src/terminal.c - android_external_vim - Gitiles

 /* vi:set ts=8 sts=4 sw=4 noet:
  *
  * VIM - Vi IMproved	by Bram Moolenaar
  *
  * Do ":help uganda"  in Vim to read copying and usage conditions.
  * Do ":help credits" in Vim to see a list of people who contributed.
  * See README.txt for an overview of the Vim source code.
  */

 /*
  * Terminal window support, see ":help :terminal".
  *
  * For a terminal one VTerm is constructed.  This uses libvterm.  A copy of
  * that library is in the libvterm directory.
  *
  * The VTerm invokes callbacks when its screen contents changes.  The line
  * range is stored in tl_dirty_row_start and tl_dirty_row_end.  Once in a
  * while, if the terminal window is visible, the screen contents is drawn.
  *
  * If the terminal window has keyboard focus, typed keys are converted to the
  * terminal encoding and writting to the job over a channel.
  *
  * If the job produces output, it is written to the VTerm.
  * This will result in screen updates.
  *
  * TODO:
  * - pressing Enter sends two CR and/or NL characters to "bash -i"?
  *   Passing Enter as NL seems to work.
  * - set buffer options to be scratch, hidden, nomodifiable, etc.
  * - set buffer name to command, add (1) to avoid duplicates.
  * - If [command] is not given the 'shell' option is used.
  * - if the job ends, write "-- JOB ENDED --" in the terminal
  * - when closing window and job ended, delete the terminal
  * - when closing window and job has not ended, make terminal hidden?
  * - Use a pty for I/O with the job.
  * - Windows implementation:
  *   (WiP): https://github.com/mattn/vim/tree/terminal
  *	src/os_win32.c  mch_open_terminal()
      Using winpty ?
  * - command line completion for :terminal
  * - support fixed size when 'termsize' is "rowsXcols".
  * - support minimal size when 'termsize' is "rows*cols".
  * - support minimal size when 'termsize' is empty.
  * - implement ":buf {term-buf-name}"
  * - implement term_list()			list of buffers with a terminal
  * - implement term_getsize(buf)
  * - implement term_setsize(buf)
  * - implement term_sendkeys(buf, keys)		send keystrokes to a terminal
  * - implement term_wait(buf)			wait for screen to be updated
  * - implement term_scrape(buf, row)		inspect terminal screen
  * - implement term_open(command, options)	open terminal window
  * - implement term_getjob(buf)
  * - implement 'termkey'
  */

 #include "vim.h"

 #ifdef FEAT_TERMINAL

 #include "libvterm/include/vterm.h"

 /* typedef term_T in structs.h */
 struct terminal_S {
     term_T	*tl_next;

     VTerm	*tl_vterm;
     job_T	*tl_job;
     buf_T	*tl_buffer;

     /* Range of screen rows to update.  Zero based. */
     int		tl_dirty_row_start; /* -1 if nothing dirty */
     int		tl_dirty_row_end;   /* row below last one to update */

     pos_T	tl_cursor;
 };

 #define MAX_ROW 999999	    /* used for tl_dirty_row_end to update all rows */

 /*
  * List of all active terminals.
  */
 static term_T *first_term = NULL;

 static int handle_damage(VTermRect rect, void *user);
 static int handle_moverect(VTermRect dest, VTermRect src, void *user);
 static int handle_movecursor(VTermPos pos, VTermPos oldpos, int visible, void *user);
 static int handle_resize(int rows, int cols, void *user);

 static VTermScreenCallbacks screen_callbacks = {
   handle_damage,	/* damage */
   handle_moverect,	/* moverect */
   handle_movecursor,	/* movecursor */
   NULL,			/* settermprop */
   NULL,			/* bell */
   handle_resize,	/* resize */
   NULL,			/* sb_pushline */
   NULL			/* sb_popline */
 };

 /*
  * ":terminal": open a terminal window and execute a job in it.
  */
     void
 ex_terminal(exarg_T *eap)
 {
     int		rows;
     int		cols;
     exarg_T	split_ea;
     win_T	*old_curwin = curwin;
     typval_T	argvars[2];
     term_T	*term;
     VTerm	*vterm;
     VTermScreen *screen;
     jobopt_T	opt;

     if (check_restricted() || check_secure())
 	return;

     term = (term_T *)alloc_clear(sizeof(term_T));
     if (term == NULL)
 	return;
     term->tl_dirty_row_end = MAX_ROW;

