/* $OpenBSD: window-copy.c,v 1.147 2016/03/18 14:27:24 nicm Exp $ */ /* * 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" struct screen *window_copy_init(struct window_pane *); void window_copy_free(struct window_pane *); void window_copy_pagedown(struct window_pane *); void window_copy_resize(struct window_pane *, u_int, u_int); void window_copy_key(struct window_pane *, struct client *, struct session *, key_code, struct mouse_event *); int window_copy_key_input(struct window_pane *, key_code); int window_copy_key_numeric_prefix(struct window_pane *, key_code); void window_copy_redraw_selection(struct window_pane *, u_int); void window_copy_redraw_lines(struct window_pane *, u_int, u_int); void window_copy_redraw_screen(struct window_pane *); void window_copy_write_line(struct window_pane *, struct screen_write_ctx *, u_int); void window_copy_write_lines(struct window_pane *, struct screen_write_ctx *, u_int, u_int); void window_copy_scroll_to(struct window_pane *, u_int, u_int); int window_copy_search_compare(struct grid *, u_int, u_int, struct grid *, u_int, int); int window_copy_search_lr(struct grid *, struct grid *, u_int *, u_int, u_int, u_int, int); int window_copy_search_rl(struct grid *, struct grid *, u_int *, u_int, u_int, u_int, int); void window_copy_search_up(struct window_pane *, const char *); void window_copy_search_down(struct window_pane *, const char *); void window_copy_goto_line(struct window_pane *, const char *); void window_copy_update_cursor(struct window_pane *, u_int, u_int); void window_copy_start_selection(struct window_pane *); int window_copy_update_selection(struct window_pane *, int); void *window_copy_get_selection(struct window_pane *, size_t *); void window_copy_copy_buffer(struct window_pane *, const char *, void *, size_t); void window_copy_copy_pipe(struct window_pane *, struct session *, const char *, const char *); void window_copy_copy_selection(struct window_pane *, const char *); void window_copy_append_selection(struct window_pane *, const char *); void window_copy_clear_selection(struct window_pane *); void window_copy_copy_line(struct window_pane *, char **, size_t *, u_int, u_int, u_int); int window_copy_in_set(struct window_pane *, u_int, u_int, const char *); u_int window_copy_find_length(struct window_pane *, u_int); void window_copy_cursor_start_of_line(struct window_pane *); void window_copy_cursor_back_to_indentation(struct window_pane *); void window_copy_cursor_end_of_line(struct window_pane *); void window_copy_other_end(struct window_pane *); void window_copy_cursor_left(struct window_pane *); void window_copy_cursor_right(struct window_pane *); void window_copy_cursor_up(struct window_pane *, int); void window_copy_cursor_down(struct window_pane *, int); void window_copy_cursor_jump(struct window_pane *); void window_copy_cursor_jump_back(struct window_pane *); void window_copy_cursor_jump_to(struct window_pane *, int); void window_copy_cursor_jump_to_back(struct window_pane *, int); void window_copy_cursor_next_word(struct window_pane *, const char *); void window_copy_cursor_next_word_end(struct window_pane *, const char *); void window_copy_cursor_previous_word(struct window_pane *, const char *); void window_copy_scroll_up(struct window_pane *, u_int); void window_copy_scroll_down(struct window_pane *, u_int); void window_copy_rectangle_toggle(struct window_pane *); void window_copy_drag_update(struct client *, struct mouse_event *); void window_copy_drag_release(struct client *, struct mouse_event *); const struct window_mode window_copy_mode = { window_copy_init, window_copy_free, window_copy_resize, window_copy_key, }; enum window_copy_input_type { WINDOW_COPY_OFF, WINDOW_COPY_NAMEDBUFFER, WINDOW_COPY_NUMERICPREFIX, WINDOW_COPY_SEARCHUP, WINDOW_COPY_SEARCHDOWN, WINDOW_COPY_JUMPFORWARD, WINDOW_COPY_JUMPBACK, WINDOW_COPY_JUMPTOFORWARD, WINDOW_COPY_JUMPTOBACK, WINDOW_COPY_GOTOLINE, }; /* * Copy-mode's visible screen (the "screen" field) is filled from one of * two sources: the original contents of the pane (used when we * actually enter via the "copy-mode" command, to copy the contents of * the current pane), or else a series of lines containing the output * from an output-writing tmux command (such as any of the "show-*" or * "list-*" commands). * * In either case, the full content of the copy-mode grid is pointed at * by the "backing" field, and is copied into "screen" as needed (that * is, when scrolling occurs). When copy-mode is backed by a pane, * backing points directly at that pane's screen structure (&wp->base); * when backed by a list of output-lines from a command, it points at * a newly-allocated screen structure (which is deallocated when the * mode ends). */ struct window_copy_mode_data { struct screen screen; struct screen *backing; int backing_written; /* backing display started */ struct mode_key_data mdata; u_int oy; u_int selx; u_int sely; int rectflag; /* in rectangle copy mode? */ int scroll_exit; /* exit on scroll to end? */ u_int cx; u_int cy; u_int lastcx; /* position in last line w/ content */ u_int lastsx; /* size of last line w/ content */ enum window_copy_input_type inputtype; const char *inputprompt; char *inputstr; int inputexit; int numprefix; enum window_copy_input_type searchtype; char *searchstr; enum window_copy_input_type jumptype; char jumpchar; }; struct screen * window_copy_init(struct window_pane *wp) { struct window_copy_mode_data *data; struct screen *s; int keys; wp->modedata = data = xmalloc(sizeof *data); data->oy = 0; data->cx = 0; data->cy = 0; data->lastcx = 0; data->lastsx = 0; data->backing_written = 0; data->rectflag = 0; data->scroll_exit = 0; data->inputtype = WINDOW_COPY_OFF; data->inputprompt = NULL; data->inputstr = xstrdup(""); data->numprefix = -1; data->searchtype = WINDOW_COPY_OFF; data->searchstr = NULL; if (wp->fd != -1) bufferevent_disable(wp->event, EV_READ|EV_WRITE); data->jumptype = WINDOW_COPY_OFF; data->jumpchar = '\0'; s = &data->screen; screen_init(s, screen_size_x(&wp->base), screen_size_y(&wp->base), 0); keys = options_get_number(wp->window->options, "mode-keys"); if (keys == MODEKEY_EMACS) mode_key_init(&data->mdata, &mode_key_tree_emacs_copy); else mode_key_init(&data->mdata, &mode_key_tree_vi_copy); s->sel.modekeys = keys; data->backing = NULL; return (s); } void window_copy_init_from_pane(struct window_pane *wp, int scroll_exit) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct screen_write_ctx ctx; u_int i; if (wp->mode != &window_copy_mode) fatalx("not in copy mode"); data->backing = &wp->base; data->cx = data->backing->cx; data->cy = data->backing->cy; data->scroll_exit = scroll_exit; s->cx = data->cx; s->cy = data->cy; screen_write_start(&ctx, NULL, s); for (i = 