wyj/neovim
1
0
Fork 0
mirror of https://github.com/neovim/neovim.git synced 2024-09-17 20:58:20 -04:00
Code Issues Packages Projects Releases Wiki Activity

doc: Removed t_XX options/keycodes. (#6616)

Browse Source 
Closes #4482

TODO: revisit find_key_option_len()
This commit is contained in:
Justin M. Keyes 2017-04-29 16:56:40 +02:00 committed by GitHub
parent 5a304b7864
commit 0df1b6655b
14 changed files with 47 additions and 747 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

15
runtime/doc/gui.txt
View File

@ -13,27 +13,15 @@ Vim's Graphical User Interface *gui* *GUI*
5. Menus |menus|
6. Extras |gui-extras|
Other GUI documentation:
|gui_w32.txt| For specific items of the Win32 GUI.
==============================================================================
1. Starting the GUI *gui-start* *E229* *E233*
First you must make sure you actually have a version of Vim with the GUI code
included.
How to start the GUI depends on the system used. Mostly you can run the
GUI version of Vim with:
gvim [options] [files...]
*ginit.vim* *gui-init* *gvimrc* *$MYGVIMRC*
The gvimrc file is where GUI-specific startup commands should be placed. It
is always sourced after the |init.vim| file. If you have one then the
$MYGVIMRC environment variable has its name.
When the GUI starts up initializations are carried out, in this order:
- The 'term' option is set to "builtin_gui" and terminal options are reset to
their default value for the GUI |terminal-options|.
- If the system menu file exists, it is sourced. The name of this file is
normally "$VIMRUNTIME/menu.vim". You can check this with ":version". Also
see |$VIMRUNTIME|. To skip loading the system menu include 'M' in
@ -92,8 +80,7 @@ and only the first one that is found is read.
:winp[os] {X} {Y} *E466*
Put the GUI vim window at the given {X} and {Y} coordinates.
The coordinates should specify the position in pixels of the
top left corner of the window. Does not work in all versions.
Does work in an (new) xterm |xterm-color|.
top left corner of the window.
When the GUI window has not been opened yet, the values are
remembered until the window is opened. The position is
adjusted to make the window fit on the screen (if possible).

1
runtime/doc/help.txt
View File

@ -148,7 +148,6 @@ Special issues ~
GUI ~
|gui.txt| Graphical User Interface (GUI)
|gui_w32.txt| Win32 GUI
Interfaces ~
|if_cscop.txt| using Cscope with Vim

2
runtime/doc/intro.txt
View File

@ -445,7 +445,6 @@ notation meaning equivalent decimal value(s) ~
<M-...> alt-key or meta-key *META* *meta* *alt* *<M-*
<A-...> same as <M-...> *<A-*
<D-...> command-key or "super" key *<D-*
<t_xx> key with "xx" entry in termcap
-----------------------------------------------------------------------
Note: The shifted cursor keys, the help key, and the undo key are only
@ -480,7 +479,6 @@ the ":map" command. The rules are:
<S-F11> Shifted function key 11
<M-a> Meta- a ('a' with bit 8 set)
<M-A> Meta- A ('A' with bit 8 set)
<t_kd> "kd" termcap entry (cursor down key)
The <> notation uses <lt> to escape the special meaning of key names. Using a
backslash also works, but only when 'cpoptions' does not include the 'B' flag.

38
runtime/doc/map.txt
View File

@ -453,42 +453,30 @@ See |:verbose-cmd| for more information.
1.5 MAPPING SPECIAL KEYS *:map-special-keys*
There are three ways to map a special key:
There are two ways to map a special key:
1. The Vi-compatible method: Map the key code. Often this is a sequence that
starts with <Esc>. To enter a mapping like this you type ":map " and then
you have to type CTRL-V before hitting the function key. Note that when
the key code for the key is in the termcap (the t_ options), it will
automatically be translated into the internal code and become the second
way of mapping (unless the 'k' flag is included in 'cpoptions').
the key code for the key is in the termcap, it will automatically be
translated into the internal code and become the second way of mapping
(unless the 'k' flag is included in 'cpoptions').
2. The second method is to use the internal code for the function key. To
enter such a mapping type CTRL-K and then hit the function key, or use
the form "#1", "#2", .. "#9", "#0", "<Up>", "<S-Down>", "<S-F7>", etc.
(see table of keys |key-notation|, all keys from <Up> can be used). The
first ten function keys can be defined in two ways: Just the number, like
"#2", and with "<F>", like "<F2>". Both stand for function key 2. "#0"
refers to function key 10, defined with option 't_f10', which may be
function key zero on some keyboards. The <> form cannot be used when
'cpoptions' includes the '<' flag.
3. Use the termcap entry, with the form <t_xx>, where "xx" is the name of the
termcap entry. Any string entry can be used. For example: >
:map <t_F3> G
< Maps function key 13 to "G". This does not work if 'cpoptions' includes
the '<' flag.
The advantage of the second and third method is that the mapping will work on
different terminals without modification (the function key will be
translated into the same internal code or the actual key code, no matter what
terminal you are using. The termcap must be correct for this to work, and you
must use the same mappings).
refers to function key 10. The <> form cannot be used when 'cpoptions'
includes the '<' flag.
DETAIL: Vim first checks if a sequence from the keyboard is mapped. If it
isn't the terminal key codes are tried (see |terminal-options|). If a
terminal code is found it is replaced with the internal code. Then the check
for a mapping is done again (so you can map an internal code to something
else). What is written into the script file depends on what is recognized.
If the terminal key code was recognized as a mapping the key code itself is
written to the script file. If it was recognized as a terminal code the
internal code is written to the script file.
isn't the terminal key codes are tried. If a terminal code is found it is
replaced with the internal code. Then the check for a mapping is done again
(so you can map an internal code to something else). What is written into the
script file depends on what is recognized. If the terminal key code was
recognized as a mapping the key code itself is written to the script file. If
it was recognized as a terminal code the internal code is written to the
script file.
1.6 SPECIAL CHARACTERS *:map-special-chars*