     /* Open a new window or tab. */
     vim_memset(&split_ea, 0, sizeof(split_ea));
     split_ea.cmdidx = CMD_new;
     split_ea.cmd = (char_u *)"new";
     split_ea.arg = (char_u *)"";
     ex_splitview(&split_ea);
     if (curwin == old_curwin)
     {
 	/* split failed */
 	vim_free(term);
 	return;
     }
     term->tl_buffer = curbuf;

     curbuf->b_term = term;
     term->tl_next = first_term;
     first_term = term;

     /* TODO: set buffer type, hidden, etc. */

     if (*curwin->w_p_tms != NUL)
     {
 	char_u *p = vim_strchr(curwin->w_p_tms, 'x') + 1;

 	rows = atoi((char *)curwin->w_p_tms);
 	cols = atoi((char *)p);
 	/* TODO: resize window if possible. */
     }
     else
     {
 	rows = curwin->w_height;
 	cols = curwin->w_width;
     }

     vterm = vterm_new(rows, cols);
     term->tl_vterm = vterm;
     screen = vterm_obtain_screen(vterm);
     vterm_screen_set_callbacks(screen, &screen_callbacks, term);
     /* TODO: depends on 'encoding'. */
     vterm_set_utf8(vterm, 1);
     /* Required to initialize most things. */
     vterm_screen_reset(screen, 1 /* hard */);

     /* By default NL means CR-NL. */
     vterm_input_write(vterm, "\x1b[20h", 5);

     argvars[0].v_type = VAR_STRING;
     argvars[0].vval.v_string = eap->arg;

     clear_job_options(&opt);
     opt.jo_mode = MODE_RAW;
     opt.jo_out_mode = MODE_RAW;
     opt.jo_err_mode = MODE_RAW;
     opt.jo_set = JO_MODE | JO_OUT_MODE | JO_ERR_MODE;
     opt.jo_io[PART_OUT] = JIO_BUFFER;
     opt.jo_io[PART_ERR] = JIO_BUFFER;
     opt.jo_set |= JO_OUT_IO + (JO_OUT_IO << (PART_ERR - PART_OUT));
     opt.jo_io_buf[PART_OUT] = curbuf->b_fnum;
     opt.jo_io_buf[PART_ERR] = curbuf->b_fnum;
     opt.jo_set |= JO_OUT_BUF + (JO_OUT_BUF << (PART_ERR - PART_OUT));

     term->tl_job = job_start(argvars, &opt);

     if (term->tl_job == NULL)
 	/* Wiping out the buffer will also close the window. */
 	do_buffer(DOBUF_WIPE, DOBUF_CURRENT, FORWARD, 0, TRUE);

     /* Setup pty, see mch_call_shell(). */
 }

 /*
  * Free a terminal and everything it refers to.
  * Kills the job if there is one.
  * Called when wiping out a buffer.
  */
     void
 free_terminal(term_T *term)
 {
     term_T	*tp;

     if (term == NULL)
 	return;
     if (first_term == term)
 	first_term = term->tl_next;
     else
 	for (tp = first_term; tp->tl_next != NULL; tp = tp->tl_next)
 	    if (tp->tl_next == term)
 	    {
 		tp->tl_next = term->tl_next;
 		break;
 	    }

     if (term->tl_job != NULL)
     {
 	if (term->tl_job->jv_status != JOB_ENDED)
 	    job_stop(term->tl_job, NULL, "kill");
 	job_unref(term->tl_job);
     }

     vterm_free(term->tl_vterm);
     vim_free(term);
 }

 /*
  * Invoked when "msg" output from a job was received.  Write it to the terminal
  * of "buffer".
  */
     void
 write_to_term(buf_T *buffer, char_u *msg, channel_T *channel)
 {
     size_t	len = STRLEN(msg);
     VTerm	*vterm = buffer->b_term->tl_vterm;

     ch_logn(channel, "writing %d bytes to terminal", (int)len);
     vterm_input_write(vterm, (char *)msg, len);
     vterm_screen_flush_damage(vterm_obtain_screen(vterm));

