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## ## Perl Readline -- The Quick Help ## (see the manual for complete info) ## ## Once this package is included (require'd), you can then call ## $text = &readline'readline($input); ## to get lines of input from the user. ## ## Normally, it reads ~/.inputrc when loaded... to suppress this, set ## $readline'rl_NoInitFromFile = 1; ## before requiring the package. ## ## Call rl_bind to add your own key bindings, as in ## &readline'rl_bind('C-L', 'possible-completions'); ## ## Call rl_set to set mode variables yourself, as in ## &readline'rl_set('TcshCompleteMode', 'On'); ## ## To change the input mode (emacs or vi) use ~/.inputrc or call ## &readline::rl_set('EditingMode', 'vi'); ## or &readline::rl_set('EditingMode', 'emacs'); ## ## Call rl_basic_commands to set your own command completion, as in ## &readline'rl_basic_commands('print', 'list', 'quit', 'run', 'status'); ## ## # Wrap the code below (initially Perl4, now partially Perl4) into a fake # Perl5 pseudo-module; mismatch of package and file name is intentional # to make is harder to abuse this (very fragile) code... package readline; my $autoload_broken = 1; # currently: defined does not work with a-l my $useioctl = 1; my $usestty = 1; my $max_include_depth = 10; # follow $include's in init files this deep BEGIN { # Some old systems have ioctl "unsupported" *ioctl = sub ($$$) { eval { ioctl $_[0], $_[1], $_[2] } }; } ## ## BLURB: ## A pretty full-function package similar to GNU's readline. ## Includes support for EUC-encoded Japanese text. ## ## Written by Jeffrey Friedl, Omron Corporation (jfriedl@omron.co.jp) ## ## Comments, corrections welcome. ## ## Thanks to the people at FSF for readline (and the code I referenced ## while writing this), and for Roland Schemers whose line_edit.pl I used ## as an early basis for this. ## $VERSION = $VERSION = '1.0303'; ## - Changes from Slaven Rezic (slaven@rezic.de): ## * reverted the usage of $ENV{EDITOR} to set startup mode ## only ~/.inputrc or an explicit call to rl_set should ## be used to set startup mode ## # 1011109.011 - Changes from Russ Southern (russ@dvns.com): ## * Added $rl_vi_replace_default_on_insert # 1000510.010 - Changes from Joe Petolino (petolino@eng.sun.com), requested ## by Ilya: ## ## * Make it compatible with perl 5.003. ## * Rename getc() to getc_with_pending(). ## * Change unshift(@Pending) to push(@Pending). ## ## 991109.009 - Changes from Joe Petolino (petolino@eng.sun.com): ## Added vi mode. Also added a way to set the keymap default ## action for multi-character keymaps, so that a 2-character ## sequence (e.g. <esc>A) can be treated as two one-character ## commands (<esc>, then A) if the sequence is not explicitly ## mapped. ## ## Changed subs: ## ## * preinit(): Initialize new keymaps and other data structures. ## Use $ENV{EDITOR} to set startup mode. ## ## * init(): Sets the global *KeyMap, since &F_ReReadInitFile ## may have changed the key map. ## ## * InitKeymap(): $KeyMap{default} is now optional - don't ## set it if $_[1] eq ''; ## ## * actually_do_binding(): Set $KeyMap{default} for '\*' key; ## warning if double-defined. ## ## * rl_bind(): Implement \* to set the keymap default. Also fix ## some existing regex bugs that I happened to notice. ## ## * readline(): No longer takes input from $pending before ## calling &$rl_getc(); instead, it calls getc_with_pending(), ## which takes input from the new array @Pending ## before calling &$rl_getc(). Sets the global ## *KeyMap after do_command(), since do_command() ## may change the keymap now. Does some cursor ## manipulation after do_command() when at the end ## of the line in vi command mode, to match the ## behavior of vi. ## ## * rl_getc(): Added a my declaration for $key, which was ## apparently omitted by the author. rl_getc() is ## no longer called directly; instead, getc_with_pending() calls ## it only after exhausting any requeued characters ## in @Pending. @Pending is used to implement the ## vi '.' command, as well as the emacs DoSearch ## functionality. ## ## * do_command(): Now defaults the command to 'F_Ding' if ## $KeyMap{default} is undefined. This is part ## of the new \* feature. ## ## * savestate()/getstate(): Now use an anonymous array instead ## of packing the fields into a string. ## ## * F_AcceptLine(): Code moved to new sub add_line_to_history(), ## so that it may be called by F_SaveLine() ## as well as by F_AcceptLine(). ## ## * F_QuotedInsert(): Calls getc_with_pending() instead of &$rl_getc(). ## ## * F_UnixWordRubout(): Fixed bug: changed 'my' declaration of ## global $rl_basic_word_break_characters to 'local'. ## ## * DoSearch(): Calls getc_with_pending() instead of &$rl_getc(). Ungets ## character onto @Pending instead of $pending. ## ## * F_EmacsEditingMode(): Resets global $Vi_mode; ## ## * F_ToggleEditingMode(): Deleted. We use F_ViInput() and ## F_EmacsEditingMode() instead. ## ## * F_PrefixMeta(): Calls getc_with_pending() instead of &$rl_getc(). ## ## * F_DigitArgument(): Calls getc_with_pending() instead of &$rl_getc(). ## ## * F_Ding(): Returns undef, for testing by vi commands. ## ## * F_Complete(): Returns true if a completion was done, false ## otherwise, so vi completion routines can test it. ## ## * complete_internal(): Returns true if a completion was done, ## false otherwise, so vi completion routines can ## test it. Does a little cursor massaging in vi ## mode, to match the behavior of ksh vi mode. ## ## Disclaimer: the original code dates from the perl 4 days, and ## isn't very pretty by today's standards (for example, ## extensive use of typeglobs and localized globals). In the ## interests of not breaking anything, I've tried to preserve ## the old code as much as possible, and I've avoided making ## major stylistic changes. Since I'm not a regular emacs user, ## I haven't done much testing to see that all the emacs-mode ## features still work. ## ## 940817.008 - Added $var_CompleteAddsuffix. ## Now recognizes window-change signals (at least on BSD). ## Various typos and bug fixes. ## Changes from Chris Arthur (csa@halcyon.com): ## Added a few new keybindings. ## Various typos and bug fixes. ## Support for use from a dumb terminal. ## Pretty-printing of filename-completion matches. ## ## 930306.007 - Added rl_start_default_at_beginning. ## Added optional message arg to &redisplay. ## Added explicit numeric argument var to functions that use it. ## Redid many commands to simplify. ## Added TransposeChars, UpcaseWord, CapitalizeWord, DownCaseWord. ## Redid key binding specs to better match GNU.. added ## undocumented "new-style" bindings.... can now bind ## arrow keys and other arbitrairly long key sequences. ## Added if/else/then to .inputrc. ## ## 930305.006 - optional "default" added (from mmuegel@cssmp.corp.mot.com). ## ## 930211.005 - fixed strange problem with eval while keybinding ## ## ## Ilya: ## ## Added support for ReadKey, ## ## Added customization variable $minlength ## to denote minimal lenth of a string to be put into history buffer. ## ## Added support for a bug in debugger: preinit cannot be a subroutine ?!!! ## (See immendiately below) ## ## Added support for WINCH hooks. The subroutine references should be put into ## @winchhooks. ## ## Added F_ToggleInsertMode, F_HistorySearchBackward, ## F_HistorySearchForward, PC keyboard bindings. ## 0.93: Updates to Operate, couple of keybindings added. ## $rl_completer_terminator_character, $rl_correct_sw added. ## Reload-init-file moved to C-x C-x. ## C-x ? and C-x * list/insert possible completions. $rl_getc = \&rl_getc; &preinit; &init; # # # # use strict 'vars'; # # # # # Separation into my and vars needs some thought... # # # # use vars qw(@KeyMap %KeyMap $rl_screen_width $rl_start_default_at_beginning # # # # $rl_completion_function $rl_basic_word_break_characters # # # # $rl_completer_word_break_characters $rl_special_prefixes # # # # $rl_readline_name @rl_History $rl_MaxHistorySize # # # # $rl_max_numeric_arg $rl_OperateCount # # # # $KillBuffer $dumb_term $stdin_not_tty $InsertMode # # # # $rl_NoInitFromFile); # # # # my ($InputLocMsg, $term_OUT, $term_IN); # # # # my ($winsz_t, $TIOCGWINSZ, $winsz, $rl_margin, $hooj, $force_redraw); # # # # my ($hook, %var_HorizontalScrollMode, %var_EditingMode, %var_OutputMeta); # # # # my ($var_HorizontalScrollMode, $var_EditingMode, $var_OutputMeta); # # # # my (%var_ConvertMeta, $var_ConvertMeta, %var_MarkModifiedLines, $var_MarkModifiedLines); # # # # my ($term_readkey, $inDOS); # # # # my (%var_PreferVisibleBell, $var_PreferVisibleBell); # # # # my (%var_TcshCompleteMode, $var_TcshCompleteMode); # # # # my (%var_CompleteAddsuffix, $var_CompleteAddsuffix); # # # # my ($minlength, @winchhooks); # # # # my ($BRKINT, $ECHO, $FIONREAD, $ICANON, $ICRNL, $IGNBRK, $IGNCR, $INLCR, # # # # $ISIG, $ISTRIP, $NCCS, $OPOST, $RAW, $TCGETS, $TCOON, $TCSETS, $TCXONC, # # # # $TERMIOS_CFLAG, $TERMIOS_IFLAG, $TERMIOS_LFLAG, $TERMIOS_NORMAL_IOFF, # # # # $TERMIOS_NORMAL_ION, $TERMIOS_NORMAL_LOFF, $TERMIOS_NORMAL_LON, # # # # $TERMIOS_NORMAL_OOFF, $TERMIOS_NORMAL_OON, $TERMIOS_OFLAG, # # # # $TERMIOS_READLINE_IOFF, $TERMIOS_READLINE_ION, $TERMIOS_READLINE_LOFF, # # # # $TERMIOS_READLINE_LON, $TERMIOS_READLINE_OOFF, $TERMIOS_READLINE_OON, # # # # $TERMIOS_VMIN, $TERMIOS_VTIME, $TIOCGETP, $TIOCGWINSZ, $TIOCSETP, # # # # $fion, $fionread_t, $mode, $sgttyb_t, # # # # $termios, $termios_t, $winsz, $winsz_t); # # # # my ($line, $initialized, $term_readkey); # # # # # Global variables added for vi mode (I'm leaving them all commented # # # # # out, like the declarations above, until SelfLoader issues # # # # # are resolved). # # # # # True when we're in one of the vi modes. # # # # my $Vi_mode; # # # # # Array refs: saves keystrokes for '.' command. Undefined when we're # # # # # not doing a '.'-able command. # # # # my $Dot_buf; # Working buffer # # # # my $Last_vi_command; # Gets $Dot_buf when a command is parsed # # # # # These hold state for vi 'u' and 'U'. # # # # my($Dot_state, $Vi_undo_state, $Vi_undo_all_state); # # # # # Refs to hashes used for cursor movement # # # # my($Vi_delete_patterns, $Vi_move_patterns, # # # # $Vi_change_patterns, $Vi_yank_patterns); # # # # # Array ref: holds parameters from the last [fFtT] command, for ';' # # # # # and ','. # # # # my $Last_findchar; # # # # # Globals for history search commands (/, ?, n, N) # # # # my $Vi_search_re; # Regular expression (compiled by qr{}) # # # # my $Vi_search_reverse; # True for '?' search, false for '/' ## ## What's Cool ## ---------------------------------------------------------------------- ## * hey, it's in perl. ## * Pretty full GNU readline like library... ## * support for ~/.inputrc ## * horizontal scrolling ## * command/file completion ## * rebinding ## * history (with search) ## * undo ## * numeric prefixes ## * supports multi-byte characters (at least for the Japanese I use). ## * Has a tcsh-like completion-function mode. ## call &readline'rl_set('tcsh-complete-mode', 'On') to turn on. ## ## ## What's not Cool ## ---------------------------------------------------------------------- ## Can you say HUGE? ## I can't spell, so comments riddled with misspellings. ## Written by someone that has never really used readline. ## History mechanism is slightly different than GNU... may get fixed ## someday, but I like it as it is now... ## Killbuffer not a ring.. just one level. ## Obviously not well tested yet. ## Written by someone that doesn't have a bell on his terminal, so ## proper readline use of the bell may not be here. ## ## ## Functions beginning with F_ are functions that are mapped to keys. ## Variables and functions beginning rl_ may be accessed/set/called/read ## from outside the package. Other things are internal. ## ## Some notable internal-only variables of global proportions: ## $prompt -- line prompt (passed from user) ## $line -- the line being input ## $D -- ``Dot'' -- index into $line of the cursor's location. ## $InsertMode -- usually true. False means overwrite mode. ## $InputLocMsg -- string for error messages, such as "[~/.inputrc line 2]" ## *emacs_keymap -- keymap for emacs-mode bindings: ## @emacs_keymap - bindings indexed by ASCII ordinal ## $emacs_keymap{'name'} = "emacs_keymap" ## $emacs_keymap{'default'} = "SelfInsert" (default binding) ## *vi_keymap -- keymap for vi input mode bindings ## *vicmd_keymap -- keymap for vi command mode bindings ## *vipos_keymap -- keymap for vi positioning command bindings ## *visearch_keymap -- keymap for vi search pattern input mode bindings ## *KeyMap -- current keymap in effect. ## $LastCommandKilledText -- needed so that subsequent kills accumulate ## $lastcommand -- name of command previously run ## $lastredisplay -- text placed upon screen during previous &redisplay ## $si -- ``screen index''; index into $line of leftmost char &redisplay'ed ## $force_redraw -- if set to true, causes &redisplay to be verbose. ## $AcceptLine -- when set, its value is returned from &readline. ## $ReturnEOF -- unless this also set, in which case undef is returned. ## @Pending -- characters to be used as input. ## @undo -- array holding all states of current line, for undoing. ## $KillBuffer -- top of kill ring (well, don't have a kill ring yet) ## @tcsh_complete_selections -- for tcsh mode, possible selections ## ## Some internal variables modified by &rl_set (see comment at &rl_set for ## info about how these set'able variables work) ## $var_EditingMode -- a keymap typeglob like *emacs_keymap or *vi_keymap ## $var_TcshCompleteMode -- if true, the completion function works like ## in tcsh. That is, the first time you try to complete something, ## the common prefix is completed for you. Subsequent completion tries ## (without other commands in between) cycles the command line through ## the various possibilities. If/when you get the one you want, just ## continue typing. ## Other $var_ things not supported yet. ## ## Some variables used internally, but may be accessed from outside... ## $VERSION -- just for good looks. ## $rl_readline_name = name of program -- for .initrc if/endif stuff. ## $rl_NoInitFromFile -- if defined when package is require'd, ~/.inputrc ## will not be read. ## @rl_History -- array of previous lines input ## $rl_HistoryIndex -- history pointer (for moving about history array) ## $rl_completion_function -- see "How Command Completion Works" (way) below. ## $rl_basic_word_break_characters -- string of characters that can cause ## a word break for forward-word, etc. ## $rl_start_default_at_beginning -- ## Normally, the user's cursor starts at the end of any default text ## passed to readline. If this variable is true, it starts at the ## beginning. ## $rl_completer_word_break_characters -- ## like $rl_basic_word_break_characters (and in fact defaults to it), ## but for the completion function. ## $rl_completer_terminator_character -- what to insert to separate ## a completed token from the rest. Reset at beginning of ## completion to ' ' so completion function can change it. ## $rl_special_prefixes -- characters that are part of this string as well ## as of $rl_completer_word_break_characters cause a word break for the ## completer function, but remain part of the word. An example: consider ## when the input might be perl code, and one wants to be able to ## complete on variable and function names, yet still have the '$', ## '&', '@',etc. part of the $text to be completed. Then set this var ## to '&@$%' and make sure each of these characters is in ## $rl_completer_word_break_characters as well.... ## $rl_MaxHistorySize -- maximum size that the history array may grow. ## $rl_screen_width -- width readline thinks it can use on the screen. ## $rl_correct_sw -- is substructed from the real width of the terminal ## $rl_margin -- scroll by moving to within this far from a margin. ## $rl_CLEAR -- what to output to clear the screen. ## $rl_max_numeric_arg -- maximum numeric arg allowed. ## $rl_vi_replace_default_on_insert ## Normally, the text you enter is added to any default text passed to ## readline. If this variable is true, default text will start out ## highlighted (if supported by your terminal) and text entered while the ## default is highlighted (during the _first_ insert mode only) will ## replace the entire default line. Once you have left insert mode (hit ## escape), everything works as normal. ## - This is similar to many GUI controls' behavior, which select the ## default text so that new text replaces the old. ## - Use with $rl_start_default_at_beginning for normal-looking behavior ## (though it works just fine without it). ## Notes/Bugs: ## - Control characters (like C-w) do not actually terminate this replace ## mode, for the same reason it does not work in emacs mode. ## - Spine-crawlingly scary subroutine redefinitions ## $rl_mark - start of the region ## $line_rl_mark - the line on which $rl_mark is active ## $_rl_japanese_mb - For character movement suppose Japanese (which?!) ## multi-byte encoding. (How to make a sane default?) ## sub get_window_size { my $sig = shift; local($., $@, $!, $^E, $?); # Preserve $! etc; the rest for hooks my ($num_cols,$num_rows); if (defined $term_readkey) { ($num_cols,$num_rows) = Term::ReadKey::GetTerminalSize($term_OUT); $rl_screen_width = $num_cols - $rl_correct_sw if defined($num_cols) && $num_cols; } elsif (defined $TIOCGWINSZ and &ioctl($term_IN,$TIOCGWINSZ,$winsz)) { ($num_rows,$num_cols) = unpack($winsz_t,$winsz); $rl_screen_width = $num_cols - $rl_correct_sw if defined($num_cols) && $num_cols; } $rl_margin = int($rl_screen_width/3); if (defined $sig) { $force_redraw = 1; &redisplay(); } for $hook (@winchhooks) { eval {&$hook()}; warn $@ if $@ and $^W; } local $^W = 0; # WINCH may be illegal... $SIG{'WINCH'} = "readline::get_window_size"; } # Fix: case-sensitivity of inputrc on/off keywords in # `set' commands. readline lib doesn't care about case. # changed case of keys 'On' and 'Off' to 'on' and 'off' # &rl_set changed so that it converts the value to # lower case before hash lookup. sub preinit { ## Set up the input and output handles $term_IN = \*STDIN unless defined $term_IN; $term_OUT = \*STDOUT unless defined $term_OUT; ## not yet supported... always on. $var_HorizontalScrollMode = 1; $var_HorizontalScrollMode{'On'} = 1; $var_HorizontalScrollMode{'Off'} = 0; $var_EditingMode{'emacs'} = *emacs_keymap; $var_EditingMode{'vi'} = *vi_keymap; $var_EditingMode{'vicmd'} = *vicmd_keymap; $var_EditingMode{'vipos'} = *vipos_keymap; $var_EditingMode{'visearch'} = *visearch_keymap; ## this is an addition. Very nice. $var_TcshCompleteMode = 0; $var_TcshCompleteMode{'On'} = 1; $var_TcshCompleteMode{'Off'} = 0; $var_CompleteAddsuffix = 1; $var_CompleteAddsuffix{'On'} = 1; $var_CompleteAddsuffix{'Off'} = 0; $var_DeleteSelection = $var_DeleteSelection{'On'} = 1; $var_DeleteSelection{'Off'} = 0; *rl_delete_selection = \$var_DeleteSelection; # Alias ## not yet supported... always on for ('InputMeta', 'OutputMeta') { ${"var_$_"} = 1; ${"var_$_"}{'Off'} = 0; ${"var_$_"}{'On'} = 1; } ## not yet supported... always off for ('ConvertMeta', 'MetaFlag', 'MarkModifiedLines', 'PreferVisibleBell', 'BlinkMatchingParen', 'VisibleStats', 'ShowAllIfAmbiguous', 'PrintCompletionsHorizontally', 'MarkDirectories', 'ExpandTilde', 'EnableKeypad', 'DisableCompletion', 'CompletionIgnoreCase') { ${"var_$_"} = 0; ${"var_$_"}{'Off'} = 0; ${"var_$_"}{'On'} = 1; } # To conform to interface $minlength = 1 unless defined $minlength; # WINCH hooks @winchhooks = (); $inDOS = $^O eq 'os2' || defined $ENV{OS2_SHELL} unless defined $inDOS; eval { require Term::ReadKey; $term_readkey++; } unless defined $ENV{PERL_RL_USE_TRK} and not $ENV{PERL_RL_USE_TRK}; unless ($term_readkey) { eval {require "ioctl.pl"}; ## try to get, don't die if not found. eval {require "sys/ioctl.ph"}; ## try to get, don't die if not found. eval {require "sgtty.ph"}; ## try to get, don't die if not found. if ($inDOS and !defined $TIOCGWINSZ) { $TIOCGWINSZ=0; $TIOCGETP=1; $TIOCSETP=2; $sgttyb_t="I5 C8"; $winsz_t=""; $RAW=0xf002; $ECHO=0x0008; } $TIOCGETP = &TIOCGETP if defined(&TIOCGETP); $TIOCSETP = &TIOCSETP if defined(&TIOCSETP); $TIOCGWINSZ = &TIOCGWINSZ if defined(&TIOCGWINSZ); $FIONREAD = &FIONREAD if defined(&FIONREAD); $TCGETS = &TCGETS if defined(&TCGETS); $TCSETS = &TCSETS if defined(&TCSETS); $TCXONC = &TCXONC if defined(&TCXONC); $TIOCGETP = 0x40067408 if !defined($TIOCGETP); $TIOCSETP = 0x80067409 if !defined($TIOCSETP); $TIOCGWINSZ = 0x40087468 if !defined($TIOCGWINSZ); $FIONREAD = 0x4004667f if !defined($FIONREAD); $TCGETS = 0x40245408 if !defined($TCGETS); $TCSETS = 0x80245409 if !defined($TCSETS); $TCXONC = 0x20005406 if !defined($TCXONC); ## TTY modes $ECHO = &ECHO if defined(&ECHO); $RAW = &RAW if defined(&RAW); $RAW = 040 if !defined($RAW); $ECHO = 010 if !defined($ECHO); #$CBREAK = 002 if !defined($CBREAK); $mode = $RAW; ## could choose CBREAK for testing.... $IGNBRK = 1 if !defined($IGNBRK); $BRKINT = 2 if !defined($BRKINT); $ISTRIP = 040 if !defined($ISTRIP); $INLCR = 0100 if !defined($INLCR); $IGNCR = 0200 if !defined($IGNCR); $ICRNL = 0400 if !defined($ICRNL); $OPOST = 1 if !defined($OPOST); $ISIG = 1 if !defined($ISIG); $ICANON = 2 if !defined($ICANON); $TCOON = 1 if !defined($TCOON); $TERMIOS_READLINE_ION = $BRKINT; $TERMIOS_READLINE_IOFF = $IGNBRK | $ISTRIP | $INLCR | $IGNCR | $ICRNL; $TERMIOS_READLINE_OON = 0; $TERMIOS_READLINE_OOFF = $OPOST; $TERMIOS_READLINE_LON = 0; $TERMIOS_READLINE_LOFF = $ISIG | $ICANON | $ECHO; $TERMIOS_NORMAL_ION = $BRKINT; $TERMIOS_NORMAL_IOFF = $IGNBRK; $TERMIOS_NORMAL_OON = $OPOST; $TERMIOS_NORMAL_OOFF = 0; $TERMIOS_NORMAL_LON = $ISIG | $ICANON | $ECHO; $TERMIOS_NORMAL_LOFF = 0; #$sgttyb_t = 'C4 S'; #$winsz_t = "S S S S"; # rows,cols, xpixel, ypixel $sgttyb_t = 'C4 S' if !defined($sgttyb_t); $winsz_t = "S S S S" if !defined($winsz_t); # rows,cols, xpixel, ypixel $winsz = pack($winsz_t,0,0,0,0); $fionread_t = "L"; $fion = pack($fionread_t, 0); $NCCS = 17; $termios_t = "LLLLc" . ("c" x $NCCS); # true for SunOS 4.1.3, at least... $termios = ''; ## just to shut up "perl -w". $termios = pack($termios, 0); # who cares, just make it long enough $TERMIOS_IFLAG = 0; $TERMIOS_OFLAG = 1; $TERMIOS_CFLAG = 2; $TERMIOS_LFLAG = 3; $TERMIOS_VMIN = 5 + 4; $TERMIOS_VTIME = 5 + 5; } $rl_delete_selection = 1; $rl_correct_sw = ($inDOS ? 1 : 0); $rl_scroll_nextline = 1 unless defined $rl_scroll_nextline; $rl_last_pos_can_backspace = ($inDOS ? 0 : 1) # Can backspace when the unless defined $rl_last_pos_can_backspace; # whole line is filled? $rl_start_default_at_beginning = 0; $rl_vi_replace_default_on_insert = 0; $rl_screen_width = 79; ## default $rl_completion_function = "rl_filename_list" unless defined($rl_completion_function); $rl_basic_word_break_characters = "\\\t\n' \"`\@\$><=;|&{("; $rl_completer_word_break_characters = $rl_basic_word_break_characters; $rl_special_prefixes = ''; ($rl_readline_name = $0) =~ s#.*[/\\]## if !defined($rl_readline_name); @rl_History=() if !(@rl_History); $rl_MaxHistorySize = 100 if !defined($rl_MaxHistorySize); $rl_max_numeric_arg = 200 if !defined($rl_max_numeric_arg); $rl_OperateCount = 0 if !defined($rl_OperateCount); $rl_term_set = \@Term::ReadLine::TermCap::rl_term_set; @$rl_term_set or $rl_term_set = ["","","",""]; $InsertMode=1; $KillBuffer=''; $line=''; $D = 0; $InputLocMsg = ' [initialization]'; &InitKeymap(*emacs_keymap, 'SelfInsert', 'emacs_keymap', ($inDOS ? () : ('C-@', 'SetMark') ), 'C-a', 'BeginningOfLine', 'C-b', 'BackwardChar', 'C-c', 'Interrupt', 'C-d', 'DeleteChar', 'C-e', 'EndOfLine', 'C-f', 'ForwardChar', 'C-g', 'Abort', 'M-C-g', 'Abort', 'C-h', 'BackwardDeleteChar', "TAB" , 'Complete', "C-j" , 'AcceptLine', 'C-k', 'KillLine', 'C-l', 'ClearScreen', "C-m" , 'AcceptLine', 'C-n', 'NextHistory', 'C-o', 'OperateAndGetNext', 'C-p', 'PreviousHistory', 'C-q', 'QuotedInsert', 'C-r', 'ReverseSearchHistory', 'C-s', 'ForwardSearchHistory', 'C-t', 'TransposeChars', 'C-u', 'UnixLineDiscard', ##'C-v', 'QuotedInsert', 'C-v', 'HistorySearchForward', 'C-w', 'UnixWordRubout', qq/"\cX\cX"/, 'ExchangePointAndMark', qq/"\cX\cR"/, 'ReReadInitFile', qq/"\cX?"/, 'PossibleCompletions', qq/"\cX*"/, 'InsertPossibleCompletions', qq/"\cX\cU"/, 'Undo', qq/"\cXu"/, 'Undo', qq/"\cX\cW"/, 'KillRegion', qq/"\cXw"/, 'CopyRegionAsKill', qq/"\cX\ec\\*"/, 'DoControlVersion', qq/"\cX\ec\0"/, 'SetMark', qq/"\cX\ec\@"/, 'SetMark', qq/"\cX\ec "/, 'SetMark', qq/"\cX\em\\*"/, 'DoMetaVersion', qq/"\cX\@c\\*"/, 'DoControlVersion', qq/"\cX\@c\0"/, 'SetMark', qq/"\cX\@c\@"/, 'SetMark', qq/"\cX\@c "/, 'SetMark', qq/"\cX\@m\\*"/, 'DoMetaVersion', 'C-y', 'Yank', 'C-z', 'Suspend', 'C-\\', 'Ding', 'C-^', 'Ding', 'C-_', 'Undo', 'DEL', ($inDOS ? 'BackwardKillWord' : # <Control>+<Backspace> 'BackwardDeleteChar' ), 'M-<', 'BeginningOfHistory', 'M->', 'EndOfHistory', 'M-DEL', 'BackwardKillWord', 'M-C-h', 'BackwardKillWord', 'M-C-j', 'ViInput', 'M-C-v', 'QuotedInsert', 'M-b', 'BackwardWord', 'M-c', 'CapitalizeWord', 'M-d', 'KillWord', 'M-f', 'ForwardWord', 'M-h', 'PrintHistory', 'M-l', 'DownCaseWord', 'M-r', 'RevertLine', 'M-t', 'TransposeWords', 'M-u', 'UpcaseWord', 'M-v', 'HistorySearchBackward', 'M-y', 'YankPop', "M-?", 'PossibleCompletions', "M-TAB", 'TabInsert', 'M-#', 'SaveLine', qq/"\e[A"/, 'previous-history', qq/"\e[B"/, 'next-history', qq/"\e[C"/, 'forward-char', qq/"\e[D"/, 'backward-char', qq/"\eOA"/, 'previous-history', qq/"\eOB"/, 'next-history', qq/"\eOC"/, 'forward-char', qq/"\eOD"/, 'backward-char', qq/"\eOy"/, 'HistorySearchBackward', # vt: PageUp qq/"\eOs"/, 'HistorySearchForward', # vt: PageDown qq/"\e[[A"/, 'previous-history', qq/"\e[[B"/, 'next-history', qq/"\e[[C"/, 'forward-char', qq/"\e[[D"/, 'backward-char', qq/"\e[2~"/, 'ToggleInsertMode', # X: <Insert> # Mods: 1 + bitmask: 1 Shift, 2 Alt, 4 Control, 8 (sometimes) Meta qq/"\e[2;2~"/, 'YankClipboard', # <Shift>+<Insert> qq/"\e[3;2~"/, 'KillRegionClipboard', # <Shift>+<Delete> #qq/"\0\16"/, 'Undo', # <Alt>+<Backspace> qq/"\eO5D"/, 'BackwardWord', # <Ctrl>+<Left arrow> qq/"\eO5C"/, 'ForwardWord', # <Ctrl>+<Right arrow> qq/"\e[5D"/, 'BackwardWord', # <Ctrl>+<Left arrow> qq/"\e[5C"/, 'ForwardWord', # <Ctrl>+<Right arrow> qq/"\eO5F"/, 'KillLine', # <Ctrl>+<End> qq/"\e[5F"/, 'KillLine', # <Ctrl>+<End> qq/"\e[4;5~"/, 'KillLine', # <Ctrl>+<End> qq/"\eO5s"/, 'EndOfHistory', # <Ctrl>+<Page Down> qq/"\e[6;5~"/, 'EndOfHistory', # <Ctrl>+<Page Down> qq/"\e[5H"/, 'BackwardKillLine', # <Ctrl>+<Home> qq/"\eO5H"/, 'BackwardKillLine', # <Ctrl>+<Home> qq/"\e[1;5~"/, 'BackwardKillLine', # <Ctrl>+<Home> qq/"\eO5y"/, 'BeginningOfHistory', # <Ctrl>+<Page Up> qq/"\e[5;5y"/, 'BeginningOfHistory', # <Ctrl>+<Page Up> qq/"\e[2;5~"/, 'CopyRegionAsKillClipboard', # <Ctrl>+<Insert> qq/"\e[3;5~"/, 'KillWord', # <Ctrl>+<Delete> # XTerm mouse editing (f202/f203 not in mainstream yet): # Paste may be: move f200 STRING f201 # or f202 move f200 STRING f201 f203; # and Cut may be f202 move delete f203 qq/"\e[200~"/, 'BeginPasteGroup', # Pre-paste qq/"\e[201~"/, 'EndPasteGroup', # Post-paste qq/"\e[202~"/, 'BeginEditGroup', # Pre-edit qq/"\e[203~"/, 'EndEditGroup', # Post-edit # OSX xterm: # OSX xterm: home \eOH end \eOF delete \e[3~ help \e[28~ f13 \e[25~ # gray- \eOm gray+ \eOk gray-enter \eOM gray* \eOj gray/ \eOo gray= \eO # grayClear \e\e. qq/"\eOH"/, 'BeginningOfLine', # home qq/"\eOF"/, 'EndOfLine', # end # HP xterm #qq/"\e[A"/, 'PreviousHistory', # up arrow #qq/"\e[B"/, 'NextHistory', # down arrow #qq/"\e[C"/, 'ForwardChar', # right arrow #qq/"\e[D"/, 'BackwardChar', # left arrow qq/"\e[H"/, 'BeginningOfLine', # home #'C-k', 'KillLine', # clear display qq/"\e[5~"/, 'HistorySearchBackward', # prev qq/"\e[6~"/, 'HistorySearchForward', # next qq/"\e[\0"/, 'BeginningOfLine', # home # These contradict: ($^O =~ /^hp\W?ux/i ? ( qq/"\e[1~"/, 'HistorySearchForward', # find qq/"\e[3~"/, 'ToggleInsertMode', # insert char qq/"\e[4~"/, 'ToggleInsertMode', # select ) : ( # "Normal" xterm qq/"\e[1~"/, 'BeginningOfLine', # home qq/"\e[3~"/, 'DeleteChar', # delete qq/"\e[4~"/, 'EndOfLine', # end )), # hpterm (($ENV{'TERM'} and $ENV{'TERM'} eq 'hpterm') ? ( qq/"\eA"/, 'PreviousHistory', # up arrow qq/"\eB"/, 'NextHistory', # down arrow qq/"\eC"/, 'ForwardChar', # right arrow qq/"\eD"/, 'BackwardChar', # left arrow qq/"\eS"/, 'BeginningOfHistory', # shift up arrow qq/"\eT"/, 'EndOfHistory', # shift down arrow qq/"\e&r1R"/, 'EndOfLine', # shift right arrow qq/"\e&r1L"/, 'BeginningOfLine', # shift left arrow qq/"\eJ"/, 'ClearScreen', # clear display qq/"\eM"/, 'UnixLineDiscard', # delete line qq/"\eK"/, 'KillLine', # clear line qq/"\eG\eK"/, 'BackwardKillLine', # shift clear line qq/"\eP"/, 'DeleteChar', # delete char qq/"\eL"/, 'Yank', # insert line qq/"\eQ"/, 'ToggleInsertMode', # insert char qq/"\eV"/, 'HistorySearchBackward',# prev qq/"\eU"/, 'HistorySearchForward',# next qq/"\eh"/, 'BeginningOfLine', # home qq/"\eF"/, 'EndOfLine', # shift home qq/"\ei"/, 'Suspend', # shift tab ) : () ), ($inDOS ? ( qq/"\0\2"/, 'SetMark', # 2: <Control>+<Space> qq/"\0\3"/, 'SetMark', # 3: <Control>+<@> qq/"\0\4"/, 'YankClipboard', # 4: <Shift>+<Insert> qq/"\0\5"/, 'KillRegionClipboard', # 5: <Shift>+<Delete> qq/"\0\16"/, 'Undo', # 14: <Alt>+<Backspace> # qq/"\0\23"/, 'RevertLine', # 19: <Alt>+<R> # qq/"\0\24"/, 'TransposeWords', # 20: <Alt>+<T> # qq/"\0\25"/, 'YankPop', # 21: <Alt>+<Y> # qq/"\0\26"/, 'UpcaseWord', # 22: <Alt>+<U> # qq/"\0\31"/, 'ReverseSearchHistory', # 25: <Alt>+<P> # qq/"\0\40"/, 'KillWord', # 32: <Alt>+<D> # qq/"\0\41"/, 'ForwardWord', # 33: <Alt>+<F> # qq/"\0\46"/, 'DownCaseWord', # 38: <Alt>+<L> #qq/"\0\51"/, 'TildeExpand', # 41: <Alt>+<\'> # qq/"\0\56"/, 'CapitalizeWord', # 46: <Alt>+<C> # qq/"\0\60"/, 'BackwardWord', # 48: <Alt>+<B> # qq/"\0\61"/, 'ForwardSearchHistory', # 49: <Alt>+<N> #qq/"\0\64"/, 'YankLastArg', # 52: <Alt>+<.