94
runtime/doc/mbyte.txt
View File

@ -14,26 +14,8 @@ For an introduction to the most common features, see |usr_45.txt| in the user
manual.
For changing the language of messages and menus see |mlang.txt|.
{not available when compiled without the |+multi_byte| feature}
1. Getting started |mbyte-first|
2. Locale |mbyte-locale|
3. Encoding |mbyte-encoding|
4. Using a terminal |mbyte-terminal|
5. Fonts on X11 |mbyte-fonts-X11|
6. Fonts on MS-Windows |mbyte-fonts-MSwin|
7. Input on X11 |mbyte-XIM|
8. Input on MS-Windows |mbyte-IME|
9. Input with a keymap |mbyte-keymap|
10. Using UTF-8 |mbyte-utf8|
11. Overview of options |mbyte-options|
NOTE: This file contains UTF-8 characters. These may show up as strange
characters or boxes when using another encoding.
==============================================================================
1. Getting started *mbyte-first*
Getting started *mbyte-first*
This is a summary of the multibyte features in Vim. If you are lucky it works
as described and you can start using Vim without much trouble. If something
@ -89,8 +71,7 @@ be displayed and edited correctly.
For the GUI you must select fonts that work with UTF-8. This
is the difficult part. It depends on the system you are using, the locale and
a few other things. See the chapters on fonts: |mbyte-fonts-X11| for
X-Windows and |mbyte-fonts-MSwin| for MS-Windows.
a few other things.
For X11 you can set the 'guifontset' option to a list of fonts that together
cover the characters that are used. Example for Korean: >
@ -120,7 +101,7 @@ The options 'iminsert', 'imsearch' and 'imcmdline' can be used to chose
the different input methods or disable them temporarily.
==============================================================================
2. Locale *mbyte-locale*
Locale *mbyte-locale*
The easiest setup is when your whole system uses the locale you want to work
in. But it's also possible to set the locale for one shell you are working
@ -209,7 +190,7 @@ Or specify $LANG when starting Vim:
You could make a small shell script for this.
==============================================================================
3. Encoding *mbyte-encoding*
Encoding *mbyte-encoding*
In Nvim UTF-8 is always used internally to encode characters.
This applies to all the places where text is used, including buffers (files
@ -418,49 +399,7 @@ neither of them can be found Vim will still work but some conversions won't be
possible.
==============================================================================
4. Using a terminal *mbyte-terminal*
The GUI fully supports multi-byte characters. It is also possible in a
terminal, if the terminal supports the same encoding that Vim uses. Thus this
is less flexible.
For example, you can run Vim in a xterm with added multi-byte support and/or
|XIM|. Examples are kterm (Kanji term) and hanterm (for Korean), Eterm
(Enlightened terminal) and rxvt.
UTF-8 IN XFREE86 XTERM *UTF8-xterm*
This is a short explanation of how to use UTF-8 character encoding in the
xterm that comes with XFree86 by Thomas Dickey (text by Markus Kuhn).
Get the latest xterm version which has now UTF-8 support:
http://invisible-island.net/xterm/xterm.html
Compile it with "./configure --enable-wide-chars ; make"
Also get the ISO 10646-1 version of various fonts, which is available on
http://www.cl.cam.ac.uk/~mgk25/download/ucs-fonts.tar.gz
and install the font as described in the README file.
Now start xterm with >
xterm -u8 -fn -misc-fixed-medium-r-semicondensed--13-120-75-75-c-60-iso10646-1
or, for bigger character: >
xterm -u8 -fn -misc-fixed-medium-r-normal--15-140-75-75-c-90-iso10646-1
and you will have a working UTF-8 terminal emulator. Try both >
cat utf-8-demo.txt
vim utf-8-demo.txt
with the demo text that comes with ucs-fonts.tar.gz in order to see
whether there are any problems with UTF-8 in your xterm.
==============================================================================
5. Fonts on X11 *mbyte-fonts-X11*
Fonts on X11 *mbyte-fonts-X11*
Unfortunately, using fonts in X11 is complicated. The name of a single-byte
font is a long string. For multi-byte fonts we need several of these...
@ -596,20 +535,7 @@ Also make sure that you set 'guifontset' before setting fonts for highlight
groups.
==============================================================================
6. Fonts on MS-Windows *mbyte-fonts-MSwin*
The simplest is to use the font dialog to select fonts and try them out. You
can find this at the "Edit/Select Font..." menu. Once you find a font name
that works well you can use this command to see its name: >
:set guifont
Then add a command to your |ginit.vim| file to set 'guifont': >
:set guifont=courier_new:h12
==============================================================================
7. Input on X11 *mbyte-XIM*
Input on X11 *mbyte-XIM*
X INPUT METHOD (XIM) BACKGROUND *XIM* *xim* *x-input-method*
@ -768,7 +694,7 @@ For example, when you are using kinput2 as |IM-server| and sh, >
<
==============================================================================
8. Input on MS-Windows *mbyte-IME*
Input on MS-Windows *mbyte-IME*
(Windows IME support) *multibyte-ime* *IME*
@ -842,7 +768,7 @@ Cursor color when IME or XIM is on *CursorIM*
status is on.
==============================================================================
9. Input with a keymap *mbyte-keymap*
Input with a keymap *mbyte-keymap*
When the keyboard doesn't produce the characters you want to enter in your
text, you can use the 'keymap' option. This will translate one or more
@ -1090,7 +1016,7 @@ Combining forms:
ﭏ 0xfb4f Xal alef-lamed
==============================================================================
10. Using UTF-8 *mbyte-utf8* *UTF-8* *utf-8* *utf8*
Using UTF-8 *mbyte-utf8* *UTF-8* *utf-8* *utf8*
*Unicode* *unicode*
The Unicode character set was designed to include all characters from other
character sets. Therefore it is possible to write text in any language using
@ -1222,7 +1148,7 @@ not everybody is able to type a composing character.
==============================================================================
11. Overview of options *mbyte-options*
Overview of options *mbyte-options*
These options are relevant for editing multi-byte files. Check the help in
options.txt for detailed information.

37
runtime/doc/options.txt
View File

@ -130,39 +130,6 @@ A few special texts:
Last set from error handler ~
Option was cleared when evaluating it resulted in an error.
{not available when compiled without the |+eval| feature}
*:set-termcap* *E522*
For {option} the form "t_xx" may be used to set a terminal option. This will
override the value from the termcap. You can then use it in a mapping. If
the "xx" part contains special characters, use the <t_xx> form: >
:set <t_#4>=^[Ot
This can also be used to translate a special code for a normal key. For
example, if Alt-b produces <Esc>b, use this: >
:set <M-b>=^[b
(the ^[ is a real <Esc> here, use CTRL-V <Esc> to enter it)
The advantage over a mapping is that it works in all situations.
You can define any key codes, e.g.: >
:set t_xy=^[foo;
There is no warning for using a name that isn't recognized. You can map these
codes as you like: >
:map <t_xy> something
< *E846*
When a key code is not set, it's like it does not exist. Trying to get its
value will result in an error: >
:set t_kb=
:set t_kb
E846: Key code not set: t_kb
The t_xx options cannot be set from a |modeline| or in the |sandbox|, for
security reasons.
The listing from ":set" looks different from Vi. Long string options are put
at the end of the list. The number of options is quite large. The output of
"set all" probably does not fit on the screen, causing Vim to give the
|more-prompt|.
*option-backslash*
To include white space in a string option value it has to be preceded with a
backslash. To include a backslash you have to use two. Effectively this
@ -628,7 +595,7 @@ A jump table for the options with a short description can be found at |Q_op|.
See Unicode Standard Annex #11 (http://www.unicode.org/reports/tr11).
Vim may set this option automatically at startup time when Vim is
compiled with the |+termresponse| feature and if |t_u7| is set to the
compiled with the |+termresponse| feature and if t_u7 is set to the
escape sequence to request cursor position report.
*'autochdir'* *'acd'* *'noautochdir'* *'noacd'*
@ -2840,8 +2807,6 @@ A jump table for the options with a short description can be found at |Q_op|.
blinking off you can use "blinkon0". The cursor only
blinks when Vim is waiting for input, not while
executing a command.
To make the cursor blink in an xterm, see
|xterm-blink|.
{group-name}
a highlight group name, that sets the color and font
for the cursor

