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Diffstat (limited to 'qtermwidget/Vt102Emulation.cpp')
| -rw-r--r-- | qtermwidget/Vt102Emulation.cpp | 1266 |
1 files changed, 1266 insertions, 0 deletions
diff --git a/qtermwidget/Vt102Emulation.cpp b/qtermwidget/Vt102Emulation.cpp new file mode 100644 index 0000000..3ed912f --- /dev/null +++ b/qtermwidget/Vt102Emulation.cpp @@ -0,0 +1,1266 @@ +/* + This file is part of Konsole, an X terminal. + Copyright (C) 1997,1998 by Lars Doelle <lars.doelle@on-line.de> + + Rewritten for QT4 by e_k <e_k at users.sourceforge.net>, Copyright (C)2008 + + 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. +*/ + +// Own +#include "Vt102Emulation.h" + +//#include <config-konsole.h> + + +#if defined(__osf__) || defined(__APPLE__) +#define AVOID_XKB +#endif + +// this allows konsole to be compiled without XKB and XTEST extensions +// even though it might be available on a particular system. +#if defined(AVOID_XKB) +#undef HAVE_XKB +#endif + +// Standard +#include <stdio.h> +#include <unistd.h> +#include <assert.h> + +// Qt +#include <QtCore/QEvent> +#include <QtGui/QKeyEvent> +#include <QtCore/QByteRef> + +// KDE +//#include <kdebug.h> +//#include <klocale.h> + +// Konsole +#include "KeyboardTranslator.h" +#include "Screen.h" + +#if defined(HAVE_XKB) +void scrolllock_set_off(); +void scrolllock_set_on(); +#endif + +using namespace Konsole; + +/* VT102 Terminal Emulation + + This class puts together the screens, the pty and the widget to a + complete terminal emulation. Beside combining it's componentes, it + handles the emulations's protocol. + + This module consists of the following sections: + + - Constructor/Destructor + - Incoming Bytes Event pipeline + - Outgoing Bytes + - Mouse Events + - Keyboard Events + - Modes and Charset State + - Diagnostics +*/ + +/* ------------------------------------------------------------------------- */ +/* */ +/* Constructor / Destructor */ +/* */ +/* ------------------------------------------------------------------------- */ + + +Vt102Emulation::Vt102Emulation() + : Emulation(), + _titleUpdateTimer(new QTimer(this)) +{ + _titleUpdateTimer->setSingleShot(true); + + QObject::connect(_titleUpdateTimer , SIGNAL(timeout()) , this , SLOT(updateTitle())); + + initTokenizer(); + reset(); +} + +Vt102Emulation::~Vt102Emulation() +{ +} + +void Vt102Emulation::clearEntireScreen() +{ + _currentScreen->clearEntireScreen(); + + bufferedUpdate(); +} + +void Vt102Emulation::reset() +{ + //kDebug(1211)<<"Vt102Emulation::reset() resetToken()"; + resetToken(); + //kDebug(1211)<<"Vt102Emulation::reset() resetModes()"; + resetModes(); + //kDebug(1211)<<"Vt102Emulation::reset() resetCharSet()"; + resetCharset(0); + //kDebug(1211)<<"Vt102Emulation::reset() reset screen0()"; + _screen[0]->reset(); + //kDebug(1211)<<"Vt102Emulation::reset() resetCharSet()"; + resetCharset(1); + //kDebug(1211)<<"Vt102Emulation::reset() reset _screen 1"; + _screen[1]->reset(); + //kDebug(1211)<<"Vt102Emulation::reset() setCodec()"; + setCodec(LocaleCodec); + //kDebug(1211)<<"Vt102Emulation::reset() done"; + + bufferedUpdate(); +} + +/* ------------------------------------------------------------------------- */ +/* */ +/* Processing the incoming byte stream */ +/* */ +/* ------------------------------------------------------------------------- */ + +/* Incoming Bytes Event pipeline + + This section deals with decoding the incoming character stream. + Decoding means here, that the stream is first separated into `tokens' + which are then mapped to a `meaning' provided as operations by the + `Screen' class or by the emulation class itself. + + The pipeline proceeds as follows: + + - Tokenizing the ESC codes (onReceiveChar) + - VT100 code page translation of plain characters (applyCharset) + - Interpretation of ESC codes (tau) + + The escape codes and their meaning are described in the + technical reference of this program. +*/ + +// Tokens ------------------------------------------------------------------ -- + +/* + Since the tokens are the central notion if this section, we've put them + in front. They provide the syntactical elements used to represent the + terminals operations as byte sequences. + + They are encodes here into a single machine word, so that we can later + switch over them easily. Depending on the token itself, additional + argument variables are filled with parameter values. + + The tokens are defined below: + + - CHR - Printable characters (32..255 but DEL (=127)) + - CTL - Control characters (0..31 but ESC (= 27), DEL) + - ESC - Escape codes of the form <ESC><CHR but `[]()+*#'> + - ESC_DE - Escape codes of the form <ESC><any of `()+*#%'> C + - CSI_PN - Escape codes of the form <ESC>'[' {Pn} ';' {Pn} C + - CSI_PS - Escape codes of the form <ESC>'[' {Pn} ';' ... C + - CSI_PR - Escape codes of the form <ESC>'[' '?' {Pn} ';' ... C + - CSI_PE - Escape codes of the form <ESC>'[' '!' {Pn} ';' ... C + - VT52 - VT52 escape codes + - <ESC><Chr> + - <ESC>'Y'{Pc}{Pc} + - XTE_HA - Xterm hacks <ESC>`]' {Pn} `;' {Text} <BEL> + note that this is handled differently + + The last two forms allow list of arguments. Since the elements of + the lists are treated individually the same way, they are passed + as individual tokens to the interpretation. Further, because the + meaning of the parameters are names (althought represented as numbers), + they are includes within the token ('N'). + +*/ + +#define TY_CONSTR(T,A,N) ( ((((int)N) & 0xffff) << 16) | ((((int)A) & 0xff) << 8) | (((int)T) & 0xff) ) + +#define TY_CHR( ) TY_CONSTR(0,0,0) +#define TY_CTL(A ) TY_CONSTR(1,A,0) +#define TY_ESC(A ) TY_CONSTR(2,A,0) +#define TY_ESC_CS(A,B) TY_CONSTR(3,A,B) +#define