> qq/"\0\65"/, 'PossibleCompletions', # 53: <Alt>+</> qq/"\0\107"/, 'BeginningOfLine', # 71: <Home> qq/"\0\110"/, 'previous-history', # 72: <Up arrow> qq/"\0\111"/, 'HistorySearchBackward', # 73: <Page Up> qq/"\0\113"/, 'backward-char', # 75: <Left arrow> qq/"\0\115"/, 'forward-char', # 77: <Right arrow> qq/"\0\117"/, 'EndOfLine', # 79: <End> qq/"\0\120"/, 'next-history', # 80: <Down arrow> qq/"\0\121"/, 'HistorySearchForward', # 81: <Page Down> qq/"\0\122"/, 'ToggleInsertMode', # 82: <Insert> qq/"\0\123"/, 'DeleteChar', # 83: <Delete> qq/"\0\163"/, 'BackwardWord', # 115: <Ctrl>+<Left arrow> qq/"\0\164"/, 'ForwardWord', # 116: <Ctrl>+<Right arrow> qq/"\0\165"/, 'KillLine', # 117: <Ctrl>+<End> qq/"\0\166"/, 'EndOfHistory', # 118: <Ctrl>+<Page Down> qq/"\0\167"/, 'BackwardKillLine', # 119: <Ctrl>+<Home> qq/"\0\204"/, 'BeginningOfHistory', # 132: <Ctrl>+<Page Up> qq/"\0\x92"/, 'CopyRegionAsKillClipboard', # 146: <Ctrl>+<Insert> qq/"\0\223"/, 'KillWord', # 147: <Ctrl>+<Delete> qq/"\0#"/, 'PrintHistory', # Alt-H ) : ( 'C-@', 'Ding') ) ); *KeyMap = *emacs_keymap; my @add_bindings = (); foreach ('-', '0' .. '9') { push(@add_bindings, "M-$_", 'DigitArgument'); } foreach ("A" .. "Z") { next if # defined($KeyMap[27]) && defined (%{"$KeyMap{name}_27"}) && defined $ {"$KeyMap{name}_27"}[ord $_]; push(@add_bindings, "M-$_", 'DoLowercaseVersion'); } if ($inDOS) { # Default translation of Alt-char $ {"$KeyMap{name}_0"}{'Esc'} = *{"$KeyMap{name}_27"}; $ {"$KeyMap{name}_0"}{'default'} = 'F_DoEscVersion'; } &rl_bind(@add_bindings); # Vi input mode. &InitKeymap(*vi_keymap, 'SelfInsert', 'vi_keymap', "\e", 'ViEndInsert', 'C-c', 'Interrupt', 'C-h', 'BackwardDeleteChar', 'C-w', 'UnixWordRubout', 'C-u', 'UnixLineDiscard', 'C-v', 'QuotedInsert', 'DEL', 'BackwardDeleteChar', "\n", 'ViAcceptInsert', "\r", 'ViAcceptInsert', ); # Vi command mode. &InitKeymap(*vicmd_keymap, 'Ding', 'vicmd_keymap', 'C-c', 'Interrupt', 'C-e', 'EmacsEditingMode', 'C-h', 'ViMoveCursor', 'C-l', 'ClearScreen', "\n", 'ViAcceptLine', "\r", 'ViAcceptLine', ' ', 'ViMoveCursor', '#', 'SaveLine', '$', 'ViMoveCursor', '%', 'ViMoveCursor', '*', 'ViInsertPossibleCompletions', '+', 'NextHistory', ',', 'ViMoveCursor', '-', 'PreviousHistory', '.', 'ViRepeatLastCommand', '/', 'ViSearch', '0', 'ViMoveCursor', '1', 'ViDigit', '2', 'ViDigit', '3', 'ViDigit', '4', 'ViDigit', '5', 'ViDigit', '6', 'ViDigit', '7', 'ViDigit', '8', 'ViDigit', '9', 'ViDigit', ';', 'ViMoveCursor', '=', 'ViPossibleCompletions', '?', 'ViSearch', 'A', 'ViAppendLine', 'B', 'ViMoveCursor', 'C', 'ViChangeLine', 'D', 'ViDeleteLine', 'E', 'ViMoveCursor', 'F', 'ViMoveCursor', 'G', 'ViHistoryLine', 'H', 'PrintHistory', 'I', 'ViBeginInput', 'N', 'ViRepeatSearch', 'P', 'ViPutBefore', 'R', 'ViReplaceMode', 'S', 'ViChangeEntireLine', 'T', 'ViMoveCursor', 'U', 'ViUndoAll', 'W', 'ViMoveCursor', 'X', 'ViBackwardDeleteChar', 'Y', 'ViYankLine', '\\', 'ViComplete', '^', 'ViMoveCursor', 'a', 'ViAppend', 'b', 'ViMoveCursor', 'c', 'ViChange', 'd', 'ViDelete', 'e', 'ViMoveCursor', 'f', 'ViMoveCursorFind', 'h', 'ViMoveCursor', 'i', 'ViInput', 'j', 'NextHistory', 'k', 'PreviousHistory', 'l', 'ViMoveCursor', 'n', 'ViRepeatSearch', 'p', 'ViPut', 'r', 'ViReplaceChar', 's', 'ViChangeChar', 't', 'ViMoveCursorTo', 'u', 'ViUndo', 'w', 'ViMoveCursor', 'x', 'ViDeleteChar', 'y', 'ViYank', '|', 'ViMoveCursor', '~', 'ViToggleCase', (($inDOS and (not $ENV{'TERM'} or $ENV{'TERM'} !~ /^(vt|xterm)/i)) ? ( qq/"\0\110"/, 'PreviousHistory', # 72: <Up arrow> qq/"\0\120"/, 'NextHistory', # 80: <Down arrow> qq/"\0\113"/, 'BackwardChar', # 75: <Left arrow> qq/"\0\115"/, 'ForwardChar', # 77: <Right arrow> "\e", 'ViCommandMode', ) : (('M-C-j','EmacsEditingMode'), # Conflicts with \e otherwise (($ENV{'TERM'} and $ENV{'TERM'} eq 'hpterm') ? ( qq/"\eA"/, 'PreviousHistory', # up arrow qq/"\eB"/, 'NextHistory', # down arrow qq/"\eC"/, 'ForwardChar', # right arrow qq/"\eD"/, 'BackwardChar', # left arrow qq/"\e\\*"/, 'ViAfterEsc', ) : # Default ( qq/"\e[A"/, 'PreviousHistory', # up arrow qq/"\e[B"/, 'NextHistory', # down arrow qq/"\e[C"/, 'ForwardChar', # right arrow qq/"\e[D"/, 'BackwardChar', # left arrow qq/"\e\\*"/, 'ViAfterEsc', qq/"\e[\\*"/, 'ViAfterEsc', ) ))), ); # Vi positioning commands (suffixed to vi commands like 'd'). &InitKeymap(*vipos_keymap, 'ViNonPosition', 'vipos_keymap', '^', 'ViFirstWord', '0', 'BeginningOfLine', '1', 'ViDigit', '2', 'ViDigit', '3', 'ViDigit', '4', 'ViDigit', '5', 'ViDigit', '6', 'ViDigit', '7', 'ViDigit', '8', 'ViDigit', '9', 'ViDigit', '$', 'EndOfLine', 'h', 'BackwardChar', 'l', 'ForwardChar', ' ', 'ForwardChar', 'C-h', 'BackwardChar', 'f', 'ViForwardFindChar', 'F', 'ViBackwardFindChar', 't', 'ViForwardToChar', 'T', 'ViBackwardToChar', ';', 'ViRepeatFindChar', ',', 'ViInverseRepeatFindChar', '%', 'ViFindMatchingParens', '|', 'ViMoveToColumn', # Arrow keys ($inDOS ? ( qq/"\0\115"/, 'ForwardChar', # 77: <Right arrow> qq/"\0\113"/, 'BackwardChar', # 75: <Left arrow> "\e", 'ViPositionEsc', ) : ($ENV{'TERM'} and $ENV{'TERM'} eq 'hpterm') ? ( qq/"\eC"/, 'ForwardChar', # right arrow qq/"\eD"/, 'BackwardChar', # left arrow qq/"\e\\*"/, 'ViPositionEsc', ) : # Default ( qq/"\e[C"/, 'ForwardChar', # right arrow qq/"\e[D"/, 'BackwardChar', # left arrow qq/"\e\\*"/, 'ViPositionEsc', qq/"\e[\\*"/, 'ViPositionEsc', ) ), ); # Vi search string input mode for '/' and '?'. &InitKeymap(*visearch_keymap, 'SelfInsert', 'visearch_keymap', "\e", 'Ding', 'C-c', 'Interrupt', 'C-h', 'ViSearchBackwardDeleteChar', 'C-w', 'UnixWordRubout', 'C-u', 'UnixLineDiscard', 'C-v', 'QuotedInsert', 'DEL', 'ViSearchBackwardDeleteChar', "\n", 'ViEndSearch', "\r", 'ViEndSearch', ); # These constant hashes hold the arguments to &forward_scan() or # &backward_scan() for vi positioning commands, which all # behave a little differently for delete, move, change, and yank. # # Note: I originally coded these as qr{}, but changed them to q{} for # compatibility with older perls at the expense of some performance. # # Note: Some of the more obscure key combinations behave slightly # differently in different vi implementation. This module matches # the behavior of /usr/ucb/vi, which is different from the # behavior of vim, nvi, and the ksh command line. One example is # the command '2de', when applied to the string ('^' represents the # cursor, not a character of the string): # # ^5.6 7...88888888 # # With /usr/ucb/vi and with this module, the result is # # ^...88888888 # # but with the other three vi implementations, the result is # # ^ 7...88888888 $Vi_delete_patterns = { ord('w') => q{(?:\w+|[^\w\s]+|)\s*}, ord('W') => q{\S*\s*}, ord('b') => q{\w+\s*|[^\w\s]+\s*|^\s+}, ord('B') => q{\S+\s*|^\s+}, ord('e') => q{.\s*\w+|.\s*[^\w\s]+|.\s*$}, ord('E') => q{.\s*\S+|.\s*$}, }; $Vi_move_patterns = { ord('w') => q{(?:\w+|[^\w\s]+|)\s*}, ord('W') => q{\S*\s*}, ord('b') => q{\w+\s*|[^\w\s]+\s*|^\s+}, ord('B') => q{\S+\s*|^\s+}, ord('e') => q{.\s*\w*(?=\w)|.\s*[^\w\s]*(?=[^\w\s])|.?\s*(?=\s$)}, ord('E') => q{.\s*\S*(?=\S)|.?\s*(?=\s$)}, }; $Vi_change_patterns = { ord('w') => q{\w+|[^\w\s]+|\s}, ord('W') => q{\S+|\s}, ord('b') => q{\w+\s*|[^\w\s]+\s*|^\s+}, ord('B') => q{\S+\s*|^\s+}, ord('e') => q{.\s*\w+|.\s*[^\w\s]+|.\s*$}, ord('E') => q{.\s*\S+|.\s*$}, }; $Vi_yank_patterns = { ord('w') => q{(?:\w+|[^\w\s]+|)\s*}, ord('W') => q{\S*\s*}, ord('b') => q{\w+\s*|[^\w\s]+\s*|^\s+}, ord('B') => q{\S+\s*|^\s+}, ord('e') => q{.\s*\w*(?=\w)|.\s*[^\w\s]*(?=[^\w\s])|.?\s*(?=\s$)}, ord('E') => q{.\s*\S*(?=\S)|.?\s*(?=\s$)}, }; my $default_mode = 'emacs'; *KeyMap = $var_EditingMode = $var_EditingMode{$default_mode}; ## my $name; ## for $name ( keys %{'readline::'} ) { ## # Create aliases accessible via tied interface ## *{"rl_$1"} = \$ {"var_$1"} if $name =~ /$var_(.*)/; ## } 1; # Returning a glob causes a bug in db5.001m } sub init { if ($ENV{'TERM'} and ($ENV{'TERM'} eq 'emacs' || $ENV{'TERM'} eq 'dumb')) { $dumb_term = 1; } elsif (! -c $term_IN && $term_IN eq \*STDIN) { # Believe if it is given $stdin_not_tty = 1; } else { &get_window_size; &F_ReReadInitFile if !defined($rl_NoInitFromFile); $InputLocMsg = ''; *KeyMap = $var_EditingMode; } $initialized = 1; } ## ## InitKeymap(*keymap, 'default', 'name', bindings.....) ## sub InitKeymap { local(*KeyMap) = shift(@_); my $default = shift(@_); my $name = $KeyMap{'name'} = shift(@_); # 'default' is now optional - if '', &do_command() defaults it to # 'F_Ding'. Meta-maps now don't set a default - this lets # us detect multiple '\*' default declarations. JP if ($default ne '') { my $func = $KeyMap{'default'} = "F_$default"; ### Temporarily disabled die qq/Bad default function [$func] for keymap "$name"/ if !$autoload_broken and !defined(&$func); } &rl_bind if @_ > 0; ## The rest of @_ gets passed silently. } ## ## Accepts an array as pairs ($keyspec, $function, [$keyspec, $function]...). ## and maps the associated bindings to the current KeyMap. ## ## keyspec should be the name of key sequence in one of two forms: ## ## Old (GNU readline documented) form: ## M-x to indicate Meta-x ## C-x to indicate Ctrl-x ## M-C-x to indicate Meta-Ctrl-x ## x simple char x ## where 'x' above can be a single character, or the special: ## special means ## -------- ----- ## space space ( ) ## spc space ( ) ## tab tab (\t) ## del delete (0x7f) ## rubout delete (0x7f) ## newline newline (\n) ## lfd newline (\n) ## ret return (\r) ## return return (\r) ## escape escape (\e) ## esc escape (\e) ## ## New form: ## "chars" (note the required double-quotes) ## where each char in the list represents a character in the sequence, except ## for the special sequences: ## \\C-x Ctrl-x ## \\M-x Meta-x ## \\M-C-x Meta-Ctrl-x ## \\e escape. ## \\x x (if not one of the above) ## ## ## FUNCTION should be in the form 'BeginningOfLine' or 'beginning-of-line'. ## It is an error for the function to not be known.... ## ## As an example, the following lines in .inputrc will bind one's xterm ## arrow keys: ## "\e[[A": previous-history ## "\e[[B": next-history ## "\e[[C": forward-char ## "\e[[D": backward-char ## sub filler_Pending ($) { my $keys = shift; sub { my $c = shift; push @Pending, map chr, @$keys; return if not @$keys or $c == 1 or not defined(my $in = &getc_with_pending); # provide the numeric argument local(*KeyMap) = $var_EditingMode; $doingNumArg = 1; # Allow NumArg inside NumArg &do_command(*KeyMap, $c, ord $in); return; } } sub _unescape ($) { my($key, @keys) = shift; ## New-style bindings are enclosed in double-quotes. ## Characters are taken verbatim except the special cases: ## \C-x Control x (for any x) ## \M-x Meta x (for any x) ## \e Escape ## \* Set the keymap default (JP: added this) ## (must be the last character of the sequence) ## ## \x x (unless it fits the above pattern) ## ## Look for special case of "\C-\M-x", which should be treated ## like "\M-\C-x". while (length($key) > 0) { # JP: fixed regex bugs below: changed all 's#' to 's#^' if ($key =~ s#^\\C-\\M-(.)##) { push(@keys, ord("\e"), &ctrl(ord($1))); } elsif ($key =~ s#^\\(M-|e)##) { push(@keys, ord("\e")); } elsif ($key =~ s#^\\C-(.)##) { push(@keys, &ctrl(ord($1))); } elsif ($key =~ s#^\\x([0-9a-fA-F]{2})##) { push(@keys, eval('0x'.$1)); } elsif ($key =~ s#^\\([0-7]{3})##) { push(@keys, eval('0'.$1)); } elsif ($key =~ s#^\\\*$##) { # JP: added push(@keys, 'default'); } elsif ($key =~ s#^\\([afnrtv])##) { push(@keys, ord(eval(qq("\\$1")))); } elsif ($key =~ s#^\\d##) { push(@keys, 4); # C-d } elsif ($key =~ s#^\\b##) { push(@keys, 0x7f); # Backspace } elsif ($key =~ s#^\\(.)##) { push(@keys, ord($1)); } else { push(@keys, ord($key)); substr($key,0,1) = ''; } } @keys } sub RL_func ($) { my $name_or_macro = shift; if ($name_or_macro =~ /^"((?:\\.|[^\\\"])*)"|^'((?:\\.|[^\\\'])*)'/s) { filler_Pending [_unescape "$+"]; } else { "F_$name_or_macro"; } } sub actually_do_binding { ## ## actually_do_binding($function1, \@sequence1, ...) ## ## Actually inserts the binding for @sequence to $function into the ## current map. @sequence is an array of character ordinals. ## ## If @sequence is more than one element long, all but the last will ## cause meta maps to be created. ## ## $Function will have an implicit "F_" prepended to it. ## while (@_) { my $func = shift; my ($key, @keys) = @{shift()}; $key += 0; local(*KeyMap) = *KeyMap; my $map; while (@keys) { if (defined($KeyMap[$key]) && ($KeyMap[$key] ne 'F_PrefixMeta')) { warn "Warning$InputLocMsg: ". "Re-binding char #$key from [$KeyMap[$key]] to meta for [@keys] => $func.\n" if $^W; } $KeyMap[$key] = 'F_PrefixMeta'; $map = "$KeyMap{'name'}_$key"; InitKeymap(*$map, '', $map) if !(%$map); *KeyMap = *$map; $key = shift @keys; #&actually_do_binding($func, \@keys); } my $name = $KeyMap{'name'}; if ($key eq 'default') { # JP: added warn "Warning$InputLocMsg: ". " changing default action to $func in $name key map\n" if $^W && defined $KeyMap{'default'}; $KeyMap{'default'} = RL_func $func; } else { if (defined($KeyMap[$key]) && $KeyMap[$key] eq 'F_PrefixMeta' && $func ne 'PrefixMeta') { warn "Warning$InputLocMsg: ". " Re-binding char #$key to non-meta ($func) in $name key map\n" if $^W; } $KeyMap[$key] = RL_func $func; } } } sub rl_bind { my (@keys, $key, $func, $ord, @arr); while (defined($key = shift(@_)) && defined($func = shift(@_))) { ## ## Change the function name from something like ## backward-kill-line ## to ## BackwardKillLine ## if not already there. ## unless ($func =~ /^[\"\']/) { $func = "\u$func"; $func =~ s/-(.)/\u$1/g; # Temporary disabled if (!$autoload_broken and !defined($ {'readline::'}{"F_$func"})) { warn "Warning$InputLocMsg: bad bind function [$func]\n" if $^W; next; } } ## print "sequence [$key] func [$func]\n"; ##DEBUG @keys = (); ## See if it's a new-style binding. if ($key =~ m/"((?:\\.|[^\\])*)"/s) { @keys = _unescape "$1"; } else { ## ol-dstyle binding... only one key (or Meta+key) my ($isctrl, $orig) = (0, $key); $isctrl = $key =~ s/\b(C|Control|CTRL)-//i; push(@keys, ord("\e")) if $key =~ s/\b(M|Meta)-//i; ## is meta? ## Isolate key part. This matches GNU's implementation. ## If the key is '-', be careful not to delete it! $key =~ s/.*-(.)/$1/; if ($key =~ /^(space|spc)$/i) { $key = ' '; } elsif ($key =~ /^(rubout|del)$/i) { $key = "\x7f"; } elsif ($key =~ /^tab$/i) { $key = "\t"; } elsif ($key =~ /^(return|ret)$/i) { $key = "\r"; } elsif ($key =~ /^(newline|lfd)$/i) { $key = "\n"; } elsif ($key =~ /^(escape|esc)$/i) { $key = "\e"; } elsif (length($key) > 1) { warn "Warning$InputLocMsg: strange binding [$orig]\n" if $^W; } $key = ord($key); $key = &ctrl($key) if $isctrl; push(@keys, $key); } # ## Now do the mapping of the sequence represented in @keys # # print "&actually_do_binding($func, @keys)\n"; ##DEBUG push @arr, $func, [@keys]; #&actually_do_binding($func, \@keys); } &actually_do_binding(@arr); } sub read_an_init_file { my $file = shift; my $include_depth = shift; local *RC; $file =~ s/^~([\\\/])/$ENV{HOME}$1/ if not -f $file and exists $ENV{HOME}; return unless open RC, "< $file"; my (@action) = ('exec'); ## exec, skip, ignore (until appropriate endif) my (@level) = (); ## if, else local $/ = "\n"; while (<RC>) { s/^\s+//; next if m/^\s*(#|$)/; $InputLocMsg = " [$file line $.]"; if (/^\$if\s+(.