9
runtime/doc/repeat.txt
View File

@ -357,8 +357,7 @@ terminal-independent two character codes. This means that they can be used
in the same way on different kinds of terminals. The first character of a
key code is 0x80 or 128, shown on the screen as "~@". The second one can be
found in the list |key-notation|. Any of these codes can also be entered
with CTRL-V followed by the three digit decimal code. This does NOT work for
the <t_xx> termcap codes, these can only be used in mappings.
with CTRL-V followed by the three digit decimal code.
*:source_crnl* *W15*
Windows: Files that are read with ":source" normally have <CR><NL> <EOL>s.
@ -369,12 +368,6 @@ something like ":map <F1> :help^M", where "^M" is a <CR>. If the first line
ends in a <CR>, but following ones don't, you will get an error message,
because the <CR> from the first lines will be lost.
Mac Classic: Files that are read with ":source" normally have <CR> <EOL>s.
These always work. If you are using a file with <NL> <EOL>s (for example, a
file made on Unix), this will be recognized if 'fileformats' is not empty and
the first line does not end in a <CR>. Be careful not to use a file with <NL>
linebreaks which has a <CR> in first line.
On other systems, Vim expects ":source"ed files to end in a <NL>. These
always work. If you are using a file with <CR><NL> <EOL>s (for example, a
file made on Windows), all lines will have a trailing <CR>. This may cause

153
runtime/doc/syntax.txt
View File

@ -4636,8 +4636,7 @@ mentioned for the default values. See |:verbose-cmd| for more information.
*highlight-args* *E416* *E417* *E423*
There are three types of terminals for highlighting:
term a normal terminal (vt100, xterm)
cterm a color terminal (Windows console, color-xterm, these have the "Co"
termcap entry)
cterm a color terminal (Windows console, color-xterm)
gui the GUI
For each type the highlighting can be given. This makes it possible to use
@ -4677,21 +4676,12 @@ stop={term-list} *term-list* *highlight-stop*
highlighted area. This should undo the "start" argument.
Otherwise the screen will look messed up.
The {term-list} can have two forms:
1. A string with escape sequences.
This is any string of characters, except that it can't start with
"t_" and blanks are not allowed. The <> notation is recognized
here, so you can use things like "<Esc>" and "<Space>". Example:
{term-list} is a a string with escape sequences. This is any string of
characters, except that it can't start with "t_" and blanks are not
allowed. The <> notation is recognized here, so you can use things
like "<Esc>" and "<Space>". Example:
start=<Esc>[27h;<Esc>[<Space>r;
2. A list of terminal codes.
Each terminal code has the form "t_xx", where "xx" is the name of
the termcap entry. The codes have to be separated with commas.
White space is not allowed. Example:
start=t_C1,t_BL
The terminal codes must exist for this to work.
2. highlight arguments for color terminals
@ -4716,7 +4706,7 @@ ctermbg={color-nr} *highlight-ctermbg*
unpredictable. See your xterm documentation for the defaults. The
colors for a color-xterm can be changed from the .Xdefaults file.
Unfortunately this means that it's not possible to get the same colors
for each user. See |xterm-color| for info about color xterms.
for each user.
The MSDOS standard colors are fixed (in a console window), so these
have been used for the names. But the meaning of color names in X11
@ -5209,32 +5199,6 @@ When splitting the window, the new window will use the original syntax.
==============================================================================
17. Color xterms *xterm-color* *color-xterm*
Most color xterms have only eight colors. If you don't get colors with the
default setup, it should work with these lines in your vimrc: >
:if &term =~ "xterm"
: if has("terminfo")
: set t_Co=8
: set t_Sf=<Esc>[3%p1%dm
: set t_Sb=<Esc>[4%p1%dm
: else
: set t_Co=8
: set t_Sf=<Esc>[3%dm
: set t_Sb=<Esc>[4%dm
: endif
:endif
< [<Esc> is a real escape, type CTRL-V <Esc>]
You might want to change the first "if" to match the name of your terminal,
e.g. "dtterm" instead of "xterm".
Note: Do these settings BEFORE doing ":syntax on". Otherwise the colors may
be wrong.
*xiterm* *rxvt*
The above settings have been mentioned to work for xiterm and rxvt too.
But for using 16 colors in an rxvt these should work with terminfo: >
:set t_AB=<Esc>[%?%p1%{8}%<%t25;%p1%{40}%+%e5;%p1%{32}%+%;%dm
:set t_AF=<Esc>[%?%p1%{8}%<%t22;%p1%{30}%+%e1;%p1%{22}%+%;%dm
<
*colortest.vim*
To test your color setup, a file has been included in the Vim distribution.
To use it, execute this command: >
@ -5245,111 +5209,6 @@ output lighter foreground colors, even though the number of colors is defined
at 8. Therefore Vim sets the "cterm=bold" attribute for light foreground
colors, when 't_Co' is 8.
*xfree-xterm*
To get 16 colors or more, get the newest xterm version (which should be
included with XFree86 3.3 and later). You can also find the latest version
at: >
http://invisible-island.net/xterm/xterm.html
Here is a good way to configure it. This uses 88 colors and enables the
termcap-query feature, which allows Vim to ask the xterm how many colors it
supports. >
./configure --disable-bold-color --enable-88-color --enable-tcap-query
If you only get 8 colors, check the xterm compilation settings.
(Also see |UTF8-xterm| for using this xterm with UTF-8 character encoding).
This xterm should work with these lines in your vimrc (for 16 colors): >
:if has("terminfo")
: set t_Co=16
: set t_AB=<Esc>[%?%p1%{8}%<%t%p1%{40}%+%e%p1%{92}%+%;%dm
: set t_AF=<Esc>[%?%p1%{8}%<%t%p1%{30}%+%e%p1%{82}%+%;%dm
:else
: set t_Co=16
: set t_Sf=<Esc>[3%dm
: set t_Sb=<Esc>[4%dm
:endif
< [<Esc> is a real escape, type CTRL-V <Esc>]
Without |+terminfo|, Vim will recognize these settings, and automatically
translate cterm colors of 8 and above to "<Esc>[9%dm" and "<Esc>[10%dm".
Colors above 16 are also translated automatically.
For 256 colors this has been reported to work: >
:set t_AB=<Esc>[48;5;%dm
:set t_AF=<Esc>[38;5;%dm
Or just set the TERM environment variable to "xterm-color" or "xterm-16color"
and try if that works.
You probably want to use these X resources (in your ~/.Xdefaults file):
XTerm*color0: #000000
XTerm*color1: #c00000
XTerm*color2: #008000
XTerm*color3: #808000
XTerm*color4: #0000c0
XTerm*color5: #c000c0
XTerm*color6: #008080
XTerm*color7: #c0c0c0
XTerm*color8: #808080
XTerm*color9: #ff6060
XTerm*color10: #00ff00
XTerm*color11: #ffff00
XTerm*color12: #8080ff
XTerm*color13: #ff40ff
XTerm*color14: #00ffff
XTerm*color15: #ffffff
Xterm*cursorColor: Black
[Note: The cursorColor is required to work around a bug, which changes the
cursor color to the color of the last drawn text. This has been fixed by a
newer version of xterm, but not everybody is using it yet.]
To get these right away, reload the .Xdefaults file to the X Option database
Manager (you only need to do this when you just changed the .Xdefaults file): >
xrdb -merge ~/.Xdefaults
<
*xterm-blink* *xterm-blinking-cursor*
To make the cursor blink in an xterm, see tools/blink.c. Or use Thomas
Dickey's xterm above patchlevel 107 (see above for where to get it), with
these resources:
XTerm*cursorBlink: on
XTerm*cursorOnTime: 400
XTerm*cursorOffTime: 250
XTerm*cursorColor: White
*hpterm-color*
These settings work (more or less) for an hpterm, which only supports 8
foreground colors: >
:if has("terminfo")
: set t_Co=8
: set t_Sf=<Esc>[&v%p1%dS
: set t_Sb=<Esc>[&v7S
:else
: set t_Co=8
: set t_Sf=<Esc>[&v%dS
: set t_Sb=<Esc>[&v7S
:endif
< [<Esc> is a real escape, type CTRL-V <Esc>]
*Eterm* *enlightened-terminal*
These settings have been reported to work for the Enlightened terminal
emulator, or Eterm. They might work for all xterm-like terminals that use the
bold attribute to get bright colors. Add an ":if" like above when needed. >
:set t_Co=16
:set t_AF=^[[%?%p1%{8}%<%t3%p1%d%e%p1%{22}%+%d;1%;m
:set t_AB=^[[%?%p1%{8}%<%t4%p1%d%e%p1%{32}%+%d;1%;m
<
*TTpro-telnet*
These settings should work for TTpro telnet. Tera Term Pro is a freeware /
open-source program for MS-Windows. >
set t_Co=16
set t_AB=^[[%?%p1%{8}%<%t%p1%{40}%+%e%p1%{32}%+5;%;%dm
set t_AF=^[[%?%p1%{8}%<%t%p1%{30}%+%e%p1%{22}%+1;%;%dm
Also make sure TTpro's Setup / Window / Full Color is enabled, and make sure
that Setup / Font / Enable Bold is NOT enabled.
(info provided by John Love-Jensen <eljay@Adobe.COM>)
==============================================================================
18. When syntax is slow *:syntime*