TY_ESC_DE(A ) TY_CONSTR(4,A,0) +#define TY_CSI_PS(A,N) TY_CONSTR(5,A,N) +#define TY_CSI_PN(A ) TY_CONSTR(6,A,0) +#define TY_CSI_PR(A,N) TY_CONSTR(7,A,N) + +#define TY_VT52(A ) TY_CONSTR(8,A,0) + +#define TY_CSI_PG(A ) TY_CONSTR(9,A,0) + +#define TY_CSI_PE(A ) TY_CONSTR(10,A,0) + +// Tokenizer --------------------------------------------------------------- -- + +/* The tokenizers state + + The state is represented by the buffer (pbuf, ppos), + and accompanied by decoded arguments kept in (argv,argc). + Note that they are kept internal in the tokenizer. +*/ + +void Vt102Emulation::resetToken() +{ + ppos = 0; argc = 0; argv[0] = 0; argv[1] = 0; +} + +void Vt102Emulation::addDigit(int dig) +{ + argv[argc] = 10*argv[argc] + dig; +} + +void Vt102Emulation::addArgument() +{ + argc = qMin(argc+1,MAXARGS-1); + argv[argc] = 0; +} + +void Vt102Emulation::pushToToken(int cc) +{ + pbuf[ppos] = cc; + ppos = qMin(ppos+1,MAXPBUF-1); +} + +// Character Classes used while decoding + +#define CTL 1 +#define CHR 2 +#define CPN 4 +#define DIG 8 +#define SCS 16 +#define GRP 32 +#define CPS 64 + +void Vt102Emulation::initTokenizer() +{ int i; quint8* s; + for(i = 0; i < 256; i++) tbl[ i] = 0; + for(i = 0; i < 32; i++) tbl[ i] |= CTL; + for(i = 32; i < 256; i++) tbl[ i] |= CHR; + for(s = (quint8*)"@ABCDGHILMPSTXZcdfry"; *s; s++) tbl[*s] |= CPN; +// resize = \e[8;<row>;<col>t + for(s = (quint8*)"t"; *s; s++) tbl[*s] |= CPS; + for(s = (quint8*)"0123456789" ; *s; s++) tbl[*s] |= DIG; + for(s = (quint8*)"()+*%" ; *s; s++) tbl[*s] |= SCS; + for(s = (quint8*)"()+*#[]%" ; *s; s++) tbl[*s] |= GRP; + resetToken(); +} + +/* Ok, here comes the nasty part of the decoder. + + Instead of keeping an explicit state, we deduce it from the + token scanned so far. It is then immediately combined with + the current character to form a scanning decision. + + This is done by the following defines. + + - P is the length of the token scanned so far. + - L (often P-1) is the position on which contents we base a decision. + - C is a character or a group of characters (taken from 'tbl'). + + Note that they need to applied in proper order. +*/ + +#define lec(P,L,C) (p == (P) && s[(L)] == (C)) +#define lun( ) (p == 1 && cc >= 32 ) +#define les(P,L,C) (p == (P) && s[L] < 256 && (tbl[s[(L)]] & (C)) == (C)) +#define eec(C) (p >= 3 && cc == (C)) +#define ees(C) (p >= 3 && cc < 256 && (tbl[ cc ] & (C)) == (C)) +#define eps(C) (p >= 3 && s[2] != '?' && s[2] != '!' && s[2] != '>' && cc < 256 && (tbl[ cc ] & (C)) == (C)) +#define epp( ) (p >= 3 && s[2] == '?' ) +#define epe( ) (p >= 3 && s[2] == '!' ) +#define egt( ) (p >= 3 && s[2] == '>' ) +#define Xpe (ppos>=2 && pbuf[1] == ']' ) +#define Xte (Xpe && cc == 7 ) +#define ces(C) ( cc < 256 && (tbl[ cc ] & (C)) == (C) && !Xte) + +#define ESC 27 +#define CNTL(c) ((c)-'@') + +// process an incoming unicode character + +void Vt102Emulation::receiveChar(int cc) +{ + int i; + if (cc == 127) return; //VT100: ignore. + + if (ces( CTL)) + { // DEC HACK ALERT! Control Characters are allowed *within* esc sequences in VT100 + // This means, they do neither a resetToken nor a pushToToken. Some of them, do + // of course. Guess this originates from a weakly layered handling of the X-on + // X-off protocol, which comes really below this level. + if (cc == CNTL('X') || cc == CNTL('Z') || cc == ESC) resetToken(); //VT100: CAN or SUB + if (cc != ESC) { tau( TY_CTL(cc+'@' ), 0, 0); return; } + } + + pushToToken(cc); // advance the state + + int* s = pbuf; + int p = ppos; + + if (getMode(MODE_Ansi)) // decide on proper action + { + if (lec(1,0,ESC)) { return; } + if (lec(1,0,ESC+128)) { s[0] = ESC; receiveChar('['); return; } + if (les(2,1,GRP)) { return; } + if (Xte ) { XtermHack(); resetToken(); return; } + if (Xpe ) { return; } + if (lec(3,2,'?')) { return; } + if (lec(3,2,'>')) { return; } + if (lec(3,2,'!')) { return; } + if (lun( )) { tau( TY_CHR(), applyCharset(cc), 0); resetToken(); return; } + if (lec(2,0,ESC)) { tau( TY_ESC(s[1]), 0, 0); resetToken(); return; } + if (les(3,1,SCS)) { tau( TY_ESC_CS(s[1],s[2]), 0, 0); resetToken(); return; } + if (lec(3,1,'#')) { tau( TY_ESC_DE(s[2]), 0, 0); resetToken(); return; } + if (eps( CPN)) { tau( TY_CSI_PN(cc), argv[0],argv[1]); resetToken(); return; } + +// resize = \e[8;<row>;<col>t + if (eps( CPS)) { tau( TY_CSI_PS(cc, argv[0]), argv[1], argv[2]); resetToken(); return; } + + if (epe( )) { tau( TY_CSI_PE(cc), 0, 0); resetToken(); return; } + if (ees( DIG)) { addDigit(cc-'0'); return; } + if (eec( ';')) { addArgument(); return; } + for (i=0;i<=argc;i++) + if ( epp( )) { tau( TY_CSI_PR(cc,argv[i]), 0, 0); } + else if(egt( )) { tau( TY_CSI_PG(cc ), 0, 0); } // spec. case for ESC]>0c or ESC]>c + else if (cc == 'm' && argc - i >= 4 && (argv[i] == 38 || argv[i] == 48) && argv[i+1] == 2) + { // ESC[ ... 48;2;<red>;<green>;<blue> ... m -or- ESC[ ... 38;2;<red>;<green>;<blue> ... m + i += 2; + tau( TY_CSI_PS(cc, argv[i-2]), COLOR_SPACE_RGB, (argv[i] << 16) | (argv[i+1] << 8) | argv[i+2]); + i += 2; + } + else if (cc == 'm' && argc - i >= 2 && (argv[i] == 38 || argv[i] == 48) && argv[i+1] == 5) + { // ESC[ ... 48;5;<index> ... m -or- ESC[ ... 