rxvt-unicode/src/command.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 <jdb@ukc.ac.uk>
 *                              - original version
 * Copyright (c) 1994      Robert Nation <nation@rocket.sanders.lockheed.com>
 *                              - extensive modifications
 * Copyright (c) 1995      Garrett D'Amore <garrett@netcom.com>
 *                              - vt100 printing
 * Copyright (c) 1995      Steven Hirsch <hirsch@emba.uvm.edu>
 *                              - X11 mouse report mode and support for
 *                                DEC "private mode" save/restore functions.
 * Copyright (c) 1995      Jakub Jelinek <jj@gnu.ai.mit.edu>
 *                              - key-related changes to handle Shift+function
 *                                keys properly.
 * Copyright (c) 1997      MJ Olesen <olesen@me.queensu.ca>
 *                              - extensive modifications
 * Copyright (c) 1997      Raul Garcia Garcia <rgg@tid.es>
 *                              - modification and cleanups for Solaris 2.x
 *                                and Linux 1.2.x
 * Copyright (c) 1997,1998 Oezguer Kesim <kesim@math.fu-berlin.de>
 * Copyright (c) 1998-2001 Geoff Wing <gcw@pobox.com>
 *                              - extensive modifications
 * Copyright (c) 1998      Alfredo K. Kojima <kojima@windowmaker.org>
 * Copyright (c) 2001      Marius Gedminas
 *                              - Ctrl/Mod4+Tab works like Meta+Tab (options)
 * Copyright (c) 2003      Rob McMullen <robm@flipturn.org>
 * Copyright (c) 2003-2014 Marc Lehmann <schmorp@schmorp.de>
 * Copyright (c) 2007,2015 Emanuele Giaquinta <e.giaquinta@glauco.it>
 *
 * 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 3 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"
#include "rxvt.h"
#include "rxvtperl.h"
#include "version.h"
#include "command.h"

#ifdef KEYSYM_RESOURCE
# include "keyboard.h"
#endif

#include <signal.h>

#if LINUX_YIELD_HACK
# include <time.h>
#endif

/*----------------------------------------------------------------------*/

#define IS_CONTROL(ch) !((ch) & 0xffffff60UL)

#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_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 ecb_cold
rxvt_term::iso14755_54 (int x, int y)
{
  x = Pixel2Col (x);
  y = Pixel2Row (y);

  if (!IN_RANGE_EXC (x, 0, ncol)
      || !IN_RANGE_EXC (y, 0, nrow))
    return;

  for (;;)
    {
      const line_t &l = ROW(y + view_start);

      text_t t = l.t[x];

      if (t != NOCHAR || !x)
        {
          iso14755_51 (l.t[x], l.r[x], x, y, view_start);
          iso14755buf = ISO_14755_54;
          break;
        }

      x--;
    }
}

void ecb_cold
rxvt_term::iso14755_51 (unicode_t ch, rend_t r, int x, int y, int y2)
{
  rxvt_fontset *fs = FONTSET (r);
  wchar_t *chr, *alloc, ch2, **fname;
  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;
    }

  char rowcol[40];
  snprintf (rowcol, sizeof rowcol, "col %d row %d @%d", x, y, y2);

  char attr[80]; // plenty

  sprintf (attr, "%08x = fg %d bg %d%s%s%s%s%s%s",
           (int)r,
           fgcolor_of (r), bgcolor_of (r),
           r & RS_Bold    ? " bold"    : "",
           r & RS_Italic  ? " italic"  : "",
           r & RS_Blink   ? " blink"   : "",
           r & RS_RVid    ? " rvid"    : "",
           r & RS_Uline   ? " uline"   : "",
           r & RS_Careful ? " careful" : "");

  int width = 0;
  fname = rxvt_temp_buf<wchar_t *> (len);
  for (int i = 0; i < len; i++)
    {
      rxvt_font *f = (*fs)[fs->find_font_idx (chr[i])];
      fname[i] = rxvt_utf8towcs (f->name);
      max_it (width, wcswidth (fname[i], wcslen (fname[i])));
    }

  max_it (width, strlen (attr));

  if (y >= 0)
    {
      y = (y >= nrow - len - 5 && x < width + 2) ? 0 : -1;
      x = 0;
    }

  scr_overlay_new (x, y, width, len * 2 + 2);

  scr_overlay_set (0, 0, rowcol);

  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 + 1, buf);
      scr_overlay_set (9, y + 1, '=');
# if !UNICODE_3
      if (ch >= 0x10000)
        ch = 0xfffd;
# endif
      scr_overlay_set (11, y + 1, ch, r);

      if (WCWIDTH (ch) >= 2)
        scr_overlay_set (12, y + 1, NOCHAR, r);
    }

//  {
//    char buf[4+4+3+1];
//    snprintf (buf, sizeof (buf), "(%.4d|%.4d)", x, y);
//    scr_overlay_set (0, 0, buf);
//  }
  scr_overlay_set (0, len + 1, attr);
  for (int i = 0; i < len; i++)
    {
      scr_overlay_set (0, len + 2 + i, fname[i]);
      free (fname[i]);
    }

# if ENABLE_COMBINING
  if (alloc)
    delete [] alloc;
# endif
}
#endif

void ecb_cold
rxvt_term::commit_iso14755 ()
{
  wchar_t ch = iso14755buf & ISO_14755_MASK;

  if (iso14755buf & ISO_14755_51)
    {
      char mb[MB_LEN_MAX];
      int len;

      // allow verbatim 0-bytes and control-bytes to be entered
      if (ch >= 0x20)
        len = wctomb (mb, ch);
      else
        {
          mb[0] = ch;
          len = 1;
        }

      if (len > 0)
        tt_write (mb, len);
      else
        scr_bell ();
    }

  iso14755buf = 0;
}

static int ecb_cold
hex_keyval (XKeyEvent &ev)
{
  // check whether 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

static inline KeySym ecb_cold
translate_keypad (KeySym keysym, bool kp)
{
#ifdef XK_KP_Home
  static const KeySym keypadtrans[] = {
    XK_KP_7, // XK_KP_Home
    XK_KP_4, // XK_KP_Left
    XK_KP_8, // XK_KP_Up
    XK_KP_6, // XK_KP_Right
    XK_KP_2, // XK_KP_Down
    XK_KP_9, // XK_KP_Prior
    XK_KP_3, // XK_KP_Next
    XK_KP_1, // XK_KP_End
    XK_KP_5, // XK_KP_Begin
  };

  if (IN_RANGE_INC (keysym, XK_KP_Home, XK_KP_Begin))
    {
      unsigned int index = keysym - XK_KP_Home;
      keysym = kp ? keypadtrans[index] : XK_Home + index;
    }
  else if (keysym == XK_KP_Insert)
    keysym = kp ? XK_KP_0 : XK_Insert;
# ifndef NO_DELETE_KEY
  else if (keysym == XK_KP_Delete)
    keysym = kp ? XK_KP_Decimal : XK_Delete;
# endif
#endif
  return keysym;
}

static inline int ecb_cold
map_function_key (KeySym keysym)
{
  int param = 0;

  if (IN_RANGE_INC (keysym, XK_F1, XK_F35))
    {
      param = 11 + keysym - XK_F1;
      if (keysym >= XK_F17)
        param += 4;
      else if (keysym >= XK_F15)
        param += 3;
      else if (keysym >= XK_F11)
        param += 2;
      else if (keysym >= XK_F6)
        param += 1;
    }
  else
    switch (keysym)
      {
        case XK_Find:
          param = 1;
          break;
        case XK_Insert:
          param = 2;
          break;
#ifdef DXK_Remove
        case DXK_Remove:
#endif
        case XK_Execute:
          param = 3;
          break;
        case XK_Select:
          param = 4;
          break;
        case XK_Prior:
          param = 5;
          break;
        case XK_Next:
          param = 6;
          break;
        case XK_Home:
          param = 7;
          break;
        case XK_End:
          param = 8;
          break;
        case XK_Help:
          param = 28;
          break;
        case XK_Menu:
          param = 29;
          break;
      }
  return param;
}

static inline wchar_t *
rxvt_wcsdup (const wchar_t *str, int len)
{
  wchar_t *r = (wchar_t *)rxvt_malloc ((len + 1) * sizeof (wchar_t));
  memcpy (r, str, len * sizeof (wchar_t));
  r[len] = 0;
  return r;
}

void ecb_cold
rxvt_term::key_press (XKeyEvent &ev)
{
  int ctrl, meta, shft, len;
  KeySym keysym = NoSymbol;
  char rkbuf[KBUFSZ + 1];
  char *kbuf = rkbuf + 1;

#if ISO_14755
  if (iso14755buf & ISO_14755_52)
    return;
#endif

  /*
   * 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;

  kbuf[0] = 0;

#if 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, 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;
        }
    }
  else
#endif
    {
      len = XLookupString (&ev, kbuf, KBUFSZ, &keysym, &compose);
    }

  if (keysym != NoSymbol)
    {
      KeySym orig_keysym = keysym;

      /* Shift + F1 - F10 generates F11 - F20 */
      if (shft && keysym >= XK_F1 && keysym <= XK_F10)
        {
          keysym += (XK_F11 - XK_F1);
          shft = 0;     /* turn off Shift */
        }

      if (keysym >= 0xFF00 && keysym <= 0xFFFF)
        {
          bool kp = priv_modes & PrivMode_aplKP ? !shft : shft;
          unsigned int newlen = 1;

          if (ev.state & ModNumLockMask)
            kp = false;

          keysym = translate_keypad (keysym, kp);