385
runtime/doc/term.txt
View File

@ -10,29 +10,17 @@ Vim uses information about the terminal you are using to fill the screen and
recognize what keys you hit. If this information is not correct, the screen
may be messed up or keys may not be recognized. The actions which have to be
performed on the screen are accomplished by outputting a string of
characters. Special keys produce a string of characters. These strings are
stored in the terminal options, see |terminal-options|.
NOTE: Most of this is not used when running the |GUI|.
1. Startup |startup-terminal|
2. Terminal options |terminal-options|
3. Window size |window-size|
4. Slow and fast terminals |slow-fast-terminal|
5. Using the mouse |mouse-using|
characters.
==============================================================================
1. Startup *startup-terminal*
Startup *startup-terminal*
When Vim is started a default terminal type is assumed. for MS-DOS this is
the pc terminal, for Unix an ansi terminal.
*termcap* *terminfo* *E557* *E558* *E559*
On Unix the terminfo database or termcap file is used. This is referred to as
"termcap" in all the documentation. At compile time, when running configure,
the choice whether to use terminfo or termcap is done automatically. When
running Vim the output of ":version" will show |+terminfo| if terminfo is
used. Also see |xterm-screens|.
"termcap" in all the documentation.
Settings depending on terminal *term-dependent-settings*
@ -45,25 +33,12 @@ can do this best in your vimrc. Example: >
... vt100, vt102 maps and settings ...
endif
<
*raw-terminal-mode*
For normal editing the terminal will be put into "raw" mode. The strings
defined with 't_ti' and 't_ks' will be sent to the terminal. Normally this
puts the terminal in a state where the termcap codes are valid and activates
the cursor and function keys. When Vim exits the terminal will be put back
into the mode it was before Vim started. The strings defined with 't_te' and
't_ke' will be sent to the terminal.
*cs7-problem*
Note: If the terminal settings are changed after running Vim, you might have
an illegal combination of settings. This has been reported on Solaris 2.5
with "stty cs8 parenb", which is restored as "stty cs7 parenb". Use
"stty cs8 -parenb -istrip" instead, this is restored correctly.
Some termcap entries are wrong in the sense that after sending 't_ks' the
cursor keys send codes different from the codes defined in the termcap. To
avoid this you can set 't_ks' (and 't_ke') to empty strings. This must be
done during initialization (see |initialization|), otherwise it's too late.
Many cursor key codes start with an <Esc>. Vim must find out if this is a
single hit of the <Esc> key or the start of a cursor key sequence. It waits
for a next character to arrive. If it does not arrive within one second a
@ -92,55 +67,6 @@ them as a cursor key. When you type you normally are not that fast, so they
are recognized as individual typed commands, even though Vim receives the same
sequence of bytes.
*vt100-function-keys* *xterm-function-keys*
An xterm can send function keys F1 to F4 in two modes: vt100 compatible or
not. Because Vim may not know what the xterm is sending, both types of keys
are recognized. The same happens for the <Home> and <End> keys.
normal vt100 ~
<F1> t_k1 <Esc>[11~ <xF1> <Esc>OP *<xF1>-xterm*
<F2> t_k2 <Esc>[12~ <xF2> <Esc>OQ *<xF2>-xterm*
<F3> t_k3 <Esc>[13~ <xF3> <Esc>OR *<xF3>-xterm*
<F4> t_k4 <Esc>[14~ <xF4> <Esc>OS *<xF4>-xterm*
<Home> t_kh <Esc>[7~ <xHome> <Esc>OH *<xHome>-xterm*
<End> t_@7 <Esc>[4~ <xEnd> <Esc>OF *<xEnd>-xterm*
When Vim starts, <xF1> is mapped to <F1>, <xF2> to <F2> etc. This means that
by default both codes do the same thing. If you make a mapping for <xF2>,
because your terminal does have two keys, the default mapping is overwritten,
thus you can use the <F2> and <xF2> keys for something different.
*xterm-shifted-keys*
Newer versions of xterm support shifted function keys and special keys. Vim
recognizes most of them. Use ":set termcap" to check which are supported and
what the codes are. Mostly these are not in a termcap, they are only
supported by the builtin_xterm termcap.
*xterm-modifier-keys*
Newer versions of xterm support Alt and Ctrl for most function keys. To avoid
having to add all combinations of Alt, Ctrl and Shift for every key a special
sequence is recognized at the end of a termcap entry: ";*X". The "X" can be
any character, often '~' is used. The ";*" stands for an optional modifier
argument. ";2" is Shift, ";3" is Alt, ";5" is Ctrl and ";9" is Meta (when
it's different from Alt). They can be combined. Examples: >
:set <F8>=^[[19;*~
:set <Home>=^[[1;*H
Another speciality about these codes is that they are not overwritten by
another code. That is to avoid that the codes obtained from xterm directly
|t_RV| overwrite them.
*xterm-scroll-region*
The default termcap entry for xterm on Sun and other platforms does not
contain the entry for scroll regions. Add ":cs=\E[%i%d;%dr:" to the xterm
entry in /etc/termcap and everything should work.
*xterm-end-home-keys*