     /* TODO: only update once in a while. */
     update_screen(0);
     setcursor();
     out_flush();
 }

 /*
  * Called to update the window that contains the terminal.
  */
     void
 term_update_window(win_T *wp)
 {
     int vterm_rows;
     int vterm_cols;
     VTerm *vterm = wp->w_buffer->b_term->tl_vterm;
     VTermScreen *screen = vterm_obtain_screen(vterm);
     VTermPos pos;

     vterm_get_size(vterm, &vterm_rows, &vterm_cols);

     /* TODO: Only redraw what changed. */
     for (pos.row = 0; pos.row < wp->w_height; ++pos.row)
     {
 	int off = screen_get_current_line_off();

 	if (pos.row < vterm_rows)
 	    for (pos.col = 0; pos.col < wp->w_width && pos.col < vterm_cols;
 								     ++pos.col)
 	    {
 		VTermScreenCell cell;
 		int c;

 		vterm_screen_get_cell(screen, pos, &cell);
 		/* TODO: use cell.attrs and colors */
 		/* TODO: use cell.width */
 		/* TODO: multi-byte chars */
 		c = cell.chars[0];
 		ScreenLines[off] = c == NUL ? ' ' : c;
 		ScreenAttrs[off] = 0;
 		++off;
 	    }

 	screen_line(wp->w_winrow + pos.row, wp->w_wincol, pos.col, wp->w_width,
 									FALSE);
     }
 }

     static int
 handle_damage(VTermRect rect, void *user)
 {
     term_T *term = (term_T *)user;

     term->tl_dirty_row_start = MIN(term->tl_dirty_row_start, rect.start_row);
     term->tl_dirty_row_end = MAX(term->tl_dirty_row_end, rect.end_row);
     redraw_buf_later(term->tl_buffer, NOT_VALID);
     return 1;
 }

     static int
 handle_moverect(VTermRect dest, VTermRect src, void *user)
 {
     term_T	*term = (term_T *)user;

     /* TODO */
     redraw_buf_later(term->tl_buffer, NOT_VALID);
     return 1;
 }

   static int
 handle_movecursor(VTermPos pos, VTermPos oldpos, int visible, void *user)
 {
     term_T	*term = (term_T *)user;
     win_T	*wp;
     int		is_current = FALSE;

     FOR_ALL_WINDOWS(wp)
     {
 	if (wp->w_buffer == term->tl_buffer)
 	{
 	    /* TODO: limit to window size? */
 	    wp->w_wrow = pos.row;
 	    wp->w_wcol = pos.col;
 	    if (wp == curwin)
 		is_current = TRUE;
 	}
     }

     if (is_current)
     {
 	setcursor();
 	out_flush();
     }

     return 1;
 }

     static int
 handle_resize(int rows, int cols, void *user)
 {
     term_T	*term = (term_T *)user;

     /* TODO: handle terminal resize. */
     redraw_buf_later(term->tl_buffer, NOT_VALID);
     return 1;
 }

 /* TODO: Use win_del_lines() to make scroll up efficient. */


 /*
  * Wait for input and send it to the job.
  * Return when a CTRL-W command is typed that moves to another window.
  */
     void
 terminal_loop(void)
 {
     VTerm   *vterm = curbuf->b_term->tl_vterm;
     char    buf[200];

     for (;;)
     {
 	int c;
 	VTermKey key = VTERM_KEY_NONE;
 	VTermModifier mod = VTERM_MOD_NONE;
 	size_t len;

 	update_screen(0);
 	setcursor();
 	out_flush();

 	c = vgetc();
 	switch (c)
 	{
 	    case Ctrl_W:
 		stuffcharReadbuff(Ctrl_W);
 		return;

