/* $OpenBSD$ */ /* * Copyright (c) 2007 Nicholas Marriott * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include "tmux.h" /* Selected area in screen. */ struct screen_sel { int hidden; int rectangle; int modekeys; u_int sx; u_int sy; u_int ex; u_int ey; struct grid_cell cell; }; /* Entry on title stack. */ struct screen_title_entry { char *text; TAILQ_ENTRY(screen_title_entry) entry; }; TAILQ_HEAD(screen_titles, screen_title_entry); static void screen_resize_y(struct screen *, u_int, int, u_int *); static void screen_reflow(struct screen *, u_int, u_int *, u_int *, int); /* Free titles stack. */ static void screen_free_titles(struct screen *s) { struct screen_title_entry *title_entry; if (s->titles == NULL) return; while ((title_entry = TAILQ_FIRST(s->titles)) != NULL) { TAILQ_REMOVE(s->titles, title_entry, entry); free(title_entry->text); free(title_entry); } free(s->titles); s->titles = NULL; } /* Create a new screen. */ void screen_init(struct screen *s, u_int sx, u_int sy, u_int hlimit) { s->grid = grid_create(sx, sy, hlimit); s->saved_grid = NULL; s->title = xstrdup(""); s->titles = NULL; s->path = NULL; s->cstyle = SCREEN_CURSOR_DEFAULT; s->default_cstyle = SCREEN_CURSOR_DEFAULT; s->mode = MODE_CURSOR; s->default_mode = 0; s->ccolour = -1; s->default_ccolour = -1; s->tabs = NULL; s->sel = NULL; #ifdef ENABLE_SIXEL TAILQ_INIT(&s->images); #endif s->write_list = NULL; s->hyperlinks = NULL; screen_reinit(s); } /* Reinitialise screen. */ void screen_reinit(struct screen *s) { s->cx = 0; s->cy = 0; s->rupper = 0; s->rlower = screen_size_y(s) - 1; s->mode = MODE_CURSOR|MODE_WRAP|(s->mode & MODE_CRLF); if (options_get_number(global_options, "extended-keys") == 2) s->mode |= MODE_KEXTENDED; if (s->saved_grid != NULL) screen_alternate_off(s, NULL, 0); s->saved_cx = UINT_MAX; s->saved_cy = UINT_MAX; screen_reset_tabs(s); grid_clear_lines(s->grid, s->grid->hsize, s->grid->sy, 8); screen_clear_selection(s); screen_free_titles(s); #ifdef ENABLE_SIXEL image_free_all(s); #endif screen_reset_hyperlinks(s); } /* Reset hyperlinks of a screen. */ void screen_reset_hyperlinks(struct screen *s) { if (s->hyperlinks == NULL) s->hyperlinks = hyperlinks_init(); else hyperlinks_reset(s->hyperlinks); } /* Destroy a screen. */ void screen_free(struct screen *s) { free(s->sel); free(s->tabs); free(s->path); free(s->title); if (s->write_list != NULL) screen_write_free_list(s); if (s->saved_grid != NULL) grid_destroy(s->saved_grid); grid_destroy(s->grid); if (s->hyperlinks != NULL) hyperlinks_free(s->hyperlinks); screen_free_titles(s); #ifdef ENABLE_SIXEL image_free_all(s); #endif } /* Reset tabs to default, eight spaces apart. */ void screen_reset_tabs(struct screen *s) { u_int i; free(s->tabs); if ((s->tabs = bit_alloc(screen_size_x(s))) == NULL) fatal("bit_alloc failed"); for (i = 8; i < screen_size_x(s); i += 8) bit_set(s->tabs, i); } /* Set screen cursor style and mode. */ void screen_set_cursor_style(u_int style, enum screen_cursor_style *cstyle, int *mode) { switch (style) { case 0: *cstyle = SCREEN_CURSOR_DEFAULT; break; case 1: *cstyle = SCREEN_CURSOR_BLOCK; *mode |= MODE_CURSOR_BLINKING; break; case 2: *cstyle = SCREEN_CURSOR_BLOCK; *mode &= ~MODE_CURSOR_BLINKING; break; case 3: *cstyle = SCREEN_CURSOR_UNDERLINE; *mode |= MODE_CURSOR_BLINKING; break; case 4: *cstyle = SCREEN_CURSOR_UNDERLINE; *mode &= ~MODE_CURSOR_BLINKING; break; case 5: *cstyle = SCREEN_CURSOR_BAR; *mode |= MODE_CURSOR_BLINKING; break; case 6: *cstyle = SCREEN_CURSOR_BAR; *mode &= ~MODE_CURSOR_BLINKING; break; } } /* Set screen cursor colour. */ void screen_set_cursor_colour(struct screen *s, int colour) { s->ccolour = colour; } /* Set screen