          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, rs[Rs_backspace_key]);
                break;
#endif
#ifndef NO_DELETE_KEY
              case XK_Delete:
                strcpy (kbuf, rs[Rs_delete_key]);
                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;

              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;

              case XK_KP_Enter:
                /* allow shift to override */
                if (kp)
                  {
                    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;

              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 (kp)
                  {
                    strcpy (kbuf, "\033Oj");
                    kbuf[2] += (keysym - XK_KP_Multiply);
                  }
                else
                  {
                    kbuf[0] = ('*' + (keysym - XK_KP_Multiply));
                    kbuf[1] = '\0';
                  }
                break;

              default:
                {
                  int param = map_function_key (keysym);
                  if (param > 0)
                    sprintf (kbuf,"\033[%d~", param);
                  else
                    newlen = 0;
                }
                break;
            }

          if (newlen)
            len = strlen (kbuf);

          if (len > 0)
            {
              /*
               * pass Shift/Control indicators for function keys ending with `~'
               *
               * eg,
               *   Prior = "ESC[5~"
               *   Shift+Prior = "ESC[5$"
               *   Ctrl+Prior = "ESC[5^"
               *   Ctrl+Shift+Prior = "ESC[5@"
               */
              if (kbuf[0] == C0_ESC && kbuf[1] == '[' && kbuf[len - 1] == '~')
                kbuf[len - 1] = (shft ? (ctrl ? '@' : '$') : (ctrl ? '^' : '~'));

              /*
               * Pass meta for all function keys, if 'meta' option set
               */
#ifdef META8_OPTION
              if (meta && (meta_char == 0x80))
                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))
            {
              char *ch;

              for (ch = kbuf; ch < kbuf + len; ch++)
                *ch |= 0x80;
            }
#endif
          /* nil */ ;
        }

      keysym = orig_keysym;
    }

  /* escape prefix */
  if (len && meta
#ifdef META8_OPTION
      && meta_char == C0_ESC
#endif
     )
    {
      *--kbuf = C0_ESC;
      len++;
    }

  if (HOOK_INVOKE ((this, HOOK_KEY_PRESS, DT_XEVENT, &ev, DT_INT, keysym, DT_STR_LEN, kbuf, len, DT_END)))
    return;

  if (keysym != NoSymbol)
    {
#ifdef KEYSYM_RESOURCE
      if (keyboard->dispatch (this, keysym, ev.state, kbuf, len))
        return;
#endif

      if (saveLines)
        {
#ifdef UNSHIFTED_SCROLLKEYS
          if (!ctrl && !meta)
#else
          if (IS_SCROLL_MOD)
#endif
            {
              int lnsppg;

#ifdef PAGING_CONTEXT_LINES
              lnsppg = nrow - PAGING_CONTEXT_LINES;
#else
              lnsppg = nrow * 4 / 5;
#endif
              max_it (lnsppg, 1);

              if (keysym == XK_Prior)
                {
                  scr_page (lnsppg);
                  return;
                }
              else if (keysym == XK_Next)
                {
                  scr_page (-lnsppg);
                  return;
                }
            }
#ifdef SCROLL_ON_UPDOWN_KEYS
          if (IS_SCROLL_MOD)
            {
              if (keysym == XK_Up)
                {
                  scr_page (1);
                  return;
                }
              else if (keysym == XK_Down)
                {
                  scr_page (-1);
                  return;
                }
            }
#endif
#ifdef SCROLL_ON_HOMEEND_KEYS
          if (IS_SCROLL_MOD)
            {
              if (keysym == XK_Home)
                {
                  scr_changeview (top_row);
                  return;
                }
              else if (keysym == XK_End)
                {
                  scr_changeview (0);
                  return;
                }
            }
#endif
        }

      if (shft)
        {
          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);
                    return;
#if TODO
                    /* rxvt extras */
                  case XK_KP_Add:       /* Shift+KP_Add = bigger font */
                    return;
                  case XK_KP_Subtract:  /* Shift+KP_Subtract = smaller font */
                    return;
#endif
                }
            }
        }

      if (ctrl && meta && (keysym == XK_c || keysym == XK_v))
        {
          if (keysym == XK_v)
            selection_request (ev.time, Sel_Clipboard);
          else if (selection.len > 0)
            {
              free (selection.clip_text);
              selection.clip_text = rxvt_wcsdup (selection.text, selection.len);
              selection.clip_len = selection.len;
              selection_grab (CurrentTime, true);
            }

          return;
        }

#if ENABLE_FRILLS || ISO_14755
      // ISO 14755 support
      if (iso14755buf & (ISO_14755_STARTED | ISO_14755_51))
        {
          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 (keysym == XK_BackSpace)
            {
              iso14755buf = ((iso14755buf & ISO_14755_MASK) >> 4) | ISO_14755_51;
# if ISO_14755
              iso14755_51 (iso14755buf & ISO_14755_MASK);
# 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 ISO_14755
              scr_overlay_off ();
# endif
              iso14755buf = 0;
            }
        }
      else if (option (Opt_iso14755) &&
               ((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 ISO_14755
            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 (len <= 0)
    return;                     /* not mapped */

  tt_write_user_input (kbuf, (unsigned int)len);
}

void ecb_cold
rxvt_term::key_release (XKeyEvent &ev)
{
#if (MOUSE_WHEEL && MOUSE_SLIP_WHEELING) || ISO_14755 || ENABLE_PERL
  KeySym keysym;

  keysym = XLookupKeysym (&ev, ev.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 ISO_14755
        scr_overlay_off ();
# endif
# if ISO_14755
        // iso14755 part 5.2 handling: release time
        // first: controls
        if ((ev.state & ControlMask)
             && ((keysym >= 0x40 && keysym <= 0x5f)
                 || (keysym >= 0x61 && keysym <= 0x7f)))
          {
            iso14755buf = ISO_14755_51 | 0x2400 | (keysym & 0x1f);
            commit_iso14755 ();

            return;
          }

        for (unsigned short *i = iso14755_symtab; i[0]; i += 2)
          if (i[0] == keysym)
            {
              iso14755buf = ISO_14755_51 | i[1];
              commit_iso14755 ();

              return;
            }

        scr_bell ();
# endif
        iso14755buf = 0;

        return;
      }
    else if ((ev.state & (ShiftMask | ControlMask)) != (ShiftMask | ControlMask))
      {
# if ISO_14755
        scr_overlay_off ();
# endif
        if (iso14755buf & ISO_14755_51)
          commit_iso14755 ();
#if ISO_14755
        else if (option (Opt_iso14755_52) && 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 (HOOK_INVOKE ((this, HOOK_KEY_RELEASE, DT_XEVENT, &ev, DT_INT, keysym, DT_END)))
    return;

#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)
  if (!(ev.state & ControlMask))
    slip_wheel_ev.stop ();
  else if (keysym == XK_Control_L || keysym == XK_Control_R)
    mouse_slip_wheel_speed = 0;
#endif
}

void
rxvt_term::flush ()
{
  flush_ev.stop ();

#ifdef HAVE_IMG
  if (bg_flags & BG_NEEDS_REFRESH)
    {
      bg_flags &= ~BG_NEEDS_REFRESH;
      scr_touch (false);
    }
#endif

  if (want_refresh)
    {
      if (SHOULD_INVOKE (HOOK_LINE_UPDATE))
        {
          int row = view_start;
          int end_row = row + nrow;

          while (row > top_row && ROW (row - 1).is_longer ())
            --row;

          do
            {
              int start_row = row;
              line_t *l;

              do
                {
                  l = &ROW (row++);

                  if (!(l->f & LINE_FILTERED))
                    {
                      // line not filtered, mark it as filtered
                      l->f |= LINE_FILTERED;
                      while (l->is_longer ())
                        {
                          l = &ROW (row++);
                          l->f |= LINE_FILTERED;
                        }

                      // and filter it
                      HOOK_INVOKE ((this, HOOK_LINE_UPDATE, DT_INT, start_row, DT_END));

                      break;
                    }
                }
              while (l->is_longer () && row < end_row);
            }
          while (row < end_row);
        }

      scr_refresh ();
      scrollBar.show (1);
#if USE_XIM
      im_send_spot ();
#endif
    }

  display->flush ();
}

/* checks whether a refresh is requested and starts the refresh timer */
void
rxvt_term::refresh_check ()
{
  if (want_refresh && !flush_ev.is_active ())
    flush_ev.start (1. / 60.); // refresh at max. 60 Hz normally

  display->flush ();
}

void
rxvt_term::flush_cb (ev::timer &w, int revents)
{
  make_current ();

  refresh_count = 0;
  flush ();
}

#ifdef CURSOR_BLINK
void
rxvt_term::cursor_blink_reset ()
{
  if (!focus)
    return;

  if (hidden_cursor)
    {
      hidden_cursor = 0;
      want_refresh = 1;
    }

  if (option (Opt_cursorBlink) || (priv_modes & PrivMode_BlinkingCursor))
    cursor_blink_ev.again ();
  else
    cursor_blink_ev.stop ();
}

void
rxvt_term::cursor_blink_cb (ev::timer &w, int revents)
{
  hidden_cursor = !hidden_cursor;
  want_refresh = 1;
  refresh_check ();
}
#endif