 	    /* TODO: which of these two should be used? */
 #if 0
 	    case CAR:		key = VTERM_KEY_ENTER; break;
 #else
 	    case CAR:		c = NL; break;
 #endif
 	    case ESC:		key = VTERM_KEY_ESCAPE; break;
 	    case K_BS:		key = VTERM_KEY_BACKSPACE; break;
 	    case K_DEL:		key = VTERM_KEY_DEL; break;
 	    case K_DOWN:	key = VTERM_KEY_DOWN; break;
 	    case K_END:		key = VTERM_KEY_END; break;
 	    case K_F10:		key = VTERM_KEY_FUNCTION(10); break;
 	    case K_F11:		key = VTERM_KEY_FUNCTION(11); break;
 	    case K_F12:		key = VTERM_KEY_FUNCTION(12); break;
 	    case K_F1:		key = VTERM_KEY_FUNCTION(1); break;
 	    case K_F2:		key = VTERM_KEY_FUNCTION(2); break;
 	    case K_F3:		key = VTERM_KEY_FUNCTION(3); break;
 	    case K_F4:		key = VTERM_KEY_FUNCTION(4); break;
 	    case K_F5:		key = VTERM_KEY_FUNCTION(5); break;
 	    case K_F6:		key = VTERM_KEY_FUNCTION(6); break;
 	    case K_F7:		key = VTERM_KEY_FUNCTION(7); break;
 	    case K_F8:		key = VTERM_KEY_FUNCTION(8); break;
 	    case K_F9:		key = VTERM_KEY_FUNCTION(9); break;
 	    case K_HOME:	key = VTERM_KEY_HOME; break;
 	    case K_INS:		key = VTERM_KEY_INS; break;
 	    case K_K0:		key = VTERM_KEY_KP_0; break;
 	    case K_K1:		key = VTERM_KEY_KP_1; break;
 	    case K_K2:		key = VTERM_KEY_KP_2; break;
 	    case K_K3:		key = VTERM_KEY_KP_3; break;
 	    case K_K4:		key = VTERM_KEY_KP_4; break;
 	    case K_K5:		key = VTERM_KEY_KP_5; break;
 	    case K_K6:		key = VTERM_KEY_KP_6; break;
 	    case K_K7:		key = VTERM_KEY_KP_7; break;
 	    case K_K8:		key = VTERM_KEY_KP_8; break;
 	    case K_K9:		key = VTERM_KEY_KP_9; break;
 	    case K_KDEL:	key = VTERM_KEY_DEL; break; /* TODO */
 	    case K_KDIVIDE:	key = VTERM_KEY_KP_DIVIDE; break;
 	    case K_KEND:	key = VTERM_KEY_KP_1; break; /* TODO */
 	    case K_KENTER:	key = VTERM_KEY_KP_ENTER; break;
 	    case K_KHOME:	key = VTERM_KEY_KP_7; break; /* TODO */
 	    case K_KINS:	key = VTERM_KEY_KP_0; break; /* TODO */
 	    case K_KMINUS:	key = VTERM_KEY_KP_MINUS; break;
 	    case K_KMULTIPLY:	key = VTERM_KEY_KP_MULT; break;
 	    case K_KPAGEDOWN:	key = VTERM_KEY_KP_3; break; /* TODO */
 	    case K_KPAGEUP:	key = VTERM_KEY_KP_9; break; /* TODO */
 	    case K_KPLUS:	key = VTERM_KEY_KP_PLUS; break;
 	    case K_KPOINT:	key = VTERM_KEY_KP_PERIOD; break;
 	    case K_LEFT:	key = VTERM_KEY_LEFT; break;
 	    case K_PAGEDOWN:	key = VTERM_KEY_PAGEDOWN; break;
 	    case K_PAGEUP:	key = VTERM_KEY_PAGEUP; break;
 	    case K_RIGHT:	key = VTERM_KEY_RIGHT; break;
 	    case K_UP:		key = VTERM_KEY_UP; break;
 	    case TAB:		key = VTERM_KEY_TAB; break;
 	}

 	/*
 	 * Convert special keys to vterm keys:
 	 * - Write keys to vterm: vterm_keyboard_key()
 	 * - Write output to channel.
 	 */
 	if (key != VTERM_KEY_NONE)
 	    /* Special key, let vterm convert it. */
 	    vterm_keyboard_key(vterm, key, mod);
 	else
 	    /* Normal character, let vterm convert it. */
 	    vterm_keyboard_unichar(vterm, c, mod);

