kicad/lib_dxf/intern/drw_textcodec.cpp

694 lines
18 KiB
C++

#include "drw_textcodec.h"
#include <sstream>
#include <iomanip>
#include <algorithm>
#include "../drw_base.h"
#include "drw_cptables.h"
#include "drw_cptable932.h"
#include "drw_cptable936.h"
#include "drw_cptable949.h"
#include "drw_cptable950.h"
DRW_TextCodec::DRW_TextCodec()
{
version = DRW::AC1021;
conv = new DRW_Converter( NULL, 0 );
}
DRW_TextCodec::~DRW_TextCodec()
{
delete conv;
}
void DRW_TextCodec::setVersion( std::string* v )
{
std::string versionStr = *v;
if( versionStr == "AC1009" || versionStr == "AC1006" )
{
version = DRW::AC1009;
cp = "ANSI_1252";
setCodePage( &cp );
}
else if( versionStr == "AC1012" || versionStr == "AC1014"
|| versionStr == "AC1015" || versionStr == "AC1018" )
{
version = DRW::AC1015;
if( cp.empty() ) // codepage not set, initialize
{
cp = "ANSI_1252";
setCodePage( &cp );
}
}
else
{
version = DRW::AC1021;
cp = "ANSI_1252";
}
}
void DRW_TextCodec::setCodePage( std::string* c )
{
cp = correctCodePage( *c );
delete conv;
if( version == DRW::AC1009 || version == DRW::AC1015 )
{
if( cp == "ANSI_874" )
conv = new DRW_ConvTable( DRW_Table874, CPLENGHTCOMMON );
else if( cp == "ANSI_932" )
conv = new DRW_Conv932Table( DRW_Table932, DRW_LeadTable932,
DRW_DoubleTable932, CPLENGHT932 );
else if( cp == "ANSI_936" )
conv = new DRW_ConvDBCSTable( DRW_Table936, DRW_LeadTable936,
DRW_DoubleTable936, CPLENGHT936 );
else if( cp == "ANSI_949" )
conv = new DRW_ConvDBCSTable( DRW_Table949, DRW_LeadTable949,
DRW_DoubleTable949, CPLENGHT949 );
else if( cp == "ANSI_950" )
conv = new DRW_ConvDBCSTable( DRW_Table950, DRW_LeadTable950,
DRW_DoubleTable950, CPLENGHT950 );
else if( cp == "ANSI_1250" )
conv = new DRW_ConvTable( DRW_Table1250, CPLENGHTCOMMON );
else if( cp == "ANSI_1251" )
conv = new DRW_ConvTable( DRW_Table1251, CPLENGHTCOMMON );
else if( cp == "ANSI_1253" )
conv = new DRW_ConvTable( DRW_Table1253, CPLENGHTCOMMON );
else if( cp == "ANSI_1254" )
conv = new DRW_ConvTable( DRW_Table1254, CPLENGHTCOMMON );
else if( cp == "ANSI_1255" )
conv = new DRW_ConvTable( DRW_Table1255, CPLENGHTCOMMON );
else if( cp == "ANSI_1256" )
conv = new DRW_ConvTable( DRW_Table1256, CPLENGHTCOMMON );
else if( cp == "ANSI_1257" )
conv = new DRW_ConvTable( DRW_Table1257, CPLENGHTCOMMON );
else if( cp == "ANSI_1258" )
conv = new DRW_ConvTable( DRW_Table1258, CPLENGHTCOMMON );
else if( cp == "UTF-8" ) // DXF older than 2007 are write in win codepages
{
cp = "ANSI_1252";
conv = new DRW_Converter( NULL, 0 );
}
else
conv = new DRW_ConvTable( DRW_Table1252, CPLENGHTCOMMON );
}
else
{
conv = new DRW_Converter( NULL, 0 );
}
}
std::string DRW_TextCodec::toUtf8( std::string s )
{
return conv->toUtf8( &s );
}
std::string DRW_TextCodec::fromUtf8( std::string s )
{
return conv->fromUtf8( &s );
}
std::string DRW_Converter::toUtf8( std::string* s )
{
std::string result;
int j = 0;
unsigned int i = 0;
for( i = 0; i < s->length(); i++ )
{
unsigned char c = s->at( i );
if( c < 0x80 ) // ascii check for /U+????
