/*--------------------------------*-C-*---------------------------------* * File: command.C *----------------------------------------------------------------------* * * All portions of code are copyright by their respective author/s. * Copyright (c) 1992 John Bovey, University of Kent at Canterbury * - original version * Copyright (c) 1994 Robert Nation * - extensive modifications * Copyright (c) 1995 Garrett D'Amore * - vt100 printing * Copyright (c) 1995 Steven Hirsch * - X11 mouse report mode and support for * DEC "private mode" save/restore functions. * Copyright (c) 1995 Jakub Jelinek * - key-related changes to handle Shift+function * keys properly. * Copyright (c) 1997 MJ Olesen * - extensive modifications * Copyright (c) 1997 Raul Garcia Garcia * - modification and cleanups for Solaris 2.x * and Linux 1.2.x * Copyright (c) 1997,1998 Oezguer Kesim * Copyright (c) 1998-2001 Geoff Wing * - extensive modifications * Copyright (c) 1998 Alfredo K. Kojima * Copyright (c) 2001 Marius Gedminas * - Ctrl/Mod4+Tab works like Meta+Tab (options) * Copyright (c) 2003 Rob McMullen * Copyright (c) 2003-2005 Marc Lehmann * * 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., 675 Mass Ave, Cambridge, MA 02139, USA. *----------------------------------------------------------------------*/ /*{{{ includes: */ #include "../config.h" /* NECESSARY */ #include "rxvt.h" /* NECESSARY */ #include "version.h" #include "command.h" #ifdef KEYSYM_RESOURCE # include "keyboard.h" #endif #include /*----------------------------------------------------------------------*/ #define IS_CONTROL(ch) !((ch) & 0xffffff60UL) // exception thrown when the command parser runs out of input data class out_of_input { } out_of_input; #if ENABLE_FRILLS || ISO_14755 #define ISO_14755_STARTED 0x80000000UL #define ISO_14755_51 0x40000000UL // basic (section 5.1) #define ISO_14755_52 0x20000000UL // keycap (section 5.2) #define ISO_14755_54 0x10000000UL // code feedback (section 5.4) #define ISO_14755_MASK 0x0fffffffUL #if ISO_14755 static unsigned short iso14755_symtab[] = { // keysym, unicode XK_Left, 0x2190, XK_KP_Left, 0x2190, XK_Up, 0x2191, XK_KP_Up, 0x2191, XK_Right, 0x2192, XK_KP_Right, 0x2192, XK_Down, 0x2193, XK_KP_Down, 0x2193, XK_Linefeed, 0x21b4, XK_Return, 0x21b5, XK_KP_Enter, 0x21b5, XK_Prior, 0x21de, XK_Next, 0x21df, XK_Tab, 0x21e5, XK_ISO_Left_Tab, 0x21e6, XK_Shift_L, 0x21e7, XK_Shift_R, 0x21e7, XK_Shift_Lock, 0x21eb, XK_ISO_Lock, 0x21eb, XK_ISO_Lock, 0x21eb, XK_Caps_Lock, 0x21ec, XK_Num_Lock, 0x21ed, XK_ISO_Level3_Shift, 0x21ee, XK_ISO_Level3_Lock, 0x21ef, XK_ISO_Group_Lock, 0x21f0, XK_Home, 0x21f1, XK_End, 0x21f2, XK_Execute, 0x2318, XK_Begin, 0x2320, XK_Delete, 0x2326, XK_Clear, 0x2327, XK_BackSpace, 0x232b, XK_Insert, 0x2380, XK_Control_L, 0x2388, XK_Control_R, 0x2388, XK_Pause, 0x2389, XK_Break, 0x238a, XK_Escape, 0x238b, XK_Undo, 0x238c, XK_Print, 0x2399, XK_space, 0x2423, #ifdef XK_KP_Begin XK_KP_Prior, 0x21de, XK_KP_Next, 0x21df, XK_KP_Begin, 0x2320, XK_KP_Insert, 0x2380, XK_KP_Delete, 0x2326, XK_KP_Space, 0x2422, #endif 0, }; void rxvt_term::iso14755_54 (int x, int y) { x = Pixel2Col (x); y = Pixel2Row (y); if (x < 0 || x >= TermWin.ncol || y < 0 || y >= TermWin.nrow) return; for (;;) { text_t t = screen.text[y + TermWin.saveLines - TermWin.view_start][x]; if (t != NOCHAR || !x) { iso14755_51 (screen.text[y + TermWin.saveLines - TermWin.view_start][x], screen.rend[y + TermWin.saveLines - TermWin.view_start][x]); iso14755buf = ISO_14755_54; break; } x--; } } #endif #if ENABLE_OVERLAY void rxvt_term::iso14755_51 (unicode_t ch, rend_t r) { rxvt_fontset *fs = FONTSET (r); rxvt_font *f = (*fs)[fs->find_font (ch)]; wchar_t *chr, *alloc, ch2; int len; #if ENABLE_COMBINING if (IS_COMPOSE (ch)) { len = rxvt_composite.expand (ch, 0); alloc = chr = new wchar_t[len]; rxvt_composite.expand (ch, chr); } else #endif { ch2 = ch; alloc = 0; chr = &ch2; len = 1; } int width = strlen (f->name); scr_overlay_new (0, -1, width < 8+5 ? 8+5 : width, len + 1); r = SET_STYLE (OVERLAY_RSTYLE, GET_STYLE (r)); for (int y = 0; y < len; y++) { char buf[9]; ch = *chr++; sprintf (buf, "%8x", ch); scr_overlay_set (0, y, buf); scr_overlay_set (9, y, '='); #if !UNICODE3 if (ch >= 0x10000) ch = 0xfffd; #endif scr_overlay_set (11, y, ch, r); scr_overlay_set (12, y, NOCHAR, r); } scr_overlay_set (0, len, f->name); #if ENABLE_COMBINING if (alloc) delete [] alloc; #endif } #endif void rxvt_term::commit_iso14755 () { wchar_t ch[2]; ch[0] = iso14755buf & ISO_14755_MASK; ch[1] = 0; if (iso14755buf & ISO_14755_51) { char mb[16]; int len; // allow verbatim 0-bytes and control-bytes to be entered if (ch[0] >= 0x20) len = wcstombs (mb, ch, 16); else { mb[0] = ch[0]; len = 1; } if (len > 0) tt_write ((unsigned char *)mb, len); else scr_bell (); } iso14755buf = 0; } int rxvt_term::hex_keyval (XKeyEvent &ev) { // check wether this event corresponds to a hex digit // if the modifiers had not been pressed. for (int index = 0; index < 8; index++) { KeySym k = XLookupKeysym (&ev, index); if (k >= XK_KP_0 && k <= XK_KP_9) return k - XK_KP_0; else if (k >= XK_0 && k <= XK_9) return k - XK_0; else if (k >= XK_a && k <= XK_f) return k - XK_a + 10; else if (k >= XK_A && k <= XK_F) return k - XK_A + 10; } return -1; } #endif /*{{{ Convert the keypress event into a string */ void rxvt_term::lookup_key (XKeyEvent &ev) { int ctrl, meta, shft, len; unsigned int newlen; KeySym keysym; #ifdef DEBUG_CMD static int debug_key = 1; /* accessible by a debugger only */ #endif int valid_keysym; unsigned char kbuf[KBUFSZ]; /* * use Num_Lock to toggle Keypad on/off. If Num_Lock is off, allow an * escape sequence to toggle the Keypad. * * Always permit `shift' to override the current setting */ shft = ev.state & ShiftMask; ctrl = ev.state & ControlMask; meta = ev.state & ModMetaMask; if (numlock_state || (ev.state & ModNumLockMask)) { numlock_state = (ev.state & ModNumLockMask); PrivMode ((!numlock_state), PrivMode_aplKP); } kbuf[0] = 0; #ifdef USE_XIM if (Input_Context) { Status status_return; #if 0 #ifdef X_HAVE_UTF8_STRING if (enc_utf8 && 0) // currently disabled, doesn't seem to work, nor is useful len = Xutf8LookupString (Input_Context, &ev, (char *)kbuf, KBUFSZ, &keysym, &status_return); else #endif #endif { wchar_t wkbuf[KBUFSZ + 1]; // the XOpenIM manpage lies about hardcoding the locale // at the point of XOpenIM, so temporarily switch locales if (rs[Rs_imLocale]) SET_LOCALE (rs[Rs_imLocale]); // assume wchar_t == unicode or better len = XwcLookupString (Input_Context, &ev, wkbuf, KBUFSZ, &keysym, &status_return); if (rs[Rs_imLocale]) SET_LOCALE (locale); if (status_return == XLookupChars || status_return == XLookupBoth) { /* make sure the user can type ctrl-@, i.e. NUL */ if (len == 1 && *wkbuf == 0) { kbuf[0] = 0; len = 1; } else { wkbuf[len] = 0; len = wcstombs ((char *)kbuf, wkbuf, KBUFSZ); if (len < 0) len = 0; } } else len = 0; } valid_keysym = status_return == XLookupKeySym || status_return == XLookupBoth; } else #endif { len = XLookupString (&ev, (char *)kbuf, KBUFSZ, &keysym, &compose); valid_keysym = keysym != NoSymbol; } if (valid_keysym) { #ifdef KEYSYM_RESOURCE if (keyboard->dispatch (this, keysym, ev.state)) return; #endif if (TermWin.saveLines) { #ifdef UNSHIFTED_SCROLLKEYS if (!ctrl && !meta) #else if (IS_SCROLL_MOD) #endif { int lnsppg; #ifdef PAGING_CONTEXT_LINES lnsppg = TermWin.nrow - PAGING_CONTEXT_LINES; #else lnsppg = TermWin.nrow * 4 / 5; #endif if (keysym == XK_Prior) { scr_page (UP, lnsppg); return; } else if (keysym == XK_Next) { scr_page (DN, lnsppg); return; } } #ifdef SCROLL_ON_UPDOWN_KEYS if (IS_SCROLL_MOD) { if (keysym == XK_Up) { scr_page (UP, 1); return; } else if (keysym == XK_Down) { scr_page (DN, 1); return; } } #endif #ifdef SCROLL_ON_HOMEEND_KEYS if (IS_SCROLL_MOD) { if (keysym == XK_Home) { scr_move_to (0, 1); return; } else if (keysym == XK_End) { scr_move_to (1, 0); return; } } #endif } if (shft) { /* Shift + F1 - F10 generates F11 - F20 */ if (keysym >= XK_F1 && keysym <= XK_F10) { keysym += (XK_F11 - XK_F1); shft = 0; /* turn off Shift */ } else if (!ctrl && !meta && (priv_modes & PrivMode_ShiftKeys)) { switch (keysym) { /* normal XTerm key bindings */ case XK_Insert: /* Shift+Insert = paste mouse selection */ selection_request (ev.time, 0, 0); return; #if TODO /* rxvt extras */ case XK_KP_Add: /* Shift+KP_Add = bigger font */ change_font (FONT_UP); return; case XK_KP_Subtract: /* Shift+KP_Subtract = smaller font */ change_font (FONT_DN); return; #endif } } } #if ENABLE_FRILLS || ISO_14755 // ISO 14755 support if (shft && ctrl) { int hv; if (iso14755buf & ISO_14755_51 && (keysym == XK_space || keysym == XK_KP_Space || keysym == XK_Return || keysym == XK_KP_Enter)) { commit_iso14755 (); iso14755buf = ISO_14755_51; # if ISO_14755 iso14755_51 (0); # endif return; } else if ((hv = hex_keyval (ev)) >= 0) { iso14755buf = ((iso14755buf << 4) & ISO_14755_MASK) | hv | ISO_14755_51; # if ISO_14755 iso14755_51 (iso14755buf & ISO_14755_MASK); # endif return; } else { # if ENABLE_OVERLAY scr_overlay_off (); # endif iso14755buf = 0; } } else if ((ctrl && (keysym == XK_Shift_L || keysym == XK_Shift_R)) || (shft && (keysym == XK_Control_L || keysym == XK_Control_R))) if (!