#include #include #include #define LOG_MODULE "string" #define LOG_ENABLE_DBG 0 #include "../char32.h" #include "../config-verify.h" #include "../config.h" #include "../log.h" #include "../particle.h" #include "../plugin.h" struct text_run_cache { uint64_t hash; struct fcft_text_run *run; int width; bool in_use; }; struct private { char *text; size_t max_len; size_t cache_size; struct text_run_cache *cache; }; struct eprivate { ssize_t cache_idx; const struct fcft_glyph **glyphs; const struct fcft_glyph **allocated_glyphs; long *kern_x; int num_glyphs; }; static void exposable_destroy(struct exposable *exposable) { struct eprivate *e = exposable->private; free(e->allocated_glyphs); free(e->kern_x); free(e); exposable_default_destroy(exposable); } static int begin_expose(struct exposable *exposable) { struct eprivate *e = exposable->private; struct private *p = exposable->particle->private; exposable->width = exposable->particle->left_margin + exposable->particle->right_margin; if (e->cache_idx >= 0) { exposable->width += p->cache[e->cache_idx].width; } else { /* Calculate the size we need to render the glyphs */ for (int i = 0; i < e->num_glyphs; i++) exposable->width += e->kern_x[i] + e->glyphs[i]->advance.x; } return exposable->width; } static void expose(const struct exposable *exposable, pixman_image_t *pix, int x, int y, int height) { exposable_render_deco(exposable, pix, x, y, height); const struct eprivate *e = exposable->private; const struct fcft_font *font = exposable->particle->font; if (e->cache_idx >= 0) { struct private *priv = exposable->particle->private; priv->cache[e->cache_idx].in_use = false; } if (e->num_glyphs == 0) return; /* * This tries to center the font around the bar center, by using * the font's ascent+descent as total height, and then removing * its descent. This way, the part of the font *above* the * baseline is centered. * * "EEEE" will typically be dead center, with the middle of each character being in the bar's center. * "eee" will be slightly below the center. * "jjj" will be even further below the center. * * Finally, if the font's descent is negative, ignore it (except * for the height calculation). This is unfortunately not based on * any real facts, but works very well with e.g. the "Awesome 6" * font family. */ const double baseline = (double)y + (double)(height + font->ascent + font->descent) / 2.0 - (font->descent > 0 ? font->descent : 0); x += exposable->particle->left_margin; /* Loop glyphs and render them, one by one */ for (int i = 0; i < e->num_glyphs; i++) { const struct fcft_glyph *glyph = e->glyphs[i]; assert(glyph != NULL); x += e->kern_x[i]; if (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, pix, 0, 0, 0, 0, x + glyph->x, baseline - glyph->y, glyph->width, glyph->height); } else { /* Glyph surface is an alpha mask */ pixman_image_t *src = pixman_image_create_solid_fill(&exposable->particle->foreground); pixman_image_composite32(PIXMAN_OP_OVER, src, glyph->pix, pix, 0, 0, 0, 0, x + glyph->x, baseline - glyph->y, glyph->width, glyph->height); pixman_image_unref(src); } x += glyph->advance.x; } } static uint64_t sdbm_hash(const char *s) { uint64_t hash = 0; for (; *s != '\0'; s++) { int c = *s; hash = c + (hash << 6) + (hash << 16) - hash; } return hash; } static struct exposable * instantiate(const struct particle *particle, const struct tag_set *tags) { struct private *p = (struct private *)particle->private; struct eprivate *e = calloc(1, sizeof(*e)); struct fcft_font *font = particle->font; char32_t *wtext = NULL; char *text = tags_expand_template(p->text, tags); e->glyphs = e->allocated_glyphs = NULL; e->num_glyphs = 0; e->kern_x = NULL; e->cache_idx = -1; uint64_t hash = sdbm_hash(text); /* First, check if we have this string cached */ for (size_t i = 0; i < p->cache_size; i++) { if (p->cache[i].hash == hash) { assert(p->cache[i].run != NULL); p->cache[i].in_use = true; e->cache_idx = i; e->glyphs = p->cache[i].run->glyphs; e->num_glyphs = p->cache[i].run->count; e->kern_x = calloc(p->cache[i].run->count, sizeof(e->kern_x[0])); goto done; } } /* Not in cache - we need to rasterize it. First, convert to char32_t */ wtext = ambstoc32(text); size_t chars = wtext != NULL ? c32len(wtext) : 0; /* Truncate, if necessary */ if (p->max_len > 0 && chars > p->max_len) { chars = p->max_len; if (p->max_len > 3) wtext[p->max_len - 1] = U'…'; wtext[p->max_len] = U'\0'; } e->kern_x = calloc(chars, sizeof(e->kern_x[0])); if (particle->font_shaping == FONT_SHAPE_FULL && fcft_capabilities() & FCFT_CAPABILITY_TEXT_RUN_SHAPING) { struct fcft_text_run *run = fcft_rasterize_text_run_utf32(font, chars, wtext, FCFT_SUBPIXEL_NONE); if (run != NULL) { int w = 0; for (size_t i = 0; i < run->count; i++) w += run->glyphs[i]->advance.x; ssize_t cache_idx = -1; for (size_t i = 0; i < p->cache_size; i++) { if (p->cache[i].run == NULL || !p->cache[i].in_use) { fcft_text_run_destroy(p->cache[i].run); cache_idx = i; break; } } if (cache_idx < 0) { size_t new_size = p->cache_size + 1; struct text_run_cache *new_cache = realloc(p->cache, new_size * sizeof(new_cache[0])); p->cache_size = new_size; p->cache = new_cache; cache_idx = new_size - 1; } assert(cache_idx >= 0 && cache_idx < p->cache_size); p->cache[cache_idx].hash = hash; p->cache[cache_idx].run = run; p->cache[cache_idx].width = w; p->cache[cache_idx].in_use = true; e->cache_idx = cache_idx; e->num_glyphs = run->count; e->glyphs = run->glyphs; } } if (e->glyphs == NULL) { e->allocated_glyphs = malloc(chars * sizeof(e->glyphs[0])); /* Convert text to glyph masks/images. */ for (size_t i = 0; i < chars; i++) { const struct fcft_glyph *glyph = fcft_rasterize_char_utf32(font, wtext[i], FCFT_SUBPIXEL_NONE); if (glyph == NULL) continue; e->allocated_glyphs[e->num_glyphs++] = glyph; if (i == 0) continue; fcft_kerning(font, wtext[i - 1], wtext[i], &e->kern_x[i], NULL); } e->glyphs = e->allocated_glyphs; } done: free(wtext); free(text); struct exposable *exposable = exposable_common_new(particle, tags); exposable->private = e; exposable->destroy = &exposable_destroy; exposable->begin_expose = &begin_expose; exposable->expose = &expose; return exposable; } static void particle_destroy(struct particle *particle) { struct private *p = particle->private; for (size_t i = 0; i < p->cache_size; i++) fcft_text_run_destroy(p->cache[i].run); free(p->cache); free(p->text); free(p); particle_default_destroy(particle); } static struct particle * string_new(struct particle *common, const char *text, size_t max_len) { struct private *p = calloc(1, sizeof(*p)); p->text = strdup(text); p->max_len = max_len; p->cache_size = 0; p->cache = NULL; common->private = p; common->destroy = &particle_destroy; common->instantiate = &instantiate; return common; } static struct particle * from_conf(const struct yml_node *node, struct particle *common) { const struct yml_node *text = yml_get_value(node, "text"); const struct yml_node *max = yml_get_value(node, "max"); return string_new(common, yml_value_as_string(text), max != NULL ? yml_value_as_int(max) : 0); } static bool verify_conf(keychain_t *chain, const struct yml_node *node) { static const struct attr_info attrs[] = { {"text", true, &conf_verify_string}, {"max", false, &conf_verify_unsigned}, PARTICLE_COMMON_ATTRS, }; return conf_verify_dict(chain, node, attrs); } const struct particle_iface particle_string_iface = { .verify_conf = &verify_conf, .from_conf = &from_conf, }; #if defined(CORE_PLUGINS_AS_SHARED_LIBRARIES) extern const struct particle_iface iface __attribute__((weak, alias("particle_string_iface"))); #endif