{
if( c == '\\' && i + 6 < s->length() && s->at( i + 1 ) == 'U' && s->at( i + 2 ) == '+' )
{
result += s->substr( j, i - j );
result += encodeText( s->substr( i, 7 ) );
i += 6;
j = i + 1;
}
}
else if( c < 0xE0 ) // 2 bits
{
i++;
}
else if( c < 0xF0 ) // 3 bits
{
i += 2;
}
else if( c < 0xF8 ) // 4 bits
{
i += 3;
}
}
result += s->substr( j );
return result;
}
std::string DRW_ConvTable::fromUtf8( std::string* s )
{
std::string result;
bool notFound;
int code;
int j = 0;
for( unsigned int i = 0; i < s->length(); i++ )
{
unsigned char c = s->at( i );
if( c > 0x7F ) // need to decode
{
result += s->substr( j, i - j );
std::string part1 = s->substr( i, 4 );
int l;
code = decodeNum( part1, &l );
j = i + l;
i = j - 1;
notFound = true;
for( int k = 0; k<cpLenght; k++ )
{
if( table[k] == code )
{
result += CPOFFSET + k; // translate from table
notFound = false;
break;
}
}
if( notFound )
result += decodeText( code );
}
}
result += s->substr( j );
return result;
}
std::string DRW_ConvTable::toUtf8( std::string* s )
{
std::string res;
std::string::iterator it;
for( it = s->begin(); it < s->end(); ++it )
{
unsigned char c = *it;
if( c < 0x80 )
{
// check for \U+ encoded text
if( c == '\\' )
{
if( it + 6 < s->end() && *(it + 1) == 'U' && *(it + 2) == '+' )
{
res += encodeText( std::string( it, it + 7 ) );
it += 6;
}
else
{
res += c; // no \U+ encoded text write
}
}
else
res += c; // c!='\' ascii char write
}
else // end c < 0x80
{
res += encodeNum( table[c - 0x80] ); // translate from table
}
} // end for
return res;
}
std::string DRW_Converter::encodeText( std::string stmp )
{
int code;
#if defined(__APPLE__)
int Succeeded = sscanf( &( stmp.substr( 3, 4 )[0]), "%x", &code );
if( !Succeeded || Succeeded == EOF )
code = 0;
#else
std::istringstream sd( stmp.substr( 3, 4 ) );
sd >> std::hex >> code;
#endif
return encodeNum( code );
}
std::string DRW_Converter::decodeText( int c )
{
std::string res = "\\U+";
std::string num;
#if defined(__APPLE__)
std::string str( 16, '\0' );
snprintf( &(str[0]), 16, "%04X", c );
num = str;
#else
std::stringstream ss;
ss << std::uppercase << std::setfill( '0' ) << std::setw( 4 ) << std::hex << c;
ss >> num;
#endif
res += num;
return res;
}
std::string DRW_Converter::encodeNum( int c )
{
unsigned char ret[5];
if( c < 128 ) // 0-7F US-ASCII 7 bits
{
ret[0] = c;
ret[1] = 0;
}
else if( c < 0x800 ) // 80-07FF 2 bytes
{
ret[0] = 0xC0 | (c >> 6);
ret[1] = 0x80 | (c & 0x3f);
ret[2] = 0;
}
else if( c< 0x10000 ) // 800-FFFF 3 bytes
{
ret[0] = 0xe0 | (c >> 12);
ret[1] = 0x80 | ( (c >> 6) & 0x3f );
ret[2] = 0x80 | (c & 0x3f);
ret[3] = 0;
}
else // 10000-10FFFF 4 bytes
{
ret[0] = 0xf0 | (c >> 18);
ret[1] = 0x80 | ( (c >> 12) & 0x3f );
ret[2] = 0x80 | ( (c >> 6) & 0x3f );
ret[3] = 0x80 | (c & 0x3f);
ret[4] = 0;
}
return std::string( (char*) ret );
}
/** 's' is a string with at least 4 bytes lenght
** returned 'b' is byte lenght of encoded char: 2,3 or 4
**/
int DRW_Converter::decodeNum( std::string s, int* b )
{
int code = 0;
unsigned char c = s.at( 0 );
if( (c & 0xE0) == 0xC0 ) // 2 bytes
{
code = ( c & 0x1F) << 6;
code = (s.at( 1 ) & 0x3F) | code;
*b = 2;
}
else if( (c & 0xF0) == 0xE0 ) // 3 bytes
{
code = ( c & 0x0F) << 12;
code = ( (s.at( 1 ) & 0x3F) << 6 ) | code;
code = (s.at( 2 ) & 0x3F) | code;
*b = 3;
}
else if( (c & 0xF8) == 0xF0 ) // 4 bytes
{