38;5;<index> ... m + i += 2; + tau( TY_CSI_PS(cc, argv[i-2]), COLOR_SPACE_256, argv[i]); + } + else { tau( TY_CSI_PS(cc,argv[i]), 0, 0); } + resetToken(); + } + else // mode VT52 + { + if (lec(1,0,ESC)) return; + if (les(1,0,CHR)) { tau( TY_CHR( ), s[0], 0); resetToken(); return; } + if (lec(2,1,'Y')) return; + if (lec(3,1,'Y')) return; + if (p < 4) { tau( TY_VT52(s[1] ), 0, 0); resetToken(); return; } + tau( TY_VT52(s[1] ), s[2],s[3]); resetToken(); return; + } +} + +void Vt102Emulation::XtermHack() +{ int i,arg = 0; + for (i = 2; i < ppos && '0'<=pbuf[i] && pbuf[i]<'9' ; i++) + arg = 10*arg + (pbuf[i]-'0'); + if (pbuf[i] != ';') { ReportErrorToken(); return; } + QChar *str = new QChar[ppos-i-2]; + for (int j = 0; j < ppos-i-2; j++) str[j] = pbuf[i+1+j]; + QString unistr(str,ppos-i-2); + + // arg == 1 doesn't change the title. In XTerm it only changes the icon name + // (btw: arg=0 changes title and icon, arg=1 only icon, arg=2 only title +// emit changeTitle(arg,unistr); + _pendingTitleUpdates[arg] = unistr; + _titleUpdateTimer->start(20); + + delete [] str; +} + +void Vt102Emulation::updateTitle() +{ + QListIterator<int> iter( _pendingTitleUpdates.keys() ); + while (iter.hasNext()) { + int arg = iter.next(); + emit titleChanged( arg , _pendingTitleUpdates[arg] ); + } + + _pendingTitleUpdates.clear(); +} + +// Interpreting Codes --------------------------------------------------------- + +/* + Now that the incoming character stream is properly tokenized, + meaning is assigned to them. These are either operations of + the current _screen, or of the emulation class itself. + + The token to be interpreteted comes in as a machine word + possibly accompanied by two parameters. + + Likewise, the operations assigned to, come with up to two + arguments. One could consider to make up a proper table + from the function below. + + The technical reference manual provides more information + about this mapping. +*/ + +void Vt102Emulation::tau( int token, int p, int q ) +{ +#if 0 +int N = (token>>0)&0xff; +int A = (token>>8)&0xff; +switch( N ) +{ + case 0: printf("%c", (p < 128) ? p : '?'); + break; + case 1: if (A == 'J') printf("\r"); + else if (A == 'M') printf("\n"); + else printf("CTL-%c ", (token>>8)&0xff); + break; + case 2: printf("ESC-%c ", (token>>8)&0xff); + break; + case 3: printf("ESC_CS-%c-%c ", (token>>8)&0xff, (token>>16)&0xff); + break; + case 4: printf("ESC_DE-%c ", (token>>8)&0xff); + break; + case 5: printf("CSI-PS-%c-%d", (token>>8)&0xff, (token>>16)&0xff ); + break; + case 6: printf("CSI-PN-%c [%d]", (token>>8)&0xff, p); + break; + case 7: printf("CSI-PR-%c-%d", (token>>8)&0xff, (token>>16)&0xff ); + break; + case 8: printf("VT52-%c", (token>>8)&0xff); + break; + case 9: printf("CSI-PG-%c", (token>>8)&0xff); + break; + case 10: printf("CSI-PE-%c", (token>>8)&0xff); + break; +} +#endif + + switch (token) + { + + case TY_CHR( ) : _currentScreen->ShowCharacter (p ); break; //UTF16 + + // 127 DEL : ignored on input + + case TY_CTL('@' ) : /* NUL: ignored */ break; + case TY_CTL('A' ) : /* SOH: ignored */ break; + case TY_CTL('B' ) : /* STX: ignored */ break; + case TY_CTL('C' ) : /* ETX: ignored */ break; + case TY_CTL('D' ) : /* EOT: ignored */ break; + case TY_CTL('E' ) : reportAnswerBack ( ); break; //VT100 + case TY_CTL('F' ) : /* ACK: ignored */ break; + case TY_CTL('G' ) : emit stateSet(NOTIFYBELL); + break; //VT100 + case TY_CTL('H' ) : _currentScreen->BackSpace ( ); break; //VT100 + case TY_CTL('I' ) : _currentScreen->Tabulate ( ); break; //VT100 + case TY_CTL('J' ) : _currentScreen->NewLine ( ); break; //VT100 + case TY_CTL('K' ) : _currentScreen->NewLine ( ); break; //VT100 + case TY_CTL('L' ) : _currentScreen->NewLine ( ); break; //VT100 + case TY_CTL('M' ) : _currentScreen->Return ( ); break; //VT100 + + case TY_CTL('N' ) : useCharset ( 1); break; //VT100 + case TY_CTL('O' ) : useCharset ( 0); break; //VT100 + + case TY_CTL('P' ) : /* DLE: ignored */ break; + case TY_CTL('Q' ) : /* DC1: XON continue */ break; //VT100 + case TY_CTL('R' ) : /* DC2: ignored */ break; + case TY_CTL('S' ) : /* DC3: XOFF halt */ break; //VT100 + case TY_CTL('T' ) : /* DC4: ignored */ break; + case TY_CTL('U' ) : /* NAK: ignored */ break; + case TY_CTL('V' ) : /* SYN: ignored */ break; + case TY_CTL('W' ) : /* ETB: ignored */ break; + case TY_CTL('X' ) : _currentScreen->ShowCharacter ( 0x2592); break; //VT100 + case TY_CTL('Y' ) : /* EM : ignored */ break; + case TY_CTL('Z' ) : _currentScreen->ShowCharacter ( 0x2592); break; //VT100 + case TY_CTL('[' ) : /* ESC: cannot be seen here. */ break; + case TY_CTL('\\' ) : /* FS : ignored */ break; + case TY_CTL(']' ) : /* GS : ignored */ break; + case TY_CTL('^' ) : /* RS : ignored */ break; + case TY_CTL('_' ) : /* US : ignored */ break; + + case TY_ESC('D' ) : _currentScreen->index ( ); break; //VT100 + case TY_ESC('E' ) : _currentScreen->NextLine ( ); break; //VT100 + case TY_ESC('H' ) : _currentScreen->changeTabStop (true ); break; //VT100 + case TY_ESC('M' ) : _currentScreen->reverseIndex ( ); break; //VT100 + case TY_ESC('Z' ) : reportTerminalType ( ); break; + case TY_ESC('c' ) : reset ( ); break; + + case TY_ESC('n' ) : useCharset ( 2); break; + case TY_ESC('o' ) : useCharset ( 3); break; + case TY_ESC('7' ) : saveCursor ( ); break; + case TY_ESC('8' ) : restoreCursor ( ); break; + + case TY_ESC('=' ) : setMode (MODE_AppKeyPad); break; + case TY_ESC('>' ) : resetMode (MODE_AppKeyPad); break; + case TY_ESC('<' ) : setMode (MODE_Ansi ); break; //VT100 + + case TY_ESC_CS('(', '0') : setCharset (0, '0'); break; //VT100 + case TY_ESC_CS('(', 'A') : setCharset (0, 'A'); break; //VT100 + case TY_ESC_CS('(', 'B') : setCharset (0, 'B'); break; //VT100 + + case TY_ESC_CS(')', '0') : setCharset (1, '0'); break; //VT100 + case TY_ESC_CS(')', 'A') : setCharset (1, 'A'); break; //VT100 + case TY_ESC_CS(')', 'B') : setCharset (1, 'B'); break; //VT100 + + case TY_ESC_CS('*', '0') : setCharset (2, '0'); break; //VT100 + case TY_ESC_CS('*', 'A') : setCharset (2, 'A'); break; //VT100 + case TY_ESC_CS('*', 'B') : setCharset (2, 'B'); break; //VT100 + + case TY_ESC_CS('+', '0') : setCharset (3, '0'); break; //VT100 + case TY_ESC_CS('+', 'A') : setCharset (3, 'A'); break; //VT100 + case TY_ESC_CS('+', 