/* Keyboard support routines. Copyright (C) 1994-2015 Free Software Foundation, Inc. Written by: Miguel de Icaza, 1994, 1995 Janne Kukonlehto, 1994, 1995 Jakub Jelinek, 1995 Norbert Warmuth, 1997 Denys Vlasenko , 2013 Slava Zanko , 2013 Egmont Koblinger , 2013 This file is part of the Midnight Commander. The Midnight Commander 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. The Midnight Commander 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, see . */ /** \file key.c * \brief Source: keyboard support routines */ #include #include #include #include #include #include #include #include #include #include "lib/global.h" #include "lib/vfs/vfs.h" #include "tty.h" #include "tty-internal.h" /* mouse_enabled */ #include "mouse.h" #include "key.h" #include "lib/widget.h" /* mc_refresh() */ #ifdef HAVE_TEXTMODE_X11_SUPPORT #include "x11conn.h" #endif #ifdef __linux__ #if defined(__GLIBC__) && (__GLIBC__ < 2) #include /* TIOCLINUX */ #else #include #endif #ifdef HAVE_SYS_IOCTL_H #include #endif #endif /* __linux__ */ #ifdef __CYGWIN__ #include #ifdef HAVE_SYS_IOCTL_H #include #endif #endif /* __CYGWIN__ */ #ifdef __QNXNTO__ #include #include #include #endif /* __QNXNTO__ */ /*** global variables ****************************************************************************/ int mou_auto_repeat = 100; int double_click_speed = 250; int old_esc_mode = 0; /* timeout for old_esc_mode in usec */ int old_esc_mode_timeout = 1000000; /* settable via env */ int use_8th_bit_as_meta = 0; gboolean bracketed_pasting_in_progress = FALSE; /* This table is a mapping between names and the constants we use * We use this to allow users to define alternate definitions for * certain keys that may be missing from the terminal database */ const key_code_name_t key_name_conv_tab[] = { {ESC_CHAR, "escape", N_("Escape"), "Esc"}, /* KEY_F(0) is not here, since we are mapping it to f10, so there is no reason to define f0 as well. Also, it makes Learn keys a bunch of problems :( */ {KEY_F (1), "f1", N_("Function key 1"), "F1"}, {KEY_F (2), "f2", N_("Function key 2"), "F2"}, {KEY_F (3), "f3", N_("Function key 3"), "F3"}, {KEY_F (4), "f4", N_("Function key 4"), "F4"}, {KEY_F (5), "f5", N_("Function key 5"), "F5"}, {KEY_F (6), "f6", N_("Function key 6"), "F6"}, {KEY_F (7), "f7", N_("Function key 7"), "F7"}, {KEY_F (8), "f8", N_("Function key 8"), "F8"}, {KEY_F (9), "f9", N_("Function key 9"), "F9"}, {KEY_F (10), "f10", N_("Function key 10"), "F10"}, {KEY_F (11), "f11", N_("Function key 11"), "F11"}, {KEY_F (12), "f12", N_("Function key 12"), "F12"}, {KEY_F (13), "f13", N_("Function key 13"), "F13"}, {KEY_F (14), "f14", N_("Function key 14"), "F14"}, {KEY_F (15), "f15", N_("Function key 15"), "F15"}, {KEY_F (16), "f16", N_("Function key 16"), "F16"}, {KEY_F (17), "f17", N_("Function key 17"), "F17"}, {KEY_F (18), "f18", N_("Function key 18"), "F18"}, {KEY_F (19), "f19", N_("Function key 19"), "F19"}, {KEY_F (20), "f20", N_("Function key 20"), "F20"}, {ALT ('\t'), "complete", N_("Completion/M-tab"), "Meta-Tab"}, {KEY_BTAB, "backtab", N_("BackTab/S-tab"), "Shift-Tab"}, {KEY_BACKSPACE, "backspace", N_("Backspace"), "Backspace"}, {KEY_UP, "up", N_("Up arrow"), "Up"}, {KEY_DOWN, "down", N_("Down arrow"), "Down"}, {KEY_LEFT, "left", N_("Left arrow"), "Left"}, {KEY_RIGHT, "right", N_("Right arrow"), "Right"}, {KEY_IC, "insert", N_("Insert"), "Ins"}, {KEY_DC, "delete", N_("Delete"), "Del"}, {KEY_HOME, "home", N_("Home"), "Home"}, {KEY_END, "end", N_("End key"), "End"}, {KEY_PPAGE, "pgup", N_("Page Up"), "PgUp"}, {KEY_NPAGE, "pgdn", N_("Page Down"), "PgDn"}, {(int) '/', "kpslash", N_("/ on keypad"), "/"}, {KEY_KP_MULTIPLY, "kpasterisk", N_("* on keypad"), "*"}, {KEY_KP_SUBTRACT, "kpminus", N_("- on keypad"), "-"}, {KEY_KP_ADD, "kpplus", N_("+ on keypad"), "+"}, /* From here on, these won't be shown in Learn keys (no space) */ {KEY_LEFT, "kpleft", N_("Left arrow keypad"), "Left"}, {KEY_RIGHT, "kpright", N_("Right arrow keypad"), "Right"}, {KEY_UP, "kpup", N_("Up arrow keypad"), "Up"}, {KEY_DOWN, "kpdown", N_("Down arrow keypad"), "Down"}, {KEY_HOME, "kphome", N_("Home on keypad"), "Home"}, {KEY_END, "kpend", N_("End on keypad"), "End"}, {KEY_NPAGE, "kpnpage", N_("Page Down keypad"), "PgDn"}, {KEY_PPAGE, "kpppage", N_("Page Up keypad"), "PgUp"}, {KEY_IC, "kpinsert", N_("Insert on keypad"), "Ins"}, {KEY_DC, "kpdelete", N_("Delete on keypad"), "Del"}, {(int) '\n', "kpenter", N_("Enter on keypad"), "Enter"}, {KEY_F (21), "f21", N_("Function key 21"), "F21"}, {KEY_F (22), "f22", N_("Function key 22"), "F22"}, {KEY_F (23), "f23", N_("Function key 23"), "F23"}, {KEY_F (24), "f24", N_("Function key 24"), "F24"}, {KEY_A1, "a1", N_("A1 key"), "A1"}, {KEY_C1, "c1", N_("C1 key"), "C1"}, /* Alternative label */ {ESC_CHAR, "esc", N_("Escape"), "Esc"}, {KEY_BACKSPACE, "bs", N_("Backspace"), "Bakspace"}, {KEY_IC, "ins", N_("Insert"), "Ins"}, {KEY_DC, "del", N_("Delete"), "Del"}, {(int) '*', "asterisk", N_("Asterisk"), "*"}, {(int) '-', "minus", N_("Minus"), "-"}, {(int) '+', "plus", N_("Plus"), "+"}, {(int) '.', "dot", N_("Dot"), "."}, {(int) '<', "lt", N_("Less than"), "<"}, {(int) '>', "gt", N_("Great than"), ">"}, {(int) '=', "equal", N_("Equal"), "="}, {(int) ',', "comma", N_("Comma"), ","}, {(int) '\'', "apostrophe", N_("Apostrophe"), "\'"}, {(int) ':', "colon", N_("Colon"), ":"}, {(int) ';', "semicolon", N_("Semicolon"), ";"}, {(int) '!', "exclamation", N_("Exclamation mark"), "!"}, {(int) '?', "question", N_("Question mark"), "?"}, {(int) '&', "ampersand", N_("Ampersand"), "&"}, {(int) '$', "dollar", N_("Dollar sign"), "$"}, {(int) '"', "quota", N_("Quotation mark"), "\""}, {(int) '%', "percent", N_("Percent sign"), "%"}, {(int) '^', "caret", N_("Caret"), "^"}, {(int) '~', "tilda", N_("Tilda"), "~"}, {(int) '`', "prime", N_("Prime"), "`"}, {(int) '_', "underline", N_("Underline"), "_"}, {(int) '_', "understrike", N_("Understrike"), "_"}, {(int) '|', "pipe", N_("Pipe"), "|"}, {(int) '(', "lparenthesis", N_("Left parenthesis"), "("}, {(int) ')', "rparenthesis", N_("Right parenthesis"), ")"}, {(int) '[', "lbracket", N_("Left bracket"), "["}, {(int) ']', "rbracket", N_("Right bracket"), "]"}, {(int) '{', "lbrace", N_("Left brace"), "{"}, {(int) '}', "rbrace", N_("Right brace"), "}"}, {(int) '\n', "enter", N_("Enter"), "Enter"}, {(int) '\t', "tab", N_("Tab key"), "Tab"}, {(int) ' ', "space", N_("Space key"), "Space"}, {(int) '/', "slash", N_("Slash key"), "/"}, {(int) '\\', "backslash", N_("Backslash key"), "\\"}, {(int) '#', "number", N_("Number sign #"), "#"}, {(int) '#', "hash", N_("Number sign #"), "#"}, /* TRANSLATORS: Please translate as in "at sign" (@). */ {(int) '@', "at", N_("At sign"), "@"}, /* meta keys */ {KEY_M_CTRL, "control", N_("Ctrl"), "C"}, {KEY_M_CTRL, "ctrl", N_("Ctrl"), "C"}, {KEY_M_ALT, "meta", N_("Alt"), "M"}, {KEY_M_ALT, "alt", N_("Alt"), "M"}, {KEY_M_ALT, "ralt", N_("Alt"), "M"}, {KEY_M_SHIFT, "shift", N_("Shift"), "S"}, {0, NULL, NULL, NULL} }; /*** file scope macro definitions ****************************************************************/ #define GET_TIME(tv) (gettimeofday(&tv, (struct timezone *) NULL)) #define DIF_TIME(t1, t2) ((t2.tv_sec - t1.tv_sec) * 1000 + (t2.tv_usec - t1.tv_usec)/1000) /* The maximum sequence length (32 + null terminator) */ #define