 	/* Read back the converted escape sequence. */
 	len = vterm_output_read(vterm, buf, sizeof(buf));

 	/* TODO: if FAIL is returned, stop? */
 	channel_send(curbuf->b_term->tl_job->jv_channel, PART_IN,
 						     (char_u *)buf, len, NULL);
     }
 }

 #endif /* FEAT_TERMINAL */
	/* vi:set ts=8 sts=4 sw=4 noet:
	*
	* VIM - Vi IMproved by Bram Moolenaar
	*
	* Do ":help uganda" in Vim to read copying and usage conditions.
	* Do ":help credits" in Vim to see a list of people who contributed.
	* See README.txt for an overview of the Vim source code.
	*/

	/*
	* Terminal window support, see ":help :terminal".
	*
	* For a terminal one VTerm is constructed. This uses libvterm. A copy of
	* that library is in the libvterm directory.
	*
	* The VTerm invokes callbacks when its screen contents changes. The line
	* range is stored in tl_dirty_row_start and tl_dirty_row_end. Once in a
	* while, if the terminal window is visible, the screen contents is drawn.
	*
	* If the terminal window has keyboard focus, typed keys are converted to the
	* terminal encoding and writting to the job over a channel.
	*
	* If the job produces output, it is written to the VTerm.
	* This will result in screen updates.
	*
	* TODO:
	* - pressing Enter sends two CR and/or NL characters to "bash -i"?
	* Passing Enter as NL seems to work.
	* - set buffer options to be scratch, hidden, nomodifiable, etc.
	* - set buffer name to command, add (1) to avoid duplicates.
	* - If [command] is not given the 'shell' option is used.
	* - if the job ends, write "-- JOB ENDED --" in the terminal
	* - when closing window and job ended, delete the terminal
	* - when closing window and job has not ended, make terminal hidden?
	* - Use a pty for I/O with the job.
	* - Windows implementation:
	* (WiP): https://github.com/mattn/vim/tree/terminal
	* src/os_win32.c mch_open_terminal()
	Using winpty ?
	* - command line completion for :terminal
	* - support fixed size when 'termsize' is "rowsXcols".
	* - support minimal size when 'termsize' is "rows*cols".
	* - support minimal size when 'termsize' is empty.
	* - implement ":buf {term-buf-name}"
	* - implement term_list() list of buffers with a terminal
	* - implement term_getsize(buf)
	* - implement term_setsize(buf)
	* - implement term_sendkeys(buf, keys) send keystrokes to a terminal
	* - implement term_wait(buf) wait for screen to be updated
	* - implement term_scrape(buf, row) inspect terminal screen
	* - implement term_open(command, options) open terminal window
	* - implement term_getjob(buf)
	* - implement 'termkey'
	*/

	#include "vim.h"

	#ifdef FEAT_TERMINAL

	#include "libvterm/include/vterm.h"

	/* typedef term_T in structs.h */
	struct terminal_S {
	term_T *tl_next;

	VTerm *tl_vterm;
	job_T *tl_job;
	buf_T *tl_buffer;

	/* Range of screen rows to update. Zero based. */
	int tl_dirty_row_start; /* -1 if nothing dirty */
	int tl_dirty_row_end; /* row below last one to update */

	pos_T tl_cursor;
	};

	#define MAX_ROW 999999 /* used for tl_dirty_row_end to update all rows */

	/*
	* List of all active terminals.
	*/
	static term_T *first_term = NULL;

	static int handle_damage(VTermRect rect, void *user);
	static int handle_moverect(VTermRect dest, VTermRect src, void *user);
	static int handle_movecursor(VTermPos pos, VTermPos oldpos, int visible, void *user);
	static int handle_resize(int rows, int cols, void *user);

	static VTermScreenCallbacks screen_callbacks = {
	handle_damage, /* damage */
	handle_moverect, /* moverect */
	handle_movecursor, /* movecursor */
	NULL, /* settermprop */
	NULL, /* bell */
	handle_resize, /* resize */
	NULL, /* sb_pushline */
	NULL /* sb_popline */
	};