(iso14755buf & ISO_14755_STARTED)) { iso14755buf |= ISO_14755_STARTED; # if ENABLE_OVERLAY scr_overlay_new (0, -1, sizeof ("ISO 14755 mode") - 1, 1); scr_overlay_set (0, 0, "ISO 14755 mode"); # endif } #endif #ifdef PRINTPIPE if (keysym == XK_Print) { scr_printscreen (ctrl | shft); return; } #endif if (keysym >= 0xFF00 && keysym <= 0xFFFF) { { newlen = 1; switch (keysym) { #ifndef NO_BACKSPACE_KEY case XK_BackSpace: if (priv_modes & PrivMode_HaveBackSpace) { kbuf[0] = (!! (priv_modes & PrivMode_BackSpace) ^ !!ctrl) ? '\b' : '\177'; kbuf[1] = '\0'; } else strcpy (kbuf, key_backspace); break; #endif #ifndef NO_DELETE_KEY # ifdef XK_KP_Prior case XK_KP_Delete: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033On"); break; } /* FALLTHROUGH */ # endif case XK_Delete: strcpy (kbuf, key_delete); break; #endif case XK_Tab: if (shft) strcpy (kbuf, "\033[Z"); else { #ifdef CTRL_TAB_MAKES_META if (ctrl) meta = 1; #endif #ifdef MOD4_TAB_MAKES_META if (ev.state & Mod4Mask) meta = 1; #endif newlen = 0; } break; #ifdef XK_KP_Left case XK_KP_Up: /* \033Ox or standard */ case XK_KP_Down: /* \033Or or standard */ case XK_KP_Right: /* \033Ov or standard */ case XK_KP_Left: /* \033Ot or standard */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033OZ"); kbuf[2] = "txvr"[keysym - XK_KP_Left]; break; } else /* translate to std. cursor key */ keysym = XK_Left + (keysym - XK_KP_Left); /* FALLTHROUGH */ #endif case XK_Up: /* "\033[A" */ case XK_Down: /* "\033[B" */ case XK_Right: /* "\033[C" */ case XK_Left: /* "\033[D" */ strcpy (kbuf, "\033[Z"); kbuf[2] = "DACB"[keysym - XK_Left]; /* do Shift first */ if (shft) kbuf[2] = "dacb"[keysym - XK_Left]; else if (ctrl) { kbuf[1] = 'O'; kbuf[2] = "dacb"[keysym - XK_Left]; } else if (priv_modes & PrivMode_aplCUR) kbuf[1] = 'O'; break; #ifndef UNSHIFTED_SCROLLKEYS # ifdef XK_KP_Prior case XK_KP_Prior: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033Oy"); break; } /* FALLTHROUGH */ # endif case XK_Prior: strcpy (kbuf, "\033[5~"); break; # ifdef XK_KP_Next case XK_KP_Next: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033Os"); break; } /* FALLTHROUGH */ # endif case XK_Next: strcpy (kbuf, "\033[6~"); break; #endif case XK_KP_Enter: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033OM"); break; } /* FALLTHROUGH */ case XK_Return: if (priv_modes & PrivMode_LFNL) { kbuf[0] = '\015'; kbuf[1] = '\012'; kbuf[2] = '\0'; } else { kbuf[0] = '\015'; kbuf[1] = '\0'; } break; #ifdef XK_KP_Begin case XK_KP_Begin: strcpy (kbuf, "\033Ou"); break; #endif case XK_KP_F1: /* "\033OP" */ case XK_KP_F2: /* "\033OQ" */ case XK_KP_F3: /* "\033OR" */ case XK_KP_F4: /* "\033OS" */ strcpy (kbuf, "\033OP"); kbuf[2] += (keysym - XK_KP_F1); break; case XK_KP_Multiply: /* "\033Oj" : "*" */ case XK_KP_Add: /* "\033Ok" : "+" */ case XK_KP_Separator: /* "\033Ol" : "," */ case XK_KP_Subtract: /* "\033Om" : "-" */ case XK_KP_Decimal: /* "\033On" : "." */ case XK_KP_Divide: /* "\033Oo" : "/" */ case XK_KP_0: /* "\033Op" : "0" */ case XK_KP_1: /* "\033Oq" : "1" */ case XK_KP_2: /* "\033Or" : "2" */ case XK_KP_3: /* "\033Os" : "3" */ case XK_KP_4: /* "\033Ot" : "4" */ case XK_KP_5: /* "\033Ou" : "5" */ case XK_KP_6: /* "\033Ov" : "6" */ case XK_KP_7: /* "\033Ow" : "7" */ case XK_KP_8: /* "\033Ox" : "8" */ case XK_KP_9: /* "\033Oy" : "9" */ /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033Oj"); kbuf[2] += (keysym - XK_KP_Multiply); } else { kbuf[0] = ('*' + (keysym - XK_KP_Multiply)); kbuf[1] = '\0'; } break; case XK_Find: strcpy (kbuf, "\033[1~"); break; #ifdef XK_KP_End case XK_KP_Insert: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033Op"); break; } /* FALLTHROUGH */ #endif case XK_Insert: strcpy (kbuf, "\033[2~"); break; #ifdef DXK_Remove /* support for DEC remove like key */ case DXK_Remove: /* FALLTHROUGH */ #endif case XK_Execute: strcpy (kbuf, "\033[3~"); break; case XK_Select: strcpy (kbuf, "\033[4~"); break; #ifdef XK_KP_End case XK_KP_End: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033Oq"); break; } /* FALLTHROUGH */ #endif case XK_End: strcpy (kbuf, KS_END); break; #ifdef XK_KP_Home case XK_KP_Home: /* allow shift to override */ if ((priv_modes & PrivMode_aplKP) ? !shft : shft) { strcpy (kbuf, "\033Ow"); break; } /* FALLTHROUGH */ #endif case XK_Home: strcpy (kbuf, KS_HOME); break; #define FKEY(n, fkey) \ sprintf ((char *)kbuf,"\033[%2d~", (int) ((n) + (keysym - fkey))) case XK_F1: /* "\033[11~" */ case XK_F2: /* "\033[12~" */ case XK_F3: /* "\033[13~" */ case XK_F4: /* "\033[14~" */ case XK_F5: /* "\033[15~" */ FKEY (11, XK_F1); break; case XK_F6: /* "\033[17~" */ case XK_F7: /* "\033[18~" */ case XK_F8: /* "\033[19~" */ case XK_F9: /* "\033[20~" */ case XK_F10: /* "\033[21~" */ FKEY (17, XK_F6); break; case XK_F11: /* "\033[23~" */ case XK_F12: /* "\033[24~" */ case XK_F13: /* "\033[25~" */ case XK_F14: /* "\033[26~" */ FKEY (23, XK_F11); break; case XK_F15: /* "\033[28~" */ case XK_F16: /* "\033[29~" */ FKEY (28, XK_F15); break; case XK_Help: /* "\033[28~" */ FKEY (28, XK_Help); break; case XK_Menu: /* "\033[29~" */ FKEY (29, XK_Menu); break; case XK_F17: /* "\033[31~" */ case XK_F18: /* "\033[32~" */ case XK_F19: /* "\033[33~" */ case XK_F20: /* "\033[34~" */ case XK_F21: /* "\033[35~" */ case XK_F22: /* "\033[36~" */ case XK_F23: /* "\033[37~" */ case XK_F24: /* "\033[38~" */ case XK_F25: /* "\033[39~" */ case XK_F26: /* "\033[40~" */ case XK_F27: /* "\033[41~" */ case XK_F28: /* "\033[42~" */ case XK_F29: /* "\033[43~" */ case XK_F30: /* "\033[44~" */ case XK_F31: /* "\033[45~" */ case XK_F32: /* "\033[46~" */ case XK_F33: /* "\033[47~" */ case XK_F34: /* "\033[48~" */ case XK_F35: /* "\033[49~" */ FKEY (31, XK_F17); break; #undef FKEY default: newlen = 0; break; } if (newlen) len = strlen (kbuf); } /* * Pass meta for all function keys, if 'meta' option set */ #ifdef META8_OPTION if (meta && (meta_char == 0x80) && len > 0) kbuf[len - 1] |= 0x80; #endif } else if (ctrl && keysym == XK_minus) { len = 1; kbuf[0] = '\037'; /* Ctrl-Minus generates ^_ (31) */ } else if (keysym == XK_ISO_Left_Tab) { strcpy (kbuf, "\033[Z"); len = 3; } else { #ifdef META8_OPTION /* set 8-bit on */ if (meta && (meta_char == 0x80)) { unsigned char *ch; for (ch = kbuf; ch < kbuf + len; ch++) *ch |= 0x80; meta = 0; } #endif /* nil */ ; } } if (len <= 0) return; /* not mapped */ if (options & Opt_scrollTtyKeypress) if (TermWin.view_start) { TermWin.view_start = 0; want_refresh = 1; } /* * these modifications only affect the static keybuffer * pass Shift/Control indicators for function keys ending with `~' * * eg, * Prior = "ESC[5~" * Shift+Prior = "ESC[5$" * Ctrl+Prior = "ESC[5^" * Ctrl+Shift+Prior = "ESC[5@" * Meta adds an Escape prefix (with META8_OPTION, if meta == ). */ if (kbuf[0] == C0_ESC && kbuf[1] == '[' && kbuf[len - 1] == '~') kbuf[len - 1] = (shft ? (ctrl ? '@' : '$') : (ctrl ? '^' : '~')); /* escape prefix */ if (meta #ifdef META8_OPTION && meta_char == C0_ESC #endif ) { const unsigned char ch = C0_ESC; tt_write (&ch, 1); } #if defined(DEBUG_CMD) /* Display keyboard buffer contents */ unsigned char *p; int i; fprintf (stderr, "key 0x%04X [%d]: `", (unsigned int)keysym, len); for (i = 0, p = kbuf; i < len; i++, p++) fprintf (stderr, (*p >= ' ' && *p < '\177' ? "%c" : "\\%03o"), *p); fprintf (stderr, "'\n"); #endif /* DEBUG_CMD */ tt_write (kbuf, (unsigned int)len); } /*}}} */ #if MENUBAR_MAX || defined (KEYSYM_RESOURCE) /*{{{ rxvt_cmd_write (), rxvt_cmd_getc () */ /* attempt to `write' count to the input buffer */ unsigned int rxvt_term::cmd_write (const unsigned char *str, unsigned int count) { unsigned int n, s; n = cmdbuf_ptr - cmdbuf_base; s = cmdbuf_base + CBUFSIZ - 1 - cmdbuf_endp; if (n > 0 && s < count) { memmove (cmdbuf_base, cmdbuf_ptr, (unsigned int) (cmdbuf_endp - cmdbuf_ptr)); cmdbuf_ptr = cmdbuf_base; cmdbuf_endp -= n; s += n; } if (count > s) { rxvt_warn ("data loss: cmd_write too large, continuing.\n"); count = s; } for (; count--;) *cmdbuf_endp++ = *str++; cmd_parse (); return 0; } #endif void rxvt_term::flush () { flush_ev.stop (); #ifdef TRANSPARENT if (want_full_refresh) { want_full_refresh = 0; scr_clear (); scr_touch (false); } #endif if (want_refresh) { scr_refresh (refresh_type); scrollbar_show (1); #ifdef USE_XIM IMSendSpot (); #endif } display->flush (); } void rxvt_term::check_cb (check_watcher &w) { SET_R (this); SET_LOCALE (locale); display->flush (); if (want_refresh && !flush_ev.active) flush_ev.start (NOW + 0.01); } void rxvt_term::flush_cb (time_watcher &w) { SET_R (this); SET_LOCALE (locale); refresh_limit = 1; refresh_count = 0; flush (); } #ifdef CURSOR_BLINK void rxvt_term::cursor_blink_cb (time_watcher &w) { hidden_cursor = !hidden_cursor; want_refresh = 1; w.start (w.at + BLINK_INTERVAL); } #endif #ifdef TEXT_BLINK void rxvt_term::text_blink_cb (time_watcher &w) { if (scr_refresh_rend (RS_Blink, RS_Blink)) { hidden_text = !hidden_text; want_refresh = 1; w.start (w.at + TEXT_BLINK_INTERVAL); } } #endif #ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING void rxvt_term::cont_scroll_cb (time_watcher &w) { if ((scrollbar_isUp() || scrollbar_isDn()) && scr_page (scrollbar_isUp() ? UP : DN, 1)) { refresh_type |= SMOOTH_REFRESH; want_refresh = 1; w.start (w.at + SCROLLBAR_CONTINUOUS_DELAY); } } #endif #ifdef SELECTION_SCROLLING void rxvt_term::sel_scroll_cb (time_watcher &w) { if (scr_page (scroll_selection_dir, scroll_selection_lines)) { selection_extend (selection_save_x, selection_save_y, selection_save_state); refresh_type |= SMOOTH_REFRESH; want_refresh = 1; w.start (w.at + SCROLLBAR_CONTINUOUS_DELAY); } } #endif #if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING) void rxvt_term::slip_wheel_cb (time_watcher &w) { if (mouse_slip_wheel_speed == 0 || mouse_slip_wheel_speed < 0 ? scr_page (DN, -mouse_slip_wheel_speed) : scr_page (UP, mouse_slip_wheel_speed)) { if (TermWin.view_start == TermWin.nscrolled || TermWin.view_start == 0) mouse_slip_wheel_speed = 0; refresh_type |= SMOOTH_REFRESH; want_refresh = 1; w.start (w.at + SCROLLBAR_CONTINUOUS_DELAY); } } #endif bool rxvt_term::pty_fill () { ssize_t n = cmdbuf_endp - cmdbuf_ptr; if (CBUFSIZ == n) { rxvt_warn ("pty_fill on full buffer, draining input, continuing.\n"); n = 0; } memmove (cmdbuf_base, cmdbuf_ptr, n); cmdbuf_ptr = cmdbuf_base; cmdbuf_endp = cmdbuf_ptr + n; n = read (pty.pty, cmdbuf_endp, CBUFSIZ - n); if (n > 0) { cmdbuf_endp += n; return true; } else if (n < 0 && errno != EAGAIN) destroy (); return false; } void rxvt_term::pty_cb (io_watcher &w, short revents) { SET_R (this); SET_LOCALE (locale); if (revents & EVENT_READ) // loop, but don't allow a single term to monopolize us while (pty_fill ()) if (cmd_parse ()) break; if (revents & EVENT_WRITE) pty_write (); } void rxvt_term::pointer_unblank () { XDefineCursor (display->display, TermWin.vt, TermWin_cursor); recolour_cursor (); #ifdef POINTER_BLANK hidden_pointer = 0; if (options & Opt_pointerBlank) pointer_ev.start (NOW + pointerBlankDelay); #endif } #ifdef POINTER_BLANK void rxvt_term::pointer_blank () { if (! (options & Opt_pointerBlank)) return; XDefineCursor (display->display, TermWin.vt, display->blank_cursor); XFlush (display->display); hidden_pointer = 1; } void rxvt_term::pointer_cb (time_watcher &w) { SET_R (this); SET_LOCALE (locale); pointer_blank (); } #endif void rxvt_term::mouse_report (XButtonEvent &ev) { int button_number, key_state = 0; int x, y; x = ev.x; y = ev.y; pixel_position (&x, &y); if (MEvent.button == AnyButton) button_number = 3; else { button_number = MEvent.button - Button1; /* add 0x3D for wheel events, like xterm does */ if (button_number >= 3) button_number += (64 - 3); } if (priv_modes & PrivMode_MouseX10) { /* * do not report ButtonRelease * no state info allowed */ key_state = 0; if (button_number == 3) return; } else { /* XTerm mouse reporting needs these values: * 4 = Shift * 8 = Meta * 16 = Control * plus will add in our own Double-Click reporting * 32 = Double Click */ key_state = ((MEvent.state & ShiftMask) ? 4 : 0) + ((MEvent.state & ModMetaMask) ? 8 : 0) + ((MEvent.state & ControlMask) ? 16 : 0); #ifdef MOUSE_REPORT_DOUBLECLICK key_state += ((MEvent.clicks > 1) ? 