*terminal.txt* Nvim NVIM REFERENCE MANUAL by Thiago de Arruda Terminal emulator *terminal* *terminal-emulator* Nvim embeds a VT220/xterm terminal emulator based on libvterm. The terminal is presented as a special 'buftype', asynchronously updated as data is received from the connected program. Terminal buffers behave like normal buffers, except: - With 'modifiable', lines can be edited but not deleted. - 'scrollback' controls how many lines are kept. - Output is followed ("tailed") if cursor is on the last line. - 'modified' is the default. You can set 'nomodified' to avoid a warning when closing the terminal buffer. - 'bufhidden' defaults to "hide". Type |gO| to see the table of contents. ============================================================================== Start *terminal-start* There are several ways to create a terminal buffer: - Run the |:terminal| command. - Call the |nvim_open_term()| or |termopen()| function. - Edit a "term://" buffer. Examples: >vim :edit term://bash :vsplit term://top < Note: To open a "term://" buffer from an autocmd, the |autocmd-nested| modifier is required. >vim autocmd VimEnter * ++nested split term://sh < (This is only mentioned for reference; use |:terminal| instead.) When the terminal starts, the buffer contents are updated and the buffer is named in the form of `term://{cwd}//{pid}:{cmd}`. This naming scheme is used by |:mksession| to restore a terminal buffer (by restarting the {cmd}). The terminal environment is initialized as in |jobstart-env|. ============================================================================== Input *terminal-input* To send input, enter |Terminal-mode| with |i|, |I|, |a|, |A| or |:startinsert|. In this mode all keys except are sent to the underlying program. If is pressed, the next key is sent unless it is or . Use to return to normal mode. |CTRL-\_CTRL-N| Use to execute one normal mode command and then return to terminal mode. *t_CTRL-\_CTRL-O* Terminal-mode forces these local options: 'cursorlineopt' = number 'nocursorcolumn' 'scrolloff' = 0 'sidescrolloff' = 0 Terminal-mode has its own |:tnoremap| namespace for mappings, this can be used to automate any terminal interaction. To map to exit terminal-mode: >vim :tnoremap To simulate |i_CTRL-R| in terminal-mode: >vim :tnoremap '"'.nr2char(getchar()).'pi' To use `ALT+{h,j,k,l}` to navigate windows from any mode: >vim :tnoremap h :tnoremap j :tnoremap k :tnoremap l :inoremap h :inoremap j :inoremap k :inoremap l :nnoremap h :nnoremap j :nnoremap k :nnoremap l You can also create menus similar to terminal mode mappings, but you have to use |:tlmenu| instead of |:tmenu|. Mouse input has the following behavior: - If the program has enabled mouse events, the corresponding events will be forwarded to the program. - If mouse events are disabled (the default), terminal focus will be lost and the event will be processed as in a normal buffer. - If another window is clicked, terminal focus will be lost and nvim will jump to the clicked window - If the mouse wheel is used while the mouse is positioned in another window, the terminal won't lose focus and the hovered window will be scrolled. ============================================================================== Configuration *terminal-config* Options: 'modified', 'scrollback' Events: |TermOpen|, |TermEnter|, |TermLeave|, |TermClose| Highlight groups: |hl-TermCursor|, |hl-TermCursorNC| Terminal sets local defaults for some options, which may differ from your global configuration. - 'list' is disabled - 'wrap' is disabled You can change the defaults with a TermOpen autocommand: >vim au TermOpen * setlocal list TERMINAL COLORS ~ The `{g,b}:terminal_color_x` variables control the terminal color palette, where `x` is the color index between 0 and 15 inclusive. The variables are read during |TermOpen|. The value must be a color name or hexadecimal string. Example: >vim let g:terminal_color_4 = '#ff0000' let g:terminal_color_5 = 'green' Only works for RGB UIs (see 'termguicolors'); for 256-color terminals the color index is just forwarded. Editor highlighting (|syntax-highlighting|, |highlight-groups|, etc.) has higher precedence: it is applied after terminal colors are resolved. ------------------------------------------------------------------------------ EVENTS *terminal-events* Applications running in a :terminal buffer can send requests, which Nvim exposes via the |TermRequest| event. OSC 7: change working directory *terminal-osc7* To handle OSC 7 emitted from :terminal processes, this code will :cd to the directory indicated in the request. >lua vim.api.nvim_create_autocmd({ 'TermRequest' }, { desc = 'Handles OSC 7 dir change requests', callback = function(ev) if string.sub(vim.v.termrequest, 1, 