	/*
	* ":terminal": open a terminal window and execute a job in it.
	*/
	void
	ex_terminal(exarg_T *eap)
	{
	int rows;
	int cols;
	exarg_T split_ea;
	win_T *old_curwin = curwin;
	typval_T argvars[2];
	term_T *term;
	VTerm *vterm;
	VTermScreen *screen;
	jobopt_T opt;

	if (check_restricted() \|\| check_secure())
	return;

	term = (term_T *)alloc_clear(sizeof(term_T));
	if (term == NULL)
	return;
	term->tl_dirty_row_end = MAX_ROW;

	/* Open a new window or tab. */
	vim_memset(&split_ea, 0, sizeof(split_ea));
	split_ea.cmdidx = CMD_new;
	split_ea.cmd = (char_u *)"new";
	split_ea.arg = (char_u *)"";
	ex_splitview(&split_ea);
	if (curwin == old_curwin)
	{
	/* split failed */
	vim_free(term);
	return;
	}
	term->tl_buffer = curbuf;

	curbuf->b_term = term;
	term->tl_next = first_term;
	first_term = term;

	/* TODO: set buffer type, hidden, etc. */

	if (*curwin->w_p_tms != NUL)
	{
	char_u *p = vim_strchr(curwin->w_p_tms, 'x') + 1;

	rows = atoi((char *)curwin->w_p_tms);
	cols = atoi((char *)p);
	/* TODO: resize window if possible. */
	}
	else
	{
	rows = curwin->w_height;
	cols = curwin->w_width;
	}

	vterm = vterm_new(rows, cols);
	term->tl_vterm = vterm;
	screen = vterm_obtain_screen(vterm);
	vterm_screen_set_callbacks(screen, &screen_callbacks, term);
	/* TODO: depends on 'encoding'. */
	vterm_set_utf8(vterm, 1);
	/* Required to initialize most things. */
	vterm_screen_reset(screen, 1 /* hard */);

	/* By default NL means CR-NL. */
	vterm_input_write(vterm, "\x1b[20h", 5);

	argvars[0].v_type = VAR_STRING;
	argvars[0].vval.v_string = eap->arg;

	clear_job_options(&opt);
	opt.jo_mode = MODE_RAW;
	opt.jo_out_mode = MODE_RAW;
	opt.jo_err_mode = MODE_RAW;
	opt.jo_set = JO_MODE \| JO_OUT_MODE \| JO_ERR_MODE;
	opt.jo_io[PART_OUT] = JIO_BUFFER;
	opt.jo_io[PART_ERR] = JIO_BUFFER;
	opt.jo_set \|= JO_OUT_IO + (JO_OUT_IO << (PART_ERR - PART_OUT));
	opt.jo_io_buf[PART_OUT] = curbuf->b_fnum;
	opt.jo_io_buf[PART_ERR] = curbuf->b_fnum;
	opt.jo_set \|= JO_OUT_BUF + (JO_OUT_BUF << (PART_ERR - PART_OUT));

	term->tl_job = job_start(argvars, &opt);

	if (term->tl_job == NULL)
	/* Wiping out the buffer will also close the window. */
	do_buffer(DOBUF_WIPE, DOBUF_CURRENT, FORWARD, 0, TRUE);

	/* Setup pty, see mch_call_shell(). */
	}

	/*
	* Free a terminal and everything it refers to.
	* Kills the job if there is one.
	* Called when wiping out a buffer.
	*/
	void
	free_terminal(term_T *term)
	{
	term_T *tp;

	if (term == NULL)
	return;
	if (first_term == term)
	first_term = term->tl_next;
	else
	for (tp = first_term; tp->tl_next != NULL; tp = tp->tl_next)
	if (tp->tl_next == term)
	{
	tp->tl_next = term->tl_next;
	break;
	}

	if (term->tl_job != NULL)
	{
	if (term->tl_job->jv_status != JOB_ENDED)
	job_stop(term->tl_job, NULL, "kill");
	job_unref(term->tl_job);
	}

	vterm_free(term->tl_vterm);
	vim_free(term);
	}

	/*
	* Invoked when "msg" output from a job was received. Write it to the terminal
	* of "buffer".
	*/
	void
	write_to_term(buf_T buffer, char_u msg, channel_T *channel)
	{
	size_t len = STRLEN(msg);
	VTerm *vterm = buffer->b_term->tl_vterm;

	ch_logn(channel, "writing %d bytes to terminal", (int)len);
	vterm_input_write(vterm, (char *)msg, len);
	vterm_screen_flush_damage(vterm_obtain_screen(vterm));