#ifdef TEXT_BLINK
void
rxvt_term::text_blink_cb (ev::timer &w, int revents)
{
  if (scr_refresh_rend (RS_Blink, RS_Blink))
    {
      hidden_text = !hidden_text;
      want_refresh = 1;
      refresh_check ();
    }
  else
    w.stop ();
}
#endif

#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING
void
rxvt_term::cont_scroll_cb (ev::timer &w, int revents)
{
  if ((scrollBar.state == SB_STATE_UP || scrollBar.state == SB_STATE_DOWN)
      && scr_page (scrollBar.state == SB_STATE_UP ? UP : DN, 1))
    {
      want_refresh = 1;
      refresh_check ();
    }
  else
    w.stop ();
}
#endif

#ifdef SELECTION_SCROLLING
void
rxvt_term::sel_scroll_cb (ev::timer &w, int revents)
{
  if (scr_page (scroll_selection_lines))
    {
      selection_extend (selection_save_x, selection_save_y, selection_save_state);
      want_refresh = 1;
      refresh_check ();
    }
  else
    w.stop ();
}
#endif

#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)
void
rxvt_term::slip_wheel_cb (ev::timer &w, int revents)
{
  if (scr_page (mouse_slip_wheel_speed))
    {
      want_refresh = 1;
      refresh_check ();
    }

  if (view_start == top_row || view_start == 0 || mouse_slip_wheel_speed == 0)
    {
      mouse_slip_wheel_speed = 0;
      w.stop ();
    }
}
#endif

#if LINUX_YIELD_HACK
static struct event_handler
{
  ev::prepare yield_ev;

  void yield_cb (ev::prepare &w, int revents)
  {
    // this should really be sched_yield(), but the linux guys thought
    // that giving a process calling sched_yield () less cpu time than
    // ones with high nice levels is a useful thing to do. It surely is is
    // allowed by the sus... as is returning ENOSYS.
    // since the linux guys additionally thought that breaking the only
    // known workaround against their unusable sched_yield hack is cool,
    // we just nanosleep a bit and hope for the best.

    struct timespec ts = { 0, 1000 };
    nanosleep (&ts, 0);

    w.stop ();
  }

  event_handler ()
  : yield_ev (this, &event_handler::yield_cb)
  {
  }
} event_handler;
#endif

/* make sure all the cmd data is at beginning of cmdbuf */
void
rxvt_term::cmdbuf_reify ()
{
  if (cmdbuf_ptr == cmdbuf_base)
    return;

  ssize_t used = cmdbuf_endp - cmdbuf_ptr;

  memmove (cmdbuf_base, cmdbuf_ptr, used);
  cmdbuf_ptr  = cmdbuf_base;
  cmdbuf_endp = cmdbuf_ptr + used;

}

#if defined (KEYSYM_RESOURCE)
void
rxvt_term::cmdbuf_append (const char *str, size_t count)
{
  cmdbuf_reify ();

  size_t avail = cmdbuf_base + CBUFSIZ - cmdbuf_endp;

  if (count > avail)
    return;

  memcpy (cmdbuf_endp, str, count);
  cmdbuf_endp += count;

  cmd_parse ();
}
#endif

bool
rxvt_term::pty_fill ()
{
  cmdbuf_reify ();

  size_t avail = cmdbuf_base + CBUFSIZ - cmdbuf_endp;

  if (!avail)
    {
      // normally this indicates a "too long" command sequence - just drop the data we have
      cmdbuf_ptr  = cmdbuf_base;
      cmdbuf_endp = cmdbuf_ptr;
      avail       = CBUFSIZ;
    }

  ssize_t r = read (pty->pty, cmdbuf_endp, avail);

  if (r > 0)
    {
      cmdbuf_endp += r;
      return true;
    }
  else if (r < 0 && (errno == EAGAIN || errno == EINTR))
    {
#if LINUX_YIELD_HACK
      if (display->is_local)
        event_handler.yield_ev.start ();
#endif
    }
  else
    {
      pty_ev.stop ();

      if (!option (Opt_hold))
        destroy ();
    }

  return false;
}

void
rxvt_term::pty_cb (ev::io &w, int revents)
{
  make_current ();

  if (revents & ev::READ)
    // loop, but don't allow a single term to monopolize us
    for (int i = CBUFCNT; i-- && pty_fill (); )
      cmd_parse ();

  if (revents & ev::WRITE)
    pty_write ();

  refresh_check ();
}

void ecb_cold
rxvt_term::pointer_unblank ()
{
  XDefineCursor (dpy, vt, TermWin_cursor);
  recolor_cursor ();

#ifdef POINTER_BLANK
  hidden_pointer = 0;

  if (option (Opt_pointerBlank))
    pointer_ev.start (pointerBlankDelay);
#endif
}

#ifdef POINTER_BLANK
void ecb_cold
rxvt_term::pointer_blank ()
{
  if (!option (Opt_pointerBlank))
    return;

  XDefineCursor (dpy, vt, display->blank_cursor);
  XFlush (dpy);

  hidden_pointer = 1;
}

void ecb_cold
rxvt_term::pointer_cb (ev::timer &w, int revents)
{
  make_current ();

  pointer_blank ();
}
#endif

void
rxvt_term::mouse_report (XButtonEvent &ev)
{
  int button_number, key_state = 0;
  int x, y;
  int code = 32;

  x = Pixel2Col (ev.x) + 1;
  y = Pixel2Row (ev.y) + 1;

  if (ev.type == MotionNotify)
    {
      if (x == mouse_row && y == mouse_col)
        return;

      mouse_row = x;
      mouse_col = y;
      code += 32;
    }

  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,
          y);
#endif

#if ENABLE_FRILLS
  if (priv_modes & PrivMode_ExtMouseRight)
    tt_printf ("\033[%d;%d;%dM",
              code + button_number + key_state,
              x,
              y);
  else if (priv_modes & PrivMode_ExtModeMouse)
    tt_printf ("\033[M%c%lc%lc",
              code + button_number + key_state,
              wint_t (32 + x),
              wint_t (32 + y));
  else
#endif
    tt_printf ("\033[M%c%c%c",
              code + button_number + key_state,
              32 + x,
              32 + y);
}

/*{{{ process an X event */
void ecb_hot
rxvt_term::x_cb (XEvent &ev)
{
  make_current ();

  dLocal (Display *, dpy);

  if (ev.xany.window == vt
      && SHOULD_INVOKE (HOOK_X_EVENT)
      && HOOK_INVOKE ((this, HOOK_X_EVENT, DT_XEVENT, &ev, DT_END)))
    return;

  // for XQueryPointer
  Window unused_root, unused_child;
  int unused_root_x, unused_root_y;
  unsigned int unused_mask;

  switch (ev.type)
    {
      case KeyPress:
        key_press (ev.xkey);
        break;

      case KeyRelease:
        key_release (ev.xkey);
        break;

      case ButtonPress:
        button_press (ev.xbutton);
        break;

      case ButtonRelease:
        button_release (ev.xbutton);
        break;

      case ClientMessage:
        if (ev.xclient.format == 32
            && !HOOK_INVOKE ((this, HOOK_CLIENT_MESSAGE, DT_XEVENT, &ev, DT_END)))
          {
            if (ev.xclient.message_type == xa[XA_WM_PROTOCOLS])
              {
                if (!HOOK_INVOKE ((this, HOOK_WM_PROTOCOLS, DT_XEVENT, &ev, DT_END)))
                  {
                    if (ev.xclient.data.l[0] == xa[XA_WM_DELETE_WINDOW])
                      {
                        if (!HOOK_INVOKE ((this, HOOK_WM_DELETE_WINDOW, DT_XEVENT, &ev, DT_END)))
                          destroy ();
                      }
#if ENABLE_EWMH
                    else if (ev.xclient.data.l[0] == xa[XA_NET_WM_PING])
                      XSendEvent (dpy, 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
          }
        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:
        if (ev.xfocus.detail != NotifyInferior
            && ev.xfocus.detail != NotifyPointer
            && ev.xfocus.mode != NotifyGrab)
          focus_in ();
        break;

      case FocusOut:
        if (ev.xfocus.detail != NotifyInferior
            && ev.xfocus.detail != NotifyPointer
            && ev.xfocus.mode != NotifyGrab)
          focus_out ();
        break;

      case ConfigureNotify:
        if (ev.xconfigure.window == parent)
          {
            while (XCheckTypedWindowEvent (dpy, ev.xconfigure.window, ConfigureNotify, &ev))
              ;

            bool want_position_change = SHOULD_INVOKE (HOOK_POSITION_CHANGE);

            bool moved = false;
#ifdef HAVE_BG_PIXMAP
            if (bg_window_position_sensitive ())
              {
                want_position_change = true;
                if (bg_img == 0)
                  moved = true;
              }
#endif

            if (want_position_change)
              {
                int x, y;

                if (ev.xconfigure.send_event)
                  {
                    x = ev.xconfigure.x;
                    y = ev.xconfigure.y;
                  }
                else
                  get_window_origin (x, y);

                if (x != parent_x || y != parent_y)
                  {
                    parent_x = x;
                    parent_y = y;
                    HOOK_INVOKE ((this, HOOK_POSITION_CHANGE, DT_INT, x, DT_INT, y, DT_END));
                    moved = true;
                  }
              }

            if (szHint.width != ev.xconfigure.width || szHint.height != ev.xconfigure.height)
              {
                seen_resize = 1;
                resize_all_windows (ev.xconfigure.width, ev.xconfigure.height, 1);
              }
            else
              {
#ifdef HAVE_BG_PIXMAP
                if (moved)
                  update_background ();
#endif
              }

