/* $OpenBSD: format-draw.c,v 1.28 2023/08/17 14:10:28 nicm Exp $ */ /* * Copyright (c) 2019 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 "tmux.h" /* Format range. */ struct format_range { u_int index; struct screen *s; u_int start; u_int end; enum style_range_type type; u_int argument; char string[16]; TAILQ_ENTRY(format_range) entry; }; TAILQ_HEAD(format_ranges, format_range); /* Does this range match this style? */ static int format_is_type(struct format_range *fr, struct style *sy) { if (fr->type != sy->range_type) return (0); switch (fr->type) { case STYLE_RANGE_NONE: case STYLE_RANGE_LEFT: case STYLE_RANGE_RIGHT: return (1); case STYLE_RANGE_PANE: case STYLE_RANGE_WINDOW: case STYLE_RANGE_SESSION: return (fr->argument == sy->range_argument); case STYLE_RANGE_USER: return (strcmp(fr->string, sy->range_string) == 0); } return (1); } /* Free a range. */ static void format_free_range(struct format_ranges *frs, struct format_range *fr) { TAILQ_REMOVE(frs, fr, entry); free(fr); } /* Fix range positions. */ static void format_update_ranges(struct format_ranges *frs, struct screen *s, u_int offset, u_int start, u_int width) { struct format_range *fr, *fr1; if (frs == NULL) return; TAILQ_FOREACH_SAFE(fr, frs, entry, fr1) { if (fr->s != s) continue; if (fr->end <= start || fr->start >= start + width) { format_free_range(frs, fr); continue; } if (fr->start < start) fr->start = start; if (fr->end > start + width) fr->end = start + width; if (fr->start == fr->end) { format_free_range(frs, fr); continue; } fr->start -= start; fr->end -= start; fr->start += offset; fr->end += offset; } } /* Draw a part of the format. */ static void format_draw_put(struct screen_write_ctx *octx, u_int ocx, u_int ocy, struct screen *s, struct format_ranges *frs, u_int offset, u_int start, u_int width) { /* * The offset is how far from the cursor on the target screen; start * and width how much to copy from the source screen. */ screen_write_cursormove(octx, ocx + offset, ocy, 0); screen_write_fast_copy(octx, s, start, 0, width, 1); format_update_ranges(frs, s, offset, start, width); } /* Draw list part of format. */ static void format_draw_put_list(struct screen_write_ctx *octx, u_int ocx, u_int ocy, u_int offset, u_int width, struct screen *list, struct screen *list_left, struct screen *list_right, int focus_start, int focus_end, struct format_ranges *frs) { u_int start, focus_centre; /* If there is enough space for the list, draw it entirely. */ if (width >= list->cx) { format_draw_put(octx, ocx, ocy, list, frs, offset, 0, width); return; } /* The list needs to be trimmed. Try to keep the focus visible. */ focus_centre = focus_start + (focus_end - focus_start) / 2; if (focus_centre < width / 2) start = 0; else start = focus_centre - width / 2; if (start + width > list->cx) start = list->cx - width; /* Draw <> markers at either side if needed. */ if (start != 0 && width > list_left->cx) { screen_write_cursormove(octx, ocx + offset, ocy, 0); screen_write_fast_copy(octx, list_left, 0, 0, list_left->cx, 1); offset += list_left->cx; start += list_left->cx; width -= list_left->cx; } if (start + width < list->cx && width > list_right->cx) { screen_write_cursormove(octx, ocx + offset + width - list_right->cx, ocy, 0); screen_write_fast_copy(octx, list_right, 0, 0, list_right->cx, 1); width -= list_right->cx; } /* Draw the list screen itself. */ format_draw_put(octx, ocx, ocy, list, frs, offset, start, width); } /* Draw format with no list. */ static void format_draw_none(struct screen_write_ctx *octx, u_int available, u_int ocx, u_int ocy, struct screen *left, struct screen *centre, struct screen *right, struct screen *abs_centre, struct format_ranges *frs) { u_int width_left, width_centre, width_right, width_abs_centre; width_left = left->cx; width_centre = centre->cx; width_right = right->cx; width_abs_centre = abs_centre->cx; /* * Try to keep as much of the left and right as possible at the expense * of the centre. */ while (width_left + width_centre + width_right > available) { if (width_centre > 0) width_centre--; else if (width_right > 0) width_right--; else width_left--; } /* Write left. */ format_draw_put(octx, ocx, ocy, left, frs, 0, 0, width_left); /* Write right at available - width_right. */ format_draw_put(octx, ocx, ocy, right, frs, available - width_right, right->cx - width_right, width_right); /* * Write centre halfway between * width_left * and * available - width_right. */ format_draw_put(octx, ocx, ocy, centre, frs, width_left + ((available - width_right) - width_left) / 2 - width_centre / 2, centre->cx / 2 - width_centre / 2, width_centre); /* * Write abs_centre in the perfect centre of all horizontal space. */ if (width_abs_centre > available) width_abs_centre = available; format_draw_put(octx, ocx, ocy, abs_centre, frs, (available - width_abs_centre) / 2, 0, width_abs_centre); } /* Draw format with list on the left. */ static void format_draw_left(struct screen_write_ctx *octx, u_int available, u_int ocx, u_int ocy, struct screen *left, struct screen *centre, struct screen *right, struct screen *abs_centre, struct screen *list, struct screen *list_left, struct screen *list_right, struct screen *after, int focus_start, int focus_end, struct format_ranges *frs) { u_int width_left, width_centre, width_right; u_int width_list, width_after, width_abs_centre; struct screen_write_ctx ctx; width_left = left->cx; width_centre = centre->cx; width_right = right->cx; width_abs_centre = abs_centre->cx; width_list = list->cx; width_after = after->cx; /* * Trim first the centre, then the list, then the right, then after the * list, then the left. */ while (width_left + width_centre + width_right + width_list + width_after > available) { if (width_centre > 0) width_centre--; else if (width_list > 0) width_list--; else if (width_right > 0) width_right--; else if (width_after > 0) width_after--; else width_left--; } /* If there is no list left, pass off to the no list function. */ if (width_list == 0) { screen_write_start(&ctx, left); screen_write_fast_copy(&ctx, after, 0, 0, width_after, 1); screen_write_stop(&ctx); format_draw_none(octx, available, ocx, ocy, left, centre, right, abs_centre, frs); return; } /* Write left at 0. */ format_draw_put(octx, ocx, ocy, left, frs, 0, 0, width_left); /* Write right at available - width_right. */ format_draw_put(octx, ocx, ocy, right, frs, available - width_right, right->cx - width_right, width_right); /* Write after at width_left + width_list. */ format_draw_put(octx, ocx, ocy, after, frs, width_left + width_list, 0, width_after); /* * Write centre halfway between * width_left + width_list + width_after * and * available - width_right. */ format_draw_put(octx, ocx, ocy, centre, frs, (width_left + width_list + width_after) + ((available - width_right) - (width_left + width_list + width_after)) / 2 - width_centre / 2, centre->cx / 2 - width_centre / 2, width_centre); /* * The list now goes from * width_left * to * width_left + width_list. * If there is no focus given, keep the left in focus. */ if (focus_start == -1 || focus_end == -1) focus_start = focus_end = 0; format_draw_put_list(octx, ocx, ocy, width_left, width_list, list, list_left, list_right, focus_start, focus_end, frs); /* * Write