/* Terminal control module for terminals described by TERMCAP Copyright (C) 1985, 1986, 1987, 1993, 1994, 1995, 1998, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 Free Software Foundation, Inc. This file is part of GNU Emacs. GNU Emacs is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Emacs 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 GNU Emacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* New redisplay, TTY faces by Gerd Moellmann <gerd@gnu.org>. */ #include <config.h> #include <stdio.h> #include <ctype.h> #include <string.h> #include "termchar.h" #include "termopts.h" #include "lisp.h" #include "charset.h" #include "coding.h" #include "keyboard.h" #include "frame.h" #include "disptab.h" #include "termhooks.h" #include "dispextern.h" #include "window.h" #include "keymap.h" #include "blockinput.h" /* For now, don't try to include termcap.h. On some systems, configure finds a non-standard termcap.h that the main build won't find. */ #if defined HAVE_TERMCAP_H && 0 #include <termcap.h> #else extern void tputs P_ ((const char *, int, int (*)(int))); extern int tgetent P_ ((char *, const char *)); extern int tgetflag P_ ((char *id)); extern int tgetnum P_ ((char *id)); #endif #include "cm.h" #ifdef HAVE_X_WINDOWS #include "xterm.h" #endif #ifdef MAC_OS #include "macterm.h" #endif static void turn_on_face P_ ((struct frame *, int face_id)); static void turn_off_face P_ ((struct frame *, int face_id)); static void tty_show_cursor P_ ((void)); static void tty_hide_cursor P_ ((void)); #define OUTPUT(a) \ tputs (a, (int) (FRAME_LINES (XFRAME (selected_frame)) - curY), cmputc) #define OUTPUT1(a) tputs (a, 1, cmputc) #define OUTPUTL(a, lines) tputs (a, lines, cmputc) #define OUTPUT_IF(a) \ do { \ if (a) \ tputs (a, (int) (FRAME_LINES (XFRAME (selected_frame)) \ - curY), cmputc); \ } while (0) #define OUTPUT1_IF(a) do { if (a) tputs (a, 1, cmputc); } while (0) /* Display space properties */ extern Lisp_Object Qspace, QCalign_to, QCwidth; /* Function to use to ring the bell. */ Lisp_Object Vring_bell_function; /* If true, use "vs", otherwise use "ve" to make the cursor visible. */ static int visible_cursor; /* Terminal characteristics that higher levels want to look at. These are all extern'd in termchar.h */ int must_write_spaces; /* Nonzero means spaces in the text must actually be output; can't just skip over some columns to leave them blank. */ int min_padding_speed; /* Speed below which no padding necessary */ int line_ins_del_ok; /* Terminal can insert and delete lines */ int char_ins_del_ok; /* Terminal can insert and delete chars */ int scroll_region_ok; /* Terminal supports setting the scroll window */ int scroll_region_cost; /* Cost of setting a scroll window, measured in characters */ int memory_below_frame; /* Terminal remembers lines scrolled off bottom */ int fast_clear_end_of_line; /* Terminal has a `ce' string */ /* Nonzero means no need to redraw the entire frame on resuming a suspended Emacs. This is useful on terminals with multiple pages, where one page is used for Emacs and another for all else. */ int no_redraw_on_reenter; /* Hook functions that you can set to snap out the functions in this file. These are all extern'd in termhooks.h */ void (*cursor_to_hook) P_ ((int, int)); void (*raw_cursor_to_hook) P_ ((int, int)); void (*clear_to_end_hook) P_ ((void)); void (*clear_frame_hook) P_ ((void)); void (*clear_end_of_line_hook) P_ ((int)); void (*ins_del_lines_hook) P_ ((int, int)); void (*delete_glyphs_hook) P_ ((int)); void (*ring_bell_hook) P_ ((void)); void (*reset_terminal_modes_hook) P_ ((void)); void (*set_terminal_modes_hook) P_ ((void)); void (*update_begin_hook) P_ ((struct frame *)); void (*update_end_hook) P_ ((struct frame *)); void (*set_terminal_window_hook) P_ ((int)); void (*insert_glyphs_hook) P_ ((struct glyph *, int)); void (*write_glyphs_hook) P_ ((struct glyph *, int)); void (*delete_glyphs_hook) P_ ((int)); int (*read_socket_hook) P_ ((int, int, struct input_event *)); void (*frame_up_to_date_hook) P_ ((struct frame *)); /* Return the current position of the mouse. Set *f to the frame the mouse is in, or zero if the mouse is in no Emacs frame. If it is set to zero, all the other arguments are garbage. If the motion started in a scroll bar, set *bar_window to the scroll bar's window, *part to the part the mouse is currently over, *x to the position of the mouse along the scroll bar, and *y to the overall length of the scroll bar. Otherwise, set *bar_window to Qnil, and *x and *y to the column and row of the character cell the mouse is over. Set *time to the time the mouse was at the returned position. This should clear mouse_moved until the next motion event arrives. */ void (*mouse_position_hook) P_ ((FRAME_PTR *f, int insist, Lisp_Object *bar_window, enum scroll_bar_part *part, Lisp_Object *x, Lisp_Object *y, unsigned long *time)); /* When reading from a minibuffer in a different frame, Emacs wants to shift the highlight from the selected frame to the mini-buffer's frame; under X, this means it lies about where the focus is. This hook tells the window system code to re-decide where to put the highlight. */ void (*frame_rehighlight_hook) P_ ((FRAME_PTR f)); /* If we're displaying frames using a window system that can stack frames on top of each other, this hook allows you to bring a frame to the front, or bury it behind all the other windows. If this hook is zero, that means the device we're displaying on doesn't support overlapping frames, so there's no need to raise or lower anything. If RAISE is non-zero, F is brought to the front, before all other windows. If RAISE is zero, F is sent to the back, behind all other windows. */ void (*frame_raise_lower_hook) P_ ((FRAME_PTR f, int raise)); /* If the value of the frame parameter changed, whis hook is called. For example, if going from fullscreen to not fullscreen this hook may do something OS dependent, like extended window manager hints on X11. */ void (*fullscreen_hook) P_ ((struct frame *f)); /* Set the vertical scroll bar for WINDOW to have its upper left corner at (TOP, LEFT), and be LENGTH rows high. Set its handle to indicate that we are displaying PORTION characters out of a total of WHOLE characters, starting at POSITION. If WINDOW doesn't yet have a scroll bar, create one for it. */ void (*set_vertical_scroll_bar_hook) P_ ((struct window *window, int portion, int whole, int position)); /* The following three hooks are used when we're doing a thorough redisplay of the frame. We don't explicitly know which scroll bars are going to be deleted, because keeping track of when windows go away is a real pain - can you say set-window-configuration? Instead, we just assert at the beginning of redisplay that *all* scroll bars are to be removed, and then save scroll bars from the fiery pit when we actually redisplay their window. */ /* Arrange for all scroll bars on FRAME to be removed at the next call to `*judge_scroll_bars_hook'. A scroll bar may be spared if `*redeem_scroll_bar_hook' is applied to its window before the judgment. This should be applied to each frame each time its window tree is redisplayed, even if it is not displaying scroll bars at the moment; if the HAS_SCROLL_BARS flag has just been turned off, only calling this and the judge_scroll_bars_hook will get rid of them. If non-zero, this hook should be safe to apply to any frame, whether or not it can support scroll bars, and whether or not it is currently displaying them. */ void (*condemn_scroll_bars_hook) P_ ((FRAME_PTR frame)); /* Unmark WINDOW's scroll bar for deletion in this judgement cycle. Note that it's okay to redeem a scroll bar that is not condemned. */ void (*redeem_scroll_bar_hook) P_ ((struct window *window)); /* Remove all scroll bars on FRAME that haven't been saved since the last call to `*condemn_scroll_bars_hook'. This should be applied to each frame after each time its window tree is redisplayed, even if it is not displaying scroll bars at the moment; if the HAS_SCROLL_BARS flag has just been turned off, only calling this and condemn_scroll_bars_hook will get rid of them. If non-zero, this hook should be safe to apply to any frame, whether or not it can support scroll bars, and whether or not it is currently displaying them. */ void (*judge_scroll_bars_hook) P_ ((FRAME_PTR FRAME)); /* Strings, numbers and flags taken from the termcap entry. */ char *TS_ins_line; /* "al" */ char *TS_ins_multi_lines; /* "AL" (one parameter, # lines to insert) */ char *TS_bell; /* "bl" */ char *TS_clr_to_bottom; /* "cd" */ char *TS_clr_line; /* "ce", clear to end of line */ char *TS_clr_frame; /* "cl" */ char *TS_set_scroll_region; /* "cs" (2 params, first line and last line) */ char *TS_set_scroll_region_1; /* "cS" (4 params: total lines, lines above scroll region, lines below it, total