	/* TODO: only update once in a while. */
	update_screen(0);
	setcursor();
	out_flush();
	}

	/*
	* Called to update the window that contains the terminal.
	*/
	void
	term_update_window(win_T *wp)
	{
	int vterm_rows;
	int vterm_cols;
	VTerm *vterm = wp->w_buffer->b_term->tl_vterm;
	VTermScreen *screen = vterm_obtain_screen(vterm);
	VTermPos pos;

	vterm_get_size(vterm, &vterm_rows, &vterm_cols);

	/* TODO: Only redraw what changed. */
	for (pos.row = 0; pos.row < wp->w_height; ++pos.row)
	{
	int off = screen_get_current_line_off();

	if (pos.row < vterm_rows)
	for (pos.col = 0; pos.col < wp->w_width && pos.col < vterm_cols;
	++pos.col)
	{
	VTermScreenCell cell;
	int c;

	vterm_screen_get_cell(screen, pos, &cell);
	/* TODO: use cell.attrs and colors */
	/* TODO: use cell.width */
	/* TODO: multi-byte chars */
	c = cell.chars[0];
	ScreenLines[off] = c == NUL ? ' ' : c;
	ScreenAttrs[off] = 0;
	++off;
	}

	screen_line(wp->w_winrow + pos.row, wp->w_wincol, pos.col, wp->w_width,
	FALSE);
	}
	}

	static int
	handle_damage(VTermRect rect, void *user)
	{
	term_T term = (term_T )user;

	term->tl_dirty_row_start = MIN(term->tl_dirty_row_start, rect.start_row);
	term->tl_dirty_row_end = MAX(term->tl_dirty_row_end, rect.end_row);
	redraw_buf_later(term->tl_buffer, NOT_VALID);
	return 1;
	}

	static int
	handle_moverect(VTermRect dest, VTermRect src, void *user)
	{
	term_T term = (term_T )user;

	/* TODO */
	redraw_buf_later(term->tl_buffer, NOT_VALID);
	return 1;
	}

	static int
	handle_movecursor(VTermPos pos, VTermPos oldpos, int visible, void *user)
	{
	term_T term = (term_T )user;
	win_T *wp;
	int is_current = FALSE;

	FOR_ALL_WINDOWS(wp)
	{
	if (wp->w_buffer == term->tl_buffer)
	{
	/* TODO: limit to window size? */
	wp->w_wrow = pos.row;
	wp->w_wcol = pos.col;
	if (wp == curwin)
	is_current = TRUE;
	}
	}

	if (is_current)
	{
	setcursor();
	out_flush();
	}

	return 1;
	}

	static int
	handle_resize(int rows, int cols, void *user)
	{
	term_T term = (term_T )user;

	/* TODO: handle terminal resize. */
	redraw_buf_later(term->tl_buffer, NOT_VALID);
	return 1;
	}

	/* TODO: Use win_del_lines() to make scroll up efficient. */


	/*
	* Wait for input and send it to the job.
	* Return when a CTRL-W command is typed that moves to another window.
	*/
	void
	terminal_loop(void)
	{
	VTerm *vterm = curbuf->b_term->tl_vterm;
	char buf[200];

	for (;;)
	{
	int c;
	VTermKey key = VTERM_KEY_NONE;
	VTermModifier mod = VTERM_MOD_NONE;
	size_t len;

	update_screen(0);
	setcursor();
	out_flush();

	c = vgetc();
	switch (c)
	{
	case Ctrl_W:
	stuffcharReadbuff(Ctrl_W);
	return;