0; i < screen_size_y(s); i++) window_copy_write_line(wp, &ctx, i); screen_write_cursormove(&ctx, data->cx, data->cy); screen_write_stop(&ctx); } void window_copy_init_for_output(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; data->backing = xmalloc(sizeof *data->backing); screen_init(data->backing, screen_size_x(&wp->base), screen_size_y(&wp->base), UINT_MAX); } void window_copy_free(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; if (wp->fd != -1) bufferevent_enable(wp->event, EV_READ|EV_WRITE); free(data->searchstr); free(data->inputstr); if (data->backing != &wp->base) { screen_free(data->backing); free(data->backing); } screen_free(&data->screen); free(data); } void window_copy_add(struct window_pane *wp, const char *fmt, ...) { va_list ap; va_start(ap, fmt); window_copy_vadd(wp, fmt, ap); va_end(ap); } void window_copy_vadd(struct window_pane *wp, const char *fmt, va_list ap) { struct window_copy_mode_data *data = wp->modedata; struct screen *backing = data->backing; struct screen_write_ctx back_ctx, ctx; struct grid_cell gc; u_int old_hsize, old_cy; if (backing == &wp->base) return; memcpy(&gc, &grid_default_cell, sizeof gc); old_hsize = screen_hsize(data->backing); screen_write_start(&back_ctx, NULL, backing); if (data->backing_written) { /* * On the second or later line, do a CRLF before writing * (so it's on a new line). */ screen_write_carriagereturn(&back_ctx); screen_write_linefeed(&back_ctx, 0); } else data->backing_written = 1; old_cy = backing->cy; screen_write_vnputs(&back_ctx, 0, &gc, fmt, ap); screen_write_stop(&back_ctx); data->oy += screen_hsize(data->backing) - old_hsize; screen_write_start(&ctx, wp, &data->screen); /* * If the history has changed, draw the top line. * (If there's any history at all, it has changed.) */ if (screen_hsize(data->backing)) window_copy_redraw_lines(wp, 0, 1); /* Write the new lines. */ window_copy_redraw_lines(wp, old_cy, backing->cy - old_cy + 1); screen_write_stop(&ctx); } void window_copy_pageup(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; u_int n, ox, oy; oy = screen_hsize(data->backing) + data->cy - data->oy; ox = window_copy_find_length(wp, oy); if (s->sel.lineflag == LINE_SEL_LEFT_RIGHT && oy == data->sely) window_copy_other_end(wp); if (data->cx != ox) { data->lastcx = data->cx; data->lastsx = ox; } data->cx = data->lastcx; n = 1; if (screen_size_y(s) > 2) n = screen_size_y(s) - 2; if (data->oy + n > screen_hsize(data->backing)) data->oy = screen_hsize(data->backing); else data->oy += n; if (!data->screen.sel.flag || !data->rectflag) { u_int py = screen_hsize(data->backing) + data->cy - data->oy; u_int px = window_copy_find_length(wp, py); if ((data->cx >= data->lastsx && data->cx != px) || data->cx > px) window_copy_cursor_end_of_line(wp); } window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); } void window_copy_pagedown(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; u_int n, ox, oy; oy = screen_hsize(data->backing) + data->cy - data->oy; ox = window_copy_find_length(wp, oy); if (s->sel.lineflag == LINE_SEL_RIGHT_LEFT && oy == data->sely) window_copy_other_end(wp); if (data->cx != ox) { data->lastcx = data->cx; data->lastsx = ox; } data->cx = data->lastcx; n = 1; if (screen_size_y(s) > 2) n = screen_size_y(s) - 2; if (data->oy < n) data->oy = 0; else data->oy -= n; if (!data->screen.sel.flag || !data->rectflag) { u_int py = screen_hsize(data->backing) + data->cy - data->oy; u_int px = window_copy_find_length(wp, py); if ((data->cx >= data->lastsx && data->cx != px) || data->cx > px) window_copy_cursor_end_of_line(wp); } if (data->scroll_exit && data->oy == 0) { window_pane_reset_mode(wp); return; } window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); } void window_copy_resize(struct window_pane *wp, u_int sx, u_int sy) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct screen_write_ctx ctx; screen_resize(s, sx, sy, 1); if (data->backing != &wp->base) screen_resize(data->backing, sx, sy, 1); if (data->cy > sy - 1) data->cy = sy - 1; if (data->cx > sx) data->cx = sx; if (data->oy > screen_hsize(data->backing)) data->oy = screen_hsize(data->backing); window_copy_clear_selection(wp); screen_write_start(&ctx, NULL, s); window_copy_write_lines(wp, &ctx, 0, screen_size_y(s) - 1); screen_write_stop(&ctx); window_copy_redraw_screen(wp); } void window_copy_key(struct window_pane *wp, struct client *c, struct session *sess, key_code key, struct mouse_event *m) { const char *word_separators; struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; u_int n, np; int keys; enum mode_key_cmd cmd; const char *arg, *ss; np = 1; if (data->numprefix > 0) np = data->numprefix; if (data->inputtype == WINDOW_COPY_JUMPFORWARD || data->inputtype == WINDOW_COPY_JUMPBACK || data->inputtype == WINDOW_COPY_JUMPTOFORWARD || data->inputtype == WINDOW_COPY_JUMPTOBACK) { /* Ignore keys with modifiers. */ if ((key & KEYC_MASK_MOD) == 0) { data->jumpchar = key; if (data->inputtype == WINDOW_COPY_JUMPFORWARD) { for (; np != 0; np--) window_copy_cursor_jump(wp); } if (data->inputtype == WINDOW_COPY_JUMPBACK) { for (; np != 0; np--) window_copy_cursor_jump_back(wp); } if (data->inputtype == WINDOW_COPY_JUMPTOFORWARD) { for (; np != 0; np--) window_copy_cursor_jump_to(wp, 0); } if (data->inputtype == WINDOW_COPY_JUMPTOBACK) { for (; np != 0; np--) window_copy_cursor_jump_to_back(wp, 0); } } data->jumptype = data->inputtype; data->inputtype = WINDOW_COPY_OFF; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return; } else if (data->inputtype == WINDOW_COPY_NUMERICPREFIX) { if (window_copy_key_numeric_prefix(wp, key) == 0) return; data->inputtype = WINDOW_COPY_OFF; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); } else if (data->inputtype != WINDOW_COPY_OFF) { if (window_copy_key_input(wp, key) != 0) goto input_off; return; } cmd = mode_key_lookup(&data->mdata, key, &arg); if (cmd != MODEKEYCOPY_PREVIOUSPAGE && cmd != MODEKEYCOPY_NEXTPAGE && cmd != MODEKEYCOPY_SCROLLUP && cmd != MODEKEYCOPY_SCROLLDOWN && cmd != MODEKEYCOPY_HALFPAGEUP && cmd != MODEKEYCOPY_HALFPAGEDOWN) data->scroll_exit = 0; switch (cmd) { case MODEKEYCOPY_APPENDSELECTION: if (sess != NULL) { window_copy_append_selection(wp, NULL); if (arg == NULL) { window_pane_reset_mode(wp); return; } window_copy_clear_selection(wp); window_copy_redraw_screen(wp); } break; case MODEKEYCOPY_CANCEL: window_pane_reset_mode(wp); return; case MODEKEYCOPY_OTHEREND: if (np % 2) window_copy_other_end(wp); break; case MODEKEYCOPY_LEFT: for (; np != 0; np--) window_copy_cursor_left(wp); break; case MODEKEYCOPY_RIGHT: for (; np != 0; np--) window_copy_cursor_right(wp); break; case MODEKEYCOPY_UP: for (; np != 0; np--) window_copy_cursor_up(wp, 0); break; case MODEKEYCOPY_DOWN: for (; np != 