On some systems (at least on FreeBSD with XFree86 3.1.2) the codes that the
<End> and <Home> keys send contain a <Nul> character. To make these keys send
the proper key code, add these lines to your ~/.Xdefaults file:
*VT100.Translations: #override \n\
<Key>Home: string("0x1b") string("[7~") \n\
<Key>End: string("0x1b") string("[8~")
*xterm-8bit* *xterm-8-bit*
Xterm can be run in a mode where it uses 8-bit escape sequences. The CSI code
is used instead of <Esc>[. The advantage is that an <Esc> can quickly be
@ -151,309 +77,12 @@ For the builtin termcap entries, Vim checks if the 'term' option contains
mouse and a few other things. You would normally set $TERM in your shell to
"xterm-8bit" and Vim picks this up and adjusts to the 8-bit setting
automatically.
When Vim receives a response to the |t_RV| (request version) sequence and it
When Vim receives a response to the "request version" sequence and it
starts with CSI, it assumes that the terminal is in 8-bit mode and will
convert all key sequences to their 8-bit variants.
==============================================================================
2. Terminal options *terminal-options* *termcap-options* *E436*
The terminal options can be set just like normal options. But they are not
shown with the ":set all" command. Instead use ":set termcap".
It is always possible to change individual strings by setting the
appropriate option. For example: >
:set t_ce=^V^[[K (CTRL-V, <Esc>, [, K)
The options are listed below. The associated termcap code is always equal to
the last two characters of the option name. Only one termcap code is
required: Cursor motion, 't_cm'.
The options 't_da', 't_db', 't_ms', 't_xs' represent flags in the termcap.
When the termcap flag is present, the option will be set to "y". But any
non-empty string means that the flag is set. An empty string means that the
flag is not set. 't_CS' works like this too, but it isn't a termcap flag.
OUTPUT CODES
option meaning ~
t_AB set background color (ANSI) *t_AB* *'t_AB'*
t_AF set foreground color (ANSI) *t_AF* *'t_AF'*
t_AL add number of blank lines *t_AL* *'t_AL'*
t_al add new blank line *t_al* *'t_al'*
t_bc backspace character *t_bc* *'t_bc'*
t_cd clear to end of screen *t_cd* *'t_cd'*
t_ce clear to end of line *t_ce* *'t_ce'*
t_cl clear screen *t_cl* *'t_cl'*
t_cm cursor motion (required!) *E437* *t_cm* *'t_cm'*
t_Co number of colors *t_Co* *'t_Co'*
t_CS if non-empty, cursor relative to scroll region *t_CS* *'t_CS'*
t_cs define scrolling region *t_cs* *'t_cs'*
t_CV define vertical scrolling region *t_CV* *'t_CV'*
t_da if non-empty, lines from above scroll down *t_da* *'t_da'*
t_db if non-empty, lines from below scroll up *t_db* *'t_db'*
t_DL delete number of lines *t_DL* *'t_DL'*
t_dl delete line *t_dl* *'t_dl'*
t_fs set window title end (from status line) *t_fs* *'t_fs'*
t_ke exit "keypad transmit" mode *t_ke* *'t_ke'*
t_ks start "keypad transmit" mode *t_ks* *'t_ks'*
t_le move cursor one char left *t_le* *'t_le'*
t_mb blinking mode *t_mb* *'t_mb'*
t_md bold mode *t_md* *'t_md'*
t_me Normal mode (undoes t_mr, t_mb, t_md and color) *t_me* *'t_me'*
t_mr reverse (invert) mode *t_mr* *'t_mr'*
*t_ms* *'t_ms'*
t_ms if non-empty, cursor can be moved in standout/inverse mode
t_nd non destructive space character *t_nd* *'t_nd'*
t_op reset to original color pair *t_op* *'t_op'*
t_RI cursor number of chars right *t_RI* *'t_RI'*
t_Sb set background color *t_Sb* *'t_Sb'*
t_Sf set foreground color *t_Sf* *'t_Sf'*
t_se standout end *t_se* *'t_se'*
t_so standout mode *t_so* *'t_so'*
t_sr scroll reverse (backward) *t_sr* *'t_sr'*
t_te out of "termcap" mode *t_te* *'t_te'*
t_ti put terminal in "termcap" mode *t_ti* *'t_ti'*
t_ts set window title start (to status line) *t_ts* *'t_ts'*
t_ue underline end *t_ue* *'t_ue'*
t_us underline mode *t_us* *'t_us'*
t_Ce undercurl end *t_Ce* *'t_Ce'*
t_Cs undercurl mode *t_Cs* *'t_Cs'*
t_ut clearing uses the current background color *t_ut* *'t_ut'*
t_vb visual bell *t_vb* *'t_vb'*
t_ve cursor visible *t_ve* *'t_ve'*
t_vi cursor invisible *t_vi* *'t_vi'*
t_vs cursor very visible *t_vs* *'t_vs'*
*t_xs* *'t_xs'*
t_xs if non-empty, standout not erased by overwriting (hpterm)
t_ZH italics mode *t_ZH* *'t_ZH'*
t_ZR italics end *t_ZR* *'t_ZR'*
Added by Vim (there are no standard codes for these):
t_IS set icon text start *t_IS* *'t_IS'*
t_IE set icon text end *t_IE* *'t_IE'*
t_WP set window position (Y, X) in pixels *t_WP* *'t_WP'*
t_WS set window size (height, width) in characters *t_WS* *'t_WS'*
t_SI start insert mode (bar cursor shape) *t_SI* *'t_SI'*
t_EI end insert mode (block cursor shape) *t_EI* *'t_EI'*
|termcap-cursor-shape|
t_RV request terminal version string (for xterm) *t_RV* *'t_RV'*
|xterm-8bit| |v:termresponse| |xterm-codes|
t_u7 request cursor position (for xterm) *t_u7* *'t_u7'*
see |'ambiwidth'|
KEY CODES
Note: Use the <> form if possible
option name meaning ~
t_ku <Up> arrow up *t_ku* *'t_ku'*
t_kd <Down> arrow down *t_kd* *'t_kd'*
t_kr <Right> arrow right *t_kr* *'t_kr'*
t_kl <Left> arrow left *t_kl* *'t_kl'*
<xUp> alternate arrow up *<xUp>*
<xDown> alternate arrow down *<xDown>*