lines again) */ char *TS_del_char; /* "dc" */ char *TS_del_multi_chars; /* "DC" (one parameter, # chars to delete) */ char *TS_del_line; /* "dl" */ char *TS_del_multi_lines; /* "DL" (one parameter, # lines to delete) */ char *TS_delete_mode; /* "dm", enter character-delete mode */ char *TS_end_delete_mode; /* "ed", leave character-delete mode */ char *TS_end_insert_mode; /* "ei", leave character-insert mode */ char *TS_ins_char; /* "ic" */ char *TS_ins_multi_chars; /* "IC" (one parameter, # chars to insert) */ char *TS_insert_mode; /* "im", enter character-insert mode */ char *TS_pad_inserted_char; /* "ip". Just padding, no commands. */ char *TS_end_keypad_mode; /* "ke" */ char *TS_keypad_mode; /* "ks" */ char *TS_pad_char; /* "pc", char to use as padding */ char *TS_repeat; /* "rp" (2 params, # times to repeat and character to be repeated) */ char *TS_end_standout_mode; /* "se" */ char *TS_fwd_scroll; /* "sf" */ char *TS_standout_mode; /* "so" */ char *TS_rev_scroll; /* "sr" */ char *TS_end_termcap_modes; /* "te" */ char *TS_termcap_modes; /* "ti" */ char *TS_visible_bell; /* "vb" */ char *TS_cursor_normal; /* "ve" */ char *TS_cursor_visible; /* "vs" */ char *TS_cursor_invisible; /* "vi" */ char *TS_set_window; /* "wi" (4 params, start and end of window, each as vpos and hpos) */ /* Value of the "NC" (no_color_video) capability, or 0 if not present. */ static int TN_no_color_video; /* Meaning of bits in no_color_video. Each bit set means that the corresponding attribute cannot be combined with colors. */ enum no_color_bit { NC_STANDOUT = 1 << 0, NC_UNDERLINE = 1 << 1, NC_REVERSE = 1 << 2, NC_BLINK = 1 << 3, NC_DIM = 1 << 4, NC_BOLD = 1 << 5, NC_INVIS = 1 << 6, NC_PROTECT = 1 << 7, NC_ALT_CHARSET = 1 << 8 }; /* "md" -- turn on bold (extra bright mode). */ char *TS_enter_bold_mode; /* "mh" -- turn on half-bright mode. */ char *TS_enter_dim_mode; /* "mb" -- enter blinking mode. */ char *TS_enter_blink_mode; /* "mr" -- enter reverse video mode. */ char *TS_enter_reverse_mode; /* "us"/"ue" -- start/end underlining. */ char *TS_exit_underline_mode, *TS_enter_underline_mode; /* "as"/"ae" -- start/end alternate character set. Not really supported, yet. */ char *TS_enter_alt_charset_mode, *TS_exit_alt_charset_mode; /* "me" -- switch appearances off. */ char *TS_exit_attribute_mode; /* "Co" -- number of colors. */ int TN_max_colors; /* "pa" -- max. number of color pairs on screen. Not handled yet. Could be a problem if not equal to TN_max_colors * TN_max_colors. */ int TN_max_pairs; /* "op" -- SVr4 set default pair to its original value. */ char *TS_orig_pair; /* "AF"/"AB" or "Sf"/"Sb"-- set ANSI or SVr4 foreground/background color. 1 param, the color index. */ char *TS_set_foreground, *TS_set_background; int TF_hazeltine; /* termcap hz flag. */ int TF_insmode_motion; /* termcap mi flag: can move while in insert mode. */ int TF_standout_motion; /* termcap mi flag: can move while in standout mode. */ int TF_underscore; /* termcap ul flag: _ underlines if over-struck on non-blank position. Must clear before writing _. */ int TF_teleray; /* termcap xt flag: many weird consequences. For t1061. */ static int RPov; /* # chars to start a TS_repeat */ static int delete_in_insert_mode; /* delete mode == insert mode */ static int se_is_so; /* 1 if same string both enters and leaves standout mode */ /* internal state */ /* The largest frame width in any call to calculate_costs. */ int max_frame_cols; /* The largest frame height in any call to calculate_costs. */ int max_frame_lines; static int costs_set; /* Nonzero if costs have been calculated. */ int insert_mode; /* Nonzero when in insert mode. */ int standout_mode; /* Nonzero when in standout mode. */ /* Size of window specified by higher levels. This is the number of lines, from the top of frame downwards, which can participate in insert-line/delete-line operations. Effectively it excludes the bottom frame_lines - specified_window_size lines from those operations. */ int specified_window; /* Frame currently being redisplayed; 0 if not currently redisplaying. (Direct output does not count). */ FRAME_PTR updating_frame; /* Provided for lisp packages. */ static int system_uses_terminfo; /* Flag used in tty_show/hide_cursor. */ static int tty_cursor_hidden; char *tparam (); extern char *tgetstr (); #ifdef WINDOWSNT /* We aren't X windows, but we aren't termcap either. This makes me uncertain as to what value to use for frame.output_method. For this file, we'll define FRAME_TERMCAP_P to be zero so that our output hooks get called instead of the termcap functions. Probably the best long-term solution is to define an output_windows_nt... */ #undef FRAME_TERMCAP_P #define FRAME_TERMCAP_P(_f_) 0 #endif /* WINDOWSNT */ void ring_bell () { if (!NILP (Vring_bell_function)) { Lisp_Object function; /* Temporarily set the global variable to nil so that if we get an error, it stays nil and we don't call it over and over. We don't specbind it, because that would carefully restore the bad value if there's an error and make the loop of errors happen anyway. */ function = Vring_bell_function; Vring_bell_function = Qnil; call0 (function); Vring_bell_function = function; } else if (!FRAME_TERMCAP_P (XFRAME (selected_frame))) (*ring_bell_hook) (); else OUTPUT (TS_visible_bell && visible_bell ? TS_visible_bell : TS_bell); } void set_terminal_modes () { if (FRAME_TERMCAP_P (XFRAME (selected_frame))) { if (TS_termcap_modes) OUTPUT (TS_termcap_modes); else { /* Output enough newlines to scroll all the old screen contents off the screen, so it won't be overwritten and lost. */ int i; for (i = 0; i < FRAME_LINES (XFRAME (selected_frame)); i++) putchar ('\n'); } OUTPUT_IF (visible_cursor ? TS_cursor_visible : TS_cursor_normal); OUTPUT_IF (TS_keypad_mode); losecursor (); } else (*set_terminal_modes_hook) (); } void reset_terminal_modes () { if (FRAME_TERMCAP_P (XFRAME (selected_frame))) { turn_off_highlight (); turn_off_insert (); OUTPUT_IF (TS_end_keypad_mode); OUTPUT_IF (TS_cursor_normal); OUTPUT_IF (TS_end_termcap_modes); OUTPUT_IF (TS_orig_pair); /* Output raw CR so kernel can track the cursor hpos. */ cmputc ('\r'); } else if (reset_terminal_modes_hook) (*reset_terminal_modes_hook) (); } void update_begin (f) struct frame *f; { updating_frame = f; if (!FRAME_TERMCAP_P (f)) update_begin_hook (f); } void update_end (f) struct frame *f; { if (FRAME_TERMCAP_P (f)) { if (!XWINDOW (selected_window)->cursor_off_p) tty_show_cursor (); turn_off_insert (); background_highlight (); } else update_end_hook (f); updating_frame = NULL; } void set_terminal_window (size) int size; { if (FRAME_TERMCAP_P (updating_frame)) { specified_window = size ? size : FRAME_LINES (updating_frame); if (scroll_region_ok) set_scroll_region (0, specified_window); } else set_terminal_window_hook (size); } void set_scroll_region (start, stop) int start, stop; { char *buf; struct frame *sf = XFRAME (selected_frame); if (TS_set_scroll_region) buf = tparam (TS_set_scroll_region, 0, 0, start, stop - 1); else if (TS_set_scroll_region_1) buf = tparam (TS_set_scroll_region_1, 0, 0, FRAME_LINES (sf), start, FRAME_LINES (sf) - stop, FRAME_LINES (sf)); else buf = tparam (TS_set_window, 0, 0, start, 0, stop, FRAME_COLS (sf)); OUTPUT (buf); xfree (buf); losecursor (); } static void turn_on_insert () { if (!insert_mode) OUTPUT (TS_insert_mode); insert_mode = 1; } void turn_off_insert () { if (insert_mode) OUTPUT (TS_end_insert_mode); insert_mode = 0; } /* Handle highlighting. */ void turn_off_highlight () { if (standout_mode) OUTPUT_IF (TS_end_standout_mode); standout_mode = 0; } static void turn_on_highlight () { if (!standout_mode) OUTPUT_IF (TS_standout_mode); standout_mode = 1; } static void toggle_highlight () { if (standout_mode) turn_off_highlight (); else turn_on_highlight (); } /* Make cursor invisible. */ static void tty_hide_cursor () { if (tty_cursor_hidden == 0) { tty_cursor_hidden = 1; OUTPUT_IF (TS_cursor_invisible); } } /* Ensure that cursor is visible. */ static void tty_show_cursor () { if (tty_cursor_hidden) { tty_cursor_hidden = 0; OUTPUT_IF (TS_cursor_normal); if (visible_cursor) OUTPUT_IF (TS_cursor_visible); } } /* Set standout mode to the state it should be in for empty space inside windows. What this is, depends on the user option inverse-video. */ void background_highlight () { if (inverse_video) turn_on_highlight (); else turn_off_highlight (); } /* Set standout mode to the mode specified for the text to be output. */ static void highlight_if_desired () { if (inverse_video) turn_on_highlight (); else turn_off_highlight (); } /* Move cursor to row/column position VPOS/HPOS. HPOS/VPOS are frame-relative coordinates. */ void cursor_to (vpos, hpos) int vpos, hpos; { struct frame *f = updating_frame ? updating_frame : XFRAME (selected_frame); if (! FRAME_TERMCAP_P (f) && cursor_to_hook) { (*cursor_to_hook) (vpos, hpos); return; } /* Detect the case where we are called from reset_sys_modes and the costs have never been calculated. Do nothing. */ if (! costs_set) return; if (curY == vpos && curX == hpos) return; if (!TF_standout_motion) background_highlight (); if (!TF_insmode_motion) turn_off_insert (); cmgoto (vpos, hpos); } /* Similar but don't take any account of the wasted characters. */ void raw_cursor_to (row, col) int row, col; { struct frame *f = updating_frame ? updating_frame : XFRAME (selected_frame); if (! FRAME_TERMCAP_P (f)) { (*raw_cursor_to_hook) (row, col); return; } if (curY == row && curX == col) return; if (!TF_standout_motion) background_highlight (); if (!TF_insmode_motion) turn_off_insert (); cmgoto (row, col); } /* Erase operations */ /* clear from cursor to end of frame */ void clear_to_end () { register int i; if (clear_to_end_hook && ! FRAME_TERMCAP_P (updating_frame)) { (*clear_to_end_hook) (); return; } if (TS_clr_to_bottom) { background_highlight (); OUTPUT (TS_clr_to_bottom); } else { for (i = curY; i < FRAME_LINES (XFRAME (selected_frame)); i++) { cursor_to (i, 0); clear_end_of_line (FRAME_COLS (XFRAME (selected_frame))); } } } /* Clear entire frame */ void clear_frame () { struct frame *sf = XFRAME (selected_frame); if (clear_frame_hook && ! FRAME_TERMCAP_P ((updating_frame ? updating_frame : sf))) { (*clear_frame_hook) (); return; } if (TS_clr_frame) { background_highlight (); OUTPUT (TS_clr_frame); cmat (0, 0); } else { cursor_to (0, 0); clear_to_end (); } } /* Clear from cursor to end of line. Assume that the line is already clear starting at column first_unused_hpos. Note that the cursor may be moved, on terminals lacking a `ce' string. */ void clear_end_of_line (first_unused_hpos) int first_unused_hpos; { register int i; if (clear_end_of_line_hook && ! FRAME_TERMCAP_P ((updating_frame ? updating_frame : XFRAME (selected_frame)))) { (*clear_end_of_line_hook) (first_unused_hpos); return; } /* Detect the case where we are called from reset_sys_modes and the costs have never been calculated. Do nothing. */ if (! costs_set) return; if (curX >= first_unused_hpos) return; background_highlight (); if (TS_clr_line) { OUTPUT1 (TS_clr_line); } else { /* have to do it the hard way */ struct frame *sf = XFRAME (selected_frame); turn_off_insert (); /* Do not write in last row last col with Auto-wrap on. */ if (AutoWrap && curY == FRAME_LINES (sf) - 1 && first_unused_hpos == FRAME_COLS (sf)) first_unused_hpos--; for (i = curX; i < first_unused_hpos; i++) { if (termscript) fputc (' ', termscript); putchar (' '); } cmplus (first_unused_hpos - curX); } } /* Buffer to store the source and result of code conversion for terminal. */ static unsigned char *encode_terminal_buf; /* Allocated size of the above buffer. */ static int encode_terminal_bufsize; /* Encode SRC_LEN glyphs starting at SRC to terminal output codes. Set CODING->produced to the byte-length of the resulting byte sequence, and return a pointer to that byte sequence. */ unsigned char * encode_terminal_code (src, src_len, coding) struct glyph *src; int src_len; struct coding_system *coding; { struct glyph *src_end = src + src_len; register GLYPH g; unsigned char *buf; int nchars, nbytes, required; register int tlen = GLYPH_TABLE_LENGTH; register Lisp_Object *tbase = GLYPH_TABLE_BASE; /* Allocate sufficient size of buffer to store all characters in multibyte-form. But, it may be enlarged on demand if Vglyph_table contains a string. */ required = MAX_MULTIBYTE_LENGTH * src_len; if (encode_terminal_bufsize < required) { if (encode_terminal_bufsize == 0) encode_terminal_buf = xmalloc (required); else encode_terminal_buf = xrealloc (encode_terminal_buf, required); encode_terminal_bufsize = required; } buf = encode_terminal_buf; nchars = 0; while (src < src_end) { /* We must skip glyphs to be padded for a wide character. */ if (! CHAR_GLYPH_PADDING_P (*src)) { g = GLYPH_FROM_CHAR_GLYPH (src[0]); if (g < 0 || g >= tlen) { /* This glyph doesn't has an entry in Vglyph_table. */ if (CHAR_VALID_P (src->u.ch, 0)) buf += CHAR_STRING (src->u.ch, buf); else *buf++ = SPACEGLYPH; nchars++; } else { /* This glyph has an entry in Vglyph_table, so process any alias before testing for simpleness. */ GLYPH_FOLLOW_ALIASES (tbase, tlen, g); if (GLYPH_SIMPLE_P (tbase, tlen, g)) { int c = FAST_GLYPH_CHAR (g); if (CHAR_VALID_P (c, 0)) buf += CHAR_STRING (c, buf); else *buf++ = SPACEGLYPH; nchars++; } else { /* We have a string in Vglyph_table. */ Lisp_Object string; string = tbase[g]; if (! STRING_MULTIBYTE (string)) string = string_to_multibyte (string); nbytes = buf - encode_terminal_buf; if (encode_terminal_bufsize < nbytes + SBYTES (string)) { encode_terminal_bufsize = nbytes + SBYTES (string); encode_terminal_buf = xrealloc (encode_terminal_buf, encode_terminal_bufsize); buf = encode_terminal_buf + nbytes; } bcopy (SDATA (string), buf, SBYTES (string)); buf += SBYTES (string); nchars += SCHARS (string); } } } src++; } nbytes = buf - encode_terminal_buf; coding->src_multibyte = 1; coding->dst_multibyte = 0; if (SYMBOLP (coding->pre_write_conversion) && ! NILP (Ffboundp (coding->pre_write_conversion))) { run_pre_write_conversin_on_c_str (&encode_terminal_buf, &encode_terminal_bufsize, nchars, nbytes, coding); nchars = coding->produced_char; nbytes = coding->produced; } required = nbytes + encoding_buffer_size (coding, nbytes); if (encode_terminal_bufsize < required) { encode_terminal_bufsize = required; encode_terminal_buf = xrealloc (encode_terminal_buf, required); } encode_coding (coding, encode_terminal_buf, encode_terminal_buf + nbytes, nbytes, encode_terminal_bufsize - nbytes); return encode_terminal_buf + nbytes; } void write_glyphs (string, len) register struct glyph *string; register int len; { struct frame *sf = XFRAME (selected_frame); struct frame *f = updating_frame ? updating_frame : sf; unsigned char *conversion_buffer; struct coding_system *coding; if (write_glyphs_hook && ! FRAME_TERMCAP_P (f)) { (*write_glyphs_hook) (string, len); return; } turn_off_insert (); tty_hide_cursor (); /* Don't dare write in last column of bottom line, if Auto-Wrap, since that would scroll the whole frame on some terminals. */ if (AutoWrap && curY + 1 == FRAME_LINES (sf) && (curX + len) == FRAME_COLS (sf)) len --; if (len <= 0) return; cmplus (len); /* If terminal_coding does any conversion, use it, otherwise use safe_terminal_coding. We can't use CODING_REQUIRE_ENCODING here because it always return 1 if the member src_multibyte is 1. */ coding = (terminal_coding.common_flags & CODING_REQUIRE_ENCODING_MASK ? &terminal_coding : &safe_terminal_coding); /* The mode bit CODING_MODE_LAST_BLOCK should be set to 1 only at the tail. */ coding->mode &= ~CODING_MODE_LAST_BLOCK; while (len > 0) { /* Identify a run of glyphs with the same face. */ int face_id = string->face_id; int n; for (n = 1; n < len; ++n) if (string[n].face_id != face_id) break; /* Turn appearance modes of the face of the run on. */ highlight_if_desired (); turn_on_face (f, face_id); if (n == len) /* This is the last run. */ coding->mode |= CODING_MODE_LAST_BLOCK; conversion_buffer = encode_terminal_code (string, n, coding); if (coding->produced > 0) { BLOCK_INPUT; fwrite (conversion_buffer, 1, coding->produced, stdout); if (ferror (stdout)) clearerr (stdout); if (termscript) fwrite (conversion_buffer, 1, coding->produced, termscript); UNBLOCK_INPUT; } len -= n; string += n; /* Turn appearance modes off. */ turn_off_face (f, face_id); turn_off_highlight (); } cmcheckmagic (); } /* If start is zero, insert blanks instead of a string at start */ void insert_glyphs (start, len) register struct glyph *start; register int len; { char *buf; struct glyph *glyph = NULL; struct frame *f, *sf; unsigned char *conversion_buffer; unsigned char space[1]; struct coding_system *coding; if (len <= 0) return; if (insert_glyphs_hook) { (*insert_glyphs_hook) (start, len); return; } sf = XFRAME (selected_frame); f = updating_frame ? updating_frame : sf; if (TS_ins_multi_chars) { buf = tparam (TS_ins_multi_chars, 0, 0, len); OUTPUT1 (buf); xfree (buf); if (start) write_glyphs (start, len); return; } turn_on_insert (); cmplus (len); if (! start) space[0] = SPACEGLYPH; /* If terminal_coding does any conversion, use it, otherwise use safe_terminal_coding. We can't use CODING_REQUIRE_ENCODING here because it always return 1 if the member src_multibyte is 1. */ coding = (terminal_coding.common_flags & CODING_REQUIRE_ENCODING_MASK ? &terminal_coding : &safe_terminal_coding); /* The mode bit CODING_MODE_LAST_BLOCK should be set to 1 only at the tail. */ coding->mode &= ~CODING_MODE_LAST_BLOCK; while (len-- > 0) { OUTPUT1_IF (TS_ins_char); if (!start) { conversion_buffer = space; coding->produced = 1; } else { highlight_if_desired (); turn_on_face (f, start->face_id); glyph = start; ++start; /* We must open sufficient space for a character which occupies more than one column. */ while (len && CHAR_GLYPH_PADDING_P (*start)) { OUTPUT1_IF (TS_ins_char); start++, len--; } if (len <= 0) /* This is the last glyph. */ coding->mode |= CODING_MODE_LAST_BLOCK; conversion_buffer = encode_terminal_code (glyph, 1, coding); } if (coding->produced > 0) { BLOCK_INPUT; fwrite (conversion_buffer, 1, coding->produced, stdout); if (ferror (stdout)) clearerr (stdout); if (termscript) fwrite (conversion_buffer, 1, coding->produced, termscript); UNBLOCK_INPUT; } OUTPUT1_IF (TS_pad_inserted_char); if (start) { turn_off_face (f, glyph->face_id); turn_off_highlight (); } } cmcheckmagic (); } void delete_glyphs (n) register int n; { char *buf; register int i; if (delete_glyphs_hook && ! FRAME_TERMCAP_P (updating_frame)) { (*delete_glyphs_hook) (n); return; } if (delete_in_insert_mode) { turn_on_insert (); } else { turn_off_insert (); OUTPUT_IF (TS_delete_mode); } if (TS_del_multi_chars) { buf = tparam (TS_del_multi_chars, 0, 0, n); OUTPUT1 (buf); xfree (buf); } else for (i = 0; i < n; i++) OUTPUT1 (TS_del_char); if (!delete_in_insert_mode) OUTPUT_IF (TS_end_delete_mode); } /* Insert N lines at vpos VPOS. If N is negative, delete -N lines. */ void ins_del_lines (vpos, n) int vpos, n; { char *multi = n > 0 ? TS_ins_multi_lines : TS_del_multi_lines; char *single = n > 0 ? TS_ins_line : TS_del_line; char *scroll = n > 0 ? TS_rev_scroll : TS_fwd_scroll; struct frame *sf; register int i = n > 0 ? n : -n; register char *buf; if (ins_del_lines_hook && ! FRAME_TERMCAP_P (updating_frame)) { (*ins_del_lines_hook) (vpos, n); return; } sf = XFRAME (selected_frame); /* If the lines below the insertion are being pushed into the end of the window, this is the same as clearing; and we know the lines are already clear, since the matching deletion has already been done. So can ignore this. */ /* If the lines below the deletion are blank lines coming out of the end of the window, don't bother, as there will be a matching inslines later that will flush them. */ if (scroll_region_ok && vpos + i >= specified_window) return; if (!memory_below_frame && vpos + i >= FRAME_LINES (sf)) return; if (multi) { raw_cursor_to (vpos, 0); background_highlight (); buf = tparam (multi, 0, 0, i); OUTPUT (buf); xfree (buf); } else if (single) { raw_cursor_to (vpos, 0); background_highlight (); while (--i >= 0) OUTPUT (single); if (TF_teleray) curX = 0; } else { set_scroll_region (vpos, specified_window); if (n < 0) raw_cursor_to (specified_window - 1, 0); else raw_cursor_to (vpos, 0); background_highlight (); while (--i >= 0) OUTPUTL (scroll, specified_window - vpos); set_scroll_region (0, specified_window); } if (!scroll_region_ok && memory_below_frame && n < 0) { cursor_to (FRAME_LINES (sf) + n, 0); clear_to_end (); } } /* Compute cost of sending "str", in characters, not counting any line-dependent padding. */ int string_cost (str) char *str; { cost = 0; if (str) tputs (str, 0, evalcost); return cost; } /* Compute cost of sending "str", in characters, counting any line-dependent padding at one line. */ static int string_cost_one_line (str) char *str; { cost = 0; if (str) tputs (str, 1, evalcost); return cost; } /* Compute per line amount of line-dependent padding, in tenths of characters. */ int per_line_cost (str) register char *str; { cost = 0; if (str) tputs (str, 0, evalcost); cost = - cost; if (str) tputs (str, 10, evalcost); return cost; } #ifndef old /* char_ins_del_cost[n] is cost of inserting N characters. char_ins_del_cost[-n] is cost of deleting N characters. The length of this vector is based on max_frame_cols. */ int *char_ins_del_vector; #define char_ins_del_cost(f) (&char_ins_del_vector[FRAME_COLS ((f))]) #endif /* ARGSUSED */ static void calculate_ins_del_char_costs (frame) FRAME_PTR frame; { int ins_startup_cost, del_startup_cost; int ins_cost_per_char, del_cost_per_char; register int i; register int *p; if (TS_ins_multi_chars) { ins_cost_per_char = 0; ins_startup_cost = string_cost_one_line (TS_ins_multi_chars); } else if (TS_ins_char || TS_pad_inserted_char || (TS_insert_mode && TS_end_insert_mode)) { ins_startup_cost = (30 * (string_cost (TS_insert_mode) + string_cost (TS_end_insert_mode))) / 100; ins_cost_per_char = (string_cost_one_line (TS_ins_char) + string_cost_one_line (TS_pad_inserted_char)); } else { ins_startup_cost = 9999; ins_cost_per_char = 0; } if (TS_del_multi_chars) { del_cost_per_char = 0; del_startup_cost = string_cost_one_line (TS_del_multi_chars); } else if (TS_del_char) { del_startup_cost = (string_cost (TS_delete_mode) + string_cost (TS_end_delete_mode)); if (delete_in_insert_mode) del_startup_cost /= 2; del_cost_per_char = string_cost_one_line (TS_del_char); } else { del_startup_cost = 9999; del_cost_per_char = 0; } /* Delete costs are at negative offsets */ p = &char_ins_del_cost (frame)[0]; for (i = FRAME_COLS (frame); --i >= 0;) *--p = (del_startup_cost += del_cost_per_char); /* Doing nothing is free */ p = &char_ins_del_cost (frame)[0]; *p++ = 0; /* Insert costs are at positive offsets */ for (i = FRAME_COLS (frame); --i >= 0;) *p++ = (ins_startup_cost += ins_cost_per_char); } void calculate_costs (frame) FRAME_PTR frame; { register char *f = (TS_set_scroll_region ? TS_set_scroll_region : TS_set_scroll_region_1); FRAME_COST_BAUD_RATE (frame) = baud_rate; scroll_region_cost = string_cost (f); /* These variables are only used for terminal stuff. They are allocated once for the terminal frame of X-windows emacs, but not used afterwards. char_ins_del_vector (i.e., char_ins_del_cost) isn't used because X turns off char_ins_del_ok. */ max_frame_lines = max (max_frame_lines, FRAME_LINES (frame)); max_frame_cols = max (max_frame_cols, FRAME_COLS (frame)); costs_set = 1; if (char_ins_del_vector != 0) char_ins_del_vector = (int *) xrealloc (char_ins_del_vector, (sizeof (int) + 2 * max_frame_cols * sizeof (int))); else char_ins_del_vector = (int *) xmalloc (sizeof (int) + 2 * max_frame_cols * sizeof (int)); bzero (char_ins_del_vector, (sizeof (int) + 2 * max_frame_cols * sizeof (int))); if (f && (!TS_ins_line && !TS_del_line)) do_line_insertion_deletion_costs (frame, TS_rev_scroll, TS_ins_multi_lines, TS_fwd_scroll, TS_del_multi_lines, f, f, 1); else do_line_insertion_deletion_costs (frame, TS_ins_line, TS_ins_multi_lines, TS_del_line, TS_del_multi_lines, 0, 0, 1); calculate_ins_del_char_costs (frame); /* Don't use TS_repeat if its padding is worse than sending the chars */ if (TS_repeat && per_line_cost (TS_repeat) * baud_rate < 9000) RPov = string_cost (TS_repeat); else RPov = FRAME_COLS (frame) * 2; cmcostinit (); /* set up cursor motion costs */ } struct fkey_table { char *cap, *name; }; /* Termcap capability names that correspond directly to X keysyms. Some of these (marked "terminfo") aren't supplied by old-style (Berkeley) termcap entries. They're listed in X keysym order; except we put the keypad keys first, so that if they clash with other keys (as on the IBM PC keyboard) they get overridden. */ static struct fkey_table keys[] = { {"kh", "home"}, /* termcap */ {"kl", "left"}, /* termcap */ {"ku", "up"}, /* termcap */ {"kr", "right"}, /* termcap */ {"kd", "down"}, /* termcap */ {"%8", "prior"}, /* terminfo */ {"%5", "next"}, /* terminfo */ {"@7", "end"}, /* terminfo */ {"@1", "begin"}, /* terminfo */ {"*6", "select"}, /* terminfo */ {"%9", "print"}, /* terminfo */ {"@4", "execute"}, /* terminfo --- actually the `command' key */ /* * "insert" --- see below */ {"&8", "undo"}, /* terminfo */ {"%0", "redo"}, /* terminfo */ {"%7", "menu"}, /* terminfo --- actually the `options' key */ {"@0", "find"}, /* terminfo */ {"@2", "cancel"}, /* terminfo */ {"%1", "help"}, /* terminfo */ /* * "break" goes here, but can't be reliably intercepted with termcap */ {"&4", "reset"}, /* terminfo --- actually `restart' */ /* * "system" and "user" --- no termcaps */ {"kE", "clearline"}, /* terminfo */ {"kA", "insertline"}, /* terminfo */ {"kL", "deleteline"}, /* terminfo */ {"kI", "insertchar"}, /* terminfo */ {"kD", "deletechar"}, /* terminfo */ {"kB", "backtab"}, /* terminfo */ /* * "kp_backtab", "kp-space", "kp-tab" --- no termcaps */ {"@8", "kp-enter"}, /* terminfo */ /* * "kp-f1", "kp-f2", "kp-f3" "kp-f4", * "kp-multiply", "kp-add", "kp-separator", * "kp-subtract", "kp-decimal", "kp-divide", "kp-0"; * --- no termcaps for any of these. */ {"K4", "kp-1"}, /* terminfo */ /* * "kp-2" --- no termcap */ {"K5", "kp-3"}, /* terminfo */ /* * "kp-4" --- no termcap */ {"K2", "kp-5"}, /* terminfo */ /* * "kp-6" --- no termcap */ {"K1", "kp-7"}, /* terminfo */ /* * "kp-8" --- no termcap */ {"K3", "kp-9"}, /* terminfo */ /* * "kp-equal" --- no termcap */ {"k1", "f1"}, {"k2", "f2"}, {"k3", "f3"}, {"k4", "f4"}, {"k5", "f5"}, {"k6", "f6"}, {"k7", "f7"}, {"k8", "f8"}, {"k9", "f9"}, {"&0", "S-cancel"}, /*shifted