abs_centre in the perfect centre of all horizontal space. */ if (width_abs_centre > available) width_abs_centre = available; format_draw_put(octx, ocx, ocy, abs_centre, frs, (available - width_abs_centre) / 2, 0, width_abs_centre); } /* Draw format with list in the centre. */ static void format_draw_centre(struct screen_write_ctx *octx, u_int available, u_int ocx, u_int ocy, struct screen *left, struct screen *centre, struct screen *right, struct screen *abs_centre, struct screen *list, struct screen *list_left, struct screen *list_right, struct screen *after, int focus_start, int focus_end, struct format_ranges *frs) { u_int width_left, width_centre, width_right, middle; u_int width_list, width_after, width_abs_centre; struct screen_write_ctx ctx; width_left = left->cx; width_centre = centre->cx; width_right = right->cx; width_abs_centre = abs_centre->cx; width_list = list->cx; width_after = after->cx; /* * Trim first the list, then after the list, then the centre, then the * right, then the left. */ while (width_left + width_centre + width_right + width_list + width_after > available) { if (width_list > 0) width_list--; else if (width_after > 0) width_after--; else if (width_centre > 0) width_centre--; else if (width_right > 0) width_right--; else width_left--; } /* If there is no list left, pass off to the no list function. */ if (width_list == 0) { screen_write_start(&ctx, centre); screen_write_fast_copy(&ctx, after, 0, 0, width_after, 1); screen_write_stop(&ctx); format_draw_none(octx, available, ocx, ocy, left, centre, right, abs_centre, frs); return; } /* Write left at 0. */ format_draw_put(octx, ocx, ocy, left, frs, 0, 0, width_left); /* Write right at available - width_right. */ format_draw_put(octx, ocx, ocy, right, frs, available - width_right, right->cx - width_right, width_right); /* * All three centre sections are offset from the middle of the * available space. */ middle = (width_left + ((available - width_right) - width_left) / 2); /* * Write centre at * middle - width_list / 2 - width_centre. */ format_draw_put(octx, ocx, ocy, centre, frs, middle - width_list / 2 - width_centre, 0, width_centre); /* * Write after at * middle - width_list / 2 + width_list */ format_draw_put(octx, ocx, ocy, after, frs, middle - width_list / 2 + width_list, 0, width_after); /* * The list now goes from * middle - width_list / 2 * to * middle + width_list / 2 * If there is no focus given, keep the centre in focus. */ if (focus_start == -1 || focus_end == -1) focus_start = focus_end = list->cx / 2; format_draw_put_list(octx, ocx, ocy, middle - width_list / 2, width_list, list, list_left, list_right, focus_start, focus_end, frs); /* * Write abs_centre in the perfect centre of all horizontal space. */ if (width_abs_centre > available) width_abs_centre = available; format_draw_put(octx, ocx, ocy, abs_centre, frs, (available - width_abs_centre) / 2, 0, width_abs_centre); } /* Draw format with list on the right. */ static void format_draw_right(struct screen_write_ctx *octx, u_int available, u_int ocx, u_int ocy, struct screen *left, struct screen *centre, struct screen *right, struct screen *abs_centre, struct screen *list, struct screen *list_left, struct screen *list_right, struct screen *after, int focus_start, int focus_end, struct format_ranges *frs) { u_int width_left, width_centre, width_right; u_int width_list, width_after, width_abs_centre; struct screen_write_ctx ctx; width_left = left->cx; width_centre = centre->cx; width_right = right->cx; width_abs_centre = abs_centre->cx; width_list = list->cx; width_after = after->cx; /* * Trim