            HOOK_INVOKE ((this, HOOK_CONFIGURE_NOTIFY, DT_XEVENT, &ev, DT_END));
          }
        break;

      case PropertyNotify:
        HOOK_INVOKE ((this, HOOK_PROPERTY_NOTIFY, DT_XEVENT, &ev, DT_END));
        break;

      case SelectionClear:
        selection_clear (ev.xselectionclear.selection == xa[XA_CLIPBOARD]);
        break;

      case SelectionRequest:
        selection_send (ev.xselectionrequest);
        break;

      case MapNotify:
#ifdef HAVE_BG_PIXMAP
        // This is needed at startup for the case of no window manager
        // or a non-reparenting window manager and also because we
        // defer bg image updates if the window is not mapped. The
        // short delay is to optimize for multiple ConfigureNotify
        // events at startup when the window manager reparents the
        // window, so as to perform the computation after we have
        // received all of them.
        if (bg_img == 0)
          update_background_ev.start (0.025);
#endif
        mapped = 1;
#ifdef TEXT_BLINK
        text_blink_ev.start ();
#endif
        HOOK_INVOKE ((this, HOOK_MAP_NOTIFY, DT_XEVENT, &ev, DT_END));
        break;

      case UnmapNotify:
        mapped = 0;
#ifdef TEXT_BLINK
        text_blink_ev.stop ();
#endif
        HOOK_INVOKE ((this, HOOK_UNMAP_NOTIFY, DT_XEVENT, &ev, DT_END));
        break;

      case GraphicsExpose:
      case Expose:
        if (ev.xany.window == vt)
          {
            do
              {
                scr_expose (ev.xexpose.x, ev.xexpose.y,
                            ev.xexpose.width, ev.xexpose.height, false);
              }
            while (XCheckTypedWindowEvent (dpy, vt, ev.xany.type, &ev));

            ev.xany.type = ev.xany.type == Expose ? GraphicsExpose : Expose;

            while (XCheckTypedWindowEvent (dpy, vt, ev.xany.type, &ev))
              {
                scr_expose (ev.xexpose.x, ev.xexpose.y,
                            ev.xexpose.width, ev.xexpose.height, false);
              }

            want_refresh = 1;
          }
        else
          {
            XEvent unused_event;

            while (XCheckTypedWindowEvent (dpy, ev.xany.window, Expose, &unused_event))
              ;
            while (XCheckTypedWindowEvent (dpy, ev.xany.window, GraphicsExpose, &unused_event))
              ;

            if (scrollBar.state && ev.xany.window == scrollBar.win)
              {
                scrollBar.state = SB_STATE_IDLE;
                scrollBar.show (0);
              }
          }
        break;

      case MotionNotify:
#ifdef POINTER_BLANK
        if (hidden_pointer)
          pointer_unblank ();
#endif
        if (!bypass_keystate
            && ((priv_modes & PrivMode_MouseBtnEvent && ev.xbutton.state & (Button1Mask|Button2Mask|Button3Mask))
                || priv_modes & PrivMode_MouseAnyEvent))
          mouse_report (ev.xbutton);
        if ((priv_modes & PrivMode_mouse_report) && !bypass_keystate)
          break;

        if (ev.xany.window == vt)
          {
            if (SHOULD_INVOKE (HOOK_MOTION_NOTIFY)
                && HOOK_INVOKE ((this, HOOK_MOTION_NOTIFY, DT_XEVENT, &ev, DT_END)))
              ; // nop
            else if (ev.xbutton.state & (Button1Mask | Button3Mask))
              {
                while (XCheckTypedWindowEvent (dpy, vt, MotionNotify, &ev))
                  ;

                XQueryPointer (dpy, 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 < int_bwidth
                        || Pixel2Row (ev.xbutton.y) > (nrow-1))
                      {
                        page_dirn scroll_selection_dir;
                        int dist;

                        /* don't clobber the current delay if we are
                         * already in the middle of scrolling.
                         */
                        if (!sel_scroll_ev.is_active ())
                          sel_scroll_ev.start (SCROLLBAR_INITIAL_DELAY, SCROLLBAR_CONTINUOUS_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 < int_bwidth)
                          {
                            scroll_selection_dir = UP;
                            dist = int_bwidth - ev.xbutton.y;
                          }
                        else
                          {
                            scroll_selection_dir = DN;
                            dist = ev.xbutton.y - (int_bwidth + vt_height);
                          }

                        scroll_selection_lines = Pixel2Height (dist)
                                                 / SELECTION_SCROLL_LINE_SPEEDUP
                                                 + 1;
                        min_it (scroll_selection_lines,
                                SELECTION_SCROLL_MAX_LINES);
                        scroll_selection_lines *= scroll_selection_dir;
                      }
                    else
                      {
                        /* we are within the text window, so we
                         * shouldn't be scrolling
                         */
                        sel_scroll_ev.stop();
                      }
#endif
                  }
              }
          }
        else if (scrollBar.state == SB_STATE_MOTION && ev.xany.window == scrollBar.win)
          {
            while (XCheckTypedWindowEvent (dpy, scrollBar.win,
                                           MotionNotify, &ev))
              ;

            XQueryPointer (dpy, 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 ());
            want_refresh = 1;
            scrollBar.show (1);
          }
        break;
    }

#if defined(CURSOR_BLINK)
  if (ev.type == KeyPress)
    cursor_blink_reset ();
#endif

#if defined(POINTER_BLANK)
  if (option (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

  refresh_check ();
}

#if ENABLE_FRILLS
void ecb_cold
rxvt_term::set_urgency (bool enable)
{
  if (enable == urgency_hint)
    return;

  if (XWMHints *h = XGetWMHints (dpy, parent))
    {
      h->flags = h->flags & ~XUrgencyHint | (enable ? XUrgencyHint : 0);
      XSetWMHints (dpy, parent, h);
      urgency_hint = enable;
      XFree (h);
    }
}
#endif

void ecb_cold
rxvt_term::focus_in ()
{
  if (!focus)
    {
      focus = 1;
      want_refresh = 1;

#if USE_XIM
      if (Input_Context != NULL)
        {
          im_set_position ();
          XSetICFocus (Input_Context);
        }
#endif
#if CURSOR_BLINK
      if (option (Opt_cursorBlink))
        cursor_blink_ev.again ();
#endif
#if OFF_FOCUS_FADING
      if (rs[Rs_fade])
        {
          pix_colors = pix_colors_focused;
          scr_recolor ();
        }
#endif
#if ENABLE_FRILLS
      if (option (Opt_urgentOnBell))
        set_urgency (0);

      if (priv_modes & PrivMode_FocusEvent)
        tt_printf ("\x1b[I");
#endif

      HOOK_INVOKE ((this, HOOK_FOCUS_IN, DT_END));
    }
}

void ecb_cold
rxvt_term::focus_out ()
{
  if (focus)
    {
      focus = 0;
      want_refresh = 1;

#if ENABLE_FRILLS
      if (option (Opt_urgentOnBell))
        set_urgency (0);

      if (priv_modes & PrivMode_FocusEvent)
        tt_printf ("\x1b[O");
#endif
#if ENABLE_FRILLS || ISO_14755
      if (iso14755buf)
        {
          iso14755buf = 0;
# if ISO_14755
          scr_overlay_off ();
# endif
        }
#endif
#if USE_XIM
      if (Input_Context != NULL)
        XUnsetICFocus (Input_Context);
#endif
#if CURSOR_BLINK
      if (option (Opt_cursorBlink))
        cursor_blink_ev.stop ();

      hidden_cursor = 0;
#endif
#if OFF_FOCUS_FADING
      if (rs[Rs_fade])
        {
          pix_colors = pix_colors_unfocused;
          scr_recolor ();
        }
#endif

      HOOK_INVOKE ((this, HOOK_FOCUS_OUT, DT_END));
    }
}

void ecb_cold
rxvt_term::update_fade_color (unsigned int idx, bool first_time)
{
#if OFF_FOCUS_FADING
  if (rs[Rs_fade])
    {
      if (!first_time)
        pix_colors_focused [idx].free (this);

      rgba c;
      pix_colors [Color_fade].get (c);
      pix_colors_focused [idx].fade (this, atoi (rs[Rs_fade]), pix_colors_unfocused [idx], c);
    }
#endif
}

#if BG_IMAGE_FROM_ROOT || ENABLE_PERL
void ecb_hot
rxvt_term::rootwin_cb (XEvent &ev)
{
  make_current ();

  if (SHOULD_INVOKE (HOOK_ROOT_EVENT)
      && HOOK_INVOKE ((this, HOOK_ROOT_EVENT, DT_XEVENT, &ev, DT_END)))
    return;