<xRight> alternate arrow right *<xRight>*
<xLeft> alternate arrow left *<xLeft>*
<S-Up> shift arrow up
<S-Down> shift arrow down
t_%i <S-Right> shift arrow right *t_%i* *'t_%i'*
t_#4 <S-Left> shift arrow left *t_#4* *'t_#4'*
t_k1 <F1> function key 1 *t_k1* *'t_k1'*
<xF1> alternate F1 *<xF1>*
t_k2 <F2> function key 2 *<F2>* *t_k2* *'t_k2'*
<xF2> alternate F2 *<xF2>*
t_k3 <F3> function key 3 *<F3>* *t_k3* *'t_k3'*
<xF3> alternate F3 *<xF3>*
t_k4 <F4> function key 4 *<F4>* *t_k4* *'t_k4'*
<xF4> alternate F4 *<xF4>*
t_k5 <F5> function key 5 *<F5>* *t_k5* *'t_k5'*
t_k6 <F6> function key 6 *<F6>* *t_k6* *'t_k6'*
t_k7 <F7> function key 7 *<F7>* *t_k7* *'t_k7'*
t_k8 <F8> function key 8 *<F8>* *t_k8* *'t_k8'*
t_k9 <F9> function key 9 *<F9>* *t_k9* *'t_k9'*
t_k; <F10> function key 10 *<F10>* *t_k;* *'t_k;'*
t_F1 <F11> function key 11 *<F11>* *t_F1* *'t_F1'*
t_F2 <F12> function key 12 *<F12>* *t_F2* *'t_F2'*
t_F3 <F13> function key 13 *<F13>* *t_F3* *'t_F3'*
t_F4 <F14> function key 14 *<F14>* *t_F4* *'t_F4'*
t_F5 <F15> function key 15 *<F15>* *t_F5* *'t_F5'*
t_F6 <F16> function key 16 *<F16>* *t_F6* *'t_F6'*
t_F7 <F17> function key 17 *<F17>* *t_F7* *'t_F7'*
t_F8 <F18> function key 18 *<F18>* *t_F8* *'t_F8'*
t_F9 <F19> function key 19 *<F19>* *t_F9* *'t_F9'*
<S-F1> shifted function key 1
<S-xF1> alternate <S-F1> *<S-xF1>*
<S-F2> shifted function key 2 *<S-F2>*
<S-xF2> alternate <S-F2> *<S-xF2>*
<S-F3> shifted function key 3 *<S-F3>*
<S-xF3> alternate <S-F3> *<S-xF3>*
<S-F4> shifted function key 4 *<S-F4>*
<S-xF4> alternate <S-F4> *<S-xF4>*
<S-F5> shifted function key 5 *<S-F5>*
<S-F6> shifted function key 6 *<S-F6>*
<S-F7> shifted function key 7 *<S-F7>*
<S-F8> shifted function key 8 *<S-F8>*
<S-F9> shifted function key 9 *<S-F9>*
<S-F10> shifted function key 10 *<S-F10>*
<S-F11> shifted function key 11 *<S-F11>*
<S-F12> shifted function key 12 *<S-F12>*
t_%1 <Help> help key *t_%1* *'t_%1'*
t_&8 <Undo> undo key *t_&8* *'t_&8'*
t_kI <Insert> insert key *t_kI* *'t_kI'*
t_kD <Del> delete key *t_kD* *'t_kD'*
t_kb <BS> backspace key *t_kb* *'t_kb'*
t_kB <S-Tab> back-tab (shift-tab) *<S-Tab>* *t_kB* *'t_kB'*
t_kh <Home> home key *t_kh* *'t_kh'*
t_#2 <S-Home> shifted home key *<S-Home>* *t_#2* *'t_#2'*
<xHome> alternate home key *<xHome>*
t_@7 <End> end key *t_@7* *'t_@7'*
t_*7 <S-End> shifted end key *<S-End>* *t_star7* *'t_star7'*
<xEnd> alternate end key *<xEnd>*
t_kP <PageUp> page-up key *t_kP* *'t_kP'*
t_kN <PageDown> page-down key *t_kN* *'t_kN'*
t_K1 <kHome> keypad home key *t_K1* *'t_K1'*
t_K4 <kEnd> keypad end key *t_K4* *'t_K4'*
t_K3 <kPageUp> keypad page-up key *t_K3* *'t_K3'*
t_K5 <kPageDown> keypad page-down key *t_K5* *'t_K5'*
t_K6 <kPlus> keypad plus key *<kPlus>* *t_K6* *'t_K6'*
t_K7 <kMinus> keypad minus key *<kMinus>* *t_K7* *'t_K7'*
t_K8 <kDivide> keypad divide *<kDivide>* *t_K8* *'t_K8'*
t_K9 <kMultiply> keypad multiply *<kMultiply>* *t_K9* *'t_K9'*
t_KA <kEnter> keypad enter key *<kEnter>* *t_KA* *'t_KA'*
t_KB <kPoint> keypad decimal point *<kPoint>* *t_KB* *'t_KB'*
t_KC <k0> keypad 0 *<k0>* *t_KC* *'t_KC'*
t_KD <k1> keypad 1 *<k1>* *t_KD* *'t_KD'*
t_KE <k2> keypad 2 *<k2>* *t_KE* *'t_KE'*
t_KF <k3> keypad 3 *<k3>* *t_KF* *'t_KF'*
t_KG <k4> keypad 4 *<k4>* *t_KG* *'t_KG'*
t_KH <k5> keypad 5 *<k5>* *t_KH* *'t_KH'*
t_KI <k6> keypad 6 *<k6>* *t_KI* *'t_KI'*
t_KJ <k7> keypad 7 *<k7>* *t_KJ* *'t_KJ'*
t_KK <k8> keypad 8 *<k8>* *t_KK* *'t_KK'*
t_KL <k9> keypad 9 *<k9>* *t_KL* *'t_KL'*
<Mouse> leader of mouse code *<Mouse>*
Note about t_so and t_mr: When the termcap entry "so" is not present the
entry for "mr" is used. And vice versa. The same is done for "se" and "me".
If your terminal supports both inversion and standout mode, you can see two
different modes. If your terminal supports only one of the modes, both will
look the same.
*keypad-comma*
The keypad keys, when they are not mapped, behave like the equivalent normal
key. There is one exception: if you have a comma on the keypad instead of a
decimal point, Vim will use a dot anyway. Use these mappings to fix that: >
:noremap <kPoint> ,
:noremap! <kPoint> ,
< *xterm-codes*
There is a special trick to obtain the key codes which currently only works
for xterm. When |t_RV| is defined and a response is received which indicates
an xterm with patchlevel 141 or higher, Vim uses special escape sequences to
request the key codes directly from the xterm. The responses are used to
adjust the various t_ codes. This avoids the problem that the xterm can
produce different codes, depending on the mode it is in (8-bit, VT102,
VT220, etc.). The result is that codes like <xF1> are no longer needed.
Note: This is only done on startup. If the xterm options are changed after
Vim has started, the escape sequences may not be recognized anymore.
*xterm-resize*
Window resizing with xterm only works if the allowWindowOps resource is
enabled. On some systems and versions of xterm it's disabled by default
because someone thought it would be a security issue. It's not clear if this
is actually the case.
To overrule the default, put this line in your ~/.Xdefaults or