first the centre, then the list, then the right, then * after the list, then the left. */ while (width_left + width_centre + width_right + width_list + width_after > available) { if (width_centre > 0) width_centre--; else if (width_list > 0) width_list--; else if (width_right > 0) width_right--; else if (width_after > 0) width_after--; else width_left--; } /* If there is no list left, pass off to the no list function. */ if (width_list == 0) { screen_write_start(&ctx, right); screen_write_fast_copy(&ctx, after, 0, 0, width_after, 1); screen_write_stop(&ctx); format_draw_none(octx, available, ocx, ocy, left, centre, right, abs_centre, frs); return; } /* Write left at 0. */ format_draw_put(octx, ocx, ocy, left, frs, 0, 0, width_left); /* Write after at available - width_after. */ format_draw_put(octx, ocx, ocy, after, frs, available - width_after, after->cx - width_after, width_after); /* * Write right at * available - width_right - width_list - width_after. */ format_draw_put(octx, ocx, ocy, right, frs, available - width_right - width_list - width_after, 0, width_right); /* * Write centre halfway between * width_left * and * available - width_right - width_list - width_after. */ format_draw_put(octx, ocx, ocy, centre, frs, width_left + ((available - width_right - width_list - width_after) - width_left) / 2 - width_centre / 2, centre->cx / 2 - width_centre / 2, width_centre); /* * The list now goes from * available - width_list - width_after * to * available - width_after * If there is no focus given, keep the right in focus. */ if (focus_start == -1 || focus_end == -1) focus_start = focus_end = 0; format_draw_put_list(octx, ocx, ocy, available - width_list - width_after, width_list, list, list_left, list_right, focus_start, focus_end, frs); /* * Write abs_centre in the perfect centre of all horizontal space. */ if (width_abs_centre > available) width_abs_centre = available; format_draw_put(octx, ocx, ocy, abs_centre, frs, (available - width_abs_centre) / 2, 0, width_abs_centre); } static void format_draw_absolute_centre(struct screen_write_ctx *octx, u_int available, u_int ocx, u_int ocy, struct screen *left, struct screen *centre, struct screen *right, struct screen *abs_centre, struct screen *list, struct screen *list_left, struct screen *list_right, struct screen *after, int focus_start, int focus_end, struct format_ranges *frs) { u_int width_left, width_centre, width_right, width_abs_centre; u_int width_list, width_after, middle, abs_centre_offset; width_left = left->cx; width_centre = centre->cx; width_right = right->cx; width_abs_centre = abs_centre->cx; width_list = list->cx; width_after = after->cx; /* * Trim first centre, then the right, then the left. */ while (width_left + width_centre + width_right > available) { if (width_centre > 0) width_centre--; else if (width_right > 0) width_right--; else width_left--; } /* * We trim list after and abs_centre independently, as we are drawing * them over the rest. Trim first the list, then after the list, then * abs_centre. */ while (width_list + width_after + width_abs_centre > available) { if (width_list > 0) width_list--; else if (width_after > 0) width_after--; else width_abs_centre--; } /* Write left at 0. */ format_draw_put(octx, ocx, ocy, left, frs, 0, 0, width_left); /* Write right at available - width_right. */ format_draw_put(octx, ocx, ocy, right, frs, available - width_right, right->cx - width_right, width_right); /* * Keep writing centre at the relative centre. Only the list is written * in the absolute centre of the horizontal space. */ middle = (width_left + ((available - width_right) - width_left) / 