'B') : setCharset (3, 'B'); break; //VT100 + + case TY_ESC_CS('%', 'G') : setCodec (Utf8Codec ); break; //LINUX + case TY_ESC_CS('%', '@') : setCodec (LocaleCodec ); break; //LINUX + + case TY_ESC_DE('3' ) : /* Double height line, top half */ + _currentScreen->setLineProperty( LINE_DOUBLEWIDTH , true ); + _currentScreen->setLineProperty( LINE_DOUBLEHEIGHT , true ); + break; + case TY_ESC_DE('4' ) : /* Double height line, bottom half */ + _currentScreen->setLineProperty( LINE_DOUBLEWIDTH , true ); + _currentScreen->setLineProperty( LINE_DOUBLEHEIGHT , true ); + break; + case TY_ESC_DE('5' ) : /* Single width, single height line*/ + _currentScreen->setLineProperty( LINE_DOUBLEWIDTH , false); + _currentScreen->setLineProperty( LINE_DOUBLEHEIGHT , false); + break; + case TY_ESC_DE('6' ) : /* Double width, single height line*/ + _currentScreen->setLineProperty( LINE_DOUBLEWIDTH , true); + _currentScreen->setLineProperty( LINE_DOUBLEHEIGHT , false); + break; + case TY_ESC_DE('8' ) : _currentScreen->helpAlign ( ); break; + +// resize = \e[8;<row>;<col>t + case TY_CSI_PS('t', 8) : setImageSize( q /* colums */, p /* lines */ ); break; + +// change tab text color : \e[28;<color>t color: 0-16,777,215 + case TY_CSI_PS('t', 28) : emit changeTabTextColorRequest ( p ); break; + + case TY_CSI_PS('K', 0) : _currentScreen->clearToEndOfLine ( ); break; + case TY_CSI_PS('K', 1) : _currentScreen->clearToBeginOfLine ( ); break; + case TY_CSI_PS('K', 2) : _currentScreen->clearEntireLine ( ); break; + case TY_CSI_PS('J', 0) : _currentScreen->clearToEndOfScreen ( ); break; + case TY_CSI_PS('J', 1) : _currentScreen->clearToBeginOfScreen ( ); break; + case TY_CSI_PS('J', 2) : _currentScreen->clearEntireScreen ( ); break; + case TY_CSI_PS('g', 0) : _currentScreen->changeTabStop (false ); break; //VT100 + case TY_CSI_PS('g', 3) : _currentScreen->clearTabStops ( ); break; //VT100 + case TY_CSI_PS('h', 4) : _currentScreen-> setMode (MODE_Insert ); break; + case TY_CSI_PS('h', 20) : setMode (MODE_NewLine ); break; + case TY_CSI_PS('i', 0) : /* IGNORE: attached printer */ break; //VT100 + case TY_CSI_PS('l', 4) : _currentScreen-> resetMode (MODE_Insert ); break; + case TY_CSI_PS('l', 20) : resetMode (MODE_NewLine ); break; + case TY_CSI_PS('s', 0) : saveCursor ( ); break; + case TY_CSI_PS('u', 0) : restoreCursor ( ); break; + + case TY_CSI_PS('m', 0) : _currentScreen->setDefaultRendition ( ); break; + case TY_CSI_PS('m', 1) : _currentScreen-> setRendition (RE_BOLD ); break; //VT100 + case TY_CSI_PS('m', 4) : _currentScreen-> setRendition (RE_UNDERLINE); break; //VT100 + case TY_CSI_PS('m', 5) : _currentScreen-> setRendition (RE_BLINK ); break; //VT100 + case TY_CSI_PS('m', 7) : _currentScreen-> setRendition (RE_REVERSE ); break; + case TY_CSI_PS('m', 10) : /* IGNORED: mapping related */ break; //LINUX + case TY_CSI_PS('m', 11) : /* IGNORED: mapping related */ break; //LINUX + case TY_CSI_PS('m', 12) : /* IGNORED: mapping related */ break; //LINUX + case TY_CSI_PS('m', 22) : _currentScreen->resetRendition (RE_BOLD ); break; + case TY_CSI_PS('m', 24) : _currentScreen->resetRendition (RE_UNDERLINE); break; + case TY_CSI_PS('m', 25) : _currentScreen->resetRendition (RE_BLINK ); break; + case TY_CSI_PS('m', 27) : _currentScreen->resetRendition (RE_REVERSE ); break; + + case TY_CSI_PS('m', 30) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 0); break; + case TY_CSI_PS('m', 31) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 1); break; + case TY_CSI_PS('m', 32) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 2); break; + case TY_CSI_PS('m', 33) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 3); break; + case TY_CSI_PS('m', 34) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 4); break; + case TY_CSI_PS('m', 35) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 5); break; + case TY_CSI_PS('m', 36) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 6); break; + case TY_CSI_PS('m', 37) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 7); break; + + case TY_CSI_PS('m', 38) : _currentScreen->setForeColor (p, q); break; + + case TY_CSI_PS('m', 39) : _currentScreen->setForeColor (COLOR_SPACE_DEFAULT, 0); break; + + case TY_CSI_PS('m', 40) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 0); break; + case TY_CSI_PS('m', 41) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 1); break; + case TY_CSI_PS('m', 42) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 2); break; + case TY_CSI_PS('m', 43) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 3); break; + case TY_CSI_PS('m', 44) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 4); break; + case TY_CSI_PS('m', 45) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 5); break; + case TY_CSI_PS('m', 46) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 6); break; + case TY_CSI_PS('m', 47) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 7); break; + + case TY_CSI_PS('m', 48) : _currentScreen->setBackColor (p, q); break; + + case TY_CSI_PS('m', 49) : _currentScreen->setBackColor (COLOR_SPACE_DEFAULT, 1); break; + + case TY_CSI_PS('m', 90) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 8); break; + case TY_CSI_PS('m', 91) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 9); break; + case TY_CSI_PS('m', 92) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 10); break; + case TY_CSI_PS('m', 93) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 11); break; + case TY_CSI_PS('m', 94) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 12); break; + case TY_CSI_PS('m', 95) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 13); break; + case TY_CSI_PS('m', 96) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 14); break; + case