32 : 0); #endif } #if DEBUG_MOUSEREPORT fprintf (stderr, "Mouse ["); if (key_state & 16) fputc ('C', stderr); if (key_state & 4) fputc ('S', stderr); if (key_state & 8) fputc ('A', stderr); if (key_state & 32) fputc ('2', stderr); fprintf (stderr, "]: <%d>, %d/%d\n", button_number, x + 1, y + 1); #endif tt_printf ("\033[M%c%c%c", (32 + button_number + key_state), (32 + x + 1), (32 + y + 1)); } #ifdef USING_W11LIB void rxvt_W11_process_x_event (XEvent *ev) { rxvt_t *r = rxvt_get_r (); x_cb (*ev); } #endif /*{{{ process an X event */ void rxvt_term::x_cb (XEvent &ev) { dDisp; SET_R (this); SET_LOCALE (locale); #if defined(CURSOR_BLINK) if ((options & Opt_cursorBlink) && ev.type == KeyPress) { if (hidden_cursor) { hidden_cursor = 0; want_refresh = 1; } cursor_blink_ev.start (NOW + BLINK_INTERVAL); } #endif #if defined(POINTER_BLANK) if ((options & Opt_pointerBlank) && pointerBlankDelay > 0) { if (ev.type == MotionNotify || ev.type == ButtonPress || ev.type == ButtonRelease) if (hidden_pointer) pointer_unblank (); if (ev.type == KeyPress && hidden_pointer == 0) pointer_blank (); } #endif Window unused_root, unused_child; int unused_root_x, unused_root_y; unsigned int unused_mask; switch (ev.type) { case KeyPress: #if ISO_14755 if (!(iso14755buf & ISO_14755_52)) #endif lookup_key (ev.xkey); break; case KeyRelease: { #if (MOUSE_WHEEL && MOUSE_SLIP_WHEELING) || ISO_14755 KeySym ks; ks = XLookupKeysym (&ev.xkey, ev.xkey.state & ShiftMask ? 1 : 0); // sorry, only shift supported :/ #endif #if ENABLE_FRILLS || ISO_14755 // ISO 14755 support if (iso14755buf) if (iso14755buf & ISO_14755_52) { # if ENABLE_OVERLAY scr_overlay_off (); # endif # if ISO_14755 // iso14755 part 5.2 handling: release time // first: controls if ((ev.xkey.state & ControlMask) && ((ks >= 0x40 && ks <= 0x5f) || (ks >= 0x61 && ks <= 0x7f))) { iso14755buf = ISO_14755_51 | 0x2400 | (ks & 0x1f); commit_iso14755 (); return; // case-break; } for (unsigned short *i = iso14755_symtab; i[0]; i+= 2) if (i[0] == ks) { iso14755buf = ISO_14755_51 | i[1]; commit_iso14755 (); return; // case-break; } scr_bell (); # endif iso14755buf = 0; break; } else if ((ev.xkey.state & (ShiftMask | ControlMask)) != (ShiftMask | ControlMask)) { # if ENABLE_OVERLAY scr_overlay_off (); # endif if (iso14755buf & ISO_14755_51) commit_iso14755 (); #if ISO_14755 else if (iso14755buf & ISO_14755_STARTED) { iso14755buf = ISO_14755_52; // iso14755 part 5.2: remember empty begin/end pair scr_overlay_new (0, -1, sizeof ("KEYCAP PICTURE INSERT MODE") - 1, 1); scr_overlay_set (0, 0, "KEYCAP PICTURE INSERT MODE"); } # endif else iso14755buf = 0; } #endif #if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING) if (!(ev.xkey.state & ControlMask)) slip_wheel_ev.stop (); else if (ks == XK_Control_L || ks == XK_Control_R) mouse_slip_wheel_speed = 0; #endif break; } case ButtonPress: button_press (ev.xbutton); break; case ButtonRelease: button_release (ev.xbutton); break; case ClientMessage: if (ev.xclient.format == 32 && ev.xclient.message_type == xa[XA_WM_PROTOCOLS]) { if (ev.xclient.data.l[0] == xa[XA_WM_DELETE_WINDOW]) destroy (); #if ENABLE_EWMH else if (ev.xclient.data.l[0] == xa[XA_NET_WM_PING]) XSendEvent (disp, ev.xclient.window = display->root, False, SubstructureRedirectMask | SubstructureNotifyMask, &ev); #endif } #if ENABLE_XEMBED else if (ev.xclient.format == 32 && ev.xclient.message_type == xa[XA_XEMBED]) { if (ev.xclient.data.l[1] == XEMBED_FOCUS_IN) focus_in (); else if (ev.xclient.data.l[1] == XEMBED_FOCUS_OUT) focus_out (); } #endif #ifdef OFFIX_DND /* OffiX Dnd (drag 'n' drop) protocol */ else if (ev.xclient.message_type == xa[XA_DNDPROTOCOL] && (ev.xclient.data.l[0] == DndFile || ev.xclient.data.l[0] == DndDir || ev.xclient.data.l[0] == DndLink)) { /* Get Dnd data */ Atom ActualType; int ActualFormat; unsigned char *data; unsigned long Size, RemainingBytes; XGetWindowProperty (disp, display->root, xa[XA_DNDSELECTION], 0L, 1000000L, False, AnyPropertyType, &ActualType, &ActualFormat, &Size, &RemainingBytes, &data); set_string_property (XA_CUT_BUFFER0, data); XFree (data); selection_paste (display->root, XA_CUT_BUFFER0, true); XSetInputFocus (disp, display->root, RevertToNone, CurrentTime); } #endif /* OFFIX_DND */ break; case MappingNotify: XRefreshKeyboardMapping (&ev.xmapping); break; /* * XXX: this is not the _current_ arrangement * Here's my conclusion: * If the window is completely unobscured, use bitblt's * to scroll. Even then, they're only used when doing partial * screen scrolling. When partially obscured, we have to fill * in the GraphicsExpose parts, which means that after each refresh, * we need to wait for the graphics expose or Noexpose events, * which ought to make things real slow! */ case VisibilityNotify: switch (ev.xvisibility.state) { case VisibilityUnobscured: refresh_type = FAST_REFRESH; break; case VisibilityPartiallyObscured: refresh_type = SLOW_REFRESH; break; default: refresh_type = NO_REFRESH; break; } break; case FocusIn: focus_in (); break; case FocusOut: focus_out (); break; case ConfigureNotify: if (ev.xconfigure.window == TermWin.parent[0]) { int height, width; do { /* Wrap lots of configures into one */ width = ev.xconfigure.width; height = ev.xconfigure.height; D_SIZE ((stderr, "Size: ConfigureNotify: %4d x %4d", width, height)); } while (XCheckTypedWindowEvent (disp, ev.xconfigure.window, ConfigureNotify, &ev)); if (szHint.width != width || szHint.height != height) { seen_resize = 1; resize_all_windows (width, height, 1); } #ifdef TRANSPARENT /* XXX: maybe not needed - leave in for now */ if (options & Opt_transparent) check_our_parents (); #endif } break; case PropertyNotify: if (ev.xproperty.atom == xa[XA_VT_SELECTION] && ev.xproperty.state == PropertyNewValue) selection_property (ev.xproperty.window, ev.xproperty.atom); break; case SelectionClear: selection_clear (); break; case SelectionNotify: if (selection_wait == Sel_normal) selection_paste (ev.xselection.requestor, ev.xselection.property, true); break; case SelectionRequest: selection_send (ev.xselectionrequest); break; case UnmapNotify: TermWin.mapped = 0; #ifdef TEXT_BLINK text_blink_ev.stop (); #endif break; case MapNotify: TermWin.mapped = 1; #ifdef TEXT_BLINK text_blink_ev.start (NOW + TEXT_BLINK_INTERVAL); #endif break; #ifdef TRANSPARENT case ReparentNotify: rootwin_cb (ev); break; #endif /* TRANSPARENT */ case GraphicsExpose: case Expose: if (ev.xany.window == TermWin.vt) { do scr_expose (ev.xexpose.x, ev.xexpose.y, ev.xexpose.width, ev.xexpose.height, False); while (XCheckTypedWindowEvent (disp, TermWin.vt, ev.xany.type, &ev)); ev.xany.type = ev.xany.type == Expose ? GraphicsExpose : Expose; while (XCheckTypedWindowEvent (disp, TermWin.vt, ev.xany.type, &ev)) scr_expose (ev.xexpose.x, ev.xexpose.y, ev.xexpose.width, ev.xexpose.height, False); scr_refresh (refresh_type); } else { XEvent unused_event; while (XCheckTypedWindowEvent (disp, ev.xany.window, Expose, &unused_event)) ; while (XCheckTypedWindowEvent (disp, ev.xany.window, GraphicsExpose, &unused_event)) ; if (isScrollbarWindow (ev.xany.window)) { scrollBar.setIdle (); scrollbar_show (0); } #ifdef MENUBAR if (menubar_visible () && isMenuBarWindow (ev.xany.window)) menubar_expose (); #endif #ifdef TRANSPARENT if (am_transparent && ev.xany.window == TermWin.parent[0]) XClearWindow (disp, ev.xany.window); #endif } break; case MotionNotify: #ifdef POINTER_BLANK if (hidden_pointer) pointer_unblank (); #endif #if MENUBAR if (isMenuBarWindow (ev.xany.window)) { menubar_control (ev.xbutton); break; } #endif if ((priv_modes & PrivMode_mouse_report) && !bypass_keystate) break; if (ev.xany.window == TermWin.vt) { if (ev.xbutton.state & (Button1Mask | Button3Mask)) { while (XCheckTypedWindowEvent (disp, TermWin.vt, MotionNotify, &ev)) ; XQueryPointer (disp, TermWin.vt, &unused_root, &unused_child, &unused_root_x, &unused_root_y, &ev.xbutton.x, &ev.xbutton.y, &ev.xbutton.state); #ifdef MOUSE_THRESHOLD /* deal with a `jumpy' mouse */ if ((ev.xmotion.time - MEvent.time) > MOUSE_THRESHOLD) { #endif #if ISO_14755 // 5.4 if (iso14755buf & (ISO_14755_STARTED | ISO_14755_54)) { iso14755_54 (ev.xbutton.x, ev.xbutton.y); break; } #endif selection_extend (ev.xbutton.x, ev.xbutton.y, ev.xbutton.state & Button3Mask ? 2 : 0); #ifdef SELECTION_SCROLLING if (ev.xbutton.y < TermWin.int_bwidth || Pixel2Row (ev.xbutton.y) > (TermWin.nrow-1)) { int dist; /* don't clobber the current delay if we are * already in the middle of scrolling. */ if (!sel_scroll_ev.active) sel_scroll_ev.start (NOW + SCROLLBAR_INITIAL_DELAY); /* save the event params so we can highlight * the selection in the pending-scroll loop */ selection_save_x = ev.xbutton.x; selection_save_y = ev.xbutton.y; selection_save_state = (ev.xbutton.state & Button3Mask) ? 2 : 0; /* calc number of lines to scroll */ if (ev.xbutton.y < TermWin.int_bwidth) { scroll_selection_dir = UP; dist = TermWin.int_bwidth - ev.xbutton.y; } else { scroll_selection_dir = DN; dist = ev.xbutton.y - (TermWin.int_bwidth + TermWin.height); } scroll_selection_lines = Pixel2Height (dist) / SELECTION_SCROLL_LINE_SPEEDUP + 1; MIN_IT (scroll_selection_lines, SELECTION_SCROLL_MAX_LINES); } else { /* we are within the text window, so we * shouldn't be scrolling */ if (sel_scroll_ev.active) sel_scroll_ev.stop(); } #endif #ifdef MOUSE_THRESHOLD } #endif } } else if (isScrollbarWindow (ev.xany.window) && scrollbar_isMotion ()) { while (XCheckTypedWindowEvent (disp, scrollBar.win, MotionNotify, &ev)) ; XQueryPointer (disp, scrollBar.win, &unused_root, &unused_child, &unused_root_x, &unused_root_y, &ev.xbutton.x, &ev.xbutton.y, &unused_mask); scr_move_to (scrollbar_position (ev.xbutton.y) - csrO, scrollbar_size ()); scr_refresh (refresh_type); refresh_limit = 0; scrollbar_show (1); } break; } } void rxvt_term::focus_in () { if (!TermWin.focus) { TermWin.focus = 1; want_refresh = 1; #ifdef USE_XIM if (Input_Context != NULL) { IMSetStatusPosition (); XSetICFocus (Input_Context); } #endif #ifdef CURSOR_BLINK if (options & Opt_cursorBlink) cursor_blink_ev.start (NOW + BLINK_INTERVAL); #endif #ifdef OFF_FOCUS_FADING if (rs[Rs_fade]) { pix_colors = pix_colors_focused; scr_recolour (); } #endif } } void rxvt_term::focus_out () { if (TermWin.focus) { TermWin.focus = 0; want_refresh = 1; #if ENABLE_FRILLS || ISO_14755 iso14755buf = 0; #endif #if ENABLE_OVERLAY scr_overlay_off (); #endif #ifdef USE_XIM if (Input_Context != NULL) XUnsetICFocus (Input_Context); #endif #ifdef CURSOR_BLINK if (options & Opt_cursorBlink) cursor_blink_ev.stop (); hidden_cursor = 0; #endif #ifdef OFF_FOCUS_FADING if (rs[Rs_fade]) { pix_colors = pix_colors_unfocused; scr_recolour (); } #endif } } #if TRANSPARENT void rxvt_term::rootwin_cb (XEvent &ev) { SET_R (this); SET_LOCALE (locale); switch (ev.type) { case PropertyNotify: /* * if user used some Esetroot compatible prog to set the root bg, * use the property to determine the pixmap. We use it later on. */ if (ev.xproperty.atom != xa[XA_XROOTPMAP_ID] && ev.xproperty.atom != xa[XA_ESETROOT_PMAP_ID]) return; /* FALLTHROUGH */ case ReparentNotify: if ((options & Opt_transparent) && check_our_parents () && am_transparent) want_refresh = want_full_refresh = 1; break; } } #endif void rxvt_term::button_press (XButtonEvent &ev) { int reportmode = 0, clickintime; bypass_keystate = ev.state & (ModMetaMask | ShiftMask); if (!bypass_keystate) reportmode = !! (priv_modes & PrivMode_mouse_report); /* * VT window processing of button press */ if (ev.window == TermWin.vt) { #if ISO_14755 // 5.4 if (iso14755buf & (ISO_14755_STARTED | ISO_14755_54)) { iso14755_54 (ev.x, ev.y); return; } #endif clickintime = ev.time - MEvent.time < MULTICLICK_TIME; if (reportmode) { /* mouse report from vt window */ /* save the xbutton state (for ButtonRelease) */ MEvent.state = ev.state; #ifdef MOUSE_REPORT_DOUBLECLICK if (ev.button == MEvent.button && clickintime) { /* same button, within alloted time */ MEvent.clicks++; if (MEvent.clicks > 1) { /* only report double clicks */ MEvent.clicks = 2; mouse_report (ev); /* don't report the release */ MEvent.clicks = 0; MEvent.button = AnyButton; } } else { /* different button, or time expired */ MEvent.clicks = 1; MEvent.button = ev.button; mouse_report (ev); } #else MEvent.button = ev.button; mouse_report (ev); #endif /* MOUSE_REPORT_DOUBLECLICK */ } else { if (ev.button != MEvent.button) MEvent.clicks = 0; switch (ev.button) { case Button1: /* allow meta + click to select rectangular areas */ /* should be done in screen.C */ #if ENABLE_FRILLS selection.rect = !!