cancel key*/ {"&9", "S-begin"}, /*shifted begin key*/ {"*0", "S-find"}, /*shifted find key*/ {"*1", "S-execute"}, /*shifted execute? actually shifted command key*/ {"*4", "S-delete"}, /*shifted delete-character key*/ {"*7", "S-end"}, /*shifted end key*/ {"*8", "S-clearline"}, /*shifted clear-to end-of-line key*/ {"#1", "S-help"}, /*shifted help key*/ {"#2", "S-home"}, /*shifted home key*/ {"#3", "S-insert"}, /*shifted insert-character key*/ {"#4", "S-left"}, /*shifted left-arrow key*/ {"%d", "S-menu"}, /*shifted menu? actually shifted options key*/ {"%c", "S-next"}, /*shifted next key*/ {"%e", "S-prior"}, /*shifted previous key*/ {"%f", "S-print"}, /*shifted print key*/ {"%g", "S-redo"}, /*shifted redo key*/ {"%i", "S-right"}, /*shifted right-arrow key*/ {"!3", "S-undo"} /*shifted undo key*/ }; static char **term_get_fkeys_arg; static Lisp_Object term_get_fkeys_1 (); /* Find the escape codes sent by the function keys for Vfunction_key_map. This function scans the termcap function key sequence entries, and adds entries to Vfunction_key_map for each function key it finds. */ void term_get_fkeys (address) char **address; { /* We run the body of the function (term_get_fkeys_1) and ignore all Lisp errors during the call. The only errors should be from Fdefine_key when given a key sequence containing an invalid prefix key. If the termcap defines function keys which use a prefix that is already bound to a command by the default bindings, we should silently ignore that function key specification, rather than giving the user an error and refusing to run at all on such a terminal. */ extern Lisp_Object Fidentity (); term_get_fkeys_arg = address; internal_condition_case (term_get_fkeys_1, Qerror, Fidentity); } static Lisp_Object term_get_fkeys_1 () { int i; char **address = term_get_fkeys_arg; /* This can happen if CANNOT_DUMP or with strange options. */ if (!initialized) Vfunction_key_map = Fmake_sparse_keymap (Qnil); for (i = 0; i < (sizeof (keys)/sizeof (keys[0])); i++) { char *sequence = tgetstr (keys[i].cap, address); if (sequence) Fdefine_key (Vfunction_key_map, build_string (sequence), Fmake_vector (make_number (1), intern (keys[i].name))); } /* The uses of the "k0" capability are inconsistent; sometimes it describes F10, whereas othertimes it describes F0 and "k;" describes F10. We will attempt to politely accommodate both systems by testing for "k;", and if it is present, assuming that "k0" denotes F0, otherwise F10. */ { char *k_semi = tgetstr ("k;", address); char *k0 = tgetstr ("k0", address); char *k0_name = "f10"; if (k_semi) { if (k0) /* Define f0 first, so that f10 takes precedence in case the key sequences happens to be the same. */ Fdefine_key (Vfunction_key_map, build_string (k0), Fmake_vector (make_number (1), intern ("f0"))); Fdefine_key (Vfunction_key_map, build_string (k_semi), Fmake_vector (make_number (1), intern ("f10"))); } else if (k0) Fdefine_key (Vfunction_key_map, build_string (k0), Fmake_vector (make_number (1), intern (k0_name))); } /* Set up cookies for numbered function keys above f10. */ { char fcap[3], fkey[4]; fcap[0] = 'F'; fcap[2] = '\0'; for (i = 11; i < 64; i++) { if (i <= 19) fcap[1] = '1' + i - 11; else if (i <= 45) fcap[1] = 'A' + i - 20; else fcap[1] = 'a' + i - 46; { char *sequence = tgetstr (fcap, address); if (sequence) { sprintf (fkey, "f%d", i); Fdefine_key (Vfunction_key_map, build_string (sequence), Fmake_vector (make_number (1), intern (fkey))); } } } } /* * Various mappings to try and get a better fit. */ { #define CONDITIONAL_REASSIGN(cap1, cap2, sym) \ if (!tgetstr (cap1, address)) \ { \ char *sequence = tgetstr (cap2, address); \ if (sequence) \ Fdefine_key (Vfunction_key_map, build_string (sequence), \ Fmake_vector (make_number (1), \ intern (sym))); \ } /* if there's no key_next keycap, map key_npage to `next' keysym */ CONDITIONAL_REASSIGN ("%5", "kN", "next"); /* if there's no key_prev keycap, map key_ppage to `previous' keysym */ CONDITIONAL_REASSIGN ("%8", "kP", "prior"); /* if there's no key_dc keycap, map key_ic to `insert' keysym */ CONDITIONAL_REASSIGN ("kD", "kI", "insert"); /* if there's no key_end keycap, map key_ll to 'end' keysym */ CONDITIONAL_REASSIGN ("@7", "kH", "end"); /* IBM has their own non-standard dialect of terminfo. If the standard name isn't found, try the IBM name. */ CONDITIONAL_REASSIGN ("kB", "KO", "backtab"); CONDITIONAL_REASSIGN ("@4", "kJ", "execute"); /* actually "action" */ CONDITIONAL_REASSIGN ("@4", "kc", "execute"); /* actually "command" */ CONDITIONAL_REASSIGN ("%7", "ki", "menu"); CONDITIONAL_REASSIGN ("@7", "kw", "end"); CONDITIONAL_REASSIGN ("F1", "k<", "f11"); CONDITIONAL_REASSIGN ("F2", "k>", "f12"); CONDITIONAL_REASSIGN ("%1", "kq", "help"); CONDITIONAL_REASSIGN ("*6", "kU", "select"); #undef CONDITIONAL_REASSIGN } return Qnil; } /*********************************************************************** Character Display Information ***********************************************************************/ /* Avoid name clash with functions defined in xterm.c */ #ifdef static #define append_glyph append_glyph_term #define produce_stretch_glyph produce_stretch_glyph_term #endif static void append_glyph P_ ((struct it *)); static void produce_stretch_glyph P_ ((struct it *)); /* Append glyphs to IT's glyph_row. Called from produce_glyphs for terminal frames if IT->glyph_row != NULL. IT->char_to_display is the character for which to produce glyphs; IT->face_id contains the character's face. Padding glyphs are appended if IT->c has a IT->pixel_width > 1. */ static void append_glyph (it) struct it *it; { struct glyph *glyph, *end; int i; xassert (it->glyph_row); glyph = (it->glyph_row->glyphs[it->area] + it->glyph_row->used[it->area]); end = it->glyph_row->glyphs[1 + it->area]; for (i = 0; i < it->pixel_width && glyph < end; ++i) { glyph->type = CHAR_GLYPH; glyph->pixel_width = 1; glyph->u.ch = it->char_to_display; glyph->face_id = it->face_id; glyph->padding_p = i > 0; glyph->charpos = CHARPOS (it->position); glyph->object = it->object; ++it->glyph_row->used[it->area]; ++glyph; } } /* Produce glyphs for the display element described by IT. *IT specifies what we want to produce a glyph for (character, image, ...), and where in the glyph matrix we currently are (glyph row and hpos). produce_glyphs fills in output fields of *IT with information such as the pixel width and height of a character, and maybe output actual glyphs at the same time if IT->glyph_row is non-null. See the explanation of struct display_iterator in dispextern.h for an overview. produce_glyphs also stores the result of glyph width, ascent etc. computations in *IT. IT->glyph_row may be null, in which case produce_glyphs does not actually fill in the glyphs. This is used in the move_* functions in xdisp.c for text width and height computations. Callers usually don't call produce_glyphs directly; instead they use the macro PRODUCE_GLYPHS. */ void produce_glyphs (it) struct it *it; { /* If a hook is installed, let it do the work. */ xassert (it->what == IT_CHARACTER || it->what == IT_COMPOSITION || it->what == IT_STRETCH); if (it->what == IT_STRETCH) { produce_stretch_glyph (it); goto done; } /* Nothing but characters are supported on terminal frames. For a composition sequence, it->c is the first character of the sequence. */ xassert (it->what == IT_CHARACTER || it->what == IT_COMPOSITION); /* Maybe translate single-byte characters to multibyte. */ it->char_to_display = it->c; if (it->c >= 040 && it->c < 0177) { it->pixel_width = it->nglyphs = 1; if (it->glyph_row) append_glyph (it); } else if (it->c == '\n') it->pixel_width = it->nglyphs = 0; else if (it->c == '\t') { int absolute_x = (it->current_x + it->continuation_lines_width); int next_tab_x = (((1 + absolute_x + it->tab_width - 1) / it->tab_width) * it->tab_width); int nspaces; /* If part of the TAB has been displayed on the previous line which is continued now, continuation_lines_width will have been incremented already by the part that fitted on the continued line. So, we will get the right number of spaces here. */ nspaces = next_tab_x - absolute_x; if (it->glyph_row) { int n = nspaces; it->char_to_display = ' '; it->pixel_width = it->len = 1; while (n--) append_glyph (it); } it->pixel_width = nspaces; it->nglyphs = nspaces; } else if (SINGLE_BYTE_CHAR_P (it->c)) { if (unibyte_display_via_language_environment && (it->c >= 0240 || !NILP (Vnonascii_translation_table))) { int charset; it->char_to_display = unibyte_char_to_multibyte (it->c); charset = CHAR_CHARSET (it->char_to_display); it->pixel_width = CHARSET_WIDTH (charset); it->nglyphs = it->pixel_width; if (it->glyph_row) append_glyph (it); } else { /* Coming here means that it->c is from display table, thus we must send the code as is to the terminal. Although there's no way to know how many columns it occupies on a screen, it is a good assumption that a single byte code has 1-column width. */ it->pixel_width = it->nglyphs = 1; if (it->glyph_row) append_glyph (it); } } else { /* A multi-byte character. The display width is fixed for all characters of the set. Some of the glyphs may have to be ignored because they are already displayed in a continued line. */ int charset = CHAR_CHARSET (it->c); it->pixel_width = CHARSET_WIDTH (charset); it->nglyphs = it->pixel_width; if (it->glyph_row) append_glyph (it); } done: /* Advance current_x by the pixel width as a convenience for the caller. */ if (it->area == TEXT_AREA) it->current_x += it->pixel_width; it->ascent = it->max_ascent = it->phys_ascent = it->max_phys_ascent = 0; it->descent = it->max_descent = it->phys_descent = it->max_phys_descent = 1; } /* Produce a stretch glyph for iterator IT. IT->object is the value of the glyph property displayed. The value must be a list `(space KEYWORD VALUE ...)' with the following KEYWORD/VALUE pairs being recognized: 1. `:width WIDTH' specifies that the space should be WIDTH * canonical char width wide. WIDTH may be an integer or floating point number. 