2); /* * Write centre at * middle - width_centre. */ format_draw_put(octx, ocx, ocy, centre, frs, middle - width_centre, 0, width_centre); /* * If there is no focus given, keep the centre in focus. */ if (focus_start == -1 || focus_end == -1) focus_start = focus_end = list->cx / 2; /* * We centre abs_centre and the list together, so their shared centre is * in the perfect centre of horizontal space. */ abs_centre_offset = (available - width_list - width_abs_centre) / 2; /* * Write abs_centre before the list. */ format_draw_put(octx, ocx, ocy, abs_centre, frs, abs_centre_offset, 0, width_abs_centre); abs_centre_offset += width_abs_centre; /* * Draw the list in the absolute centre */ format_draw_put_list(octx, ocx, ocy, abs_centre_offset, width_list, list, list_left, list_right, focus_start, focus_end, frs); abs_centre_offset += width_list; /* * Write after at the end of the centre */ format_draw_put(octx, ocx, ocy, after, frs, abs_centre_offset, 0, width_after); } /* Get width and count of any leading #s. */ static const char * format_leading_hashes(const char *cp, u_int *n, u_int *width) { for (*n = 0; cp[*n] == '#'; (*n)++) /* nothing */; if (*n == 0) { *width = 0; return (cp); } if (cp[*n] != '[') { if ((*n % 2) == 0) *width = (*n / 2); else *width = (*n / 2) + 1; return (cp + *n); } *width = (*n / 2); if ((*n % 2) == 0) { /* * An even number of #s means that all #s are escaped, so not a * style. The caller should not skip this. Return pointing to * the [. */ return (cp + *n); } /* This is a style, so return pointing to the #. */ return (cp + *n - 1); } /* Draw multiple characters. */ static void format_draw_many(struct screen_write_ctx *ctx, struct style *sy, char ch, u_int n) { u_int i; utf8_set(&sy->gc.data, ch); for (i = 0; i < n; i++) screen_write_cell(ctx, &sy->gc); } /* Draw a format to a screen. */ void format_draw(struct screen_write_ctx *octx, const struct grid_cell *base, u_int available, const char *expanded, struct style_ranges *srs, int default_colours) { enum { LEFT, CENTRE, RIGHT, ABSOLUTE_CENTRE, LIST, LIST_LEFT, LIST_RIGHT, AFTER, TOTAL } current = LEFT, last = LEFT; const char *names[] = { "LEFT", "CENTRE", "RIGHT", "ABSOLUTE_CENTRE", "LIST", "LIST_LEFT", "LIST_RIGHT", "AFTER" }; size_t size = strlen(expanded); struct screen *os = octx->s, s[TOTAL]; struct screen_write_ctx ctx[TOTAL]; u_int ocx = os->cx, ocy = os->cy, n, i, width[TOTAL]; u_int map[] = { LEFT, LEFT, CENTRE, RIGHT, ABSOLUTE_CENTRE }; int focus_start = -1, focus_end = -1; int list_state = -1, fill = -1, even; enum style_align list_align = STYLE_ALIGN_DEFAULT; struct grid_cell gc, current_default; struct style sy, saved_sy; struct utf8_data *ud = &sy.gc.data; const char *cp, *end; enum utf8_state more; char *tmp; struct format_range *fr = NULL, *fr1; struct format_ranges frs; struct style_range *sr; memcpy(¤t_default, base, sizeof current_default); style_set(&sy, ¤t_default); TAILQ_INIT(&frs); log_debug("%s: %s", __func__, expanded); /* * We build three screens for left, right, centre alignment, one for * the list, one for anything after the list and two for the list left * and right markers. */ for (i = 0; i < TOTAL; i++) { screen_init(&s[i], size, 1, 0); screen_write_start(&ctx[i], &s[i]); screen_write_clearendofline(&ctx[i], current_default.bg); width[i] = 0; } /* * Walk the string and add to the corresponding screens, * parsing styles as we go. */ cp = expanded; while (*cp != '\0') { /* Handle sequences of #. */ if (cp[0] == '#' && cp[1] != '[' && cp[1] != '\0') { for (n = 1; cp[n] == '#'; n++) /* nothing */; even = ((n % 2) == 0); if (cp[n] != '[') { cp += n; if (even) n = (n / 2); else n = (n / 2) + 1; width[current] += n; format_draw_many(&ctx[current], &sy, '#', n); continue; } if (even) cp += (n + 1); else cp += (n - 1); if (sy.ignore) continue; format_draw_many(&ctx[current], &sy, '#', n / 2); width[current] += (n / 2); if (even) { utf8_set(ud, '['); screen_write_cell(&ctx[current], &sy.gc); width[current]++; } continue; } /* Is this not a style? */ if (cp[0] != '#' || cp[1] != '[' || sy.ignore) { /* See if this is a UTF-8 character. */ if ((more = utf8_open(ud, *cp)) == UTF8_MORE) { while (*++cp != '\0' && more == UTF8_MORE) more = utf8_append(ud, *cp); if (more != UTF8_DONE) cp -= ud->have; } /* Not a UTF-8 character - ASCII or not valid. */ if (more != UTF8_DONE) { if (*cp < 0x20 || *cp > 0x7e) { /* Ignore nonprintable characters. */ cp++; continue; } utf8_set(ud, *cp); cp++; } /* Draw the cell to the current screen. */ screen_write_cell(&ctx[current], &sy.gc); width[current] += ud->width; continue; } /* This is a style. Work out where the end is and parse it. */ end = format_skip(cp + 2, "]"); if (end == NULL) { log_debug("%s: no terminating ] at '%s'", __func__, cp + 2); TAILQ_FOREACH_SAFE(fr, &frs, entry, fr1) format_free_range(&frs, fr); goto out; } tmp = xstrndup(cp + 2, end - (cp + 2)); style_copy(&saved_sy, &sy); if (style_parse(&sy, ¤t_default, tmp) != 0) { log_debug("%s: invalid style '%s'", __func__, tmp); free(tmp); cp = end + 1; continue; } log_debug("%s: style '%s' -> '%s'", __func__, tmp, style_tostring(&sy)); free(tmp); if (default_colours) { sy.gc.bg = base->bg; sy.gc.fg = base->fg; } /* If this style has a fill colour, store it for later. */ if (sy.fill != 8) fill = sy.fill; /* If this style pushed or popped the default, update it. */ if (sy.default_type == STYLE_DEFAULT_PUSH) { memcpy(¤t_default, &saved_sy.gc, sizeof current_default); sy.default_type = STYLE_DEFAULT_BASE; } else if (sy.default_type == STYLE_DEFAULT_POP) { memcpy(¤t_default, base, sizeof current_default); sy.default_type = STYLE_DEFAULT_BASE; } /* Check the list state. */ switch (sy.list) { case STYLE_LIST_ON: /* * Entering the list, exiting a marker, or exiting the * focus. */ if (list_state != 0) { if (fr != NULL) { /* abort any region */ free(fr); fr = NULL; } list_state = 0; list_align = sy.align; } /* End the focus if started. */ if (focus_start != -1 && focus_end == -1) focus_end = s[LIST].cx; current = LIST; break; case STYLE_LIST_FOCUS: /* Entering the focus. */ if (list_state != 0) /* not inside the list */ break; if (focus_start == -1) /* focus already started */ focus_start = s[LIST].cx; break; case STYLE_LIST_OFF: /* Exiting or outside the list. */ if (list_state == 0) { if (fr != NULL) { /* abort any region */ free(fr); fr = NULL; } if (focus_start != -1 && focus_end == -1) focus_end = s[LIST].cx; map[list_align] = AFTER; if (list_align == STYLE_ALIGN_LEFT) map[STYLE_ALIGN_DEFAULT] = AFTER; list_state = 1; } current = map[sy.align]; break; case STYLE_LIST_LEFT_MARKER: /* Entering left marker. */ if (list_state != 0) /* not inside the list */ break; if (s[LIST_LEFT].cx != 0) /* already have marker */ break; if (fr != NULL) { /* abort any region */ free(fr); fr = NULL; } if (focus_start != -1 && focus_end == -1) focus_start = focus_end = -1; current = LIST_LEFT; break; case STYLE_LIST_RIGHT_MARKER: /* Entering right marker. */ if (list_state != 0) /* not inside the list */ break; if (s[LIST_RIGHT].cx != 0) /* already have marker */ break; if (fr != NULL) { /* abort any region */ free(fr); fr = NULL; } if (focus_start != -1 && focus_end == -1) focus_start = focus_end = -1; current = LIST_RIGHT; break; } if (current != last) { log_debug("%s: change %s -> %s", __func__, names[last], names[current]); last = current; } /* * Check if the range style has changed and if so end the * current range and start a new one if needed. */ if (srs != NULL) { if (fr != NULL && !format_is_type(fr, &sy)) { if (s[current].cx != fr->start) { fr->end = s[current].cx + 1; TAILQ_INSERT_TAIL(&frs, fr, entry); } else free(fr); fr = NULL; } if (fr == NULL && sy.range_type != STYLE_RANGE_NONE) { fr = xcalloc(1, sizeof *fr); fr->index = current; fr->s = &s[current]; fr->start = s[current].cx; fr->type = sy.range_type; fr->argument = sy.range_argument; strlcpy(fr->string, sy.range_string, sizeof fr->string); } } cp = end + 1; } free(fr); for (i = 0; i < TOTAL; i++) { screen_write_stop(&ctx[i]); log_debug("%s: width %s is %u", __func__, names[i], width[i]); } if (focus_start != -1 && focus_end != -1) log_debug("%s: focus %d-%d", __func__, focus_start, focus_end); TAILQ_FOREACH(fr, &frs, entry) { log_debug("%s: range %d|%u is %s %u-%u", __func__, fr->type, fr->argument, names[fr->index], fr->start, fr->end); } /* Clear the available area. */ if (fill != -1) { memcpy(&gc, &grid_default_cell, sizeof gc); gc.bg = fill; for (i = 0; i < available; i++) screen_write_putc(octx, &gc, ' '); } /* * Draw the screens. How they are arranged depends on where the list * appears. */ switch (list_align) { case STYLE_ALIGN_DEFAULT: /* No list. */ format_draw_none(octx, available, ocx, ocy, &s[LEFT], &s[CENTRE], &s[RIGHT], &s[ABSOLUTE_CENTRE], &frs); break; case STYLE_ALIGN_LEFT: /* List is part of the left. */ format_draw_left(octx, available, ocx, ocy, &s[LEFT], &s[CENTRE], &s[RIGHT], &s[ABSOLUTE_CENTRE], &s[LIST], &s[LIST_LEFT], &s[LIST_RIGHT], &s[AFTER], focus_start, focus_end, &frs); break; case STYLE_ALIGN_CENTRE: /* List is part of the centre. */ format_draw_centre(octx, available, ocx, ocy, &s[LEFT], &s[CENTRE], &s[RIGHT], &s[ABSOLUTE_CENTRE], &s[LIST], &s[LIST_LEFT], &s[LIST_RIGHT], &s[AFTER], focus_start, focus_end, &frs); break; case STYLE_ALIGN_RIGHT: /* List is part of the right. */ format_draw_right(octx, available, ocx, ocy, &s[LEFT], &s[CENTRE], &s[RIGHT], &s[ABSOLUTE_CENTRE], &s[LIST], &s[LIST_LEFT], &s[LIST_RIGHT], &s[AFTER], focus_start, focus_end, &frs); break; case STYLE_ALIGN_ABSOLUTE_CENTRE: /* List is in the centre of the entire horizontal space. */ format_draw_absolute_centre(octx, available, ocx, ocy, &s[LEFT], &s[CENTRE], &s[RIGHT], &s[ABSOLUTE_CENTRE], &s[LIST], &s[LIST_LEFT], &s[LIST_RIGHT], &s[AFTER], focus_start, focus_end, &frs); break; } /* Create ranges to return. */ TAILQ_FOREACH_SAFE(fr, &frs, entry, fr1) { sr = xcalloc(1, sizeof *sr); sr->type = fr->type; sr->argument = fr->argument; strlcpy(sr->string, fr->string, sizeof sr->string); sr->start = fr->start; sr->end = fr->end; TAILQ_INSERT_TAIL(srs, sr, entry); switch (sr->type) { case STYLE_RANGE_NONE: break; case STYLE_RANGE_LEFT: log_debug("%s: range left at %u-%u", __func__, sr->start, sr->end); break; case STYLE_RANGE_RIGHT: log_debug("%s: range right at %u-%u", __func__, sr->start, sr->end); break; case STYLE_RANGE_PANE: log_debug("%s: range pane|%%%u at %u-%u", __func__, sr->argument, sr->start, sr->end); break; case STYLE_RANGE_WINDOW: log_debug("%s: range window|%u at %u-%u", __func__, sr->argument, sr->start, sr->end); break; case STYLE_RANGE_SESSION: log_debug("%s: range session|$%u at %u-%u", __func__, sr->argument, sr->start, sr->end); break; case STYLE_RANGE_USER: log_debug("%s: range user|%u at %u-%u", __func__, sr->argument, sr->start, sr->end); break; } format_free_range(&frs, fr); } out: /* Free the screens. */ for (i = 0; i < TOTAL; i++) screen_free(&s[i]); /* Restore the original cursor position. */ screen_write_cursormove(octx, ocx, ocy, 0); } /* Get width, taking #[] into account. */ u_int format_width(const char *expanded) { const char *cp, *end; u_int n, leading_width, width = 0; struct utf8_data ud; enum utf8_state more; cp = expanded; while (*cp != '\0') { if (*cp == '#') { end = format_leading_hashes(cp, &n, &leading_width); width += leading_width; cp = end; if (*cp == '#') { end = format_skip(cp + 2, "]"); if (end == NULL) return (0); cp = end + 1; } } else if ((more = utf8_open(&ud, *cp)) == UTF8_MORE) { while (*++cp != '\0' && more == UTF8_MORE) more = utf8_append(&ud, *cp); if (more == UTF8_DONE) width += ud.width; else cp -= ud.have; } else if (*cp > 0x1f && *cp < 0x7f) { width++; cp++; } else cp++; } return (width); } /* * Trim on the left, taking #[] into account. Note, we copy the whole set of * unescaped #s, but only add their escaped size to width. This is because the * format_draw function will actually do the escaping when it runs */ char * format_trim_left(const char *expanded, u_int limit) { char *copy, *out; const char *cp = expanded, *end; u_int n, width = 0, leading_width; struct utf8_data ud; enum utf8_state more; out = copy = xcalloc(2, strlen(expanded) + 1); while (*cp != '\0') { if (width >= limit) break; if (*cp == '#') { end = format_leading_hashes(cp, &n, &leading_width); if (leading_width > limit - width) leading_width = limit - width; if (leading_width != 0) { if (n == 1) *out++ = '#'; else { memset(out, '#', 2 * leading_width); out += 2 * leading_width; } width += leading_width; } cp = end; if (*cp == '#') { end = format_skip(cp + 2, "]"); if (end == NULL) break; memcpy(out, cp, end + 1 - cp); out += (end + 1 - cp); cp = end + 1; } } else if ((more = utf8_open(&ud, *cp)) == UTF8_MORE) { while (*++cp != '\0' && more == UTF8_MORE) more = utf8_append(&ud, *cp); if (more == UTF8_DONE) { if (width + ud.width <= limit) { memcpy(out, ud.data, ud.size); out += ud.size; } width += ud.width; } else { cp -= ud.have; cp++; } } else if (*cp > 0x1f && *cp < 0x7f) { if (width + 1 <= limit) *out++ = *cp; width++; cp++; } else cp++; } *out = '\0'; return (copy); } /* Trim on the right, taking #[] into account. */ char * format_trim_right(const char *expanded, u_int limit) { char *copy, *out; const char *cp = expanded, *end; u_int width = 0, total_width, skip, n; u_int leading_width, copy_width; struct utf8_data ud; enum utf8_state more; total_width = format_width(expanded); if (total_width <= limit) return (xstrdup(expanded)); skip = total_width - limit; out = copy = xcalloc(2, strlen(expanded) + 1); while (*cp != '\0') { if (*cp == '#') { end = format_leading_hashes(cp, &n, &leading_width); copy_width = leading_width; if (width <= skip) { if (skip - width >= copy_width) copy_width = 0; else copy_width -= (skip - width); } if (copy_width != 0) { if (n == 1) *out++ = '#'; else { memset(out, '#', 2 * copy_width); out += 2 * copy_width; } } width += leading_width; cp = end; if (*cp == '#') { end = format_skip(cp + 2, "]"); if (end == NULL) break; memcpy(out, cp, end + 1 - cp); out += (end + 1 - cp); cp = end + 1; } } else if ((more = utf8_open(&ud, *cp)) == UTF8_MORE) { while (*++cp != '\0' && more == UTF8_MORE) more = utf8_append(&ud, *cp); if (more == UTF8_DONE) { if (width >= skip) { memcpy(out, ud.data, ud.size); out += ud.size; } width += ud.width; } else { cp -= ud.have; cp++; } } else if (*cp > 0x1f && *cp < 0x7f) { if (width >= skip) *out++ = *cp; width++; cp++; } else cp++; } *out = '\0'; return (copy); }