(ev.state & ModMetaMask); #else selection.rect = false; #endif /* allow shift+left click to extend selection */ if (ev.state & ShiftMask && ! (priv_modes & PrivMode_mouse_report)) { if (MEvent.button == Button1 && clickintime) selection_rotate (ev.x, ev.y); else selection_extend (ev.x, ev.y, 1); } else { if (MEvent.button == Button1 && clickintime) MEvent.clicks++; else MEvent.clicks = 1; selection_click (MEvent.clicks, ev.x, ev.y); } MEvent.button = Button1; break; case Button3: if (MEvent.button == Button3 && clickintime) selection_rotate (ev.x, ev.y); else selection_extend (ev.x, ev.y, 1); MEvent.button = Button3; break; } } MEvent.time = ev.time; return; } /* * Scrollbar window processing of button press */ if (isScrollbarWindow (ev.window)) { scrollBar.setIdle (); /* * Rxvt-style scrollbar: * move up if mouse is above slider * move dn if mouse is below slider * * XTerm-style scrollbar: * Move display proportional to pointer location * pointer near top -> scroll one line * pointer near bot -> scroll full page */ #ifndef NO_SCROLLBAR_REPORT if (reportmode) { /* * Mouse report disabled scrollbar: * arrow buttons - send up/down * click on scrollbar - send pageup/down */ if ((scrollBar.style == R_SB_NEXT && scrollbarnext_upButton (ev.y)) || (scrollBar.style == R_SB_RXVT && scrollbarrxvt_upButton (ev.y))) tt_printf ("\033[A"); else if ((scrollBar.style == R_SB_NEXT && scrollbarnext_dnButton (ev.y)) || (scrollBar.style == R_SB_RXVT && scrollbarrxvt_dnButton (ev.y))) tt_printf ("\033[B"); else switch (ev.button) { case Button2: tt_printf ("\014"); break; case Button1: tt_printf ("\033[6~"); break; case Button3: tt_printf ("\033[5~"); break; } } else #endif /* NO_SCROLLBAR_REPORT */ { char upordown = 0; if (scrollBar.style == R_SB_NEXT) { if (scrollbarnext_upButton (ev.y)) upordown = -1; /* up */ else if (scrollbarnext_dnButton (ev.y)) upordown = 1; /* down */ } else if (scrollBar.style == R_SB_RXVT) { if (scrollbarrxvt_upButton (ev.y)) upordown = -1; /* up */ else if (scrollbarrxvt_dnButton (ev.y)) upordown = 1; /* down */ } if (upordown) { #ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING cont_scroll_ev.start (NOW + SCROLLBAR_INITIAL_DELAY); #endif if (scr_page (upordown < 0 ? UP : DN, 1)) { if (upordown < 0) scrollBar.setUp (); else scrollBar.setDn (); } } else switch (ev.button) { case Button2: switch (scrollbar_align) { case R_SB_ALIGN_TOP: csrO = 0; break; case R_SB_ALIGN_CENTRE: csrO = (scrollBar.bot - scrollBar.top) / 2; break; case R_SB_ALIGN_BOTTOM: csrO = scrollBar.bot - scrollBar.top; break; } if (scrollBar.style == R_SB_XTERM || scrollbar_above_slider (ev.y) || scrollbar_below_slider (ev.y)) scr_move_to (scrollbar_position (ev.y) - csrO, scrollbar_size ()); scrollBar.setMotion (); break; case Button1: if (scrollbar_align == R_SB_ALIGN_CENTRE) csrO = ev.y - scrollBar.top; /* FALLTHROUGH */ case Button3: if (scrollBar.style != R_SB_XTERM) { if (scrollbar_above_slider (ev.y)) # ifdef RXVT_SCROLL_FULL scr_page (UP, TermWin.nrow - 1); # else scr_page (UP, TermWin.nrow / 4); # endif else if (scrollbar_below_slider (ev.y)) # ifdef RXVT_SCROLL_FULL scr_page (DN, TermWin.nrow - 1); # else scr_page (DN, TermWin.nrow / 4); # endif else scrollBar.setMotion (); } else { scr_page ((ev.button == Button1 ? DN : UP), (TermWin.nrow * scrollbar_position (ev.y) / scrollbar_size ())); } break; } } return; } #if MENUBAR /* * Menubar window processing of button press */ if (isMenuBarWindow (ev.window)) menubar_control (ev); #endif } void rxvt_term::button_release (XButtonEvent &ev) { int reportmode = 0; csrO = 0; /* reset csr Offset */ if (!bypass_keystate) reportmode = !! (priv_modes & PrivMode_mouse_report); if (scrollbar_isUpDn ()) { scrollBar.setIdle (); scrollbar_show (0); #ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING refresh_type &= ~SMOOTH_REFRESH; #endif } #ifdef SELECTION_SCROLLING if (sel_scroll_ev.active) sel_scroll_ev.stop(); #endif if (ev.window == TermWin.vt) { #if ISO_14755 // 5.4 if (iso14755buf & (ISO_14755_STARTED | ISO_14755_54)) return; #endif if (reportmode) { /* mouse report from vt window */ /* don't report release of wheel "buttons" */ if (ev.button >= 4) return; #ifdef MOUSE_REPORT_DOUBLECLICK /* only report the release of 'slow' single clicks */ if (MEvent.button != AnyButton && (ev.button != MEvent.button || (ev.time - MEvent.time > MULTICLICK_TIME / 2))) { MEvent.clicks = 0; MEvent.button = AnyButton; mouse_report (ev); } #else /* MOUSE_REPORT_DOUBLECLICK */ MEvent.button = AnyButton; mouse_report (ev); #endif /* MOUSE_REPORT_DOUBLECLICK */ return; } /* * dumb hack to compensate for the failure of click-and-drag * when overriding mouse reporting */ if (priv_modes & PrivMode_mouse_report && bypass_keystate && ev.button == Button1 && MEvent.clicks <= 1) selection_extend (ev.x, ev.y, 0); switch (ev.button) { case Button1: case Button3: selection_make (ev.time); break; case Button2: selection_request (ev.time, ev.x, ev.y); break; #ifdef MOUSE_WHEEL case Button4: case Button5: { int i; page_dirn v; v = ev.button == Button4 ? UP : DN; if (ev.state & ShiftMask) i = 1; else if (options & Opt_mouseWheelScrollPage) i = TermWin.nrow - 1; else i = 5; # ifdef MOUSE_SLIP_WHEELING if (ev.state & ControlMask) { mouse_slip_wheel_speed += v ? -1 : 1; if (mouse_slip_wheel_speed < -TermWin.nrow) mouse_slip_wheel_speed = -TermWin.nrow; if (mouse_slip_wheel_speed > +TermWin.nrow) mouse_slip_wheel_speed = +TermWin.nrow; if (slip_wheel_ev.at < NOW) slip_wheel_ev.at = NOW + SCROLLBAR_CONTINUOUS_DELAY; slip_wheel_ev.start (); } else { # endif # ifdef JUMP_MOUSE_WHEEL scr_page (v, i); scr_refresh (SMOOTH_REFRESH); scrollbar_show (1); # else while (i--) { scr_page (v, 1); scr_refresh (SMOOTH_REFRESH); scrollbar_show (1); } # endif # ifdef MOUSE_SLIP_WHEELING } #endif } break; #endif } } #ifdef MENUBAR else if (isMenuBarWindow (ev.window)) menubar_control (ev); #endif } #ifdef TRANSPARENT #if TINTING /* taken from aterm-0.4.2 */ typedef uint32_t RUINT32T; void ShadeXImage(rxvt_display *display, XImage* srcImage, int shade, int rm, int gm, int bm) { int sh_r, sh_g, sh_b; RUINT32T mask_r, mask_g, mask_b; RUINT32T *lookup, *lookup_r, *lookup_g, *lookup_b; unsigned int lower_lim_r, lower_lim_g, lower_lim_b; unsigned int upper_lim_r, upper_lim_g, upper_lim_b; int i; Visual *visual = display->visual; if( visual->c_class != TrueColor || srcImage->format != ZPixmap ) return ; /* for convenience */ mask_r = visual->red_mask; mask_g = visual->green_mask; mask_b = visual->blue_mask; /* boring lookup table pre-initialization */ switch (srcImage->bits_per_pixel) { case 15: if ((mask_r != 0x7c00) || (mask_g != 0x03e0) || (mask_b != 0x001f)) return; lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(32+32+32)); lookup_r = lookup; lookup_g = lookup+32; lookup_b = lookup+32+32; sh_r = 10; sh_g = 5; sh_b = 0; break; case 16: if ((mask_r != 0xf800) || (mask_g != 0x07e0) || (mask_b != 0x001f)) return; lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(32+64+32)); lookup_r = lookup; lookup_g = lookup+32; lookup_b = lookup+32+64; sh_r = 11; sh_g = 5; sh_b = 0; break; case 24: if ((mask_r != 0xff0000) || (mask_g != 0x00ff00) || (mask_b != 0x0000ff)) return; lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(256+256+256)); lookup_r = lookup; lookup_g = lookup+256; lookup_b = lookup+256+256; sh_r = 16; sh_g = 8; sh_b = 0; break; case 32: if ((mask_r != 0xff0000) || (mask_g != 0x00ff00) || (mask_b != 0x0000ff)) return; lookup = (RUINT32T *) malloc (sizeof (RUINT32T)*(256+256+256)); lookup_r = lookup; lookup_g = lookup+256; lookup_b = lookup+256+256; sh_r = 16; sh_g = 8; sh_b = 0; break; default: return; /* we do not support this color depth */ } /* prepare limits for color transformation (each channel is handled separately) */ if (shade < 0) { shade = -shade; if (shade < 0) shade = 0; if (shade > 100) shade = 100; lower_lim_r = 65535-rm; lower_lim_g = 65535-gm; lower_lim_b = 65535-bm; lower_lim_r = 65535-(unsigned int)(((RUINT32T)lower_lim_r)*((RUINT32T)shade)/100); lower_lim_g = 65535-(unsigned int)(((RUINT32T)lower_lim_g)*((RUINT32T)shade)/100); lower_lim_b = 65535-(unsigned int)(((RUINT32T)lower_lim_b)*((RUINT32T)shade)/100); upper_lim_r = upper_lim_g = upper_lim_b = 65535; } else { if (shade < 0) shade = 0; if (shade > 100) shade = 100; lower_lim_r = lower_lim_g = lower_lim_b = 0; upper_lim_r = (unsigned int)((((RUINT32T)rm)*((RUINT32T)shade))/100); upper_lim_g = (unsigned int)((((RUINT32T)gm)*((RUINT32T)shade))/100); upper_lim_b = (unsigned int)((((RUINT32T)bm)*((RUINT32T)shade))/100); } /* switch red and blue bytes if necessary, we need it for some weird XServers like XFree86 3.3.3.1 */ if ((srcImage->bits_per_pixel == 24) && (mask_r >= 0xFF0000 )) { unsigned int tmp; tmp = lower_lim_r; lower_lim_r = lower_lim_b; lower_lim_b = tmp; tmp = upper_lim_r; upper_lim_r = upper_lim_b; upper_lim_b = tmp; } /* fill our lookup tables */ for (i = 0; i <= mask_r>>sh_r; i++) { RUINT32T tmp; tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_r-lower_lim_r)); tmp += ((RUINT32T)(mask_r>>sh_r))*((RUINT32T)lower_lim_r); lookup_r[i] = (tmp/65535)<>sh_g; i++) { RUINT32T