4) == '\x1b]7;' then local dir = string.gsub(vim.v.termrequest, '\x1b]7;file://[^/]*', '') if vim.fn.isdirectory(dir) == 0 then vim.notify('invalid dir: '..dir) return end vim.api.nvim_buf_set_var(ev.buf, 'osc7_dir', dir) if vim.o.autochdir and vim.api.nvim_get_current_buf() == ev.buf then vim.cmd.cd(dir) end end end }) vim.api.nvim_create_autocmd({ 'BufEnter', 'WinEnter', 'DirChanged' }, { callback = function(ev) if vim.b.osc7_dir and vim.fn.isdirectory(vim.b.osc7_dir) == 1 then vim.cmd.cd(vim.b.osc7_dir) end end }) To try it out, select the above code and source it with `:'<,'>lua`, then run this command in a :terminal buffer: > printf "\033]7;file://./foo/bar\033\\" OSC 52: write to system clipboard *terminal-osc52* Applications in the :terminal buffer can write to the system clipboard by emitting an OSC 52 sequence. Example: > printf '\033]52;;%s\033\\' "$(echo -n 'Hello world' | base64)" Nvim uses the configured |clipboard| provider to write to the system clipboard. Reading from the system clipboard with OSC 52 is not supported, as this would allow any arbitrary program in the :terminal to read the user's clipboard. OSC 52 sequences sent from the :terminal buffer do not emit a |TermRequest| event. The event is handled directly by Nvim and is not forwarded to plugins. ============================================================================== Status Variables *terminal-status* Terminal buffers maintain some buffer-local variables and options. The values are initialized before TermOpen, so you can use them in a local 'statusline'. Example: >vim :autocmd TermOpen * setlocal statusline=%{b:term_title} - *b:term_title* Terminal title (user-writable), typically displayed in the window title or tab title of a graphical terminal emulator. Terminal programs can set this by emitting an escape sequence. - |'channel'| Terminal PTY |job-id|. Can be used with |chansend()| to send input to the terminal. - The |TermClose| event gives the terminal job exit code in the |v:event| "status" field. For example, this autocommand outputs the terminal's exit code to |:messages|: >vim autocmd TermClose * echom 'Terminal exited with status '..v:event.status Use |jobwait()| to check if the terminal job has finished: >vim let running = jobwait([&channel], 0)[0] == -1 < ============================================================================== :Termdebug plugin *terminal-debug* The Terminal debugging plugin can be used to debug a program with gdb and view the source code in a Vim window. Since this is completely contained inside Vim this also works remotely over an ssh connection. Starting ~ *termdebug-starting* Load the plugin with this command: >vim packadd termdebug When loading the plugin from the |vimrc| file, add the "!" attribute: >vim packadd! termdebug < *:Termdebug* To start debugging use `:Termdebug` or `:TermdebugCommand` followed by the command name, for example: >vim :Termdebug vim This opens two windows: gdb window A terminal window in which "gdb vim" is executed. Here you can directly interact with gdb. program window A terminal window for the executed program. When "run" is used in gdb the program I/O will happen in this window, so that it does not interfere with controlling gdb. The current window is used to show the source code. When gdb pauses the source file location will be displayed, if possible. A sign is used to highlight the current position, using highlight group debugPC. If the buffer in the current window is modified, another window will be opened to display the current gdb position. Focus the terminal of the executed program to interact with it. This works the same as any command running in a terminal window. When the debugger ends, typically by typing "quit" in the gdb window, the two opened windows are closed. Only one debugger can be active at a time. *:TermdebugCommand* If you want to give specific commands to the command being debugged, you can use the `:TermdebugCommand` command followed by the command name and additional parameters. >vim :TermdebugCommand vim --clean -c ':set nu' Both the `:Termdebug` and `:TermdebugCommand` support an optional "!" bang argument to start the command right away, without pausing at the gdb window (and cursor will be in the debugged window). For example: >vim :TermdebugCommand! vim --clean To attach gdb to an already running executable or use a core file, pass extra arguments. E.g.: >vim :Termdebug vim core :Termdebug vim 98343 If no argument is given, you'll end up in a gdb window, in which you need to specify which command to run using e.g. the gdb `file` command. Example session ~ *termdebug-example* Start in the Vim "src" directory and build Vim: > % make Start Vim: > % ./vim Load the termdebug plugin and start debugging