title. */ int screen_set_title(struct screen *s, const char *title) { if (!utf8_isvalid(title)) return (0); free(s->title); s->title = xstrdup(title); return (1); } /* Set screen path. */ void screen_set_path(struct screen *s, const char *path) { free(s->path); utf8_stravis(&s->path, path, VIS_OCTAL|VIS_CSTYLE|VIS_TAB|VIS_NL); } /* Push the current title onto the stack. */ void screen_push_title(struct screen *s) { struct screen_title_entry *title_entry; if (s->titles == NULL) { s->titles = xmalloc(sizeof *s->titles); TAILQ_INIT(s->titles); } title_entry = xmalloc(sizeof *title_entry); title_entry->text = xstrdup(s->title); TAILQ_INSERT_HEAD(s->titles, title_entry, entry); } /* * Pop a title from the stack and set it as the screen title. If the stack is * empty, do nothing. */ void screen_pop_title(struct screen *s) { struct screen_title_entry *title_entry; if (s->titles == NULL) return; title_entry = TAILQ_FIRST(s->titles); if (title_entry != NULL) { screen_set_title(s, title_entry->text); TAILQ_REMOVE(s->titles, title_entry, entry); free(title_entry->text); free(title_entry); } } /* Resize screen with options. */ void screen_resize_cursor(struct screen *s, u_int sx, u_int sy, int reflow, int eat_empty, int cursor) { u_int cx = s->cx, cy = s->grid->hsize + s->cy; if (s->write_list != NULL) screen_write_free_list(s); log_debug("%s: new size %ux%u, now %ux%u (cursor %u,%u = %u,%u)", __func__, sx, sy, screen_size_x(s), screen_size_y(s), s->cx, s->cy, cx, cy); if (sx < 1) sx = 1; if (sy < 1) sy = 1; if (sx != screen_size_x(s)) { s->grid->sx = sx; screen_reset_tabs(s); } else reflow = 0; if (sy != screen_size_y(s)) screen_resize_y(s, sy, eat_empty, &cy); #ifdef ENABLE_SIXEL image_free_all(s); #endif if (reflow) screen_reflow(s, sx, &cx, &cy, cursor); if (cy >= s->grid->hsize) { s->cx = cx; s->cy = cy - s->grid->hsize; } else { s->cx = 0; s->cy = 0; } log_debug("%s: cursor finished at %u,%u = %u,%u", __func__, s->cx, s->cy, cx, cy); if (s->write_list != NULL) screen_write_make_list(s); } /* Resize screen. */ void screen_resize(struct screen *s, u_int sx, u_int sy, int reflow) { screen_resize_cursor(s, sx, sy, reflow, 1, 1); } static void screen_resize_y(struct screen *s, u_int sy, int eat_empty, u_int *cy) { struct grid *gd = s->grid; u_int needed, available, oldy, i; if (sy == 0) fatalx("zero size"); oldy = screen_size_y(s); /* * When resizing: * * If the height is decreasing, delete lines from the bottom until * hitting the cursor, then push lines from the top into the history. * * When increasing, pull as many lines as possible from scrolled * history (not explicitly cleared from view) to the top, then fill the * remaining with blanks at the bottom. */ /* Size decreasing. */ if (sy < oldy) { needed = oldy - sy; /* Delete as many lines as possible from the bottom. */ if (eat_empty) { available = oldy - 1 - s->cy; if (available > 0) { if (available > needed) available = needed; grid_view_delete_lines(gd, oldy - available, available, 8); } needed -= available; } /* * Now just increase the history size, if possible, to take * over the lines which are left. If history is off, delete * lines from the top. */ available = s->cy; if (gd->flags & GRID_HISTORY) { gd->hscrolled += needed; gd->hsize += needed; } else if (needed > 0 && available > 0) { if (available > needed) available = needed; grid_view_delete_lines(gd, 0, available, 8); (*cy) -= available; } } /* Resize line array. */ grid_adjust_lines(gd, gd->hsize + sy); /* Size increasing. */ if (sy > oldy) { needed = sy - oldy; /* * Try to pull as much as possible out of scrolled history, if * it is enabled. */ available = gd->hscrolled; if (gd->flags & GRID_HISTORY && available > 0) { if (available > needed) available = needed; gd->hscrolled -= available; gd->hsize -= available; } else available = 0; needed -= available; /* Then fill the rest in with blanks. */ for (i = gd->hsize + sy - needed; i < gd->hsize + sy; i++) grid_empty_line(gd, i, 8); } /* Set the new size, and reset the scroll region. */ gd->sy = sy; s->rupper = 0; s->rlower = screen_size_y(s) - 1; } /* Set selection. */ void screen_set_selection(struct screen *s, u_int sx, u_int sy, u_int ex, u_int ey, u_int rectangle, int modekeys, struct grid_cell *gc) { if (s->sel == NULL) s->sel = xcalloc(1, sizeof *s->sel); memcpy(&s->sel->cell, gc, sizeof s->sel->cell); s->sel->hidden = 0; s->sel->rectangle = rectangle; s->sel->modekeys = modekeys; s->sel->sx = sx; s->sel->sy = sy; s->sel->ex = ex; s->sel->ey = ey; } /* Clear selection. */ void screen_clear_selection(struct screen *s) { free(s->sel); s->sel = NULL; } /* Hide selection. */ void screen_hide_selection(struct screen *s) { if (s->sel != NULL) s->sel->hidden = 1; } /* Check if cell in selection. */ int screen_check_selection(struct screen *s, u_int px, u_int py) { struct screen_sel *sel = s->sel; u_int xx; if (sel == NULL || sel->hidden) return (0); if (sel->rectangle) { if (sel->sy < sel->ey) { /* start line < end line -- downward selection. */ if (py < sel->sy || py > sel->ey) return (0); } else if (sel->sy > sel->ey) { /* start line > end line -- upward selection. */ if (py > sel->sy || py < sel->ey) return (0); } else { /* starting line == ending line. */ if (py != sel->sy) return (0); } /* * Need to include the selection start row, but not the cursor * row, which means the selection changes depending on which * one is on the left. */ if (sel->ex < sel->sx) { /* Cursor (ex) is on the left. */ if (px < sel->ex) return (0); if (px > sel->sx) return (0); } else { /* Selection start (sx) is on the left. */ if (px < sel->sx) return (0); if (px > sel->ex) return (0); } } else { /* * Like emacs, keep the top-left-most character, and drop the * bottom-right-most, regardless of copy direction. */ if (sel->sy < sel->ey) { /* starting line < ending line -- downward selection. */ if (py < sel->sy || py > sel->ey) return (0); if (py == sel->sy && px < sel->sx) return (0); if (sel->modekeys == MODEKEY_EMACS) xx = (sel->ex == 0 ? 0 : sel->ex - 1); else xx = sel->ex; if (py == sel->ey && px > xx) return (0); } else if (sel->sy > sel->ey) { /* starting line > ending line -- upward selection. */ if (py > sel->sy || py < sel->ey) return (0); if (py == sel->ey && px < sel->ex) return (0); if (sel->modekeys == MODEKEY_EMACS) xx = sel->sx - 1; else xx = sel->sx; if (py == sel->sy && (sel->sx == 0 || px > xx)) return (0); } else { /* starting line == ending line. */ if (py != sel->sy) return (0); if (sel->ex < sel->sx) { /* cursor (ex) is on the left */ if (sel->modekeys == MODEKEY_EMACS) xx = sel->sx - 1; else xx = sel->sx; if (px > xx || px < sel->ex) return (0); } else { /* selection start (sx) is on the left */ if (sel->modekeys == MODEKEY_EMACS) xx = (sel->ex == 0 ? 0 : sel->ex - 1); else xx = sel->ex; if (px < sel->sx || px > xx) return (0); } } } return (1); } /* Get selected grid cell. */ void screen_select_cell(struct screen *s, struct grid_cell *dst, const struct grid_cell *src) { if (s->sel == NULL || s->sel->hidden) return; memcpy(dst, &s->sel->cell, sizeof *dst); utf8_copy(&dst->data, &src->data); dst->attr = dst->attr & ~GRID_ATTR_CHARSET; dst->attr |= src->attr & GRID_ATTR_CHARSET; dst->flags = src->flags; } /* Reflow wrapped lines. */ static void screen_reflow(struct screen *s, u_int new_x, u_int *cx, u_int *cy, int cursor) { u_int wx, wy; if (cursor) { grid_wrap_position(s->grid, *cx, *cy, &wx, &wy); log_debug("%s: cursor %u,%u is %u,%u", __func__, *cx, *cy, wx, wy); } grid_reflow(s->grid, new_x); if (cursor) { grid_unwrap_position(s->grid, cx, cy, wx, wy); log_debug("%s: new cursor is %u,%u", __func__, *cx, *cy); } else { *cx = 0; *cy = s->grid->hsize; } } /* * Enter alternative screen mode. A copy of the visible screen is saved and the * history is not updated. */ void screen_alternate_on(struct screen *s, struct grid_cell *gc, int cursor) { u_int sx, sy; if (s->saved_grid != NULL) return; sx = screen_size_x(s); sy = screen_size_y(s); s->saved_grid = grid_create(sx, sy, 0); grid_duplicate_lines(s->saved_grid, 0, s->grid, screen_hsize(s), sy); if (cursor) { s->saved_cx = s->cx; s->saved_cy = s->cy; } memcpy(&s->saved_cell, gc, sizeof s->saved_cell); grid_view_clear(s->grid, 0, 0, sx, sy, 8); s->saved_flags = s->grid->flags; s->grid->flags &= ~GRID_HISTORY; } /* Exit alternate screen mode and restore the copied grid. */ void screen_alternate_off(struct screen *s, struct grid_cell *gc, int cursor) { u_int sx = screen_size_x(s), sy = screen_size_y(s); /* * If the current size is different, temporarily resize to the old size * before copying back. */ if (s->saved_grid != NULL) screen_resize(s, s->saved_grid->sx, s->saved_grid->sy, 0); /* * Restore the cursor position and cell. This happens even if not * currently in the alternate screen. */ if (cursor && s->saved_cx != UINT_MAX && s->saved_cy != UINT_MAX) { s->cx = s->saved_cx; s->cy = s->saved_cy; if (gc != NULL) memcpy(gc, &s->saved_cell, sizeof *gc); } /* If not in the alternate screen, do nothing more. */ if (s->saved_grid == NULL) { if (s->cx > screen_size_x(s) - 1) s->cx = screen_size_x(s) - 1; if (s->cy > screen_size_y(s) - 1) s->cy = screen_size_y(s) - 1; return; } /* Restore the saved grid. */ grid_duplicate_lines(s->grid, screen_hsize(s), s->saved_grid, 0, s->saved_grid->sy); /* * Turn history back on (so resize can use it) and then resize back to * the current size. */ if (s->saved_flags & GRID_HISTORY) s->grid->flags |= GRID_HISTORY; screen_resize(s, sx, sy, 1); grid_destroy(s->saved_grid); s->saved_grid = NULL; if (s->cx > screen_size_x(s) - 1) s->cx = screen_size_x(s) - 1; if (s->cy > screen_size_y(s) - 1) s->cy = screen_size_y(s) - 1; } /* Get mode as a string. */ const char * screen_mode_to_string(int mode) { static char tmp[1024]; if (mode == 0) return ("NONE"); if (mode == ALL_MODES) return ("ALL"); *tmp = '\0'; if (mode & MODE_CURSOR) strlcat(tmp, "CURSOR,", sizeof tmp); if (mode & MODE_INSERT) strlcat(tmp, "INSERT,", sizeof tmp); if (mode & MODE_KCURSOR) strlcat(tmp, "KCURSOR,", sizeof tmp); if (mode & MODE_KKEYPAD) strlcat(tmp, "KKEYPAD,", sizeof tmp); if (mode & MODE_WRAP) strlcat(tmp, "WRAP,", sizeof tmp); if (mode & MODE_MOUSE_STANDARD) strlcat(tmp, "MOUSE_STANDARD,", sizeof tmp); if (mode & MODE_MOUSE_BUTTON) strlcat(tmp, "MOUSE_BUTTON,", sizeof tmp); if (mode & MODE_CURSOR_BLINKING) strlcat(tmp, "CURSOR_BLINKING,", sizeof tmp); if (mode & MODE_CURSOR_VERY_VISIBLE) strlcat(tmp, "CURSOR_VERY_VISIBLE,", sizeof tmp); if (mode & MODE_MOUSE_UTF8) strlcat(tmp, "MOUSE_UTF8,", sizeof tmp); if (mode & MODE_MOUSE_SGR) strlcat(tmp, "MOUSE_SGR,", sizeof tmp); if (mode & MODE_BRACKETPASTE) strlcat(tmp, "BRACKETPASTE,", sizeof tmp); if (mode & MODE_FOCUSON) strlcat(tmp, "FOCUSON,", sizeof tmp); if (mode & MODE_MOUSE_ALL) strlcat(tmp, "MOUSE_ALL,", sizeof tmp); if (mode & MODE_ORIGIN) strlcat(tmp, "ORIGIN,", sizeof tmp); if (mode & MODE_CRLF) strlcat(tmp, "CRLF,", sizeof tmp); if (mode & MODE_KEXTENDED) strlcat(tmp, "KEXTENDED,", sizeof tmp); tmp[strlen(tmp) - 1] = '\0'; return (tmp); }