*)/) { my($test) = $1; push(@level, 'if'); if ($action[$#action] ne 'exec') { ## We're supposed to be skipping or ignoring this level, ## so for subsequent levels we really ignore completely. push(@action, 'ignore'); } else { ## We're executing this IF... do the test. ## The test is either "term=xxxx", or just a string that ## we compare to $rl_readline_name; if ($test =~ /term=([a-z0-9]+)/) { $test = ($ENV{'TERM'} && $1 eq $ENV{'TERM'}); } else { $test = $test =~ /^(perl|$rl_readline_name)\s*$/i; } push(@action, $test ? 'exec' : 'skip'); } next; } elsif (/^\$endif\b/) { die qq/\rWarning$InputLocMsg: unmatched endif\n/ if @level == 0; pop(@level); pop(@action); next; } elsif (/^\$else\b/) { die qq/\rWarning$InputLocMsg: unmatched else\n/ if @level == 0 || $level[$#level] ne 'if'; $level[$#level] = 'else'; ## an IF turns into an ELSE if ($action[$#action] eq 'skip') { $action[$#action] = 'exec'; ## if were SKIPing, now EXEC } else { $action[$#action] = 'ignore'; ## otherwise, just IGNORE. } next; } elsif (/^\$include\s+(\S+)/) { if ($include_depth > $max_include_depth) { warn "Deep recursion in \$include directives in $file.\n"; } else { read_an_init_file($1, $include_depth + 1); } } elsif ($action[$#action] ne 'exec') { ## skipping this one.... # readline permits trailing comments in inputrc # this seems to solve the warnings caused by trailing comments in the # default /etc/inputrc on Mandrake Linux boxes. } elsif (m/\s*set\s+(\S+)\s+(\S*)/) { # Allow trailing comment &rl_set($1, $2, $file); } elsif (m/^\s*(\S+):\s+("(?:\\.|[^\\\"])*"|'(\\.|[^\\\'])*')/) { # Allow trailing comment &rl_bind($1, $2); } elsif (m/^\s*(\S+|"[^\"]+"):\s+(\S+)/) { # Allow trailing comment &rl_bind($1, $2); } else { chomp; warn "\rWarning$InputLocMsg: Bad line [$_]\n" if $^W; } } close(RC); } sub F_ReReadInitFile { my ($file) = $ENV{'TRP_INPUTRC'}; $file = $ENV{'INPUTRC'} unless defined $file; unless (defined $file) { return unless defined $ENV{'HOME'}; $file = "$ENV{'HOME'}/.inputrc"; } read_an_init_file($file, 0); } sub get_ornaments_selected { return if @$rl_term_set >= 6; local $^W=0; my $Orig = $Term::ReadLine::Perl::term->ornaments(); eval { # Term::ReadLine does not expose its $terminal, so make another require Term::Cap; my $terminal = Tgetent Term::Cap ({OSPEED=>9600}); # and be sure the terminal supports highlighting $terminal->Trequire('mr'); }; if (!$@ and $Orig ne ',,,'){ my @set = @$rl_term_set; $Term::ReadLine::Perl::term->ornaments (join(',', (split(/,/, $Orig))[0,1]) . ',mr,me') ; @set[4,5] = @$rl_term_set[2,3]; $Term::ReadLine::Perl::term->ornaments($Orig); @$rl_term_set = @set; } else { @$rl_term_set[4,5] = @$rl_term_set[2,3]; } } sub readline_dumb { local $\ = ''; print $term_OUT $prompt; local $/ = "\n"; return undef if !defined($line = $Term::ReadLine::Perl::term->get_line); chomp($line); $| = $oldbar; select $old; return $line; } ## ## This is it. Called as &readline'readline($prompt, $default), ## (DEFAULT can be omitted) the next input line is returned (undef on EOF). ## sub readline { $Term::ReadLine::Perl::term->register_Tk if not $Term::ReadLine::registered and $Term::ReadLine::toloop and defined &Tk::DoOneEvent; if ($stdin_not_tty) { local $/ = "\n"; return undef if !defined($line = <$term_IN>); chomp($line); return $line; } $old = select $term_OUT; $oldbar = $|; local($|) = 1; local($input); ## prompt should be given to us.... $prompt = defined($_[0]) ? $_[0] : 'INPUT> '; # Try to move cursor to the beginning of the next line if this line # contains anything. # On DOSish 80-wide console # perl -we "print 1 x shift, qq(\b2\r3); sleep 2" 79 # prints 3 on the same line, # perl -we "print 1 x shift, qq(\b2\r3); sleep 2" 80 # on the next; $rl_screen_width is 79. # on XTerm one needs to increase the number by 1. print $term_OUT ' ' x ($rl_screen_width - !$rl_last_pos_can_backspace) . "\b \r" if $rl_scroll_nextline; if ($dumb_term) { return readline_dumb; } # test if we resume an 'Operate' command if ($rl_OperateCount > 0 && (!defined $_[1] || $_[1] eq '')) { ## it's from a valid previous 'Operate' command and ## user didn't give a default line ## we leave $rl_HistoryIndex untouched $line = $rl_History[$rl_HistoryIndex]; } else { ## set history pointer at the end of history $rl_HistoryIndex = $#rl_History + 1; $rl_OperateCount = 0; $line = defined $_[1] ? $_[1] : ''; } $rl_OperateCount-- if $rl_OperateCount > 0; $line_for_revert = $line; # I don't think we need to do this, actually... # while (&ioctl(STDIN,$FIONREAD,$fion)) # { # local($n_chars_available) = unpack ($fionread_t, $fion); # ## print "n_chars = $n_chars_available\n"; # last if $n_chars_available == 0; # $line .= getc_with_pending; # should we prepend if $rl_start_default_at_beginning? # } $D = $rl_start_default_at_beginning ? 0 : length($line); ## set dot. $LastCommandKilledText = 0; ## heck, was no last command. $lastcommand = ''; ## Well, there you go. $line_rl_mark = -1; ## ## some stuff for &redisplay. ## $lastredisplay = ''; ## Was no last redisplay for this time. $lastlen = length($lastredisplay); $lastpromptlen = 0; $lastdelta = 0; ## Cursor was nowhere $si = 0; ## Want line to start left-justified $force_redraw = 1; ## Want to display with brute force. if (!eval {SetTTY()}) { ## Put into raw mode. warn $@ if $@; $dumb_term = 1; return readline_dumb; } *KeyMap = $var_EditingMode; undef($AcceptLine); ## When set, will return its value. undef($ReturnEOF); ## ...unless this on, then return undef. @Pending = (); ## Contains characters to use as input. @undo = (); ## Undo history starts empty for each line. @undoGroupS = (); ## Undo groups start empty for each line. undef $memorizedArg; ## No digitArgument memorized undef $memorizedPos; ## No position memorized undef $Vi_undo_state; undef $Vi_undo_all_state; # We need to do some additional initialization for vi mode. # RS: bug reports/platform issues are welcome: russ@dvns.com if ($KeyMap{'name'} eq 'vi_keymap'){ &F_ViInput(); if ($rl_vi_replace_default_on_insert){ local $^W=0; my $Orig = $Term::ReadLine::Perl::term->ornaments(); eval { # Term::ReadLine does not expose its $terminal, so make another require Term::Cap; my $terminal = Tgetent Term::Cap ({OSPEED=>9600}); # and be sure the terminal supports highlighting $terminal->Trequire('mr'); }; if (!$@ and $Orig ne ',,,'){ $Term::ReadLine::Perl::term->ornaments (join(',', (split(/,/, $Orig))[0,1]) . ',mr,me') } my $F_SelfInsert_Real = \&F_SelfInsert; *F_SelfInsert = sub { $Term::ReadLine::Perl::term->ornaments($Orig); &F_ViChangeEntireLine; local $^W=0; *F_SelfInsert = $F_SelfInsert_Real; &F_SelfInsert; }; my $F_ViEndInsert_Real = \&F_ViEndInsert; *F_ViEndInsert = sub { $Term::ReadLine::Perl::term->ornaments($Orig); local $^W=0; *F_SelfInsert = $F_SelfInsert_Real; *F_ViEndInsert = $F_ViEndInsert_Real; &F_ViEndInsert; $force_redraw = 1; redisplay(); }; } } if ($rl_default_selected) { redisplay_high(); } else { &redisplay(); ## Show the line (prompt+default at this point). } # pretend input if we 'Operate' on more than one line &F_OperateAndGetNext($rl_OperateCount) if $rl_OperateCount > 0; $rl_first_char = 1; while (!defined($AcceptLine)) { ## get a character of input $input = &getc_with_pending(); # bug in debugger, returns 42. - No more! unless (defined $input) { # XXX What to do??? Until this is clear, just pretend we got EOF $AcceptLine = $ReturnEOF = 1; last; } preserve_state(); $ThisCommandKilledText = 0; ##print "\n\rline is @$D:[$line]\n\r"; ##DEBUG my $cmd = get_command($var_EditingMode, ord($input)); if ( $rl_first_char && $cmd =~ /^F_(SelfInsert$|Yank)/ && length $line && $rl_default_selected ) { # (Backward)?DeleteChar specialcased in the code $line = ''; $D = 0; $cmd = 'F_BackwardDeleteChar' if $cmd eq 'F_DeleteChar'; } undef $doingNumArg; &$cmd(1, ord($input)); ## actually execute input $rl_first_char = 0; $lastcommand = $cmd; *KeyMap = $var_EditingMode; # JP: added # In Vi command mode, don't position the cursor beyond the last # character of the line buffer. &F_BackwardChar(1) if $Vi_mode and $line ne '' and &at_end_of_line and $KeyMap{'name'} eq 'vicmd_keymap'; &redisplay(); $LastCommandKilledText = $ThisCommandKilledText; } undef @undo; ## Release the memory. undef @undoGroupS; ## Release the memory. &ResetTTY; ## Restore the tty state. $| = $oldbar; select $old; return undef if defined($ReturnEOF); #print STDOUT "|al=`$AcceptLine'"; $AcceptLine; ## return the line accepted. } ## ctrl(ord('a')) will return the ordinal for Ctrl-A. sub ctrl { $_[0] ^ (($_[0]>=ord('a') && $_[0]<=ord('z')) ? 0x60 : 0x40); } sub SetTTY { return if $dumb_term || $stdin_not_tty; #return system 'stty raw -echo' if defined &DB::DB; if (defined $term_readkey) { Term::ReadKey::ReadMode(4, $term_IN); if ($^O eq 'MSWin32') { # If we reached this, Perl isn't cygwin; Enter sends \r; thus we need binmode # XXXX Do we need to undo??? $term_IN is most probably private now... binmode $term_IN; } return 1; } # system 'stty raw -echo'; $sgttyb = ''; ## just to quiet "perl -w"; if ($useioctl && $^O ne 'solaris' && defined $TIOCGETP && &ioctl($term_IN,$TIOCGETP,$sgttyb)) { @tty_buf = unpack($sgttyb_t,$sgttyb); if (defined $ENV{OS2_SHELL}) { $tty_buf[3] &= ~$mode; $tty_buf[3] &= ~$ECHO; } else { $tty_buf[4] |= $mode; $tty_buf[4] &= ~$ECHO; } $sgttyb = pack($sgttyb_t,@tty_buf); &ioctl($term_IN,$TIOCSETP,$sgttyb) || die "Can't ioctl TIOCSETP: $!"; } elsif (!$usestty) { return 0; } else { warn <<EOW if $useioctl and not defined $ENV{PERL_READLINE_NOWARN}; Can't ioctl TIOCGETP: $! Consider installing Term::ReadKey from CPAN site nearby at http://www.perl.com/CPAN Or use perl -MCPAN -e shell to reach CPAN. Falling back to 'stty'. If you do not want to see this warning, set PERL_READLINE_NOWARN in your environment. EOW # '; # For Emacs. $useioctl = 0; system 'stty raw -echo' and ($usestty = 0, die "Cannot call `stty': $!"); if ($^O eq 'MSWin32') { # If we reached this, Perl isn't cygwin, but STTY is present ==> cygwin # The symptoms: now Enter sends \r; thus we need binmode # XXXX Do we need to undo??? $term_IN is most probably private now... binmode $term_IN; } } return 1; } sub ResetTTY { return if $dumb_term || $stdin_not_tty; #return system 'stty -raw echo' if defined &DB::DB; if (defined $term_readkey) { return Term::ReadKey::ReadMode(0, $term_IN); } # system 'stty -raw echo'; if ($useioctl) { &ioctl($term_IN,$TIOCGETP,$sgttyb) || die "Can't ioctl TIOCGETP: $!"; @tty_buf = unpack($sgttyb_t,$sgttyb); if (defined $ENV{OS2_SHELL}) { $tty_buf[3] |= $mode; $tty_buf[3] |= $ECHO; } else { $tty_buf[4] &= ~$mode; $tty_buf[4] |= $ECHO; } $sgttyb = pack($sgttyb_t,@tty_buf); &ioctl($term_IN,$TIOCSETP,$sgttyb) || die "Can't ioctl TIOCSETP: $!"; } elsif ($usestty) { system 'stty -raw echo' and die "Cannot call `stty': $!"; } } # Substr_with_props: gives the substr of prompt+string with embedded # face-change commands sub substr_with_props { my ($p, $s, $from, $len, $ket, $bsel, $esel) = @_; my $lp = length $p; defined $from or $from = 0; defined $len or $len = length($p) + length($s) - $from; unless (defined $ket) { warn 'bug in Term::ReadLine::Perl, please report to its author cpan@ilyaz.org'; $ket = ''; } # We may draw over to put cursor in a correct position: $ket = '' if $len < length($p) + length($s) - $from; # Not redrawn if ($from >= $lp) { $p = ''; $s = substr $s, $from - $lp; $lp = 0; } else { $p = substr $p, $from; $lp -= $from; $from = 0; } $s = substr $s, 0, $len - $lp; $p =~ s/^(\s*)//; my $bs = $1; $p =~ s/(\s*)$//; my $as = $1; $p = $rl_term_set->[0] . $p . $rl_term_set->[1] if length $p; $p = "$bs$p$as"; $ket = chop $s if $ket; if (defined $bsel and $bsel != $esel) { $bsel = $len if $bsel > $len; $esel = $len if $esel > $len; } if (defined $bsel and $bsel != $esel) { get_ornaments_selected; $bsel -= $lp; $esel -= $lp; my ($pre, $sel, $post) = (substr($s, 0, $bsel), substr($s, $bsel, $esel-$bsel), substr($s, $esel)); $pre = $rl_term_set->[2] . $pre . $rl_term_set->[3] if length $pre; $sel = $rl_term_set->[4] . $sel . $rl_term_set->[5] if length $sel; $post = $rl_term_set->[2] . $post . $rl_term_set->[3] if length $post; $s = "$pre$sel$post" } else { $s = $rl_term_set->[2] . $s . $rl_term_set->[3] if length $s; } if (!$lp) { # Should not happen... return $s; } elsif (!length $s) { # Should not happen return $p; } else { # Do not underline spaces in the prompt return "$p$s" . (length $ket ? ($rl_term_set->[0] . $ket . $rl_term_set->[1]) : ''); } } sub redisplay_high { get_ornaments_selected(); @$rl_term_set[2,3,4,5] = @$rl_term_set[4,5,2,3]; &redisplay(); ## Show the line, default inverted. @$rl_term_set[2,3,4,5] = @$rl_term_set[4,5,2,3]; $force_redraw = 1; } ## ## redisplay() ## ## Updates the screen to reflect the current $line. ## ## For the purposes of this routine, we prepend the prompt to a local copy of ## $line so that we display the prompt as well. We then modify it to reflect ## that some characters have different sizes (i.e. control-C is represented ## as ^C, tabs are expanded, etc.) ## ## This routine is somewhat complicated by two-byte characters.... must ## make sure never to try do display just half of one. ## ## NOTE: If an argument is given, it is used instead of the prompt. ## ## This is some nasty code. ## sub redisplay { ## local $line has prompt also; take that into account with $D. local($prompt) = defined($_[0]) ? $_[0] : $prompt; my ($thislen, $have_bra); my($dline) = $prompt . $line; local($D) = $D + length($prompt); my ($bsel, $esel); if (defined pos $line) { $bsel = (pos $line) + length $prompt; } my ($have_ket) = ''; ## ## If the line contains anything that might require special processing ## for displaying (such as tabs, control characters, etc.), we will ## take care of that now.... ## if ($dline =~ m/[^\x20-\x7e]/) { local($new, $Dinc, $c) = ('', 0); ## Look at each character of $dline in turn..... for ($i = 0; $i < length($dline); $i++) { $c = substr($dline, $i, 1); ## A tab to expand... if ($c eq "\t") { $c = ' ' x (8 - (($i-length($prompt)) % 8)); ## A control character.... } elsif ($c =~ tr/\000-\037//) { $c = sprintf("^%c", ord($c)+ord('@')); ## the delete character.... } elsif (ord($c) == 127) { $c = '^?'; } $new .= $c; ## Bump over $D if this char is expanded and left of $D. $Dinc += length($c) - 1 if (length($c) > 1 && $i < $D); ## Bump over $bsel if this char is expanded and left of $bsel. $bsel += length($c) - 1 if (defined $bsel && length($c) > 1 && $i < $bsel); } $dline = $new; $D += $Dinc; } ## ## Now $dline is what we'd like to display (with a prepended prompt) ## $D is the position of the cursor on it. ## ## If it's too long to fit on the line, we must decide what we can fit. ## ## If we end up moving the screen index ($si) [index of the leftmost ## character on the screen], to some place other than the front of the ## the line, we'll have to make sure that it's not on the first byte of ## a 2-byte character, 'cause we'll be placing a '<' marker there, and ## that would screw up the 2-byte character. ## ## $si is preserved between several displays (if possible). ## ## Similarly, if the line needs chopped off, we make sure that the ## placement of the tailing '>' won't screw up any 2-byte character in ## the vicinity. # Now $si keeps the value from previous display if ($D == length($prompt) # If prompts fits exactly, show only if need not show trailing '>' and length($prompt) < $rl_screen_width - (0 != length $dline)) { $si = 0; ## prefer displaying the whole prompt } elsif ($si >= $D) { # point to the left of what was displayed $si = &max(0, $D - $rl_margin); $si-- if $si > 0 && $si != length($prompt) && !