Vim: >vim :packadd termdebug :Termdebug vim You should now have three windows: source - where you started gdb - you can type gdb commands here program - the executed program will use this window Put focus on the gdb window and type: > break ex_help run Vim will start running in the program window. Put focus there and type: >vim :help gui Gdb will run into the ex_help breakpoint. The source window now shows the ex_cmds.c file. A red "1 " marker will appear in the signcolumn where the breakpoint was set. The line where the debugger stopped is highlighted. You can now step through the program. You will see the highlighting move as the debugger executes a line of source code. Run ":Next" a few times until the for loop is highlighted. Put the cursor on the end of "eap->arg", then call ":Eval". You will see this displayed: "eap->arg": 0x555555e68855 "gui" ~ This way you can inspect the value of local variables. You can also focus the gdb window and use a "print" command, e.g.: > print *eap If mouse pointer movements are working, Vim will also show a balloon when the mouse rests on text that can be evaluated by gdb. You can also use the "K" mapping that will either use Nvim floating windows to show the results. Now go back to the source window and put the cursor on the first line after the for loop, then type: > :Break You will see a "1" marker appear, this indicates the new breakpoint. Now run ":Cont" command and the code until the breakpoint will be executed. You can type more advanced commands in the gdb window. For example, type: > watch curbuf Now run ":Cont" (or type "cont" in the gdb window). Execution will now continue until the value of "curbuf" changes, which is in do_ecmd(). To remove this watchpoint again type in the gdb window: > delete 3 You can see the stack by typing in the gdb window: > where Move through the stack frames, e.g. with: > frame 3 The source window will show the code, at the point where the call was made to a deeper level. Stepping through code ~ *termdebug-stepping* Put focus on the gdb window to type commands there. Some common ones are: - CTRL-C interrupt the program - next execute the current line and stop at the next line - step execute the current line and stop at the next statement, entering functions - until execute until past the current cursor line or past a specified position or the current stack frame returns - finish execute until leaving the current function - where show the stack - frame N go to the Nth stack frame - continue continue execution *:Run* *:Arguments* In the window showing the source code these commands can be used to control gdb: `:Run` [args] run the program with [args] or the previous arguments `:Arguments` {args} set arguments for the next `:Run` *:Break* set a breakpoint at the cursor position :Break {position} set a breakpoint at the specified position *:Tbreak* set a temporary breakpoint at the cursor position :Tbreak {position} set a temporary breakpoint at the specified position *:Clear* delete the breakpoint at the cursor position *:Step* execute the gdb "step" command *:Over* execute the gdb "next" command (`:Next` is a Vim command) *:Until* execute the gdb "until" command *:Finish* execute the gdb "finish" command *:Continue* execute the gdb "continue" command *:Stop* interrupt the program If gdb stops at a source line and there is no window currently showing the source code, a new window will be created for the source code. This also happens if the buffer in the source code window has been modified and can't be abandoned. Gdb gives each breakpoint a number. In Vim the number shows up in the sign column, with a red background. You can use these gdb commands: - info break list breakpoints - delete N delete breakpoint N You can also use the `:Clear` command if the cursor is in the line with the breakpoint, or use the "Clear breakpoint" right-click menu entry. Inspecting variables ~ *termdebug-variables* *:Evaluate* `:Evaluate` evaluate the expression under the cursor `K` same (see |termdebug_map_K| to disable) `:Evaluate` {expr} evaluate {expr} `:'<,'>Evaluate` evaluate the Visually selected text This is similar to using "print" in the gdb window. You can usually shorten `:Evaluate` to `:Ev`. The result is displayed in a floating window. You can move the cursor to this window by running `:Evaluate` (or `K`) again. Navigating stack frames ~ *termdebug-frames* *:Frame* *:Up* *:Down* `:Frame` [frame] select frame [frame], which is a frame number, address, or function name (default: current frame) `:Up` [count] go up [count] frames (default: 1; the frame that called the current) `+` same (see |termdebug_map_plus| to disable) `:Down` [count] go down [count] frames (default: 1; the frame called by the current) `-` same (see |termdebug_map_minus| to disable) Other commands ~ *termdebug-commands* *:Gdb* jump to the gdb window *:Program* jump to the window with the running program *:Source* jump to the window with the source code, create it if there isn't one *:Asm* jump to the window with the disassembly, create it if there isn't one *:Var* jump to the window with the local and argument variables, create it if there isn't one. This window updates whenever the program is stopped Events ~ *termdebug-events* Four autocommands can be used: >vim au User TermdebugStartPre echomsg 'debugging starting' au User TermdebugStartPost echomsg 'debugging started' au User TermdebugStopPre echomsg 'debugging stopping' au User TermdebugStopPost echomsg 'debugging stopped' < *TermdebugStartPre* TermdebugStartPre Before starting debugging. Not triggered if the debugger is already running or the debugger command cannot be executed. *TermdebugStartPost* TermdebugStartPost After debugging has initialized. If a "!" bang is passed to `:Termdebug` or `:TermdebugCommand` the event is triggered before running the provided command in gdb. *TermdebugStopPre* TermdebugStopPre Before debugging ends, when gdb is terminated, most likely after issuing a "quit" command in the gdb window. *TermdebugStopPost* TermdebugStopPost After debugging has ended, gdb-related windows are closed, debug buffers wiped out and the state before the debugging was restored. Customizing ~ *termdebug-customizing* *g:termdebug_config* In the past several global variables were used for configuration. These are deprecated and using the g:termdebug_config dictionary is preferred. When g:termdebug_config exists the other global variables will NOT be used. The recommended way is to start with an empty dictionary: >vim let g:termdebug_config = {} Then you can add entries to the dictionary as mentioned below. The deprecated global variable names are mentioned for completeness. If you are switching over to using g:termdebug_config you can find the old variable name and take over the value, then delete the deprecated variable. Prompt mode ~ *termdebug-prompt* When on MS-Windows, gdb will run in a buffer with 'buftype' set to "prompt". This works slightly differently: - The gdb window will be in Insert mode while typing commands. Go to Normal mode with , then you can move around in the buffer, copy/paste, etc. Go back to editing the gdb command with any command that starts Insert mode, such as `a` or `i`. - A separate :terminal window will be opened to run the debugged program in. *termdebug_use_prompt* Prompt mode can be used with: >vim let g:termdebug_config['use_prompt'] = 1 If there is no g:termdebug_config you can use: >vim let g:termdebug_use_prompt = 1 < Mappings ~ The termdebug plugin enables a few default mappings. All those mappings are reset to their original values once the termdebug session concludes. *termdebug_map_K* *termdebug-mappings* The K key is normally mapped to |:Evaluate| unless a buffer local (|:map-local|) mapping to K already exists. If you do not want this use: >vim let g:termdebug_config['map_K'] = 0 If there is no g:termdebug_config you can use: >vim let g:termdebug_map_K = 0 < *termdebug_map_minus* The - key is normally mapped to |:Down| unless a buffer local mapping to the - key already exists. If you do not want this use: >vim let g:termdebug_config['map_minus'] = 0 < *termdebug_map_plus* The + key is normally mapped to |:Up| unless a buffer local mapping to the + key already exists. If you do not want this use: >vim let g:termdebug_config['map_plus'] = 0 < *termdebug_disasm_window* If you want the Asm window shown by default, set the "disasm_window" flag to 1. The "disasm_window_height" entry can be used to set the window height: >vim let g:termdebug_config['disasm_window'] = 1 let g:termdebug_config['disasm_window_height'] = 15 If there is no g:termdebug_config you can use: >vim let g:termdebug_disasm_window = 15 Any value greater than 1 will set the Asm window height to that value. If the current window has enough horizontal space, it will be vertically split and the Asm window will be shown side by side with the source code window (and the height option won't be used). *termdebug_variables_window* If you want the Var window shown by default, set the "variables_window" flag to 1. The "variables_window_height" entry can be used to set the window height: >vim let g:termdebug_config['variables_window'] = 1 let g:termdebug_config['variables_window_height'] = 15 If there is no g:termdebug_config you can use: >vim let g:termdebug_variables_window = 15 Any value greater than 1 will set the Var window height to that value. If the current window has enough horizontal space, it will be vertically split and the Var window