	/* TODO: which of these two should be used? */
	#if 0
	case CAR: key = VTERM_KEY_ENTER; break;
	#else
	case CAR: c = NL; break;
	#endif
	case ESC: key = VTERM_KEY_ESCAPE; break;
	case K_BS: key = VTERM_KEY_BACKSPACE; break;
	case K_DEL: key = VTERM_KEY_DEL; break;
	case K_DOWN: key = VTERM_KEY_DOWN; break;
	case K_END: key = VTERM_KEY_END; break;
	case K_F10: key = VTERM_KEY_FUNCTION(10); break;
	case K_F11: key = VTERM_KEY_FUNCTION(11); break;
	case K_F12: key = VTERM_KEY_FUNCTION(12); break;
	case K_F1: key = VTERM_KEY_FUNCTION(1); break;
	case K_F2: key = VTERM_KEY_FUNCTION(2); break;
	case K_F3: key = VTERM_KEY_FUNCTION(3); break;
	case K_F4: key = VTERM_KEY_FUNCTION(4); break;
	case K_F5: key = VTERM_KEY_FUNCTION(5); break;
	case K_F6: key = VTERM_KEY_FUNCTION(6); break;
	case K_F7: key = VTERM_KEY_FUNCTION(7); break;
	case K_F8: key = VTERM_KEY_FUNCTION(8); break;
	case K_F9: key = VTERM_KEY_FUNCTION(9); break;
	case K_HOME: key = VTERM_KEY_HOME; break;
	case K_INS: key = VTERM_KEY_INS; break;
	case K_K0: key = VTERM_KEY_KP_0; break;
	case K_K1: key = VTERM_KEY_KP_1; break;
	case K_K2: key = VTERM_KEY_KP_2; break;
	case K_K3: key = VTERM_KEY_KP_3; break;
	case K_K4: key = VTERM_KEY_KP_4; break;
	case K_K5: key = VTERM_KEY_KP_5; break;
	case K_K6: key = VTERM_KEY_KP_6; break;
	case K_K7: key = VTERM_KEY_KP_7; break;
	case K_K8: key = VTERM_KEY_KP_8; break;
	case K_K9: key = VTERM_KEY_KP_9; break;
	case K_KDEL: key = VTERM_KEY_DEL; break; /* TODO */
	case K_KDIVIDE: key = VTERM_KEY_KP_DIVIDE; break;
	case K_KEND: key = VTERM_KEY_KP_1; break; /* TODO */
	case K_KENTER: key = VTERM_KEY_KP_ENTER; break;
	case K_KHOME: key = VTERM_KEY_KP_7; break; /* TODO */
	case K_KINS: key = VTERM_KEY_KP_0; break; /* TODO */
	case K_KMINUS: key = VTERM_KEY_KP_MINUS; break;
	case K_KMULTIPLY: key = VTERM_KEY_KP_MULT; break;
	case K_KPAGEDOWN: key = VTERM_KEY_KP_3; break; /* TODO */
	case K_KPAGEUP: key = VTERM_KEY_KP_9; break; /* TODO */
	case K_KPLUS: key = VTERM_KEY_KP_PLUS; break;
	case K_KPOINT: key = VTERM_KEY_KP_PERIOD; break;
	case K_LEFT: key = VTERM_KEY_LEFT; break;
	case K_PAGEDOWN: key = VTERM_KEY_PAGEDOWN; break;
	case K_PAGEUP: key = VTERM_KEY_PAGEUP; break;
	case K_RIGHT: key = VTERM_KEY_RIGHT; break;
	case K_UP: key = VTERM_KEY_UP; break;
	case TAB: key = VTERM_KEY_TAB; break;
	}

	/*
	* Convert special keys to vterm keys:
	* - Write keys to vterm: vterm_keyboard_key()
	* - Write output to channel.
	*/
	if (key != VTERM_KEY_NONE)
	/* Special key, let vterm convert it. */
	vterm_keyboard_key(vterm, key, mod);
	else
	/* Normal character, let vterm convert it. */
	vterm_keyboard_unichar(vterm, c, mod);

	/* Read back the converted escape sequence. */
	len = vterm_output_read(vterm, buf, sizeof(buf));

	/* TODO: if FAIL is returned, stop? */
	channel_send(curbuf->b_term->tl_job->jv_channel, PART_IN,
	(char_u *)buf, len, NULL);
	}
	}

	#endif /* FEAT_TERMINAL */