#include "render.h" #include #include #include #include #include #include #include #include #include #include "macros.h" #if HAS_INCLUDE() #include #define pthread_setname_np(thread, name) (pthread_set_name_np(thread, name), 0) #elif defined(__NetBSD__) #define pthread_setname_np(thread, name) pthread_setname_np(thread, "%s", (void *)name) #endif #include #include #include #include #define LOG_MODULE "render" #define LOG_ENABLE_DBG 0 #include "log.h" #include "box-drawing.h" #include "char32.h" #include "config.h" #include "grid.h" #include "hsl.h" #include "ime.h" #include "quirks.h" #include "search.h" #include "selection.h" #include "shm.h" #include "sixel.h" #include "url-mode.h" #include "util.h" #include "xmalloc.h" #define TIME_SCROLL_DAMAGE 0 struct renderer { struct fdm *fdm; struct wayland *wayl; }; static struct { size_t total; size_t zero; /* commits presented in less than one frame interval */ size_t one; /* commits presented in one frame interval */ size_t two; /* commits presented in two or more frame intervals */ } presentation_statistics = {0}; static void fdm_hook_refresh_pending_terminals(struct fdm *fdm, void *data); struct renderer * render_init(struct fdm *fdm, struct wayland *wayl) { struct renderer *renderer = malloc(sizeof(*renderer)); if (unlikely(renderer == NULL)) { LOG_ERRNO("malloc() failed"); return NULL; } *renderer = (struct renderer) { .fdm = fdm, .wayl = wayl, }; if (!fdm_hook_add(fdm, &fdm_hook_refresh_pending_terminals, renderer, FDM_HOOK_PRIORITY_NORMAL)) { LOG_ERR("failed to register FDM hook"); free(renderer); return NULL; } return renderer; } void render_destroy(struct renderer *renderer) { if (renderer == NULL) return; fdm_hook_del(renderer->fdm, &fdm_hook_refresh_pending_terminals, FDM_HOOK_PRIORITY_NORMAL); free(renderer); } static void DESTRUCTOR log_presentation_statistics(void) { if (presentation_statistics.total == 0) return; const size_t total = presentation_statistics.total; LOG_INFO("presentation statistics: zero=%f%%, one=%f%%, two=%f%%", 100. * presentation_statistics.zero / total, 100. * presentation_statistics.one / total, 100. * presentation_statistics.two / total); } static void sync_output(void *data, struct wp_presentation_feedback *wp_presentation_feedback, struct wl_output *output) { } struct presentation_context { struct terminal *term; struct timeval input; struct timeval commit; }; static void presented(void *data, struct wp_presentation_feedback *wp_presentation_feedback, uint32_t tv_sec_hi, uint32_t tv_sec_lo, uint32_t tv_nsec, uint32_t refresh, uint32_t seq_hi, uint32_t seq_lo, uint32_t flags) { struct presentation_context *ctx = data; struct terminal *term = ctx->term; const struct timeval *input = &ctx->input; const struct timeval *commit = &ctx->commit; const struct timeval presented = { .tv_sec = (uint64_t)tv_sec_hi << 32 | tv_sec_lo, .tv_usec = tv_nsec / 1000, }; bool use_input = (input->tv_sec > 0 || input->tv_usec > 0) && timercmp(&presented, input, >); char msg[1024]; int chars = 0; if (use_input && timercmp(&presented, input, <)) return; else if (timercmp(&presented, commit, <)) return; LOG_DBG("commit: %lu s %lu µs, presented: %lu s %lu µs", commit->tv_sec, commit->tv_usec, presented.tv_sec, presented.tv_usec); if (use_input) { struct timeval diff; timersub(commit, input, &diff); chars += snprintf( &msg[chars], sizeof(msg) - chars, "input - %llu µs -> ", (unsigned long long)diff.tv_usec); } struct timeval diff; timersub(&presented, commit, &diff); chars += snprintf( &msg[chars], sizeof(msg) - chars, "commit - %llu µs -> ", (unsigned long long)diff.tv_usec); if (use_input) { xassert(timercmp(&presented, input, >)); timersub(&presented, input, &diff); } else { xassert(timercmp(&presented, commit, >)); timersub(&presented, commit, &diff); } chars += snprintf( &msg[chars], sizeof(msg) - chars, "presented (total: %llu µs)", (unsigned long long)diff.tv_usec); unsigned frame_count = 0; if (tll_length(term->window->on_outputs) > 0) { const struct monitor *mon = tll_front(term->window->on_outputs); frame_count = (diff.tv_sec * 1000000. + diff.tv_usec) / (1000000. / mon->refresh); } presentation_statistics.total++; if (frame_count >= 2) presentation_statistics.two++; else if (frame_count >= 1) presentation_statistics.one++; else presentation_statistics.zero++; #define _log_fmt "%s (more than %u frames)" if (frame_count >= 2) LOG_ERR(_log_fmt, msg, frame_count); else if (frame_count >= 1) LOG_WARN(_log_fmt, msg, frame_count); else LOG_INFO(_log_fmt, msg, frame_count); #undef _log_fmt wp_presentation_feedback_destroy(wp_presentation_feedback); free(ctx); } static void discarded(void *data, struct wp_presentation_feedback *wp_presentation_feedback) { struct presentation_context *ctx = data; wp_presentation_feedback_destroy(wp_presentation_feedback); free(ctx); } static const struct wp_presentation_feedback_listener presentation_feedback_listener = { .sync_output = &sync_output, .presented = &presented, .discarded = &discarded, }; static struct fcft_font * attrs_to_font(const struct terminal *term, const struct attributes *attrs) { int idx = attrs->italic << 1 | attrs->bold; return term->fonts[idx]; } static inline pixman_color_t color_hex_to_pixman_with_alpha(uint32_t color, uint16_t alpha) { return (pixman_color_t){ .red = ((color >> 16 & 0xff) | (color >> 8 & 0xff00)) * alpha / 0xffff, .green = ((color >> 8 & 0xff) | (color >> 0 & 0xff00)) * alpha / 0xffff, .blue = ((color >> 0 & 0xff) | (color << 8 & 0xff00)) * alpha / 0xffff, .alpha = alpha, }; } static inline pixman_color_t color_hex_to_pixman(uint32_t color) { /* Count on the compiler optimizing this */ return color_hex_to_pixman_with_alpha(color, 0xffff); } static inline uint32_t color_decrease_luminance(uint32_t color) { uint32_t alpha = color & 0xff000000; int hue, sat, lum; rgb_to_hsl(color, &hue, &sat, &lum); return alpha | hsl_to_rgb(hue, sat, lum / 1.5); } static inline uint32_t color_dim(const struct terminal *term, uint32_t color) { const struct config *conf = term->conf; const uint8_t custom_dim = conf->colors.use_custom.dim; if (likely(custom_dim == 0)) return color_decrease_luminance(color); for (size_t i = 0; i < 8; i++) { if (((custom_dim >> i) & 1) == 0) continue; if (term->colors.table[0 + i] == color) { /* “Regular” color, return the corresponding “dim” */ return conf->colors.dim[i]; } else if (term->colors.table[8 + i] == color) { /* “Bright” color, return the corresponding “regular” */ return term->colors.table[i]; } } return color_decrease_luminance(color); } static inline uint32_t color_brighten(const struct terminal *term, uint32_t color) { /* * First try to match the color against the base 8 colors. If we * find a match, return the corresponding bright color. */ if (term->conf->bold_in_bright.palette_based) { for (size_t i = 0; i < 8; i++) { if (term->colors.table[i] == color) return term->colors.table[i + 8]; } return color; } int hue, sat, lum; rgb_to_hsl(color, &hue, &sat, &lum); return hsl_to_rgb(hue, sat, min(100, lum * 1.3)); } static inline int font_baseline(const struct terminal *term) { return term->font_y_ofs + term->fonts[0]->ascent; } static void draw_unfocused_block(const struct terminal *term, pixman_image_t *pix, const pixman_color_t *color, int x, int y, int cell_cols) { const int scale = term->scale; const int width = min(min(scale, term->cell_width), term->cell_height); pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, color, 4, (pixman_rectangle16_t []){ {x, y, cell_cols * term->cell_width, width}, /* top */ {x, y, width, term->cell_height}, /* left */ {x + cell_cols * term->cell_width - width, y, width, term->cell_height}, /* right */ {x, y + term->cell_height - width, cell_cols * term->cell_width, width}, /* bottom */ }); } static void draw_beam_cursor(const struct terminal *term, pixman_image_t *pix, const struct fcft_font *font, const pixman_color_t *color, int x, int y) { int baseline = y + font_baseline(term) - term->fonts[0]->ascent; pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, color, 1, &(pixman_rectangle16_t){ x, baseline, term_pt_or_px_as_pixels(term, &term->conf->cursor.beam_thickness), term->fonts[0]->ascent + term->fonts[0]->descent}); } static int underline_offset(const struct terminal *term, const struct fcft_font *font) { return font_baseline(term) - (term->conf->use_custom_underline_offset ? -term_pt_or_px_as_pixels(term, &term->conf->underline_offset) : font->underline.position); } static void draw_underline_cursor(const struct terminal *term, pixman_image_t *pix, const struct fcft_font *font, const pixman_color_t *color, int x, int y, int cols) { int thickness = term->conf->cursor.underline_thickness.px >= 0 ? term_pt_or_px_as_pixels( term, &term->conf->cursor.underline_thickness) : font->underline.thickness; /* Make sure the line isn't positioned below the cell */ const int y_ofs = min(underline_offset(term, font) + thickness, term->cell_height - thickness); pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, color, 1, &(pixman_rectangle16_t){ x, y + y_ofs, cols * term->cell_width, thickness}); } static void draw_underline(const struct terminal *term, pixman_image_t *pix, const struct fcft_font *font, const pixman_color_t *color, int x, int y, int cols) { const int thickness = term->conf->underline_thickness.px >= 0 ? term_pt_or_px_as_pixels( term, &term->conf->underline_thickness) : font->underline.thickness; /* Make sure the line isn't positioned below the cell */ const int y_ofs = min(underline_offset(term, font), term->cell_height - thickness); pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, color, 1, &(pixman_rectangle16_t){ x, y + y_ofs, cols * term->cell_width, thickness}); } static void draw_strikeout(const struct terminal *term, pixman_image_t *pix, const struct fcft_font *font, const pixman_color_t *color, int x, int y, int cols) { pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, color, 1, &(pixman_rectangle16_t){ x, y + font_baseline(term) - font->strikeout.position, cols * term->cell_width, font->strikeout.thickness}); } static void cursor_colors_for_cell(const struct terminal *term, const struct cell *cell, const pixman_color_t *fg, const pixman_color_t *bg, pixman_color_t *cursor_color, pixman_color_t *text_color) { bool is_selected = cell->attrs.selected; if (term->cursor_color.cursor >> 31) { *cursor_color = color_hex_to_pixman(term->cursor_color.cursor); *text_color = color_hex_to_pixman( term->cursor_color.text >> 31 ? term->cursor_color.text : term->colors.bg); if (cell->attrs.reverse ^ is_selected) { pixman_color_t swap = *cursor_color; *cursor_color = *text_color; *text_color = swap; } } else { *cursor_color = *fg; *text_color = *bg; if (unlikely(text_color->alpha != 0xffff)) { /* The *only* color that can have transparency is the * default background color */ *text_color = color_hex_to_pixman(term->colors.bg); } } } static void draw_cursor(const struct terminal *term, const struct cell *cell, const struct fcft_font *font, pixman_image_t *pix, pixman_color_t *fg, const pixman_color_t *bg, int x, int y, int cols) { pixman_color_t cursor_color; pixman_color_t text_color; cursor_colors_for_cell(term, cell, fg, bg, &cursor_color, &text_color); switch (term->cursor_style) { case CURSOR_BLOCK: if (unlikely(!term->kbd_focus)) draw_unfocused_block(term, pix, &cursor_color, x, y, cols); else if (likely(term->cursor_blink.state == CURSOR_BLINK_ON)) { *fg = text_color; pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, &cursor_color, 1, &(pixman_rectangle16_t){x, y, cols * term->cell_width, term->cell_height}); } break; case CURSOR_BEAM: if (likely(term->cursor_blink.state == CURSOR_BLINK_ON || !term->kbd_focus)) { draw_beam_cursor(term, pix, font, &cursor_color, x, y); } break; case CURSOR_UNDERLINE: if (likely(term->cursor_blink.state == CURSOR_BLINK_ON || !term->kbd_focus)) { draw_underline_cursor(term, pix, font, &cursor_color, x, y, cols); } break; } } static int render_cell(struct terminal *term, pixman_image_t *pix, struct row *row, int col, int row_no, bool has_cursor) { struct cell *cell = &row->cells[col]; if (cell->attrs.clean) return 0; cell->attrs.clean = 1; cell->attrs.confined = true; int width = term->cell_width; int height = term->cell_height; const int x = term->margins.left + col * width; const int y = term->margins.top + row_no * height; bool is_selected = cell->attrs.selected; uint32_t _fg = 0; uint32_t _bg = 0; uint16_t alpha = 0xffff; if (is_selected && term->colors.use_custom_selection) { _fg = term->colors.selection_fg; _bg = term->colors.selection_bg; } else { /* Use cell specific color, if set, otherwise the default colors (possible reversed) */ switch (cell->attrs.fg_src) { case COLOR_RGB: _fg = cell->attrs.fg; break; case COLOR_BASE16: case COLOR_BASE256: xassert(cell->attrs.fg < ALEN(term->colors.table)); _fg = term->colors.table[cell->attrs.fg]; break; case COLOR_DEFAULT: _fg = term->reverse ? term->colors.bg : term->colors.fg; break; } switch (cell->attrs.bg_src) { case COLOR_RGB: _bg = cell->attrs.bg; break; case COLOR_BASE16: case COLOR_BASE256: xassert(cell->attrs.bg < ALEN(term->colors.table)); _bg = term->colors.table[cell->attrs.bg]; break; case COLOR_DEFAULT: _bg = term->reverse ? term->colors.fg : term->colors.bg; break; } if (cell->attrs.reverse ^ is_selected) { uint32_t swap = _fg; _fg = _bg; _bg = swap; } else if (cell->attrs.bg_src == COLOR_DEFAULT) alpha = term->colors.alpha; } if (unlikely(is_selected && _fg == _bg)) { /* Invert bg when selected/highlighted text has same fg/bg */ _bg = ~_bg; alpha = 0xffff; } if (cell->attrs.dim) _fg = color_dim(term, _fg); if (term->conf->bold_in_bright.enabled && cell->attrs.bold) _fg = color_brighten(term, _fg); if (cell->attrs.blink && term->blink.state == BLINK_OFF) _fg = color_decrease_luminance(_fg); pixman_color_t fg = color_hex_to_pixman(_fg); pixman_color_t bg = color_hex_to_pixman_with_alpha(_bg, alpha); struct fcft_font *font = attrs_to_font(term, &cell->attrs); const struct composed *composed = NULL; const struct fcft_grapheme *grapheme = NULL; const struct fcft_glyph *single = NULL; const struct fcft_glyph **glyphs = NULL; unsigned glyph_count = 0; char32_t base = cell->wc; int cell_cols = 1; if (base != 0) { if (unlikely( /* Classic box drawings */ (base >= GLYPH_BOX_DRAWING_FIRST && base <= GLYPH_BOX_DRAWING_LAST) || /* Braille */ (base >= GLYPH_BRAILLE_FIRST && base <= GLYPH_BRAILLE_LAST) || /* * Unicode 13 "Symbols for Legacy Computing" * sub-ranges below. * * Note, the full range is U+1FB00 - U+1FBF9 */ (base >= GLYPH_LEGACY_FIRST && base <= GLYPH_LEGACY_LAST)) && likely(!term->conf->box_drawings_uses_font_glyphs)) { struct fcft_glyph ***arr; size_t count; size_t idx; if (base >= GLYPH_LEGACY_FIRST) { arr = &term->custom_glyphs.legacy; count = GLYPH_LEGACY_COUNT; idx = base - GLYPH_LEGACY_FIRST; } else if (base >= GLYPH_BRAILLE_FIRST) { arr = &term->custom_glyphs.braille; count = GLYPH_BRAILLE_COUNT; idx = base - GLYPH_BRAILLE_FIRST; } else { arr = &term->custom_glyphs.box_drawing; count = GLYPH_BOX_DRAWING_COUNT; idx = base - GLYPH_BOX_DRAWING_FIRST; } if (unlikely(*arr == NULL)) *arr = xcalloc(count, sizeof((*arr)[0])); if (likely((*arr)[idx] != NULL)) single = (*arr)[idx]; else { mtx_lock(&term->render.workers.lock); /* Other thread may have instantiated it while we * acquired the lock */ single = (*arr)[idx]; if (likely(single == NULL)) single = (*arr)[idx] = box_drawing(term, base); mtx_unlock(&term->render.workers.lock); } if (single != NULL) { glyph_count = 1; glyphs = &single; cell_cols = single->cols; } } else if (base >= CELL_COMB_CHARS_LO && base <= CELL_COMB_CHARS_HI) { composed = composed_lookup(term->composed, base - CELL_COMB_CHARS_LO); base = composed->chars[0]; if (term->conf->can_shape_grapheme && term->conf->tweak.grapheme_shaping) { grapheme = fcft_rasterize_grapheme_utf32( font, composed->count, composed->chars, term->font_subpixel); } if (grapheme != NULL) { cell_cols = composed->width; composed = NULL; glyphs = grapheme->glyphs; glyph_count = grapheme->count; } } if (single == NULL && grapheme == NULL) { if (unlikely(base >= CELL_SPACER)) { glyph_count = 0; cell_cols = 1; } else { xassert(base != 0); single = fcft_rasterize_char_utf32(font, base, term->font_subpixel); if (single == NULL) { glyph_count = 0; cell_cols = 1; } else { glyph_count = 1; glyphs = &single; cell_cols = single->cols; } } } } assert(glyph_count == 0 || glyphs != NULL); const int cols_left = term->cols - col; cell_cols = max(1, min(cell_cols, cols_left)); /* * Determine cells that will bleed into their right neighbor and remember * them for cleanup in the next frame. */ int render_width = cell_cols * width; if (term->conf->tweak.overflowing_glyphs && glyph_count > 0 && cols_left > cell_cols) { int glyph_width = 0, advance = 0; for (size_t i = 0; i < glyph_count; i++) { glyph_width = max(glyph_width, advance + glyphs[i]->x + glyphs[i]->width); advance += glyphs[i]->advance.x; } if (glyph_width > render_width) { render_width = min(glyph_width, render_width + width); for (int i = 0; i < cell_cols; i++) row->cells[col + i].attrs.confined = false; } } pixman_region32_t clip; pixman_region32_init_rect( &clip, x, y, render_width, term->cell_height); pixman_image_set_clip_region32(pix, &clip); pixman_region32_fini(&clip); /* Background */ pixman_image_fill_rectangles( PIXMAN_OP_SRC, pix, &bg, 1, &(pixman_rectangle16_t){x, y, cell_cols * width, height}); if (cell->attrs.blink && term->blink.fd < 0) { /* TODO: use a custom lock for this? */ mtx_lock(&term->render.workers.lock); term_arm_blink_timer(term); mtx_unlock(&term->render.workers.lock); } if (unlikely(has_cursor && term->cursor_style == CURSOR_BLOCK && term->kbd_focus)) draw_cursor(term, cell, font, pix, &fg, &bg, x, y, cell_cols); if (cell->wc == 0 || cell->wc >= CELL_SPACER || cell->wc == U'\t' || (unlikely(cell->attrs.conceal) && !is_selected)) { goto draw_cursor; } pixman_image_t *clr_pix = pixman_image_create_solid_fill(&fg); int pen_x = x; for (unsigned i = 0; i < glyph_count; i++) { const int letter_x_ofs = i == 0 ? term->font_x_ofs : 0; const struct fcft_glyph *glyph = glyphs[i]; if (glyph == NULL) continue; int g_x = glyph->x; int g_y = glyph->y; if (i > 0 && glyph->x >= 0) g_x -= term->cell_width; if (unlikely(pixman_image_get_format(glyph->pix) == PIXMAN_a8r8g8b8)) { /* Glyph surface is a pre-rendered image (typically a color emoji...) */ if (!(cell->attrs.blink && term->blink.state == BLINK_OFF)) { pixman_image_composite32( PIXMAN_OP_OVER, glyph->pix, NULL, pix, 0, 0, 0, 0, pen_x + letter_x_ofs + g_x, y + font_baseline(term) - g_y, glyph->width, glyph->height); } } else { pixman_image_composite32( PIXMAN_OP_OVER, clr_pix, glyph->pix, pix, 0, 0, 0, 0, pen_x + letter_x_ofs + g_x, y + font_baseline(term) - g_y, glyph->width, glyph->height); /* Combining characters */ if (composed != NULL) { assert(glyph_count == 1); for (size_t i = 1; i < composed->count; i++) { const struct fcft_glyph *g = fcft_rasterize_char_utf32( font, composed->chars[i], term->font_subpixel); if (g == NULL) continue; /* * Fonts _should_ assume the pen position is now * *after* the base glyph, and thus use negative * offsets for combining glyphs. * * Not all fonts behave like this however, and we * try to accommodate both variants. * * Since we haven't moved our pen position yet, we * add a full cell width to the offset (or two, in * case of double-width characters). * * If the font does *not* use negative offsets, * we'd normally use an offset of 0. However, to * somewhat deal with double-width glyphs we use * an offset of *one* cell. */ int x_ofs = g->x < 0 ? cell_cols * term->cell_width : (cell_cols - 1) * term->cell_width; pixman_image_composite32( PIXMAN_OP_OVER, clr_pix, g->pix, pix, 0, 0, 0, 0, /* Some fonts use a negative offset, while others use a * "normal" offset */ pen_x + x_ofs + g->x, y + font_baseline(term) - g->y, g->width, g->height); } } } pen_x += glyph->advance.x; } pixman_image_unref(clr_pix); /* Underline */ if (cell->attrs.underline) draw_underline(term, pix, font, &fg, x, y, cell_cols); if (cell->attrs.strikethrough) draw_strikeout(term, pix, font, &fg, x, y, cell_cols); if (unlikely(cell->attrs.url)) { pixman_color_t url_color = color_hex_to_pixman( term->conf->colors.use_custom.url ? term->conf->colors.url : term->colors.table[3] ); draw_underline(term, pix, font, &url_color, x, y, cell_cols); } draw_cursor: if (has_cursor && (term->cursor_style != CURSOR_BLOCK || !term->kbd_focus)) draw_cursor(term, cell, font, pix, &fg, &bg, x, y, cell_cols); pixman_image_set_clip_region32(pix, NULL); return cell_cols; } static void render_row(struct terminal *term, pixman_image_t *pix, struct row *row, int row_no, int cursor_col) { for (int col = term->cols - 1; col >= 0; col--) render_cell(term, pix, row, col, row_no, cursor_col == col); } static void render_urgency(struct terminal *term, struct buffer *buf) { uint32_t red = term->colors.table[1]; pixman_color_t bg = color_hex_to_pixman(red); int width = min(min(term->margins.left, term->margins.right), min(term->margins.top, term->margins.bottom)); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &bg, 4, (pixman_rectangle16_t[]){ /* Top */ {0, 0, term->width, width}, /* Bottom */ {0, term->height - width, term->width, width}, /* Left */ {0, width, width, term->height - 2 * width}, /* Right */ {term->width - width, width, width, term->height - 2 * width}, }); } static void render_margin(struct terminal *term, struct buffer *buf, int start_line, int end_line, bool apply_damage) { /* Fill area outside the cell grid with the default background color */ const int rmargin = term->width - term->margins.right; const int bmargin = term->height - term->margins.bottom; const int line_count = end_line - start_line; uint32_t _bg = !term->reverse ? term->colors.bg : term->colors.fg; pixman_color_t bg = color_hex_to_pixman_with_alpha(_bg, term->colors.alpha); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &bg, 4, (pixman_rectangle16_t[]){ /* Top */ {0, 0, term->width, term->margins.top}, /* Bottom */ {0, bmargin, term->width, term->margins.bottom}, /* Left */ {0, term->margins.top + start_line * term->cell_height, term->margins.left, line_count * term->cell_height}, /* Right */ {rmargin, term->margins.top + start_line * term->cell_height, term->margins.right, line_count * term->cell_height}, }); if (term->render.urgency) render_urgency(term, buf); /* Ensure the updated regions are copied to the next frame's * buffer when we're double buffering */ pixman_region32_union_rect( &buf->dirty, &buf->dirty, 0, 0, term->width, term->margins.top); pixman_region32_union_rect( &buf->dirty, &buf->dirty, 0, bmargin, term->width, term->margins.bottom); pixman_region32_union_rect( &buf->dirty, &buf->dirty, 0, 0, term->margins.left, term->height); pixman_region32_union_rect( &buf->dirty, &buf->dirty, rmargin, 0, term->margins.right, term->height); if (apply_damage) { /* Top */ wl_surface_damage_buffer( term->window->surface, 0, 0, term->width, term->margins.top); /* Bottom */ wl_surface_damage_buffer( term->window->surface, 0, bmargin, term->width, term->margins.bottom); /* Left */ wl_surface_damage_buffer( term->window->surface, 0, term->margins.top + start_line * term->cell_height, term->margins.left, line_count * term->cell_height); /* Right */ wl_surface_damage_buffer( term->window->surface, rmargin, term->margins.top + start_line * term->cell_height, term->margins.right, line_count * term->cell_height); } } static void grid_render_scroll(struct terminal *term, struct buffer *buf, const struct damage *dmg) { LOG_DBG( "damage: SCROLL: %d-%d by %d lines", dmg->region.start, dmg->region.end, dmg->lines); const int region_size = dmg->region.end - dmg->region.start; if (dmg->lines >= region_size) { /* The entire scroll region will be scrolled out (i.e. replaced) */ return; } const int height = (region_size - dmg->lines) * term->cell_height; xassert(height > 0); #if TIME_SCROLL_DAMAGE struct timespec start_time; clock_gettime(CLOCK_MONOTONIC, &start_time); #endif int dst_y = term->margins.top + (dmg->region.start + 0) * term->cell_height; int src_y = term->margins.top + (dmg->region.start + dmg->lines) * term->cell_height; /* * SHM scrolling can be *much* faster, but it depends on how many * lines we're scrolling, and how much repairing we need to do. * * In short, scrolling a *large* number of rows is faster with a * memmove, while scrolling a *small* number of lines is faster * with SHM scrolling. * * However, since we need to restore the scrolling regions when * SHM scrolling, we also need to take this into account. * * Finally, we also have to restore the window margins, and this * is a *huge* performance hit when scrolling a large number of * lines (in addition to the sloweness of SHM scrolling as * method). * * So, we need to figure out when to SHM scroll, and when to * memmove. * * For now, assume that the both methods perform roughly the same, * given an equal number of bytes to move/allocate, and use the * method that results in the least amount of bytes to touch. * * Since number of lines directly translates to bytes, we can * simply count lines. * * SHM scrolling needs to first "move" (punch hole + allocate) * dmg->lines number of lines, and then we need to restore * the bottom scroll region. * * If the total number of lines is less than half the screen - use * SHM. Otherwise use memmove. */ bool try_shm_scroll = shm_can_scroll(buf) && ( dmg->lines + dmg->region.start + (term->rows - dmg->region.end)) < term->rows / 2; bool did_shm_scroll = false; //try_shm_scroll = false; //try_shm_scroll = true; if (try_shm_scroll) { did_shm_scroll = shm_scroll( buf, dmg->lines * term->cell_height, term->margins.top, dmg->region.start * term->cell_height, term->margins.bottom, (term->rows - dmg->region.end) * term->cell_height); } if (did_shm_scroll) { /* Restore margins */ render_margin( term, buf, dmg->region.end - dmg->lines, term->rows, false); } else { /* Fallback for when we either cannot do SHM scrolling, or it failed */ uint8_t *raw = buf->data; memmove(raw + dst_y * buf->stride, raw + src_y * buf->stride, height * buf->stride); } #if TIME_SCROLL_DAMAGE struct timespec end_time; clock_gettime(CLOCK_MONOTONIC, &end_time); struct timespec memmove_time; timespec_sub(&end_time, &start_time, &memmove_time); LOG_INFO("scrolled %dKB (%d lines) using %s in %lds %ldns", height * buf->stride / 1024, dmg->lines, did_shm_scroll ? "SHM" : try_shm_scroll ? "memmove (SHM failed)" : "memmove", (long)memmove_time.tv_sec, memmove_time.tv_nsec); #endif wl_surface_damage_buffer( term->window->surface, term->margins.left, dst_y, term->width - term->margins.left - term->margins.right, height); /* * TODO: remove this if re-enabling scroll damage when re-applying * last frame’s damage (see reapply_old_damage() */ pixman_region32_union_rect( &buf->dirty, &buf->dirty, 0, dst_y, buf->width, height); } static void grid_render_scroll_reverse(struct terminal *term, struct buffer *buf, const struct damage *dmg) { LOG_DBG( "damage: SCROLL REVERSE: %d-%d by %d lines", dmg->region.start, dmg->region.end, dmg->lines); const int region_size = dmg->region.end - dmg->region.start; if (dmg->lines >= region_size) { /* The entire scroll region will be scrolled out (i.e. replaced) */ return; } const int height = (region_size - dmg->lines) * term->cell_height; xassert(height > 0); #if TIME_SCROLL_DAMAGE struct timespec start_time; clock_gettime(CLOCK_MONOTONIC, &start_time); #endif int src_y = term->margins.top + (dmg->region.start + 0) * term->cell_height; int dst_y = term->margins.top + (dmg->region.start + dmg->lines) * term->cell_height; bool try_shm_scroll = shm_can_scroll(buf) && ( dmg->lines + dmg->region.start + (term->rows - dmg->region.end)) < term->rows / 2; bool did_shm_scroll = false; if (try_shm_scroll) { did_shm_scroll = shm_scroll( buf, -dmg->lines * term->cell_height, term->margins.top, dmg->region.start * term->cell_height, term->margins.bottom, (term->rows - dmg->region.end) * term->cell_height); } if (did_shm_scroll) { /* Restore margins */ render_margin( term, buf, dmg->region.start, dmg->region.start + dmg->lines, false); } else { /* Fallback for when we either cannot do SHM scrolling, or it failed */ uint8_t *raw = buf->data; memmove(raw + dst_y * buf->stride, raw + src_y * buf->stride, height * buf->stride); } #if TIME_SCROLL_DAMAGE struct timespec end_time; clock_gettime(CLOCK_MONOTONIC, &end_time); struct timespec memmove_time; timespec_sub(&end_time, &start_time, &memmove_time); LOG_INFO("scrolled REVERSE %dKB (%d lines) using %s in %lds %ldns", height * buf->stride / 1024, dmg->lines, did_shm_scroll ? "SHM" : try_shm_scroll ? "memmove (SHM failed)" : "memmove", (long)memmove_time.tv_sec, memmove_time.tv_nsec); #endif wl_surface_damage_buffer( term->window->surface, term->margins.left, dst_y, term->width - term->margins.left - term->margins.right, height); /* * TODO: remove this if re-enabling scroll damage when re-applying * last frame’s damage (see reapply_old_damage() */ pixman_region32_union_rect( &buf->dirty, &buf->dirty, 0, dst_y, buf->width, height); } static void render_sixel_chunk(struct terminal *term, pixman_image_t *pix, const struct sixel *sixel, int term_start_row, int img_start_row, int count) { /* Translate row/column to x/y pixel values */ const int x = term->margins.left + sixel->pos.col * term->cell_width; const int y = term->margins.top + term_start_row * term->cell_height; /* Width/height, in pixels - and don't touch the window margins */ const int width = max( 0, min(sixel->width, term->width - x - term->margins.right)); const int height = max( 0, min( min(count * term->cell_height, /* 'count' number of rows */ sixel->height - img_start_row * term->cell_height), /* What remains of the sixel */ term->height - y - term->margins.bottom)); /* Verify we're not stepping outside the grid */ xassert(x >= term->margins.left); xassert(y >= term->margins.top); xassert(width == 0 || x + width <= term->width - term->margins.right); xassert(height == 0 || y + height <= term->height - term->margins.bottom); //LOG_DBG("sixel chunk: %dx%d %dx%d", x, y, width, height); pixman_image_composite32( sixel->opaque ? PIXMAN_OP_SRC : PIXMAN_OP_OVER, sixel->pix, NULL, pix, 0, img_start_row * term->cell_height, 0, 0, x, y, width, height); wl_surface_damage_buffer(term->window->surface, x, y, width, height); } static void render_sixel(struct terminal *term, pixman_image_t *pix, const struct coord *cursor, const struct sixel *sixel) { const int view_end = (term->grid->view + term->rows - 1) & (term->grid->num_rows - 1); const bool last_row_needs_erase = sixel->height % term->cell_height != 0; const bool last_col_needs_erase = sixel->width % term->cell_width != 0; int chunk_img_start = -1; /* Image-relative start row of chunk */ int chunk_term_start = -1; /* Viewport relative start row of chunk */ int chunk_row_count = 0; /* Number of rows to emit */ #define maybe_emit_sixel_chunk_then_reset() \ if (chunk_row_count != 0) { \ render_sixel_chunk( \ term, pix, sixel, \ chunk_term_start, chunk_img_start, chunk_row_count); \ chunk_term_start = chunk_img_start = -1; \ chunk_row_count = 0; \ } /* * Iterate all sixel rows: * * - ignore rows that aren't visible on-screen * - ignore rows that aren't dirty (they have already been rendered) * - chunk consecutive dirty rows into a 'chunk' * - emit (render) chunk as soon as a row isn't visible, or is clean * - emit final chunk after we've iterated all rows * * The purpose of this is to reduce the amount of pixels that * needs to be composited and marked as damaged for the * compositor. * * Since we do CPU based composition, rendering is a slow and * heavy task for foot, and thus it is important to not re-render * things unnecessarily. */ for (int _abs_row_no = sixel->pos.row; _abs_row_no < sixel->pos.row + sixel->rows; _abs_row_no++) { const int abs_row_no = _abs_row_no & (term->grid->num_rows - 1); const int term_row_no = (abs_row_no - term->grid->view + term->grid->num_rows) & (term->grid->num_rows - 1); /* Check if row is in the visible viewport */ if (view_end >= term->grid->view) { /* Not wrapped */ if (!(abs_row_no >= term->grid->view && abs_row_no <= view_end)) { /* Not visible */ maybe_emit_sixel_chunk_then_reset(); continue; } } else { /* Wrapped */ if (!(abs_row_no >= term->grid->view || abs_row_no <= view_end)) { /* Not visible */ maybe_emit_sixel_chunk_then_reset(); continue; } } /* Is the row dirty? */ struct row *row = term->grid->rows[abs_row_no]; xassert(row != NULL); /* Should be visible */ if (!row->dirty) { maybe_emit_sixel_chunk_then_reset(); continue; } int cursor_col = cursor->row == term_row_no ? cursor->col : -1; /* * If image contains transparent parts, render all (dirty) * cells beneath it. * * If image is opaque, loop cells and set their 'clean' bit, * to prevent the grid rendered from overwriting the sixel * * If the last sixel row only partially covers the cell row, * 'erase' the cell by rendering them. * * In all cases, do *not* clear the ‘dirty’ bit on the row, to * ensure the regular renderer includes them in the damage * rect. */ if (!sixel->opaque) { /* TODO: multithreading */ int cursor_col = cursor->row == term_row_no ? cursor->col : -1; render_row(term, pix, row, term_row_no, cursor_col); } else { for (int col = sixel->pos.col; col < min(sixel->pos.col + sixel->cols, term->cols); col++) { struct cell *cell = &row->cells[col]; if (!cell->attrs.clean) { bool last_row = abs_row_no == sixel->pos.row + sixel->rows - 1; bool last_col = col == sixel->pos.col + sixel->cols - 1; if ((last_row_needs_erase && last_row) || (last_col_needs_erase && last_col)) { render_cell(term, pix, row, col, term_row_no, cursor_col == col); } else { cell->attrs.clean = 1; cell->attrs.confined = 1; } } } } if (chunk_term_start == -1) { xassert(chunk_img_start == -1); chunk_term_start = term_row_no; chunk_img_start = _abs_row_no - sixel->pos.row; chunk_row_count = 1; } else chunk_row_count++; } maybe_emit_sixel_chunk_then_reset(); #undef maybe_emit_sixel_chunk_then_reset } static void render_sixel_images(struct terminal *term, pixman_image_t *pix, const struct coord *cursor) { if (likely(tll_length(term->grid->sixel_images)) == 0) return; const int scrollback_end = (term->grid->offset + term->rows) & (term->grid->num_rows - 1); const int view_start = (term->grid->view - scrollback_end + term->grid->num_rows) & (term->grid->num_rows - 1); const int view_end = view_start + term->rows - 1; //LOG_DBG("SIXELS: %zu images, view=%d-%d", // tll_length(term->grid->sixel_images), view_start, view_end); tll_foreach(term->grid->sixel_images, it) { const struct sixel *six = &it->item; const int start = (six->pos.row - scrollback_end + term->grid->num_rows) & (term->grid->num_rows - 1); const int end = start + six->rows - 1; //LOG_DBG(" sixel: %d-%d", start, end); if (start > view_end) { /* Sixel starts after view ends, no need to try to render it */ continue; } else if (end < view_start) { /* Image ends before view starts. Since the image list is * sorted, we can safely stop here */ break; } render_sixel(term, pix, cursor, &it->item); } } #if defined(FOOT_IME_ENABLED) && FOOT_IME_ENABLED static void render_ime_preedit_for_seat(struct terminal *term, struct seat *seat, struct buffer *buf) { if (likely(seat->ime.preedit.cells == NULL)) return; if (unlikely(term->is_searching)) return; /* Adjust cursor position to viewport */ struct coord cursor; cursor = term->grid->cursor.point; cursor.row += term->grid->offset; cursor.row -= term->grid->view; cursor.row &= term->grid->num_rows - 1; if (cursor.row < 0 || cursor.row >= term->rows) return; int cells_needed = seat->ime.preedit.count; if (seat->ime.preedit.cursor.start == cells_needed && seat->ime.preedit.cursor.end == cells_needed) { /* Cursor will be drawn *after* the pre-edit string, i.e. in * the cell *after*. This means we need to copy, and dirty, * one extra cell from the original grid, or we’ll leave * trailing “cursors” after us if the user deletes text while * pre-editing */ cells_needed++; } int row_idx = cursor.row; int col_idx = cursor.col; int ime_ofs = 0; /* Offset into pre-edit string to start rendering at */ int cells_left = term->cols - cursor.col; int cells_used = min(cells_needed, term->cols); /* Adjust start of pre-edit text to the left if string doesn't fit on row */ if (cells_left < cells_used) col_idx -= cells_used - cells_left; if (cells_needed > cells_used) { int start = seat->ime.preedit.cursor.start; int end = seat->ime.preedit.cursor.end; if (start == end) { /* Ensure *end* of pre-edit string is visible */ ime_ofs = cells_needed - cells_used; } else { /* Ensure the *beginning* of the cursor-area is visible */ ime_ofs = start; /* Display as much as possible of the pre-edit string */ if (cells_needed - ime_ofs < cells_used) ime_ofs = cells_needed - cells_used; } /* Make sure we don't start in the middle of a character */ while (ime_ofs < cells_needed && seat->ime.preedit.cells[ime_ofs].wc >= CELL_SPACER) { ime_ofs++; } } xassert(col_idx >= 0); xassert(col_idx < term->cols); struct row *row = grid_row_in_view(term->grid, row_idx); /* Don't start pre-edit text in the middle of a double-width character */ while (col_idx > 0 && row->cells[col_idx].wc >= CELL_SPACER) { cells_used++; col_idx--; } /* * Copy original content (render_cell() reads cell data directly * from grid), and mark all cells as dirty. This ensures they are * re-rendered when the pre-edit text is modified or removed. */ struct cell *real_cells = malloc(cells_used * sizeof(real_cells[0])); for (int i = 0; i < cells_used; i++) { xassert(col_idx + i < term->cols); real_cells[i] = row->cells[col_idx + i]; real_cells[i].attrs.clean = 0; } row->dirty = true; /* Render pre-edit text */ xassert(seat->ime.preedit.cells[ime_ofs].wc < CELL_SPACER); for (int i = 0, idx = ime_ofs; idx < seat->ime.preedit.count; i++, idx++) { const struct cell *cell = &seat->ime.preedit.cells[idx]; if (cell->wc >= CELL_SPACER) continue; int width = max(1, c32width(cell->wc)); if (col_idx + i + width > term->cols) break; row->cells[col_idx + i] = *cell; render_cell(term, buf->pix[0], row, col_idx + i, row_idx, false); } int start = seat->ime.preedit.cursor.start - ime_ofs; int end = seat->ime.preedit.cursor.end - ime_ofs; if (!seat->ime.preedit.cursor.hidden) { const struct cell *start_cell = &seat->ime.preedit.cells[0]; pixman_color_t fg = color_hex_to_pixman(term->colors.fg); pixman_color_t bg = color_hex_to_pixman(term->colors.bg); pixman_color_t cursor_color, text_color; cursor_colors_for_cell( term, start_cell, &fg, &bg, &cursor_color, &text_color); int x = term->margins.left + (col_idx + start) * term->cell_width; int y = term->margins.top + row_idx * term->cell_height; if (end == start) { /* Bar */ if (start >= 0) { struct fcft_font *font = attrs_to_font(term, &start_cell->attrs); draw_beam_cursor(term, buf->pix[0], font, &cursor_color, x, y); } term_ime_set_cursor_rect(term, x, y, 1, term->cell_height); } else if (end > start) { /* Hollow cursor */ if (start >= 0 && end <= term->cols) { int cols = end - start; draw_unfocused_block(term, buf->pix[0], &cursor_color, x, y, cols); } term_ime_set_cursor_rect( term, x, y, (end - start) * term->cell_width, term->cell_height); } } /* Restore original content (but do not render) */ for (int i = 0; i < cells_used; i++) row->cells[col_idx + i] = real_cells[i]; free(real_cells); wl_surface_damage_buffer( term->window->surface, term->margins.left, term->margins.top + row_idx * term->cell_height, term->width - term->margins.left - term->margins.right, 1 * term->cell_height); } #endif static void render_ime_preedit(struct terminal *term, struct buffer *buf) { #if defined(FOOT_IME_ENABLED) && FOOT_IME_ENABLED tll_foreach(term->wl->seats, it) { if (it->item.kbd_focus == term) render_ime_preedit_for_seat(term, &it->item, buf); } #endif } static void render_overlay(struct terminal *term) { struct wl_surf_subsurf *overlay = &term->window->overlay; bool unicode_mode_active = false; /* Check if unicode mode is active on at least one seat focusing * this terminal instance */ tll_foreach(term->wl->seats, it) { if (it->item.unicode_mode.active) { unicode_mode_active = true; break; } } const enum overlay_style style = term->is_searching ? OVERLAY_SEARCH : term->flash.active ? OVERLAY_FLASH : unicode_mode_active ? OVERLAY_UNICODE_MODE : OVERLAY_NONE; if (likely(style == OVERLAY_NONE)) { if (term->render.last_overlay_style != OVERLAY_NONE) { /* Unmap overlay sub-surface */ wl_surface_attach(overlay->surf, NULL, 0, 0); wl_surface_commit(overlay->surf); term->render.last_overlay_style = OVERLAY_NONE; term->render.last_overlay_buf = NULL; } return; } struct buffer *buf = shm_get_buffer( term->render.chains.overlay, term->width, term->height); pixman_image_set_clip_region32(buf->pix[0], NULL); pixman_color_t color; switch (style) { case OVERLAY_NONE: break; case OVERLAY_SEARCH: case OVERLAY_UNICODE_MODE: color = (pixman_color_t){0, 0, 0, 0x7fff}; break; case OVERLAY_FLASH: color = (pixman_color_t){.red=0x7fff, .green=0x7fff, .blue=0, .alpha=0x7fff}; break; } /* Bounding rectangle of damaged areas - for wl_surface_damage_buffer() */ pixman_box32_t damage_bounds; if (style == OVERLAY_SEARCH) { /* * When possible, we only update the areas that have *changed* * since the last frame. That means: * * - clearing/erasing cells that are now selected, but weren’t * in the last frame * - dimming cells that were selected, but aren’t anymore * * To do this, we save the last frame’s selected cells as a * pixman region. * * Then, we calculate the corresponding region for this * frame’s selected cells. * * Last frame’s region minus this frame’s region gives us the * region that needs to be *dimmed* in this frame * * This frame’s region minus last frame’s region gives us the * region that needs to be *cleared* in this frame. * * Finally, the union of the two “diff” regions above, gives * us the total region affected by a change, in either way. We * use this as the bounding box for the * wl_surface_damage_buffer() call. */ pixman_region32_t *see_through = &term->render.last_overlay_clip; pixman_region32_t old_see_through; const bool buffer_reuse = buf == term->render.last_overlay_buf && style == term->render.last_overlay_style && buf->age == 0; if (!buffer_reuse) { /* Can’t re-use last frame’s damage - set to full window, * to ensure *everything* is updated */ pixman_region32_init_rect( &old_see_through, 0, 0, buf->width, buf->height); } else { /* Use last frame’s saved region */ pixman_region32_init(&old_see_through); pixman_region32_copy(&old_see_through, see_through); } pixman_region32_clear(see_through); /* Build region consisting of all current search matches */ struct search_match_iterator iter = search_matches_new_iter(term); for (struct range match = search_matches_next(&iter); match.start.row >= 0; match = search_matches_next(&iter)) { int r = match.start.row; int start_col = match.start.col; const int end_row = match.end.row; while (true) { const int end_col = r == end_row ? match.end.col : term->cols - 1; int x = term->margins.left + start_col * term->cell_width; int y = term->margins.top + r * term->cell_height; int width = (end_col + 1 - start_col) * term->cell_width; int height = 1 * term->cell_height; pixman_region32_union_rect( see_through, see_through, x, y, width, height); if (++r > end_row) break; start_col = 0; } } /* Areas that need to be cleared: cells that were dimmed in * the last frame but is now see-through */ pixman_region32_t new_see_through; pixman_region32_init(&new_see_through); if (buffer_reuse) pixman_region32_subtract(&new_see_through, see_through, &old_see_through); else { /* Buffer content is unknown - explicitly clear *all* * current see-through areas */ pixman_region32_copy(&new_see_through, see_through); } pixman_image_set_clip_region32(buf->pix[0], &new_see_through); /* Areas that need to be dimmed: cells that were cleared in * the last frame but is not anymore */ pixman_region32_t new_dimmed; pixman_region32_init(&new_dimmed); pixman_region32_subtract(&new_dimmed, &old_see_through, see_through); pixman_region32_fini(&old_see_through); /* Total affected area */ pixman_region32_t damage; pixman_region32_init(&damage); pixman_region32_union(&damage, &new_see_through, &new_dimmed); damage_bounds = damage.extents; /* Clear cells that became selected in this frame. */ pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &(pixman_color_t){0}, 1, &(pixman_rectangle16_t){0, 0, term->width, term->height}); /* Set clip region for the newly dimmed cells. The actual * paint call is done below */ pixman_image_set_clip_region32(buf->pix[0], &new_dimmed); pixman_region32_fini(&new_see_through); pixman_region32_fini(&new_dimmed); pixman_region32_fini(&damage); } else if (buf == term->render.last_overlay_buf && style == term->render.last_overlay_style) { xassert(style == OVERLAY_FLASH || style == OVERLAY_UNICODE_MODE); shm_did_not_use_buf(buf); return; } else { pixman_image_set_clip_region32(buf->pix[0], NULL); damage_bounds = (pixman_box32_t){0, 0, buf->width, buf->height}; } pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &color, 1, &(pixman_rectangle16_t){0, 0, term->width, term->height}); quirk_weston_subsurface_desync_on(overlay->sub); wl_subsurface_set_position(overlay->sub, 0, 0); wl_surface_set_buffer_scale(overlay->surf, term->scale); wl_surface_attach(overlay->surf, buf->wl_buf, 0, 0); wl_surface_damage_buffer( overlay->surf, damage_bounds.x1, damage_bounds.y1, damage_bounds.x2 - damage_bounds.x1, damage_bounds.y2 - damage_bounds.y1); wl_surface_commit(overlay->surf); quirk_weston_subsurface_desync_off(overlay->sub); buf->age = 0; term->render.last_overlay_buf = buf; term->render.last_overlay_style = style; } int render_worker_thread(void *_ctx) { struct render_worker_context *ctx = _ctx; struct terminal *term = ctx->term; const int my_id = ctx->my_id; free(ctx); sigset_t mask; sigfillset(&mask); pthread_sigmask(SIG_SETMASK, &mask, NULL); char proc_title[16]; snprintf(proc_title, sizeof(proc_title), "foot:render:%d", my_id); if (pthread_setname_np(pthread_self(), proc_title) < 0) LOG_ERRNO("render worker %d: failed to set process title", my_id); sem_t *start = &term->render.workers.start; sem_t *done = &term->render.workers.done; mtx_t *lock = &term->render.workers.lock; while (true) { sem_wait(start); struct buffer *buf = term->render.workers.buf; bool frame_done = false; /* Translate offset-relative cursor row to view-relative */ struct coord cursor = {-1, -1}; if (!term->hide_cursor) { cursor = term->grid->cursor.point; cursor.row += term->grid->offset; cursor.row -= term->grid->view; cursor.row &= term->grid->num_rows - 1; } while (!frame_done) { mtx_lock(lock); xassert(tll_length(term->render.workers.queue) > 0); int row_no = tll_pop_front(term->render.workers.queue); mtx_unlock(lock); switch (row_no) { default: { xassert(buf != NULL); struct row *row = grid_row_in_view(term->grid, row_no); int cursor_col = cursor.row == row_no ? cursor.col : -1; render_row(term, buf->pix[my_id], row, row_no, cursor_col); break; } case -1: frame_done = true; sem_post(done); break; case -2: return 0; } } }; return -1; } struct csd_data get_csd_data(const struct terminal *term, enum csd_surface surf_idx) { xassert(term->window->csd_mode == CSD_YES); const bool borders_visible = wayl_win_csd_borders_visible(term->window); const bool title_visible = wayl_win_csd_titlebar_visible(term->window); /* Only title bar is rendered in maximized mode */ const int border_width = borders_visible ? term->conf->csd.border_width * term->scale : 0; const int title_height = title_visible ? term->conf->csd.title_height * term->scale : 0; const int button_width = title_visible ? term->conf->csd.button_width * term->scale : 0; const int button_close_width = term->width >= 1 * button_width ? button_width : 0; const int button_maximize_width = term->width >= 2 * button_width && term->window->wm_capabilities.maximize ? button_width : 0; const int button_minimize_width = term->width >= 3 * button_width && term->window->wm_capabilities.minimize ? button_width : 0; switch (surf_idx) { case CSD_SURF_TITLE: return (struct csd_data){ 0, -title_height, term->width, title_height}; case CSD_SURF_LEFT: return (struct csd_data){-border_width, -title_height, border_width, title_height + term->height}; case CSD_SURF_RIGHT: return (struct csd_data){ term->width, -title_height, border_width, title_height + term->height}; case CSD_SURF_TOP: return (struct csd_data){-border_width, -title_height - border_width, term->width + 2 * border_width, border_width}; case CSD_SURF_BOTTOM: return (struct csd_data){-border_width, term->height, term->width + 2 * border_width, border_width}; /* Positioned relative to CSD_SURF_TITLE */ case CSD_SURF_MINIMIZE: return (struct csd_data){term->width - 3 * button_width, 0, button_minimize_width, title_height}; case CSD_SURF_MAXIMIZE: return (struct csd_data){term->width - 2 * button_width, 0, button_maximize_width, title_height}; case CSD_SURF_CLOSE: return (struct csd_data){term->width - 1 * button_width, 0, button_close_width, title_height}; case CSD_SURF_COUNT: break; } BUG("Invalid csd_surface type"); return (struct csd_data){0}; } static void csd_commit(struct terminal *term, struct wl_surface *surf, struct buffer *buf) { xassert(buf->width % term->scale == 0); xassert(buf->height % term->scale == 0); wl_surface_attach(surf, buf->wl_buf, 0, 0); wl_surface_damage_buffer(surf, 0, 0, buf->width, buf->height); wl_surface_set_buffer_scale(surf, term->scale); wl_surface_commit(surf); } static void render_csd_part(struct terminal *term, struct wl_surface *surf, struct buffer *buf, int width, int height, pixman_color_t *color) { xassert(term->window->csd_mode == CSD_YES); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], color, 1, &(pixman_rectangle16_t){0, 0, buf->width, buf->height}); } static void render_osd(struct terminal *term, struct wl_surface *surf, struct wl_subsurface *sub_surf, struct fcft_font *font, struct buffer *buf, const char32_t *text, uint32_t _fg, uint32_t _bg, unsigned x, unsigned y) { pixman_region32_t clip; pixman_region32_init_rect(&clip, 0, 0, buf->width, buf->height); pixman_image_set_clip_region32(buf->pix[0], &clip); pixman_region32_fini(&clip); uint16_t alpha = _bg >> 24 | (_bg >> 24 << 8); pixman_color_t bg = color_hex_to_pixman_with_alpha(_bg, alpha); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &bg, 1, &(pixman_rectangle16_t){0, 0, buf->width, buf->height}); pixman_color_t fg = color_hex_to_pixman(_fg); const int x_ofs = term->font_x_ofs; const size_t len = c32len(text); struct fcft_text_run *text_run = NULL; const struct fcft_glyph **glyphs = NULL; const struct fcft_glyph *_glyphs[len]; size_t glyph_count = 0; if (fcft_capabilities() & FCFT_CAPABILITY_TEXT_RUN_SHAPING) { text_run = fcft_rasterize_text_run_utf32( font, len, (const char32_t *)text, term->font_subpixel); if (text_run != NULL) { glyphs = text_run->glyphs; glyph_count = text_run->count; } } if (glyphs == NULL) { for (size_t i = 0; i < len; i++) { const struct fcft_glyph *glyph = fcft_rasterize_char_utf32( font, text[i], term->font_subpixel); if (glyph == NULL) continue; _glyphs[glyph_count++] = glyph; } glyphs = _glyphs; } pixman_image_t *src = pixman_image_create_solid_fill(&fg); for (size_t i = 0; i < glyph_count; i++) { const struct fcft_glyph *glyph = glyphs[i]; if (pixman_image_get_format(glyph->pix) == PIXMAN_a8r8g8b8) { pixman_image_composite32( PIXMAN_OP_OVER, glyph->pix, NULL, buf->pix[0], 0, 0, 0, 0, x + x_ofs + glyph->x, y + term->font_y_ofs + font->ascent - glyph->y, glyph->width, glyph->height); } else { pixman_image_composite32( PIXMAN_OP_OVER, src, glyph->pix, buf->pix[0], 0, 0, 0, 0, x + x_ofs + glyph->x, y + term->font_y_ofs + font->ascent - glyph->y, glyph->width, glyph->height); } x += glyph->advance.x; } fcft_text_run_destroy(text_run); pixman_image_unref(src); pixman_image_set_clip_region32(buf->pix[0], NULL); xassert(buf->width % term->scale == 0); xassert(buf->height % term->scale == 0); quirk_weston_subsurface_desync_on(sub_surf); wl_surface_attach(surf, buf->wl_buf, 0, 0); wl_surface_damage_buffer(surf, 0, 0, buf->width, buf->height); wl_surface_set_buffer_scale(surf, term->scale); struct wl_region *region = wl_compositor_create_region(term->wl->compositor); if (region != NULL) { wl_region_add(region, 0, 0, buf->width, buf->height); wl_surface_set_opaque_region(surf, region); wl_region_destroy(region); } wl_surface_commit(surf); quirk_weston_subsurface_desync_off(sub_surf); } static void render_csd_title(struct terminal *term, const struct csd_data *info, struct buffer *buf) { xassert(term->window->csd_mode == CSD_YES); struct wl_surf_subsurf *surf = &term->window->csd.surface[CSD_SURF_TITLE]; if (info->width == 0 || info->height == 0) return; xassert(info->width % term->scale == 0); xassert(info->height % term->scale == 0); uint32_t bg = term->conf->csd.color.title_set ? term->conf->csd.color.title : 0xffu << 24 | term->conf->colors.fg; uint32_t fg = term->conf->csd.color.buttons_set ? term->conf->csd.color.buttons : term->conf->colors.bg; if (!term->visual_focus) { bg = color_dim(term, bg); fg = color_dim(term, fg); } char32_t *_title_text = ambstoc32(term->window_title); const char32_t *title_text = _title_text != NULL ? _title_text : U""; struct wl_window *win = term->window; const struct fcft_glyph *M = fcft_rasterize_char_utf32( win->csd.font, U'M', term->font_subpixel); const int margin = M != NULL ? M->advance.x : win->csd.font->max_advance.x; render_osd(term, surf->surf, surf->sub, win->csd.font, buf, title_text, fg, bg, margin, (buf->height - win->csd.font->height) / 2); csd_commit(term, surf->surf, buf); free(_title_text); } static void render_csd_border(struct terminal *term, enum csd_surface surf_idx, const struct csd_data *info, struct buffer *buf) { xassert(term->window->csd_mode == CSD_YES); xassert(surf_idx >= CSD_SURF_LEFT && surf_idx <= CSD_SURF_BOTTOM); struct wl_surface *surf = term->window->csd.surface[surf_idx].surf; if (info->width == 0 || info->height == 0) return; xassert(info->width % term->scale == 0); xassert(info->height % term->scale == 0); { pixman_color_t color = color_hex_to_pixman_with_alpha(0, 0); render_csd_part(term, surf, buf, info->width, info->height, &color); } /* * The “visible” border. */ int scale = term->scale; int bwidth = term->conf->csd.border_width * scale; int vwidth = term->conf->csd.border_width_visible * scale; /* Visible size */ xassert(bwidth >= vwidth); if (vwidth > 0) { const struct config *conf = term->conf; int x = 0, y = 0, w = 0, h = 0; switch (surf_idx) { case CSD_SURF_TOP: case CSD_SURF_BOTTOM: x = bwidth - vwidth; y = surf_idx == CSD_SURF_TOP ? info->height - vwidth : 0; w = info->width - 2 * x; h = vwidth; break; case CSD_SURF_LEFT: case CSD_SURF_RIGHT: x = surf_idx == CSD_SURF_LEFT ? bwidth - vwidth : 0; y = 0; w = vwidth; h = info->height; break; case CSD_SURF_TITLE: case CSD_SURF_MINIMIZE: case CSD_SURF_MAXIMIZE: case CSD_SURF_CLOSE: case CSD_SURF_COUNT: BUG("unexpected CSD surface type"); } xassert(x >= 0); xassert(y >= 0); xassert(w >= 0); xassert(h >= 0); xassert(x + w <= info->width); xassert(y + h <= info->height); uint32_t _color = conf->csd.color.border_set ? conf->csd.color.border : conf->csd.color.title_set ? conf->csd.color.title : 0xffu << 24 | term->conf->colors.fg; if (!term->visual_focus) _color = color_dim(term, _color); uint16_t alpha = _color >> 24 | (_color >> 24 << 8); pixman_color_t color = color_hex_to_pixman_with_alpha(_color, alpha); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &color, 1, &(pixman_rectangle16_t){x, y, w, h}); } csd_commit(term, surf, buf); } static pixman_color_t get_csd_button_fg_color(const struct config *conf) { uint32_t _color = conf->colors.bg; uint16_t alpha = 0xffff; if (conf->csd.color.buttons_set) { _color = conf->csd.color.buttons; alpha = _color >> 24 | (_color >> 24 << 8); } return color_hex_to_pixman_with_alpha(_color, alpha); } static void render_csd_button_minimize(struct terminal *term, struct buffer *buf) { pixman_color_t color = get_csd_button_fg_color(term->conf); pixman_image_t *src = pixman_image_create_solid_fill(&color); const int max_height = buf->height / 2; const int max_width = buf->width / 2; int width = max_width; int height = max_width / 2; if (height > max_height) { height = max_height; width = height * 2; } xassert(width <= max_width); xassert(height <= max_height); int x_margin = (buf->width - width) / 2.; int y_margin = (buf->height - height) / 2.; pixman_triangle_t tri = { .p1 = { .x = pixman_int_to_fixed(x_margin), .y = pixman_int_to_fixed(y_margin), }, .p2 = { .x = pixman_int_to_fixed(x_margin + width), .y = pixman_int_to_fixed(y_margin), }, .p3 = { .x = pixman_int_to_fixed(buf->width / 2), .y = pixman_int_to_fixed(y_margin + height), }, }; pixman_composite_triangles( PIXMAN_OP_OVER, src, buf->pix[0], PIXMAN_a1, 0, 0, 0, 0, 1, &tri); pixman_image_unref(src); } static void render_csd_button_maximize_maximized( struct terminal *term, struct buffer *buf) { pixman_color_t color = get_csd_button_fg_color(term->conf); pixman_image_t *src = pixman_image_create_solid_fill(&color); const int max_height = buf->height / 3; const int max_width = buf->width / 3; int width = min(max_height, max_width); int thick = min(width / 2, 1 * term->scale); const int x_margin = (buf->width - width) / 2; const int y_margin = (buf->height - width) / 2; xassert(x_margin + width - thick >= 0); xassert(width - 2 * thick >= 0); xassert(y_margin + width - thick >= 0); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &color, 4, (pixman_rectangle16_t[]){ {x_margin, y_margin, width, thick}, {x_margin, y_margin + thick, thick, width - 2 * thick}, {x_margin + width - thick, y_margin + thick, thick, width - 2 * thick}, {x_margin, y_margin + width - thick, width, thick}}); pixman_image_unref(src); } static void render_csd_button_maximize_window( struct terminal *term, struct buffer *buf) { pixman_color_t color = get_csd_button_fg_color(term->conf); pixman_image_t *src = pixman_image_create_solid_fill(&color); const int max_height = buf->height / 2; const int max_width = buf->width / 2; int width = max_width; int height = max_width / 2; if (height > max_height) { height = max_height; width = height * 2; } xassert(width <= max_width); xassert(height <= max_height); int x_margin = (buf->width - width) / 2.; int y_margin = (buf->height - height) / 2.; pixman_triangle_t tri = { .p1 = { .x = pixman_int_to_fixed(buf->width / 2), .y = pixman_int_to_fixed(y_margin), }, .p2 = { .x = pixman_int_to_fixed(x_margin), .y = pixman_int_to_fixed(y_margin + height), }, .p3 = { .x = pixman_int_to_fixed(x_margin + width), .y = pixman_int_to_fixed(y_margin + height), }, }; pixman_composite_triangles( PIXMAN_OP_OVER, src, buf->pix[0], PIXMAN_a1, 0, 0, 0, 0, 1, &tri); pixman_image_unref(src); } static void render_csd_button_maximize(struct terminal *term, struct buffer *buf) { if (term->window->is_maximized) render_csd_button_maximize_maximized(term, buf); else render_csd_button_maximize_window(term, buf); } static void render_csd_button_close(struct terminal *term, struct buffer *buf) { pixman_color_t color = get_csd_button_fg_color(term->conf); pixman_image_t *src = pixman_image_create_solid_fill(&color); const int max_height = buf->height / 3; const int max_width = buf->width / 3; int width = min(max_height, max_width); const int x_margin = (buf->width - width) / 2; const int y_margin = (buf->height - width) / 2; pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &color, 1, &(pixman_rectangle16_t){x_margin, y_margin, width, width}); pixman_image_unref(src); } static void render_csd_button(struct terminal *term, enum csd_surface surf_idx, const struct csd_data *info, struct buffer *buf) { xassert(term->window->csd_mode == CSD_YES); xassert(surf_idx >= CSD_SURF_MINIMIZE && surf_idx <= CSD_SURF_CLOSE); struct wl_surface *surf = term->window->csd.surface[surf_idx].surf; if (info->width == 0 || info->height == 0) return; xassert(info->width % term->scale == 0); xassert(info->height % term->scale == 0); uint32_t _color; uint16_t alpha = 0xffff; bool is_active = false; bool is_set = false; const uint32_t *conf_color = NULL; switch (surf_idx) { case CSD_SURF_MINIMIZE: _color = term->conf->colors.table[4]; /* blue */ is_set = term->conf->csd.color.minimize_set; conf_color = &term->conf->csd.color.minimize; is_active = term->active_surface == TERM_SURF_BUTTON_MINIMIZE; break; case CSD_SURF_MAXIMIZE: _color = term->conf->colors.table[2]; /* green */ is_set = term->conf->csd.color.maximize_set; conf_color = &term->conf->csd.color.maximize; is_active = term->active_surface == TERM_SURF_BUTTON_MAXIMIZE; break; case CSD_SURF_CLOSE: _color = term->conf->colors.table[1]; /* red */ is_set = term->conf->csd.color.close_set; conf_color = &term->conf->csd.color.quit; is_active = term->active_surface == TERM_SURF_BUTTON_CLOSE; break; default: BUG("unhandled surface type: %u", (unsigned)surf_idx); break; } if (is_active) { if (is_set) { _color = *conf_color; alpha = _color >> 24 | (_color >> 24 << 8); } } else { _color = 0; alpha = 0; } if (!term->visual_focus) _color = color_dim(term, _color); pixman_color_t color = color_hex_to_pixman_with_alpha(_color, alpha); render_csd_part(term, surf, buf, info->width, info->height, &color); switch (surf_idx) { case CSD_SURF_MINIMIZE: render_csd_button_minimize(term, buf); break; case CSD_SURF_MAXIMIZE: render_csd_button_maximize(term, buf); break; case CSD_SURF_CLOSE: render_csd_button_close(term, buf); break; break; default: BUG("unhandled surface type: %u", (unsigned)surf_idx); break; } csd_commit(term, surf, buf); } static void render_csd(struct terminal *term) { xassert(term->window->csd_mode == CSD_YES); if (term->window->is_fullscreen) return; struct csd_data infos[CSD_SURF_COUNT]; int widths[CSD_SURF_COUNT]; int heights[CSD_SURF_COUNT]; for (size_t i = 0; i < CSD_SURF_COUNT; i++) { infos[i] = get_csd_data(term, i); const int x = infos[i].x; const int y = infos[i].y; const int width = infos[i].width; const int height = infos[i].height; struct wl_surface *surf = term->window->csd.surface[i].surf; struct wl_subsurface *sub = term->window->csd.surface[i].sub; xassert(surf != NULL); xassert(sub != NULL); if (width == 0 || height == 0) { widths[i] = heights[i] = 0; wl_subsurface_set_position(sub, 0, 0); wl_surface_attach(surf, NULL, 0, 0); wl_surface_commit(surf); continue; } widths[i] = width; heights[i] = height; wl_subsurface_set_position(sub, x / term->scale, y / term->scale); } struct buffer *bufs[CSD_SURF_COUNT]; shm_get_many(term->render.chains.csd, CSD_SURF_COUNT, widths, heights, bufs); for (size_t i = CSD_SURF_LEFT; i <= CSD_SURF_BOTTOM; i++) render_csd_border(term, i, &infos[i], bufs[i]); for (size_t i = CSD_SURF_MINIMIZE; i <= CSD_SURF_CLOSE; i++) render_csd_button(term, i, &infos[i], bufs[i]); render_csd_title(term, &infos[CSD_SURF_TITLE], bufs[CSD_SURF_TITLE]); } static void render_scrollback_position(struct terminal *term) { if (term->conf->scrollback.indicator.position == SCROLLBACK_INDICATOR_POSITION_NONE) return; struct wl_window *win = term->window; if (term->grid->view == term->grid->offset) { if (win->scrollback_indicator.surf != NULL) wayl_win_subsurface_destroy(&win->scrollback_indicator); return; } if (win->scrollback_indicator.surf == NULL) { if (!wayl_win_subsurface_new( win, &win->scrollback_indicator, false)) { LOG_ERR("failed to create scrollback indicator surface"); return; } } xassert(win->scrollback_indicator.surf != NULL); xassert(win->scrollback_indicator.sub != NULL); /* Find absolute row number of the scrollback start */ int scrollback_start = term->grid->offset + term->rows; int empty_rows = 0; while (term->grid->rows[scrollback_start & (term->grid->num_rows - 1)] == NULL) { scrollback_start++; empty_rows++; } /* Rebase viewport against scrollback start (so that 0 is at * the beginning of the scrollback) */ int rebased_view = term->grid->view - scrollback_start + term->grid->num_rows; rebased_view &= term->grid->num_rows - 1; /* How much of the scrollback is actually used? */ int populated_rows = term->grid->num_rows - empty_rows; xassert(populated_rows > 0); xassert(populated_rows <= term->grid->num_rows); /* * How far down in the scrollback we are. * * 0% -> at the beginning of the scrollback * 100% -> at the bottom, i.e. where new lines are inserted */ double percent = rebased_view + term->rows == populated_rows ? 1.0 : (double)rebased_view / (populated_rows - term->rows); char32_t _text[64]; const char32_t *text = _text; int cell_count = 0; /* *What* to render */ switch (term->conf->scrollback.indicator.format) { case SCROLLBACK_INDICATOR_FORMAT_PERCENTAGE: { char percent_str[8]; snprintf(percent_str, sizeof(percent_str), "%u%%", (int)(100 * percent)); mbstoc32(_text, percent_str, ALEN(_text)); cell_count = 3; break; } case SCROLLBACK_INDICATOR_FORMAT_LINENO: { char lineno_str[64]; snprintf(lineno_str, sizeof(lineno_str), "%d", rebased_view + 1); mbstoc32(_text, lineno_str, ALEN(_text)); cell_count = ceil(log10(term->grid->num_rows)); break; } case SCROLLBACK_INDICATOR_FORMAT_TEXT: text = term->conf->scrollback.indicator.text; cell_count = c32len(text); break; } const int scale = term->scale; const int margin = 3 * scale; const int width = (2 * margin + cell_count * term->cell_width + scale - 1) / scale * scale; const int height = (2 * margin + term->cell_height + scale - 1) / scale * scale; /* *Where* to render - parent relative coordinates */ int surf_top = 0; switch (term->conf->scrollback.indicator.position) { case SCROLLBACK_INDICATOR_POSITION_NONE: BUG("Invalid scrollback indicator position type"); return; case SCROLLBACK_INDICATOR_POSITION_FIXED: surf_top = term->cell_height - margin; break; case SCROLLBACK_INDICATOR_POSITION_RELATIVE: { int lines = term->rows - 2; /* Avoid using first and last rows */ if (term->is_searching) { /* Make sure we don't collide with the scrollback search box */ lines--; } lines = max(lines, 0); int pixels = max(lines * term->cell_height - height + 2 * margin, 0); surf_top = term->cell_height - margin + (int)(percent * pixels); break; } } const int x = (term->width - margin - width) / scale * scale; const int y = (term->margins.top + surf_top) / scale * scale; if (y + height > term->height) { wl_surface_attach(win->scrollback_indicator.surf, NULL, 0, 0); wl_surface_commit(win->scrollback_indicator.surf); return; } struct buffer_chain *chain = term->render.chains.scrollback_indicator; struct buffer *buf = shm_get_buffer(chain, width, height); wl_subsurface_set_position( win->scrollback_indicator.sub, x / scale, y / scale); uint32_t fg = term->colors.table[0]; uint32_t bg = term->colors.table[8 + 4]; if (term->conf->colors.use_custom.scrollback_indicator) { fg = term->conf->colors.scrollback_indicator.fg; bg = term->conf->colors.scrollback_indicator.bg; } render_osd( term, win->scrollback_indicator.surf, win->scrollback_indicator.sub, term->fonts[0], buf, text, fg, 0xffu << 24 | bg, width - margin - c32len(text) * term->cell_width, margin); } static void render_render_timer(struct terminal *term, struct timespec render_time) { struct wl_window *win = term->window; char usecs_str[256]; double usecs = render_time.tv_sec * 1000000 + render_time.tv_nsec / 1000.0; snprintf(usecs_str, sizeof(usecs_str), "%.2f µs", usecs); char32_t text[256]; mbstoc32(text, usecs_str, ALEN(text)); const int scale = term->scale; const int cell_count = c32len(text); const int margin = 3 * scale; const int width = (2 * margin + cell_count * term->cell_width + scale - 1) / scale * scale; const int height = (2 * margin + term->cell_height + scale - 1) / scale * scale; struct buffer_chain *chain = term->render.chains.render_timer; struct buffer *buf = shm_get_buffer(chain, width, height); wl_subsurface_set_position( win->render_timer.sub, margin / term->scale, (term->margins.top + term->cell_height - margin) / term->scale); render_osd( term, win->render_timer.surf, win->render_timer.sub, term->fonts[0], buf, text, term->colors.table[0], 0xffu << 24 | term->colors.table[8 + 1], margin, margin); } static void frame_callback( void *data, struct wl_callback *wl_callback, uint32_t callback_data); static const struct wl_callback_listener frame_listener = { .done = &frame_callback, }; static void force_full_repaint(struct terminal *term, struct buffer *buf) { tll_free(term->grid->scroll_damage); render_margin(term, buf, 0, term->rows, true); term_damage_view(term); } static void reapply_old_damage(struct terminal *term, struct buffer *new, struct buffer *old) { static int counter = 0; static bool have_warned = false; if (!have_warned && ++counter > 5) { LOG_WARN("compositor is not releasing buffers immediately; " "expect lower rendering performance"); have_warned = true; } if (new->age > 1) { memcpy(new->data, old->data, new->height * new->stride); return; } pixman_region32_t dirty; pixman_region32_init(&dirty); /* * Figure out current frame’s damage region * * If current frame doesn’t have any scroll damage, we can simply * subtract this frame’s damage from the last frame’s damage. That * way, we don’t have to copy areas from the old frame that’ll * just get overwritten by current frame. * * Note that this is row based. A “half damaged” row is not * excluded. I.e. the entire row will be copied from the old frame * to the new, and then when actually rendering the new frame, the * updated cells will overwrite parts of the copied row. * * Since we’re scanning the entire viewport anyway, we also track * whether *all* cells are to be updated. In this case, just force * a full re-rendering, and don’t copy anything from the old * frame. */ bool full_repaint_needed = true; for (int r = 0; r < term->rows; r++) { const struct row *row = grid_row_in_view(term->grid, r); bool row_all_dirty = true; for (int c = 0; c < term->cols; c++) { if (row->cells[c].attrs.clean) { row_all_dirty = false; full_repaint_needed = false; break; } } if (row_all_dirty) { pixman_region32_union_rect( &dirty, &dirty, term->margins.left, term->margins.top + r * term->cell_height, term->width - term->margins.left - term->margins.right, term->cell_height); } } if (full_repaint_needed) { force_full_repaint(term, new); return; } /* * TODO: re-apply last frame’s scroll damage * * We used to do this, but it turned out to be buggy. If we decide * to re-add it, this is where to do it. Note that we’d also have * to remove the updates to buf->dirty from grid_render_scroll() * and grid_render_scroll_reverse(). */ if (tll_length(term->grid->scroll_damage) == 0) { /* * We can only subtract current frame’s damage from the old * frame’s if we don’t have any scroll damage. * * If we do have scroll damage, the damage region we * calculated above is not (yet) valid - we need to apply the * current frame’s scroll damage *first*. This is done later, * when rendering the frame. */ pixman_region32_subtract(&dirty, &old->dirty, &dirty); pixman_image_set_clip_region32(new->pix[0], &dirty); } else { /* Copy *all* of last frame’s damaged areas */ pixman_image_set_clip_region32(new->pix[0], &old->dirty); } pixman_image_composite32( PIXMAN_OP_SRC, old->pix[0], NULL, new->pix[0], 0, 0, 0, 0, 0, 0, term->width, term->height); pixman_image_set_clip_region32(new->pix[0], NULL); pixman_region32_fini(&dirty); } static void dirty_old_cursor(struct terminal *term) { if (term->render.last_cursor.row != NULL && !term->render.last_cursor.hidden) { struct row *row = term->render.last_cursor.row; struct cell *cell = &row->cells[term->render.last_cursor.col]; cell->attrs.clean = 0; row->dirty = true; } /* Remember current cursor position, for the next frame */ term->render.last_cursor.row = grid_row(term->grid, term->grid->cursor.point.row); term->render.last_cursor.col = term->grid->cursor.point.col; term->render.last_cursor.hidden = term->hide_cursor; } static void dirty_cursor(struct terminal *term) { if (term->hide_cursor) return; const struct coord *cursor = &term->grid->cursor.point; struct row *row = grid_row(term->grid, cursor->row); struct cell *cell = &row->cells[cursor->col]; cell->attrs.clean = 0; row->dirty = true; } static void grid_render(struct terminal *term) { if (term->shutdown.in_progress) return; struct timespec start_time, start_double_buffering = {0}, stop_double_buffering = {0}; if (term->conf->tweak.render_timer != RENDER_TIMER_NONE) clock_gettime(CLOCK_MONOTONIC, &start_time); xassert(term->width > 0); xassert(term->height > 0); struct buffer_chain *chain = term->render.chains.grid; struct buffer *buf = shm_get_buffer(chain, term->width, term->height); /* Dirty old and current cursor cell, to ensure they’re repainted */ dirty_old_cursor(term); dirty_cursor(term); if (term->render.last_buf == NULL || term->render.last_buf->width != buf->width || term->render.last_buf->height != buf->height || term->render.margins) { force_full_repaint(term, buf); } else if (buf->age > 0) { LOG_DBG("buffer age: %u (%p)", buf->age, (void *)buf); xassert(term->render.last_buf != NULL); xassert(term->render.last_buf != buf); xassert(term->render.last_buf->width == buf->width); xassert(term->render.last_buf->height == buf->height); clock_gettime(CLOCK_MONOTONIC, &start_double_buffering); reapply_old_damage(term, buf, term->render.last_buf); clock_gettime(CLOCK_MONOTONIC, &stop_double_buffering); } if (term->render.last_buf != NULL) { shm_unref(term->render.last_buf); term->render.last_buf = NULL; } term->render.last_buf = buf; shm_addref(buf); buf->age = 0; tll_foreach(term->grid->scroll_damage, it) { switch (it->item.type) { case DAMAGE_SCROLL: if (term->grid->view == term->grid->offset) grid_render_scroll(term, buf, &it->item); break; case DAMAGE_SCROLL_REVERSE: if (term->grid->view == term->grid->offset) grid_render_scroll_reverse(term, buf, &it->item); break; case DAMAGE_SCROLL_IN_VIEW: grid_render_scroll(term, buf, &it->item); break; case DAMAGE_SCROLL_REVERSE_IN_VIEW: grid_render_scroll_reverse(term, buf, &it->item); break; } tll_remove(term->grid->scroll_damage, it); } /* * Ensure selected cells have their 'selected' bit set. This is * normally "automatically" true - the bit is set when the * selection is made. * * However, if the cell is updated (printed to) while the * selection is active, the 'selected' bit is cleared. Checking * for this and re-setting the bit in term_print() is too * expensive performance wise. * * Instead, we synchronize