0; np--) window_copy_cursor_down(wp, 0); break; case MODEKEYCOPY_SCROLLUP: for (; np != 0; np--) window_copy_cursor_up(wp, 1); break; case MODEKEYCOPY_SCROLLDOWN: for (; np != 0; np--) window_copy_cursor_down(wp, 1); if (data->scroll_exit && data->oy == 0) { window_pane_reset_mode(wp); return; } break; case MODEKEYCOPY_PREVIOUSPAGE: for (; np != 0; np--) window_copy_pageup(wp); break; case MODEKEYCOPY_NEXTPAGE: for (; np != 0; np--) window_copy_pagedown(wp); break; case MODEKEYCOPY_HALFPAGEUP: n = screen_size_y(s) / 2; for (; np != 0; np--) { if (data->oy + n > screen_hsize(data->backing)) data->oy = screen_hsize(data->backing); else data->oy += n; } window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_HALFPAGEDOWN: n = screen_size_y(s) / 2; for (; np != 0; np--) { if (data->oy < n) data->oy = 0; else data->oy -= n; } if (data->scroll_exit && data->oy == 0) { window_pane_reset_mode(wp); return; } window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_TOPLINE: data->cx = 0; data->cy = 0; window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_MIDDLELINE: data->cx = 0; data->cy = (screen_size_y(s) - 1) / 2; window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_BOTTOMLINE: data->cx = 0; data->cy = screen_size_y(s) - 1; window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_HISTORYTOP: data->cx = 0; data->cy = 0; data->oy = screen_hsize(data->backing); window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_HISTORYBOTTOM: data->cx = 0; data->cy = screen_size_y(s) - 1; data->oy = 0; window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_STARTSELECTION: if (KEYC_IS_MOUSE(key)) { if (c != NULL) window_copy_start_drag(c, m); } else { s->sel.lineflag = LINE_SEL_NONE; window_copy_start_selection(wp); window_copy_redraw_screen(wp); } break; case MODEKEYCOPY_SELECTLINE: s->sel.lineflag = LINE_SEL_LEFT_RIGHT; data->rectflag = 0; /* FALLTHROUGH */ case MODEKEYCOPY_COPYLINE: window_copy_cursor_start_of_line(wp); /* FALLTHROUGH */ case MODEKEYCOPY_COPYENDOFLINE: window_copy_start_selection(wp); for (; np > 1; np--) window_copy_cursor_down(wp, 0); window_copy_cursor_end_of_line(wp); window_copy_redraw_screen(wp); /* If a copy command then copy the selection and exit. */ if (sess != NULL && (cmd == MODEKEYCOPY_COPYLINE || cmd == MODEKEYCOPY_COPYENDOFLINE)) { window_copy_copy_selection(wp, NULL); window_pane_reset_mode(wp); return; } break; case MODEKEYCOPY_CLEARSELECTION: window_copy_clear_selection(wp); window_copy_redraw_screen(wp); break; case MODEKEYCOPY_COPYPIPE: if (sess != NULL) { window_copy_copy_pipe(wp, sess, NULL, arg); window_pane_reset_mode(wp); return; } break; case MODEKEYCOPY_COPYSELECTION: if (sess != NULL) { window_copy_copy_selection(wp, NULL); if (arg == NULL) { window_pane_reset_mode(wp); return; } window_copy_clear_selection(wp); window_copy_redraw_screen(wp); } break; case MODEKEYCOPY_STARTOFLINE: window_copy_cursor_start_of_line(wp); break; case MODEKEYCOPY_BACKTOINDENTATION: window_copy_cursor_back_to_indentation(wp); break; case MODEKEYCOPY_ENDOFLINE: window_copy_cursor_end_of_line(wp); break; case MODEKEYCOPY_NEXTSPACE: for (; np != 0; np--) window_copy_cursor_next_word(wp, " "); break; case MODEKEYCOPY_NEXTSPACEEND: for (; np != 0; np--) window_copy_cursor_next_word_end(wp, " "); break; case MODEKEYCOPY_NEXTWORD: word_separators = options_get_string(sess->options, "word-separators"); for (; np != 0; np--) window_copy_cursor_next_word(wp, word_separators); break; case MODEKEYCOPY_NEXTWORDEND: word_separators = options_get_string(sess->options, "word-separators"); for (; np != 0; np--) window_copy_cursor_next_word_end(wp, word_separators); break; case MODEKEYCOPY_PREVIOUSSPACE: for (; np != 0; np--) window_copy_cursor_previous_word(wp, " "); break; case MODEKEYCOPY_PREVIOUSWORD: word_separators = options_get_string(sess->options, "word-separators"); for (; np != 0; np--) window_copy_cursor_previous_word(wp, word_separators); break; case MODEKEYCOPY_JUMP: data->inputtype = WINDOW_COPY_JUMPFORWARD; data->inputprompt = "Jump Forward"; *data->inputstr = '\0'; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return; /* skip numprefix reset */ case MODEKEYCOPY_JUMPAGAIN: if (data->jumptype == WINDOW_COPY_JUMPFORWARD) { for (; np != 0; np--) window_copy_cursor_jump(wp); } else if (data->jumptype == WINDOW_COPY_JUMPBACK) { for (; np != 0; np--) window_copy_cursor_jump_back(wp); } else if (data->jumptype == WINDOW_COPY_JUMPTOFORWARD) { for (; np != 0; np--) window_copy_cursor_jump_to(wp, 1); } else if (data->jumptype == WINDOW_COPY_JUMPTOBACK) { for (; np != 0; np--) window_copy_cursor_jump_to_back(wp, 1); } break; case MODEKEYCOPY_JUMPREVERSE: if (data->jumptype == WINDOW_COPY_JUMPFORWARD) { for (; np != 0; np--) window_copy_cursor_jump_back(wp); } else if (data->jumptype == WINDOW_COPY_JUMPBACK) { for (; np != 0; np--) window_copy_cursor_jump(wp); } else if (data->jumptype == WINDOW_COPY_JUMPTOFORWARD) { for (; np != 0; np--) window_copy_cursor_jump_to_back(wp, 1); } else if (data->jumptype == WINDOW_COPY_JUMPTOBACK) { for (; np != 0; np--) window_copy_cursor_jump_to(wp, 1); } break; case MODEKEYCOPY_JUMPBACK: data->inputtype = WINDOW_COPY_JUMPBACK; data->inputprompt = "Jump Back"; *data->inputstr = '\0'; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return; /* skip numprefix reset */ case MODEKEYCOPY_JUMPTO: data->inputtype = WINDOW_COPY_JUMPTOFORWARD; data->inputprompt = "Jump To"; *data->inputstr = '\0'; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return; /* skip numprefix reset */ case MODEKEYCOPY_JUMPTOBACK: data->inputtype = WINDOW_COPY_JUMPTOBACK; data->inputprompt = "Jump To Back"; *data->inputstr = '\0'; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return; /* skip numprefix reset */ case MODEKEYCOPY_SEARCHUP: data->inputtype = WINDOW_COPY_SEARCHUP; data->inputprompt = "Search Up"; goto input_on; case MODEKEYCOPY_SEARCHDOWN: data->inputtype = WINDOW_COPY_SEARCHDOWN; data->inputprompt = "Search Down"; goto input_on; case MODEKEYCOPY_SEARCHAGAIN: case MODEKEYCOPY_SEARCHREVERSE: switch (data->searchtype) { case WINDOW_COPY_OFF: case WINDOW_COPY_GOTOLINE: case WINDOW_COPY_JUMPFORWARD: case WINDOW_COPY_JUMPBACK: case WINDOW_COPY_JUMPTOFORWARD: case WINDOW_COPY_JUMPTOBACK: case WINDOW_COPY_NAMEDBUFFER: case WINDOW_COPY_NUMERICPREFIX: break; case WINDOW_COPY_SEARCHUP: ss = data->searchstr; if (cmd == MODEKEYCOPY_SEARCHAGAIN) { for (; np != 0; np--) window_copy_search_up(wp, ss); } else { for (; np != 0; np--) window_copy_search_down(wp, ss); } break; case WINDOW_COPY_SEARCHDOWN: ss = data->searchstr; if (cmd == MODEKEYCOPY_SEARCHAGAIN) { for (; np != 0; np--) window_copy_search_down(wp, ss); } else { for (; np != 0; np--) window_copy_search_up(wp, ss); } break; } break; case