SEQ_BUFFER_LEN 33 /*** file scope type declarations ****************************************************************/ /* Linux console keyboard modifiers */ typedef enum { SHIFT_PRESSED = (1 << 0), ALTR_PRESSED = (1 << 1), CONTROL_PRESSED = (1 << 2), ALTL_PRESSED = (1 << 3) } mod_pressed_t; typedef struct key_def { char ch; /* Holds the matching char code */ int code; /* The code returned, valid if child == NULL */ struct key_def *next; struct key_def *child; /* sequence continuation */ int action; /* optional action to be done. Now used only to mark that we are just after the first Escape */ } key_def; typedef struct { int code; const char *seq; int action; } key_define_t; /* File descriptor monitoring add/remove routines */ typedef struct SelectList { int fd; select_fn callback; void *info; struct SelectList *next; } SelectList; typedef enum KeySortType { KEY_NOSORT = 0, KEY_SORTBYNAME, KEY_SORTBYCODE } KeySortType; #ifdef __QNXNTO__ typedef int (*ph_dv_f) (void *, void *); typedef int (*ph_ov_f) (void *); typedef int (*ph_pqc_f) (unsigned short, PhCursorInfo_t *); #endif /*** file scope variables ************************************************************************/ static key_define_t mc_default_keys[] = { {ESC_CHAR, ESC_STR, MCKEY_ESCAPE}, {ESC_CHAR, ESC_STR ESC_STR, MCKEY_NOACTION}, {MCKEY_BRACKETED_PASTING_START, ESC_STR "[200~", MCKEY_NOACTION}, {MCKEY_BRACKETED_PASTING_END, ESC_STR "[201~", MCKEY_NOACTION}, {0, NULL, MCKEY_NOACTION}, }; /* Broken terminfo and termcap databases on xterminals */ static key_define_t xterm_key_defines[] = { {KEY_F (1), ESC_STR "OP", MCKEY_NOACTION}, {KEY_F (2), ESC_STR "OQ", MCKEY_NOACTION}, {KEY_F (3), ESC_STR "OR", MCKEY_NOACTION}, {KEY_F (4), ESC_STR "OS", MCKEY_NOACTION}, {KEY_F (1), ESC_STR "[11~", MCKEY_NOACTION}, {KEY_F (2), ESC_STR "[12~", MCKEY_NOACTION}, {KEY_F (3), ESC_STR "[13~", MCKEY_NOACTION}, {KEY_F (4), ESC_STR "[14~", MCKEY_NOACTION}, {KEY_F (5), ESC_STR "[15~", MCKEY_NOACTION}, {KEY_F (6), ESC_STR "[17~", MCKEY_NOACTION}, {KEY_F (7), ESC_STR "[18~", MCKEY_NOACTION}, {KEY_F (8), ESC_STR "[19~", MCKEY_NOACTION}, {KEY_F (9), ESC_STR "[20~", MCKEY_NOACTION}, {KEY_F (10), ESC_STR "[21~", MCKEY_NOACTION}, /* old xterm Shift-arrows */ {KEY_M_SHIFT | KEY_UP, ESC_STR "O2A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_DOWN, ESC_STR "O2B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_RIGHT, ESC_STR "O2C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_LEFT, ESC_STR "O2D", MCKEY_NOACTION}, /* new xterm Shift-arrows */ {KEY_M_SHIFT | KEY_UP, ESC_STR "[1;2A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_DOWN, ESC_STR "[1;2B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_RIGHT, ESC_STR "[1;2C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_LEFT, ESC_STR "[1;2D", MCKEY_NOACTION}, /* more xterm keys with modifiers */ {KEY_M_CTRL | KEY_PPAGE, ESC_STR "[5;5~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_NPAGE, ESC_STR "[6;5~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_IC, ESC_STR "[2;5~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_DC, ESC_STR "[3;5~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_HOME, ESC_STR "[1;5H", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_END, ESC_STR "[1;5F", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_HOME, ESC_STR "[1;2H", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_END, ESC_STR "[1;2F", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_UP, ESC_STR "[1;5A", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_DOWN, ESC_STR "[1;5B", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_RIGHT, ESC_STR "[1;5C", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_LEFT, ESC_STR "[1;5D", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_IC, ESC_STR "[2;2~", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_DC, ESC_STR "[3;2~", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_UP, ESC_STR "[1;6A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_DOWN, ESC_STR "[1;6B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_RIGHT, ESC_STR "[1;6C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_LEFT, ESC_STR "[1;6D", MCKEY_NOACTION}, {KEY_M_SHIFT | '\t', ESC_STR "[Z", MCKEY_NOACTION}, /* putty */ {KEY_M_SHIFT | KEY_M_CTRL | KEY_UP, ESC_STR "[[1;6A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_DOWN, ESC_STR "[[1;6B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_RIGHT, ESC_STR "[[1;6C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_LEFT, ESC_STR "[[1;6D", MCKEY_NOACTION}, /* putty alt-arrow keys */ /* removed as source esc esc esc trouble */ /* { KEY_M_ALT | KEY_UP, ESC_STR ESC_STR "OA", MCKEY_NOACTION }, { KEY_M_ALT | KEY_DOWN, ESC_STR ESC_STR "OB", MCKEY_NOACTION }, { KEY_M_ALT | KEY_RIGHT, ESC_STR ESC_STR "OC", MCKEY_NOACTION }, { KEY_M_ALT | KEY_LEFT, ESC_STR ESC_STR "OD", MCKEY_NOACTION }, { KEY_M_ALT | KEY_PPAGE, ESC_STR ESC_STR "[5~", MCKEY_NOACTION }, { KEY_M_ALT | KEY_NPAGE, ESC_STR ESC_STR "[6~", MCKEY_NOACTION }, { KEY_M_ALT | KEY_HOME, ESC_STR ESC_STR "[1~", MCKEY_NOACTION }, { KEY_M_ALT | KEY_END, ESC_STR ESC_STR "[4~", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_UP, ESC_STR ESC_STR "[1;2A", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_DOWN, ESC_STR ESC_STR "[1;2B", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_RIGHT, ESC_STR ESC_STR "[1;2C", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_LEFT, ESC_STR ESC_STR "[1;2D", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_PPAGE, ESC_STR ESC_STR "[[5;5~", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_NPAGE, ESC_STR ESC_STR "[[6;5~", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_HOME, ESC_STR ESC_STR "[1;5H", MCKEY_NOACTION }, { KEY_M_CTRL | KEY_M_ALT | KEY_END, ESC_STR ESC_STR "[1;5F", MCKEY_NOACTION }, */ /* xterm alt-arrow keys */ {KEY_M_ALT | KEY_UP, ESC_STR "[1;3A", MCKEY_NOACTION}, {KEY_M_ALT | KEY_DOWN, ESC_STR "[1;3B", MCKEY_NOACTION}, {KEY_M_ALT | KEY_RIGHT, ESC_STR "[1;3C", MCKEY_NOACTION}, {KEY_M_ALT | KEY_LEFT, ESC_STR "[1;3D", MCKEY_NOACTION}, {KEY_M_ALT | KEY_PPAGE, ESC_STR "[5;3~", MCKEY_NOACTION}, {KEY_M_ALT | KEY_NPAGE, ESC_STR "[6;3~", MCKEY_NOACTION}, {KEY_M_ALT | KEY_HOME, ESC_STR "[1~", MCKEY_NOACTION}, {KEY_M_ALT | KEY_END, ESC_STR "[4~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_UP, ESC_STR "[1;7A", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_DOWN, ESC_STR "[1;7B", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_RIGHT, ESC_STR "[1;7C", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_LEFT, ESC_STR "[1;7D", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_PPAGE, ESC_STR "[5;7~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_NPAGE, ESC_STR "[6;7~", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_HOME, ESC_STR "OH", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_M_ALT | KEY_END, ESC_STR "OF", MCKEY_NOACTION}, /* rxvt keys with modifiers */ {KEY_M_SHIFT | KEY_UP, ESC_STR "[a", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_DOWN, ESC_STR "[b", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_RIGHT, ESC_STR "[c", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_LEFT, ESC_STR "[d", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_UP, ESC_STR "Oa", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_DOWN, ESC_STR "Ob", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_RIGHT, ESC_STR "Oc", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_LEFT, ESC_STR "Od", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_PPAGE, ESC_STR "[5^", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_NPAGE, ESC_STR "[6^", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_HOME, ESC_STR "[7^", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_END, ESC_STR "[8^", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_HOME, ESC_STR "[7$", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_END, ESC_STR "[8$", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_IC, ESC_STR "[2^", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_DC, ESC_STR "[3^", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_DC, ESC_STR "[3$", MCKEY_NOACTION}, /* konsole keys with modifiers */ {KEY_M_SHIFT | KEY_HOME, ESC_STR "O2H", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_END, ESC_STR "O2F", MCKEY_NOACTION}, /* gnome-terminal */ {KEY_M_SHIFT | KEY_UP, ESC_STR "[2A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_DOWN, ESC_STR "[2B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_RIGHT, ESC_STR "[2C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_LEFT, ESC_STR "[2D", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_UP, ESC_STR "[5A", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_DOWN, ESC_STR "[5B", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_RIGHT, ESC_STR "[5C", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_LEFT, ESC_STR "[5D", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_UP, ESC_STR "[6A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_DOWN, ESC_STR "[6B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_RIGHT, ESC_STR "[6C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_LEFT, ESC_STR "[6D", MCKEY_NOACTION}, /* gnome-terminal - application mode */ {KEY_M_CTRL | KEY_UP, ESC_STR "O5A", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_DOWN, ESC_STR "O5B", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_RIGHT, ESC_STR "O5C", MCKEY_NOACTION}, {KEY_M_CTRL | KEY_LEFT, ESC_STR "O5D", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_UP, ESC_STR "O6A", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_DOWN, ESC_STR "O6B", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_RIGHT, ESC_STR "O6C", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_M_CTRL | KEY_LEFT, ESC_STR "O6D", MCKEY_NOACTION}, /* iTerm */ {KEY_M_SHIFT | KEY_PPAGE, ESC_STR "[5;2~", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_NPAGE, ESC_STR "[6;2~", MCKEY_NOACTION}, /* putty */ {KEY_M_SHIFT | KEY_PPAGE, ESC_STR "[[5;53~", MCKEY_NOACTION}, {KEY_M_SHIFT | KEY_NPAGE, ESC_STR "[[6;53~", MCKEY_NOACTION}, /* keypad keys */ {KEY_IC, ESC_STR "Op", MCKEY_NOACTION}, {KEY_DC, ESC_STR "On", MCKEY_NOACTION}, {'/', ESC_STR "Oo", MCKEY_NOACTION}, {'\n', ESC_STR "OM", MCKEY_NOACTION}, {0, NULL, MCKEY_NOACTION}, }; /* qansi-m terminals have a much more key combinatios, which are undefined in termcap/terminfo */ static key_define_t qansi_key_defines[] = { /* qansi-m terminal */ {KEY_M_CTRL | KEY_NPAGE, ESC_STR "[u", MCKEY_NOACTION}, /* Ctrl-PgDown */ {KEY_M_CTRL | KEY_PPAGE, ESC_STR "[v", MCKEY_NOACTION}, /* Ctrl-PgUp */ {KEY_M_CTRL | KEY_HOME, ESC_STR "[h", MCKEY_NOACTION}, /* Ctrl-Home */ {KEY_M_CTRL | KEY_END, ESC_STR "[y", MCKEY_NOACTION}, /* Ctrl-End */ {KEY_M_CTRL | KEY_IC, ESC_STR "[`", MCKEY_NOACTION}, /* Ctrl-Insert */ {KEY_M_CTRL | KEY_DC, ESC_STR "[p", MCKEY_NOACTION}, /* Ctrl-Delete */ {KEY_M_CTRL | KEY_LEFT, ESC_STR "[d", MCKEY_NOACTION}, /* Ctrl-Left */ {KEY_M_CTRL | KEY_RIGHT, ESC_STR "[c", MCKEY_NOACTION}, /* Ctrl-Right */ {KEY_M_CTRL | KEY_DOWN, ESC_STR "[b", MCKEY_NOACTION}, /* Ctrl-Down */ {KEY_M_CTRL | KEY_UP, ESC_STR "[a", MCKEY_NOACTION}, /* Ctrl-Up */ {KEY_M_CTRL | KEY_KP_ADD, ESC_STR "[s", MCKEY_NOACTION}, /* Ctrl-Gr-Plus */ {KEY_M_CTRL | KEY_KP_SUBTRACT, ESC_STR "[t", MCKEY_NOACTION}, /* Ctrl-Gr-Minus */ {KEY_M_CTRL | '\t', ESC_STR "[z", MCKEY_NOACTION}, /* Ctrl-Tab */ {KEY_M_SHIFT | '\t', ESC_STR "[Z", MCKEY_NOACTION}, /* Shift-Tab */ {KEY_M_CTRL | KEY_F (1), ESC_STR "[1~", MCKEY_NOACTION}, /* Ctrl-F1 */ {KEY_M_CTRL | KEY_F (2), ESC_STR "[2~", MCKEY_NOACTION}, /* Ctrl-F2 */ {KEY_M_CTRL | KEY_F (3), ESC_STR "[3~", MCKEY_NOACTION}, /* Ctrl-F3 */ {KEY_M_CTRL | KEY_F (4), ESC_STR "[4~", MCKEY_NOACTION}, /* Ctrl-F4 */ {KEY_M_CTRL | KEY_F (5), ESC_STR "[5~", MCKEY_NOACTION}, /* Ctrl-F5 */ {KEY_M_CTRL | KEY_F (6), ESC_STR "[6~", MCKEY_NOACTION}, /* Ctrl-F6 */ {KEY_M_CTRL | KEY_F (7), ESC_STR "[7~", MCKEY_NOACTION}, /* Ctrl-F7 */ {KEY_M_CTRL | KEY_F (8), ESC_STR "[8~", MCKEY_NOACTION}, /* Ctrl-F8 */ {KEY_M_CTRL | KEY_F (9), ESC_STR "[9~", MCKEY_NOACTION}, /* Ctrl-F9 */ {KEY_M_CTRL | KEY_F (10), ESC_STR "[10~", MCKEY_NOACTION}, /* Ctrl-F10 */ {KEY_M_CTRL | KEY_F (11), ESC_STR "[11~", MCKEY_NOACTION}, /* Ctrl-F11 */ {KEY_M_CTRL | KEY_F (12), ESC_STR "[12~", MCKEY_NOACTION}, /* Ctrl-F12 */ {KEY_M_ALT | KEY_F (1), ESC_STR "[17~", MCKEY_NOACTION}, /* Alt-F1 */ {KEY_M_ALT | KEY_F (2), ESC_STR "[18~", MCKEY_NOACTION}, /* Alt-F2 */ {KEY_M_ALT | KEY_F (3), ESC_STR "[19~", MCKEY_NOACTION}, /* Alt-F3 */ {KEY_M_ALT | KEY_F (4), ESC_STR "[20~", MCKEY_NOACTION}, /* Alt-F4 */ {KEY_M_ALT | KEY_F (5), ESC_STR "[21~", MCKEY_NOACTION}, /* Alt-F5 */ {KEY_M_ALT | KEY_F (6), ESC_STR "[22~", MCKEY_NOACTION}, /* Alt-F6 */ {KEY_M_ALT | KEY_F (7), ESC_STR "[23~", MCKEY_NOACTION}, /* Alt-F7 */ {KEY_M_ALT | KEY_F (8), ESC_STR "[24~", MCKEY_NOACTION}, /* Alt-F8 */ {KEY_M_ALT | KEY_F (9), ESC_STR "[25~", MCKEY_NOACTION}, /* Alt-F9 */ {KEY_M_ALT | KEY_F (10), ESC_STR "[26~", MCKEY_NOACTION}, /* Alt-F10 */ {KEY_M_ALT | KEY_F (11), ESC_STR "[27~", MCKEY_NOACTION}, /* Alt-F11 */ {KEY_M_ALT | KEY_F (12), ESC_STR "[28~", MCKEY_NOACTION}, /* Alt-F12 */ {KEY_M_ALT | 'a', ESC_STR "Na", MCKEY_NOACTION}, /* Alt-a */ {KEY_M_ALT | 'b', ESC_STR "Nb", MCKEY_NOACTION}, /* Alt-b */ {KEY_M_ALT | 'c', ESC_STR "Nc", MCKEY_NOACTION}, /* Alt-c */ {KEY_M_ALT | 'd', ESC_STR "Nd", MCKEY_NOACTION}, /* Alt-d */ {KEY_M_ALT | 'e', ESC_STR "Ne", MCKEY_NOACTION}, /* Alt-e */ {KEY_M_ALT | 'f', ESC_STR "Nf", MCKEY_NOACTION}, /* Alt-f */ {KEY_M_ALT | 'g', ESC_STR "Ng", MCKEY_NOACTION}, /* Alt-g */ {KEY_M_ALT | 'h', ESC_STR "Nh", MCKEY_NOACTION}, /* Alt-h */ {KEY_M_ALT | 'i', ESC_STR "Ni", MCKEY_NOACTION}, /* Alt-i */ {KEY_M_ALT | 'j', ESC_STR "Nj", MCKEY_NOACTION}, /* Alt-j */ {KEY_M_ALT | 'k', ESC_STR "Nk", MCKEY_NOACTION}, /* Alt-k */ {KEY_M_ALT | 'l', ESC_STR "Nl", MCKEY_NOACTION}, /* Alt-l */ {KEY_M_ALT | 'm', ESC_STR "Nm", MCKEY_NOACTION}, /* Alt-m */ {KEY_M_ALT | 'n', ESC_STR "Nn", MCKEY_NOACTION}, /* Alt-n */ {KEY_M_ALT | 'o', ESC_STR "No", MCKEY_NOACTION}, /* Alt-o */ {KEY_M_ALT | 'p', ESC_STR "Np", MCKEY_NOACTION}, /* Alt-p */ {KEY_M_ALT | 'q', ESC_STR "Nq", MCKEY_NOACTION}, /* Alt-q */ {KEY_M_ALT | 'r', ESC_STR "Nr", MCKEY_NOACTION}, /* Alt-r */ {KEY_M_ALT | 's', ESC_STR "Ns", MCKEY_NOACTION}, /* Alt-s */ {KEY_M_ALT | 't', ESC_STR "Nt", MCKEY_NOACTION}, /* Alt-t */ {KEY_M_ALT | 'u', ESC_STR "Nu", MCKEY_NOACTION}, /* Alt-u */ {KEY_M_ALT | 'v', ESC_STR "Nv", MCKEY_NOACTION}, /* Alt-v */ {KEY_M_ALT | 'w', ESC_STR "Nw", MCKEY_NOACTION}, /* Alt-w */ {KEY_M_ALT | 'x', ESC_STR "Nx", MCKEY_NOACTION}, /* Alt-x */ {KEY_M_ALT | 'y', ESC_STR "Ny", MCKEY_NOACTION}, /* Alt-y */ {KEY_M_ALT | 'z', ESC_STR "Nz", MCKEY_NOACTION}, /* Alt-z */ {KEY_KP_SUBTRACT, ESC_STR "[S", MCKEY_NOACTION}, /* Gr-Minus */ {KEY_KP_ADD, ESC_STR "[T", MCKEY_NOACTION}, /* Gr-Plus */ {0, NULL, MCKEY_NOACTION}, }; /* This holds all the key definitions */ static key_def *keys = NULL; static int input_fd; static int disabled_channels = 0; /* Disable channels checking */ static SelectList *select_list = NULL; static int seq_buffer[SEQ_BUFFER_LEN]; static int *seq_append = NULL; static int *pending_keys = NULL; #ifdef __QNXNTO__ ph_dv_f ph_attach; ph_ov_f ph_input_group; ph_pqc_f ph_query_cursor; #endif #ifdef HAVE_TEXTMODE_X11_SUPPORT static Display *x11_display; static Window x11_window; #endif /* HAVE_TEXTMODE_X11_SUPPORT */ static KeySortType has_been_sorted = KEY_NOSORT; /* *INDENT-OFF* */ static const size_t key_conv_tab_size = G_N_ELEMENTS (key_name_conv_tab) - 1; /* *INDENT-ON* */ static const key_code_name_t *key_conv_tab_sorted[G_N_ELEMENTS (key_name_conv_tab) - 1]; /*** file scope functions ************************************************************************/ /* --------------------------------------------------------------------------------------------- */ static int add_selects (fd_set * select_set) { int top_fd = 0; if (disabled_channels == 0) { SelectList *p; for (p = select_list; p != NULL; p = p->next) { FD_SET (p->fd, select_set); if (p->fd > top_fd) top_fd = p->fd; } } return top_fd; } /* --------------------------------------------------------------------------------------------- */ static void check_selects (fd_set * select_set) { if (disabled_channels == 0) { gboolean retry; do { SelectList *p; retry = FALSE; for (p = select_list; p; p = p->next) if (FD_ISSET (p->fd, select_set)) { FD_CLR (p->fd, select_set); (*p->callback) (p->fd, p->info); retry = TRUE; break; } } while (retry); } } /* --------------------------------------------------------------------------------------------- */ /* If set timeout is set, then we wait 0.1 seconds, else, we block */ static void try_channels (int set_timeout) { struct timeval time_out; static fd_set select_set; while (1) { struct timeval *timeptr = NULL; int maxfdp, v; FD_ZERO (&select_set); FD_SET (input_fd, &select_set); /* Add stdin */ maxfdp = max (add_selects (&select_set), input_fd); if (set_timeout) { time_out.tv_sec = 0; time_out.tv_usec = 100000; timeptr = &time_out; } v = select (maxfdp + 1, &select_set, NULL, NULL, timeptr); if (v > 0) { check_selects (&select_set); if (FD_ISSET (input_fd, &select_set)) break; } } } /* --------------------------------------------------------------------------------------------- */ static key_def * create_sequence (const char *seq, int code, int action) { key_def *base, *p, *attach; for (base = attach = NULL; *seq; seq++) { p = g_new (key_def, 1); if (base == NULL) base = p; if (attach != NULL) attach->child = p; p->ch = *seq; p->code = code; p->child = p->next = NULL; if (seq[1] == '\0') p->action = action; else p->action = MCKEY_NOACTION; attach = p; } return base; } /* --------------------------------------------------------------------------------------------- */ static void define_sequences (const key_define_t * kd) { int i; for (i = 0; kd[i].code != 0; i++) define_sequence (kd[i].code, kd[i].seq, kd[i].action); } /* --------------------------------------------------------------------------------------------- */ #ifdef HAVE_TEXTMODE_X11_SUPPORT static void init_key_x11 (void) { if (getenv ("DISPLAY") != NULL && !mc_global.tty.disable_x11) { x11_display = mc_XOpenDisplay (0); if (x11_display != NULL) x11_window = DefaultRootWindow (x11_display); } } #endif /* HAVE_TEXTMODE_X11_SUPPORT */ /* --------------------------------------------------------------------------------------------- */ /* Workaround for System V Curses vt100 bug */ static int getch_with_delay (void) { int c; /* This routine could be used on systems without mouse support, so we need to do the select check :-( */ while (1) { if (pending_keys == NULL) try_channels (0); /* Try to get a character */ c = get_key_code (0); if (c != -1) break; /* Failed -> wait 0.1 secs and try again */ try_channels (1); } /* Success -> return the character */ return c; } /* --------------------------------------------------------------------------------------------- */ static void xmouse_get_event (Gpm_Event * ev, gboolean extended) { static struct timeval tv1 = { 0, 0 }; /* Force first click as single */ static struct timeval tv2; static int clicks = 0; static int last_btn = 0; int btn; /* Decode Xterm mouse information to a GPM style event */ if (!extended) { /* Variable btn has following meaning: */ /* 0 = btn1 dn, 1 = btn2 dn, 2 = btn3 dn, 3 = btn up */ btn = tty_lowlevel_getch () - 32; /* Coordinates are 33-based */ /* Transform them to 1-based */ ev->x = tty_lowlevel_getch () - 32; ev->y = tty_lowlevel_getch () - 32; } else { /* SGR 1006 extension (e.g. "\e[<0;12;300M"): - Numbers are encoded in decimal to make it ASCII-safe and to overcome the limit of 223 columns/rows. - Mouse release is encoded by trailing 'm' rather than 'M' so that the released button can be reported. - Numbers are no longer offset by 32. */ char c; btn = ev->x = ev->y = 0; ev->type = 0; /* In case we return on an invalid sequence */ while ((c = tty_lowlevel_getch ()) != ';') { if (c < '0' || c > '9') return; btn = 10 * btn + (c - '0'); } while ((c = tty_lowlevel_getch ()) != ';') { if (c < '0' || c > '9') return; ev->x = 10 * ev->x + (c - '0'); } while ((c = tty_lowlevel_getch ()) != 'M' && c != 'm') { if (c < '0' || c > '9') return; ev->y = 10 * ev->y + (c - '0'); } /* Legacy mouse protocol doesn't tell which button was released, conveniently all of mc's widgets are written not to rely on this information. With the SGR extension the released button becomes known, but for the sake of simplicity we just ignore it. */ if (c == 'm') btn = 3; } /* There seems to be no way of knowing which button was released */ /* So we assume all the buttons were released */ if (btn == 3) { if (last_btn != 0) { if ((last_btn & (GPM_B_UP | GPM_B_DOWN)) != 0) { /* FIXME: DIRTY HACK */ /* don't generate GPM_UP after mouse wheel */ /* need for menu event handling */ ev->type = 0; tv1.tv_sec = 0; tv1.tv_usec = 0; } else { ev->type = GPM_UP | (GPM_SINGLE << clicks); GET_TIME (tv1); } ev->buttons = 0; last_btn = 0; clicks = 0; } else { /* Bogus event, maybe mouse wheel */ ev->type = 0; } } else { if (btn >= 32 && btn <= 34) { btn -= 32; ev->type = GPM_DRAG; } else ev->type = GPM_DOWN; GET_TIME (tv2); if (tv1.tv_sec && (DIF_TIME (tv1, tv2) < double_click_speed)) { clicks++; clicks %= 3; } else clicks = 0; switch (btn) { case 0: ev->buttons = GPM_B_LEFT; break; case 1: ev->buttons = GPM_B_MIDDLE; break; case 2: ev->buttons = GPM_B_RIGHT; break; case 64: ev->buttons = GPM_B_UP; clicks = 0; break; case 65: ev->buttons = GPM_B_DOWN; clicks = 0; break; default: /* Nothing */ ev->type = 0; ev->buttons = 0; break; } last_btn = ev->buttons; } } /* --------------------------------------------------------------------------------------------- */ /** * Get modifier state (shift, alt, ctrl) for the last key pressed. * We are assuming that