the selection bits here and now. This * makes the performance impact linear to the number of selected * cells rather than to the number of updated cells. * * (note that selection_dirty_cells() will not set the dirty flag * on cells where the 'selected' bit is already set) */ selection_dirty_cells(term); /* Translate offset-relative row to view-relative, unless cursor * is hidden, then we just set it to -1 */ struct coord cursor = {-1, -1}; if (!term->hide_cursor) { cursor = term->grid->cursor.point; cursor.row += term->grid->offset; cursor.row -= term->grid->view; cursor.row &= term->grid->num_rows - 1; } if (term->conf->tweak.overflowing_glyphs) { /* * Pre-pass to dirty cells affected by overflowing glyphs. * * Given any two pair of cells where the first cell is * overflowing into the second, *both* cells must be * re-rendered if any one of them is dirty. * * Thus, given a string of overflowing glyphs, with a single * dirty cell in the middle, we need to re-render the entire * string. */ for (int r = 0; r < term->rows; r++) { struct row *row = grid_row_in_view(term->grid, r); if (!row->dirty) continue; /* Loop row from left to right, looking for dirty cells */ for (struct cell *cell = &row->cells[0]; cell < &row->cells[term->cols]; cell++) { if (cell->attrs.clean) continue; /* * Cell is dirty, go back and dirty previous cells, if * they are overflowing. * * As soon as we see a non-overflowing cell we can * stop, since it isn’t affecting the string of * overflowing glyphs that follows it. * * As soon as we see a dirty cell, we can stop, since * that means we’ve already handled it (remember the * outer loop goes from left to right). */ for (struct cell *c = cell - 1; c >= &row->cells[0]; c--) { if (c->attrs.confined) break; if (!c->attrs.clean) break; c->attrs.clean = false; } /* * Now move forward, dirtying all cells until we hit a * non-overflowing cell. * * Note that the first non-overflowing cell must be * re-rendered as well, but any cell *after* that is * unaffected by the string of overflowing glyphs * we’re dealing with right now. * * For performance, this iterates the *outer* loop’s * cell pointer - no point in re-checking all these * glyphs again, in the outer loop. */ for (; cell < &row->cells[term->cols]; cell++) { cell->attrs.clean = false; if (cell->attrs.confined) break; } } } } render_sixel_images(term, buf->pix[0], &cursor); if (term->render.workers.count > 0) { mtx_lock(&term->render.workers.lock); term->render.workers.buf = buf; for (size_t i = 0; i < term->render.workers.count; i++) sem_post(&term->render.workers.start); xassert(tll_length(term->render.workers.queue) == 0); } int first_dirty_row = -1; for (int r = 0; r < term->rows; r++) { struct row *row = grid_row_in_view(term->grid, r); if (!row->dirty) { if (first_dirty_row >= 0) { int x = term->margins.left; int y = term->margins.top + first_dirty_row * term->cell_height; int width = term->width - term->margins.left - term->margins.right; int height = (r - first_dirty_row) * term->cell_height; wl_surface_damage_buffer( term->window->surface, x, y, width, height); pixman_region32_union_rect( &buf->dirty, &buf->dirty, 0, y, buf->width, height); } first_dirty_row = -1; continue; } if (first_dirty_row < 0) first_dirty_row = r; row->dirty = false; if (term->render.workers.count > 0) tll_push_back(term->render.workers.queue, r); else { int cursor_col = cursor.row == r ? cursor.col : -1; render_row(term, buf->pix[0], row, r, cursor_col); } } if (first_dirty_row >= 0) { int x = term->margins.left; int y = term->margins.top + first_dirty_row * term->cell_height; int width = term->width - term->margins.left - term->margins.right; int height = (term->rows - first_dirty_row) * term->cell_height; wl_surface_damage_buffer(term->window->surface, x, y, width, height); pixman_region32_union_rect(&buf->dirty, &buf->dirty, 0, y, buf->width, height); } /* Signal workers the frame is done */ if (term->render.workers.count > 0) { for (size_t i = 0; i < term->render.workers.count; i++) tll_push_back(term->render.workers.queue, -1); mtx_unlock(&term->render.workers.lock); for (size_t i = 0; i < term->render.workers.count; i++) sem_wait(&term->render.workers.done); term->render.workers.buf = NULL; } render_overlay(term); render_ime_preedit(term, buf); render_scrollback_position(term); if (term->conf->tweak.render_timer != RENDER_TIMER_NONE) { struct timespec end_time; clock_gettime(CLOCK_MONOTONIC, &end_time); struct timespec render_time; timespec_sub(&end_time, &start_time, &render_time); struct timespec double_buffering_time; timespec_sub(&stop_double_buffering, &start_double_buffering, &double_buffering_time); struct timespec total_render_time; timespec_add(&render_time, &double_buffering_time, &total_render_time); switch (term->conf->tweak.render_timer) { case RENDER_TIMER_LOG: case RENDER_TIMER_BOTH: LOG_INFO( "frame rendered in %lds %9ldns " "(%lds %9ldns rendering, %lds %9ldns double buffering)", (long)total_render_time.tv_sec, total_render_time.tv_nsec, (long)render_time.tv_sec, render_time.tv_nsec, (long)double_buffering_time.tv_sec, double_buffering_time.tv_nsec); break; case RENDER_TIMER_OSD: case RENDER_TIMER_NONE: break; } switch (term->conf->tweak.render_timer) { case RENDER_TIMER_OSD: case RENDER_TIMER_BOTH: render_render_timer(term, total_render_time); break; case RENDER_TIMER_LOG: case RENDER_TIMER_NONE: break; } } xassert(term->grid->offset >= 0 && term->grid->offset < term->grid->num_rows); xassert(term->grid->view >= 0 && term->grid->view < term->grid->num_rows); xassert(term->window->frame_callback == NULL); term->window->frame_callback = wl_surface_frame(term->window->surface); wl_callback_add_listener(term->window->frame_callback, &frame_listener, term); wl_surface_set_buffer_scale(term->window->surface, term->scale); if (term->wl->presentation != NULL && term->conf->presentation_timings) { struct timespec commit_time; clock_gettime(term->wl->presentation_clock_id, &commit_time); struct wp_presentation_feedback *feedback = wp_presentation_feedback( term->wl->presentation, term->window->surface); if (feedback == NULL) { LOG_WARN("failed to create presentation feedback"); } else { struct presentation_context *ctx = xmalloc(sizeof(*ctx)); *ctx = (struct presentation_context){ .term = term, .input.tv_sec = term->render.input_time.tv_sec, .input.tv_usec = term->render.input_time.tv_nsec / 1000, .commit.tv_sec = commit_time.tv_sec, .commit.tv_usec = commit_time.tv_nsec / 1000, }; wp_presentation_feedback_add_listener( feedback, &presentation_feedback_listener, ctx); term->render.input_time.tv_sec = 0; term->render.input_time.tv_nsec = 0; } } if (term->conf->tweak.damage_whole_window) { wl_surface_damage_buffer( term->window->surface, 0, 0, INT32_MAX, INT32_MAX); } xassert(buf->width % term->scale == 0); xassert(buf->height % term->scale == 0); wl_surface_attach(term->window->surface, buf->wl_buf, 0, 0); wl_surface_commit(term->window->surface); } static void render_search_box(struct terminal *term) { xassert(term->window->search.sub != NULL); /* * We treat the search box pretty much like a row of cells. That * is, a glyph is either 1 or 2 (or more) “cells” wide. * * The search ‘length’, and ‘cursor’ (position) is in * *characters*, not cells. This means we need to translate from * character count to cell count when calculating the length of * the search box, where in the search string we should start * rendering etc. */ #if defined(FOOT_IME_ENABLED) && FOOT_IME_ENABLED /* TODO: do we want to/need to handle multi-seat? */ struct seat *ime_seat = NULL; tll_foreach(term->wl->seats, it) { if (it->item.kbd_focus == term) { ime_seat = &it->item; break; } } size_t text_len = term->search.len; if (ime_seat != NULL && ime_seat->ime.preedit.text != NULL) text_len += c32len(ime_seat->ime.preedit.text); char32_t *text = xmalloc((text_len + 1) * sizeof(char32_t)); text[0] = U'\0'; /* Copy everything up to the cursor */ c32ncpy(text, term->search.buf, term->search.cursor); text[term->search.cursor] = U'\0'; /* Insert pre-edit text at cursor */ if (ime_seat != NULL && ime_seat->ime.preedit.text != NULL) c32cat(text, ime_seat->ime.preedit.text); /* And finally everything after the cursor */ c32ncat(text, &term->search.buf[term->search.cursor], term->search.len - term->search.cursor); #else const char32_t *text = term->search.buf; const size_t text_len = term->search.len; #endif /* Calculate the width of each character */ int widths[text_len + 1]; for (size_t i = 0; i < text_len; i++) widths[i] = max(0, c32width(text[i])); widths[text_len] = 0; const size_t total_cells = c32swidth(text, text_len); const size_t wanted_visible_cells = max(20, total_cells); xassert(term->scale >= 1); const int scale = term->scale; const size_t margin = 3 * scale; const size_t width = term->width - 2 * margin; const size_t visible_width = min( term->width - 2 * margin, (2 * margin + wanted_visible_cells * term->cell_width + scale - 1) / scale * scale); const size_t height = min( term->height - 2 * margin, (2 * margin + 1 * term->cell_height + scale - 1) / scale * scale); const size_t visible_cells = (visible_width - 2 * margin) / term->cell_width; size_t glyph_offset = term->render.search_glyph_offset; struct buffer_chain *chain = term->render.chains.search; struct buffer *buf = shm_get_buffer(chain, width, height); pixman_region32_t clip; pixman_region32_init_rect(&clip, 0, 0, width, height); pixman_image_set_clip_region32(buf->pix[0], &clip); pixman_region32_fini(&clip); #define WINDOW_X(x) (margin + x) #define WINDOW_Y(y) (term->height - margin - height + y) const bool is_match = term->search.match_len == text_len; const bool custom_colors = is_match ? term->conf->colors.use_custom.search_box_match : term->conf->colors.use_custom.search_box_no_match; /* Background - yellow on empty/match, red on mismatch (default) */ const pixman_color_t color = color_hex_to_pixman( is_match ? (custom_colors ? term->conf->colors.search_box.match.bg : term->colors.table[3]) : (custom_colors ? term->conf->colors.search_box.no_match.bg : term->colors.table[1])); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &color, 1, &(pixman_rectangle16_t){width - visible_width, 0, visible_width, height}); pixman_color_t transparent = color_hex_to_pixman_with_alpha(0, 0); pixman_image_fill_rectangles( PIXMAN_OP_SRC, buf->pix[0], &transparent, 1, &(pixman_rectangle16_t){0, 0, width - visible_width, height}); struct fcft_font *font = term->fonts[0]; const int x_left = width - visible_width + margin; const int x_ofs = term->font_x_ofs; int x = x_left; int y = margin; pixman_color_t fg = color_hex_to_pixman( custom_colors ? (is_match ? term->conf->colors.search_box.match.fg : term->conf->colors.search_box.no_match.fg) : term->colors.table[0]); /* Move offset we start rendering at, to ensure the cursor is visible */ for (size_t i = 0, cell_idx = 0; i <= term->search.cursor; cell_idx += widths[i], i++) { if (i != term->search.cursor) continue; #if (FOOT_IME_ENABLED) && FOOT_IME_ENABLED if (ime_seat != NULL && ime_seat->ime.preedit.cells != NULL) { if (ime_seat->ime.preedit.cursor.start == ime_seat->ime.preedit.cursor.end) { /* All IME's I've seen so far keeps the cursor at * index 0, so ensure the *end* of the pre-edit string * is visible */ cell_idx += ime_seat->ime.preedit.count; } else { /* Try to predict in which direction we'll shift the text */ if (cell_idx + ime_seat->ime.preedit.cursor.start > glyph_offset) cell_idx += ime_seat->ime.preedit.cursor.end; else cell_idx += ime_seat->ime.preedit.cursor.start; } } #endif if (cell_idx < glyph_offset) { /* Shift to the *left*, making *this* character the * *first* visible one */ term->render.search_glyph_offset = glyph_offset = cell_idx; } else if (cell_idx > glyph_offset + visible_cells) { /* Shift to the *right*, making *this* character the * *last* visible one */ term->render.search_glyph_offset = glyph_offset = cell_idx - min(cell_idx, visible_cells); } /* Adjust offset if there is free space available */ if (total_cells - glyph_offset < visible_cells) { term->render.search_glyph_offset = glyph_offset = total_cells - min(total_cells, visible_cells); } break; } /* Ensure offset is at a character boundary */ for (size_t i = 0, cell_idx = 0; i <= text_len; cell_idx += widths[i], i++) { if (cell_idx >= glyph_offset) { term->render.search_glyph_offset = glyph_offset = cell_idx; break; } } /* * Render the search string, starting at ‘glyph_offset’. Note that * glyph_offset is in cells, not characters */ for (size_t i = 0, cell_idx = 0, width = widths[i], next_cell_idx = width; i < text_len; i++, cell_idx = next_cell_idx, width = widths[i], next_cell_idx += width) { /* Convert subsurface coordinates to window coordinates*/ /* Render cursor */ if (i == term->search.cursor) { #if defined(FOOT_IME_ENABLED) && FOOT_IME_ENABLED bool have_preedit = ime_seat != NULL && ime_seat->ime.preedit.cells != NULL; bool hidden = ime_seat != NULL && ime_seat->ime.preedit.cursor.hidden; if (have_preedit && !hidden) { /* Cursor may be outside the visible area: * cell_idx-glyph_offset can be negative */ int cells_left = visible_cells - max( (ssize_t)(cell_idx - glyph_offset), 0); /* If cursor is outside the visible area, we need to * adjust our rectangle's position */ int start = ime_seat->ime.preedit.cursor.start + min((ssize_t)(cell_idx - glyph_offset), 0); int end = ime_seat->ime.preedit.cursor.end + min((ssize_t)(cell_idx - glyph_offset), 0); if (start == end) { int count = min(ime_seat->ime.preedit.count, cells_left); /* Underline the entire (visible part of) pre-edit text */ draw_underline(term, buf->pix[0], font, &fg, x, y, count); /* Bar-styled cursor, if in the visible area */ if (start >= 0 && start <= visible_cells) { draw_beam_cursor( term, buf->pix[0], font, &fg, x + start * term->cell_width, y); } term_ime_set_cursor_rect(term, WINDOW_X(x + start * term->cell_width), WINDOW_Y(y), 1, term->cell_height); } else { /* Underline everything before and after the cursor */ int count1 = min(start, cells_left); int count2 = max( min(ime_seat->ime.preedit.count - ime_seat->ime.preedit.cursor.end, cells_left - end), 0); draw_underline(term, buf->pix[0], font, &fg, x, y, count1); draw_underline(term, buf->pix[0], font, &fg, x + end * term->cell_width, y, count2); /* TODO: how do we handle a partially hidden rectangle? */ if (start >= 0 && end <= visible_cells) { draw_unfocused_block( term, buf->pix[0], &fg, x + start * term->cell_width, y, end - start); } term_ime_set_cursor_rect(term, WINDOW_X(x + start * term->cell_width), WINDOW_Y(y), term->cell_width * (end - start), term->cell_height); } } else if (!have_preedit) #endif { /* Cursor *should* be in the visible area */ xassert(cell_idx >= glyph_offset); xassert(cell_idx <= glyph_offset + visible_cells); draw_beam_cursor(term, buf->pix[0], font, &fg, x, y); term_ime_set_cursor_rect( term, WINDOW_X(x), WINDOW_Y(y), 