~/.Xresources:
>
XTerm*allowWindowOps: true
And run "xrdb -merge .Xresources" to make it effective. You can check the
value with the context menu (right mouse button while CTRL key is pressed),
there should be a tick at allow-window-ops.
*termcap-colors*
Note about colors: The 't_Co' option tells Vim the number of colors available.
When it is non-zero, the 't_AB' and 't_AF' options are used to set the color.
If one of these is not available, 't_Sb' and 't_Sf' are used. 't_me' is used
to reset to the default colors.
*termcap-cursor-shape* *termcap-cursor-color*
When Vim enters Insert mode the 't_SI' escape sequence is sent. When leaving
Insert mode 't_EI' is used. But only if both are defined. This can be used
to change the shape or color of the cursor in Insert mode. These are not
standard termcap/terminfo entries, you need to set them yourself.
Example for an xterm, this changes the color of the cursor: >
if &term =~ "xterm"
let &t_SI = "\<Esc>]12;purple\x7"
let &t_EI = "\<Esc>]12;blue\x7"
endif
NOTE: When Vim exits the shape for Normal mode will remain. The shape from
before Vim started will not be restored.
*termcap-title*
The 't_ts' and 't_fs' options are used to set the window title if the terminal
allows title setting via sending strings. They are sent before and after the
title string, respectively. Similar 't_IS' and 't_IE' are used to set the
icon text. These are Vim-internal extensions of the Unix termcap, so they
cannot be obtained from an external termcap. However, the builtin termcap
contains suitable entries for xterm, so you don't need to set them here.
*hpterm*
If inversion or other highlighting does not work correctly, try setting the
't_xs' option to a non-empty string. This makes the 't_ce' code be used to
remove highlighting from a line. This is required for "hpterm". Setting the
'weirdinvert' option has the same effect as making 't_xs' non-empty, and vice
versa.
*scroll-region*
Some termcaps do not include an entry for 'cs' (scroll region), although the
terminal does support it. For example: xterm on a Sun. You can use the
builtin_xterm or define t_cs yourself. For example: >
:set t_cs=^V^[[%i%d;%dr
Where ^V is CTRL-V and ^[ is <Esc>.
The vertical scroll region t_CV is not a standard termcap code. Vim uses it
internally in the GUI. But it can also be defined for a terminal, if you can
find one that supports it. The two arguments are the left and right column of
the region which to restrict the scrolling to. Just like t_cs defines the top
and bottom lines. Defining t_CV will make scrolling in vertically split
windows a lot faster. Don't set t_CV when t_da or t_db is set (text isn't
cleared when scrolling).
Unfortunately it is not possible to deduce from the termcap how cursor
positioning should be done when using a scrolling region: Relative to the
beginning of the screen or relative to the beginning of the scrolling region.
Most terminals use the first method. The 't_CS' option should be set to any
string when cursor positioning is relative to the start of the scrolling
region. It should be set to an empty string otherwise.
Note for xterm users: The shifted cursor keys normally don't work. You can
make them work with the xmodmap command and some mappings in Vim.
Give these commands in the xterm:
xmodmap -e "keysym Up = Up F13"
xmodmap -e "keysym Down = Down F16"
xmodmap -e "keysym Left = Left F18"
xmodmap -e "keysym Right = Right F19"
And use these mappings in Vim:
:map <t_F3> <S-Up>
:map! <t_F3> <S-Up>
:map <t_F6> <S-Down>
:map! <t_F6> <S-Down>
:map <t_F8> <S-Left>
:map! <t_F8> <S-Left>
:map <t_F9> <S-Right>
:map! <t_F9> <S-Right>
Instead of, say, <S-Up> you can use any other command that you want to use the
shift-cursor-up key for. (Note: To help people that have a Sun keyboard with
left side keys F14 is not used because it is confused with the undo key; F15
is not used, because it does a window-to-front; F17 is not used, because it
closes the window. On other systems you can probably use them.)
==============================================================================
3. Window size *window-size*
Window size *window-size*
[This is about the size of the whole window Vim is using, not a window that is
created with the ":split" command.]
@ -477,7 +106,7 @@ One command can be used to set the screen size:
Detects the screen size and redraws the screen.
==============================================================================
4. Slow and fast terminals *slow-fast-terminal*
Slow and fast terminals *slow-fast-terminal*
*slow-terminal*
If you have a fast terminal you may like to set the 'ruler' option. The
@ -511,7 +140,7 @@ is sent to the terminal at a time (does not work for MS-DOS). This makes the
screen updating a lot slower, making it possible to see what is happening.
==============================================================================
5. Using the mouse *mouse-using*
Using the mouse *mouse-using*
This section is about using the mouse on a terminal or a terminal window. How
to use the mouse in a GUI window is explained in |gui-mouse|. For scrolling