  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])
          {
#if BG_IMAGE_FROM_ROOT
            if (option (Opt_transparent))
              {
                rxvt_img::new_from_root (this)->replace (root_img);
                update_background ();
              }
#endif
            HOOK_INVOKE ((this, HOOK_ROOTPMAP_CHANGE, DT_END));
          }

        break;
    }

  refresh_check ();
}
#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 == vt)
    {
      if (HOOK_INVOKE ((this, HOOK_BUTTON_PRESS, DT_XEVENT, &ev, DT_END)))
        return;

#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 < multiClickTime;

      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 allowed 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 (scrollBar.state && ev.window == scrollBar.win)
    {
      page_dirn direction = NO_DIR;

      if (scrollBar.upButton (ev.y))
        direction = UP; /* up */
      else if (scrollBar.dnButton (ev.y))
        direction = DN;  /* down */

      scrollBar.state = SB_STATE_IDLE;
      /*
       * 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 (direction == UP)
            tt_printf ("\033[A");
          else if (direction == DN)
            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 */
        {
          if (direction != NO_DIR)
            {
#ifndef NO_SCROLLBAR_BUTTON_CONTINUAL_SCROLLING
              if (!cont_scroll_ev.is_active ())
                cont_scroll_ev.start (SCROLLBAR_INITIAL_DELAY, SCROLLBAR_CONTINUOUS_DELAY);
#endif
              if (scr_page (direction, 1))
                {
                  if (direction == UP)
                    scrollBar.state = SB_STATE_UP;
                  else
                    scrollBar.state = SB_STATE_DOWN;
                }
            }
          else
            switch (ev.button)
              {
                case Button2:
                  switch (scrollBar.align)
                    {
                      case SB_ALIGN_TOP:
                        csrO = 0;
                        break;
                      case SB_ALIGN_CENTRE:
                        csrO = (scrollBar.bot - scrollBar.top) / 2;
                        break;
                      case SB_ALIGN_BOTTOM:
                        csrO = scrollBar.bot - scrollBar.top;
                        break;
                    }

                  if (scrollBar.style == SB_STYLE_XTERM
                      || scrollBar.above_slider (ev.y)
                      || scrollBar.below_slider (ev.y))
                    scr_move_to (scrollBar.position (ev.y) - csrO, scrollBar.size ());

                  scrollBar.state = SB_STATE_MOTION;
                  break;

                case Button1:
                  if (scrollBar.align == SB_ALIGN_CENTRE)
                    csrO = ev.y - scrollBar.top;
                  /* FALLTHROUGH */

                case Button3:
                  if (scrollBar.style != SB_STYLE_XTERM)
                    {
                      if (scrollBar.above_slider (ev.y))
# ifdef RXVT_SCROLL_FULL
                        scr_page (UP, nrow - 1);
# else
                        scr_page (UP, nrow / 4);
# endif
                      else if (scrollBar.below_slider (ev.y))
# ifdef RXVT_SCROLL_FULL
                        scr_page (DN, nrow - 1);
# else
                        scr_page (DN, nrow / 4);
# endif
                      else
                        scrollBar.state = SB_STATE_MOTION;
                    }
                  else
                    {
                      scr_page ((ev.button == Button1 ? DN : UP),
                                (nrow
                                 * scrollBar.position (ev.y)
                                 / scrollBar.size ()));
                    }

                  break;
              }
        }

      return;
    }
}

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.state == SB_STATE_UP || scrollBar.state == SB_STATE_DOWN)
    {
      scrollBar.state = SB_STATE_IDLE;
      scrollBar.show (0);
    }

#ifdef SELECTION_SCROLLING
  sel_scroll_ev.stop();
#endif

  if (ev.window == vt)
    {
      if (HOOK_INVOKE ((this, HOOK_BUTTON_RELEASE, DT_XEVENT, &ev, DT_END)))
        return;

#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
                      > multiClickTime / 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:
            if (IN_RANGE_EXC (ev.x, 0, vt_width) && IN_RANGE_EXC (ev.y, 0, vt_height)) // inside window?
              selection_request (ev.time, ev.state & ModMetaMask ? Sel_Clipboard : Sel_Primary);
            break;

#ifdef MOUSE_WHEEL
          case Button4:
          case Button5:
            {
              int lines;
              page_dirn dirn;

              dirn = ev.button == Button4 ? UP : DN;

              if (ev.state & ShiftMask)
                lines = 1;
              else if (option (Opt_mouseWheelScrollPage))
                lines = nrow - 1;
              else
                lines = 5;

# ifdef MOUSE_SLIP_WHEELING
              if (ev.state & ControlMask)
                {
                  mouse_slip_wheel_speed += dirn;
                  clamp_it (mouse_slip_wheel_speed, -nrow, nrow);

                  if (!slip_wheel_ev.is_active ())
                    slip_wheel_ev.start (SCROLLBAR_CONTINUOUS_DELAY, SCROLLBAR_CONTINUOUS_DELAY);
                }
              else
# endif
                {
                  scr_page (dirn, lines);
                  scrollBar.show (1);
                }
            }
            break;
#endif
        }
    }
}

/*}}} */

void ecb_hot
rxvt_term::cmd_parse ()
{
  wchar_t ch = NOCHAR;
  char *seq_begin; // remember start of esc-sequence here

  for (;;)
    {
      if (ecb_unlikely (ch == NOCHAR))
        {
          seq_begin = cmdbuf_ptr;
          ch = next_char ();

          if (ch == NOCHAR)
            break;
        }

      if (ecb_likely (!IS_CONTROL (ch) || ch == C0_LF || ch == C0_CR || ch == C0_HT))
        {
          if (ecb_unlikely (!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 */
          wchar_t buf[UBUFSIZ];
          bool refreshnow = false;
          int nlines = 0;
          wchar_t *str = buf;
          wchar_t *eol = str + min (ncol, UBUFSIZ);

          for (;;)
            {
              if (ecb_unlikely (ch == NOCHAR || (IS_CONTROL (ch) && ch != C0_LF && ch != C0_CR && ch != C0_HT)))
                break;

              *str++ = ch;

              if (ecb_unlikely (ch == C0_LF || str >= eol))
                {
                  if (ch == C0_LF)
                    nlines++;

                  refresh_count++;

                  if (!option (Opt_jumpScroll) || refresh_count >= nrow - 1)
                    {
                      refresh_count = 0;

                      if (!option (Opt_skipScroll) || ev_time () > ev::now () + 1. / 60.)
                        {
                          refreshnow = true;
                          ch = NOCHAR;
                          break;
                        }
                    }

                  // scr_add_lines only works for nlines <= nrow - 1.
                  if (nlines >= nrow - 1)
                    {
                      if (!(SHOULD_INVOKE (HOOK_ADD_LINES)
                            && HOOK_INVOKE ((this, HOOK_ADD_LINES, DT_WCS_LEN, buf, str - buf, DT_END))))
                        scr_add_lines (buf, str - buf, nlines);

                      nlines = 0;
                      str = buf;
                      eol = str + min (ncol, UBUFSIZ);
                    }

                  if (str >= eol)
                    {
                      if (eol >= buf + UBUFSIZ)
                        {
                          ch = NOCHAR;
                          break;
                        }
                      else
                        eol = min (eol + ncol, buf + UBUFSIZ);
                    }

                }

              seq_begin = cmdbuf_ptr;
              ch = next_char ();
            }

          if (!(SHOULD_INVOKE (HOOK_ADD_LINES)
                && HOOK_INVOKE ((this, HOOK_ADD_LINES, DT_WCS_LEN, buf, str - buf, DT_END))))
            scr_add_lines (buf, str - buf, nlines);

          /*
           * If there have been a lot of new lines, then update the screen
           * What the heck we'll cheat and only refresh less than every page-full.
           * if skipScroll is enabled.
           */
          if (refreshnow)
            {
              scr_refresh ();
              want_refresh = 1;
            }
        }
      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;
        }
    }
}

// read the next character
wchar_t ecb_hot
rxvt_term::next_char () NOTHROW
{
  while (cmdbuf_ptr < cmdbuf_endp)
    {
      // assume 7-bit to be ascii ALWAYS
      if (ecb_likely ((unsigned char)*cmdbuf_ptr <= 0x7f && *cmdbuf_ptr != 0x1b))
        return *cmdbuf_ptr++;

      wchar_t wc;
      size_t len = mbrtowc (&wc, 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)
        {
          mbstate.reset (); // reset now undefined conversion state
          // a -1 might indicate that a previous incomplete char is invalid (previous return -2)
          // in which case we "erroneously" return the next byte which might be valid.
          return (unsigned char)*cmdbuf_ptr++; // the _occasional_ latin1 character is allowed to slip through
        }