code = ( c & 0x07) << 18;
code = ( (s.at( 1 ) & 0x3F) << 12 ) | code;
code = ( (s.at( 2 ) & 0x3F) << 6 ) | code;
code = (s.at( 3 ) & 0x3F) | code;
*b = 4;
}
return code;
}
std::string DRW_ConvDBCSTable::fromUtf8( std::string* s )
{
std::string result;
bool notFound;
int code;
int j = 0;
for( unsigned int i = 0; i < s->length(); i++ )
{
unsigned char c = s->at( i );
if( c > 0x7F ) // need to decode
{
result += s->substr( j, i - j );
std::string part1 = s->substr( i, 4 );
int l;
code = decodeNum( part1, &l );
j = i + l;
i = j - 1;
notFound = true;
for( int k = 0; k<cpLenght; k++ )
{
if( doubleTable[k][1] == code )
{
int data = doubleTable[k][0];
char d[3];
d[0] = data >> 8;
d[1] = data & 0xFF;
d[2] = '\0';
result += d; // translate from table
notFound = false;
break;
}
}
if( notFound )
result += decodeText( code );
} // direct conversion
}
result += s->substr( j );
return result;
}
std::string DRW_ConvDBCSTable::toUtf8( std::string* s )
{
std::string res;
std::string::iterator it;
for( it = s->begin(); it < s->end(); ++it )
{
bool notFound = true;
unsigned char c = *it;
if( c < 0x80 )
{
notFound = false;
// check for \U+ encoded text
if( c == '\\' )
{
if( it + 6 < s->end() && *(it + 1) == 'U' && *(it + 2) == '+' )
{
res += encodeText( std::string( it, it + 7 ) );
it += 6;
}
else
{
res += c; // no \U+ encoded text write
}
}
else
res += c; // c!='\' ascii char write
}
else if( c == 0x80 ) // 1 byte table
{
notFound = false;
res += encodeNum( 0x20AC ); // euro sign
}
else // 2 bytes
{
++it;
int code = (c << 8) | (unsigned char) (*it);
int sta = leadTable[c - 0x81];
int end = leadTable[c - 0x80];
for( int k = sta; k<end; k++ )
{
if( doubleTable[k][0] == code )
{
res += encodeNum( doubleTable[k][1] ); // translate from table
notFound = false;
break;
}
}
}
// not found
if( notFound )
res += encodeNum( NOTFOUND936 );
} // end for
return res;
}
std::string DRW_Conv932Table::fromUtf8( std::string* s )
{
std::string result;
bool notFound;
int code;
int j = 0;
for( unsigned int i = 0; i < s->length(); i++ )
{
unsigned char c = s->at( i );
if( c > 0x7F ) // need to decode
{
result += s->substr( j, i - j );
std::string part1 = s->substr( i, 4 );
int l;
code = decodeNum( part1, &l );
j = i + l;
i = j - 1;
notFound = true;
// 1 byte table
if( code > 0xff60 && code < 0xFFA0 )
{
result += code - CPOFFSET932; // translate from table
notFound = false;
}
if( notFound && ( code<0xF8 || (code>0x390 && code<0x542)
|| (code>0x200F && code<0x9FA1) || code>0xF928 ) )
{
for( int k = 0; k<cpLenght; k++ )
{
if( doubleTable[k][1] == code )
{
int data = doubleTable[k][0];
char d[3];
d[0] = data >> 8;
d[1] = data & 0xFF;
d[2] = '\0';
result += d; // translate from table
notFound = false;
break;
}
}
}
if( notFound )
result += decodeText( code );
} // direct conversion
}
result += s->substr( j );
return result;
}
std::string DRW_Conv932Table::toUtf8( std::string* s )
{
std::string res;
std::string::iterator it;
for( it = s->begin(); it < s->end(); ++it )
{
bool notFound = true;
unsigned char c = *it;
if( c < 0x80 )
{
notFound = false;
// check for \U+ encoded text
if( c == '\\' )
{
if( it + 6 < s->end() && *(it + 1) == 'U' && *(it + 2) == '+' )
{
res += encodeText( std::string( it, it + 7 ) );
it += 6;
}
else
{
res += c; // no \U+ encoded text write
}
}
else
res += c; // c!='\' ascii char write
}