&OnSecondByte($si); } elsif ($si + $rl_screen_width <= $D) { # Point to the right of ... $si = &min(length($dline), ($D - $rl_screen_width) + $rl_margin); $si-- if $si > 0 && $si != length($prompt) && !&OnSecondByte($si); } elsif (length($dline) - $si < $rl_screen_width - $rl_margin and $si) { # Too little of the line shown $si = &max(0, length($dline) - $rl_screen_width + 3); $si-- if $si > 0 && $si != length($prompt) && !&OnSecondByte($si); } else { ## Fine as-is.... don't need to change $si. } $have_bra = 1 if $si != 0; # Need the "chopped-off" marker $thislen = &min(length($dline) - $si, $rl_screen_width); if ($si + $thislen < length($dline)) { ## need to place a '>'... make sure to place on first byte. $thislen-- if &OnSecondByte($si+$thislen-1); substr($dline, $si+$thislen-1,1) = '>'; $have_ket = 1; } ## ## Now know what to display. ## Must get substr($dline, $si, $thislen) on the screen, ## with the cursor at $D-$si characters from the left edge. ## $dline = substr($dline, $si, $thislen); $delta = $D - $si; ## delta is cursor distance from beginning of $dline. if (defined $bsel) { # Highlight the selected part $bsel -= $si; $esel = $delta; ($bsel, $esel) = ($esel, $bsel) if $bsel > $esel; $bsel = 0 if $bsel < 0; if ($have_ket) { $esel = $thislen - 1 if $esel > $thislen - 1; } else { $esel = $thislen if $esel > $thislen; } } if ($si >= length($prompt)) { # Keep $dline for $lastredisplay... $prompt = ($have_bra ? "<" : ""); $dline = substr $dline, 1; # After prompt $bsel = 1 if defined $bsel and $bsel == 0; } else { $dline = substr($dline, (length $prompt) - $si); $prompt = substr($prompt,$si); substr($prompt, 0, 1) = '<' if $si > 0; } # Now $dline is the part after the prompt... ## ## Now must output $dline, with cursor $delta spaces from left of TTY ## local ($\, $,) = ('',''); ## ## If $force_redraw is not set, we can attempt to optimize the redisplay ## However, if we don't happen to find an easy way to optimize, we just ## fall through to the brute-force method of re-drawing the whole line. ## if (not $force_redraw and not defined $bsel) { ## can try to optimize here a bit. ## For when we only need to move the cursor if ($lastredisplay eq $dline and $lastpromptlen == length $prompt) { ## If we need to move forward, just overwrite as far as we need. if ($lastdelta < $delta) { print $term_OUT substr_with_props($prompt, $dline, $lastdelta, $delta-$lastdelta, $have_ket); ## Need to move back. } elsif($lastdelta > $delta) { ## Two ways to move back... use the fastest. One is to just ## backspace the proper amount. The other is to jump to the ## the beginning of the line and overwrite from there.... my $out = substr_with_props($prompt, $dline, 0, $delta, $have_ket); if ($lastdelta - $delta <= length $out) { print $term_OUT "\b" x ($lastdelta - $delta); } else { print $term_OUT "\r", $out; } } ($lastlen, $lastredisplay, $lastdelta, $lastpromptlen) = ($thislen, $dline, $delta, length $prompt); # print $term_OUT "\a"; # Debugging return; } ## for when we've just added stuff to the end if ($thislen > $lastlen && $lastdelta == $lastlen && $delta == $thislen && $lastpromptlen == length($prompt) && substr($dline, 0, $lastlen - $lastpromptlen) eq $lastredisplay) { print $term_OUT substr_with_props($prompt, $dline, $lastdelta, undef, $have_ket); # print $term_OUT "\a"; # Debugging ($lastlen, $lastredisplay, $lastdelta, $lastpromptlen) = ($thislen, $dline, $delta, length $prompt); return; } ## There is much more opportunity for optimizing..... ## something to work on later..... } ## ## Brute force method of redisplaying... redraw the whole thing. ## print $term_OUT "\r", substr_with_props($prompt, $dline, 0, undef, $have_ket, $bsel, $esel); my $back = length ($dline) + length ($prompt) - $delta; $back += $lastlen - $thislen, print $term_OUT ' ' x ($lastlen - $thislen) if $lastlen > $thislen; if ($back) { my $out = substr_with_props($prompt, $dline, 0, $delta, $have_ket, $bsel, $esel); if ($back <= length $out and not defined $bsel) { print $term_OUT "\b" x $back; } else { print $term_OUT "\r", $out; } } ($lastlen, $lastredisplay, $lastdelta, $lastpromptlen) = ($thislen, $dline, $delta, length $prompt); $force_redraw = 0; } sub min { $_[0] < $_[1] ? $_[0] : $_[1]; } sub getc_with_pending { my $key = @Pending ? shift(@Pending) : &$rl_getc; # Save keystrokes for vi '.' command push(@$Dot_buf, $key) if $Dot_buf; $key; } sub rl_getc { my $key; # JP: Added missing declaration if (defined $term_readkey) { # XXXX ??? $Term::ReadLine::Perl::term->Tk_loop if $Term::ReadLine::toloop && defined &Tk::DoOneEvent; $key = Term::ReadKey::ReadKey(0, $term_IN); } else { $key = $Term::ReadLine::Perl::term->get_c; } } ## ## get_command(keymap, ord_command_char) ## ## If the KEYMAP has an entry for COMMAND, it is returned. ## Otherwise, the default command is returned. ## sub get_command { local *KeyMap = shift; my ($key) = @_; my $cmd = defined($KeyMap[$key]) ? $KeyMap[$key] : ($KeyMap{'default'} || 'F_Ding'); if (!defined($cmd) || $cmd eq ''){ warn "internal error (key=$key)"; $cmd = 'F_Ding'; } $cmd } ## ## do_command(keymap, numericarg, command) ## ## If the KEYMAP has an entry for COMMAND, it is executed. ## Otherwise, the default command for the keymap is executed. ## sub do_command { my ($keymap, $count, $key) = @_; my $cmd = get_command($keymap, $key); local *KeyMap = $keymap; # &$cmd may expect it... &$cmd($count, $key); $lastcommand = $cmd; } ## ## Save whatever state we wish to save as an anonymous array. ## The only other function that needs to know about its encoding is getstate/preserve_state. ## sub savestate { [$D, $si, $LastCommandKilledText, $KillBuffer, $line, @_]; } # consolidate only-movement changes together... sub preserve_state { return if $Vi_mode; push(@undo, savestate()), return unless @undo; my $last = $undo[-1]; my @only_movement; if ( #$last->[1] == $si and $last->[2] eq $LastCommandKilledText # and $last->[3] eq $KillBuffer and $last->[4] eq $line ) { # Only position changed; remove old only-position-changed records pop @undo if $undo[-1]->[5]; @only_movement = 1; } push(@undo, savestate(@only_movement)); } ## ## $_[1] is an ASCII ordinal; inserts as per $count. ## sub F_SelfInsert { remove_selection(); my ($count, $ord) = @_; my $text2add = pack('C', $ord) x $count; if ($InsertMode) { substr($line,$D,0) .= $text2add; } else { ## note: this can screw up with 2-byte characters. substr($line,$D,length($text2add)) = $text2add; } $D += length($text2add); } ## ## Return the line as-is to the user. ## sub F_AcceptLine { &add_line_to_history; $AcceptLine = $line; local $\ = ''; print $term_OUT "\r\n"; $force_redraw = 0; (pos $line) = undef; # Another way to force redraw... } sub add_line_to_history { ## Insert into history list if: ## * bigger than the minimal length ## * not same as last entry ## if (length($line) >= $minlength && (!@rl_History || $rl_History[$#rl_History] ne $line) ) { ## if the history list is full, shift out an old one first.... while (@rl_History >= $rl_MaxHistorySize) { shift(@rl_History); $rl_HistoryIndex--; } push(@rl_History, $line); ## tack new one on the end } } sub remove_selection { if ( $rl_first_char && length $line && $rl_default_selected ) { $line = ''; $D = 0; return 1; } if ($rl_delete_selection and defined pos $line and $D != pos $line) { kill_text(pos $line, $D); return 1; } return; } #sub F_ReReadInitFile; #sub rl_getc; sub F_ForwardChar; sub F_BackwardChar; sub F_BeginningOfLine; sub F_EndOfLine; sub F_ForwardWord; sub F_BackwardWord; sub F_RedrawCurrentLine; sub F_ClearScreen; # sub F_SelfInsert; sub F_QuotedInsert; sub F_TabInsert; #sub F_AcceptLine; sub F_OperateAndGetNext; sub F_BackwardDeleteChar; sub F_DeleteChar; sub F_UnixWordRubout; sub F_UnixLineDiscard; sub F_UpcaseWord; sub F_DownCaseWord; sub F_CapitalizeWord; sub F_TransposeWords; sub F_TransposeChars; sub F_PreviousHistory; sub F_NextHistory; sub F_BeginningOfHistory; sub F_EndOfHistory; sub F_ReverseSearchHistory; sub F_ForwardSearchHistory; sub F_HistorySearchBackward; sub F_HistorySearchForward; sub F_KillLine; sub F_BackwardKillLine; sub F_Yank; sub F_YankPop; sub F_YankNthArg; sub F_KillWord; sub F_BackwardKillWord; sub F_Abort; sub F_DoLowercaseVersion; sub F_DoMetaVersion; sub F_DoControlVersion; sub F_Undo; sub F_RevertLine; sub F_EmacsEditingMode; sub F_Interrupt; sub F_PrefixMeta; sub F_UniversalArgument; sub F_DigitArgument; sub F_OverwriteMode; sub F_InsertMode; sub F_ToggleInsertMode; sub F_Suspend; sub F_Ding; sub F_PossibleCompletions; sub F_Complete; sub F_YankClipboard; sub F_CopyRegionAsKillClipboard; sub F_KillRegionClipboard; sub clipboard_set; sub F_BeginUndoGroup; sub F_EndUndoGroup; sub F_DoNothing; sub F_ForceMemorizeDigitArgument; sub F_MemorizeDigitArgument; sub F_UnmemorizeDigitArgument; sub F_ResetDigitArgument; sub F_MergeInserts; sub F_MemorizePos; sub F_BeginPasteGroup; sub F_EndPasteGroup; sub F_BeginEditGroup; sub F_EndEditGroup; # Comment next line and __DATA__ line below to disable the selfloader. use SelfLoader; 1; __DATA__ # From here on anything may be autoloaded sub max { $_[0] > $_[1] ? $_[0] : $_[1]; } sub isupper { ord($_[0]) >= ord('A') && ord($_[0]) <= ord('Z'); } sub islower { ord($_[0]) >= ord('a') && ord($_[0]) <= ord('z'); } sub toupper { &islower ? pack('c', ord($_[0])-ord('a')+ord('A')) : $_[0];} sub tolower { &isupper ? pack('c', ord($_[0])-ord('A')+ord('a')) : $_[0];} ## ## rl_set(var_name, value_string) ## ## Sets the named variable as per the given value, if both are appropriate. ## Allows the user of the package to set such things as HorizontalScrollMode ## and EditingMode. Value_string may be of the form ## HorizontalScrollMode ## horizontal-scroll-mode ## ## Also called during the parsing of ~/.inputrc for "set var value" lines. ## ## The previous value is returned, or undef on error. ########################################################################### ## Consider the following example for how to add additional variables ## accessible via rl_set (and hence via ~/.inputrc). ## ## Want: ## We want an external variable called "FooTime" (or "foo-time"). ## It may have values "January", "Monday", or "Noon". ## Internally, we'll want those values to translate to 1, 2, and 12. ## ## How: ## Have an internal variable $var_FooTime that will represent the current ## internal value, and initialize it to the default value. ## Make an array %var_FooTime whose keys and values are are the external ## (January, Monday, Noon) and internal (1, 2, 12) values: ## ## $var_FooTime = $var_FooTime{'January'} = 1; #default ## $var_FooTime{'Monday'} = 2; ## $var_FooTime{'Noon'} = 12; ## sub rl_set { local($var, $val) = @_; # &preinit's keys are all Capitalized $val = ucfirst lc $val if $val =~ /^(on|off)$/i; $var = 'CompleteAddsuffix' if $var eq 'visible-stats'; ## if the variable is in the form "some-name", change to "SomeName" local($_) = "\u$var"; local($return) = undef; s/-(.)/\u$1/g; # Skip unknown variables: return unless defined $ {'readline::'}{"var_$_"}; local(*V); # avoid <Undefined value assign to typeglob> warning { local $^W; *V = $ {'readline::'}{"var_$_"}; } if (!defined($V)) { # XXX Duplicate check? warn("Warning$InputLocMsg:\n". " Invalid variable `$var'\n") if $^W; } elsif (!defined($V{$val})) { local(@selections) = keys(%V); warn("Warning$InputLocMsg:\n". " Invalid value `$val' for variable `$var'.\n". " Choose from [@selections].\n") if $^W; } else { $return = $V; $V = $V{$val}; ## make the setting } $return; } ## ## OnSecondByte($index) ## ## Returns true if the byte at $index into $line is the second byte ## of a two-byte character. ## sub OnSecondByte { return 0 if !$_rl_japanese_mb || $_[0] == 0 || $_[0] == length($line); die 'internal error' if $_[0] > length($line); ## ## must start looking from the beginning of the line .... can ## have one- and two-byte characters interspersed, so can't tell ## without starting from some know location..... ## local($i); for ($i = 0; $i < $_[0]; $i++) { next if ord(substr($line, $i, 1)) < 0x80; ## We have the first byte... must bump up $i to skip past the 2nd. ## If that one we're skipping past is the index, it should be changed ## to point to the first byte of the pair (therefore, decremented). return 1 if ++$i == $_[0]; } 0; ## seemed to be OK. } ## ## CharSize(index) ## ## Returns the size of the character at the given INDEX in the ## current line. Most characters are just one byte in length, ## but if the byte at the index and the one after has the high ## bit set those two bytes are one character of size=2. ## ## Assumes that index points to the first of a 2-byte char if not ## pointing to a 2-byte char. ## sub CharSize { return 2 if $_rl_japanese_mb && ord(substr($line, $_[0], 1)) >= 0x80 && ord(substr($line, $_[0]+1, 1)) >= 0x80; 1; } sub GetTTY { $base_termios = $termios; # make it long enough &ioctl($term_IN,$TCGETS,$base_termios) || die "Can't ioctl TCGETS: $!"; } sub XonTTY { # I don't know which of these I actually need to do this to, so we'll # just cover all bases. &ioctl($term_IN,$TCXONC,$TCOON); # || die "Can't ioctl TCXONC STDIN: $!"; &ioctl($term_OUT,$TCXONC,$TCOON); # || die "Can't ioctl TCXONC STDOUT: $!"; } sub ___SetTTY { # print "before SetTTY\n\r"; # system 'stty -a'; &XonTTY; &GetTTY if !defined($base_termios); @termios = unpack($termios_t,$base_termios); $termios[$TERMIOS_IFLAG] |= $TERMIOS_READLINE_ION; $termios[$TERMIOS_IFLAG] &= ~$TERMIOS_READLINE_IOFF; $termios[$TERMIOS_OFLAG] |= $TERMIOS_READLINE_OON; $termios[$TERMIOS_OFLAG] &= ~$TERMIOS_READLINE_OOFF; $termios[$TERMIOS_LFLAG] |= $TERMIOS_READLINE_LON; $termios[$TERMIOS_LFLAG] &= ~$TERMIOS_READLINE_LOFF; $termios[$TERMIOS_VMIN] = 1; $termios[$TERMIOS_VTIME] = 0; $termios = pack($termios_t,@termios); &ioctl($term_IN,$TCSETS,$termios) || die "Can't ioctl TCSETS: $!"; # print "after SetTTY\n\r"; # system 'stty -a'; } sub normal_tty_mode { return if $stdin_not_tty || $dumb_term || !$initialized; &XonTTY; &GetTTY if !defined($base_termios); &ResetTTY; } sub ___ResetTTY { # print "before ResetTTY\n\r"; # system 'stty -a'; @termios = unpack($termios_t,$base_termios); $termios[$TERMIOS_IFLAG] |= $TERMIOS_NORMAL_ION; $termios[$TERMIOS_IFLAG] &= ~$TERMIOS_NORMAL_IOFF; $termios[$TERMIOS_OFLAG] |= $TERMIOS_NORMAL_OON; $termios[$TERMIOS_OFLAG] &= ~$TERMIOS_NORMAL_OOFF; $termios[$TERMIOS_LFLAG] |= $TERMIOS_NORMAL_LON; $termios[$TERMIOS_LFLAG] &= ~$TERMIOS_NORMAL_LOFF; $termios = pack($termios_t,@termios); &ioctl($term_IN,$TCSETS,$termios) || die "Can't ioctl TCSETS: $!"; # print "after ResetTTY\n\r"; # system 'stty -a'; } ## ## WordBreak(index) ## ## Returns true if the character at INDEX into $line is a basic word break ## character, false otherwise. ## sub WordBreak { index($rl_basic_word_break_characters, substr($line,$_[0],1)) != -1; } sub getstate { ($D, $si, $LastCommandKilledText, $KillBuffer, $line) = @{$_[0]}; $ThisCommandKilledText = $LastCommandKilledText; } ## ## kills from D=$_[0] to $_[1] (to the killbuffer if $_[2] is true) ## sub kill_text { my($from, $to, $save) = (&min($_[0], $_[1]), &max($_[0], $_[1]), $_[2]); my $len = $to - $from; if ($save) { $KillBuffer = '' if !