      // assume wchar == unicode
      cmdbuf_ptr += len;
      return wc & UNICODE_MASK;
    }

  return NOCHAR;
}

// read the next octet
uint32_t ecb_hot
rxvt_term::next_octet () NOTHROW
{
  return cmdbuf_ptr < cmdbuf_endp
         ? (unsigned char)*cmdbuf_ptr++
         : NOCHAR;
}

static class out_of_input out_of_input;

wchar_t ecb_hot
rxvt_term::cmd_getc () THROW ((class out_of_input))
{
  wchar_t c = next_char ();

  if (c == NOCHAR)
    throw out_of_input;

  return c;
}

uint32_t ecb_hot
rxvt_term::cmd_get8 () THROW ((class out_of_input))
{
  uint32_t c = next_octet ();

  if (c == NOCHAR)
    throw out_of_input;

  return c;
}

/*{{{ print pipe */
/*----------------------------------------------------------------------*/
#ifdef PRINTPIPE
FILE * ecb_cold
rxvt_term::popen_printer ()
{
  FILE *stream = popen (rs[Rs_print_pipe] ? rs[Rs_print_pipe] : PRINTPIPE, "w");

  if (stream == NULL)
    rxvt_warn ("can't open printer pipe, not printing.\n");

  return stream;
}

int ecb_cold
rxvt_term::pclose_printer (FILE *stream)
{
  fflush (stream);
  return pclose (stream);
}

/*
 * simulate attached vt100 printer
 */
void ecb_cold
rxvt_term::process_print_pipe ()
{
  FILE *fd = popen_printer ();

  if (!fd)
    return;

  /*
   * Send all input to the printer until either ESC[4i or ESC[?4i
   * is received.
   */
  for (int 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 */
/*}}} */

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,
};

/*{{{ process non-printing single characters */
void ecb_hot
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 (rs [Rs_answerbackstring], strlen (rs [Rs_answerbackstring]));
        else
          tt_write (VT100_ANS, 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:                /* OSC */
        process_osc_seq ();
        break;
#endif
    }
}
/*}}} */


/*{{{ process VT52 escape sequences */
void ecb_cold
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 */
        priv_modes &= ~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 ecb_hot
rxvt_term::process_escape_seq ()
{
  unicode_t ch = cmd_getc ();

  if (priv_modes & PrivMode_vt52)
    {
      process_escape_vt52 (ch);
      return;
    }

  switch (ch)
    {
      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_MINIMAL
      case '6':
        scr_backindex ();
        break;
#endif
      case '7':
        scr_cursor (SAVE);
        break;
      case '8':
        scr_cursor (RESTORE);
        break;
#if !ENABLE_MINIMAL
      case '9':
        scr_forwardindex ();
        break;
#endif
      // DECPAM/DECPNM
      case '=':
        priv_modes |= PrivMode_aplKP;
        break;
      case '>':
        priv_modes &= ~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 */
        {
          wchar_t nlcr[] = { C0_LF, C0_CR };
          scr_add_lines (nlcr, ecb_array_length (nlcr), 1);
        }
        break;

        /* kidnapped escape sequence: Should be 8.3.48 */
      case C1_ESA:              /* ESC G */
        // used by original rxvt for rob nations own graphics mode
        if (cmd_getc () == 'Q')
          tt_printf ("\033G0\012");     /* query graphics - no 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: break; */

        /* 8.3.143: SINGLE-SHIFT THREE */
      /* case C1_SS3: 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 (ESCZ_ANSWER, sizeof (ESCZ_ANSWER) - 1);
        break;                  /* steal obsolete ESC [ c */

        /* 8.3.16: CONTROL SEQUENCE INTRODUCER (CSI) */
      case C1_CSI:              /* ESC [ */
        process_csi_seq ();
        break;

        /* 8.3.90: OPERATING SYSTEM COMMAND (OSC) */
      case C1_OSC:              /* ESC ] */
        process_osc_seq ();
        break;

        /* 8.3.106: RESET TO INITIAL STATE (RIS) */
      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[' */
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(b0,b1,b2,b3,b4,b5,b6,b7)                      \
    (((b7) << 7) | ((b6) << 6) | ((b5) << 5) | ((b4) << 4)      \
     | ((b3) << 3) | ((b2) << 2) | ((b1) << 1) | (b0))
#define get_byte_array_bit(array, bit)                          \
    (!! ((array)[(bit) >> 3] & (1 << ((bit) & 7))))

static 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, {, |, }, ~,    */
  };

void ecb_hot
rxvt_term::process_csi_seq ()
{
  unicode_t ch, priv, prev_ch, i;
  unsigned int nargs, p;
  int n, ndef;
  int arg[ESC_ARGS] = { };

  nargs = 0;

  priv = 0;
  ch = cmd_getc ();
  if ((ch >= '<' && ch <= '?') || ch == '!')
    {
      /* '<' '=' '>' '?' '!' */
      priv = ch;
      ch = cmd_getc ();
    }

  prev_ch = 0;
  /* 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);

      prev_ch = 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;

  /*
   * private mode handling
   */
  if (priv)
    {
      switch (priv)
        {
          case '>':
            if (ch == CSI_DA)   /* secondary device attributes */
              {
                // first parameter is normally 0 for vt100, 1 for vt220, 'R' for rxvt,
                // 'U' for rxvt-unicode != 7.[34] (where it was broken).
                //
                // second parameter is xterm patch level for xterm, MMmmpp (e.g. 20703) for rxvt
                // and Mm (e.g. 72 for 7.2) for urxvt <= 7.2, 94 for urxvt <= 8.3, and 95 for later
                // versions.
                //
                tt_printf ("\033[>%d;95;0c", 'U');
              }
            break;

          case '?':
            if (ch == 'h' || ch == 'l' || ch == 'r' || ch == 's' || ch == 't')
              process_terminal_mode (ch, priv, nargs, arg);
            break;

          case '!':
            if (ch == CSI_70)
              {
                /* DECSTR: soft terminal reset, used by our terminfo since 9.06 */
                scr_soft_reset ();

                static const int pm_h[] = { 7, 25 };
                static const int pm_l[] = { 1, 3, 4, 5, 6, 9, 66, 1000, 1001, 1005, 1015, 1049 };

                process_terminal_mode ('h', 0, ecb_array_length (pm_h), pm_h);
                process_terminal_mode ('l', 0, ecb_array_length (pm_l), pm_l);
              }
          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_VPB:             /* 8.3.160: (1) LINE POSITION BACKWARD */
        arg[0] = -arg[0];
        /* FALLTHROUGH */
      case CSI_CUD:             /* 8.3.19: (1) CURSOR DOWN */
      case CSI_VPR:             /* 8.3.161: (1) LINE POSITION FORWARD */
        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]);
        break;

      case CSI_DA:              /* 8.3.24: (0) DEVICE ATTRIBUTES */
        tt_write (VT100_ANS, 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 (option (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;

      case CSI_71:              // DECSCUSR: set cursor style
        if (prev_ch == ' ')
          set_cursor_style (arg[0]);
        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_MINIMAL
      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_MINIMAL
void
rxvt_term::process_window_ops (const int *args, unsigned int nargs)
{
  int x, y;
  XWindowAttributes wattr;
  Window wdummy;

  dLocal (Display *, dpy);

  if (nargs == 0)
    return;

  switch (args[0])
    {
      /*
       * commands
       */
      case 1:                   /* deiconify window */
        XMapWindow (dpy, parent);
        break;
      case 2:                   /* iconify window */
        XIconifyWindow (dpy, parent, display->screen);
        break;
      case 3:                   /* set position (pixels) */
        XMoveWindow (dpy, parent, 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 (dpy, parent);
        break;
      case 6:                   /* lower window */
        XLowerWindow (dpy, parent);
        break;
      case 7:                   /* refresh window */
        scr_touch (true);
        break;
      case 8:                   /* set size (chars) */
        set_widthheight ((unsigned int) (args[2] * fwidth),
                         (unsigned int) (args[1] * fheight));
        break;

      //case 9: NYI, TODO, restore maximized window or maximize window
      default:
        if (args[0] >= 24)      /* set height (chars) */
          set_widthheight ((unsigned int)vt_width,
                           (unsigned int) (args[1] * fheight));
        break;

      /*
       * reports - some output format copied from XTerm
       */
      case 11:                  /* report window state */
        XGetWindowAttributes (dpy, parent, &wattr);
        tt_printf ("\033[%dt", wattr.map_state == IsViewable ? 1 : 2);
        break;
      case 13:                  /* report window position */
        XGetWindowAttributes (dpy, parent, &wattr);
        XTranslateCoordinates (dpy, parent, 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 (dpy, parent, &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", nrow, ncol);
        break;
      case 19:                  /* report window size (chars) */
        tt_printf ("\033[9;%d;%dt", nrow, ncol);
        break;
      case 20:                  /* report icon label */
        {
          char *s;
          XGetIconName (dpy, parent, &s);
          tt_printf ("\033]L%-.250s\234", option (Opt_insecure) && s ? s : ""); /* 8bit ST */
          XFree (s);
        }
        break;
      case 21:                  /* report window title */
        {
          char *s;
          XFetchName (dpy, parent, &s);
          tt_printf ("\033]l%-.250s\234", option (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
 */
char *
rxvt_term::get_to_st (unicode_t &ends_how)
{
  unicode_t ch;
  bool seen_esc = false;
  unsigned int n = 0;
  wchar_t string[CBUFSIZ];