2. `:align-to HPOS' specifies that the space should be wide enough to reach HPOS, a value in canonical character units. */ static void produce_stretch_glyph (it) struct it *it; { /* (space :width WIDTH ...) */ Lisp_Object prop, plist; int width = 0, align_to = -1; int zero_width_ok_p = 0; double tem; /* List should start with `space'. */ xassert (CONSP (it->object) && EQ (XCAR (it->object), Qspace)); plist = XCDR (it->object); /* Compute the width of the stretch. */ if ((prop = Fplist_get (plist, QCwidth), !NILP (prop)) && calc_pixel_width_or_height (&tem, it, prop, 0, 1, 0)) { /* Absolute width `:width WIDTH' specified and valid. */ zero_width_ok_p = 1; width = (int)(tem + 0.5); } else if ((prop = Fplist_get (plist, QCalign_to), !NILP (prop)) && calc_pixel_width_or_height (&tem, it, prop, 0, 1, &align_to)) { if (it->glyph_row == NULL || !it->glyph_row->mode_line_p) align_to = (align_to < 0 ? 0 : align_to - window_box_left_offset (it->w, TEXT_AREA)); else if (align_to < 0) align_to = window_box_left_offset (it->w, TEXT_AREA); width = max (0, (int)(tem + 0.5) + align_to - it->current_x); zero_width_ok_p = 1; } else /* Nothing specified -> width defaults to canonical char width. */ width = FRAME_COLUMN_WIDTH (it->f); if (width <= 0 && (width < 0 || !zero_width_ok_p)) width = 1; if (width > 0 && it->glyph_row) { Lisp_Object o_object = it->object; Lisp_Object object = it->stack[it->sp - 1].string; int n = width; if (!STRINGP (object)) object = it->w->buffer; it->object = object; it->char_to_display = ' '; it->pixel_width = it->len = 1; while (n--) append_glyph (it); it->object = o_object; } it->pixel_width = width; it->nglyphs = width; } /* Get information about special display element WHAT in an environment described by IT. WHAT is one of IT_TRUNCATION or IT_CONTINUATION. Maybe produce glyphs for WHAT if IT has a non-null glyph_row member. This function ensures that fields like face_id, c, len of IT are left untouched. */ void produce_special_glyphs (it, what) struct it *it; enum display_element_type what; { struct it temp_it; GLYPH glyph; temp_it = *it; temp_it.dp = NULL; temp_it.what = IT_CHARACTER; temp_it.len = 1; temp_it.object = make_number (0); bzero (&temp_it.current, sizeof temp_it.current); if (what == IT_CONTINUATION) { /* Continuation glyph. */ if (it->dp && INTEGERP (DISP_CONTINUE_GLYPH (it->dp)) && GLYPH_CHAR_VALID_P (XINT (DISP_CONTINUE_GLYPH (it->dp)))) { glyph = XINT (DISP_CONTINUE_GLYPH (it->dp)); glyph = spec_glyph_lookup_face (XWINDOW (it->window), glyph); } else glyph = '\\'; } else if (what == IT_TRUNCATION) { /* Truncation glyph. */ if (it->dp && INTEGERP (DISP_TRUNC_GLYPH (it->dp)) && GLYPH_CHAR_VALID_P (XINT (DISP_TRUNC_GLYPH (it->dp)))) { glyph = XINT (DISP_TRUNC_GLYPH (it->dp)); glyph = spec_glyph_lookup_face (XWINDOW (it->window), glyph); } else glyph = '$'; } else abort (); temp_it.c = FAST_GLYPH_CHAR (glyph); temp_it.face_id = FAST_GLYPH_FACE (glyph); temp_it.len = CHAR_BYTES (temp_it.c); produce_glyphs (&temp_it); it->pixel_width = temp_it.pixel_width; it->nglyphs = temp_it.pixel_width; } /*********************************************************************** Faces ***********************************************************************/ /* Value is non-zero if attribute ATTR may be used. ATTR should be one of the enumerators from enum no_color_bit, or a bit set built from them. Some display attributes may not be used together with color; the termcap capability `NC' specifies which ones. */ #define MAY_USE_WITH_COLORS_P(ATTR) \ (TN_max_colors > 0 \ ? (TN_no_color_video & (ATTR)) == 0 \ : 1) /* Turn appearances of face FACE_ID on tty frame F on. FACE_ID is a realized face ID number, in the face cache. */ static void turn_on_face (f, face_id) struct frame *f; int face_id; { struct face *face = FACE_FROM_ID (f, face_id); long fg = face->foreground; long bg = face->background; /* Do this first because TS_end_standout_mode may be the same as TS_exit_attribute_mode, which turns all appearances off. */ if (MAY_USE_WITH_COLORS_P (NC_REVERSE)) { if (TN_max_colors > 0) { if (fg >= 0 && bg >= 0) { /* If the terminal supports colors, we can set them below without using reverse video. The face's fg and bg colors are set as they should appear on the screen, i.e. they take the inverse-video'ness of the face already into account. */ } else if (inverse_video) { if (fg == FACE_TTY_DEFAULT_FG_COLOR || bg == FACE_TTY_DEFAULT_BG_COLOR) toggle_highlight (); } else { if (fg == FACE_TTY_DEFAULT_BG_COLOR || bg == FACE_TTY_DEFAULT_FG_COLOR) toggle_highlight (); } } else { /* If we can't display colors, use reverse video if the face specifies that. */ if (inverse_video) { if (fg == FACE_TTY_DEFAULT_FG_COLOR || bg == FACE_TTY_DEFAULT_BG_COLOR) toggle_highlight (); } else { if (fg == FACE_TTY_DEFAULT_BG_COLOR || bg == FACE_TTY_DEFAULT_FG_COLOR) toggle_highlight (); } } } if (face->tty_bold_p) { if (MAY_USE_WITH_COLORS_P (NC_BOLD)) OUTPUT1_IF (TS_enter_bold_mode); } else if (face->tty_dim_p) if (MAY_USE_WITH_COLORS_P (NC_DIM)) OUTPUT1_IF (TS_enter_dim_mode); /* Alternate charset and blinking not yet used. */ if (face->tty_alt_charset_p && MAY_USE_WITH_COLORS_P (NC_ALT_CHARSET)) OUTPUT1_IF (TS_enter_alt_charset_mode); if (face->tty_blinking_p && MAY_USE_WITH_COLORS_P (NC_BLINK)) OUTPUT1_IF (TS_enter_blink_mode); if (face->tty_underline_p && MAY_USE_WITH_COLORS_P (NC_UNDERLINE)) OUTPUT1_IF (TS_enter_underline_mode); if (TN_max_colors > 0) { char *ts, *p; ts = standout_mode ? TS_set_background : TS_set_foreground; if (fg >= 0 && ts) { p = tparam (ts, NULL, 0, (int) fg); OUTPUT (p); xfree (p); } ts = standout_mode ? TS_set_foreground : TS_set_background; if (bg >= 0 && ts) { p = tparam (ts, NULL, 0, (int) bg); OUTPUT (p); xfree (p); } } } /* Turn off appearances of face FACE_ID on tty frame F. */ static void turn_off_face (f, face_id) struct frame *f; int face_id; { struct face *face = FACE_FROM_ID (f, face_id); xassert (face != NULL); if (TS_exit_attribute_mode) { /* Capability "me" will turn off appearance modes double-bright, half-bright, reverse-video, standout, underline. It may or may not turn off alt-char-mode. */ if (face->tty_bold_p || face->tty_dim_p || face->tty_reverse_p || face->tty_alt_charset_p || face->tty_blinking_p || face->tty_underline_p) { OUTPUT1_IF (TS_exit_attribute_mode); if (strcmp (TS_exit_attribute_mode, TS_end_standout_mode) == 0) standout_mode = 0; } if (face->tty_alt_charset_p) OUTPUT_IF (TS_exit_alt_charset_mode); } else { /* If we don't have "me" we can only have those appearances that have exit sequences defined. */ if (face->tty_alt_charset_p) OUTPUT_IF (TS_exit_alt_charset_mode); if (face->tty_underline_p) OUTPUT_IF (TS_exit_underline_mode); } /* Switch back to default colors. */ if (TN_max_colors > 0 && ((face->foreground != FACE_TTY_DEFAULT_COLOR && face->foreground != FACE_TTY_DEFAULT_FG_COLOR) || (face->background != FACE_TTY_DEFAULT_COLOR && face->background != FACE_TTY_DEFAULT_BG_COLOR))) OUTPUT1_IF (TS_orig_pair); } /* Return non-zero if the terminal on frame F supports all of the capabilities in CAPS simultaneously, with foreground and background colors FG and BG. */ int tty_capable_p (f, caps, fg, bg) struct frame *f; unsigned caps; unsigned long fg, bg; { #define TTY_CAPABLE_P_TRY(cap, TS, NC_bit) \ if ((caps & (cap)) && (!