else if( c > 0xA0 && c < 0xE0 ) // 1 byte table
{
notFound = false;
res += encodeNum( c + CPOFFSET932 ); // translate from table
}
else // 2 bytes
{
++it;
int code = (c << 8) | (unsigned char) (*it);
int sta;
int end = 0;
if( c > 0x80 && c < 0xA0 )
{
sta = DRW_LeadTable932[c - 0x81];
end = DRW_LeadTable932[c - 0x80];
}
else if( c > 0xDF && c < 0xFD )
{
sta = DRW_LeadTable932[c - 0xC1];
end = DRW_LeadTable932[c - 0xC0];
}
if( end > 0 )
{
for( int k = sta; k<end; k++ )
{
if( DRW_DoubleTable932[k][0] == code )
{
res += encodeNum( DRW_DoubleTable932[k][1] ); // translate from table
notFound = false;
break;
}
}
}
}
// not found
if( notFound )
res += encodeNum( NOTFOUND932 );
} // end for
return res;
}
std::string DRW_TextCodec::correctCodePage( const std::string& s )
{
// stringstream cause crash in OS/X, bug#3597944
std::string cp = s;
transform( cp.begin(), cp.end(), cp.begin(), toupper );
// Latin/Thai
if( cp=="ANSI_874" || cp=="CP874" || cp=="ISO8859-11" || cp=="TIS-620" )
{
return "ANSI_874";
// Central Europe and Eastern Europe
}
else if( cp=="ANSI_1250" || cp=="CP1250" || cp=="ISO8859-2" )
{
return "ANSI_1250";
// Cyrillic script
}
else if( cp=="ANSI_1251" || cp=="CP1251" || cp=="ISO8859-5" || cp=="KOI8-R"
|| cp=="KOI8-U" || cp=="IBM 866" )
{
return "ANSI_1251";
// Western Europe
}
else if( cp=="ANSI_1252" || cp=="CP1252" || cp=="LATIN1" || cp=="ISO-8859-1"
|| cp=="CP819" || cp=="CSISO" || cp=="IBM819" || cp=="ISO_8859-1" || cp=="APPLE ROMAN"
|| cp=="ISO8859-1" || cp=="ISO8859-15" || cp=="ISO-IR-100" || cp=="L1" || cp==
"IBM 850" )
{
return "ANSI_1252";
// Greek
}
else if( cp=="ANSI_1253" || cp=="CP1253" || cp=="iso8859-7" )
{
return "ANSI_1253";
// Turkish
}
else if( cp=="ANSI_1254" || cp=="CP1254" || cp=="iso8859-9" || cp=="iso8859-3" )
{
return "ANSI_1254";
// Hebrew
}
else if( cp=="ANSI_1255" || cp=="CP1255" || cp=="iso8859-8" )
{
return "ANSI_1255";
// Arabic
}
else if( cp=="ANSI_1256" || cp=="CP1256" || cp=="ISO8859-6" )
{
return "ANSI_1256";
// Baltic
}
else if( cp=="ANSI_1257" || cp=="CP1257" || cp=="ISO8859-4" || cp=="ISO8859-10" || cp==
"ISO8859-13" )
{
return "ANSI_1257";
// Vietnamese
}
else if( cp=="ANSI_1258" || cp=="CP1258" )
{
return "ANSI_1258";
// Japanese
}
else if( cp=="ANSI_932" || cp=="SHIFT-JIS" || cp=="SHIFT_JIS" || cp=="CSSHIFTJIS"
|| cp=="CSWINDOWS31J" || cp=="MS_KANJI" || cp=="X-MS-CP932" || cp=="X-SJIS"
|| cp=="EUCJP" || cp=="EUC-JP" || cp=="CSEUCPKDFMTJAPANESE" || cp=="X-EUC"
|| cp=="X-EUC-JP" || cp=="JIS7" )
{
return "ANSI_932";
// Chinese PRC GBK (XGB) simplified
}
else if( cp=="ANSI_936" || cp=="GBK" || cp=="GB2312" || cp=="CHINESE" || cp=="CN-GB"
|| cp=="CSGB2312" || cp=="CSGB231280" || cp=="CSISO58BG231280"
|| cp=="GB_2312-80" || cp=="GB231280" || cp=="GB2312-80"
|| cp=="ISO-IR-58" || cp=="GB18030" )
{
return "ANSI_936";
// Korean
}
else if( cp=="ANSI_949" || cp=="EUCKR" )
{
return "ANSI_949";
// Chinese Big5 (Taiwan, Hong Kong SAR)
}
else if( cp=="ANSI_950" || cp=="BIG5" || cp=="CN-BIG5" || cp=="CSBIG5"
|| cp=="X-X-BIG5" || cp=="BIG5-HKSCS" )
{
return "ANSI_950";
// celtic
/* } else if (cp=="ISO8859-14") {
* return "ISO8859-14";
* } else if (cp=="TSCII") {
* return "TSCII"; //tamil
* } else if (cp=="UTF16") {
* return "UTF16"; */
}
else if( cp=="UTF-8" || cp=="UTF8" || cp=="UTF88-BIT" )
{
return "UTF-8";
}
return "ANSI_1252";
}