MODEKEYCOPY_GOTOLINE: data->inputtype = WINDOW_COPY_GOTOLINE; data->inputprompt = "Goto Line"; *data->inputstr = '\0'; goto input_on; case MODEKEYCOPY_STARTNAMEDBUFFER: data->inputtype = WINDOW_COPY_NAMEDBUFFER; data->inputexit = (arg == NULL); data->inputprompt = "Buffer"; *data->inputstr = '\0'; goto input_on; case MODEKEYCOPY_STARTNUMBERPREFIX: key &= KEYC_MASK_KEY; if (key >= '0' && key <= '9') { data->inputtype = WINDOW_COPY_NUMERICPREFIX; data->numprefix = 0; window_copy_key_numeric_prefix(wp, key); return; } break; case MODEKEYCOPY_RECTANGLETOGGLE: s->sel.lineflag = LINE_SEL_NONE; window_copy_rectangle_toggle(wp); break; default: break; } data->numprefix = -1; return; input_on: keys = options_get_number(wp->window->options, "mode-keys"); if (keys == MODEKEY_EMACS) mode_key_init(&data->mdata, &mode_key_tree_emacs_edit); else mode_key_init(&data->mdata, &mode_key_tree_vi_edit); window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return; input_off: keys = options_get_number(wp->window->options, "mode-keys"); if (keys == MODEKEY_EMACS) mode_key_init(&data->mdata, &mode_key_tree_emacs_copy); else mode_key_init(&data->mdata, &mode_key_tree_vi_copy); data->inputtype = WINDOW_COPY_OFF; data->inputprompt = NULL; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); } int window_copy_key_input(struct window_pane *wp, key_code key) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; const char *bufdata; size_t inputlen, n, bufsize; int np; struct paste_buffer *pb; u_char ch; switch (mode_key_lookup(&data->mdata, key, NULL)) { case MODEKEYEDIT_CANCEL: data->numprefix = -1; return (-1); case MODEKEYEDIT_BACKSPACE: inputlen = strlen(data->inputstr); if (inputlen > 0) data->inputstr[inputlen - 1] = '\0'; break; case MODEKEYEDIT_DELETELINE: *data->inputstr = '\0'; break; case MODEKEYEDIT_PASTE: if ((pb = paste_get_top(NULL)) == NULL) break; bufdata = paste_buffer_data(pb, &bufsize); for (n = 0; n < bufsize; n++) { ch = (u_char)bufdata[n]; if (ch < 32 || ch == 127) break; } inputlen = strlen(data->inputstr); data->inputstr = xrealloc(data->inputstr, inputlen + n + 1); memcpy(data->inputstr + inputlen, bufdata, n); data->inputstr[inputlen + n] = '\0'; break; case MODEKEYEDIT_ENTER: np = data->numprefix; if (np <= 0) np = 1; switch (data->inputtype) { case WINDOW_COPY_OFF: case WINDOW_COPY_JUMPFORWARD: case WINDOW_COPY_JUMPBACK: case WINDOW_COPY_JUMPTOFORWARD: case WINDOW_COPY_JUMPTOBACK: case WINDOW_COPY_NUMERICPREFIX: break; case WINDOW_COPY_SEARCHUP: for (; np != 0; np--) window_copy_search_up(wp, data->inputstr); data->searchtype = data->inputtype; data->searchstr = xstrdup(data->inputstr); break; case WINDOW_COPY_SEARCHDOWN: for (; np != 0; np--) window_copy_search_down(wp, data->inputstr); data->searchtype = data->inputtype; data->searchstr = xstrdup(data->inputstr); break; case WINDOW_COPY_NAMEDBUFFER: window_copy_copy_selection(wp, data->inputstr); *data->inputstr = '\0'; if (data->inputexit) { window_pane_reset_mode(wp); return (0); } window_copy_clear_selection(wp); window_copy_redraw_screen(wp); break; case WINDOW_COPY_GOTOLINE: window_copy_goto_line(wp, data->inputstr); *data->inputstr = '\0'; break; } data->numprefix = -1; return (1); case MODEKEY_OTHER: if (key < 32 || key > 126) break; inputlen = strlen(data->inputstr) + 2; data->inputstr = xrealloc(data->inputstr, inputlen); data->inputstr[inputlen - 2] = key; data->inputstr[inputlen - 1] = '\0'; break; default: break; } window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return (0); } int window_copy_key_numeric_prefix(struct window_pane *wp, key_code key) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; key &= KEYC_MASK_KEY; if (key < '0' || key > '9') return (1); if (data->numprefix >= 100) /* no more than three digits */ return (0); data->numprefix = data->numprefix * 10 + key - '0'; window_copy_redraw_lines(wp, screen_size_y(s) - 1, 1); return (0); } void window_copy_scroll_to(struct window_pane *wp, u_int px, u_int py) { struct window_copy_mode_data *data = wp->modedata; struct grid *gd = data->backing->grid; u_int offset, gap; data->cx = px; gap = gd->sy / 4; if (py < gd->sy) { offset = 0; data->cy = py; } else if (py > gd->hsize + gd->sy - gap) { offset = gd->hsize; data->cy = py - gd->hsize; } else { offset = py + gap - gd->sy; data->cy = py - offset; } data->oy = gd->hsize - offset; window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); } int window_copy_search_compare(struct grid *gd, u_int px, u_int py, struct grid *sgd, u_int spx, int cis) { struct grid_cell gc, sgc; const struct utf8_data *ud, *sud; grid_get_cell(gd, px, py, &gc); ud = &gc.data; grid_get_cell(sgd, spx, 0, &sgc); sud = &sgc.data; if (ud->size != sud->size || ud->width != sud->width) return (0); if (cis && ud->size == 1) return (tolower(ud->data[0]) == sud->data[0]); return (memcmp(ud->data, sud->data, ud->size) == 0); } int window_copy_search_lr(struct grid *gd, struct grid *sgd, u_int *ppx, u_int py, u_int first, u_int last, int cis) { u_int ax, bx, px; int matched; for (ax = first; ax < last; ax++) { if (ax + sgd->sx >= gd->sx) break; for (bx = 0; bx < sgd->sx; bx++) { px = ax + bx; matched = window_copy_search_compare(gd, px, py, sgd, bx, cis); if (!matched) break; } if (bx == sgd->sx) { *ppx = ax; return (1); } } return (0); } int window_copy_search_rl(struct grid *gd, struct grid *sgd, u_int *ppx, u_int py, u_int first, u_int last, int cis) { u_int ax, bx, px; int matched; for (ax = last + 1; ax > first; ax--) { if (gd->sx - (ax - 1) < sgd->sx) continue; for (bx = 0; bx < sgd->sx; bx++) { px = ax - 1 + bx; matched = window_copy_search_compare(gd, px, py, sgd, bx, cis); if (!matched) break; } if (bx == sgd->sx) { *ppx = ax - 1; return (1); } } return (0); } void window_copy_search_up(struct window_pane *wp, const char *searchstr) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = data->backing, ss; struct screen_write_ctx ctx; struct grid *gd = s->grid, *sgd; struct grid_cell gc; size_t searchlen; u_int i, last, fx, fy, px; int n, wrapped, wrapflag, cis; const char *ptr; if (*searchstr == '\0') return; wrapflag = options_get_number(wp->window->options, "wrap-search"); searchlen = screen_write_strlen("%s", searchstr); screen_init(&ss, searchlen, 1, 0); screen_write_start(&ctx, NULL, &ss); memcpy(&gc, &grid_default_cell, sizeof gc); screen_write_nputs(&ctx, -1, &gc, "%s", searchstr); screen_write_stop(&ctx); fx = data->cx; fy = gd->hsize - data->oy + data->cy; if (fx == 0) { if (fy == 0) return; fx = gd->sx - 1; fy--; } else fx--; n = wrapped = 0; cis = 1; for (ptr = searchstr; *ptr != '\0'; ptr++) { if (*ptr != tolower((u_char)*ptr)) { cis = 0; break; } } retry: sgd = ss.grid; for (i = fy + 1; i > 0; i--) { last = screen_size_x(s); if (i == fy + 1) last = fx; n = window_copy_search_rl(gd, sgd, &px, i - 1, 0, last, cis); if (n) { window_copy_scroll_to(wp, px, i - 1); break; } } if (wrapflag && !n && !wrapped) { fx = gd->sx - 1; fy = gd->hsize + gd->sy - 1; wrapped = 1; goto retry; } screen_free(&ss); } void window_copy_search_down(struct window_pane *wp, const char *searchstr) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = data->backing, ss; struct screen_write_ctx ctx; struct grid *gd = s->grid, *sgd; struct grid_cell gc; size_t searchlen; u_int i, first, fx, fy, px; int n, wrapped, wrapflag, cis; const char *ptr; if (*searchstr == '\0') return; wrapflag = options_get_number(wp->window->options, "wrap-search"); searchlen = screen_write_strlen("%s", searchstr); screen_init(&ss, searchlen, 1, 0); screen_write_start(&ctx, NULL, &ss); memcpy(&gc, &grid_default_cell, sizeof gc); screen_write_nputs(&ctx, -1, &gc, "%s", searchstr); screen_write_stop(&ctx); fx = data->cx; fy = gd->hsize - data->oy + data->cy; if (fx == gd->sx - 1) { if (fy == gd->hsize + gd->sy) return; fx = 0; fy++; } else fx++; n = wrapped = 0; cis = 1; for (ptr = searchstr; *ptr != '\0'; ptr++) { if (*ptr != tolower((u_char)*ptr)) { cis = 0; break; } } retry: sgd = ss.grid; for (i = fy + 1; i < gd->hsize + gd->sy + 1; i++) { first = 0; if (i == fy + 1) first = fx; n = window_copy_search_lr(gd, sgd, &px, i - 1, first, gd->sx, cis); if (n) { window_copy_scroll_to(wp, px, i - 1); break; } } if (wrapflag && !n && !wrapped) { fx = 0; fy = 0; wrapped = 1; goto retry; } screen_free(&ss); } void window_copy_goto_line(struct window_pane *wp, const char *linestr) { struct window_copy_mode_data *data = wp->modedata; const char *errstr; u_int lineno; lineno = strtonum(linestr, 0, screen_hsize(data->backing), &errstr); if (errstr != NULL) return; data->oy = lineno; window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); } void window_copy_write_line(struct window_pane *wp, struct screen_write_ctx *ctx, u_int py) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct options *oo = wp->window->options; struct grid_cell gc; char hdr[512]; size_t last, xoff = 0, size = 0, limit; style_apply(&gc, oo, "mode-style"); last = screen_size_y(s) - 1; if (py == 0) { size = xsnprintf(hdr, sizeof hdr, "[%u/%u]", data->oy, screen_hsize(data->backing)); if (size > screen_size_x(s)) size = screen_size_x(s); screen_write_cursormove(ctx, screen_size_x(s) - size, 0); screen_write_puts(ctx, &gc, "%s", hdr); } else if (py == last && data->inputtype != WINDOW_COPY_OFF) { limit = sizeof hdr; if (limit > screen_size_x(s) + 1) limit = screen_size_x(s) + 1; if (data->inputtype == WINDOW_COPY_NUMERICPREFIX) { xoff = size = xsnprintf(hdr, limit, "Repeat: %d", data->numprefix); } else { xoff = size = xsnprintf(hdr, limit, "%s: %s", data->inputprompt, data->inputstr); } screen_write_cursormove(ctx, 0, last); screen_write_puts(ctx, &gc, "%s", hdr); } else size = 0; if (size < screen_size_x(s)) { screen_write_cursormove(ctx, xoff, py); screen_write_copy(ctx, data->backing, xoff, (screen_hsize(data->backing) - data->oy) + py, screen_size_x(s) - size, 1); } if (py == data->cy && data->cx == screen_size_x(s)) { memcpy(&gc, &grid_default_cell, sizeof gc); screen_write_cursormove(ctx, screen_size_x(s) - 1, py); screen_write_putc(ctx, &gc, '$'); } } void window_copy_write_lines(struct window_pane *wp, struct screen_write_ctx *ctx, u_int py, u_int ny) { u_int yy; for (yy = py; yy < py + ny; yy++) window_copy_write_line(wp, ctx, py); } void window_copy_redraw_selection(struct window_pane *wp, u_int old_y) { struct window_copy_mode_data *data = wp->modedata; u_int new_y, start, end; new_y = data->cy; if (old_y <= new_y) { start = old_y; end = new_y; } else { start = new_y; end = old_y; } window_copy_redraw_lines(wp, start, end - start + 1); } void window_copy_redraw_lines(struct window_pane *wp, u_int py, u_int ny) { struct window_copy_mode_data *data = wp->modedata; struct screen_write_ctx ctx; u_int i; screen_write_start(&ctx, wp, NULL); for (i = py; i < py + ny; i++) window_copy_write_line(wp, &ctx, i); screen_write_cursormove(&ctx, data->cx, data->cy); screen_write_stop(&ctx); } void window_copy_redraw_screen(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; window_copy_redraw_lines(wp, 0, screen_size_y(&data->screen)); } void window_copy_update_cursor(struct window_pane *wp, u_int cx, u_int cy) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct screen_write_ctx ctx; u_int old_cx, old_cy; old_cx = data->cx; old_cy = data->cy; data->cx = cx; data->cy = cy; if (old_cx == screen_size_x(s)) window_copy_redraw_lines(wp, old_cy, 1); if (data->cx == screen_size_x(s)) window_copy_redraw_lines(wp, data->cy, 1); else { screen_write_start(&ctx, wp, NULL); screen_write_cursormove(&ctx, data->cx, data->cy); screen_write_stop(&ctx); } } void window_copy_start_selection(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; data->selx = data->cx; data->sely = screen_hsize(data->backing) + data->cy - data->oy; s->sel.flag = 1; window_copy_update_selection(wp, 1); } int window_copy_update_selection(struct window_pane *wp, int may_redraw) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct options *oo = wp->window->options; struct grid_cell gc; u_int sx, sy, ty, cy; if (!s->sel.flag && s->sel.lineflag == LINE_SEL_NONE) return (0); /* Set colours. */ style_apply(&gc, oo, "mode-style"); /* Find top of screen. */ ty = screen_hsize(data->backing) - data->oy; /* Adjust the selection. */ sx = data->selx; sy = data->sely; if (sy < ty) { /* above screen */ if (!data->rectflag) sx = 0; sy = 0; } else if (sy > ty + screen_size_y(s) - 1) { /* below screen */ if (!data->rectflag) sx = screen_size_x(s) - 1; sy = screen_size_y(s) - 1; } else sy -= ty; sy = screen_hsize(s) + sy; screen_set_selection(s, sx, sy, data->cx, screen_hsize(s) + data->cy, data->rectflag, &gc); if (data->rectflag && may_redraw) { /* * Can't rely on the caller to redraw the right lines for * rectangle selection - find the highest line and the number * of lines, and redraw just past that in both directions */ cy = data->cy; if (sy < cy) window_copy_redraw_lines(wp, sy, cy - sy + 1); else window_copy_redraw_lines(wp, cy, sy - cy + 1); } return (1); } void * window_copy_get_selection(struct window_pane *wp, size_t *len) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; char *buf; size_t off; u_int i, xx, yy, sx, sy, ex, ey, ey_last; u_int firstsx, lastex, restex, restsx; int keys; if (!s->sel.flag && s->sel.lineflag == LINE_SEL_NONE) return (NULL); buf = xmalloc(1); off = 0; *buf = '\0'; /* * The selection extends from selx,sely to (adjusted) cx,cy on * the base screen. */ /* Find start and end. */ xx = data->cx; yy = screen_hsize(data->backing) + data->cy - data->oy; if (yy < data->sely || (yy == data->sely && xx < data->selx)) { sx = xx; sy = yy; ex = data->selx; ey = data->sely; } else { sx = data->selx; sy = data->sely; ex = xx; ey = yy; } /* Trim ex to end of line. */ ey_last = window_copy_find_length(wp, ey); if (ex > ey_last) ex = ey_last; /* * Deal with rectangle-copy if necessary; four situations: start of * first line (firstsx), end of last line (lastex), start (restsx) and * end (restex) of all other lines. */ xx = screen_size_x(s); /* * Behave according to mode-keys. If it is emacs, copy like emacs, * keeping the top-left-most character, and dropping the * bottom-right-most, regardless of copy direction. If it is vi, also * keep bottom-right-most character. */ keys = options_get_number(wp->window->options, "mode-keys"); if (data->rectflag) { /* * Need to ignore the column with the cursor in it, which for * rectangular copy means knowing which side the cursor is on. */ if (data->selx < data->cx) { /* Selection start is on the left. */ if (keys == MODEKEY_EMACS) { lastex = data->cx; restex = data->cx; } else { lastex = data->cx + 1; restex = data->cx + 1; } firstsx = data->selx; restsx = data->selx; } else { /* Cursor is on the left. */ lastex = data->selx + 1; restex = data->selx + 1; firstsx = data->cx; restsx = data->cx; } } else { if (keys == MODEKEY_EMACS) lastex = ex; else lastex = ex + 1; restex = xx; firstsx = sx; restsx = 0; } /* Copy the lines. */ for (i = sy; i <= ey; i++) { window_copy_copy_line(wp, &buf, &off, i, (i == sy ? firstsx : restsx), (i == ey ? lastex : restex)); } /* Don't bother if no data. */ if (off == 0) { free(buf); return (NULL); } if (keys == MODEKEY_EMACS || lastex <= ey_last) off -= 1; /* remove final \n (unless at end in vi mode) */ *len = off; return (buf); } void window_copy_copy_buffer(struct window_pane *wp, const char *bufname, void *buf, size_t len) { struct screen_write_ctx ctx; if (options_get_number(global_options, "set-clipboard")) { screen_write_start(&ctx, wp, NULL); screen_write_setselection(&ctx, buf, len); screen_write_stop(&ctx); } if (paste_set(buf, len, bufname, NULL) != 0) free(buf); } void window_copy_copy_pipe(struct window_pane *wp, struct session *sess, const char *bufname, const char *arg) { void *buf; size_t len; struct job *job; struct format_tree *ft; char *expanded; buf = window_copy_get_selection(wp, &len); if (buf == NULL) return; ft = format_create(NULL, 0); format_defaults(ft, NULL, sess, NULL, wp); expanded = format_expand(ft, arg); job = job_run(expanded, sess, NULL, NULL, NULL, NULL); bufferevent_write(job->event, buf, len); free(expanded); format_free(ft); window_copy_copy_buffer(wp, bufname, buf, len); } void window_copy_copy_selection(struct window_pane *wp, const char *bufname) { void *buf; size_t len; buf = window_copy_get_selection(wp, &len); if (buf == NULL) return; window_copy_copy_buffer(wp, bufname, buf, len); } void window_copy_append_selection(struct window_pane *wp, const char *bufname) { char *buf; struct paste_buffer *pb; const char *bufdata; size_t len, bufsize; struct screen_write_ctx ctx; buf = window_copy_get_selection(wp, &len); if (buf == NULL) return; if (options_get_number(global_options, "set-clipboard")) { screen_write_start(&ctx, wp, NULL); screen_write_setselection(&ctx, buf, len); screen_write_stop(&ctx); } if (bufname == NULL || *bufname == '\0') pb = paste_get_top(&bufname); else pb = paste_get_name(bufname); if (pb != NULL) { bufdata = paste_buffer_data(pb, &bufsize); buf = xrealloc(buf, len + bufsize); memmove(buf + bufsize, buf, len); memcpy(buf, bufdata, bufsize); len += bufsize; } if (paste_set(buf, len, bufname, NULL) != 0) free(buf); } void window_copy_copy_line(struct window_pane *wp, char **buf, size_t *off, u_int sy, u_int sx, u_int ex) { struct window_copy_mode_data *data = wp->modedata; struct grid *gd = data->backing->grid; struct grid_cell gc; struct grid_line *gl; struct utf8_data ud; u_int i, xx, wrapped = 0; const char *s; if (sx > ex) return; /* * Work out if the line was wrapped at the screen edge and all of it is * on screen. */ gl = &gd->linedata[sy]; if (gl->flags & GRID_LINE_WRAPPED && gl->cellsize <= gd->sx) wrapped = 1; /* If the line was wrapped, don't strip spaces (use the full length). */ if (wrapped) xx = gl->cellsize; else xx = window_copy_find_length(wp, sy); if (ex > xx) ex = xx; if (sx > xx) sx = xx; if (sx < ex) { for (i = sx; i < ex; i++) { grid_get_cell(gd, i, sy, &gc); if (gc.flags & GRID_FLAG_PADDING) continue; utf8_copy(&ud, &gc.data); if (ud.size == 1 && (gc.attr & GRID_ATTR_CHARSET)) { s = tty_acs_get(NULL, ud.data[0]); if (s != NULL && strlen(s) <= sizeof ud.data) { ud.size = strlen(s); memcpy(ud.data, s, ud.size); } } *buf = xrealloc(*buf, (*off) + ud.size); memcpy(*buf + *off, ud.data, ud.size); *off += ud.size; } } /* Only add a newline if the line wasn't wrapped. */ if (!wrapped || ex != xx) { *buf = xrealloc(*buf, (*off) + 1); (*buf)[(*off)++] = '\n'; } } void window_copy_clear_selection(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; u_int px, py; screen_clear_selection(&data->screen); py = screen_hsize(data->backing) + data->cy - data->oy; px = window_copy_find_length(wp, py); if (data->cx > px) window_copy_update_cursor(wp, px, data->cy); } int window_copy_in_set(struct window_pane *wp, u_int px, u_int py, const char *set) { struct window_copy_mode_data *data = wp->modedata; struct grid_cell gc; const struct utf8_data *ud; grid_get_cell(data->backing->grid, px, py, &gc); ud = &gc.data; if (ud->size != 1 || (gc.flags & GRID_FLAG_PADDING)) return (0); if (*ud->data == 0x00 || *ud->data == 0x7f) return (0); return (strchr(set, *ud->data) != NULL); } u_int window_copy_find_length(struct window_pane *wp, u_int py) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = data->backing; struct grid_cell gc; u_int px; /* * If the pane has been resized, its grid can contain old overlong * lines. grid_peek_cell does not allow accessing cells beyond the * width of the grid, and screen_write_copy treats them as spaces, so * ignore them here too. */ px = s->grid->linedata[py].cellsize; if (px > screen_size_x(s)) px = screen_size_x(s); while (px > 0) { grid_get_cell(s->grid, px - 1, py, &gc); if (gc.data.size != 1 || *gc.data.data != ' ') break; px--; } return (px); } void window_copy_cursor_start_of_line(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; struct screen *s = &data->screen; struct grid *gd = back_s->grid; u_int py; if (data->cx == 0 && s->sel.lineflag == LINE_SEL_NONE) { py = screen_hsize(back_s) + data->cy - data->oy; while (py > 0 && gd->linedata[py-1].flags & GRID_LINE_WRAPPED) { window_copy_cursor_up(wp, 0); py = screen_hsize(back_s) + data->cy - data->oy; } } window_copy_update_cursor(wp, 0, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } void window_copy_cursor_back_to_indentation(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; u_int px, py, xx; struct grid_cell gc; px = 0; py = screen_hsize(data->backing) + data->cy - data->oy; xx = window_copy_find_length(wp, py); while (px < xx) { grid_get_cell(data->backing->grid, px, py, &gc); if (gc.data.size != 1 || *gc.data.data != ' ') break; px++; } window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } void window_copy_cursor_end_of_line(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; struct screen *s = &data->screen; struct grid *gd = back_s->grid; u_int px, py; py = screen_hsize(back_s) + data->cy - data->oy; px = window_copy_find_length(wp, py); if (data->cx == px && s->sel.lineflag == LINE_SEL_NONE) { if (data->screen.sel.flag && data->rectflag) px = screen_size_x(back_s); if (gd->linedata[py].flags & GRID_LINE_WRAPPED) { while (py < gd->sy + gd->hsize && gd->linedata[py].flags & GRID_LINE_WRAPPED) { window_copy_cursor_down(wp, 0); py = screen_hsize(back_s) + data->cy - data->oy; } px = window_copy_find_length(wp, py); } } window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } void window_copy_other_end(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; u_int selx, sely, cx, cy, yy, hsize; if (!s->sel.flag && s->sel.lineflag == LINE_SEL_NONE) return; if (s->sel.lineflag == LINE_SEL_LEFT_RIGHT) s->sel.lineflag = LINE_SEL_RIGHT_LEFT; else if (s->sel.lineflag == LINE_SEL_RIGHT_LEFT) s->sel.lineflag = LINE_SEL_LEFT_RIGHT; selx = data->selx; sely = data->sely; cx = data->cx; cy = data->cy; yy = screen_hsize(data->backing) + data->cy - data->oy; data->selx = cx; data->sely = yy; data->cx = selx; hsize = screen_hsize(data->backing); if (sely < hsize - data->oy) { data->oy = hsize - sely; data->cy = 0; } else if (sely > hsize - data->oy + screen_size_y(s)) { data->oy = hsize - sely + screen_size_y(s) - 1; data->cy = screen_size_y(s) - 1; } else data->cy = cy + sely - yy; window_copy_redraw_screen(wp); } void window_copy_cursor_left(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; u_int py; py = screen_hsize(data->backing) + data->cy - data->oy; if (data->cx == 0 && py > 0) { window_copy_cursor_up(wp, 0); window_copy_cursor_end_of_line(wp); } else if (data->cx > 0) { window_copy_update_cursor(wp, data->cx - 1, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } } void window_copy_cursor_right(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; u_int px, py, yy; py = screen_hsize(data->backing) + data->cy - data->oy; yy = screen_hsize(data->backing) + screen_size_y(data->backing) - 1; if (data->screen.sel.flag && data->rectflag) px = screen_size_x(&data->screen); else { px = window_copy_find_length(wp, py); } if (data->cx >= px && py < yy) { window_copy_cursor_start_of_line(wp); window_copy_cursor_down(wp, 0); } else if (data->cx < px) { window_copy_update_cursor(wp, data->cx + 1, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } } void window_copy_cursor_up(struct window_pane *wp, int scroll_only) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; u_int ox, oy, px, py; oy = screen_hsize(data->backing) + data->cy - data->oy; ox = window_copy_find_length(wp, oy); if (data->cx != ox) { data->lastcx = data->cx; data->lastsx = ox; } if (s->sel.lineflag == LINE_SEL_LEFT_RIGHT && oy == data->sely) window_copy_other_end(wp); data->cx = data->lastcx; if (scroll_only || data->cy == 0) { window_copy_scroll_down(wp, 1); if (scroll_only) { if (data->cy == screen_size_y(s) - 1) window_copy_redraw_lines(wp, data->cy, 1); else window_copy_redraw_lines(wp, data->cy, 2); } } else { window_copy_update_cursor(wp, data->cx, data->cy - 1); if (window_copy_update_selection(wp, 1)) { if (data->cy == screen_size_y(s) - 1) window_copy_redraw_lines(wp, data->cy, 1); else window_copy_redraw_lines(wp, data->cy, 2); } } if (!data->screen.sel.flag || !data->rectflag) { py = screen_hsize(data->backing) + data->cy - data->oy; px = window_copy_find_length(wp, py); if ((data->cx >= data->lastsx && data->cx != px) || data->cx > px) window_copy_cursor_end_of_line(wp); } if (s->sel.lineflag == LINE_SEL_LEFT_RIGHT) window_copy_cursor_end_of_line(wp); else if (s->sel.lineflag == LINE_SEL_RIGHT_LEFT) window_copy_cursor_start_of_line(wp); } void window_copy_cursor_down(struct window_pane *wp, int scroll_only) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; u_int ox, oy, px, py; oy = screen_hsize(data->backing) + data->cy - data->oy; ox = window_copy_find_length(wp, oy); if (data->cx != ox) { data->lastcx = data->cx; data->lastsx = ox; } if (s->sel.lineflag == LINE_SEL_RIGHT_LEFT && oy == data->sely) window_copy_other_end(wp); data->cx = data->lastcx; if (scroll_only || data->cy == screen_size_y(s) - 1) { window_copy_scroll_up(wp, 1); if (scroll_only && data->cy > 0) window_copy_redraw_lines(wp, data->cy - 1, 2); } else { window_copy_update_cursor(wp, data->cx, data->cy + 1); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy - 1, 2); } if (!data->screen.sel.flag || !data->rectflag) { py = screen_hsize(data->backing) + data->cy - data->oy; px = window_copy_find_length(wp, py); if ((data->cx >= data->lastsx && data->cx != px) || data->cx > px) window_copy_cursor_end_of_line(wp); } if (s->sel.lineflag == LINE_SEL_LEFT_RIGHT) window_copy_cursor_end_of_line(wp); else if (s->sel.lineflag == LINE_SEL_RIGHT_LEFT) window_copy_cursor_start_of_line(wp); } void window_copy_cursor_jump(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; struct grid_cell gc; u_int px, py, xx; px = data->cx + 1; py = screen_hsize(back_s) + data->cy - data->oy; xx = window_copy_find_length(wp, py); while (px < xx) { grid_get_cell(back_s->grid, px, py, &gc); if (!(gc.flags & GRID_FLAG_PADDING) && gc.data.size == 1 && *gc.data.data == data->jumpchar) { window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); return; } px++; } } void window_copy_cursor_jump_back(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; struct grid_cell gc; u_int px, py; px = data->cx; py = screen_hsize(back_s) + data->cy - data->oy; if (px > 0) px--; for (;;) { grid_get_cell(back_s->grid, px, py, &gc); if (!(gc.flags & GRID_FLAG_PADDING) && gc.data.size == 1 && *gc.data.data == data->jumpchar) { window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); return; } if (px == 0) break; px--; } } void window_copy_cursor_jump_to(struct window_pane *wp, int jump_again) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; struct grid_cell gc; u_int px, py, xx; px = data->cx + 1 + jump_again; py = screen_hsize(back_s) + data->cy - data->oy; xx = window_copy_find_length(wp, py); while (px < xx) { grid_get_cell(back_s->grid, px, py, &gc); if (!