(TS) || !MAY_USE_WITH_COLORS_P(NC_bit))) \ return 0; TTY_CAPABLE_P_TRY (TTY_CAP_INVERSE, TS_standout_mode, NC_REVERSE); TTY_CAPABLE_P_TRY (TTY_CAP_UNDERLINE, TS_enter_underline_mode, NC_UNDERLINE); TTY_CAPABLE_P_TRY (TTY_CAP_BOLD, TS_enter_bold_mode, NC_BOLD); TTY_CAPABLE_P_TRY (TTY_CAP_DIM, TS_enter_dim_mode, NC_DIM); TTY_CAPABLE_P_TRY (TTY_CAP_BLINK, TS_enter_blink_mode, NC_BLINK); TTY_CAPABLE_P_TRY (TTY_CAP_ALT_CHARSET, TS_enter_alt_charset_mode, NC_ALT_CHARSET); /* We can do it! */ return 1; } /* Return non-zero if the terminal is capable to display colors. */ DEFUN ("tty-display-color-p", Ftty_display_color_p, Stty_display_color_p, 0, 1, 0, doc: /* Return non-nil if TTY can display colors on DISPLAY. */) (display) Lisp_Object display; { return TN_max_colors > 0 ? Qt : Qnil; } /* Return the number of supported colors. */ DEFUN ("tty-display-color-cells", Ftty_display_color_cells, Stty_display_color_cells, 0, 1, 0, doc: /* Return the number of colors supported by TTY on DISPLAY. */) (display) Lisp_Object display; { return make_number (TN_max_colors); } #ifndef WINDOWSNT /* Save or restore the default color-related capabilities of this terminal. */ static void tty_default_color_capabilities (save) int save; { static char *default_orig_pair, *default_set_foreground, *default_set_background; static int default_max_colors, default_max_pairs, default_no_color_video; if (save) { if (default_orig_pair) xfree (default_orig_pair); default_orig_pair = TS_orig_pair ? xstrdup (TS_orig_pair) : NULL; if (default_set_foreground) xfree (default_set_foreground); default_set_foreground = TS_set_foreground ? xstrdup (TS_set_foreground) : NULL; if (default_set_background) xfree (default_set_background); default_set_background = TS_set_background ? xstrdup (TS_set_background) : NULL; default_max_colors = TN_max_colors; default_max_pairs = TN_max_pairs; default_no_color_video = TN_no_color_video; } else { TS_orig_pair = default_orig_pair; TS_set_foreground = default_set_foreground; TS_set_background = default_set_background; TN_max_colors = default_max_colors; TN_max_pairs = default_max_pairs; TN_no_color_video = default_no_color_video; } } /* Setup one of the standard tty color schemes according to MODE. MODE's value is generally the number of colors which we want to support; zero means set up for the default capabilities, the ones we saw at term_init time; -1 means turn off color support. */ void tty_setup_colors (mode) int mode; { /* Canonicalize all negative values of MODE. */ if (mode < -1) mode = -1; switch (mode) { case -1: /* no colors at all */ TN_max_colors = 0; TN_max_pairs = 0; TN_no_color_video = 0; TS_set_foreground = TS_set_background = TS_orig_pair = NULL; break; case 0: /* default colors, if any */ default: tty_default_color_capabilities (0); break; case 8: /* 8 standard ANSI colors */ TS_orig_pair = "\033[0m"; #ifdef TERMINFO TS_set_foreground = "\033[3%p1%dm"; TS_set_background = "\033[4%p1%dm"; #else TS_set_foreground = "\033[3%dm"; TS_set_background = "\033[4%dm"; #endif TN_max_colors = 8; TN_max_pairs = 64; TN_no_color_video = 0; break; } } void set_tty_color_mode (f, val) struct frame *f; Lisp_Object val; { Lisp_Object color_mode_spec, current_mode_spec; Lisp_Object color_mode, current_mode; int mode, old_mode; extern Lisp_Object Qtty_color_mode; Lisp_Object tty_color_mode_alist; tty_color_mode_alist = Fintern_soft (build_string ("tty-color-mode-alist"), Qnil); if (INTEGERP (val)) color_mode = val; else { if (NILP (tty_color_mode_alist)) color_mode_spec = Qnil; else color_mode_spec = Fassq (val, XSYMBOL (tty_color_mode_alist)->value); if (CONSP (color_mode_spec)) color_mode = XCDR (color_mode_spec); else color_mode = Qnil; } current_mode_spec = assq_no_quit (Qtty_color_mode, f->param_alist); if (CONSP (current_mode_spec)) current_mode = XCDR (current_mode_spec); else current_mode = Qnil; if (INTEGERP (color_mode)) mode = XINT (color_mode); else mode = 0; /* meaning default */ if (INTEGERP (current_mode)) old_mode = XINT (current_mode); else old_mode = 0; if (mode != old_mode) { tty_setup_colors (mode); /* This recomputes all the faces given the new color definitions. */ call0 (intern ("tty-set-up-initial-frame-faces")); redraw_frame (f); } } #endif /* !WINDOWSNT */ /*********************************************************************** Initialization ***********************************************************************/ void term_init (terminal_type) char *terminal_type; { char *area; char **address = &area; char *buffer = NULL; int buffer_size = 4096; register char *p; int status; struct frame *sf = XFRAME (selected_frame); encode_terminal_bufsize = 0; #ifdef WINDOWSNT initialize_w32_display (); Wcm_clear (); area = (char *) xmalloc (2044); FrameRows = FRAME_LINES (sf); FrameCols = FRAME_COLS (sf); specified_window = FRAME_LINES (sf); delete_in_insert_mode = 1; UseTabs = 0; scroll_region_ok = 0; /* Seems to insert lines when it's not supposed to, messing up the display. In doing a trace, it didn't seem to be called much, so I don't think we're losing anything by turning it off. */ line_ins_del_ok = 0; char_ins_del_ok = 1; baud_rate = 19200; FRAME_CAN_HAVE_SCROLL_BARS (sf) = 0; FRAME_VERTICAL_SCROLL_BAR_TYPE (sf) = vertical_scroll_bar_none; TN_max_colors = 16; /* Required to be non-zero for tty-display-color-p */ return; #else /* not WINDOWSNT */ Wcm_clear (); buffer = (char *) xmalloc (buffer_size); status = tgetent (buffer, terminal_type); if (status < 0) { #ifdef TERMINFO fatal ("Cannot open terminfo database file"); #else fatal ("Cannot open termcap database file"); #endif } if (status == 0) { #ifdef TERMINFO fatal ("Terminal type %s is not defined.\n\ If that is not the actual type of terminal you have,\n\ use the Bourne shell command `TERM=... export TERM' (C-shell:\n\ `setenv TERM ...') to specify the correct type. It may be necessary\n\ to do `unset TERMINFO' (C-shell: `unsetenv TERMINFO') as well.", terminal_type); #else fatal ("Terminal type %s is not defined.\n\ If that is not the actual type of terminal you have,\n\ use the Bourne shell command `TERM=... export TERM' (C-shell:\n\ `setenv TERM ...') to specify the correct type. It may be necessary\n\ to do `unset TERMCAP' (C-shell: `unsetenv TERMCAP') as well.", terminal_type); #endif } #ifndef TERMINFO if (strlen (buffer) >= buffer_size) abort (); buffer_size = strlen (buffer); #endif area = (char *) xmalloc (buffer_size); TS_ins_line = tgetstr ("al", address); TS_ins_multi_lines = tgetstr ("AL", address); TS_bell = tgetstr ("bl", address); BackTab = tgetstr ("bt", address); TS_clr_to_bottom = tgetstr ("cd", address); TS_clr_line = tgetstr ("ce", address); TS_clr_frame = tgetstr ("cl", address); ColPosition = NULL; /* tgetstr ("ch", address); */ AbsPosition = tgetstr ("cm", address); CR = tgetstr ("cr", address); TS_set_scroll_region = tgetstr ("cs", address); TS_set_scroll_region_1 = tgetstr ("cS", address); RowPosition = tgetstr ("cv", address); TS_del_char = tgetstr ("dc", address); TS_del_multi_chars = tgetstr ("DC", address); TS_del_line = tgetstr ("dl", address); TS_del_multi_lines = tgetstr ("DL", address); TS_delete_mode = tgetstr ("dm", address); TS_end_delete_mode = tgetstr ("ed", address); TS_end_insert_mode = tgetstr ("ei", address); Home = tgetstr ("ho", address); TS_ins_char = tgetstr ("ic", address); TS_ins_multi_chars = tgetstr ("IC", address); TS_insert_mode = tgetstr ("im", address); TS_pad_inserted_char = tgetstr ("ip", address); TS_end_keypad_mode = tgetstr ("ke", address); TS_keypad_mode = tgetstr ("ks", address); LastLine = tgetstr ("ll", address); Right = tgetstr ("nd", address); Down = tgetstr ("do", address); if (!Down) Down = tgetstr ("nl", address); /* Obsolete name for "do" */ #ifdef VMS /* VMS puts a carriage return before each linefeed, so it is not safe to use linefeeds. */ if (Down && Down[0] == '\n' && Down[1] == '\0') Down = 0; #endif /* VMS */ if (tgetflag ("bs")) Left = "\b"; /* can't possibly be longer! */ else /* (Actually, "bs" is obsolete...) */ Left = tgetstr ("le", address); if (!Left) Left = tgetstr ("bc", address); /* Obsolete name for "le" */ TS_pad_char = tgetstr ("pc", address); TS_repeat = tgetstr ("rp", address); TS_end_standout_mode = tgetstr ("se", address); TS_fwd_scroll = tgetstr ("sf", address); TS_standout_mode = tgetstr ("so", address); TS_rev_scroll = tgetstr ("sr", address); Wcm.cm_tab = tgetstr ("ta", address); TS_end_termcap_modes = tgetstr ("te", address); TS_termcap_modes = tgetstr ("ti", address); Up = tgetstr ("up", address); TS_visible_bell = tgetstr ("vb", address); TS_cursor_normal = tgetstr ("ve", address); TS_cursor_visible = tgetstr ("vs", address); TS_cursor_invisible = tgetstr ("vi", address); TS_set_window = tgetstr ("wi", address); TS_enter_underline_mode = tgetstr ("us", address); TS_exit_underline_mode = tgetstr ("ue", address); TS_enter_bold_mode = tgetstr ("md", address); TS_enter_dim_mode = tgetstr ("mh", address); TS_enter_blink_mode = tgetstr ("mb", address); TS_enter_reverse_mode = tgetstr ("mr", address); TS_enter_alt_charset_mode = tgetstr ("as", address); TS_exit_alt_charset_mode = tgetstr ("ae", address); TS_exit_attribute_mode = tgetstr ("me", address); MultiUp = tgetstr ("UP", address); MultiDown = tgetstr ("DO", address); MultiLeft = tgetstr ("LE", address); MultiRight = tgetstr ("RI", address); /* SVr4/ANSI color suppert. If "op" isn't available, don't support color because we can't switch back to the default foreground and background. */ TS_orig_pair = tgetstr ("op", address); if (TS_orig_pair) { TS_set_foreground = tgetstr ("AF", address); TS_set_background = tgetstr ("AB", address); if (!TS_set_foreground) { /* SVr4. */ TS_set_foreground = tgetstr ("Sf", address); TS_set_background = tgetstr ("Sb", address); } TN_max_colors = tgetnum ("Co"); TN_max_pairs = tgetnum ("pa"); TN_no_color_video = tgetnum ("NC"); if (TN_no_color_video == -1) TN_no_color_video = 0; } tty_default_color_capabilities (1); MagicWrap = tgetflag ("xn"); /* Since we make MagicWrap terminals look like AutoWrap, we need to have the former flag imply the latter. */ AutoWrap = MagicWrap || tgetflag ("am"); memory_below_frame = tgetflag ("db"); TF_hazeltine = tgetflag ("hz"); must_write_spaces = tgetflag ("in"); meta_key = tgetflag ("km") || tgetflag ("MT"); TF_insmode_motion = tgetflag ("mi"); TF_standout_motion = tgetflag ("ms"); TF_underscore = tgetflag ("ul"); TF_teleray = tgetflag ("xt"); term_get_fkeys (address); /* Get frame size from system, or else from termcap. */ { int height, width; get_frame_size (&width, &height); FRAME_COLS (sf) = width; FRAME_LINES (sf) = height; } if (FRAME_COLS (sf) <= 0) SET_FRAME_COLS (sf, tgetnum ("co")); else /* Keep width and external_width consistent */ SET_FRAME_COLS (sf, FRAME_COLS (sf)); if (FRAME_LINES (sf) <= 0) FRAME_LINES (sf) = tgetnum ("li"); if (FRAME_LINES (sf) < 3 || FRAME_COLS (sf) < 3) fatal ("Screen size %dx%d is too small", FRAME_LINES (sf), FRAME_COLS (sf)); min_padding_speed = tgetnum ("pb"); TabWidth = tgetnum ("tw"); #ifdef VMS /* These capabilities commonly use ^J. I don't know why, but sending them on VMS does not work; it causes following spaces to be lost, sometimes. For now, the simplest fix is to avoid using these capabilities ever. */ if (Down && Down[0] == '\n') Down = 0; #endif /* VMS */ if (!TS_bell) TS_bell = "\07"; if (!TS_fwd_scroll) TS_fwd_scroll = Down; PC = TS_pad_char ? *TS_pad_char : 0; if (TabWidth < 0) TabWidth = 8; /* Turned off since /etc/termcap seems to have :ta= for most terminals and newer termcap doc does not seem to say there is a default. if (!Wcm.cm_tab) Wcm.cm_tab = "\t"; */ /* We don't support standout modes that use `magic cookies', so turn off any that do. */ if (TS_standout_mode && tgetnum ("sg") >= 0) { TS_standout_mode = 0; TS_end_standout_mode = 0; } if (TS_enter_underline_mode && tgetnum ("ug") >= 0) { TS_enter_underline_mode = 0; TS_exit_underline_mode = 0; } /* If there's no standout mode, try to use underlining instead. */ if (TS_standout_mode == 0) { TS_standout_mode = TS_enter_underline_mode; TS_end_standout_mode = TS_exit_underline_mode; } /* If no `se' string, try using a `me' string instead. If that fails, we can't use standout mode at all. */ if (TS_end_standout_mode == 0) { char *s = tgetstr ("me", address); if (s != 0) TS_end_standout_mode = s; else TS_standout_mode = 0; } if (TF_teleray) { Wcm.cm_tab = 0; /* We can't support standout mode, because it uses magic cookies. */ TS_standout_mode = 0; /* But that means we cannot rely on ^M to go to column zero! */ CR = 0; /* LF can't be trusted either -- can alter hpos */ /* if move at column 0 thru a line with TS_standout_mode */ Down = 0; } /* Special handling for certain terminal types known to need it */ if (!strcmp (terminal_type, "supdup")) { memory_below_frame = 1; Wcm.cm_losewrap = 1; } if (!strncmp (terminal_type, "c10", 3) || !strcmp (terminal_type, "perq")) { /* Supply a makeshift :wi string. This string is not valid in general since it works only for windows starting at the upper left corner; but that is all Emacs uses. This string works only if the frame is using the top of the video memory, because addressing is memory-relative. So first check the :ti string to see if that is true. It would be simpler if the :wi string could go in the termcap entry, but it can't because it is not fully valid. If it were in the termcap entry, it would confuse other programs. */ if (!TS_set_window) { p = TS_termcap_modes; while (*p && strcmp (p, "\033v ")) p++; if (*p) TS_set_window = "\033v%C %C %C %C "; } /* Termcap entry often fails to have :in: flag */ must_write_spaces = 1; /* :ti string typically fails to have \E^G! in it */ /* This limits scope of insert-char to one line. */ strcpy (area, TS_termcap_modes); strcat (area, "\033\007!"); TS_termcap_modes = area; area += strlen (area) + 1; p = AbsPosition; /* Change all %+ parameters to %C, to handle values above 96 correctly for the C100. */ while (*p) { if (p[0] == '%' && p[1] == '+') p[1] = 'C'; p++; } } FrameRows = FRAME_LINES (sf); FrameCols = FRAME_COLS (sf); specified_window = FRAME_LINES (sf); if (Wcm_init () == -1) /* can't do cursor motion */ #ifdef VMS fatal ("Terminal type \"%s\" is not powerful enough to run Emacs.\n\ It lacks the ability to position the cursor.\n\ If that is not the actual type of terminal you have, use either the\n\ DCL command `SET TERMINAL/DEVICE= ...' for DEC-compatible terminals,\n\ or `define EMACS_TERM \"terminal type\"' for non-DEC terminals.", terminal_type); #else /* not VMS */ # ifdef TERMINFO fatal ("Terminal type \"%s\" is not powerful enough to run Emacs.\n\ It lacks the ability to position the cursor.\n\ If that is not the actual type of terminal you have,\n\ use the Bourne shell command `TERM=... export TERM' (C-shell:\n\ `setenv TERM ...') to specify the correct type. It may be necessary\n\ to do `unset TERMINFO' (C-shell: `unsetenv TERMINFO') as well.", terminal_type); # else /* TERMCAP */ fatal ("Terminal type \"%s\" is not powerful enough to run Emacs.\n\ It lacks the ability to position the cursor.\n\ If that is not the actual type of terminal you have,\n\ use the Bourne shell command `TERM=... export TERM' (C-shell:\n\ `setenv TERM ...') to specify the correct type. It may be necessary\n\ to do `unset TERMCAP' (C-shell: `unsetenv TERMCAP') as well.", terminal_type); # endif /* TERMINFO */ #endif /*VMS */ if (FRAME_LINES (sf) <= 0 || FRAME_COLS (sf) <= 0) fatal ("The frame size has not been specified"); delete_in_insert_mode = TS_delete_mode && TS_insert_mode && !strcmp (TS_delete_mode, TS_insert_mode); se_is_so = (TS_standout_mode && TS_end_standout_mode && !strcmp (TS_standout_mode, TS_end_standout_mode)); UseTabs = tabs_safe_p () && TabWidth == 8; scroll_region_ok = (Wcm.cm_abs && (TS_set_window || TS_set_scroll_region || TS_set_scroll_region_1)); line_ins_del_ok = (((TS_ins_line || TS_ins_multi_lines) && (TS_del_line || TS_del_multi_lines)) || (scroll_region_ok && TS_fwd_scroll && TS_rev_scroll)); char_ins_del_ok = ((TS_ins_char || TS_insert_mode || TS_pad_inserted_char || TS_ins_multi_chars) && (TS_del_char || TS_del_multi_chars)); fast_clear_end_of_line = TS_clr_line != 0; init_baud_rate (); if (read_socket_hook) /* Baudrate is somewhat */ /* meaningless in this case */ baud_rate = 9600; FRAME_CAN_HAVE_SCROLL_BARS (sf) = 0; FRAME_VERTICAL_SCROLL_BAR_TYPE (sf) = vertical_scroll_bar_none; #endif /* WINDOWSNT */ xfree (buffer); } /* VARARGS 1 */ void fatal (str, arg1, arg2) char *str, *arg1, *arg2; { fprintf (stderr, "emacs: "); fprintf (stderr, str, arg1, arg2); fprintf (stderr, "\n"); fflush (stderr); exit (1); } DEFUN ("tty-no-underline", Ftty_no_underline, Stty_no_underline, 0, 0, 0, doc: /* Declare that this terminal does not handle underlining. This is used to override the terminfo data, for certain terminals that do not really do underlining, but say that they do. */) () { TS_enter_underline_mode = 0; return Qnil; } void syms_of_term () { DEFVAR_BOOL ("system-uses-terminfo", &system_uses_terminfo, doc: /* Non-nil means the system uses terminfo rather than termcap. This variable can be used by terminal emulator packages. */); #ifdef TERMINFO system_uses_terminfo = 1; #else system_uses_terminfo = 0; #endif DEFVAR_LISP ("ring-bell-function", &Vring_bell_function, doc: /* Non-nil means call this function to ring the bell. The function should accept no arguments. */); Vring_bell_function = Qnil; DEFVAR_BOOL ("visible-cursor", &visible_cursor, doc: /* Non-nil means to make the cursor very visible. This only has an effect when running in a text terminal. What means \"very visible\" is up to your terminal. It may make the cursor bigger, or it may make it blink, or it may do nothing at all. */); visible_cursor = 1; defsubr (&Stty_display_color_p); defsubr (&Stty_display_color_cells); defsubr (&Stty_no_underline); fullscreen_hook = NULL; } /* arch-tag: 498e7449-6f2e-45e2-91dd-b7d4ca488193 (do not change this comment) */