  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 == C0_SYN)
        ch = cmd_get8 ();
      else if (ch < 0x20)
        return NULL;    /* other control character - exit */

      seen_esc = false;

      if (n >= sizeof (string) - 1)
        // stop at some sane length
        return NULL;

      string[n++] = ch;
    }

  string[n++] = '\0';

  ends_how = (ch == 0x5c ? C0_ESC : ch);

  return rxvt_wcstombs (string);
}

/*----------------------------------------------------------------------*/
/*
 * process DEVICE CONTROL STRING `ESC P ... (ST|BEL)' or `0x90 ... (ST|BEL)'
 */
void
rxvt_term::process_dcs_seq ()
{
  /*
   * Not handled yet
   */

  unicode_t eh;
  char *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 ()
{
  int arg;

  unicode_t ch = cmd_getc ();
  for (arg = 0; isdigit (ch); ch = cmd_getc ())
    arg = arg * 10 + (ch - '0');

  if (ch == ';')
    {
      unicode_t eh;
      char *s = get_to_st (eh);

      if (s)
        {
          process_xterm_seq (arg, s, eh);
          free (s);
        }
    }
}

static unsigned int
colorcube_index (unsigned int idx_r,
                 unsigned int idx_g,
                 unsigned int idx_b)
{
  assert (idx_r < Red_levels);
  assert (idx_g < Green_levels);
  assert (idx_b < Blue_levels);

  return idx_r * Blue_levels * Green_levels +
         idx_g * Blue_levels +
         idx_b;
}

/*
 * Find the nearest color slot in the hidden color cube,
 * adapt its value to the 24bit RGB color.
 */
unsigned int
rxvt_term::map_rgb24_color (unsigned int r, unsigned int g, unsigned int b)
{
  r &= 0xff;
  g &= 0xff;
  b &= 0xff;

  unsigned int color = (r << 16) | (g << 8) | b;
  unsigned int idx_r = r / (0xff / (Red_levels - 1));
  unsigned int idx_g = g / (0xff / (Green_levels - 1));
  unsigned int idx_b = b / (0xff / (Blue_levels - 1));
  unsigned int idx = colorcube_index (idx_r, idx_g, idx_b);

  // minor issue: could update idx 0 few more times
  if (rgb24_seqno[idx] == 0
      && rgb24_color[idx] == 0)
    goto update;

  if (rgb24_color[idx] == color)
    return idx + minTermCOLOR24;

  for (int i = idx_r - 1; i <= (signed) idx_r + 1; i++)
    {
      if (!IN_RANGE_EXC (i, 0, Red_levels))
        continue;

      for (int j = idx_g - 1; j <= (signed) idx_g + 1; j++)
        {
          if (!IN_RANGE_EXC (j, 0, Green_levels))
            continue;

          for (int k = idx_b - 1; k <= (signed) idx_b + 1; k++)
            {
              if (!IN_RANGE_EXC (k, 0, Blue_levels))
                continue;

              unsigned int index = colorcube_index (i, j, k);

              // minor issue: could update index 0 few more times
              if (rgb24_seqno[index] == 0
                  && rgb24_color[index] == 0)
                {
                  idx = index;
                  goto update;
                }

              if (rgb24_color[index] == color)
                return index + minTermCOLOR24;

              if (IN_RANGE_INC (rgb24_seqno[idx], rgb24_seqno[index], 0x7fff))
                idx = index;
            }
        }
    }

update:
  rgb24_color[idx] = color;
  rgb24_seqno[idx] = ++rgb24_sequence;

  idx += minTermCOLOR24;
  pix_colors_focused [idx].free (this);
  pix_colors_focused [idx].set (this, rgba (r * 0x0101,
                                            g * 0x0101,
                                            b * 0x0101));
  update_fade_color (idx, false);

  return idx;
}

void
rxvt_term::process_color_seq (int report, int color, const char *str, char resp)
{
  if (str[0] == '?' && !str[1])
    {
      rgba c;
      pix_colors_focused[color].get (c);

#if XFT
      if (c.a != rgba::MAX_CC)
        tt_printf ("\033]%d;rgba:%04x/%04x/%04x/%04x%c", report, c.r, c.g, c.b, c.a, resp);
      else
#endif
        tt_printf ("\033]%d;rgb:%04x/%04x/%04x%c", report, c.r, c.g, c.b, resp);
    }
  else
    set_window_color (color, str);
}

/*
 * XTerm escape sequences: ESC ] Ps;Pt (ST|BEL)
 */
void
rxvt_term::process_xterm_seq (int op, char *str, char resp)
{
  int color;
  char *buf, *name;
  bool query = str[0] == '?' && !str[1];
  int saveop = op;

  dLocal (Display *, dpy);

  assert (str != NULL);

  if (HOOK_INVOKE ((this, HOOK_OSC_SEQ, DT_INT, op, DT_STR, str, DT_END)))
    return;

  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 (dpy, parent,
                                       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", op, option (Opt_insecure) ? str : "", resp);

            XFree (value);
          }
        else
          {
            char *eq = strchr (str, '=');

            if (eq)
              {
                *eq = 0;
                set_utf8_property (display->atom (str), eq + 1);
              }
            else
              XDeleteProperty (dpy, parent,
                               display->atom (str));
          }
        break;

      case XTerm_Color:
        for (buf = (char *)str; buf && *buf;)
          {
            if ((name = strchr (buf, ';')) == NULL)
              break;

            *name++ = '\0';
            color = atoi (buf) + minCOLOR;

            if (!IN_RANGE_INC (color, minCOLOR, maxTermCOLOR))
              break;

            if ((buf = strchr (name, ';')) != NULL)
              *buf++ = '\0';

            process_color_seq (op, color, name, resp);
          }
        break;
      case Rxvt_restoreFG:
      case XTerm_Color00:
        process_color_seq (op, Color_fg, str, resp);
        break;
      case Rxvt_restoreBG:
      case XTerm_Color01:
        process_color_seq (op, Color_bg, str, resp);
        break;
#ifndef NO_CURSORCOLOR
      case XTerm_Color_cursor:
        process_color_seq (op, Color_cursor, str, resp);
        break;
#endif
      case XTerm_Color_pointer_fg:
        process_color_seq (op, Color_pointer_fg, str, resp);
        break;
      case XTerm_Color_pointer_bg:
        process_color_seq (op, Color_pointer_bg, str, resp);
        break;
#ifdef OPTION_HC
      case XTerm_Color_HC:
        process_color_seq (op, Color_HC, str, resp);
        break;
      case XTerm_Color_HTC:
        process_color_seq (op, Color_HTC, str, resp);
        break;
#endif
#ifndef NO_BOLD_UNDERLINE_REVERSE
      case URxvt_Color_BD:
        process_color_seq (op, Color_BD, str, resp);
        break;
      case URxvt_Color_UL:
        process_color_seq (op, Color_UL, str, resp);
        break;
      case URxvt_Color_IT:
        process_color_seq (op, Color_IT, str, resp);
        break;
#endif
      case URxvt_Color_border:
        process_color_seq (op, Color_border, str, resp);
        break;

#if BG_IMAGE_FROM_ROOT
      case URxvt_Color_tint:
        process_color_seq (op, Color_tint, str, resp);
        {
          bool changed = false;

          if (ISSET_PIXCOLOR (Color_tint))
            changed = root_effects.set_tint (pix_colors_focused [Color_tint]);

          if (changed)
            update_background ();
        }

        break;
#endif

#if BG_IMAGE_FROM_FILE
      case Rxvt_Pixmap:
        if (!strcmp (str, "?"))
          {
            char str[256];
            int h_scale = fimage.h_scale;
            int v_scale = fimage.v_scale;
            int h_align = fimage.h_align;
            int v_align = fimage.v_align;

            sprintf (str, "[%dx%d+%d+%d]",
                     h_scale, v_scale,
                     h_align, v_align);
            process_xterm_seq (XTerm_title, str, CHAR_ST);
          }
        else
          {
            bool changed = false;

            if (*str != ';')
              {
                try
                  {
                    fimage.set_file_geometry (this, str);
                    changed = true;
                  }
                catch (const class rxvt_failure_exception &e)
                  {
                  }
              }
            else
              {
                str++;
                if (fimage.set_geometry (str, true))
                  changed = true;
              }

            if (changed)
              {
                if (bg_window_position_sensitive ())
                  {
                    int x, y;
                    get_window_origin (x, y);
                    parent_x = x;
                    parent_y = y;
                  }
                update_background ();
              }
          }
        break;
#endif

      case XTerm_logfile:
        // TODO, when secure mode?
        break;

#if 0
      case Rxvt_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,
                     option (Opt_insecure) && fontset[op - URxvt_font]->fontdesc
                       ? 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;

      case URxvt_version:
        if (query)
          tt_printf ("\33]%d;rxvt-unicode;%-.20s;%c;%c%c",
                     op,
                     rs[Rs_name], VERSION[0], VERSION[2],
                     resp);
        break;

#if !ENABLE_MINIMAL
      case URxvt_locale:
        if (query)
          tt_printf ("\33]%d;%-.250s%c", op, option (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