$LastCommandKilledText; if ($from < $LastCommandKilledText - 1) { $KillBuffer = substr($line, $from, $len) . $KillBuffer; } else { $KillBuffer .= substr($line, $from, $len); } $ThisCommandKilledText = 1 + $from; } substr($line, $from, $len) = ''; ## adjust $D if ($D > $from) { $D -= $len; $D = $from if $D < $from; } } ########################################################################### ## Bindable functions... pretty much in the same order as in readline.c ### ########################################################################### ## ## Returns true if $D at the end of the line. ## sub at_end_of_line { ($D + &CharSize($D)) == (length($line) + 1); } ## ## Move forward (right) $count characters. ## sub F_ForwardChar { my $count = shift; return &F_BackwardChar(-$count) if $count < 0; while (!&at_end_of_line && $count-- > 0) { $D += &CharSize($D); } } ## ## Move backward (left) $count characters. ## sub F_BackwardChar { my $count = shift; return &F_ForwardChar(-$count) if $count < 0; while (($D > 0) && ($count-- > 0)) { $D--; ## Move back one regardless, $D-- if &OnSecondByte($D); ## another if over a big char. } } ## ## Go to beginning of line. ## sub F_BeginningOfLine { $D = 0; } ## ## Move to the end of the line. ## sub F_EndOfLine { &F_ForwardChar(100) while !&at_end_of_line; } ## ## Move to the end of this/next word. ## Done as many times as $count says. ## sub F_ForwardWord { my $count = shift; return &F_BackwardWord(-$count) if $count < 0; while (!&at_end_of_line && $count-- > 0) { ## skip forward to the next word (if not already on one) &F_ForwardChar(1) while !&at_end_of_line && &WordBreak($D); ## skip forward to end of word &F_ForwardChar(1) while !&at_end_of_line && !&WordBreak($D); } } ## ## ## Move to the beginning of this/next word. ## Done as many times as $count says. ## sub F_BackwardWord { my $count = shift; return &F_ForwardWord(-$count) if $count < 0; while ($D > 0 && $count-- > 0) { ## skip backward to the next word (if not already on one) &F_BackwardChar(1) while (($D > 0) && &WordBreak($D-1)); ## skip backward to start of word &F_BackwardChar(1) while (($D > 0) && !&WordBreak($D-1)); } } ## ## Refresh the input line. ## sub F_RedrawCurrentLine { $force_redraw = 1; } ## ## Clear the screen and refresh the line. ## If given a numeric arg other than 1, simply refreshes the line. ## sub F_ClearScreen { my $count = shift; return &F_RedrawCurrentLine if $count != 1; $rl_CLEAR = `clear` if !defined($rl_CLEAR); local $\ = ''; print $term_OUT $rl_CLEAR; $force_redraw = 1; } ## ## Insert the next character read verbatim. ## sub F_QuotedInsert { my $count = shift; &F_SelfInsert($count, ord(&getc_with_pending)); } ## ## Insert a tab. ## sub F_TabInsert { my $count = shift; &F_SelfInsert($count, ord("\t")); } ## Operate - accept the current line and fetch from the ## history the next line relative to current line for default. sub F_OperateAndGetNext { my $count = shift; &F_AcceptLine; my $remainingEntries = $#rl_History - $rl_HistoryIndex; if ($count > 0 && $remainingEntries >= 0) { # there is something to repeat if ($remainingEntries > 0) { # if we are not on last line $rl_HistoryIndex++; # fetch next one $count = $remainingEntries if $count > $remainingEntries; } $rl_OperateCount = $count; } } ## ## Removes $count chars to left of cursor (if not at beginning of line). ## If $count > 1, deleted chars saved to kill buffer. ## sub F_BackwardDeleteChar { return if remove_selection(); my $count = shift; return F_DeleteChar(-$count) if $count < 0; my $oldD = $D; &F_BackwardChar($count); return if $D == $oldD; &kill_text($oldD, $D, $count > 1); } ## ## Removes the $count chars from under the cursor. ## If there is no line and the last command was different, tells ## readline to return EOF. ## If there is a line, and the cursor is at the end of it, and we're in ## tcsh completion mode, then list possible completions. ## If $count > 1, deleted chars saved to kill buffer. ## sub F_DeleteChar { return if remove_selection(); my $count = shift; return F_DeleteBackwardChar(-$count) if $count < 0; if (length($line) == 0) { # EOF sent (probably OK in DOS too) $AcceptLine = $ReturnEOF = 1 if $lastcommand ne 'F_DeleteChar'; return; } if ($D == length ($line)) { &complete_internal('?') if $var_TcshCompleteMode; return; } my $oldD = $D; &F_ForwardChar($count); return if $D == $oldD; &kill_text($oldD, $D, $count > 1); } ## ## Kill to previous whitespace. ## sub F_UnixWordRubout { return &F_Ding if $D == 0; (my $oldD, local $rl_basic_word_break_characters) = ($D, "\t "); # JP: Fixed a bug here - both were 'my' F_BackwardWord(1); kill_text($D, $oldD, 1); } ## ## Kill line from cursor to beginning of line. ## sub F_UnixLineDiscard { return &F_Ding if $D == 0; kill_text(0, $D, 1); } sub F_UpcaseWord { &changecase($_[0], 'up'); } sub F_DownCaseWord { &changecase($_[0], 'down'); } sub F_CapitalizeWord { &changecase($_[0], 'cap'); } ## ## Translated from GNUs readline.c ## One arg is 'up' to upcase $_[0] words, ## 'down' to downcase them, ## or something else to capitolize them. ## If $_[0] is negative, the dot is not moved. ## sub changecase { my $op = $_[1]; my ($start, $state, $c, $olddot) = ($D, 0); if ($_[0] < 0) { $olddot = $D; $_[0] = -$_[0]; } &F_ForwardWord; ## goes forward $_[0] words. while ($start < $D) { $c = substr($line, $start, 1); if ($op eq 'up') { $c = &toupper($c); } elsif ($op eq 'down') { $c = &tolower($c); } else { ## must be 'cap' if ($state == 1) { $c = &tolower($c); } else { $c = &toupper($c); $state = 1; } $state = 0 if $c !~ tr/a-zA-Z//; } substr($line, $start, 1) = $c; $start++; } $D = $olddot if defined($olddot); } sub F_TransposeWords { my $c = shift; return F_Ding() unless $c; # Find "this" word F_BackwardWord(1); my $p0 = $D; F_ForwardWord(1); my $p1 = $D; return F_Ding() if $p1 == $p0; my ($p2, $p3) = ($p0, $p1); if ($c > 0) { F_ForwardWord($c); $p3 = $D; F_BackwardWord(1); $p2 = $D; } else { F_BackwardWord(1 - $c); $p0 = $D; F_ForwardWord(1); $p1 = $D; } return F_Ding() if $p3 == $p2 or $p2 < $p1; my $r = substr $line, $p2, $p3 - $p2; substr($line, $p2, $p3 - $p2) = substr $line, $p0, $p1 - $p0; substr($line, $p0, $p1 - $p0) = $r; $D = $c > 0 ? $p3 : $p0 + $p3 - $p2; # End of "this" word after edit return 1; ## Exchange words: C-Left, C-right, C-right, C-left. If positions do ## not overlap, we get two things to transpose. Repeat count? } ## ## Switch char at dot with char before it. ## If at the end of the line, switch the previous two... ## (NOTE: this could screw up multibyte characters.. should do correctly) sub F_TransposeChars { if ($D == length($line) && $D >= 2) { substr($line,$D-2,2) = substr($line,$D-1,1).substr($line,$D-2,1); } elsif ($D >= 1) { substr($line,$D-1,2) = substr($line,$D,1) .substr($line,$D-1,1); } else { &F_Ding; } } sub F_PreviousHistory { &get_line_from_history($rl_HistoryIndex - shift); } sub F_NextHistory { &get_line_from_history($rl_HistoryIndex + shift); } sub F_BeginningOfHistory { &get_line_from_history(0); } sub F_EndOfHistory { &get_line_from_history(@rl_History); } sub F_ReverseSearchHistory { &DoSearch($_[0] >= 0 ? 1 : 0); } sub F_ForwardSearchHistory { &DoSearch($_[0] >= 0 ? 0 : 1); } sub F_HistorySearchBackward { &DoSearchStart(($_[0] >= 0 ? 1 : 0),substr($line,0,$D)); } sub F_HistorySearchForward { &DoSearchStart(($_[0] >= 0 ? 0 : 1),substr($line,0,$D)); } ## returns a new $i or -1 if not found. sub search { my ($i, $str) = @_; return -1 if $i < 0 || $i > $#rl_History; ## for safety while (1) { return $i if rindex($rl_History[$i], $str) >= 0; if ($reverse) { return -1 if $i-- == 0; } else { return -1 if $i++ == $#rl_History; } } } sub DoSearch { local $reverse = shift; # Used in search() my $oldline = $line; my $oldD = $D; my $searchstr = ''; ## string we're searching for my $I = -1; ## which history line $si = 0; while (1) { if ($I != -1) { $line = $rl_History[$I]; $D += index($rl_History[$I], $searchstr); } &redisplay( '('.($reverse?'reverse-':'') ."i-search) `$searchstr': "); $c = &getc_with_pending; if (($KeyMap[ord($c)] || 0) eq 'F_ReverseSearchHistory') { if ($reverse && $I != -1) { if ($tmp = &search($I-1,$searchstr), $tmp >= 0) { $I = $tmp; } else { &F_Ding; } } $reverse = 1; } elsif (($KeyMap[ord($c)] || 0) eq 'F_ForwardSearchHistory') { if (!$reverse && $I != -1) { if ($tmp = &search($I+1,$searchstr), $tmp >= 0) { $I = $tmp; } else { &F_Ding; } } $reverse = 0; } elsif ($c eq "\007") { ## abort search... restore line and return $line = $oldline; $D = $oldD; return; } elsif (ord($c) < 32 || ord($c) > 126) { push(@Pending, $c) if $c ne "\e"; if ($I < 0) { ## just restore $line = $oldline; $D = $oldD; } else { #chose this line $line = $rl_History[$I]; $D = index($rl_History[$I], $searchstr); } &redisplay(); last; } else { ## Add this character to the end of the search string and ## see if that'll match anything. $tmp = &search($I < 0 ? $rl_HistoryIndex-$reverse: $I, $searchstr.$c); if ($tmp == -1) { &F_Ding; } else { $searchstr .= $c; $I = $tmp; } } } } ## returns a new $i or -1 if not found. sub searchStart { my ($i, $reverse, $str) = @_; $i += $reverse ? - 1: +1; return -1 if $i < 0 || $i > $#rl_History; ## for safety while (1) { return $i if index($rl_History[$i], $str) == 0; if ($reverse) { return -1 if $i-- == 0; } else { return -1 if $i++ == $#rl_History; } } } sub DoSearchStart { my ($reverse,$what) = @_; my $i = searchStart($rl_HistoryIndex, $reverse, $what); return if $i == -1; $rl_HistoryIndex = $i; ($D, $line) = (0, $rl_History[$rl_HistoryIndex]); F_BeginningOfLine(); F_ForwardChar(length($what)); } ########################################################################### ########################################################################### ## ## Kill from cursor to end of line. ## sub F_KillLine { my $count = shift; return F_BackwardKillLine(-$count) if $count < 0; kill_text($D, length($line), 1); } ## ## Delete from cursor to beginning of line. ## sub F_BackwardKillLine { my $count = shift; return F_KillLine(-$count) if $count < 0; return F_Ding if $D == 0; kill_text(0, $D, 1); } ## ## TextInsert(count, string) ## sub TextInsert { my $count = shift; my $text2add = shift(@_) x $count; if ($InsertMode) { substr($line,$D,0) .= $text2add; } else { substr($line,$D,length($text2add)) = $text2add; } $D += length($text2add); } sub F_Yank { remove_selection(); &TextInsert($_[0], $KillBuffer); } sub F_YankPop { 1; ## not implemented yet } sub F_YankNthArg { 1; ## not implemented yet } ## ## Kill to the end of the current word. If not on a word, kill to ## the end of the next word. ## sub F_KillWord { my $count = shift; return &F_BackwardKillWord(-$count) if $count < 0; my $oldD = $D; &F_ForwardWord($count); ## moves forward $count words. kill_text($oldD, $D, 1); } ## ## Kill backward to the start of the current word, or, if currently ## not on a word (or just at the start of a word), to the start of the ## previous word. ## sub F_BackwardKillWord { my $count = shift; return F_KillWord(-$count) if $count < 0; my $oldD = $D; &F_BackwardWord($count); ## moves backward $count words. kill_text($D, $oldD, 1); } ########################################################################### ########################################################################### ## ## Abort the current input. ## sub F_Abort { &F_Ding; } ## ## If the character that got us here is upper case, ## do the lower-case equiv... ## sub F_DoLowercaseVersion { if ($_[1] >= ord('A') && $_[1] <= ord('Z')) { &do_command(*KeyMap, $_[0], $_[1] - ord('A') + ord('a')); } else { &F_Ding; } } ## ## do the equiv with control key... ## sub F_DoControlVersion { local *KeyMap = $var_EditingMode; my $key = $_[1]; if ($key == ord('?')) { $key = 0x7F; } else { $key &= ~(0x80 | 0x60); } &do_command(*KeyMap, $_[0], $key); } ## ## do the equiv with meta key... ## sub F_DoMetaVersion { local *KeyMap = $var_EditingMode; unshift @Pending, chr $_[1]; &do_command(*KeyMap, $_[0], ord "\e"); } ## ## If the character that got us here is Alt-Char, ## do the Esc Char equiv... ## sub F_DoEscVersion { my ($ord, $t) = $_[1]; &F_Ding unless $KeyMap{'Esc'}; for $t (([ord 'w', '`1234567890-='], [ord ',', 'zxcvbnm,./\\'], [16, 'qwertyuiop[]'], [ord(' ') - 2, 'asdfghjkl;\''])) { next unless $ord >= $t->[0] and $ord < $t->[0] + length($t->[1]); $ord = ord substr $t->[1], $ord - $t->[0], 1; return &do_command($KeyMap{'Esc'}, $_[0], $ord); } &F_Ding; } ## ## Undo one level. ## sub F_Undo { pop(@undo); # unless $undo[-1]->[5]; ## get rid of the state we just put on, so we can go back one. if (@undo) { &getstate(pop(@undo)); } else { &F_Ding; } } ## ## Replace the current line to some "before" state. ## sub F_RevertLine { if ($rl_HistoryIndex >= $#rl_History+1) { $line = $line_for_revert; } else { $line = $rl_History[$rl_HistoryIndex]; } $D = length($line); } sub F_EmacsEditingMode { $var_EditingMode = $var_EditingMode{'emacs'}; $Vi_mode = 0; } ########################################################################### ########################################################################### ## ## (Attempt to) interrupt the current program. ## sub F_Interrupt { local $\ = ''; print $term_OUT "\r\n"; &ResetTTY; kill ("INT", 0); ## We're back.... must not have died. $force_redraw = 1; } ## ## Execute the next character input as a command in a meta keymap. ## sub F_PrefixMeta { my($count, $keymap) = ($_[0], "$KeyMap{'name'}_$_[1]"); ##print "F_PrefixMeta [$keymap]\n\r"; die "<internal error, $_[1]>" unless %$keymap; do_command(*$keymap, $count, ord(&getc_with_pending)); } sub F_UniversalArgument { &F_DigitArgument; } ## ## For typing a numeric prefix to a command.... ## sub F_DigitArgument { my $in = chr $_[1]; my ($NumericArg, $sawDigit) = (1, 0); my ($increment, $ord); ($NumericArg, $sawDigit) = ($_[0], $_[0] !~ /e0$/i) if $doingNumArg; # XXX What if Esc-- 1 ? do { $ord = ord $in; if (defined($KeyMap[$ord]) && $KeyMap[$ord] eq 'F_UniversalArgument') { $NumericArg *= 4; } elsif ($ord == ord('-') && !$sawDigit) { $NumericArg = -$NumericArg; } elsif ($ord >= ord('0') && $ord <= ord('9')) { $increment = ($ord - ord('0')) * ($NumericArg < 0 ? -1 : 1); if ($sawDigit) { $NumericArg = $NumericArg * 10 + $increment; } else { $NumericArg = $increment; $sawDigit = 1; } } else { local(*KeyMap) = $var_EditingMode; &redisplay(); $doingNumArg = 1; # Allow NumArg inside NumArg &do_command(*KeyMap, $NumericArg . ($sawDigit ? '': 'e0'), $ord); return; } ## make sure it's not toooo big. if ($NumericArg > $rl_max_numeric_arg) { $NumericArg = $rl_max_numeric_arg; } elsif ($NumericArg < -$rl_max_numeric_arg) { $NumericArg = -$rl_max_numeric_arg; } &redisplay(sprintf("(arg %d) ", $NumericArg)); } while defined($in = &getc_with_pending); } sub F_OverwriteMode { $InsertMode = 0; } sub F_InsertMode { $InsertMode = 1; } sub F_ToggleInsertMode { $InsertMode = !$InsertMode; } ## ## (Attempt to) suspend the program. ## sub F_Suspend { if ($inDOS && length($line)==0) { # EOF sent $AcceptLine = $ReturnEOF = 1 if $lastcommand ne 'F_DeleteChar'; return; } local $\ = ''; print $term_OUT "\r\n"; &ResetTTY; eval { kill ("TSTP", 0) }; ## We're back.... &SetTTY; $force_redraw = 1; } ## ## Ring the bell. ## Should do something with $var_PreferVisibleBell here, but what? ## sub F_Ding { local $\ = ''; print $term_OUT "\007"; return; # Undefined return value } ########################################################################## #### command/file completion ############################################ ########################################################################## ## ## How Command Completion Works ## ## When asked to do a completion operation, readline isolates the word ## to the immediate left of the cursor (i.e. what's just been typed). ## This information is then passed to some function (which may be supplied ## by the user of this package) which will return an array of possible ## completions. ## ## If there is just one, that one is used. Otherwise, they are listed ## in some way (depends upon $var_TcshCompleteMode). ## ## The default is to do filename completion. The function that performs ## this task is readline'rl_filename_list. ## ## A minimal-trouble way to have command-completion is to call ## readline'rl_basic_commands with an array of command names, such as ## &readline'rl_basic_commands('quit', 'run', 'set', 'list') ## Those command names will then be used for completion if the word being ## completed begins the line. Otherwise, completion is disallowed. ## ## The way to have the most power is to provide a function to readline ## which will accept information about a partial word that needs completed, ## and will return the appropriate list of possibilities. ## This is done by setting $readline'rl_completion_function to the name of ## the function to run. ## ## That function will be called with three args ($text, $line, $start). ## TEXT is the partial word that should be completed. LINE is the entire ## input line as it stands, and START is the index of the TEXT in LINE ## (i.e. zero if TEXT is at the beginning of LINE). ## ## A cool completion function will look at LINE and START and give context- ## sensitive completion lists. Consider something that will do completion ## for two commands ## cat FILENAME ## finger USERNAME ## status [this|that|other] ## ## It (untested) might look like: ## ## $readline'rl_completion_function = "main'complete"; ## sub complete { local($text, $_, $start) = @_; ## ## return commands which may match if at the beginning.... ## return grep(/^$text/, 'cat', 'finger') if $start == 0; ## return &rl_filename_list($text) if /^cat\b/; ## return &my_namelist($text) if /^finger\b/; ## return grep(/^text/, 'this', 'that','other') if /^status\b/; ## (); ## } ## Of course, a real completion function would be more robust, but you ## get the idea (I hope). ## ## ## List possible completions ## sub F_PossibleCompletions { &complete_internal('?'); } ## ## List possible completions ## sub F_InsertPossibleCompletions { &complete_internal('*'); } ## ## Do a completion operation. ## If the last thing we did was a completion operation, we'll ## now list the options available (under normal emacs mode). ## ## Under TcshCompleteMode, each contiguous subsequent completion operation ## lists another of the possible options. ## ## Returns true if a completion was done, false otherwise, so vi completion ## routines can test it. ## sub F_Complete { if ($lastcommand eq 'F_Complete') { if ($var_TcshCompleteMode && @tcsh_complete_selections > 0) { substr($line, $tcsh_complete_start, $tcsh_complete_len) = $tcsh_complete_selections[0]; $D -= $tcsh_complete_len; $tcsh_complete_len = length($tcsh_complete_selections[0]); $D += $tcsh_complete_len; push(@tcsh_complete_selections, shift(@tcsh_complete_selections)); } else { &complete_internal('?') or return; } } else { @tcsh_complete_selections = (); &complete_internal("\t") or return; } 1; } ## ## The meat of command completion. Patterned closely after GNU's. ## ## The supposedly partial word at the cursor is "completed" as per the ## single argument: ## "\t" complete as much of the word as is unambiguous ## "?" list possibilities. ## "*" replace word with all possibilities. (who would use this?) ## ## A few notable variables used: ## $rl_completer_word_break_characters ## -- characters in this string break a word. ## $rl_special_prefixes ## -- but if in this string as well, remain part of that word. ## ## Returns true if a completion was done, false otherwise, so vi completion ## routines can test it. ## sub complete_internal { my $what_to_do = shift; my ($point, $end) = ($D, $D); # In vi mode, complete if the cursor is at the *end* of a word, not # after it. ($point++, $end++) if $Vi_mode; if ($point) { ## Not at the beginning of the line; Isolate the word to be completed. 1 while (--$point && (-1 == index($rl_completer_word_break_characters, substr($line, $point, 1)))); # Either at beginning of line or at a word break. # If at a word break (that we don't want to save), skip it. $point++ if ( (index($rl_completer_word_break_characters, substr($line, $point, 1)) != -1) && (index($rl_special_prefixes, substr($line, $point, 1)) == -1) ); } my $text = substr($line, $point, $end - $point); $rl_completer_terminator_character = ' '; @matches = &completion_matches($rl_completion_function,$text,$line,$point); if (@matches == 0) { return &F_Ding; } elsif ($what_to_do eq "\t") { my $replacement = shift(@matches); $replacement .= $rl_completer_terminator_character if @matches == 1; &F_Ding if @matches != 1; if ($var_TcshCompleteMode) { @tcsh_complete_selections = (@matches, $text); $tcsh_complete_start = $point; $tcsh_complete_len = length($replacement); } if ($replacement ne '') { substr($line, $point, $end-$point) = $replacement; $D = $D - ($end - $point) + length($replacement); } } elsif ($what_to_do eq '?') { shift(@matches); ## remove prepended common prefix local $\ = ''; print $term_OUT "\n\r"; # print "@matches\n\r"; &pretty_print_list (@matches); $force_redraw = 1; } elsif ($what_to_do eq '*') { shift(@matches); ## remove common prefix. local $" = $rl_completer_terminator_character; my $replacement = "@matches$rl_completer_terminator_character"; substr($line, $point, $end-$point) = $replacement; ## insert all. $D = $D - ($end - $point) + length($replacement); } else { warn "\r\n[Internal error]"; return &F_Ding; } 1; } ## ## completion_matches(func, text, line, start) ## ## FUNC is a function to call as FUNC(TEXT, LINE, START) ## where TEXT is the item to be completed ## LINE is the whole command line, and ## START is the starting index of TEXT in LINE. ## The FUNC should return a list of items that might match. ## ## completion_matches will return that list, with the longest common ## prefix prepended as the first item of the list. Therefor, the list ## will either be of zero length (meaning no matches) or of 2 or more..... ## ## Works with &rl_basic_commands. Return items from @rl_basic_commands ## that start with the pattern in $text. sub use_basic_commands { my ($text, $line, $start) = @_; return () if $start != 0; grep(/^$text/, @rl_basic_commands); } sub completion_matches { my ($func, $text, $line, $start) = @_; ## get the raw list my @matches; #print qq/\r\neval("\@matches = &$func(\$text, \$line, \$start)\n\r/;#DEBUG #eval("\@matches = &$func(\$text, \$line, \$start);1") || warn "$@ "; @matches = &$func($text, $line, $start); ## if anything returned , find the common prefix among them if (@matches) { my $prefix = $matches[0]; my $len = length($prefix); for ($i = 1; $i < @matches; $i++) { next if substr($matches[$i], 0, $len) eq $prefix; $prefix = substr($prefix, 0, --$len); last if $len == 0; $i--; ## retry this one to see if the shorter one matches. } unshift(@matches, $prefix); ## make common prefix the first thing. } @matches; } ## ## For use in passing to completion_matches(), returns a list of ## filenames that begin with the given pattern. The user of this package ## can set $rl_completion_function to 'rl_filename_list' to restore the ## default of filename matching if they'd changed it earlier, either ## directly or via &rl_basic_commands. ## sub rl_filename_list { my $pattern = $_[0]; my @files = (<$pattern*>); if ($var_CompleteAddsuffix) { foreach (@files) { if (-l $_) { $_ .= '@'; } elsif (-d _) { $_ .= '/'; } elsif (-x _) { $_ .= '*'; } elsif (-S _ || -p _) { $_ .= '='; } } } return @files; } ## ## For use by the user of the package. Called with a list of possible ## commands, will allow command completion on those commands, but only ## for the first word on a line. ## For example: &rl_basic_commands('set', 'quit', 'type', 'run'); ## ## This is for people that want quick and simple command completion. ## A more thoughtful implementation would set $rl_completion_function ## to a routine that would look at the context of the word being completed ## and return the appropriate possibilities. ## sub rl_basic_commands { @rl_basic_commands = @_; $rl_completion_function = 'use_basic_commands'; } ## ## Print an array in columns like ls -C. Originally based on stuff ## (lsC2.pl) by utashiro@sran230.sra.co.jp (Kazumasa Utashiro). ## sub pretty_print_list { my @list = @_; return unless @list; my ($lines, $columns, $mark, $index); ## find width of widest entry my $maxwidth = 0; grep(length > $maxwidth && ($maxwidth = length), @list); $maxwidth++; $columns = $maxwidth >= $rl_screen_width ? 1 : int($rl_screen_width / $maxwidth); ## if there's enough margin to interspurse among the columns, do so. $maxwidth += int(($rl_screen_width % $maxwidth) / $columns); $lines = int((@list + $columns - 1) / $columns); $columns-- while ((($lines * $columns) - @list + 1) > $lines); $mark = $#list - $lines; local $\ = ''; for ($l = 0; $l < $lines; $l++) { for ($index = $l; $index <= $mark; $index += $lines) { printf("%-$ {maxwidth}s", $list[$index]); } print $term_OUT $list[$index] if $index <= $#list; print $term_OUT "\n\r"; } } ##----------------- Vi Routines -------------------------------- sub F_ViAcceptLine { &F_AcceptLine(); &F_ViInput(); } # Repeat the most recent one of these vi commands: # # a A c C d D i I p P r R s S x X ~ # sub F_ViRepeatLastCommand { my($count) = @_; return &F_Ding if !$Last_vi_command; my @lastcmd = @$Last_vi_command; # Multiply @lastcmd's numeric arg by $count. unless ($count == 1) { my $n = ''; while (@lastcmd and $lastcmd[0] =~ /^\d$/) { $n *= 10; $n += shift(@lastcmd); } $count *= $n unless $n eq ''; unshift(@lastcmd, split(//, $count)); } push(@Pending, @lastcmd); } sub F_ViMoveCursor { my($count, $ord) = @_; my $new_cursor = &get_position($count, $ord, undef, $Vi_move_patterns); return &F_Ding if !defined $new_cursor; $D = $new_cursor; } sub F_ViFindMatchingParens { # Move to the first parens at or after $D my $old_d = $D; &forward_scan(1, q/[^[\](){}]*/); my $parens = substr($line, $D, 1); my $mate_direction = { '(' => [ ')', 1 ], '[' => [ ']', 1 ], '{' => [ '}', 1 ], ')' => [ '(', -1 ], ']' => [ '[', -1 ], '}' => [ '{', -1 ], }->{$parens}; return &F_Ding() unless $mate_direction; my($mate, $direction) = @$mate_direction; my $lvl = 1; while ($lvl) { last if !$D && ($direction < 0); &F_ForwardChar($direction); last if &at_end_of_line; my $c = substr($line, $D, 1); if ($c eq $parens) { $lvl++; } elsif ($c eq $mate) { $lvl--; } } if ($lvl) { # We didn't find a match $D = $old_d; return &F_Ding(); } } sub F_ViForwardFindChar { &do_findchar(1, 1, @_); } sub F_ViBackwardFindChar { &do_findchar(-1, 0, @_); } sub F_ViForwardToChar { &do_findchar(1, 0, @_); } sub F_ViBackwardToChar { &do_findchar(-1, 1, @_); } sub F_ViMoveCursorTo { &do_findchar(1, -1, @_); } sub F_ViMoveCursorFind { &do_findchar(1, 0, @_); } sub F_ViRepeatFindChar { my($n) = @_; return &F_Ding if !defined $Last_findchar; &findchar(@$Last_findchar, $n); } sub F_ViInverseRepeatFindChar { my($n) = @_; return &F_Ding if !defined $Last_findchar; my($c, $direction, $offset) = @$Last_findchar; &findchar($c, -$direction, $offset, $n); } sub do_findchar { my($direction, $offset, $n) = @_; my $c = &getc_with_pending; $c = &getc_with_pending if $c eq "\cV"; return &F_ViCommandMode if $c eq "\e"; $Last_findchar = [$c, $direction, $offset]; &findchar($c, $direction, $offset, $n); } sub findchar { my($c, $direction, $offset, $n) = @_; my $old_d = $D; while ($n) { last if !$D && ($direction < 0); &F_ForwardChar($direction); last if &at_end_of_line; my $char = substr($line, $D, 1); $n-- if substr($line, $D, 1) eq $c; } if ($n) { # Not found $D = $old_d; return &F_Ding; } &F_ForwardChar($offset); } sub F_ViMoveToColumn { my($n) = @_; $D = 0; my $col = 1; while (!&at_end_of_line and $col < $n) { my $c = substr($line, $D, 1); if ($c eq "\t") { $col += 7; $col -= ($col % 8) - 1; } else { $col++; } $D += &CharSize($D); } } sub start_dot_buf { my($count, $ord) = @_; $Dot_buf = [pack('c', $ord)]; unshift(@$Dot_buf, split(//, $count)) if $count > 1; $Dot_state = savestate(); } sub end_dot_buf { # We've recognized an editing command # Save the command keystrokes for use by '.' $Last_vi_command = $Dot_buf; undef $Dot_buf; # Save the pre-command state for use by 'u' and 'U'; $Vi_undo_state = $Dot_state; $Vi_undo_all_state = $Dot_state if !$Vi_undo_all_state; # Make sure the current line is treated as new line for history purposes. $rl_HistoryIndex = $#rl_History + 1; } sub save_dot_buf { &start_dot_buf(@_); &end_dot_buf; } sub F_ViUndo { return &F_Ding unless defined $Vi_undo_state; my $state = savestate(); &getstate($Vi_undo_state); $Vi_undo_state = $state; } sub F_ViUndoAll { $Vi_undo_state = $Vi_undo_all_state; &F_ViUndo; } sub F_ViChange { my($count, $ord) = @_; &start_dot_buf(@_); &do_delete($count, $ord, $Vi_change_patterns) || return(); &vi_input_mode; } sub F_ViDelete { my($count, $ord) = @_; &start_dot_buf(@_); &do_delete($count, $ord, $Vi_delete_patterns); &end_dot_buf; } sub do_delete { my($count, $ord, $poshash) = @_; my $other_end = &get_position($count, undef, $ord, $poshash); return &F_Ding if !defined $other_end; if ($other_end < 0) { # dd - delete entire line &kill_text(0, length($line), 1); } else { &kill_text($D, $other_end, 1); } 1; # True return value } sub F_ViDeleteChar { my($count) = @_; &save_dot_buf(@_); my $other_end = $D + $count; $other_end = length($line) if $other_end > length($line); &kill_text($D, $other_end, 1); } sub F_ViBackwardDeleteChar { my($count) = @_; &save_dot_buf(@_); my $other_end = $D - $count; $other_end = 0 if $other_end < 0; &kill_text($other_end, $D, 1); $D = $other_end; } ## ## Prepend line with '#', add to history, and clear the input buffer ## (this feature was borrowed from ksh). ## sub F_SaveLine { local $\ = ''; $line = '#'.