TY_CSI_PS('m', 97) : _currentScreen->setForeColor (COLOR_SPACE_SYSTEM, 15); break; + + case TY_CSI_PS('m', 100) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 8); break; + case TY_CSI_PS('m', 101) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 9); break; + case TY_CSI_PS('m', 102) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 10); break; + case TY_CSI_PS('m', 103) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 11); break; + case TY_CSI_PS('m', 104) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 12); break; + case TY_CSI_PS('m', 105) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 13); break; + case TY_CSI_PS('m', 106) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 14); break; + case TY_CSI_PS('m', 107) : _currentScreen->setBackColor (COLOR_SPACE_SYSTEM, 15); break; + + case TY_CSI_PS('n', 5) : reportStatus ( ); break; + case TY_CSI_PS('n', 6) : reportCursorPosition ( ); break; + case TY_CSI_PS('q', 0) : /* IGNORED: LEDs off */ break; //VT100 + case TY_CSI_PS('q', 1) : /* IGNORED: LED1 on */ break; //VT100 + case TY_CSI_PS('q', 2) : /* IGNORED: LED2 on */ break; //VT100 + case TY_CSI_PS('q', 3) : /* IGNORED: LED3 on */ break; //VT100 + case TY_CSI_PS('q', 4) : /* IGNORED: LED4 on */ break; //VT100 + case TY_CSI_PS('x', 0) : reportTerminalParms ( 2); break; //VT100 + case TY_CSI_PS('x', 1) : reportTerminalParms ( 3); break; //VT100 + + case TY_CSI_PN('@' ) : _currentScreen->insertChars (p ); break; + case TY_CSI_PN('A' ) : _currentScreen->cursorUp (p ); break; //VT100 + case TY_CSI_PN('B' ) : _currentScreen->cursorDown (p ); break; //VT100 + case TY_CSI_PN('C' ) : _currentScreen->cursorRight (p ); break; //VT100 + case TY_CSI_PN('D' ) : _currentScreen->cursorLeft (p ); break; //VT100 + case TY_CSI_PN('G' ) : _currentScreen->setCursorX (p ); break; //LINUX + case TY_CSI_PN('H' ) : _currentScreen->setCursorYX (p, q); break; //VT100 + case TY_CSI_PN('I' ) : _currentScreen->Tabulate (p ); break; + case TY_CSI_PN('L' ) : _currentScreen->insertLines (p ); break; + case TY_CSI_PN('M' ) : _currentScreen->deleteLines (p ); break; + case TY_CSI_PN('P' ) : _currentScreen->deleteChars (p ); break; + case TY_CSI_PN('S' ) : _currentScreen->scrollUp (p ); break; + case TY_CSI_PN('T' ) : _currentScreen->scrollDown (p ); break; + case TY_CSI_PN('X' ) : _currentScreen->eraseChars (p ); break; + case TY_CSI_PN('Z' ) : _currentScreen->backTabulate (p ); break; + case TY_CSI_PN('c' ) : reportTerminalType ( ); break; //VT100 + case TY_CSI_PN('d' ) : _currentScreen->setCursorY (p ); break; //LINUX + case TY_CSI_PN('f' ) : _currentScreen->setCursorYX (p, q); break; //VT100 + case TY_CSI_PN('r' ) : setMargins (p, q); break; //VT100 + case TY_CSI_PN('y' ) : /* IGNORED: Confidence test */ break; //VT100 + + case TY_CSI_PR('h', 1) : setMode (MODE_AppCuKeys); break; //VT100 + case TY_CSI_PR('l', 1) : resetMode (MODE_AppCuKeys); break; //VT100 + case TY_CSI_PR('s', 1) : saveMode (MODE_AppCuKeys); break; //FIXME + case TY_CSI_PR('r', 1) : restoreMode (MODE_AppCuKeys); break; //FIXME + + case TY_CSI_PR('l', 2) : resetMode (MODE_Ansi ); break; //VT100 + + case TY_CSI_PR('h', 3) : clearScreenAndSetColumns(132); break; //VT100 + case TY_CSI_PR('l', 3) : clearScreenAndSetColumns(80); break; //VT100 + + case TY_CSI_PR('h', 4) : /* IGNORED: soft scrolling */ break; //VT100 + case TY_CSI_PR('l', 4) : /* IGNORED: soft scrolling */ break; //VT100 + + case TY_CSI_PR('h', 5) : _currentScreen-> setMode (MODE_Screen ); break; //VT100 + case TY_CSI_PR('l', 5) : _currentScreen-> resetMode (MODE_Screen ); break; //VT100 + + case TY_CSI_PR('h', 6) : _currentScreen-> setMode (MODE_Origin ); break; //VT100 + case TY_CSI_PR('l', 6) : _currentScreen-> resetMode (MODE_Origin ); break; //VT100 + case TY_CSI_PR('s', 6) : _currentScreen-> saveMode (MODE_Origin ); break; //FIXME + case TY_CSI_PR('r', 6) : _currentScreen->restoreMode (MODE_Origin ); break; //FIXME + + case TY_CSI_PR('h', 7) : _currentScreen-> setMode (MODE_Wrap ); break; //VT100 + case TY_CSI_PR('l', 7) : _currentScreen-> resetMode (MODE_Wrap ); break; //VT100 + case TY_CSI_PR('s', 7) : _currentScreen-> saveMode (MODE_Wrap ); break; //FIXME + case TY_CSI_PR('r', 7) : _currentScreen->restoreMode (MODE_Wrap ); break; //FIXME + + case TY_CSI_PR('h', 8) : /* IGNORED: autorepeat on */ break; //VT100 + case TY_CSI_PR('l', 8) : /* IGNORED: autorepeat off */ break; //VT100 + case TY_CSI_PR('s', 8) : /* IGNORED: autorepeat on */ break; //VT100 + case TY_CSI_PR('r', 8) : /* IGNORED: autorepeat off */ break; //VT100 + + case TY_CSI_PR('h', 9) : /* IGNORED: interlace */ break; //VT100 + case TY_CSI_PR('l', 9) : /* IGNORED: interlace */ break; //VT100 + case TY_CSI_PR('s', 9) : /* IGNORED: interlace */ break; //VT100 + case TY_CSI_PR('r', 9) : /* IGNORED: interlace */ break; //VT100 + + case TY_CSI_PR('h', 12) : /* IGNORED: Cursor blink */ break; //att610 + case TY_CSI_PR('l', 12) : /* IGNORED: Cursor blink */ break; //att610 + case TY_CSI_PR('s', 12) : /* IGNORED: Cursor blink */ break; //att610 + case TY_CSI_PR('r', 12) : /* IGNORED: Cursor blink */ break; //att610 + + case TY_CSI_PR('h', 25) : setMode (MODE_Cursor ); break; //VT100 + case TY_CSI_PR('l', 25) : resetMode (MODE_Cursor ); break; //VT100 + case TY_CSI_PR('s', 25) : saveMode (MODE_Cursor ); break; //VT100 + case TY_CSI_PR('r', 25) : restoreMode (MODE_Cursor ); break; //VT100 + + case TY_CSI_PR('h', 41) : /* IGNORED: obsolete more(1) fix */ break; //XTERM + case TY_CSI_PR('l', 41) : /* IGNORED: obsolete more(1) fix */ break; //XTERM + case TY_CSI_PR('s', 41) : /* IGNORED: obsolete more(1) fix */ break; //XTERM + case TY_CSI_PR('r', 41) : /* IGNORED: obsolete more(1) fix */ break; //XTERM + + case TY_CSI_PR('h', 47) : setMode (MODE_AppScreen); break; //VT100 + case TY_CSI_PR('l', 47) : resetMode (MODE_AppScreen); break; //VT100 + case TY_CSI_PR('s', 47) : saveMode (MODE_AppScreen); break; //XTERM + case TY_CSI_PR('r', 47) : restoreMode (MODE_AppScreen); break; //XTERM + + case TY_CSI_PR('h', 67) : /* IGNORED: DECBKM */ break; //XTERM + case TY_CSI_PR('l', 67) : /* IGNORED: DECBKM */ break; //XTERM + case TY_CSI_PR('s', 67) : /* IGNORED: DECBKM */ break; //XTERM + case TY_CSI_PR('r', 67) : /* IGNORED: DECBKM */ break; //XTERM + + // XTerm defines the following modes: + // SET_VT200_MOUSE 1000 + // SET_VT200_HIGHLIGHT_MOUSE 1001 + // SET_BTN_EVENT_MOUSE 1002 + // SET_ANY_EVENT_MOUSE 1003 + // + + //Note about mouse modes: + //There are four mouse modes which xterm-compatible terminals can support - 1000,1001,1002,1003 + //Konsole currently supports mode 1000 (basic mouse press and release) and mode 1002 (dragging the mouse). + //TODO: Implementation of mouse modes 1001 (something called hilight tracking) and + //1003 (a slight variation on dragging the mouse) + // + + case TY_CSI_PR('h', 1000) : setMode (MODE_Mouse1000); break; //XTERM + case TY_CSI_PR('l', 1000) : resetMode (MODE_Mouse1000); break; //XTERM + case TY_CSI_PR('s', 1000) : saveMode (MODE_Mouse1000); break; //XTERM + case TY_CSI_PR('r', 1000) : restoreMode (MODE_Mouse1000); break; //XTERM + + case TY_CSI_PR('h', 1001) : /* IGNORED: hilite mouse tracking */ break; //XTERM + case TY_CSI_PR('l', 1001) : resetMode (MODE_Mouse1001); break; //XTERM + case TY_CSI_PR('s', 1001) : /* IGNORED: hilite mouse tracking */ break; //XTERM + case TY_CSI_PR('r', 1001) : /* IGNORED: hilite mouse tracking */ break; //XTERM + + case TY_CSI_PR('h', 1002) : setMode (MODE_Mouse1002); break; //XTERM + case TY_CSI_PR('l', 1002) : resetMode (MODE_Mouse1002); break; //XTERM + case TY_CSI_PR('s', 1002) : saveMode (MODE_Mouse1002); break; //XTERM + case TY_CSI_PR('r', 1002) : restoreMode (MODE_Mouse1002); break; //XTERM + + case TY_CSI_PR('h', 1003) : setMode (MODE_Mouse1003); break; //XTERM + case TY_CSI_PR('l', 1003) : resetMode (MODE_Mouse1003); break; //XTERM + case TY_CSI_PR('s', 1003) : saveMode (MODE_Mouse1003); break; //XTERM + case TY_CSI_PR('r', 1003) : restoreMode (MODE_Mouse1003); break; //XTERM + + case TY_CSI_PR('h', 1047) : setMode (MODE_AppScreen); break; //XTERM + case TY_CSI_PR('l', 1047) : _screen[1]->clearEntireScreen(); resetMode(MODE_AppScreen); break; //XTERM + case TY_CSI_PR('s', 1047) : saveMode (MODE_AppScreen); break; //XTERM + case TY_CSI_PR('r', 1047) : restoreMode (MODE_AppScreen); break; //XTERM + + //FIXME: Unitoken: save translations + case TY_CSI_PR('h', 1048) : saveCursor ( ); break; //XTERM + case TY_CSI_PR('l', 1048) : restoreCursor ( ); break; //XTERM + case TY_CSI_PR('s', 1048) : saveCursor ( ); break; //XTERM + case TY_CSI_PR('r', 1048) : restoreCursor ( ); break; //XTERM + + //FIXME: every once new sequences like this pop up in xterm. + // Here's a guess of what they could mean. + case TY_CSI_PR('h', 1049) : saveCursor(); _screen[1]->clearEntireScreen(); setMode(MODE_AppScreen); break; //XTERM + case TY_CSI_PR('l', 1049) : resetMode(MODE_AppScreen); restoreCursor(); break; //XTERM + + //FIXME: weird DEC reset sequence + case TY_CSI_PE('p' ) : /* IGNORED: reset ( ) */ break; + + //FIXME: when changing between vt52 and ansi mode evtl do some resetting. + case TY_VT52('A' ) : _currentScreen->cursorUp ( 1); break; //VT52 + case TY_VT52('B' ) : _currentScreen->cursorDown ( 1); break; //VT52 + case TY_VT52('C' ) : _currentScreen->cursorRight ( 1); break; //VT52 + case TY_VT52('D' ) : _currentScreen->cursorLeft ( 1); break; //VT52 + + case TY_VT52('F' ) : setAndUseCharset (0, '0'); break; //VT52 + case TY_VT52('G' ) : setAndUseCharset (0, 'B'); break; //VT52 + + case TY_VT52('H' ) : _currentScreen->setCursorYX (1,1 ); break; //VT52 + case TY_VT52('I' ) : _currentScreen->reverseIndex ( ); break; //VT52 + case TY_VT52('J' ) : _currentScreen->clearToEndOfScreen ( ); break; //VT52 + case TY_VT52('K' ) : _currentScreen->clearToEndOfLine ( ); break; //VT52 + case TY_VT52('Y' ) : _currentScreen->setCursorYX (p-31,q-31 ); break; //VT52 + case TY_VT52('Z' ) : reportTerminalType ( ); break; //VT52 + case TY_VT52('<' ) : setMode (MODE_Ansi ); break; //VT52 + case TY_VT52('=' ) : setMode (MODE_AppKeyPad); break; //VT52 + case TY_VT52('>' ) : resetMode (MODE_AppKeyPad); break; //VT52 + + case TY_CSI_PG('c' ) : reportSecondaryAttributes( ); break; //VT100 + + default : ReportErrorToken(); break; + }; +} + +void Vt102Emulation::clearScreenAndSetColumns(int columnCount) +{ + setImageSize(_currentScreen->getLines(),columnCount); + clearEntireScreen(); + setDefaultMargins(); + _currentScreen->setCursorYX(0,0); +} + +/* ------------------------------------------------------------------------- */ +/* */ +/* Terminal to Host protocol */ +/* */ +/* ------------------------------------------------------------------------- */ + +/* + Outgoing bytes originate from several sources: + + - Replies to Enquieries. + - Mouse Events + - Keyboard Events +*/ + +/*! +*/ + +void Vt102Emulation::sendString(const char* s , int length) +{ + if ( length >= 0 ) + emit sendData(s,length); + else + emit sendData(s,strlen(s)); +} + +// Replies ----------------------------------------------------------------- -- + +// This section copes with replies send as response to an enquiery control code. + +/*! +*/ + +void Vt102Emulation::reportCursorPosition() +{ char tmp[20]; + sprintf(tmp,"\033[%d;%dR",_currentScreen->getCursorY()+1,_currentScreen->getCursorX()+1); + sendString(tmp); +} + +/* + What follows here is rather obsolete and faked stuff. + The