1, term->cell_height); } } if (next_cell_idx >= glyph_offset && next_cell_idx - glyph_offset > visible_cells) { /* We're now beyond the visible area - nothing more to render */ break; } if (cell_idx < glyph_offset) { /* We haven't yet reached the visible part of the string */ cell_idx = next_cell_idx; continue; } const struct fcft_glyph *glyph = fcft_rasterize_char_utf32( font, text[i], term->font_subpixel); if (glyph == NULL) { cell_idx = next_cell_idx; continue; } if (unlikely(pixman_image_get_format(glyph->pix) == PIXMAN_a8r8g8b8)) { /* Glyph surface is a pre-rendered image (typically a color emoji...) */ pixman_image_composite32( PIXMAN_OP_OVER, glyph->pix, NULL, buf->pix[0], 0, 0, 0, 0, x + x_ofs + glyph->x, y + font_baseline(term) - glyph->y, glyph->width, glyph->height); } else { int combining_ofs = width == 0 ? (glyph->x < 0 ? width * term->cell_width : (width - 1) * term->cell_width) : 0; /* Not a zero-width character - no additional offset */ pixman_image_t *src = pixman_image_create_solid_fill(&fg); pixman_image_composite32( PIXMAN_OP_OVER, src, glyph->pix, buf->pix[0], 0, 0, 0, 0, x + x_ofs + combining_ofs + glyph->x, y + font_baseline(term) - glyph->y, glyph->width, glyph->height); pixman_image_unref(src); } x += width * term->cell_width; cell_idx = next_cell_idx; } #if defined(FOOT_IME_ENABLED) && FOOT_IME_ENABLED if (ime_seat != NULL && ime_seat->ime.preedit.cells != NULL) /* Already rendered */; else #endif if (term->search.cursor >= term->search.len) { draw_beam_cursor(term, buf->pix[0], font, &fg, x, y); term_ime_set_cursor_rect( term, WINDOW_X(x), WINDOW_Y(y), 1, term->cell_height); } quirk_weston_subsurface_desync_on(term->window->search.sub); /* TODO: this is only necessary on a window resize */ wl_subsurface_set_position( term->window->search.sub, margin / scale, max(0, (int32_t)term->height - height - margin) / scale); xassert(buf->width % scale == 0); xassert(buf->height % scale == 0); wl_surface_attach(term->window->search.surf, buf->wl_buf, 0, 0); wl_surface_damage_buffer(term->window->search.surf, 0, 0, width, height); wl_surface_set_buffer_scale(term->window->search.surf, scale); struct wl_region *region = wl_compositor_create_region(term->wl->compositor); if (region != NULL) { wl_region_add(region, width - visible_width, 0, visible_width, height); wl_surface_set_opaque_region(term->window->search.surf, region); wl_region_destroy(region); } wl_surface_commit(term->window->search.surf); quirk_weston_subsurface_desync_off(term->window->search.sub); #if defined(FOOT_IME_ENABLED) && FOOT_IME_ENABLED free(text); #endif #undef WINDOW_X #undef WINDOW_Y } static void render_urls(struct terminal *term) { struct wl_window *win = term->window; xassert(tll_length(win->urls) > 0); const int scale = term->scale; const int x_margin = 2 * scale; const int y_margin = 1 * scale; /* Calculate view start, counted from the *current* scrollback start */ const int scrollback_end = (term->grid->offset + term->rows) & (term->grid->num_rows - 1); const int view_start = (term->grid->view - scrollback_end + term->grid->num_rows) & (term->grid->num_rows - 1); const int view_end = view_start + term->rows - 1; const bool show_url = term->urls_show_uri_on_jump_label; /* * There can potentially be a lot of URLs. * * Since each URL is a separate sub-surface, and requires its own * SHM buffer, we may be allocating a lot of buffers. * * SHM buffers normally have their own, private SHM buffer * pool. Each pool is mmapped, and thus allocates *at least* * 4K. Since URL labels are typically small, we end up using an * excessive amount of both virtual and physical memory. * * For this reason, we instead use shm_get_many(), which uses a * single, shared pool for all buffers. * * To be able to use it, we need to have all the *all* the buffer * dimensions up front. * * Thus, the first iteration through the URLs do the heavy * lifting: builds the label contents and calculates both its * position and size. But instead of rendering the label * immediately, we store the calculated data, and then do a second * pass, where we first get all our buffers, and then render to * them. */ /* Positioning data + label contents */ struct { const struct wl_url *url; char32_t *text; int x; int y; } info[tll_length(win->urls)]; /* For shm_get_many() */ int widths[tll_length(win->urls)]; int heights[tll_length(win->urls)]; size_t render_count = 0; tll_foreach(win->urls, it) { const struct url *url = it->item.url; const char32_t *key = url->key; const size_t entered_key_len = c32len(term->url_keys); if (key == NULL) { /* TODO: if we decide to use the .text field, we cannot * just skip the entire jump label like this */ continue; } struct wl_surface *surf = it->item.surf.surf; struct wl_subsurface *sub_surf = it->item.surf.sub; if (surf == NULL || sub_surf == NULL) continue; bool hide = false; const struct coord *pos = &url->range.start; const int _row = (pos->row - scrollback_end + term->grid->num_rows) & (term->grid->num_rows - 1); if (_row < view_start || _row > view_end) hide = true; if (c32len(key) <= entered_key_len) hide = true; if (c32ncasecmp(term->url_keys, key, entered_key_len) != 0) hide = true; if (hide) { wl_surface_attach(surf, NULL, 0, 0); wl_surface_commit(surf); continue; } int col = pos->col; int row = pos->row - term->grid->view; while (row < 0) row += term->grid->num_rows; row &= (term->grid->num_rows - 1); /* Position label slightly above and to the left */ int x = col * term->cell_width - 15 * term->cell_width / 10; int y = row * term->cell_height - 5 * term->cell_height / 10; /* Don’t position it outside our window */ if (x < -term->margins.left) x = -term->margins.left; if (y < -term->margins.top) y = -term->margins.top; /* Maximum width of label, in pixels */ const int max_width = term->width - term->margins.left - term->margins.right - x; const int max_cols = max_width / term->cell_width; const size_t key_len = c32len(key); size_t url_len = mbstoc32(NULL, url->url, 0); if (url_len == (size_t)-1) url_len = 0; char32_t url_wchars[url_len + 1]; mbstoc32(url_wchars, url->url, url_len + 1); /* Format label, not yet subject to any size limitations */ size_t chars = key_len + (show_url ? (2 + url_len) : 0); char32_t label[chars + 1]; label[chars] = U'\0'; if (show_url) { c32cpy(label, key); c32cat(label, U": "); c32cat(label, url_wchars); } else c32ncpy(label, key, chars); /* Upper case the key characters */ for (size_t i = 0; i < c32len(key); i++) label[i] = toc32upper(label[i]); /* Blank already entered key characters */ for (size_t i = 0; i < entered_key_len; i++) label[i] = U' '; /* * Don’t extend outside our window * * Truncate label so that it doesn’t extend outside our * window. * * Do it in a way such that we don’t cut the label in the * middle of a double-width character. */ int cols = 0; for (size_t i = 0; i <= c32len(label); i++) { int _cols = c32swidth(label, i); if (_cols == (size_t)-1) continue; if (_cols >= max_cols) { if (i > 0) label[i - 1] = U'…'; label[i] = U'\0'; cols = max_cols; break; } cols = _cols; } if (cols == 0) continue; const int width = (2 * x_margin + cols * term->cell_width + scale - 1) / scale * scale; const int height = (2 * y_margin + term->cell_height + scale - 1) / scale * scale; info[render_count].url = &it->item; info[render_count].text = xc32dup(label); info[render_count].x = x; info[render_count].y = y; widths[render_count] = width; heights[render_count] = height; render_count++; } struct buffer_chain *chain = term->render.chains.url; struct buffer *bufs[render_count]; shm_get_many(chain, render_count, widths, heights, bufs); uint32_t fg = term->conf->colors.use_custom.jump_label ? term->conf->colors.jump_label.fg : term->colors.table[0]; uint32_t bg = term->conf->colors.use_custom.jump_label ? term->conf->colors.jump_label.bg : term->colors.table[3]; for (size_t i = 0; i < render_count; i++) { struct wl_surface *surf = info[i].url->surf.surf; struct wl_subsurface *sub_surf = info[i].url->surf.sub; const char32_t *label = info[i].text; const int x = info[i].x; const int y = info[i].y; xassert(surf != NULL); xassert(sub_surf != NULL); wl_subsurface_set_position( sub_surf, (term->margins.left + x) / term->scale, (term->margins.top + y) / term->scale); render_osd( term, surf, sub_surf, term->fonts[0], bufs[i], label, fg, 0xffu << 24 | bg, x_margin, y_margin); free(info[i].text); } } static void render_update_title(struct terminal *term) { static const size_t max_len = 2048; const char *title = term->window_title != NULL ? term->window_title : "foot"; char *copy = NULL; if (strlen(title) > max_len) { copy = xstrndup(title, max_len); title = copy; } xdg_toplevel_set_title(term->window->xdg_toplevel, title); free(copy); } static void frame_callback(void *data, struct wl_callback *wl_callback, uint32_t callback_data) { struct terminal *term = data; xassert(term->window->frame_callback == wl_callback); wl_callback_destroy(wl_callback); term->window->frame_callback = NULL; bool grid = term->render.pending.grid; bool csd = term->render.pending.csd; bool search = term->is_searching && term->render.pending.search; bool urls = urls_mode_is_active(term) > 0 && term->render.pending.urls; term->render.pending.grid = false; term->render.pending.csd = false; term->render.pending.search = false; term->render.pending.urls = false; struct grid *original_grid = term->grid; if (urls_mode_is_active(term)) { xassert(term->url_grid_snapshot != NULL); term->grid = term->url_grid_snapshot; } if (csd && term->window->csd_mode == CSD_YES) { quirk_weston_csd_on(term); render_csd(term); quirk_weston_csd_off(term); } if (search) render_search_box(term); if (urls) render_urls(term); if ((grid && !term->delayed_render_timer.is_armed) || (csd | search | urls)) grid_render(term); tll_foreach(term->wl->seats, it) { if (it->item.ime_focus == term) ime_update_cursor_rect(&it->item); } term->grid = original_grid; } static void tiocswinsz(struct terminal *term) { if (term->ptmx >= 0) { if (ioctl(term->ptmx, (unsigned int)TIOCSWINSZ, &(struct winsize){ .ws_row = term->rows, .ws_col = term->cols, .ws_xpixel = term->cols * term->cell_width, .ws_ypixel = term->rows * term->cell_height}) < 0) { LOG_ERRNO("TIOCSWINSZ"); } } } static void delayed_reflow_of_normal_grid(struct terminal *term) { if (term->interactive_resizing.grid == NULL) return; xassert(term->interactive_resizing.new_rows > 0); struct coord *const tracking_points[] = { &term->selection.coords.start, &term->selection.coords.end, }; /* Reflow the original (since before the resize was started) grid, * to the *current* dimensions */ grid_resize_and_reflow( term->interactive_resizing.grid, term->interactive_resizing.new_rows, term->normal.num_cols, term->interactive_resizing.old_screen_rows, term->rows, term->selection.coords.end.row >= 0 ? ALEN(tracking_points) : 0, tracking_points); /* Replace the current, truncated, “normal” grid with the * correctly reflowed one */ grid_free(&term->normal); term->normal = *term->interactive_resizing.grid; free(term->interactive_resizing.grid); term->hide_cursor = term->interactive_resizing.old_hide_cursor; /* Reset */ term->interactive_resizing.grid = NULL; term->interactive_resizing.old_screen_rows = 0; term->interactive_resizing.new_rows = 0; term->interactive_resizing.old_hide_cursor = false; /* Invalidate render pointers */ shm_unref(term->render.last_buf); term->render.last_buf = NULL; term->render.last_cursor.row = NULL; tll_free(term->normal.scroll_damage); sixel_reflow_grid(term, &term->normal); if (term->grid == &term->normal) { term_damage_view(term); render_refresh(term); } term_ptmx_resume(term); } static bool fdm_tiocswinsz(struct fdm *fdm, int fd, int events, void *data) { struct terminal *term = data; if (events & EPOLLIN) { tiocswinsz(term); delayed_reflow_of_normal_grid(term); } if (term->window->resize_timeout_fd >= 0) { fdm_del(fdm, term->window->resize_timeout_fd); term->window->resize_timeout_fd = -1; } return true; } static void send_dimensions_to_client(struct terminal *term) { struct wl_window *win = term->window; if (!win->is_resizing || term->conf->resize_delay_ms == 0) { /* Send new dimensions to client immediately */ tiocswinsz(term); delayed_reflow_of_normal_grid(term); /* And make sure to reset and deallocate a lingering timer */ if (win->resize_timeout_fd >= 0) { fdm_del(term->fdm, win->resize_timeout_fd); win->resize_timeout_fd = -1; } } else { /* Send new dimensions to client “in a while” */ assert(win->is_resizing && term->conf->resize_delay_ms > 0); int fd = win->resize_timeout_fd; uint16_t delay_ms = term->conf->resize_delay_ms; bool successfully_scheduled = false; if (fd < 0) { /* Lazy create timer fd */ fd = timerfd_create(CLOCK_MONOTONIC, TFD_CLOEXEC | TFD_NONBLOCK); if (fd < 0) LOG_ERRNO("failed to create TIOCSWINSZ timer"); else if (!fdm_add(term->fdm, fd, EPOLLIN, &fdm_tiocswinsz, term)) { close(fd); fd = -1; } win->resize_timeout_fd = fd; } if (fd >= 0) { /* Reset timeout */ const struct itimerspec timeout = { .it_value = { .tv_sec = delay_ms / 1000, .tv_nsec = (delay_ms % 1000) * 1000000, }, }; if (timerfd_settime(fd, 0, &timeout, NULL) < 0) { LOG_ERRNO("failed to arm TIOCSWINSZ timer"); fdm_del(term->fdm, fd); win->resize_timeout_fd = -1; } else successfully_scheduled = true; } if (!successfully_scheduled) { tiocswinsz(term); delayed_reflow_of_normal_grid(term); } } } /* Move to terminal.c? */ static bool maybe_resize(struct terminal *term, int width, int height, bool force) { if (term->shutdown.in_progress) return false; if (!term->window->is_configured) return false; if (term->cell_width == 0 && term->cell_height == 0) return false; int scale = -1; tll_foreach(term->window->on_outputs, it) { if (it->item->scale > scale) scale = it->item->scale; } if (scale < 0) { /* Haven't 'entered' an output yet? */ scale = term->scale; } width *= scale; height *= scale; if (width == 0 && height == 0) { /* * The compositor is letting us choose the size * * If we have a "last" used size - use that. Otherwise, use * the size from the user configuration. */ if (term->stashed_width != 0 && term->stashed_height != 0) { width = term->stashed_width; height = term->stashed_height; } else { switch (term->conf->size.type) { case CONF_SIZE_PX: width = term->conf->size.width; height = term->conf->size.height; /* Take CSDs into account */ if (wayl_win_csd_titlebar_visible(term->window)) height -= term->conf->csd.title_height; if (wayl_win_csd_borders_visible(term->window)) { height -= 2 * term->conf->csd.border_width_visible; width -= 2 * term->conf->csd.border_width_visible; } width *= scale; height *= scale; break; case CONF_SIZE_CELLS: width = term->conf->size.width * term->cell_width; height = term->conf->size.height * term->cell_height; width += 2 * term->conf->pad_x * scale; height += 2 * term->conf->pad_y * scale; /* * Ensure we can scale to logical size, and back to * pixels without truncating. */ if (width % scale) width += scale - width % scale; if (height % scale) height += scale - height % scale; xassert(width % scale == 0); xassert(height % scale == 0); break; } } } /* Don't shrink grid too much */ const int min_cols = 2; const int min_rows = 1; /* Minimum window size (must be divisible by the scaling factor)*/ const int min_width = (min_cols * term->cell_width + scale - 1) / scale * scale; const int min_height = (min_rows * term->cell_height + scale - 1) / scale * scale; width = max(width, min_width); height = max(height, min_height); /* Padding */ const int max_pad_x = (width - min_width) / 2; const int max_pad_y = (height - min_height) / 2; const int pad_x = min(max_pad_x, scale * term->conf->pad_x); const int pad_y = min(max_pad_y, scale * term->conf->pad_y); if (!force && width == term->width && height == term->height && scale == term->scale) return false; /* Cancel an application initiated "Synchronized Update" */ term_disable_app_sync_updates(term); /* Drop out of URL mode */ urls_reset(term); term->width = width; term->height = height; term->scale = scale; const uint32_t scrollback_lines = term->render.scrollback_lines; /* Screen rows/cols before resize */ int old_cols = term->cols; int old_rows = term->rows; /* Screen rows/cols after resize */ const int new_cols = (term->width - 2 * pad_x) / term->cell_width; const int new_rows = (term->height - 2 * pad_y) / term->cell_height; /* Grid rows/cols after resize */ const int new_normal_grid_rows = 1 << (32 - __builtin_clz(new_rows + scrollback_lines - 1)); const int new_alt_grid_rows = 1 << (32 - __builtin_clz(new_rows)); xassert(new_cols >= 1); xassert(new_rows >= 1); /* Margins */ const int grid_width = new_cols * term->cell_width; const int grid_height = new_rows * term->cell_height; const int total_x_pad = term->width - grid_width; const int total_y_pad = term->height - grid_height; if (term->conf->center && !term->window->is_resizing) { term->margins.left = total_x_pad / 2; term->margins.top = total_y_pad / 2; } else { term->margins.left = pad_x; term->margins.top = pad_y; } term->margins.right = total_x_pad - term->margins.left; term->margins.bottom = total_y_pad - term->margins.top; xassert(term->margins.left >= pad_x); xassert(term->margins.right >= pad_x); xassert(term->margins.top >= pad_y); xassert(term->margins.bottom >= pad_y); if (new_cols == old_cols && new_rows == old_rows) { LOG_DBG("grid layout unaffected; skipping reflow"); term->interactive_resizing.new_rows = new_normal_grid_rows; goto damage_view; } /* * Since text reflow is slow, don’t do it *while* resizing. Only * do it when done, or after “pausing” the resize for sufficiently * long. We re-use the TIOCSWINSZ timer to handle this. See * send_dimensions_to_client() and fdm_tiocswinsz(). * * To be able to do the final reflow correctly, we need a copy of * the original grid, before the resize started. */ if (term->window->is_resizing && term->conf->resize_delay_ms > 0) { if (term->interactive_resizing.grid == NULL) { term_ptmx_pause(term); /* Stash the current ‘normal’ grid, as-is, to be used when * doing the final reflow */ term->interactive_resizing.old_screen_rows = term->rows; term->interactive_resizing.old_cols = term->cols; term->interactive_resizing.old_hide_cursor = term->hide_cursor; term->interactive_resizing.grid = xmalloc(sizeof(*term->interactive_resizing.grid)); *term->interactive_resizing.grid = term->normal; term->interactive_resizing.selection_coords = term->selection.coords; } else { /* We’ll replace the current temporary grid, with a new * one (again based on the original grid) */ grid_free(&term->normal); } struct grid *orig = term->interactive_resizing.grid; /* * Copy the current viewport (of the original grid) to a new * grid that will be used during the resize. For now, throw * away sixels and OSC-8 URLs. They’ll be "restored" when we * do the final reflow. * * Note that OSC-8 URLs are perfectly ok to throw away; they * cannot be interacted with during the resize. And, even if * url.osc8-underline=always, the “underline” attribute is * part of the cell, not the URI struct (and thus our faked * grid will still render OSC-8 links underlined). * * TODO: * - sixels? */ struct grid g = { .num_rows = 1 << (32 - __builtin_clz(term->interactive_resizing.old_screen_rows)), .num_cols = term->interactive_resizing.old_cols, .offset = 0, .view = 0, .cursor = orig->cursor, .saved_cursor = orig->saved_cursor, .rows = xcalloc(g.num_rows, sizeof(g.rows[0])), .cur_row = NULL, .scroll_damage = tll_init(), .sixel_images = tll_init(), .kitty_kbd = orig->kitty_kbd, }; term->selection.coords.start.row -= orig->view; term->selection.coords.end.row -= orig->view; for (size_t i = 0, j = orig->view; i < term->interactive_resizing.old_screen_rows; i++, j = (j + 1) & (orig->num_rows - 1)) { g.rows[i] = grid_row_alloc(g.num_cols, false); memcpy(g.rows[i]->cells, orig->rows[j]->cells, g.num_cols * sizeof(g.rows[i]->cells[0])); } term->normal = g; term->hide_cursor = true; } if (term->grid == &term->alt) selection_cancel(term); else { /* * Don’t cancel, but make sure there aren’t any ongoing * selections after the resize. */ tll_foreach(term->wl->seats, it) { if (it->item.kbd_focus == term) selection_finalize(&it->item, term, it->item.pointer.serial); } } /* * TODO: if we remove the selection_finalize() call above (i.e. if * we start allowing selections to be ongoing across resizes), the * selection’s pivot point coordinates *must* be added to the * tracking points list. */ /* Resize grids */ if (term->window->is_resizing && term->conf->resize_delay_ms > 0) { /* Simple truncating resize, *while* an interactive resize is * ongoing. */ xassert(term->interactive_resizing.grid != NULL); xassert(new_normal_grid_rows > 0); term->interactive_resizing.new_rows = new_normal_grid_rows; grid_resize_without_reflow( &term->normal, new_alt_grid_rows, new_cols, term->interactive_resizing.old_screen_rows, new_rows); } else { /* Full text reflow */ if (term->interactive_resizing.grid != NULL) { /* Throw away the current, truncated, “normal” grid, and * use the original grid instead (from before the resize * started) */ grid_free(&term->normal); term->normal = *term->interactive_resizing.grid; free(term->interactive_resizing.grid); term->hide_cursor = term->interactive_resizing.old_hide_cursor; term->selection.coords = term->interactive_resizing.selection_coords; old_rows = term->interactive_resizing.old_screen_rows; term->interactive_resizing.grid = NULL; term->interactive_resizing.old_screen_rows = 0; term->interactive_resizing.new_rows = 0; term->interactive_resizing.old_hide_cursor = false; term->interactive_resizing.selection_coords = (struct range){{-1, -1}, {-1, -1}}; term_ptmx_resume(term); } struct coord *const tracking_points[] = { &term->selection.coords.start, &term->selection.coords.end, }; grid_resize_and_reflow( &term->normal, new_normal_grid_rows, new_cols, old_rows, new_rows, term->selection.coords.end.row >= 0 ? ALEN(tracking_points) : 0, tracking_points); } grid_resize_without_reflow( &term->alt, new_alt_grid_rows, new_cols, old_rows, new_rows); /* Reset tab stops */ tll_free(term->tab_stops); for (int c = 0; c < new_cols; c += 8) tll_push_back(term->tab_stops, c); term->cols = new_cols; term->rows = new_rows; sixel_reflow(term); #if defined(_DEBUG) && LOG_ENABLE_DBG LOG_DBG("resize: %dx%d, grid: cols=%d, rows=%d " "(left-margin=%d, right-margin=%d, top-margin=%d, bottom-margin=%d)", term->width, term->height, term->cols, term->rows, term->margins.left, term->margins.right, term->margins.top, term->margins.bottom); #endif if (term->scroll_region.start >= term->rows) term->scroll_region.start = 0; if (term->scroll_region.end > term->rows) term->scroll_region.end = term->rows; term->render.last_cursor.row = NULL; damage_view: /* Signal TIOCSWINSZ */ send_dimensions_to_client(term); if (!term->window->is_maximized && !term->window->is_fullscreen && !term->window->is_tiled) { /* Stash current size, to enable us to restore it when we're * being un-maximized/fullscreened/tiled */ term->stashed_width = term->width; term->stashed_height = term->height; } { const bool title_shown = wayl_win_csd_titlebar_visible(term->window); const bool border_shown = wayl_win_csd_borders_visible(term->window); const int title_height = title_shown ? term->conf->csd.title_height : 0; const int border_width = border_shown ? term->conf->csd.border_width_visible : 0; xdg_toplevel_set_min_size( term->window->xdg_toplevel, min_width / scale + 2 * border_width, min_height / scale + title_height + 2 * border_width); xdg_surface_set_window_geometry( term->window->xdg_surface, -border_width, -title_height - border_width, term->width / term->scale + 2 * border_width, term->height / term->scale + title_height + 2 * border_width); } tll_free(term->normal.scroll_damage); tll_free(term->alt.scroll_damage); shm_unref(term->render.last_buf); term->render.last_buf = NULL; term_damage_view(term); render_refresh_csd(term); render_refresh_search(term); render_refresh(term); return true; } bool render_resize(struct terminal *term, int width, int height) { return maybe_resize(term, width, height, false); } bool render_resize_force(struct terminal *term, int width, int height) { return maybe_resize(term, width, height, true); } static void xcursor_callback( void *data, struct wl_callback *wl_callback, uint32_t callback_data); static const struct wl_callback_listener xcursor_listener = { .done = &xcursor_callback, }; bool render_xcursor_is_valid(const struct seat *seat, const char *cursor) { if (cursor == NULL) return false; return wl_cursor_theme_get_cursor(seat->pointer.theme, cursor) != NULL; } static void render_xcursor_update(struct seat *seat) { /* If called from a frame callback, we may no longer have mouse focus */ if (!seat->mouse_focus) return; xassert(seat->pointer.xcursor != NULL); if (seat->pointer.xcursor == XCURSOR_HIDDEN) { /* Hide cursor */ wl_surface_attach(seat->pointer.surface, NULL, 0, 0); wl_surface_commit(seat->pointer.surface); return; } xassert(seat->pointer.cursor != NULL); const int scale = seat->pointer.scale; struct wl_cursor_image *image = seat->pointer.cursor->images[0]; wl_surface_attach( seat->pointer.surface, wl_cursor_image_get_buffer(image), 0, 0); wl_pointer_set_cursor( seat->wl_pointer, seat->pointer.serial, seat->pointer.surface, image->hotspot_x / scale, image->hotspot_y / scale); wl_surface_damage_buffer( seat->pointer.surface, 0, 0, INT32_MAX, INT32_MAX); wl_surface_set_buffer_scale(seat->pointer.surface, scale); xassert(seat->pointer.xcursor_callback == NULL); seat->pointer.xcursor_callback = wl_surface_frame(seat->pointer.surface); wl_callback_add_listener(seat->pointer.xcursor_callback, &xcursor_listener, seat); wl_surface_commit(seat->pointer.surface); } static void xcursor_callback(void *data, struct wl_callback *wl_callback, uint32_t callback_data) { struct seat *seat = data; xassert(seat->pointer.xcursor_callback == wl_callback); wl_callback_destroy(wl_callback); seat->pointer.xcursor_callback = NULL; if (seat->pointer.xcursor_pending) { render_xcursor_update(seat); seat->pointer.xcursor_pending = false; } } static void fdm_hook_refresh_pending_terminals(struct fdm *fdm, void *data) { struct renderer *renderer = data; struct wayland *wayl = renderer->wayl; tll_foreach(renderer->wayl->terms, it) { struct terminal *term = it->item; if (unlikely(term->shutdown.in_progress || !term->window->is_configured)) continue; bool grid = term->render.refresh.grid; bool csd = term->render.refresh.csd; bool search = term->is_searching && term->render.refresh.search; bool urls = urls_mode_is_active(term) && term->render.refresh.urls; if (!(grid | csd | search | urls)) continue; if (term->render.app_sync_updates.enabled && !(csd | search | urls)) continue; term->render.refresh.grid = false; term->render.refresh.csd = false; term->render.refresh.search = false; term->render.refresh.urls = false; if (term->window->frame_callback == NULL) { struct grid *original_grid = term->grid; if (urls_mode_is_active(term)) { xassert(term->url_grid_snapshot != NULL); term->grid = term->url_grid_snapshot; } if (csd && term->window->csd_mode == CSD_YES) { quirk_weston_csd_on(term); render_csd(term); quirk_weston_csd_off(term); } if (search) render_search_box(term); if (urls) render_urls(term); if (grid | csd | search | urls) grid_render(term); tll_foreach(term->wl->seats, it) { if (it->item.ime_focus == term) ime_update_cursor_rect(&it->item); } term->grid = original_grid; } else { /* Tells the frame callback to render again */ term->render.pending.grid |= grid; term->render.pending.csd |= csd; term->render.pending.search |= search; term->render.pending.urls |= urls; } } tll_foreach(wayl->seats, it) { if (it->item.pointer.xcursor_pending) { if (it->item.pointer.xcursor_callback == NULL) { render_xcursor_update(&it->item); it->item.pointer.xcursor_pending = false; } else { /* Frame callback will call render_xcursor_update() */ } } } } void render_refresh_title(struct terminal *term) { if (term->render.title.is_armed) return; struct timespec now; if (clock_gettime(CLOCK_MONOTONIC, &now) < 0) return; struct timespec diff; timespec_sub(&now, &term->render.title.last_update, &diff); if (diff.tv_sec == 0 && diff.tv_nsec < 8333 * 1000) { const struct itimerspec timeout = { .it_value = {.tv_nsec = 8333 * 1000 - diff.tv_nsec}, }; timerfd_settime(term->render.title.timer_fd, 0, &timeout, NULL); } else { term->render.title.last_update = now; render_update_title(term); } render_refresh_csd(term); } void render_refresh(struct terminal *term) { term->render.refresh.grid = true; } void render_refresh_csd(struct terminal *term) { if (term->window->csd_mode == CSD_YES) term->render.refresh.csd = true; } void render_refresh_search(struct terminal *term) { if (term->is_searching) term->render.refresh.search = true; } void render_refresh_urls(struct terminal *term) { if (urls_mode_is_active(term)) term->render.refresh.urls = true; } bool render_xcursor_set(struct seat *seat, struct terminal *term, const char *xcursor) { if (seat->pointer.theme == NULL) return false; if (seat->mouse_focus == NULL) { seat->pointer.xcursor = NULL; return true; } if (seat->mouse_focus != term) { /* This terminal doesn't have mouse focus */ return true; } if (seat->pointer.xcursor == xcursor) return true; if (xcursor != XCURSOR_HIDDEN) { seat->pointer.cursor = wl_cursor_theme_get_cursor( seat->pointer.theme, xcursor); if (seat->pointer.cursor == NULL) { seat->pointer.cursor = wl_cursor_theme_get_cursor( seat->pointer.theme, XCURSOR_TEXT_FALLBACK ); if (seat->pointer.cursor == NULL) { LOG_ERR("failed to load xcursor pointer '%s', and fallback '%s'", xcursor, XCURSOR_TEXT_FALLBACK); return false; } } } else seat->pointer.cursor = NULL; /* FDM hook takes care of actual rendering */ seat->pointer.xcursor = xcursor; seat->pointer.xcursor_pending = true; return true; }