43
runtime/doc/tips.txt
View File

@ -15,7 +15,6 @@ Don't forget to browse the user manual, it also contains lots of useful tips
Editing C programs |C-editing|
Finding where identifiers are used |ident-search|
Switching screens in an xterm |xterm-screens|
Scrolling in Insert mode |scroll-insert|
Smooth scrolling |scroll-smooth|
Correcting common typing mistakes |type-mistakes|
@ -118,48 +117,6 @@ archive file on your closest gnu-ftp-mirror).
[the idea for this comes from Andreas Kutschera]
==============================================================================
Switching screens in an xterm *xterm-screens* *xterm-save-screen*
(From comp.editors, by Juergen Weigert, in reply to a question)
:> Another question is that after exiting vim, the screen is left as it
:> was, i.e. the contents of the file I was viewing (editing) was left on
:> the screen. The output from my previous like "ls" were lost,
:> ie. no longer in the scrolling buffer. I know that there is a way to
:> restore the screen after exiting vim or other vi like editors,
:> I just don't know how. Helps are appreciated. Thanks.
:
:I imagine someone else can answer this. I assume though that vim and vi do
:the same thing as each other for a given xterm setup.
They not necessarily do the same thing, as this may be a termcap vs.
terminfo problem. You should be aware that there are two databases for
describing attributes of a particular type of terminal: termcap and
terminfo. This can cause differences when the entries differ AND when of
the programs in question one uses terminfo and the other uses termcap
(also see |+terminfo|).
In your particular problem, you are looking for the control sequences
^[[?47h and ^[[?47l. These switch between xterms alternate and main screen
buffer. As a quick workaround a command sequence like >
echo -n "^[[?47h"; vim ... ; echo -n "^[[?47l"
may do what you want. (My notation ^[ means the ESC character, further down
you'll see that the databases use \E instead).
On startup, vim echoes the value of the termcap variable ti (terminfo:
smcup) to the terminal. When exiting, it echoes te (terminfo: rmcup). Thus
these two variables are the correct place where the above mentioned control
sequences should go.
Compare your xterm termcap entry (found in /etc/termcap) with your xterm
terminfo entry (retrieved with "infocmp -C xterm"). Both should contain
entries similar to: >
:te=\E[2J\E[?47l\E8:ti=\E7\E[?47h:
PS: If you find any difference, someone (your sysadmin?) should better check
the complete termcap and terminfo database for consistency.
==============================================================================
Scrolling in Insert mode *scroll-insert*

7
runtime/doc/usr_06.txt
View File

@ -55,8 +55,7 @@ There can be a number of reasons why you don't see colors:
- Your terminal does not support colors.
Vim will use bold, italic and underlined text, but this doesn't look
very nice. You probably will want to try to get a terminal with
colors. For Unix, I recommend the xterm from the XFree86 project:
|xfree-xterm|.
colors.
- Your terminal does support colors, but Vim doesn't know this.
Make sure your $TERM setting is correct. For example, when using an
@ -68,9 +67,7 @@ There can be a number of reasons why you don't see colors:
TERM=xterm-color; export TERM
< The terminal name must match the terminal you are using. If it
still doesn't work, have a look at |xterm-color|, which shows a few
ways to make Vim display colors (not only for an xterm).
< The terminal name must match the terminal you are using.
- The file type is not recognized.
Vim doesn't know all file types, and sometimes it's near to impossible

3
runtime/doc/various.txt
View File

@ -313,7 +313,6 @@ N *+comments* |'comments'| support
B *+conceal* "conceal" support, see |conceal| |:syn-conceal| etc.
B *+cscope* |cscope| support
m *+cursorbind* |'cursorbind'| support
m *+cursorshape* |termcap-cursor-shape| support
m *+debug* Compiled for debugging.
N *+dialog_gui* Support for |:confirm| with GUI dialog.
N *+dialog_con* Support for |:confirm| with console dialog.
@ -373,10 +372,8 @@ T *+tag_binary* binary searching in tags file |tag-binary-search|
N *+tag_old_static* old method for static tags |tag-old-static|
m *+tag_any_white* any white space allowed in tags file |tag-any-white|
B *+termguicolors* 24-bit color in xterm-compatible terminals support
*+terminfo* uses |terminfo| instead of termcap
N *+termresponse* support for |t_RV| and |v:termresponse|
N *+textobjects* |text-objects| selection
*+tgetent* non-Unix only: able to use external termcap
N *+timers* the |timer_start()| function
N *+title* Setting the window 'title' and 'icon'
N *+toolbar* |gui-toolbar|

5
runtime/doc/vim_diff.txt
View File

@ -276,6 +276,11 @@ Ed-compatible mode:
":set noedcompatible" is ignored
":set edcompatible" is an error
*t_xx* *:set-termcap* *termcap-options* *t_AB* *t_Sb* *t_vb* *t_SI*
Nvim does not have special `t_XX` options nor <t_XX> keycodes to configure
terminal capabilities. Instead Nvim treats the terminal as any other UI. For
example, 'guicursor' sets the terminal cursor style if possible.
'ttyfast':
":set ttyfast" is ignored
":set nottyfast" is an error

2
scripts/vim-patch.sh
View File

@ -136,7 +136,7 @@ preprocess_patch() {
2>/dev/null $nvim --cmd 'set dir=/tmp' +'g@^diff --git a/src/\S*\<\%('${na_src}'\)@norm! d/\v(^diff)|%$ ' +w +q "$file"
# Remove channel.txt, netbeans.txt, os_*.txt, todo.txt, version*.txt, tags
local na_doc='channel\.txt\|netbeans\.txt\|os_\w\+\.txt\|todo\.txt\|version\d\.txt\|tags'
local na_doc='channel\.txt\|netbeans\.txt\|os_\w\+\.txt\|term\.txt\|todo\.txt\|version\d\.txt\|tags'
2>/dev/null $nvim --cmd 'set dir=/tmp' +'g@^diff --git a/runtime/doc/\<\%('${na_doc}'\)\>@norm! d/\v(^diff)|%$ ' +w +q "$file"
# Remove "Last change ..." changes in doc files.