tmp; tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_g-lower_lim_g)); tmp += ((RUINT32T)(mask_g>>sh_g))*((RUINT32T)lower_lim_g); lookup_g[i] = (tmp/65535)<>sh_b; i++) { RUINT32T tmp; tmp = ((RUINT32T)i)*((RUINT32T)(upper_lim_b-lower_lim_b)); tmp += ((RUINT32T)(mask_b>>sh_b))*((RUINT32T)lower_lim_b); lookup_b[i] = (tmp/65535)<bits_per_pixel) { case 15: { unsigned short *p1, *pf, *p, *pl; p1 = (unsigned short *) srcImage->data; pf = (unsigned short *) (srcImage->data + srcImage->height * srcImage->bytes_per_line); while (p1 < pf) { p = p1; pl = p1 + srcImage->width; for (; p < pl; p++) { *p = lookup_r[(*p & 0x7c00)>>10] | lookup_g[(*p & 0x03e0)>> 5] | lookup_b[(*p & 0x001f)]; } p1 = (unsigned short *) ((char *) p1 + srcImage->bytes_per_line); } break; } case 16: { unsigned short *p1, *pf, *p, *pl; p1 = (unsigned short *) srcImage->data; pf = (unsigned short *) (srcImage->data + srcImage->height * srcImage->bytes_per_line); while (p1 < pf) { p = p1; pl = p1 + srcImage->width; for (; p < pl; p++) { *p = lookup_r[(*p & 0xf800)>>11] | lookup_g[(*p & 0x07e0)>> 5] | lookup_b[(*p & 0x001f)]; } p1 = (unsigned short *) ((char *) p1 + srcImage->bytes_per_line); } break; } case 24: { unsigned char *p1, *pf, *p, *pl; p1 = (unsigned char *) srcImage->data; pf = (unsigned char *) (srcImage->data + srcImage->height * srcImage->bytes_per_line); while (p1 < pf) { p = p1; pl = p1 + srcImage->width * 3; for (; p < pl; p += 3) { p[0] = lookup_r[(p[0] & 0xff0000)>>16]; p[1] = lookup_r[(p[1] & 0x00ff00)>> 8]; p[2] = lookup_r[(p[2] & 0x0000ff)]; } p1 = (unsigned char *) ((char *) p1 + srcImage->bytes_per_line); } break; } case 32: { RUINT32T *p1, *pf, *p, *pl; p1 = (RUINT32T *) srcImage->data; pf = (RUINT32T *) (srcImage->data + srcImage->height * srcImage->bytes_per_line); while (p1 < pf) { p = p1; pl = p1 + srcImage->width; for (; p < pl; p++) { *p = lookup_r[(*p & 0xff0000)>>16] | lookup_g[(*p & 0x00ff00)>> 8] | lookup_b[(*p & 0x0000ff)] | (*p & ~0xffffff); } p1 = (RUINT32T *) ((char *) p1 + srcImage->bytes_per_line); } break; } } free (lookup); } #endif /* * Check our parents are still who we think they are. * Do transparency updates if required */ int rxvt_term::check_our_parents () { int i, pchanged, aformat, have_pixmap, rootdepth; unsigned long nitems, bytes_after; Atom atype; unsigned char *prop = NULL; Window root, oldp, *list; Pixmap rootpixmap = None; XWindowAttributes wattr, wrootattr; dDisp; pchanged = 0; if (!(options & Opt_transparent)) return pchanged; /* Don't try any more */ XGetWindowAttributes (disp, display->root, &wrootattr); rootdepth = wrootattr.depth; XGetWindowAttributes (disp, TermWin.parent[0], &wattr); if (rootdepth != wattr.depth) { if (am_transparent) { pchanged = 1; XSetWindowBackground (disp, TermWin.vt, pix_colors_focused[Color_bg]); am_transparent = am_pixmap_trans = 0; } return pchanged; /* Don't try any more */ } /* Get all X ops out of the queue so that our information is up-to-date. */ XSync (disp, False); /* * Make the frame window set by the window manager have * the root background. Some window managers put multiple nested frame * windows for each client, so we have to take care about that. */ i = (xa[XA_XROOTPMAP_ID] && XGetWindowProperty (disp, display->root, xa[XA_XROOTPMAP_ID], 0L, 1L, False, XA_PIXMAP, &atype, &aformat, &nitems, &bytes_after, &prop) == Success); if (!i || prop == NULL) i = (xa[XA_ESETROOT_PMAP_ID] && XGetWindowProperty (disp, display->root, xa[XA_ESETROOT_PMAP_ID], 0L, 1L, False, XA_PIXMAP, &atype, &aformat, &nitems, &bytes_after, &prop) == Success); if (!i || prop == NULL #if TINTING || !rs[Rs_color + Color_tint] #endif ) have_pixmap = 0; else { have_pixmap = 1; rootpixmap = *(Pixmap *)prop; XFree (prop); } if (have_pixmap) { /* * Copy display->root pixmap transparency */ int sx, sy, nx, ny; unsigned int nw, nh; Window cr; XImage *image; GC gc; XGCValues gcvalue; XTranslateCoordinates (disp, TermWin.parent[0], display->root, 0, 0, &sx, &sy, &cr); nw = (unsigned int)szHint.width; nh = (unsigned int)szHint.height; nx = ny = 0; if (sx < 0) { nw += sx; nx = -sx; sx = 0; } if (sy < 0) { nh += sy; ny = -sy; sy = 0; } MIN_IT (nw, (unsigned int) (wrootattr.width - sx)); MIN_IT (nh, (unsigned int) (wrootattr.height - sy)); XSync (disp, False); allowedxerror = -1; image = XGetImage (disp, rootpixmap, sx, sy, nw, nh, AllPlanes, ZPixmap); /* XXX: handle BadMatch - usually because we're outside the pixmap */ /* XXX: may need a delay here? */ allowedxerror = 0; if (image == NULL) { if (am_transparent && am_pixmap_trans) { pchanged = 1; if (TermWin.pixmap != None) { XFreePixmap (disp, TermWin.pixmap); TermWin.pixmap = None; } } am_pixmap_trans = 0; } else { if (TermWin.pixmap != None) XFreePixmap (disp, TermWin.pixmap); #if TINTING if (ISSET_PIXCOLOR (Color_tint)) { unsigned short rm, gm, bm; int shade = rs[Rs_shade] ? atoi (rs[Rs_shade]) : 100; pix_colors_focused[Color_tint].get (display, rm, gm, bm); ShadeXImage (display, image, shade, rm, gm, bm); } #endif TermWin.pixmap = XCreatePixmap (disp, TermWin.vt, szHint.width, szHint.height, image->depth); gc = XCreateGC (disp, TermWin.vt, 0UL, &gcvalue); XPutImage (disp, TermWin.pixmap, gc, image, 0, 0, nx, ny, image->width, image->height); XFreeGC (disp, gc); XDestroyImage (image); XSetWindowBackgroundPixmap (disp, TermWin.parent[0], TermWin.pixmap); XClearWindow (disp, TermWin.parent[0]); if (!am_transparent || !am_pixmap_trans) pchanged = 1; am_transparent = am_pixmap_trans = 1; } } if (am_pixmap_trans) XSetWindowBackgroundPixmap (disp, TermWin.vt, ParentRelative); else { unsigned int n; /* * InheritPixmap transparency */ for (i = 1; i < (int) (sizeof (TermWin.parent) / sizeof (Window)); i++) { oldp = TermWin.parent[i]; XQueryTree (disp, TermWin.parent[i - 1], &root, &TermWin.parent[i], &list, &n); XFree (list); if (TermWin.parent[i] == display->root) { if (oldp != None) pchanged = 1; break; } if (oldp != TermWin.parent[i]) pchanged = 1; } n = 0; if (pchanged) { for (; n < (unsigned int)i; n++) { XGetWindowAttributes (disp, TermWin.parent[n], &wattr); if (wattr.depth != rootdepth || wattr.c_class == InputOnly) { n = (int) (sizeof (TermWin.parent) / sizeof (Window)) + 1; break; } } } if (n > (int) (sizeof (TermWin.parent) / sizeof (TermWin.parent[0]))) { XSetWindowBackground (disp, TermWin.parent[0], pix_colors_focused[Color_fg]); XSetWindowBackground (disp, TermWin.vt, pix_colors_focused[Color_bg]); am_transparent = 0; /* XXX: also turn off Opt_transparent? */ } else { #if WAIT_FOR_WM /* wait (an arbitrary period) for the WM to do its thing * needed for fvwm2.2.2 (and before?) */ sleep (1); #endif for (n = 0; n < (unsigned int)i; n++) { XSetWindowBackgroundPixmap (disp, TermWin.parent[n], ParentRelative); XClearWindow (disp, TermWin.parent[n]); } XSetWindowBackgroundPixmap (disp, TermWin.vt, ParentRelative); am_transparent = 1; } for (; i < (int) (sizeof (TermWin.parent) / sizeof (Window)); i++) TermWin.parent[i] = None; } if (scrollBar.win) { XSetWindowBackgroundPixmap (disp, scrollBar.win, ParentRelative); scrollBar.setIdle (); scrollbar_show (0); } if (am_transparent) { want_refresh = want_full_refresh = 1; if (am_pixmap_trans) flush (); } return pchanged; } #endif /*}}} */ bool rxvt_term::cmd_parse () { bool flag = false; unicode_t ch = NOCHAR; unsigned char *seq_begin; // remember start of esc-sequence here for (;;) { if (ch == NOCHAR) { seq_begin = cmdbuf_ptr; ch = next_char (); } if (ch == NOCHAR) // TODO: improve break; if (!IS_CONTROL (ch) || ch == C0_LF || ch == C0_CR || ch == C0_HT) { if (!seen_input) { seen_input = 1; // many badly-written programs (e.g. jed) contain a race condition: // they first read the screensize and then install a SIGWINCH handler. // some window managers resize the window early, and these programs // then sometimes get the size wrong. // unfortunately other programs are even more buggy and dislike // being sent SIGWINCH, so only do it when we were in fact being // resized. if (seen_resize && cmd_pid) kill (-cmd_pid, SIGWINCH); } /* Read a text string from the input buffer */ unicode_t buf[UBUFSIZ]; bool refreshnow = false; int nlines = 0; unicode_t *str = buf; for (;;) { if (ch == NOCHAR || (IS_CONTROL (ch) && ch != C0_LF && ch != C0_CR && ch != C0_HT)) break; *str++ = ch; if (ch == C0_LF) { nlines++; refresh_count++; if (!(options & Opt_jumpScroll) || (refresh_count >= refresh_limit * (TermWin.nrow - 1))) { refreshnow = true; ch = NOCHAR; break; } // scr_add_lines only works for nlines <= TermWin.nrow - 1. if (nlines >= TermWin.nrow - 1) { scr_add_lines (buf, nlines, str - buf); nlines = 0; str = buf; } } if (str >= buf + UBUFSIZ) { ch = NOCHAR; break; } seq_begin = cmdbuf_ptr; ch = next_char (); } scr_add_lines (buf, nlines, str - buf); /* * If there have been a lot of new lines, then update the screen * What the heck I'll cheat and only refresh less than every page-full. * the number of pages between refreshes is refresh_limit, which * is incremented here because we must be doing flat-out scrolling. */ if (refreshnow) { if ((options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD) refresh_limit++; else { flag = true; scr_refresh (refresh_type); } } } else { try { process_nonprinting (ch); } catch (const class out_of_input &o) { // we ran out of input, retry later cmdbuf_ptr = seq_begin; break; } ch = NOCHAR; } } return flag; } // read the next octet unicode_t rxvt_term::next_octet () { return cmdbuf_ptr < cmdbuf_endp ? *cmdbuf_ptr++ : NOCHAR; } // read the next character unicode_t rxvt_term::next_char () { while (cmdbuf_ptr < cmdbuf_endp) { // assume 7-bit to be ascii ALWAYS if (*cmdbuf_ptr <= 0x7f && *cmdbuf_ptr != 0x1b) return *cmdbuf_ptr++; wchar_t wc; size_t len = mbrtowc (&wc, (char *)cmdbuf_ptr, cmdbuf_endp - cmdbuf_ptr, mbstate); if (len == (size_t)-2) { // the mbstate stores incomplete sequences. didn't know this :/ cmdbuf_ptr = cmdbuf_endp; break; } if (len == (size_t)-1) return *cmdbuf_ptr++; // the _occasional_ latin1 character is allowed to slip through // assume wchar == unicode cmdbuf_ptr += len; return wc & UNICODE_MASK; } return NOCHAR; } /* rxvt_cmd_getc () - Return next input character */ /* * Return the next input character after first passing any keyboard input * to the command. */ unicode_t rxvt_term::cmd_getc () { unicode_t c = next_char (); if (c == NOCHAR) throw out_of_input; return c; } unicode_t rxvt_term::cmd_get8 () { unicode_t c = next_octet (); if (c == NOCHAR) throw out_of_input; return c; } /*{{{ print pipe */ /*----------------------------------------------------------------------*/ #ifdef PRINTPIPE FILE * rxvt_term::popen_printer () { FILE *stream = popen (rs[Rs_print_pipe], "w"); if (stream == NULL) rxvt_warn ("can't open printer pipe, not printing.