correspondent enquieries are neverthenless issued. +*/ + +/*! +*/ + +void Vt102Emulation::reportTerminalType() +{ + // Primary device attribute response (Request was: ^[[0c or ^[[c (from TT321 Users Guide)) + // VT220: ^[[?63;1;2;3;6;7;8c (list deps on emul. capabilities) + // VT100: ^[[?1;2c + // VT101: ^[[?1;0c + // VT102: ^[[?6v + if (getMode(MODE_Ansi)) + sendString("\033[?1;2c"); // I'm a VT100 + else + sendString("\033/Z"); // I'm a VT52 +} + +void Vt102Emulation::reportSecondaryAttributes() +{ + // Seconday device attribute response (Request was: ^[[>0c or ^[[>c) + if (getMode(MODE_Ansi)) + sendString("\033[>0;115;0c"); // Why 115? ;) + else + sendString("\033/Z"); // FIXME I don't think VT52 knows about it but kept for + // konsoles backward compatibility. +} + +void Vt102Emulation::reportTerminalParms(int p) +// DECREPTPARM +{ char tmp[100]; + sprintf(tmp,"\033[%d;1;1;112;112;1;0x",p); // not really true. + sendString(tmp); +} + +/*! +*/ + +void Vt102Emulation::reportStatus() +{ + sendString("\033[0n"); //VT100. Device status report. 0 = Ready. +} + +/*! +*/ + +#define ANSWER_BACK "" // This is really obsolete VT100 stuff. + +void Vt102Emulation::reportAnswerBack() +{ + sendString(ANSWER_BACK); +} + +// Mouse Handling ---------------------------------------------------------- -- + +/*! + Mouse clicks are possibly reported to the client + application if it has issued interest in them. + They are normally consumed by the widget for copy + and paste, but may be propagated from the widget + when gui->setMouseMarks is set via setMode(MODE_Mouse1000). + + `x',`y' are 1-based. + `ev' (event) indicates the button pressed (0-2) + or a general mouse release (3). + + eventType represents the kind of mouse action that occurred: + 0 = Mouse button press or release + 1 = Mouse drag +*/ + +void Vt102Emulation::sendMouseEvent( int cb, int cx, int cy , int eventType ) +{ char tmp[20]; + if ( cx<1 || cy<1 ) return; + // normal buttons are passed as 0x20 + button, + // mouse wheel (buttons 4,5) as 0x5c + button + if (cb >= 4) cb += 0x3c; + + //Mouse motion handling + if ( (getMode(MODE_Mouse1002) || getMode(MODE_Mouse1003)) && eventType == 1 ) + cb += 0x20; //add 32 to signify motion event + + sprintf(tmp,"\033[M%c%c%c",cb+0x20,cx+0x20,cy+0x20); + sendString(tmp); +} + +// Keyboard Handling ------------------------------------------------------- -- + +#define encodeMode(M,B) BITS(B,getMode(M)) +#define encodeStat(M,B) BITS(B,((ev->modifiers() & (M)) == (M))) + +void Vt102Emulation::sendText( const QString& text ) +{ + if (!text.isEmpty()) { + QKeyEvent event(QEvent::KeyPress, + 0, + Qt::NoModifier, + text); + sendKeyEvent(&event); // expose as a big fat keypress event + } + +} + +void Vt102Emulation::sendKeyEvent( QKeyEvent* event ) +{ + Qt::KeyboardModifiers modifiers = event->modifiers(); + KeyboardTranslator::States states = KeyboardTranslator::NoState; + + // get current states + if ( getMode(MODE_NewLine) ) states |= KeyboardTranslator::NewLineState; + if ( getMode(MODE_Ansi) ) states |= KeyboardTranslator::AnsiState; + if ( getMode(MODE_AppCuKeys)) states |= KeyboardTranslator::CursorKeysState; + if ( getMode(MODE_AppScreen)) states |= KeyboardTranslator::AlternateScreenState; + + // lookup key binding + if ( _keyTranslator ) + { + KeyboardTranslator::Entry entry = _keyTranslator->findEntry( + event->key() , + modifiers, + states ); + + // send result to terminal + QByteArray textToSend; + + // special handling for the Alt (aka. Meta) modifier. pressing + // Alt+[Character] results in Esc+[Character] being sent + // (unless there is an entry defined for this particular combination + // in the keyboard modifier) + bool wantsAltModifier = entry.modifiers() & entry.modifierMask() & Qt::AltModifier; + bool wantsAnyModifier = entry.state() & entry.stateMask() & KeyboardTranslator::AnyModifierState; + + if ( modifiers & Qt::AltModifier && !(wantsAltModifier || wantsAnyModifier) + && !event->text().isEmpty() ) + { + textToSend.prepend("\033"); + } + + if ( entry.command() != KeyboardTranslator::NoCommand ) + { + if (entry.command() & KeyboardTranslator::EraseCommand) + textToSend += getErase(); + // TODO command handling + } + else if ( !entry.text().isEmpty() ) + { + textToSend += _codec->fromUnicode(entry.text(true,modifiers)); + } + else + textToSend += _codec->fromUnicode(event->text()); + + sendData( textToSend.constData() , textToSend.length() ); + } + else + { + // print an error message to the terminal if no key translator has been + // set + QString translatorError = ("No keyboard translator available. " + "The information needed to convert key presses " + "into characters to send to the terminal " + "is missing."); + + reset(); + receiveData( translatorError.toAscii().constData() , translatorError.count() ); + } +} + +/* ------------------------------------------------------------------------- */ +/* */ +/* VT100 Charsets */ +/* */ +/* ------------------------------------------------------------------------- */ + +// Character Set Conversion ------------------------------------------------ -- + +/* + The processing contains a VT100 specific code translation layer. + It's still in use and mainly responsible for the line drawing graphics. + + These and some other glyphs are assigned to codes (0x5f-0xfe) + normally occupied by the latin letters. Since this codes also + appear within control sequences, the extra code conversion + does not permute with the tokenizer and is placed behind it + in the pipeline. It only applies to tokens, which represent + plain characters. + + This conversion it eventually continued in TerminalDisplay.C, since + it might involve VT100 enhanced fonts, which have these + particular glyphs allocated in (0x00-0x1f) in their code page. +*/ + +#define CHARSET _charset[_currentScreen==_screen[1]] + +// Apply current character map. + +unsigned short Vt102Emulation::applyCharset(unsigned short c) +{ + if (CHARSET.graphic && 0x5f <= c && c <= 0x7e) return vt100_graphics[c-0x5f]; + if (CHARSET.pound && c == '#' ) return 0xa3; //This mode is obsolete + return c; +} + +/* + "Charset" related part of the emulation state. + This configures the VT100 _charset filter. + + While most operation work on the current _screen, + the following two are different. +*/ + +void Vt102Emulation::resetCharset(int scrno) +{ + _charset[scrno].cu_cs = 0; + strncpy(_charset[scrno].charset,"BBBB",4); + _charset[scrno].sa_graphic = false; + _charset[scrno].sa_pound = false; + _charset[scrno].graphic = false; + _charset[scrno].pound = false; +} + +void Vt102Emulation::setCharset(int n, int cs) // on both screens. +{ + _charset[0].charset[n&3] = cs; useCharset(_charset[0].cu_cs); + _charset[1].charset[n&3] = cs; useCharset(_charset[1].cu_cs); +} + +void Vt102Emulation::setAndUseCharset(int n, int cs) +{ + CHARSET.charset[n&3] = cs; + useCharset(n&3); +} + +void Vt102Emulation::useCharset(int n) +{ + CHARSET.cu_cs = n&3; + CHARSET.graphic = (CHARSET.charset[n&3] == '0'); + CHARSET.pound = (CHARSET.charset[n&3] == 'A'); //This mode is obsolete +} + +void Vt102Emulation::setDefaultMargins() +{ + _screen[0]->setDefaultMargins(); + _screen[1]->setDefaultMargins(); +} + +void Vt102Emulation::setMargins(int t, int b) +{ + _screen[0]->setMargins(t, b); + _screen[1]->setMargins(t, b); +} + +/*! Save the cursor position and the rendition attribute settings. */ + +void Vt102Emulation::saveCursor() +{ + CHARSET.sa_graphic = CHARSET.graphic; + CHARSET.sa_pound = CHARSET.pound; //This mode is obsolete + // we are not clear about these + //sa_charset = charsets[cScreen->_charset]; + //sa_charset_num = cScreen->_charset; + _currentScreen->saveCursor(); +} + +/*! Restore the cursor position and the rendition attribute settings. */ + +void Vt102Emulation::restoreCursor() +{ + CHARSET.graphic = CHARSET.sa_graphic; + CHARSET.pound = CHARSET.sa_pound; //This mode is obsolete + _currentScreen->restoreCursor(); +} + +/* ------------------------------------------------------------------------- */ +/* */ +/* Mode Operations */ +/* */ +/* ------------------------------------------------------------------------- */ + +/* + Some of the emulations state is either added to the state of the screens. + + This causes some scoping problems, since different emulations choose to + located the mode either to the current _screen or to both. + + For strange reasons, the extend of the rendition attributes ranges over + all screens and not over the actual _screen. + + We decided on the precise precise extend, somehow. +*/ + +// "Mode" related part of the state. These are all booleans. + +void Vt102Emulation::resetModes() +{ + resetMode(MODE_Mouse1000); saveMode(MODE_Mouse1000); + resetMode(MODE_Mouse1001); saveMode(MODE_Mouse1001); + resetMode(MODE_Mouse1002); saveMode(MODE_Mouse1002); + resetMode(MODE_Mouse1003); saveMode(MODE_Mouse1003); + + resetMode(MODE_AppScreen); saveMode(MODE_AppScreen); + // here come obsolete modes + resetMode(MODE_AppCuKeys); saveMode(MODE_AppCuKeys); + resetMode(MODE_NewLine ); + setMode(MODE_Ansi ); +} + +void Vt102Emulation::setMode(int m) +{ + _currParm.mode[m] = true; + switch (m) + { + case MODE_Mouse1000: + case MODE_Mouse1001: + case MODE_Mouse1002: + case MODE_Mouse1003: + emit programUsesMouseChanged(false); + break; + + case MODE_AppScreen : _screen[1]->clearSelection(); + setScreen(1); + break; + } + if (m < MODES_SCREEN || m == MODE_NewLine) + { + _screen[0]->setMode(m); + _screen[1]->setMode(m); + } +} + +void Vt102Emulation::resetMode(int m) +{ + _currParm.mode[m] = false; + switch (m) + { + case MODE_Mouse1000 : + case MODE_Mouse1001 : + case MODE_Mouse1002 : + case MODE_Mouse1003 : + emit programUsesMouseChanged(true); + break; + + case MODE_AppScreen : _screen[0]->clearSelection(); + setScreen(0); + break; + } + if (m < MODES_SCREEN || m == MODE_NewLine) + { + _screen[0]->resetMode(m); + _screen[1]->resetMode(m); + } +} + +void Vt102Emulation::saveMode(int m) +{ + _saveParm.mode[m] = _currParm.mode[m]; +} + +void Vt102Emulation::restoreMode(int m) +{ + if (_saveParm.mode[m]) + setMode(m); + else + resetMode(m); +} + +bool Vt102Emulation::getMode(int m) +{ + return _currParm.mode[m]; +} + +char Vt102Emulation::getErase() const +{ + KeyboardTranslator::Entry entry = _keyTranslator->findEntry( + Qt::Key_Backspace, + 0, + 0); + if ( entry.text().count() > 0 ) + return entry.text()[0]; + else + return '\b'; +} + +/* ------------------------------------------------------------------------- */ +/* */ +/* Diagnostic */ +/* */ +/* ------------------------------------------------------------------------- */ + +/*! shows the contents of the scan buffer. + + This functions is used for diagnostics. It is called by \e ReportErrorToken + to inform about strings that cannot be decoded or handled by the emulation. + + \sa ReportErrorToken +*/ + +static void hexdump(int* s, int len) +{ int i; + for (i = 0; i < len; i++) + { + if (s[i] == '\\') + printf("\\\\"); + else + if ((s[i]) > 32 && s[i] < 127) + printf("%c",s[i]); + else + printf("\\%04x(hex)",s[i]); + } +} + +void Vt102Emulation::scan_buffer_report() +{ + if (ppos == 0 || ppos == 1 && (pbuf[0] & 0xff) >= 32) return; + printf("token: "); hexdump(pbuf,ppos); printf("\n"); +} + +/*! +*/ + +void Vt102Emulation::ReportErrorToken() +{ +#ifndef NDEBUG + printf("undecodable "); scan_buffer_report(); +#endif +} + +//#include "moc_Vt102Emulation.cpp" + |