$line; &redisplay(); print $term_OUT "\r\n"; &add_line_to_history; $line_for_revert = ''; &get_line_from_history(scalar @rl_History); &F_ViInput() if $Vi_mode; } # # Come here if we see a non-positioning keystroke when a positioning # keystroke is expected. # sub F_ViNonPosition { # Not a positioning command - undefine the cursor to indicate the error # to get_position(). undef $D; } # # Come here if we see <esc><char>, but *not* an arrow key or other # mapped sequence, when a positioning keystroke is expected. # sub F_ViPositionEsc { my($count, $ord) = @_; # We got <esc><char> in vipos mode. Put <char> back onto the # input stream and terminate the positioning command. unshift(@Pending, pack('c', $ord)); &F_ViNonPosition; } # Interpret vi positioning commands sub get_position { my ($count, $ord, $fullline_ord, $poshash) = @_; # Manipulate a copy of the cursor, not the real thing local $D = $D; # $ord (first character of positioning command) is an optional argument. $ord = ord(&getc_with_pending) if !defined $ord; # Detect double character (for full-line operation, e.g. dd) return -1 if defined $fullline_ord and $ord == $fullline_ord; my $re = $poshash->{$ord}; if ($re) { my $c = pack('c', $ord); if (lc($c) eq 'b') { &backward_scan($count, $re); } else { &forward_scan($count, $re); } } else { # Move the local copy of the cursor &do_command($var_EditingMode{'vipos'}, $count, $ord); } # Return the new cursor (undef if illegal command) $D; } ## ## Go to first non-space character of line. ## sub F_ViFirstWord { $D = 0; &forward_scan(1, q{\s+}); } sub forward_scan { my($count, $re) = @_; while ($count--) { last unless substr($line, $D) =~ m{^($re)}; $D += length($1); } } sub backward_scan { my($count, $re) = @_; while ($count--) { last unless substr($line, 0, $D) =~ m{($re)$}; $D -= length($1); } } # Note: like the emacs case transforms, this doesn't work for # two-byte characters. sub F_ViToggleCase { my($count) = @_; &save_dot_buf(@_); while ($count-- > 0) { substr($line, $D, 1) =~ tr/A-Za-z/a-zA-Z/; &F_ForwardChar(1); if (&at_end_of_line) { &F_BackwardChar(1); last; } } } # Go to the numbered history line, as listed by the 'H' command, i.e. the # current $line is line 1, the youngest line in @rl_History is 2, etc. sub F_ViHistoryLine { my($n) = @_; &get_line_from_history(@rl_History - $n + 1); } sub get_line_from_history { my($n) = @_; return &F_Ding if $n < 0 or $n > @rl_History; return if $n == $rl_HistoryIndex; # If we're moving from the currently-edited line, save it for later. $line_for_revert = $line if $rl_HistoryIndex == @rl_History; # Get line from history buffer (or from saved edit line). $line = ($n == @rl_History) ? $line_for_revert : $rl_History[$n]; $D = $Vi_mode ? 0 : length $line; # Subsequent 'U' will bring us back to this point. $Vi_undo_all_state = savestate() if $Vi_mode; $rl_HistoryIndex = $n; } sub F_PrintHistory { my($count) = @_; $count = 20 if $count == 1; # Default - assume 'H', not '1H' my $end = $rl_HistoryIndex + $count/2; $end = @rl_History if $end > @rl_History; my $start = $end - $count + 1; $start = 0 if $start < 0; my $lmh = length $rl_MaxHistorySize; my $lspace = ' ' x ($lmh+3); my $hdr = "$lspace-----"; $hdr .= " (Use ESC <num> UP to retrieve command <num>) -----" unless $Vi_mode; $hdr .= " (Use '<num>G' to retrieve command <num>) -----" if $Vi_mode; local ($\, $,) = ('',''); print "\n$hdr\n"; print $lspace, ". . .\n" if $start > 0; my $i; my $shift = ($Vi_mode != 0); for $i ($start .. $end) { print + ($i == $rl_HistoryIndex) ? '>' : ' ', sprintf("%${lmh}d: ", @rl_History - $i + $shift), ($i < @rl_History) ? $rl_History[$i] : ($i == $rl_HistoryIndex) ? $line : $line_for_revert, "\n"; } print $lspace, ". . .\n" if $end < @rl_History; print "$hdr\n"; &force_redisplay(); &F_ViInput() if $line eq '' && $Vi_mode; } # Redisplay the line, without attempting any optimization sub force_redisplay { local $force_redraw = 1; &redisplay(@_); } # Search history for matching string. As with vi in nomagic mode, the # ^, $, \<, and \> positional assertions, the \* quantifier, the \. # character class, and the \[ character class delimiter all have special # meaning here. sub F_ViSearch { my($n, $ord) = @_; my $c = pack('c', $ord); my $str = &get_vi_search_str($c); if (!defined $str) { # Search aborted by deleting the '/' at the beginning of the line return &F_ViInput() if $line eq ''; return(); } # Null string repeats last search if ($str eq '') { return &F_Ding unless defined $Vi_search_re; } else { # Convert to a regular expression. Interpret $str Like vi in nomagic # mode: '^', '$', '\<', and '\>' positional assertions, '\*' # quantifier, '\.' and '\[]' character classes. my @chars = ($str =~ m{(\\?.)}g); my(@re, @tail); unshift(@re, shift(@chars)) if @chars and $chars[0] eq '^'; push (@tail, pop(@chars)) if @chars and $chars[-1] eq '$'; my $in_chclass; my %chmap = ( '\<' => '\b(?=\w)', '\>' => '(?<=\w)\b', '\*' => '*', '\[' => '[', '\.' => '.', ); my $ch; foreach $ch (@chars) { if ($in_chclass) { # Any backslashes in vi char classes are literal push(@re, "\\") if length($ch) > 1; push(@re, $ch); $in_chclass = 0 if $ch =~ /\]$/; } else { push(@re, (length $ch == 2) ? ($chmap{$ch} || $ch) : ($ch =~ /^\w$/) ? $ch : ("\\", $ch)); $in_chclass = 1 if $ch eq '\['; } } my $re = join('', @re, @tail); $Vi_search_re = q{$re}; } local $reverse = $Vi_search_reverse = ($c eq '/') ? 1 : 0; &do_vi_search(); } sub F_ViRepeatSearch { my($n, $ord) = @_; my $c = pack('c', $ord); return &F_Ding unless defined $Vi_search_re; local $reverse = $Vi_search_reverse; $reverse ^= 1 if $c eq 'N'; &do_vi_search(); } ## returns a new $i or -1 if not found. sub vi_search { my ($i) = @_; return -1 if $i < 0 || $i > $#rl_History; ## for safety while (1) { return $i if $rl_History[$i] =~ /$Vi_search_re/; if ($reverse) { return -1 if $i-- == 0; } else { return -1 if $i++ == $#rl_History; } } } sub do_vi_search { my $incr = $reverse ? -1 : 1; my $i = &vi_search($rl_HistoryIndex + $incr); return &F_Ding if $i < 0; # Not found. $rl_HistoryIndex = $i; ($D, $line) = (0, $rl_History[$rl_HistoryIndex]); } # Using local $line, $D, and $prompt, get and return the string to search for. sub get_vi_search_str { my($c) = @_; local $prompt = $prompt . $c; local ($line, $D) = ('', 0); &redisplay(); # Gather a search string in our local $line. while ($lastcommand ne 'F_ViEndSearch') { &do_command($var_EditingMode{'visearch'}, 1, ord(&getc_with_pending)); &redisplay(); # We've backspaced past beginning of line return undef if !defined $line; } $line; } sub F_ViEndSearch {} sub F_ViSearchBackwardDeleteChar { if ($line eq '') { # Backspaced past beginning of line - terminate search mode undef $line; } else { &F_BackwardDeleteChar(@_); } } ## ## Kill entire line and enter input mode ## sub F_ViChangeEntireLine { &start_dot_buf(@_); kill_text(0, length($line), 1); &vi_input_mode; } ## ## Kill characters and enter input mode ## sub F_ViChangeChar { &start_dot_buf(@_); &F_DeleteChar(@_); &vi_input_mode; } sub F_ViReplaceChar { &start_dot_buf(@_); my $c = &getc_with_pending; $c = &getc_with_pending if $c eq "\cV"; # ctrl-V return &F_ViCommandMode if $c eq "\e"; &end_dot_buf; local $InsertMode = 0; local $D = $D; # Preserve cursor position &F_SelfInsert(1, ord($c)); } ## ## Kill from cursor to end of line and enter input mode ## sub F_ViChangeLine { &start_dot_buf(@_); &F_KillLine(@_); &vi_input_mode; } sub F_ViDeleteLine { &save_dot_buf(@_); &F_KillLine(@_); } sub F_ViPut { my($count) = @_; &save_dot_buf(@_); my $text2add = $KillBuffer x $count; my $ll = length($line); $D++; $D = $ll if $D > $ll; substr($line, $D, 0) = $KillBuffer x $count; $D += length($text2add) - 1; } sub F_ViPutBefore { &save_dot_buf(@_); &TextInsert($_[0], $KillBuffer); } sub F_ViYank { my($count, $ord) = @_; my $pos = &get_position($count, undef, $ord, $Vi_yank_patterns); &F_Ding if !defined $pos; if ($pos < 0) { # yy &F_ViYankLine; } else { my($from, $to) = ($pos > $D) ? ($D, $pos) : ($pos, $D); $KillBuffer = substr($line, $from, $to-$from); } } sub F_ViYankLine { $KillBuffer = $line; } sub F_ViInput { @_ = (1, ord('i')) if !@_; &start_dot_buf(@_); &vi_input_mode; } sub F_ViBeginInput { &start_dot_buf(@_); &F_BeginningOfLine; &vi_input_mode; } sub F_ViReplaceMode { &start_dot_buf(@_); $InsertMode = 0; $var_EditingMode = $var_EditingMode{'vi'}; $Vi_mode = 1; } sub vi_input_mode { $InsertMode = 1; $var_EditingMode = $var_EditingMode{'vi'}; $Vi_mode = 1; } # The previous keystroke was an escape, but the sequence was not recognized # as a mapped sequence (like an arrow key). Enter vi comand mode and # process this keystroke. sub F_ViAfterEsc { my($n, $ord) = @_; &F_ViCommandMode; &do_command($var_EditingMode, 1, $ord); } sub F_ViAppend { &start_dot_buf(@_); &vi_input_mode; &F_ForwardChar; } sub F_ViAppendLine { &start_dot_buf(@_); &vi_input_mode; &F_EndOfLine; } sub F_ViCommandMode { $var_EditingMode = $var_EditingMode{'vicmd'}; $Vi_mode = 1; } sub F_ViAcceptInsert { local $in_accept_line = 1; &F_ViEndInsert; &F_ViAcceptLine; } sub F_ViEndInsert { if ($Dot_buf) { if ($line eq '' and $Dot_buf->[0] eq 'i') { # We inserted nothing into an empty $line - assume it was a # &F_ViInput() call with no arguments, and don't save command. undef $Dot_buf; } else { # Regardless of which keystroke actually terminated this insert # command, replace it with an <esc> in the dot buffer. @{$Dot_buf}[-1] = "\e"; &end_dot_buf; } } &F_ViCommandMode; # Move cursor back to the last inserted character, but not when # we're about to accept a line of input &F_BackwardChar(1) unless $in_accept_line; } sub F_ViDigit { my($count, $ord) = @_; my $n = 0; my $ord0 = ord('0'); while (1) { $n *= 10; $n += $ord - $ord0; my $c = &getc_with_pending; return unless defined $c; $ord = ord($c); last unless $c =~ /^\d$/; } $n *= $count; # So 2d3w deletes six words $n = $rl_max_numeric_arg if $n > $rl_max_numeric_arg; &do_command($var_EditingMode, $n, $ord); } sub F_ViComplete { my($n, $ord) = @_; $Dot_state = savestate(); # Completion is undo-able undef $Dot_buf; # but not redo-able my $ch; while (1) { &F_Complete() or return; # Vi likes the cursor one character right of where emacs like it. &F_ForwardChar(1); &force_redisplay(); # Look ahead to the next input keystroke. $ch = &getc_with_pending(); last unless ord($ch) == $ord; # Not a '\' - quit. # Another '\' was typed - put the cursor back where &F_Complete left # it, and try again. &F_BackwardChar(1); $lastcommand = 'F_Complete'; # Play along with &F_Complete's kludge } unshift(@Pending, $ch); # Unget the lookahead keystroke # Successful completion - enter input mode with cursor beyond end of word. &vi_input_mode; } sub F_ViInsertPossibleCompletions { $Dot_state = savestate(); # Completion is undo-able undef $Dot_buf; # but not redo-able &complete_internal('*') or return; # Successful completion - enter input mode with cursor beyond end of word. &F_ForwardChar(1); &vi_input_mode; } sub F_ViPossibleCompletions { # List possible completions &complete_internal('?'); # Enter input mode with cursor where we left off. &F_ForwardChar(1); &vi_input_mode; } sub F_SetMark { $rl_mark = $D; pos $line = $rl_mark; $line_rl_mark = $rl_HistoryIndex; $force_redraw = 1; } sub F_ExchangePointAndMark { return F_Ding unless $line_rl_mark == $rl_HistoryIndex; ($rl_mark, $D) = ($D, $rl_mark); pos $line = $rl_mark; $D = length $line if $D > length $line; $force_redraw = 1; } sub F_KillRegion { return F_Ding unless $line_rl_mark == $rl_HistoryIndex; $rl_mark = length $line if $rl_mark > length $line; kill_text($rl_mark, $D, 1); $line_rl_mark = -1; # Disable mark } sub F_CopyRegionAsKill { return F_Ding unless $line_rl_mark == $rl_HistoryIndex; $rl_mark = length $line if $rl_mark > length $line; my ($s, $e) = ($rl_mark, $D); ($s, $e) = ($e, $s) if $s > $e; $ThisCommandKilledText = 1 + $s; $KillBuffer = '' if !$LastCommandKilledText; $KillBuffer .= substr($line, $s, $e - $s); } sub clipboard_set { my $in = shift; if ($^O eq 'os2') { eval { require OS2::Process; OS2::Process::ClipbrdText_set($in); # Do not disable \r\n-conversion 1 } and return; } elsif ($^O eq 'MSWin32') { eval { require Win32::Clipboard; Win32::Clipboard::Set($in); 1 } and return; } my $mess; if ($ENV{RL_CLCOPY_CMD}) { $mess = "Writing to pipe `$ENV{RL_CLCOPY_CMD}'"; open COPY, "| $ENV{RL_CLCOPY_CMD}" or warn("$mess: $!"), return; } elsif (defined $ENV{HOME}) { $mess = "Writing to file `$ENV{HOME}/.rl_cutandpaste'"; open COPY, "> $ENV{HOME}/.rl_cutandpaste" or warn("$mess: $!"), return; } else { return; } print COPY $in; close COPY or warn("$mess: closing $!"); } sub F_CopyRegionAsKillClipboard { return clipboard_set($line) unless $line_rl_mark == $rl_HistoryIndex; &F_CopyRegionAsKill; clipboard_set($KillBuffer); } sub F_KillRegionClipboard { &F_KillRegion; clipboard_set($KillBuffer); } sub F_YankClipboard { remove_selection(); my $in; if ($^O eq 'os2') { eval { require OS2::Process; $in = OS2::Process::ClipbrdText(); $in =~ s/\r\n/\n/g; # With old versions, or what? } } elsif ($^O eq 'MSWin32') { eval { require Win32::Clipboard; $in = Win32::Clipboard::GetText(); $in =~ s/\r\n/\n/g; # is this needed? } } else { my $mess; if ($ENV{RL_PASTE_CMD}) { $mess = "Reading from pipe `$ENV{RL_PASTE_CMD}'"; open PASTE, "$ENV{RL_PASTE_CMD} |" or warn("$mess: $!"), return; } elsif (defined $ENV{HOME}) { $mess = "Reading from file `$ENV{HOME}/.rl_cutandpaste'"; open PASTE, "< $ENV{HOME}/.rl_cutandpaste" or warn("$mess: $!"), return; } if ($mess) { local $/; $in = <PASTE>; close PASTE or warn("$mess, closing: $!"); } } if (defined $in) { $in =~ s/\n+$//; return &TextInsert($_[0], $in); } &TextInsert($_[0], $KillBuffer); } sub F_BeginUndoGroup { push @undoGroupS, $#undo; } sub F_EndUndoGroup { return F_Ding unless @undoGroupS; my $last = pop @undoGroupS; return unless $#undo > $last + 1; my $now = pop @undo; $#undo = $last; push @undo, $now; } sub F_DoNothing { # E.g., reset digit-argument 1; } sub F_ForceMemorizeDigitArgument { $memorizedArg = shift; } sub F_MemorizeDigitArgument { return if defined $memorizedArg; $memorizedArg = shift; } sub F_UnmemorizeDigitArgument { $memorizedArg = undef; } sub F_MemorizePos { $memorizedPos = $D; } # It is assumed that F_MemorizePos was called, then something was inserted, # then F_MergeInserts is called with a prefix argument to multiply # insertion by sub F_MergeInserts { my $n = shift; return F_Ding unless defined $memorizedPos and $n > 0; my ($b, $e) = ($memorizedPos, $D); ($b, $e) = ($e, $b) if $e < $b; if ($n) { substr($line, $e, 0) = substr($line, $b, $e - $b) x ($n - 1); } else { substr($line, $b, $e - $b) = ''; } $D = $b + ($e - $b) * $n; } sub F_ResetDigitArgument { return F_Ding unless defined $memorizedArg; my $in = &getc_with_pending; return unless defined $in; my $ord = ord $in; local(*KeyMap) = $var_EditingMode; &do_command(*KeyMap, $memorizedArg, $ord); } sub F_BeginPasteGroup { my $c = shift; $memorizedArg = $c unless defined $memorizedArg; F_BeginUndoGroup(1); $memorizedPos = $D; } sub F_EndPasteGroup { my $c = $memorizedArg; undef $memorizedArg; $c = 1 unless defined $c; F_MergeInserts($c); F_EndUndoGroup(1); } sub F_BeginEditGroup { $memorizedArg = shift; F_BeginUndoGroup(1); } sub F_EndEditGroup { undef $memorizedArg; F_EndUndoGroup(1); } 1; __END__