\n"); return stream; } int rxvt_term::pclose_printer (FILE *stream) { fflush (stream); return pclose (stream); } /* * simulate attached vt100 printer */ void rxvt_term::process_print_pipe () { int done; FILE *fd; if ((fd = popen_printer ()) == NULL) return; /* * Send all input to the printer until either ESC[4i or ESC[?4i * is received. */ for (done = 0; !done;) { unsigned char buf[8]; unicode_t ch; unsigned int i, len; if ((ch = cmd_getc ()) != C0_ESC) { if (putc (ch, fd) == EOF) break; /* done = 1 */ } else { len = 0; buf[len++] = ch; if ((buf[len++] = cmd_getc ()) == '[') { if ((ch = cmd_getc ()) == '?') { buf[len++] = '?'; ch = cmd_getc (); } if ((buf[len++] = ch) == '4') { if ((buf[len++] = cmd_getc ()) == 'i') break; /* done = 1 */ } } for (i = 0; i < len; i++) if (putc (buf[i], fd) == EOF) { done = 1; break; } } } pclose_printer (fd); } #endif /* PRINTPIPE */ /*}}} */ /* *INDENT-OFF* */ enum { C1_40 = 0x40, C1_41 , C1_BPH, C1_NBH, C1_44 , C1_NEL, C1_SSA, C1_ESA, C1_HTS, C1_HTJ, C1_VTS, C1_PLD, C1_PLU, C1_RI , C1_SS2, C1_SS3, C1_DCS, C1_PU1, C1_PU2, C1_STS, C1_CCH, C1_MW , C1_SPA, C1_EPA, C1_SOS, C1_59 , C1_SCI, C1_CSI, CS_ST , C1_OSC, C1_PM , C1_APC, }; /* *INDENT-ON* */ /*{{{ process non-printing single characters */ void rxvt_term::process_nonprinting (unicode_t ch) { switch (ch) { case C0_ESC: process_escape_seq (); break; case C0_ENQ: /* terminal Status */ if (rs[Rs_answerbackstring]) tt_write ((const unsigned char *)rs[Rs_answerbackstring], (unsigned int)strlen (rs[Rs_answerbackstring])); else tt_write ((unsigned char *)VT100_ANS, (unsigned int)strlen (VT100_ANS)); break; case C0_BEL: /* bell */ scr_bell (); break; case C0_BS: /* backspace */ scr_backspace (); break; case C0_HT: /* tab */ scr_tab (1); break; case C0_CR: /* carriage return */ scr_gotorc (0, 0, R_RELATIVE); break; case C0_VT: /* vertical tab, form feed */ case C0_FF: case C0_LF: /* line feed */ scr_index (UP); break; case C0_SO: /* shift out - acs */ scr_charset_choose (1); break; case C0_SI: /* shift in - acs */ scr_charset_choose (0); break; #ifdef EIGHT_BIT_CONTROLS // 8-bit controls case 0x90: /* DCS */ process_dcs_seq (); break; case 0x9b: /* CSI */ process_csi_seq (); break; case 0x9d: /* CSI */ process_osc_seq (); break; #endif } } /*}}} */ /*{{{ process VT52 escape sequences */ void rxvt_term::process_escape_vt52 (unicode_t ch) { int row, col; switch (ch) { case 'A': /* cursor up */ scr_gotorc (-1, 0, R_RELATIVE | C_RELATIVE); break; case 'B': /* cursor down */ scr_gotorc (1, 0, R_RELATIVE | C_RELATIVE); break; case 'C': /* cursor right */ scr_gotorc (0, 1, R_RELATIVE | C_RELATIVE); break; case 'D': /* cursor left */ scr_gotorc (0, -1, R_RELATIVE | C_RELATIVE); break; case 'H': /* cursor home */ scr_gotorc (0, 0, 0); break; case 'I': /* cursor up and scroll down if needed */ scr_index (DN); break; case 'J': /* erase to end of screen */ scr_erase_screen (0); break; case 'K': /* erase to end of line */ scr_erase_line (0); break; case 'Y': /* move to specified row and col */ /* full command is 'ESC Y row col' where row and col * are encoded by adding 32 and sending the ascii * character. eg. SPACE = 0, '+' = 13, '0' = 18, * etc. */ row = cmd_getc () - ' '; col = cmd_getc () - ' '; scr_gotorc (row, col, 0); break; case 'Z': /* identify the terminal type */ tt_printf ("\033/Z"); /* I am a VT100 emulating a VT52 */ break; case '<': /* turn off VT52 mode */ PrivMode (0, PrivMode_vt52); break; case 'F': /* use special graphics character set */ case 'G': /* use regular character set */ /* unimplemented */ break; case '=': /* use alternate keypad mode */ case '>': /* use regular keypad mode */ /* unimplemented */ break; } } /*}}} */ /*{{{ process escape sequences */ void rxvt_term::process_escape_seq () { unicode_t ch = cmd_getc (); if (priv_modes & PrivMode_vt52) { process_escape_vt52 (ch); return; } switch (ch) { /* case 1: do_tek_mode (); break; */ case '#': if (cmd_getc () == '8') scr_E (); break; case '(': scr_charset_set (0, (unsigned int)cmd_getc ()); break; case ')': scr_charset_set (1, (unsigned int)cmd_getc ()); break; case '*': scr_charset_set (2, (unsigned int)cmd_getc ()); break; case '+': scr_charset_set (3, (unsigned int)cmd_getc ()); break; #if ENABLE_FRILLS case '6': scr_backindex (); break; #endif case '7': scr_cursor (SAVE); break; case '8': scr_cursor (RESTORE); break; #if ENABLE_FRILLS case '9': scr_forwardindex (); break; #endif case '=': case '>': PrivMode ((ch == '='), PrivMode_aplKP); break; case C1_40: cmd_getc (); break; case C1_44: scr_index (UP); break; /* 8.3.87: NEXT LINE */ case C1_NEL: /* ESC E */ { unicode_t nlcr[] = { C0_LF, C0_CR }; scr_add_lines (nlcr, 1, 2); } break; /* kidnapped escape sequence: Should be 8.3.48 */ case C1_ESA: /* ESC G */ process_graphics (); break; /* 8.3.63: CHARACTER TABULATION SET */ case C1_HTS: /* ESC H */ scr_set_tab (1); break; /* 8.3.105: REVERSE LINE FEED */ case C1_RI: /* ESC M */ scr_index (DN); break; /* 8.3.142: SINGLE-SHIFT TWO */ /*case C1_SS2: scr_single_shift (2); break; */ /* 8.3.143: SINGLE-SHIFT THREE */ /*case C1_SS3: scr_single_shift (3); break; */ /* 8.3.27: DEVICE CONTROL STRING */ case C1_DCS: /* ESC P */ process_dcs_seq (); break; /* 8.3.110: SINGLE CHARACTER INTRODUCER */ case C1_SCI: /* ESC Z */ tt_write ((const unsigned char *)ESCZ_ANSWER, (unsigned int) (sizeof (ESCZ_ANSWER) - 1)); break; /* steal obsolete ESC [ c */ /* 8.3.16: CONTROL SEQUENCE INTRODUCER */ case C1_CSI: /* ESC [ */ process_csi_seq (); break; /* 8.3.90: OPERATING SYSTEM COMMAND */ case C1_OSC: /* ESC ] */ process_osc_seq (); break; /* 8.3.106: RESET TO INITIAL STATE */ case 'c': mbstate.reset (); scr_poweron (); scrollbar_show (1); break; /* 8.3.79: LOCKING-SHIFT TWO (see ISO2022) */ case 'n': scr_charset_choose (2); break; /* 8.3.81: LOCKING-SHIFT THREE (see ISO2022) */ case 'o': scr_charset_choose (3); break; } } /*}}} */ /*{{{ process CONTROL SEQUENCE INTRODUCER (CSI) sequences `ESC[' */ /* *INDENT-OFF* */ enum { CSI_ICH = 0x40, CSI_CUU, CSI_CUD, CSI_CUF, CSI_CUB, CSI_CNL, CSI_CPL, CSI_CHA, CSI_CUP, CSI_CHT, CSI_ED , CSI_EL , CSI_IL , CSI_DL , CSI_EF , CSI_EA , CSI_DCH, CSI_SEE, CSI_CPR, CSI_SU , CSI_SD , CSI_NP , CSI_PP , CSI_CTC, CSI_ECH, CSI_CVT, CSI_CBT, CSI_SRS, CSI_PTX, CSI_SDS, CSI_SIMD, CSI_5F, CSI_HPA, CSI_HPR, CSI_REP, CSI_DA , CSI_VPA, CSI_VPR, CSI_HVP, CSI_TBC, CSI_SM , CSI_MC , CSI_HPB, CSI_VPB, CSI_RM , CSI_SGR, CSI_DSR, CSI_DAQ, CSI_70 , CSI_71 , CSI_72 , CSI_73 , CSI_74 , CSI_75 , CSI_76 , CSI_77 , CSI_78 , CSI_79 , CSI_7A , CSI_7B , CSI_7C , CSI_7D , CSI_7E , CSI_7F }; #define make_byte(b7,b6,b5,b4,b3,b2,b1,b0) \ (((b7) << 7) | ((b6) << 6) | ((b5) << 5) | ((b4) << 4) \ | ((b3) << 3) | ((b2) << 2) | ((b1) << 1) | (b0)) #define get_byte_array_bit(array, bit) \ (!! ((array)[ (bit) / 8] & (128 >> ((bit) & 7)))) const unsigned char csi_defaults[] = { make_byte (1,1,1,1,1,1,1,1), /* @, A, B, C, D, E, F, G, */ make_byte (1,1,0,0,1,1,0,0), /* H, I, J, K, L, M, N, O, */ make_byte (1,0,1,1,1,1,1,0), /* P, Q, R, S, T, U, V, W, */ make_byte (1,1,1,0,0,0,1,0), /* X, Y, Z, [, \, ], ^, _, */ make_byte (1,1,1,0,1,1,1,0), /* `, a, b, c, d, e, f, g, */ make_byte (0,0,1,1,0,0,0,0), /* h, i, j, k, l, m, n, o, */ make_byte (0,0,0,0,0,0,0,0), /* p, q, r, s, t, u, v, w, */ make_byte (0,0,0,0,0,0,0,0), /* x, y, z, {, |, }, ~, */ }; /* *INDENT-ON* */ void rxvt_term::process_csi_seq () { unicode_t ch, priv, i; unsigned int nargs, p; int n, ndef; int arg[ESC_ARGS]; for (nargs = ESC_ARGS; nargs > 0;) arg[--nargs] = 0; priv = 0; ch = cmd_getc (); if (ch >= '<' && ch <= '?') { /* '<' '=' '>' '?' */ priv = ch; ch = cmd_getc (); } /* read any numerical arguments */ for (n = -1; ch < CSI_ICH; ) { if (isdigit (ch)) { if (n < 0) n = ch - '0'; else n = n * 10 + ch - '0'; } else if (ch == ';') { if (nargs < ESC_ARGS) arg[nargs++] = n; n = -1; } else if (IS_CONTROL (ch)) process_nonprinting (ch); ch = cmd_getc (); } if (ch > CSI_7F) return; if (nargs < ESC_ARGS) arg[nargs++] = n; i = ch - CSI_ICH; ndef = get_byte_array_bit (csi_defaults, i); for (p = 0; p < nargs; p++) if (arg[p] == -1) arg[p] = ndef; #ifdef DEBUG_CMD fprintf (stderr, "CSI "); for (p = 0; p < nargs; p++) fprintf (stderr, "%d%s", arg[p], p < nargs - 1 ? ";" : ""); fprintf (stderr, "%c\n", ch); #endif /* * private mode handling */ if (priv) { switch (priv) { case '>': if (ch == CSI_DA) /* secondary device attributes */ tt_printf ("\033[>%d;%c%c;0c", 'U', VERSION[0], VERSION[2]); break; case '?': if (ch == 'h' || ch == 'l' || ch == 'r' || ch == 's' || ch == 't') process_terminal_mode (ch, priv, nargs, arg); break; } return; } switch (ch) { /* * ISO/IEC 6429:1992 (E) CSI sequences (defaults in parentheses) */ #ifdef PRINTPIPE case CSI_MC: /* 8.3.83: (0) MEDIA COPY */ switch (arg[0]) { case 0: /* initiate transfer to primary aux device */ scr_printscreen (0); break; case 5: /* start relay to primary aux device */ process_print_pipe (); break; } break; #endif case CSI_CUU: /* 8.3.22: (1) CURSOR UP */ case CSI_VPR: /* 8.3.161: (1) LINE POSITION FORWARD */ arg[0] = -arg[0]; /* FALLTHROUGH */ case CSI_CUD: /* 8.3.19: (1) CURSOR DOWN */ case CSI_VPB: /* 8.3.160: (1) LINE POSITION BACKWARD */ scr_gotorc (arg[0], 0, RELATIVE); break; case CSI_CUB: /* 8.3.18: (1) CURSOR LEFT */ case CSI_HPB: /* 8.3.59: (1) CHARACTER POSITION BACKWARD */ #ifdef ISO6429 arg[0] = -arg[0]; #else /* emulate common DEC VTs */ arg[0] = arg[0] ? -arg[0] : -1; #endif /* FALLTHROUGH */ case CSI_CUF: /* 8.3.20: (1) CURSOR RIGHT */ case CSI_HPR: /* 8.3.60: (1) CHARACTER POSITION FORWARD */ #ifdef ISO6429 scr_gotorc (0, arg[0], RELATIVE); #else /* emulate common DEC VTs */ scr_gotorc (0, arg[0] ? arg[0] : 1, RELATIVE); #endif break; case CSI_CPL: /* 8.3.13: (1) CURSOR PRECEDING LINE */ arg[0] = -arg[0]; /* FALLTHROUGH */ case CSI_CNL: /* 8.3.12: (1) CURSOR NEXT LINE */ scr_gotorc (arg[0], 0, R_RELATIVE); break; case CSI_CHA: /* 8.3.9: (1) CURSOR CHARACTER ABSOLUTE */ case CSI_HPA: /* 8.3.58: (1) CURSOR POSITION ABSOLUTE */ scr_gotorc (0, arg[0] - 1, R_RELATIVE); break; case CSI_VPA: /* 8.3.159: (1) LINE POSITION ABSOLUTE */ scr_gotorc (arg[0] - 1, 0, C_RELATIVE); break; case CSI_CUP: /* 8.3.21: (1,1) CURSOR POSITION */ case CSI_HVP: /* 8.3.64: (1,1) CHARACTER AND LINE POSITION */ scr_gotorc (arg[0] - 1, nargs < 2 ? 0 : (arg[1] - 1), 0); break; case CSI_CBT: /* 8.3.7: (1) CURSOR BACKWARD TABULATION */ arg[0] = -arg[0]; /* FALLTHROUGH */ case CSI_CHT: /* 8.3.10: (1) CURSOR FORWARD TABULATION */ scr_tab (arg[0]); break; case CSI_ED: /* 8.3.40: (0) ERASE IN PAGE */ scr_erase_screen (arg[0]); break; case CSI_EL: /* 8.3.42: (0) ERASE IN LINE */ scr_erase_line (arg[0]); break; case CSI_ICH: /* 8.3.65: (1) INSERT CHARACTER */ scr_insdel_chars (arg[0], INSERT); break; case CSI_IL: /* 8.3.68: (1) INSERT LINE */ scr_insdel_lines (arg[0], INSERT); break; case CSI_DL: /* 8.3.33: (1) DELETE LINE */ scr_insdel_lines (arg[0], DELETE); break; case CSI_ECH: /* 8.3.39: (1) ERASE CHARACTER */ scr_insdel_chars (arg[0], ERASE); break; case CSI_DCH: /* 8.3.26: (1) DELETE CHARACTER */ scr_insdel_chars (arg[0], DELETE); break; case CSI_SD: /* 8.3.114: (1) SCROLL DOWN */ arg[0] = -arg[0]; /* FALLTHROUGH */ case CSI_SU: /* 8.3.148: (1) SCROLL UP */ scr_scroll_text (screen.tscroll, screen.bscroll, arg[0], 0); break; case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */ tt_write ((const unsigned char *)VT100_ANS, (unsigned int) (sizeof (VT100_ANS) - 1)); break; case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */ process_sgr_mode (nargs, arg); break; case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */ switch (arg[0]) { case 5: /* DSR requested */ tt_printf ("\033[0n"); break; case 6: /* CPR requested */ scr_report_position (); break; case 7: /* unofficial extension */ if (options & Opt_insecure) tt_printf ("%-.250s\012", rs[Rs_display_name]); break; case 8: /* unofficial extension */ process_xterm_seq (XTerm_title, RESNAME "-" VERSION, CHAR_ST); break; } break; case CSI_TBC: /* 8.3.155: (0) TABULATION CLEAR */ switch (arg[0]) { case 0: /* char tab stop cleared at active position */ scr_set_tab (0); break; /* case 1: */ /* line tab stop cleared in active line */ /* case 2: */ /* char tab stops cleared in active line */ case 3: /* all char tab stops are cleared */ /* case 4: */ /* all line tab stops are cleared */ case 5: /* all tab stops are cleared */ scr_set_tab (-1); break; } break; case CSI_CTC: /* 8.3.17: (0) CURSOR TABULATION CONTROL */ switch (arg[0]) { case 0: /* char tab stop set at active position */ scr_set_tab (1); break; /* = ESC H */ /* case 1: */ /* line tab stop set at active line */ case 2: /* char tab stop cleared at active position */ scr_set_tab (0); break; /* = ESC [ 0 g */ /* case 3: */ /* line tab stop cleared at active line */ /* case 4: */ /* char tab stops cleared at active line */ case 5: /* all char tab stops are cleared */ scr_set_tab (-1); break; /* = ESC [ 3 g */ /* case 6: */ /* all line tab stops are cleared */ } break; case CSI_RM: /* 8.3.107: RESET MODE */ if (arg[0] == 4) scr_insert_mode (0); else if (arg[0] == 20) priv_modes &= ~PrivMode_LFNL; break; case CSI_SM: /* 8.3.126: SET MODE */ if (arg[0] == 4) scr_insert_mode (1); else if (arg[0] == 20) priv_modes |= PrivMode_LFNL; break; /* * PRIVATE USE beyond this point. All CSI_7? sequences here */ case CSI_72: /* DECSTBM: set top and bottom margins */ if (nargs == 1) scr_scroll_region (arg[0] - 1, MAX_ROWS - 1); else if (nargs == 0 || arg[0] >= arg[1]) scr_scroll_region (0, MAX_ROWS - 1); else scr_scroll_region (arg[0] - 1, arg[1] - 1); break; case CSI_73: scr_cursor (SAVE); break; case CSI_75: scr_cursor (RESTORE); break; #if ENABLE_FRILLS case CSI_74: process_window_ops (arg, nargs); break; #endif case CSI_78: /* DECREQTPARM */ if (arg[0] == 0 || arg[0] == 1) tt_printf ("\033[%d;1;1;128;128;1;0x", arg[0] + 2); break; default: break; } } /*}}} */ #if ENABLE_FRILLS /* ARGSUSED */ void rxvt_term::process_window_ops (const int *args, unsigned int nargs) { int x, y; XWindowAttributes wattr; Window wdummy; dDisp; if (nargs == 0) return; switch (args[0]) { /* * commands */ case 1: /* deiconify window */ XMapWindow (disp, TermWin.parent[0]); break; case 2: /* iconify window */ XIconifyWindow (disp, TermWin.parent[0], display->screen); break; case 3: /* set position (pixels) */ XMoveWindow (disp, TermWin.parent[0], args[1], args[2]); break; case 4: /* set size (pixels) */ set_widthheight ((unsigned int)args[2], (unsigned int)args[1]); break; case 5: /* raise window */ XRaiseWindow (disp, TermWin.parent[0]); break; case 6: /* lower window */ XLowerWindow (disp, TermWin.parent[0]); break; case 7: /* refresh window */ scr_touch (true); break; case 8: /* set size (chars) */ set_widthheight ((unsigned int) (args[2] * TermWin.fwidth), (unsigned int) (args[1] * TermWin.fheight)); break; //case 9: NYI, TODO, restore maximized window or maximize window default: if (args[0] >= 24) /* set height (chars) */ set_widthheight ((unsigned int)TermWin.width, (unsigned int) (args[1] * TermWin.fheight)); break; /* * reports - some output format copied from XTerm */ case 11: /* report window state */ XGetWindowAttributes (disp, TermWin.parent[0], &wattr); tt_printf ("\033[%dt", wattr.map_state == IsViewable ? 1 : 2); break; case 13: /* report window position */ XGetWindowAttributes (disp, TermWin.parent[0], &wattr); XTranslateCoordinates (disp, TermWin.parent[0], wattr.root, -wattr.border_width, -wattr.border_width, &x, &y, &wdummy); tt_printf ("\033[3;%d;%dt", x, y); break; case 14: /* report window size (pixels) */ XGetWindowAttributes (disp, TermWin.parent[0], &wattr); tt_printf ("\033[4;%d;%dt", wattr.height, wattr.width); break; case 18: /* report text area size (chars) */ tt_printf ("\033[8;%d;%dt", TermWin.nrow, TermWin.ncol); break; case 19: /* report window size (chars) */ tt_printf ("\033[9;%d;%dt", TermWin.nrow, TermWin.ncol); break; case 20: /* report icon label */ { char *s; XGetIconName (disp, TermWin.parent[0], &s); tt_printf ("\033]L%-.250s\234", (options & Opt_insecure) && s ? s : ""); /* 8bit ST */ XFree (s); } break; case 21: /* report window title */ { char *s; XFetchName (disp, TermWin.parent[0], &s); tt_printf ("\033]l%-.250s\234", (options & Opt_insecure) && s ? s : ""); /* 8bit ST */ XFree (s); } break; } } #endif /*----------------------------------------------------------------------*/ /* * get input up until STRING TERMINATOR (or BEL) * ends_how is terminator used. returned input must be free()'d */ unsigned char * rxvt_term::get_to_st (unicode_t &ends_how) { unicode_t ch; bool seen_esc = false; unsigned int n = 0; wchar_t string[STRING_MAX]; while ((ch = cmd_getc ()) != NOCHAR) { if (seen_esc) { if (ch == 0x5c) /* 7bit ST */ break; else return NULL; } else if (ch == C0_ESC) { seen_esc = true; continue; } else if (ch == C0_BEL || ch == CHAR_ST) break; else if (ch < 0x20) return NULL; /* other control character - exit */ seen_esc = false; if (n >= STRING_MAX - 1) // stop at some sane length return NULL; if (ch == C0_SYN) string[n++] = cmd_get8 (); else string[n++] = ch; } string[n++] = '\0'; ends_how = (ch == 0x5c ? C0_ESC : ch); return (unsigned char *)rxvt_wcstombs (string); } /*----------------------------------------------------------------------*/ /* * process DEVICE CONTROL STRING `ESC P ... (ST|BEL)' or `0x90 ... (ST|BEL)' */ void rxvt_term::process_dcs_seq () { unsigned char *s; unicode_t eh; /* * Not handled yet */ s = get_to_st (eh); if (s) free (s); return; } /*----------------------------------------------------------------------*/ /* * process OPERATING SYSTEM COMMAND sequence `ESC ] Ps ; Pt (ST|BEL)' */ void rxvt_term::process_osc_seq () { unicode_t ch, eh; int arg; ch = cmd_getc (); for (arg = 0; isdigit (ch); ch = cmd_getc ()) arg = arg * 10 + (ch - '0'); if (ch == ';') { unsigned char *s = get_to_st (eh); if (s) { process_xterm_seq (arg, (char *)s, eh); free (s); } } } void rxvt_term::process_color_seq (int report, int color, const char *str, unsigned char resp) { if (str[0] == '?' && !str[1]) { unsigned short r, g, b; pix_colors_focused[color].get (display, r, g, b); tt_printf ("\033]%d;rgb:%04x/%04x/%04x%c", report, r, g, b, resp); } else set_window_color (color, str); } /* * XTerm escape sequences: ESC ] Ps;Pt (ST|BEL) */ void rxvt_term::process_xterm_seq (int op, const char *str, unsigned char resp) { int changed = 0; int color; char *buf, *name; bool query = str[0] == '?' && !str[1]; int saveop = op; dDisp; assert (str != NULL); switch (op) { case XTerm_name: set_title (str); /* FALLTHROUGH */ case XTerm_iconName: set_icon_name (str); break; case XTerm_title: set_title (str); break; case XTerm_property: if (str[0] == '?') { Atom prop = display->atom (str + 1); Atom actual_type; int actual_format; unsigned long nitems; unsigned long bytes_after; unsigned char *value = 0; const char *str = ""; if (prop && XGetWindowProperty (disp, TermWin.parent[0], prop, 0, 1<<16, 0, AnyPropertyType, &actual_type, &actual_format, &nitems, &bytes_after, &value) == Success && actual_type != None && actual_format == 8) str = (const char *)(value); tt_printf ("\033]%d;%s%c", XTerm_property, str, resp); XFree (value); } else { char *eq = strchr (str, '='); // constness lost, but verified to be ok if (eq) { *eq = 0; set_utf8_property (display->atom (str), eq + 1); } else XDeleteProperty (disp, TermWin.parent[0], display->atom (str)); } break; case XTerm_Color: for (buf = (char *)str; buf && *buf;) { if ((name = strchr (buf, ';')) == NULL) break; *name++ = '\0'; color = atoi (buf); if (color < 0 || color >= TOTAL_COLORS) break; if ((buf = strchr (name, ';')) != NULL) *buf++ = '\0'; if (name[0] == '?' && !name[1]) { unsigned short r, g, b; pix_colors_focused[color + minCOLOR].get (display, r, g, b); tt_printf ("\033]%d;%d;rgb:%04x/%04x/%04x%c", XTerm_Color, color, r, g, b, resp); } else set_window_color (color + minCOLOR, name); } break; case XTerm_Color00: process_color_seq (XTerm_Color00, Color_fg, str, resp); break; case XTerm_Color01: process_color_seq (XTerm_Color00, Color_bg, str, resp); break; #ifndef NO_CURSORCOLOR case XTerm_Color_cursor: process_color_seq (XTerm_Color_cursor, Color_cursor, str, resp); break; #endif case XTerm_Color_pointer_fg: process_color_seq (XTerm_Color_pointer_fg, Color_pointer_fg, str, resp); break; case XTerm_Color_pointer_bg: process_color_seq (XTerm_Color_pointer_bg, Color_pointer_bg, str, resp); break; #ifndef NO_BOLD_UNDERLINE_REVERSE case XTerm_Color_BD: process_color_seq (XTerm_Color_BD, Color_BD, str, resp); break; case XTerm_Color_UL: process_color_seq (XTerm_Color_UL, Color_UL, str, resp); break; case XTerm_Color_RV: process_color_seq (XTerm_Color_RV, Color_RV, str, resp); break; case URxvt_Color_IT: process_color_seq (URxvt_Color_IT, Color_IT, str, resp); break; #endif #if TRANSPARENT && TINTING case URxvt_Color_tint: process_color_seq (URxvt_Color_tint, Color_tint, str, resp); check_our_parents (); if (am_transparent) want_full_refresh = want_refresh = 1; break; #endif case XTerm_Pixmap: if (*str != ';') { #if XPM_BACKGROUND scale_pixmap (""); /* reset to default scaling */ set_bgPixmap (str); /* change pixmap */ #endif scr_touch (true); } while ((str = strchr (str, ';')) != NULL) { str++; #if XPM_BACKGROUND changed += scale_pixmap (str); #endif } if (changed) { #ifdef XPM_BACKGROUND resize_pixmap (); #endif scr_touch (true); } break; case XTerm_restoreFG: set_window_color (Color_fg, str); break; case XTerm_restoreBG: set_window_color (Color_bg, str); break; case XTerm_logfile: // TODO, when secure mode? break; #ifdef MENUBAR case URxvt_Menu: if (options & Opt_insecure) menubar_dispatch (const_cast(str)); // casting away constness is checked break; #endif #if 0 case XTerm_dumpscreen: /* no error notices */ { int fd; if ((fd = open (str, O_RDWR | O_CREAT | O_EXCL, 0600)) >= 0) { scr_dump (fd); close (fd); } } break; #endif case XTerm_font: op = URxvt_font; case URxvt_font: #if ENABLE_STYLES case URxvt_boldFont: case URxvt_italicFont: case URxvt_boldItalicFont: #endif if (query) tt_printf ("\33]%d;%-.250s%c", saveop, (options & Opt_insecure) && TermWin.fontset[op - URxvt_font]->fontdesc ? TermWin.fontset[op - URxvt_font]->fontdesc : "", resp); else { const char *&res = rs[Rs_font + (op - URxvt_font)]; res = strdup (str); allocated.push_back ((void *)res); set_fonts (); } break; #if ENABLE_FRILLS case URxvt_locale: if (query) tt_printf ("\33]%d;%-.250s%c", URxvt_locale, (options & Opt_insecure) ? locale : "", resp); else { set_locale (str); pty.set_utf8_mode (enc_utf8); init_xlocale (); } break; case URxvt_view_up: case URxvt_view_down: int lines = atoi (str); if (lines) scr_page (op == URxvt_view_up ? UP : DN, lines); else { scr_erase_savelines (); } break; #endif } } /*----------------------------------------------------------------------*/ /*{{{ process DEC private mode sequences `ESC [ ? Ps mode' */ /* * mode can only have the following values: * 'l' = low * 'h' = high * 's' = save * 'r' = restore * 't' = toggle * so no need for fancy checking */ int rxvt_term::privcases (int mode, unsigned long bit) { int state; if (mode == 's') { SavedModes |= (priv_modes & bit); return -1; } else { if (mode == 'r') state = (SavedModes & bit) ? 1 : 0; /* no overlapping */ else state = (mode == 't') ? ! (priv_modes & bit) : mode; PrivMode (state, bit); } return state; } /* we're not using priv _yet_ */ void rxvt_term::process_terminal_mode (int mode, int priv __attribute__ ((unused)), unsigned int nargs, const int *arg) { unsigned int i, j; int state; static const struct { const int argval; const unsigned long bit; } argtopriv[] = { { 1, PrivMode_aplCUR }, { 2, PrivMode_vt52 }, { 3, PrivMode_132 }, { 4, PrivMode_smoothScroll }, { 5, PrivMode_rVideo }, { 6, PrivMode_relOrigin }, { 7, PrivMode_Autowrap }, // 8, bi-directional support mode { 9, PrivMode_MouseX10 }, #ifdef menuBar_esc { menuBar_esc, PrivMode_menuBar }, #endif // 18, 19 printing-related { 25, PrivMode_VisibleCursor }, #ifdef scrollBar_esc { scrollBar_esc, PrivMode_scrollBar }, #endif { 35, PrivMode_ShiftKeys }, // rxvt extension { 40, PrivMode_132OK }, // 41 xterm more fixes NYI // 45 margin bell NYI // 46 start logging { 47, PrivMode_Screen }, { 66, PrivMode_aplKP }, #ifndef NO_BACKSPACE_KEY { 67, PrivMode_BackSpace }, #endif { 1000, PrivMode_MouseX11 }, // 1001 Use Hilite Mouse Tracking. NYI, TODO // 1002 Use Cell Motion Mouse Tracking. NYI, TODO // 1003 Use All Motion Mouse Tracking. NYI, TODO { 1010, PrivMode_TtyOutputInh }, // rxvt extension { 1011, PrivMode_Keypress }, // rxvt extension // 1035 enable modifiers for alt, numlock NYI // 1036 send ESC for meta keys NYI // 1037 send DEL for keypad delete NYI { 1047, PrivMode_Screen }, // 1048 save and restore cursor { 1049, PrivMode_Screen }, /* xterm extension, clear screen on ti rather than te */ // 1051, 1052, 1060, 1061 keyboard emulation NYI }; if (nargs == 0) return; /* make lo/hi boolean */ if (mode == 'l') mode = 0; /* reset */ else if (mode == 'h') mode = 1; /* set */ for (i = 0; i < nargs; i++) { state = -1; /* basic handling */ for (j = 0; j < (sizeof (argtopriv)/sizeof (argtopriv[0])); j++) if (argtopriv[j].argval == arg[i]) { state = privcases (mode, argtopriv[j].bit); break; } /* extra handling for values with state unkept */ switch (arg[i]) { case 1048: /* alternative cursor save */ case 1049: if (options & Opt_secondaryScreen) if (mode == 0) scr_cursor (RESTORE); else if (mode == 1) scr_cursor (SAVE); break; } if (state >= 0) /* extra handling for values with valid 0 or 1 state */ switch (arg[i]) { /* case 1: - application cursor keys */ case 2: /* VT52 mode */ /* oddball mode. should be set regardless of set/reset * parameter. Return from VT52 mode with an ESC < from * within VT52 mode */ PrivMode (1, PrivMode_vt52); break; case 3: /* 80/132 */ if (priv_modes & PrivMode_132OK) set_widthheight (((state ? 132 : 80) * TermWin.fwidth), TermWin.height); break; case 4: /* smooth scrolling */ if (state) options &= ~Opt_jumpScroll; else options |= Opt_jumpScroll; break; case 5: /* reverse video */ scr_rvideo_mode (state); break; case 6: /* relative/absolute origins */ scr_relative_origin (state); break; case 7: /* autowrap */ scr_autowrap (state); break; /* case 8: - auto repeat, can't do on a per window basis */ case 9: /* X10 mouse reporting */ if (state) /* orthogonal */ priv_modes &= ~PrivMode_MouseX11; break; #ifdef menuBar_esc case menuBar_esc: #ifdef MENUBAR map_menuBar (state); #endif break; #endif #ifdef scrollBar_esc case scrollBar_esc: if (scrollbar_mapping (state)) { resize_all_windows (0, 0, 0); scr_touch (true); } break; #endif case 25: /* visible/invisible cursor */ scr_cursor_visible (state); break; /* case 35: - shift keys */ /* case 40: - 80 <--> 132 mode */ case 47: /* secondary screen */ scr_change_screen (state); break; /* case 66: - application key pad */ /* case 67: - backspace key */ case 1000: /* X11 mouse reporting */ if (state) /* orthogonal */ priv_modes &= ~PrivMode_MouseX10; break; #if 0 case 1001: break; /* X11 mouse highlighting */ #endif case 1010: /* scroll to bottom on TTY output inhibit */ if (state) options &= ~Opt_scrollTtyOutput; else options |= Opt_scrollTtyOutput; break; case 1011: /* scroll to bottom on key press */ if (state) options |= Opt_scrollTtyKeypress; else options &= ~Opt_scrollTtyKeypress; break; case 1047: /* secondary screen w/ clearing last */ if (options & Opt_secondaryScreen) if (current_screen != PRIMARY) scr_erase_screen (2); scr_change_screen (state); break; case 1049: /* secondary screen w/ clearing first */ scr_change_screen (state); if (options & Opt_secondaryScreen) if (current_screen != PRIMARY) scr_erase_screen (2); break; default: break; } } } /*}}} */ /*{{{ process sgr sequences */ void rxvt_term::process_sgr_mode (unsigned int nargs, const int *arg) { unsigned int i; short rendset; int rendstyle; if (nargs == 0) { scr_rendition (0, ~RS_None); return; } for (i = 0; i < nargs; i++) { rendset = -1; switch (arg[i]) { case 0: rendset = 0, rendstyle = ~RS_None; break; case 1: rendset = 1, rendstyle = RS_Bold; break; //case 2: // low intensity case 3: rendset = 1, rendstyle = RS_Italic; break; case 4: rendset = 1, rendstyle = RS_Uline; break; case 5: // slowly blinking case 6: // rapidly blinking rendset = 1, rendstyle = RS_Blink; break; //case 6: // scoansi light background case 7: rendset = 1, rendstyle = RS_RVid; break; case 8: // invisible. NYI break; //case 9: // crossed out //case 10: // scoansi acs off, primary font //case 11: // scoansi acs on, first alt font //case 12: // scoansi acs on, |0x80, second alt font //... //case 19: // ninth alt font //case 20: // gothic case 21: // disable bold, faint, sometimes doubly underlined (iso 8613) rendset = 0, rendstyle = RS_Bold; break; case 22: // normal intensity rendset = 0, rendstyle = RS_Bold; break; case 23: // disable italic rendset = 0, rendstyle = RS_Italic; break; case 24: rendset = 0, rendstyle = RS_Uline; break; case 25: rendset = 0, rendstyle = RS_Blink; break; case 26: // variable spacing (iso 8613) rendset = 0, rendstyle = RS_Blink; break; case 27: rendset = 0, rendstyle = RS_RVid; break; //case 28: // visible. NYI //case 29: // not crossed-out } if (rendset != -1) { scr_rendition (rendset, rendstyle); continue; /* for (;i;) */ } switch (arg[i]) { case 30: case 31: /* set fg color */ case 32: case 33: case 34: case 35: case 36: case 37: scr_color ((unsigned int) (minCOLOR + (arg[i] - 30)), Color_fg); break; case 38: // set fg color, ISO 8613-6 if (nargs > i + 2 && arg[i + 1] == 5) { scr_color ((unsigned int) (minCOLOR + arg[i + 2]), Color_fg); i += 2; } break; case 39: /* default fg */ scr_color (Color_fg, Color_fg); break; case 40: case 41: /* set bg color */ case 42: case 43: case 44: case 45: case 46: case 47: scr_color ((unsigned int) (minCOLOR + (arg[i] - 40)), Color_bg); break; case 48: // set bg color, ISO 8613-6 if (nargs > i + 2 && arg[i + 1] == 5) { scr_color ((unsigned int) (minCOLOR + arg[i + 2]), Color_bg); i += 2; } break; case 49: /* default bg */ scr_color (Color_bg, Color_bg); break; //case 50: // not variable spacing #ifndef NO_BRIGHTCOLOR case 90: case 91: /* set bright fg color */ case 92: case 93: case 94: case 95: case 96: case 97: scr_color ((unsigned int) (minBrightCOLOR + (arg[i] - 90)), Color_fg); break; case 100: case 101: /* set bright bg color */ case 102: case 103: case 104: case 105: case 106: case 107: scr_color ((unsigned int) (minBrightCOLOR + (arg[i] - 100)), Color_bg); break; #endif } } } /*}}} */ /*{{{ (do not) process Rob Nation's own graphics mode sequences */ void rxvt_term::process_graphics () { unicode_t ch, cmd = cmd_getc (); if (cmd == 'Q') { /* query graphics */ tt_printf ("\033G0\012"); /* no graphics */ return; } /* swallow other graphics sequences until terminating ':' */ do ch = cmd_getc (); while (ch != ':'); } /*}}} */ /* ------------------------------------------------------------------------- */ /* * Send printf () formatted output to the command. * Only use for small amounts of data. */ void rxvt_term::tt_printf (const char *fmt,...) { va_list arg_ptr; unsigned char buf[256]; va_start (arg_ptr, fmt); vsnprintf ((char *)buf, 256, fmt, arg_ptr); va_end (arg_ptr); tt_write (buf, strlen (buf)); } /* ---------------------------------------------------------------------- */ /* Write data to the pty as typed by the user, pasted with the mouse, * or generated by us in response to a query ESC sequence. */ const unsigned int MAX_PTY_WRITE = 255; // minimum MAX_INPUT void rxvt_term::tt_write (const unsigned char *data, unsigned int len) { if (v_buflen == 0) { ssize_t written = write (pty.pty, data, min (len, MAX_PTY_WRITE)); if ((unsigned int)written == len) return; data += written; len -= written; } v_buffer = (unsigned char *)realloc (v_buffer, v_buflen + len); memcpy (v_buffer + v_buflen, data, len); v_buflen += len; pty_ev.set (EVENT_READ | EVENT_WRITE); } void rxvt_term::pty_write () { int written = write (pty.pty, v_buffer, min (v_buflen, MAX_PTY_WRITE)); if (written > 0) { v_buflen -= written; if (v_buflen == 0) { free (v_buffer); v_buffer = 0; v_buflen = 0; pty_ev.set (EVENT_READ); return; } memmove (v_buffer, v_buffer + written, v_buflen); } else if (written != -1 || (errno != EAGAIN && errno != EINTR)) // original code just ignores this... destroy (); } /*----------------------- end-of-file (C source) -----------------------*/