#if ENABLE_PERL
      case URxvt_perl:
        HOOK_INVOKE ((this, HOOK_OSC_SEQ_PERL, DT_STR, str, DT_STR_LEN, &resp, 1, DT_END));
        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 ecb_cold
rxvt_term::privcases (int mode, unsigned long bit)
{
  int state;

  if (mode == 's')
    {
      if (priv_modes & bit)
        SavedModes |= bit;
      else
        SavedModes &= ~bit;
      return -1;
    }
  else
    {
      if (mode == 'r')
        state = (SavedModes & bit) ? 1 : 0;     /* no overlapping */
      else
        state = (mode == 't') ? ! (priv_modes & bit) : mode;

      if (state)
        priv_modes |= bit;
      else
        priv_modes &= ~bit;
    }

  return state;
}

/* we're not using priv _yet_ */
void
rxvt_term::process_terminal_mode (int mode, int priv ecb_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 },       // DECCKM
                  { 2, PrivMode_vt52 },         // DECANM
                  { 3, PrivMode_132 },          // DECCOLM
                  { 4, PrivMode_smoothScroll }, // DECSCLM
                  { 5, PrivMode_rVideo },       // DECSCNM
                  { 6, PrivMode_relOrigin },    // DECOM
                  { 7, PrivMode_Autowrap },     // DECAWM
                 // 8, auto-repeat keys         // DECARM
                  { 9, PrivMode_MouseX10 },
                  { 12, PrivMode_BlinkingCursor },
                 // 18 end FF to printer after print screen
                 // 19 Print screen prints full screen/scroll region
                  { 25, PrivMode_VisibleCursor }, // DECTCEM cnorm/cvvis/civis
#ifdef scrollBar_esc
                  { scrollBar_esc, PrivMode_scrollBar },
#endif
                  { 35, PrivMode_ShiftKeys },   // rxvt extension
                 // 38, tektronix mode          // DECTEK
                  { 40, PrivMode_132OK },
                 // 41 xterm more fixes NYI
                 // 45 margin bell NYI
                 // 46 start logging
                  { 47, PrivMode_Screen },
                  { 66, PrivMode_aplKP },       // DECNKM
#ifndef NO_BACKSPACE_KEY
                  { 67, PrivMode_BackSpace },   // DECBKM
#endif
                  { 1000, PrivMode_MouseX11 },
                  { 1002, PrivMode_MouseBtnEvent },
                  { 1003, PrivMode_MouseAnyEvent },
#if ENABLE_FRILLS
                  { 1004, PrivMode_FocusEvent },
                  { 1005, PrivMode_ExtModeMouse },
#endif
                  { 1010, PrivMode_TtyOutputInh }, // rxvt extension
                  { 1011, PrivMode_Keypress }, // rxvt extension
#if ENABLE_FRILLS
                  { 1015, PrivMode_ExtMouseRight }, // urxvt extension of 1005
#endif
                 // 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, implemented in code
                  { 1049, PrivMode_Screen }, /* xterm extension, clear screen on ti rather than te */
                 // 1051, 1052, 1060, 1061 keyboard emulation NYI
                  { 2004, PrivMode_BracketPaste },
                };

  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 < ecb_array_length (argtopriv); j++)
        if (argtopriv[j].argval == arg[i])
          {
            state = privcases (mode, argtopriv[j].bit);
            break;
          }

      /* extra handling for values with state unkept  */
      switch (arg[i])
        {
#if ENABLE_STYLES
          case 1021:
            set_option (Opt_intensityStyles, mode);

            scr_touch (true);
            break;
#endif
          case 1048:            /* alternative cursor save */
            if (option (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
               */
              priv_modes |= PrivMode_vt52;
              break;
            case 3:                     /* 80/132 */
              if (priv_modes & PrivMode_132OK)
                set_widthheight ((state ? 132 : 80) * fwidth, 24 * fheight);
              break;
            case 4:                     /* smooth scrolling */
              set_option (Opt_jumpScroll, !state);
              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|PrivMode_MouseBtnEvent|PrivMode_MouseAnyEvent);
              break;
#ifdef scrollBar_esc
            case scrollBar_esc:
              scrollBar.map (state);
              resize_all_windows (0, 0, 0);
              scr_touch (true);
              break;
#endif
#ifdef CURSOR_BLINK
            case 12:
              cursor_blink_reset ();
              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|PrivMode_MouseBtnEvent|PrivMode_MouseAnyEvent);
              break;
            case 1002:
            case 1003:
              if (state)
                {
                  priv_modes &= ~(PrivMode_MouseX10|PrivMode_MouseX11);
                  priv_modes &= arg[i] == 1003 ? ~PrivMode_MouseBtnEvent : ~PrivMode_MouseAnyEvent;
                  mouse_row = mouse_col = 0;
                  vt_emask_mouse = PointerMotionMask;
                }
              else
                vt_emask_mouse = NoEventMask;

              vt_select_input ();
              break;
            case 1010:          /* scroll to bottom on TTY output inhibit */
              set_option (Opt_scrollTtyOutput, !state);
              break;
            case 1011:          /* scroll to bottom on key press */
              set_option (Opt_scrollTtyKeypress, state);
              break;
            case 1047:          /* secondary screen w/ clearing last */
              if (option (Opt_secondaryScreen))
                if (!state)
                  scr_erase_screen (2);

              scr_change_screen (state);
              break;
            case 1049:          /* secondary screen w/ clearing first */
              if (option (Opt_secondaryScreen))
                if (state)
                  scr_cursor (SAVE);

              scr_change_screen (state);

              if (option (Opt_secondaryScreen))
                if (state)
                  scr_erase_screen (2);
                else
                  scr_cursor (RESTORE);
              break;
            default:
              break;
          }
    }
}
/*}}} */

/*{{{ process sgr sequences */
void ecb_hot
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: // bold off (vt220)
            rendset = 0, rendstyle = RS_Bold;
            break;
          case 23: // disable italic
            rendset = 0, rendstyle = RS_Italic;
            break;
          case 24: // underline off (vt220)
            rendset = 0, rendstyle = RS_Uline;
            break;
          case 25: // blink off (vt220)
            rendset = 0, rendstyle = RS_Blink;
            break;
          case 26: // variable spacing (iso 8613)
            rendset = 0, rendstyle = RS_Blink;
            break;
          case 27: // reverse off (vt220)
            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;
              }
            else if (nargs > i + 4 && arg[i + 1] == 2)
              {
                unsigned int r = arg[i + 2];
                unsigned int g = arg[i + 3];
                unsigned int b = arg[i + 4];
                unsigned int idx = map_rgb24_color (r, g, b);
                scr_color (idx, Color_fg);
                i += 4;
              }
            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;
              }
            else if (nargs > i + 4 && arg[i + 1] == 2)
              {
                unsigned int r = arg[i + 2];
                unsigned int g = arg[i + 3];
                unsigned int b = arg[i + 4];
                unsigned int idx = map_rgb24_color (r, g, b);
                scr_color (idx, Color_bg);
                i += 4;
              }
            break;
          case 49:              /* default bg */
            scr_color (Color_bg, Color_bg);
            break;

          //case 50: // not variable spacing

#if !ENABLE_MINIMAL
          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
        }
    }
}

void
rxvt_term::set_cursor_style (int style)
{
  if (!IN_RANGE_INC (style, 0, 6))
    return;

  if (style == 0)
    style = 1;

  cursor_type = (style - 1) / 2;
  set_option (Opt_cursorUnderline, cursor_type == 1);

#ifdef CURSOR_BLINK
  set_option (Opt_cursorBlink, style & 1);
  cursor_blink_reset ();
#endif

  want_refresh = 1;
}
/*}}} */

/* ---------------------------------------------------------------------- */
/* 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.
 */

/*
 * 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;
  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. */
void
rxvt_term::tt_write_user_input (const char *data, unsigned int len)
{
  if (HOOK_INVOKE ((this, HOOK_TT_WRITE, DT_STR_LEN, data, len, DT_END)))
    return;

  if (option (Opt_scrollTtyKeypress))
    if (view_start)
      {
        view_start = 0;
        want_refresh = 1;
      }

  tt_write_ (data, len);
}

void
rxvt_term::tt_write (const char *data, unsigned int len)
{
  if (HOOK_INVOKE ((this, HOOK_TT_WRITE, DT_STR_LEN, data, len, DT_END)))
    return;

  tt_write_ (data, len);
}

static const unsigned int MAX_PTY_WRITE = 255; // minimum MAX_INPUT

void
rxvt_term::tt_write_ (const char *data, unsigned int len)
{
  if (pty->pty < 0)
    return;

  if (v_buflen == 0)
    {
      ssize_t written = write (pty->pty, data, min (len, MAX_PTY_WRITE));

      max_it (written, 0);

      if (written == len)
        return;

      data += written;
      len  -= written;
    }

  v_buffer = (char *)rxvt_realloc (v_buffer, v_buflen + len);

  memcpy (v_buffer + v_buflen, data, len);
  v_buflen += len;

  pty_ev.set (ev::READ | ev::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;

          pty_ev.set (ev::READ);
          return;
        }

      memmove (v_buffer, v_buffer + written, v_buflen);
    }
  else if (written != -1 || (errno != EAGAIN && errno != EINTR))
    pty_ev.set (ev::READ);
}

/*----------------------- end-of-file (C source) -----------------------*/

Revision:	1.571
Committed:	Thu Jun 30 11:33:42 2016 UTC (7 years, 10 months ago) by sf-exg
Content type:	text/plain
Branch:	MAIN
Changes since 1.570:	+70 -8 lines
Log Message:	24-bit color cube collision avoidance (patch by Fengguang Wu) When the color cube slot is found to be already occupied by a similar 24-bit color, search through the -1, 0, +1 R/G/B indices trying to find an empty slot, or the oldest used one (which hopefully is no longer in active use). This effectively reduces random collisions, hence make it pretty hard to hit a vim GUI color scheme that cannot be correctly showed in urxvt.