(gc.flags & GRID_FLAG_PADDING) && gc.data.size == 1 && *gc.data.data == data->jumpchar) { window_copy_update_cursor(wp, px - 1, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); return; } px++; } } void window_copy_cursor_jump_to_back(struct window_pane *wp, int jump_again) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; struct grid_cell gc; u_int px, py; px = data->cx; py = screen_hsize(back_s) + data->cy - data->oy; if (px > 0) px--; if (jump_again && px > 0) px--; for (;;) { grid_get_cell(back_s->grid, px, py, &gc); if (!(gc.flags & GRID_FLAG_PADDING) && gc.data.size == 1 && *gc.data.data == data->jumpchar) { window_copy_update_cursor(wp, px + 1, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); return; } if (px == 0) break; px--; } } void window_copy_cursor_next_word(struct window_pane *wp, const char *separators) { struct window_copy_mode_data *data = wp->modedata; struct screen *back_s = data->backing; u_int px, py, xx, yy; int expected = 0; px = data->cx; py = screen_hsize(back_s) + data->cy - data->oy; xx = window_copy_find_length(wp, py); yy = screen_hsize(back_s) + screen_size_y(back_s) - 1; /* * First skip past any nonword characters and then any word characters. * * expected is initially set to 0 for the former and then 1 for the * latter. */ do { while (px > xx || window_copy_in_set(wp, px, py, separators) == expected) { /* Move down if we're past the end of the line. */ if (px > xx) { if (py == yy) return; window_copy_cursor_down(wp, 0); px = 0; py = screen_hsize(back_s) + data->cy - data->oy; xx = window_copy_find_length(wp, py); } else px++; } expected = !expected; } while (expected == 1); window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } void window_copy_cursor_next_word_end(struct window_pane *wp, const char *separators) { struct window_copy_mode_data *data = wp->modedata; struct options *oo = wp->window->options; struct screen *back_s = data->backing; u_int px, py, xx, yy; int keys, expected = 1; px = data->cx; py = screen_hsize(back_s) + data->cy - data->oy; xx = window_copy_find_length(wp, py); yy = screen_hsize(back_s) + screen_size_y(back_s) - 1; keys = options_get_number(oo, "mode-keys"); if (keys == MODEKEY_VI && !window_copy_in_set(wp, px, py, separators)) px++; /* * First skip past any word characters, then any nonword characters. * * expected is initially set to 1 for the former and then 0 for the * latter. */ do { while (px > xx || window_copy_in_set(wp, px, py, separators) == expected) { /* Move down if we're past the end of the line. */ if (px > xx) { if (py == yy) return; window_copy_cursor_down(wp, 0); px = 0; py = screen_hsize(back_s) + data->cy - data->oy; xx = window_copy_find_length(wp, py); } else px++; } expected = !expected; } while (expected == 0); if (keys == MODEKEY_VI && px != 0) px--; window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } /* Move to the previous place where a word begins. */ void window_copy_cursor_previous_word(struct window_pane *wp, const char *separators) { struct window_copy_mode_data *data = wp->modedata; u_int px, py; px = data->cx; py = screen_hsize(data->backing) + data->cy - data->oy; /* Move back to the previous word character. */ for (;;) { if (px > 0) { px--; if (!window_copy_in_set(wp, px, py, separators)) break; } else { if (data->cy == 0 && (screen_hsize(data->backing) == 0 || data->oy >= screen_hsize(data->backing) - 1)) goto out; window_copy_cursor_up(wp, 0); py = screen_hsize(data->backing) + data->cy - data->oy; px = window_copy_find_length(wp, py); } } /* Move back to the beginning of this word. */ while (px > 0 && !window_copy_in_set(wp, px - 1, py, separators)) px--; out: window_copy_update_cursor(wp, px, data->cy); if (window_copy_update_selection(wp, 1)) window_copy_redraw_lines(wp, data->cy, 1); } void window_copy_scroll_up(struct window_pane *wp, u_int ny) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct screen_write_ctx ctx; if (data->oy < ny) ny = data->oy; if (ny == 0) return; data->oy -= ny; window_copy_update_selection(wp, 0); screen_write_start(&ctx, wp, NULL); screen_write_cursormove(&ctx, 0, 0); screen_write_deleteline(&ctx, ny); window_copy_write_lines(wp, &ctx, screen_size_y(s) - ny, ny); window_copy_write_line(wp, &ctx, 0); if (screen_size_y(s) > 1) window_copy_write_line(wp, &ctx, 1); if (screen_size_y(s) > 3) window_copy_write_line(wp, &ctx, screen_size_y(s) - 2); if (s->sel.flag && screen_size_y(s) > ny) window_copy_write_line(wp, &ctx, screen_size_y(s) - ny - 1); screen_write_cursormove(&ctx, data->cx, data->cy); screen_write_stop(&ctx); } void window_copy_scroll_down(struct window_pane *wp, u_int ny) { struct window_copy_mode_data *data = wp->modedata; struct screen *s = &data->screen; struct screen_write_ctx ctx; if (ny > screen_hsize(data->backing)) return; if (data->oy > screen_hsize(data->backing) - ny) ny = screen_hsize(data->backing) - data->oy; if (ny == 0) return; data->oy += ny; window_copy_update_selection(wp, 0); screen_write_start(&ctx, wp, NULL); screen_write_cursormove(&ctx, 0, 0); screen_write_insertline(&ctx, ny); window_copy_write_lines(wp, &ctx, 0, ny); if (s->sel.flag && screen_size_y(s) > ny) window_copy_write_line(wp, &ctx, ny); else if (ny == 1) /* nuke position */ window_copy_write_line(wp, &ctx, 1); screen_write_cursormove(&ctx, data->cx, data->cy); screen_write_stop(&ctx); } int window_copy_scroll_position(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; if (wp->mode != &window_copy_mode) return (-1); return (data->oy); } void window_copy_rectangle_toggle(struct window_pane *wp) { struct window_copy_mode_data *data = wp->modedata; u_int px, py; data->rectflag = !data->rectflag; py = screen_hsize(data->backing) + data->cy - data->oy; px = window_copy_find_length(wp, py); if (data->cx > px) window_copy_update_cursor(wp, px, data->cy); window_copy_update_selection(wp, 1); window_copy_redraw_screen(wp); } void window_copy_start_drag(struct client *c, struct mouse_event *m) { struct window_pane *wp; u_int x, y; wp = cmd_mouse_pane(m, NULL, NULL); if (wp == NULL || wp->mode != &window_copy_mode) return; if (cmd_mouse_at(wp, m, &x, &y, 1) != 0) return; c->tty.mouse_drag_update = window_copy_drag_update; c->tty.mouse_drag_release = NULL; /* will fire MouseUp key */ window_copy_update_cursor(wp, x, y); window_copy_start_selection(wp); window_copy_redraw_screen(wp); } void window_copy_drag_update(__unused struct client *c, struct mouse_event *m) { struct window_pane *wp; struct window_copy_mode_data *data; u_int x, y, old_cy; wp = cmd_mouse_pane(m, NULL, NULL); if (wp == NULL || wp->mode != &window_copy_mode) return; data = wp->modedata; if (cmd_mouse_at(wp, m, &x, &y, 0) != 0) return; old_cy = data->cy; window_copy_update_cursor(wp, x, y); if (window_copy_update_selection(wp, 1)) window_copy_redraw_selection(wp, old_cy); }