will be shown side by side with the source code window (and the height options won't be used). Communication ~ *termdebug-communication* There is another, hidden, buffer, which is used for Vim to communicate with gdb. The buffer name is "gdb communication". Do not delete this buffer, it will break the debugger. Gdb has some weird behavior, the plugin does its best to work around that. For example, after typing "continue" in the gdb window a CTRL-C can be used to interrupt the running program. But after using the MI command "-exec-continue" pressing CTRL-C does not interrupt. Therefore you will see "continue" being used for the `:Continue` command, instead of using the communication channel. GDB command ~ *g:termdebugger* To change the name of the gdb command, set "debugger" entry in g:termdebug_config or the "g:termdebugger" variable before invoking `:Termdebug`: >vim let g:termdebug_config['command'] = "mygdb" If there is no g:termdebug_config you can use: >vim let g:termdebugger = "mygdb" If the command needs an argument use a List: >vim let g:termdebug_config['command'] = ['rr', 'replay', '--'] If there is no g:termdebug_config you can use: >vim let g:termdebugger = ['rr', 'replay', '--'] If you are a mouse person, you can also define a mapping using your right click to one of the terminal command like evaluate the variable under the cursor: >vim nnoremap :Evaluate or set/unset a breakpoint: >vim nnoremap :Break Several arguments will be added to make gdb work well for the debugger. If you want to modify them, add a function to filter the argument list: >vim let g:termdebug_config['command_filter'] = MyDebugFilter If you do not want the arguments to be added, but you do need to set the "pty", use a function to add the necessary arguments: >vim let g:termdebug_config['command_add_args'] = MyAddArguments The function will be called with the list of arguments so far, and a second argument that is the name of the pty. *gdb-version* Only debuggers fully compatible with gdb will work. Vim uses the GDB/MI interface. The "new-ui" command requires gdb version 7.12 or later. If you get this error: Undefined command: "new-ui". Try "help".~ Then your gdb is too old. Colors ~ *hl-debugPC* *hl-debugBreakpoint* The color of the signs can be adjusted with these highlight groups: - debugPC the current position - debugBreakpoint a breakpoint The defaults are, when 'background' is "light": hi debugPC term=reverse ctermbg=lightblue guibg=lightblue hi debugBreakpoint term=reverse ctermbg=red guibg=red When 'background' is "dark": hi debugPC term=reverse ctermbg=darkblue guibg=darkblue hi debugBreakpoint term=reverse ctermbg=red guibg=red Shortcuts ~ *termdebug_shortcuts* You can define your own shortcuts (mappings) to control gdb, that can work in any window, using the TermDebugSendCommand() function. Example: >vim map ,w :call TermDebugSendCommand('where') The argument is the gdb command. Popup menu ~ *termdebug_popup* By default the Termdebug plugin sets 'mousemodel' to "popup_setpos" and adds these entries to the popup menu: Set breakpoint `:Break` Clear breakpoint `:Clear` Evaluate `:Evaluate` If you don't want this then disable it with: >vim let g:termdebug_config['popup'] = 0 If there is no g:termdebug_config you can use: >vim let g:termdebug_popup = 0 Change default signs ~ *termdebug_signs* Termdebug uses the hex number of the breakpoint ID in the signcolumn to represent breakpoints. If it is greater than "0xFF", then it will be displayed as "F+", due to we really only have two screen cells for the sign. You may also use decimal breakpoint signs instead, in which case IDs greater than 99 will be displayed as "9+". If you want to customize the breakpoint signs to show `>>` in the signcolumn: >vim let g:termdebug_config['sign'] = '>>' If you would like to use decimal (base 10) breakpoint signs: >vim let g:termdebug_config['sign_decimal'] = 1 If the variable g:termdebug_config does not yet exist, you can use: >vim let g:termdebug_config = {'sign': '>>'} Likewise, to enable decimal signs: >vim let g:termdebug_config = {'sign_decimal': 1} Vim window width ~ *termdebug_wide* To change the width of the Vim window when debugging starts and use a vertical split: >vim let g:termdebug_config['wide'] = 163 If there is no g:termdebug_config you can use: >vim let g:termdebug_wide = 163 This will set 'columns' to 163 when `:Termdebug` is used. The value is restored when quitting the debugger. If the wide value is set and 'columns' is already a greater value, then a vertical split will be used without modifying 'columns'. Set the wide value to 1 to use a vertical split without ever changing 'columns'. This is useful when the terminal can't be resized by Vim. vim:tw=78:ts=8:noet:ft=help:norl: