char mem[2];
in.readBlock((char *) &mem, sizeof(w));
w=mem[1];
w<<=8;w|=mem[0];
}
content_t pab::relative(int words)
{
adr_t a;
a=in.at();
return go(a+(words*sizeof(content_t)));
}
content_t pab::add(adr_t & A,int words)
{
A+=(words*sizeof(content_t));
return go(A);
}
pabsize_t pab::size(content_t A)
{
return A&0xFFFF;
}
word_t pab::lower(content_t A)
{
return A&0xFFFF;
}
word_t pab::upper(content_t A)
{
return A>>16;
}
void pab::size(content_t A,pabsize_t & s1,pabsize_t & s2)
{
s1=A&0xFFFF;
s2>>=16;
}
byte_t pab::readbyte(void)
{
byte_t c;
c=in.getch();
return c;
}
void pab::read(unsigned char *mem,content_t size)
{
in.readBlock((char *) mem, size);
}