the state didn't change since the key press. * This is only correct if get_modifier() is called very fast after * the input was received, so that the user didn't release the * modifier keys yet. */ static int get_modifier (void) { int result = 0; #ifdef __QNXNTO__ int mod_status; static int in_photon = 0; static int ph_ig = 0; PhCursorInfo_t cursor_info; #endif /* __QNXNTO__ */ #ifdef HAVE_TEXTMODE_X11_SUPPORT if (x11_window != 0) { Window root, child; int root_x, root_y; int win_x, win_y; unsigned int mask; mc_XQueryPointer (x11_display, x11_window, &root, &child, &root_x, &root_y, &win_x, &win_y, &mask); if (mask & ShiftMask) result |= KEY_M_SHIFT; if (mask & ControlMask) result |= KEY_M_CTRL; return result; } #endif /* HAVE_TEXTMODE_X11_SUPPORT */ #ifdef __QNXNTO__ if (in_photon == 0) { /* First time here, let's load Photon library and attach to Photon */ in_photon = -1; if (getenv ("PHOTON2_PATH") != NULL) { /* QNX 6.x has no support for RTLD_LAZY */ void *ph_handle = dlopen ("/usr/lib/libph.so", RTLD_NOW); if (ph_handle != NULL) { ph_attach = (ph_dv_f) dlsym (ph_handle, "PhAttach"); ph_input_group = (ph_ov_f) dlsym (ph_handle, "PhInputGroup"); ph_query_cursor = (ph_pqc_f) dlsym (ph_handle, "PhQueryCursor"); if ((ph_attach != NULL) && (ph_input_group != NULL) && (ph_query_cursor != NULL)) { if ((*ph_attach) (0, 0)) { /* Attached */ ph_ig = (*ph_input_group) (0); in_photon = 1; } } } } } /* We do not have Photon running. Assume we are in text console or xterm */ if (in_photon == -1) { int shift_ext_status; if (devctl (fileno (stdin), DCMD_CHR_LINESTATUS, &mod_status, sizeof (int), NULL) == -1) return 0; shift_ext_status = mod_status & 0xffffff00UL; mod_status &= 0x7f; if (mod_status & _LINESTATUS_CON_ALT) result |= KEY_M_ALT; if (mod_status & _LINESTATUS_CON_CTRL) result |= KEY_M_CTRL; if ((mod_status & _LINESTATUS_CON_SHIFT) || (shift_ext_status & 0x00000800UL)) result |= KEY_M_SHIFT; } else { (*ph_query_cursor) (ph_ig, &cursor_info); if (cursor_info.key_mods & 0x04) result |= KEY_M_ALT; if (cursor_info.key_mods & 0x02) result |= KEY_M_CTRL; if (cursor_info.key_mods & 0x01) result |= KEY_M_SHIFT; } #endif /* __QNXNTO__ */ #if defined __linux__ || (defined __CYGWIN__ && defined TIOCLINUX) { unsigned char modifiers = 6; if (ioctl (0, TIOCLINUX, &modifiers) < 0) return 0; /* Translate Linux modifiers into mc modifiers */ if (modifiers & SHIFT_PRESSED) result |= KEY_M_SHIFT; if (modifiers & (ALTL_PRESSED | ALTR_PRESSED)) result |= KEY_M_ALT; if (modifiers & CONTROL_PRESSED) result |= KEY_M_CTRL; } #endif /* !__linux__ */ return result; } /* --------------------------------------------------------------------------------------------- */ static gboolean push_char (int c) { gboolean ret = FALSE; if (seq_append == NULL) seq_append = seq_buffer; if (seq_append != &(seq_buffer[SEQ_BUFFER_LEN - 2])) { *(seq_append++) = c; *seq_append = 0; ret = TRUE; } return ret; } /* --------------------------------------------------------------------------------------------- */ /* Apply corrections for the keycode generated in get_key_code() */ static int correct_key_code (int code) { unsigned int c = code & ~KEY_M_MASK; /* code without modifier */ unsigned int mod = code & KEY_M_MASK; /* modifier */ #ifdef __QNXNTO__ unsigned int qmod; /* bunch of the QNX console modifiers needs unchanged */ #endif /* __QNXNTO__ */ /* * Add key modifiers directly from X11 or OS. * Ordinary characters only get modifiers from sequences. */ if (c < 32 || c >= 256) { mod |= get_modifier (); } /* This is needed if the newline is reported as carriage return */ if (c == '\r') c = '\n'; /* This is reported to be useful on AIX */ if (c == KEY_SCANCEL) c = '\t'; /* Convert Back Tab to Shift+Tab */ if (c == KEY_BTAB) { c = '\t'; mod = KEY_M_SHIFT; } /* F0 is the same as F10 for out purposes */ if (c == KEY_F (0)) c = KEY_F (10); /* * We are not interested if Ctrl was pressed when entering control * characters, so assume that it was. When checking for such keys, * XCTRL macro should be used. In some cases, we are interested, * e.g. to distinguish Ctrl-Enter from Enter. */ if (c == '\b') { /* Special case for backspase ('\b' < 32) */ c = KEY_BACKSPACE; mod &= ~KEY_M_CTRL; } else if (c < 32 && c != ESC_CHAR && c != '\t' && c != '\n') { mod |= KEY_M_CTRL; } #ifdef __QNXNTO__ qmod = get_modifier (); if ((c == 127) && (mod == 0)) { /* Add Ctrl/Alt/Shift-BackSpace */ mod |= get_modifier (); c = KEY_BACKSPACE; } if ((c == '0') && (mod == 0)) { /* Add Shift-Insert on key pad */ if ((qmod & KEY_M_SHIFT) == KEY_M_SHIFT) { mod = KEY_M_SHIFT; c = KEY_IC; } } if ((c == '.') && (mod == 0)) { /* Add Shift-Del on key pad */ if ((qmod & KEY_M_SHIFT) == KEY_M_SHIFT) { mod = KEY_M_SHIFT; c = KEY_DC; } } #endif /* __QNXNTO__ */ /* Unrecognized 0177 is delete (preserve Ctrl) */ if (c == 0177) { c = KEY_BACKSPACE; } #if 0 /* Unrecognized Ctrl-d is delete */ if (c == (31 & 'd')) { c = KEY_DC; mod &= ~KEY_M_CTRL; } /* Unrecognized Ctrl-h is backspace */ if (c == (31 & 'h')) { c = KEY_BACKSPACE; mod &= ~KEY_M_CTRL; } #endif /* Shift+BackSpace is backspace */ if (c == KEY_BACKSPACE && (mod & KEY_M_SHIFT)) { mod &= ~KEY_M_SHIFT; } /* Convert Shift+Fn to F(n+10) */ if (c >= KEY_F (1) && c <= KEY_F (10) && (mod & KEY_M_SHIFT)) { c += 10; } /* Remove Shift information from function keys */ if (c >= KEY_F (1) && c <= KEY_F (20)) { mod &= ~KEY_M_SHIFT; } if (!mc_global.tty.alternate_plus_minus) switch (c) { case KEY_KP_ADD: c = '+'; break; case KEY_KP_SUBTRACT: c = '-'; break; case KEY_KP_MULTIPLY: c = '*'; break; default: break; } return (mod | c); } /* --------------------------------------------------------------------------------------------- */ static int getch_with_timeout (unsigned int delay_us) { fd_set Read_FD_Set; int c; struct timeval time_out; time_out.tv_sec = delay_us / 1000000u; time_out.tv_usec = delay_us % 1000000u; tty_nodelay (TRUE); FD_ZERO (&Read_FD_Set); FD_SET (input_fd, &Read_FD_Set); select (input_fd + 1, &Read_FD_Set, NULL, NULL, &time_out); c = tty_lowlevel_getch (); tty_nodelay (FALSE); return c; } /* --------------------------------------------------------------------------------------------- */ static void learn_store_key (char *buffer, char **p, int c) { if (*p - buffer > 253) return; if (c == ESC_CHAR) { *(*p)++ = '\\'; *(*p)++ = 'e'; } else if (c < ' ') { *(*p)++ = '^'; *(*p)++ = c + 'a' - 1; } else if (c == '^') { *(*p)++ = '^'; *(*p)++ = '^'; } else *(*p)++ = (char) c; } /* --------------------------------------------------------------------------------------------- */ static void k_dispose (key_def * k) { if (k != NULL) { k_dispose (k->child); k_dispose (k->next); g_free (k); } } /* --------------------------------------------------------------------------------------------- */ static void s_dispose (SelectList * sel) { if (sel != NULL) { s_dispose (sel->next); g_free (sel); } } /* --------------------------------------------------------------------------------------------- */ static int key_code_comparator_by_name (const void *p1, const void *p2) { const key_code_name_t *n1 = *(const key_code_name_t **) p1; const key_code_name_t *n2 = *(const key_code_name_t **) p2; return g_ascii_strcasecmp (n1->name, n2->name); } /* --------------------------------------------------------------------------------------------- */ static int key_code_comparator_by_code (const void *p1, const void *p2) { const key_code_name_t *n1 = *(const key_code_name_t **) p1; const key_code_name_t *n2 = *(const key_code_name_t **) p2; return n1->code - n2->code; } /* --------------------------------------------------------------------------------------------- */ static inline void sort_key_conv_tab (enum KeySortType type_sort) { if (has_been_sorted != type_sort) { size_t i; for (i = 0; i < key_conv_tab_size; i++) key_conv_tab_sorted[i] = &key_name_conv_tab[i]; if (type_sort == KEY_SORTBYNAME) { qsort (key_conv_tab_sorted, key_conv_tab_size, sizeof (key_conv_tab_sorted[0]), &key_code_comparator_by_name); } else if (type_sort == KEY_SORTBYCODE) { qsort (key_conv_tab_sorted, key_conv_tab_size, sizeof (key_conv_tab_sorted[0]), &key_code_comparator_by_code); } has_been_sorted = type_sort; } } /* --------------------------------------------------------------------------------------------- */ static int lookup_keyname (const char *name, int *idx) { if (name[0] != '\0') { const key_code_name_t key = { 0, name, NULL, NULL }; const key_code_name_t *keyp = &key; key_code_name_t **res; if (name[1] == '\0') { *idx = -1; return (int) name[0]; } sort_key_conv_tab (KEY_SORTBYNAME); res = bsearch (&keyp, key_conv_tab_sorted, key_conv_tab_size, sizeof (key_conv_tab_sorted[0]), key_code_comparator_by_name); if (res != NULL) { *idx = (int) (res - (key_code_name_t **) key_conv_tab_sorted); return (*res)->code; } } *idx = -1; return 0; } /* --------------------------------------------------------------------------------------------- */ static gboolean lookup_keycode (const long code, int *idx) { if (code != 0) { const key_code_name_t key = { code, NULL, NULL, NULL }; const key_code_name_t *keyp = &key; key_code_name_t **res; sort_key_conv_tab (KEY_SORTBYCODE); res = bsearch (&keyp, key_conv_tab_sorted, key_conv_tab_size, sizeof (key_conv_tab_sorted[0]), key_code_comparator_by_code); if (res != NULL) { *idx = (int) (res - (key_code_name_t **) key_conv_tab_sorted); return TRUE; } } *idx = -1; return FALSE; } /* --------------------------------------------------------------------------------------------- */ /*** public functions ****************************************************************************/ /* --------------------------------------------------------------------------------------------- */ /* This has to be called before init_slang or whatever routine calls any define_sequence */ void init_key (void) { const char *term = getenv ("TERM"); /* This has to be the first define_sequence */ /* So, we can assume that the first keys member has ESC */ define_sequences (mc_default_keys); /* Terminfo on irix does not have some keys */ if (mc_global.tty.xterm_flag || (term != NULL && (strncmp (term, "iris-ansi", 9) == 0 || strncmp (term, "xterm", 5) == 0 || strncmp (term, "rxvt", 4) == 0 || strncmp (term, "screen", 6) == 0))) define_sequences (xterm_key_defines); /* load some additional keys (e.g. direct Alt-? support) */ load_xtra_key_defines (); #ifdef __QNX__ if ((term != NULL) && (strncmp (term, "qnx", 3) == 0)) { /* Modify the default value of use_8th_bit_as_meta: we would * like to provide a working mc for a newbie who knows nothing * about [Options|Display bits|Full 8 bits input]... * * Don't use 'meta'-bit, when we are dealing with a * 'qnx*'-type terminal: clear the default value! * These terminal types use 0xFF as an escape character, * so use_8th_bit_as_meta==1 must not be enabled! * * [mc-4.1.21+,slint.c/getch(): the DEC_8BIT_HACK stuff * is not used now (doesn't even depend on use_8th_bit_as_meta * as in mc-3.1.2)...GREAT!...no additional code is required!] */ use_8th_bit_as_meta = 0; } #endif /* __QNX__ */ #ifdef HAVE_TEXTMODE_X11_SUPPORT init_key_x11 (); #endif /* Load the qansi-m key definitions if we are running under the qansi-m terminal */ if (term != NULL && (strncmp (term, "qansi-m", 7) == 0)) define_sequences (qansi_key_defines); } /* --------------------------------------------------------------------------------------------- */ /** * This has to be called after SLang_init_tty/slint_init */ void init_key_input_fd (void) { #ifdef HAVE_SLANG input_fd = SLang_TT_Read_FD; #endif } /* --------------------------------------------------------------------------------------------- */ void done_key (void) { k_dispose (keys); s_dispose (select_list); #ifdef HAVE_TEXTMODE_X11_SUPPORT if (x11_display) mc_XCloseDisplay (x11_display); #endif } /* --------------------------------------------------------------------------------------------- */ void add_select_channel (int fd, select_fn callback, void *info) { SelectList *new; new = g_new (SelectList, 1); new->fd = fd; new->callback = callback; new->info = info; new->next = select_list; select_list = new; } /* --------------------------------------------------------------------------------------------- */ void delete_select_channel (int fd) { SelectList *p = select_list; SelectList *p_prev = NULL; SelectList *p_next; while (p != NULL) if (p->fd == fd) { p_next = p->next; if (p_prev != NULL) p_prev->next = p_next; else select_list = p_next; g_free (p); p = p_next; } else { p_prev = p; p = p->next; } } /* --------------------------------------------------------------------------------------------- */ void channels_up (void) { if (disabled_channels == 0) fputs ("Error: channels_up called with disabled_channels = 0\n", stderr); disabled_channels--; } /* --------------------------------------------------------------------------------------------- */ void channels_down (void) { disabled_channels++; } /* --------------------------------------------------------------------------------------------- */ /** * Return the code associated with the symbolic name keyname */ long lookup_key (const char *name, char **label) { char **lc_keys, **p; int k = -1; int key = 0; int lc_index = -1; int use_meta = -1; int use_ctrl = -1; int use_shift = -1; if (name == NULL) return 0; name = g_strstrip (g_strdup (name)); lc_keys = g_strsplit_set (name, "-+ ", -1); g_free ((char *) name); for (p = lc_keys; p != NULL && *p != NULL; p++) { if ((*p)[0] != '\0') { int idx; key = lookup_keyname (g_strstrip (*p), &idx); if (key == KEY_M_ALT) use_meta = idx; else if (key == KEY_M_CTRL) use_ctrl = idx; else if (key == KEY_M_SHIFT) use_shift = idx; else { k = key; lc_index = idx; break; } } } g_strfreev (lc_keys); /* output */ if (k <= 0) return 0; if (label != NULL) { GString *s; s = g_string_new (""); if (use_meta != -1) { g_string_append (s, key_conv_tab_sorted[use_meta]->shortcut); g_string_append_c (s, '-'); } if (use_ctrl != -1) { g_string_append (s, key_conv_tab_sorted[use_ctrl]->shortcut); g_string_append_c (s, '-'); } if (use_shift != -1) { if (k < 127) g_string_append_c (s, (gchar) g_ascii_toupper ((gchar) k)); else { g_string_append (s, key_conv_tab_sorted[use_shift]->shortcut); g_string_append_c (s, '-'); g_string_append (s, key_conv_tab_sorted[lc_index]->shortcut); } } else if (k < 128) { if ((k >= 'A') || (lc_index < 0) || (key_conv_tab_sorted[lc_index]->shortcut == NULL)) g_string_append_c (s, (gchar) g_ascii_tolower ((gchar) k)); else g_string_append (s, key_conv_tab_sorted[lc_index]->shortcut); } else if ((lc_index != -1) && (key_conv_tab_sorted[lc_index]->shortcut != NULL)) g_string_append (s, key_conv_tab_sorted[lc_index]->shortcut); else g_string_append_c (s, (gchar) g_ascii_tolower ((gchar) key)); *label = g_string_free (s, FALSE); } if (use_shift != -1) { if (k < 127 && k > 31) k = g_ascii_toupper ((gchar) k); else k |= KEY_M_SHIFT; } if (use_ctrl != -1) { if (k < 256) k = XCTRL (k); else k |= KEY_M_CTRL; } if (use_meta != -1) k = ALT (k); return (long) k; } /* --------------------------------------------------------------------------------------------- */ char * lookup_key_by_code (const int keycode) { /* code without modifier */ unsigned int k = keycode & ~KEY_M_MASK; /* modifier */ unsigned int mod = keycode & KEY_M_MASK; int key_idx = -1; GString *s; int idx; s = g_string_sized_new (8); if (lookup_keycode (k, &key_idx) || (k > 0 && k < 256)) { if (mod & KEY_M_ALT) { if (lookup_keycode (KEY_M_ALT, &idx)) { g_string_append (s, key_conv_tab_sorted[idx]->name); g_string_append_c (s, '-'); } } if (mod & KEY_M_CTRL) { /* non printeble chars like a CTRL-[A..Z] */ if (k < 32) k += 64; if (lookup_keycode (KEY_M_CTRL, &idx)) { g_string_append (s, key_conv_tab_sorted[idx]->name); g_string_append_c (s, '-'); } } if (mod & KEY_M_SHIFT) { if (lookup_keycode (KEY_M_ALT, &idx)) { if (k < 127) g_string_append_c (s, (gchar) g_ascii_toupper ((gchar) k)); else { g_string_append (s, key_conv_tab_sorted[idx]->name); g_string_append_c (s, '-'); g_string_append (s, key_conv_tab_sorted[key_idx]->name); } } } else if (k < 128) { if ((k >= 'A') || (key_idx < 0) || (key_conv_tab_sorted[key_idx]->name == NULL)) g_string_append_c (s, (gchar) k); else g_string_append (s, key_conv_tab_sorted[key_idx]->name); } else if ((key_idx != -1) && (key_conv_tab_sorted[key_idx]->name != NULL)) g_string_append (s, key_conv_tab_sorted[key_idx]->name); else g_string_append_c (s, (gchar) keycode); } return g_string_free (s, s->len == 0); } /* --------------------------------------------------------------------------------------------- */ /** * Return TRUE on success, FALSE on error. * An error happens if SEQ is a beginning of an existing longer sequence. */ gboolean define_sequence (int code, const char *seq, int action) { key_def *base; if (strlen (seq) > SEQ_BUFFER_LEN - 1) return FALSE; for (base = keys; (base != NULL) && (*seq != '\0');) if (*seq == base->ch) { if (base->child == 0) { if (*(seq + 1) != '\0') base->child = create_sequence (seq + 1, code, action); else { /* The sequence matches an existing one. */ base->code = code; base->action = action; } return TRUE; } base = base->child; seq++; } else { if (base->next) base = base->next; else { base->next = create_sequence (seq, code, action); return TRUE; } } if (*seq == '\0') { /* Attempt to redefine a sequence with a shorter sequence. */ return FALSE; } keys = create_sequence (seq, code, action); return TRUE; } /* --------------------------------------------------------------------------------------------- */ /** * Check if we are idle, i.e. there are no pending keyboard or mouse * events. Return 1 is idle, 0 is there are pending events. */ gboolean is_idle (void) { int nfd; fd_set select_set; struct timeval time_out; FD_ZERO (&select_set); FD_SET (input_fd, &select_set); nfd = max (0, input_fd) + 1; time_out.tv_sec = 0; time_out.tv_usec = 0; #ifdef HAVE_LIBGPM if (mouse_enabled && use_mouse_p == MOUSE_GPM) { if (gpm_fd >= 0) { FD_SET (gpm_fd, &select_set); nfd = max (nfd, gpm_fd + 1); } else { if (mouse_fd >= 0) /* error indicative */ { if (FD_ISSET (mouse_fd, &select_set)) FD_CLR (mouse_fd, &select_set); mouse_fd = gpm_fd; } /* gpm_fd == -2 means under some X terminal */ if (gpm_fd == -1) { mouse_enabled = FALSE; use_mouse_p = MOUSE_NONE; } } } #endif return (select (nfd, &select_set, 0, 0, &time_out) <= 0); } /* --------------------------------------------------------------------------------------------- */ int get_key_code (int no_delay) { int c; static key_def *this = NULL, *parent; static struct timeval esctime = { -1, -1 }; static int lastnodelay = -1; if (no_delay != lastnodelay) { this = NULL; lastnodelay = no_delay; } pend_send: if (pending_keys != NULL) { int d; gboolean bad_seq; d = *pending_keys++; while (d == ESC_CHAR) d = ALT (*pending_keys++); bad_seq = (*pending_keys != ESC_CHAR && *pending_keys != 0); if (*pending_keys == '\0' || bad_seq) pending_keys = seq_append = NULL; if (bad_seq) { /* This is an unknown ESC sequence. * To prevent interpreting its tail as a random garbage, * eat and discard all buffered and quickly following chars. * Small, but non-zero timeout is needed to reconnect * escape sequence split up by e.g. a serial line. */ int paranoia = 20; while (getch_with_timeout (old_esc_mode_timeout) >= 0 && --paranoia != 0) ; goto nodelay_try_again; } if (d > 127 && d < 256 && use_8th_bit_as_meta) d = ALT (d & 0x7f); this = NULL; return correct_key_code (d); } nodelay_try_again: if (no_delay) tty_nodelay (TRUE); c = tty_lowlevel_getch (); #if (defined(USE_NCURSES) || defined(USE_NCURSESW)) && defined(KEY_RESIZE) if (c == KEY_RESIZE) goto nodelay_try_again; #endif if (no_delay) { tty_nodelay (FALSE); if (c == -1) { if (this != NULL && parent != NULL && parent->action == MCKEY_ESCAPE && old_esc_mode) { struct timeval current, time_out; if (esctime.tv_sec == -1) return -1; GET_TIME (current); time_out.tv_sec = old_esc_mode_timeout / 1000000 + esctime.tv_sec; time_out.tv_usec = old_esc_mode_timeout % 1000000 + esctime.tv_usec; if (time_out.tv_usec > 1000000) { time_out.tv_usec -= 1000000; time_out.tv_sec++; } if (current.tv_sec < time_out.tv_sec) return -1; if (current.tv_sec == time_out.tv_sec && current.tv_usec < time_out.tv_usec) return -1; this = NULL; pending_keys = seq_append = NULL; return ESC_CHAR; } return -1; } } else if (c == -1) { /* Maybe we got an incomplete match. This we do only in delay mode, since otherwise tty_lowlevel_getch can return -1 at any time. */ if (seq_append != NULL) { pending_keys = seq_buffer; goto pend_send; } this = NULL; return -1; } /* Search the key on the root */ if (!no_delay || this == NULL) { this = keys; parent = NULL; if ((c > 127 && c < 256) && use_8th_bit_as_meta) { c &= 0x7f; /* The first sequence defined starts with esc */ parent = keys; this = keys->child; } } while (this != NULL) { if (c == this->ch) { if (this->child == NULL) { /* We got a complete match, return and reset search */ int code; pending_keys = seq_append = NULL; code = this->code; this = NULL; return correct_key_code (code); } /* No match yet, but it may be a prefix for a valid seq */ if (!push_char (c)) { pending_keys = seq_buffer; goto pend_send; } parent = this; this = this->child; if (parent->action == MCKEY_ESCAPE && old_esc_mode) { if (no_delay) { GET_TIME (esctime); goto nodelay_try_again; } esctime.tv_sec = -1; c = getch_with_timeout (old_esc_mode_timeout); if (c == -1) { pending_keys = seq_append = NULL; this = NULL; return ESC_CHAR; } continue; } if (no_delay) goto nodelay_try_again; c = tty_lowlevel_getch (); continue; } /* c != this->ch. Try other keys with this prefix */ if (this->next != NULL) { this = this->next; continue; } /* No match found. Is it one of our ESC specials? */ if ((parent != NULL) && (parent->action == MCKEY_ESCAPE)) { /* Convert escape-digits to F-keys */ if (g_ascii_isdigit (c)) c = KEY_F (c - '0'); else if (c == ' ') c = ESC_CHAR; else c = ALT (c); pending_keys = seq_append = NULL; this = NULL; return correct_key_code (c); } /* Unknown sequence. Maybe a prefix of a longer one. Save it. */ push_char (c); pending_keys = seq_buffer; goto pend_send; } /* while (this != NULL) */ this = NULL; return correct_key_code (c); } /* --------------------------------------------------------------------------------------------- */ /* Returns a character read from stdin with appropriate interpretation */ /* Also takes care of generated mouse events */ /* Returns EV_MOUSE if it is a mouse event */ /* Returns EV_NONE if non-blocking or interrupt set and nothing was done */ int tty_get_event (struct Gpm_Event *event, gboolean redo_event, gboolean block) { int c; int flag = 0; /* Return value from select */ #ifdef HAVE_LIBGPM static struct Gpm_Event ev; /* Mouse event */ #endif struct timeval time_out; struct timeval *time_addr = NULL; static int dirty = 3; if ((dirty == 3) || is_idle ()) { mc_refresh (); dirty = 1; } else dirty++; vfs_timeout_handler (); /* Ok, we use (event->x < 0) to signal that the event does not contain a suitable position for the mouse, so we can't use show_mouse_pointer on it. */ if (event->x > 0) { show_mouse_pointer (event->x, event->y); if (!redo_event) event->x = -1; } /* Repeat if using mouse */ while (pending_keys == NULL) { int nfd; fd_set select_set; FD_ZERO (&select_set); FD_SET (input_fd, &select_set); nfd = max (add_selects (&select_set), max (0, input_fd)) + 1; #ifdef HAVE_LIBGPM if (mouse_enabled && (use_mouse_p == MOUSE_GPM)) { if (gpm_fd >= 0) { FD_SET (gpm_fd, &select_set); nfd = max (nfd, gpm_fd + 1); } else { if (mouse_fd >= 0) /* error indicative */ { if (FD_ISSET (mouse_fd, &select_set)) FD_CLR (mouse_fd, &select_set); mouse_fd = gpm_fd; } /* gpm_fd == -2 means under some X terminal */ if (gpm_fd == -1) { mouse_enabled = FALSE; use_mouse_p = MOUSE_NONE; } break; } } #endif if (redo_event) { time_out.tv_usec = mou_auto_repeat * 1000; time_out.tv_sec = 0; time_addr = &time_out; } else { int seconds; seconds = vfs_timeouts (); time_addr = NULL; if (seconds != 0) { /* the timeout could be improved and actually be * the number of seconds until the next vfs entry * timeouts in the stamp list. */ time_out.tv_sec = seconds; time_out.tv_usec = 0; time_addr = &time_out; } } if (!block || mc_global.tty.winch_flag != 0) { time_addr = &time_out; time_out.tv_sec = 0; time_out.tv_usec = 0; } tty_enable_interrupt_key (); flag = select (nfd, &select_set, NULL, NULL, time_addr); tty_disable_interrupt_key (); /* select timed out: it could be for any of the following reasons: * redo_event -> it was because of the MOU_REPEAT handler * !block -> we did not block in the select call * else -> 10 second timeout to check the vfs status. */ if (flag == 0) { if (redo_event) return EV_MOUSE; if (!block || mc_global.tty.winch_flag != 0) return EV_NONE; vfs_timeout_handler (); } if (flag == -1 && errno == EINTR) return EV_NONE; check_selects (&select_set); if (FD_ISSET (input_fd, &select_set)) break; #ifdef HAVE_LIBGPM if (mouse_enabled && use_mouse_p == MOUSE_GPM) { if (gpm_fd >= 0) { if (FD_ISSET (gpm_fd, &select_set)) { int status; status = Gpm_GetEvent (&ev); if (status == 1) /* success */ { Gpm_FitEvent (&ev); *event = ev; return EV_MOUSE; } else if (status == 0) /* connection closed; -1 == error */ { if (mouse_fd >= 0 && FD_ISSET (mouse_fd, &select_set)) FD_CLR (mouse_fd, &select_set); /* Try to reopen gpm_mouse connection */ disable_mouse (); enable_mouse (); } } } else { if (mouse_fd >= 0) /* error indicative */ { if (FD_ISSET (mouse_fd, &select_set)) FD_CLR (mouse_fd, &select_set); mouse_fd = gpm_fd; } /* gpm_fd == -2 means under some X terminal */ if (gpm_fd == -1) { mouse_enabled = FALSE; use_mouse_p = MOUSE_NONE; } break; } } #endif /* !HAVE_LIBGPM */ } #ifndef HAVE_SLANG flag = is_wintouched (stdscr); untouchwin (stdscr); #endif /* !HAVE_SLANG */ c = block ? getch_with_delay () : get_key_code (1); #ifndef HAVE_SLANG if (flag > 0) tty_touch_screen (); #endif /* !HAVE_SLANG */ if (mouse_enabled && (c == MCKEY_MOUSE #ifdef KEY_MOUSE || c == KEY_MOUSE #endif /* KEY_MOUSE */ || c == MCKEY_EXTENDED_MOUSE)) { /* Mouse event */ xmouse_get_event (event, c == MCKEY_EXTENDED_MOUSE); c = (event->type != 0) ? EV_MOUSE : EV_NONE; } else if (c == MCKEY_BRACKETED_PASTING_START) { bracketed_pasting_in_progress = TRUE; c = EV_NONE; } else if (c == MCKEY_BRACKETED_PASTING_END) { bracketed_pasting_in_progress = FALSE; c = EV_NONE; } return c; } /* --------------------------------------------------------------------------------------------- */ /* Returns a key press, mouse events are discarded */ int tty_getch (void) { Gpm_Event ev; int key; ev.x = -1; while ((key = tty_get_event (&ev, FALSE, TRUE)) == EV_NONE); return key; } /* --------------------------------------------------------------------------------------------- */ char * learn_key (void) { /* LEARN_TIMEOUT in usec */ #define LEARN_TIMEOUT 200000 fd_set Read_FD_Set; struct timeval endtime; struct timeval time_out; int c; char buffer[256]; char *p = buffer; tty_keypad (FALSE); /* disable intepreting keys by ncurses */ c = tty_lowlevel_getch (); while (c == -1) c = tty_lowlevel_getch (); /* Sanity check, should be unnecessary */ learn_store_key (buffer, &p, c); GET_TIME (endtime); endtime.tv_usec += LEARN_TIMEOUT; if (endtime.tv_usec > 1000000) { endtime.tv_usec -= 1000000; endtime.tv_sec++; } tty_nodelay (TRUE); while (TRUE) { while ((c = tty_lowlevel_getch ()) == -1) { GET_TIME (time_out); time_out.tv_usec = endtime.tv_usec - time_out.tv_usec; if (time_out.tv_usec < 0) time_out.tv_sec++; time_out.tv_sec = endtime.tv_sec - time_out.tv_sec; if (time_out.tv_sec >= 0 && time_out.tv_usec > 0) { FD_ZERO (&Read_FD_Set); FD_SET (input_fd, &Read_FD_Set); select (input_fd + 1, &Read_FD_Set, NULL, NULL, &time_out); } else break; } if (c == -1) break; learn_store_key (buffer, &p, c); } tty_keypad (TRUE); tty_nodelay (FALSE); *p = '\0'; return g_strdup (buffer); #undef LEARN_TIMEOUT } /* --------------------------------------------------------------------------------------------- */ /* xterm and linux console only: set keypad to numeric or application mode. Only in application keypad mode it's possible to distinguish the '+' key and the '+' on the keypad ('*' and '-' ditto) */ void numeric_keypad_mode (void) { if (mc_global.tty.console_flag != '\0' || mc_global.tty.xterm_flag) { fputs (ESC_STR ">", stdout); fflush (stdout); } } /* --------------------------------------------------------------------------------------------- */ void application_keypad_mode (void) { if (mc_global.tty.console_flag != '\0' || mc_global.tty.xterm_flag) { fputs (ESC_STR "=", stdout); fflush (stdout); } } /* --------------------------------------------------------------------------------------------- */ void enable_bracketed_paste (void) { printf (ESC_STR "[?2004h"); fflush (stdout); } /* --------------------------------------------------------------------------------------------- */ void disable_bracketed_paste (void) { printf (ESC_STR "[?2004l"); fflush (stdout); bracketed_pasting_in_progress = FALSE; } /* --------------------------------------------------------------------------------------------- */