#include "Font.h" #include #include "Alloc.h" #include "Constants.h" #include "CustomLevels.h" #include "FileSystemUtils.h" #include "Graphics.h" #include "GraphicsUtil.h" #include "Localization.h" #include "UTF8.h" #include "UtilityClass.h" #include "Vlogging.h" #include "XMLUtils.h" extern "C" { #include } // Sigh... This is the second forward-declaration, we need to put this in a header file SDL_Texture* LoadImage(const char *filename, const TextureLoadType loadtype); namespace font { #define GLYPH_EXISTS 0x1 #define GLYPH_COLOR 0x2 struct GlyphInfo { uint16_t image_idx; uint8_t advance; uint8_t flags; }; /* Codepoints go up to U+10FFFF, so we have 0x110 (272) pages * of 0x1000 (4096) glyphs, allocated as needed */ #define FONT_N_PAGES 0x110 #define FONT_PAGE_SIZE 0x1000 enum FontType { FontType_FONT, FontType_BUTTONS }; struct Font { char name[64]; char display_name[SCREEN_WIDTH_CHARS + 1]; FontType type; uint8_t glyph_w; uint8_t glyph_h; SDL_Texture* image; GlyphInfo* glyph_page[FONT_N_PAGES]; char fallback_key[64]; uint8_t fallback_idx; bool fallback_idx_valid; }; struct FontContainer { uint8_t count; Font* fonts; hashmap* map_name_idx; }; struct PrintFlags { uint8_t scale; Font* font_sel; uint8_t brightness; bool border; bool align_cen; bool align_right; bool cjk_low; bool cjk_high; }; static FontContainer fonts_main = {}; static FontContainer fonts_custom = {}; static uint8_t font_idx_8x8 = 0; uint8_t font_idx_options_n = 0; uint8_t font_idx_options[20]; static bool font_level_is_interface = false; static bool font_idx_level_is_custom = false; static uint8_t font_idx_level = 0; static void codepoint_split( const uint32_t codepoint, short* page, short* glyph ) { // Splits a code point (0x10FFFF) into page (0x10F) and glyph (0xFFF) if (codepoint > 0x10FFFF) { codepoint_split(0xFFFD, page, glyph); return; } *page = codepoint >> 12; *glyph = codepoint % FONT_PAGE_SIZE; } static GlyphInfo* get_glyphinfo( const Font* f, const uint32_t codepoint ) { short page, glyph; codepoint_split(codepoint, &page, &glyph); if (f->glyph_page[page] == NULL) { return NULL; } return &f->glyph_page[page][glyph]; } static void add_glyphinfo( Font* f, const uint32_t codepoint, const int image_idx ) { if (image_idx < 0 || image_idx > 65535) { return; } short page, glyph; codepoint_split(codepoint, &page, &glyph); if (f->glyph_page[page] == NULL) { f->glyph_page[page] = (GlyphInfo*) SDL_calloc(FONT_PAGE_SIZE, sizeof(GlyphInfo)); if (f->glyph_page[page] == NULL) { return; } } f->glyph_page[page][glyph].image_idx = image_idx; f->glyph_page[page][glyph].advance = f->glyph_w; f->glyph_page[page][glyph].flags = GLYPH_EXISTS; } static bool glyph_is_valid(const GlyphInfo* glyph) { return glyph->flags & GLYPH_EXISTS; } static Font* fallback_for(const Font* f) { if (!f->fallback_idx_valid) { return NULL; } return &fonts_main.fonts[f->fallback_idx]; } static GlyphInfo* find_glyphinfo(const Font* f, const uint32_t codepoint, const Font** f_glyph) { /* Get the GlyphInfo for a specific codepoint, or or ? if it doesn't exist. * f_glyph may be either set to f (the main specified font) or its fallback font, if it exists. * As a last resort, may return NULL. */ *f_glyph = f; GlyphInfo* glyph = get_glyphinfo(f, codepoint); if (glyph != NULL && glyph_is_valid(glyph)) { return glyph; } Font* f_fallback = fallback_for(f); if (f_fallback != NULL && (glyph = get_glyphinfo(f_fallback, codepoint)) != NULL && glyph_is_valid(glyph)) { *f_glyph = f_fallback; return glyph; } glyph = get_glyphinfo(f, 0xFFFD); if (glyph != NULL && glyph_is_valid(glyph)) { return glyph; } glyph = get_glyphinfo(f, '?'); if (glyph != NULL && glyph_is_valid(glyph)) { return glyph; } return NULL; } static int get_advance_ff(const Font* f, const Font* f_glyph, const GlyphInfo* glyph) { /* Internal function - get the correct advance after we have * determined whether the glyph is from the fallback font or not. */ if (glyph == NULL) { return f->glyph_w; } /* If the glyph is a fallback glyph, center it relative to the main font * instead of trusting the fallback's width */ if (f_glyph != f) { return f->glyph_w; } return glyph->advance; } int get_advance(const Font* f, const uint32_t codepoint) { // Get the width of a single character in a font if (f == NULL) { return 8; } const Font* f_glyph; GlyphInfo* glyph = find_glyphinfo(f, codepoint, &f_glyph); return get_advance_ff(f, f_glyph, glyph); } static bool decode_xml_range(tinyxml2::XMLElement* elem, unsigned* start, unsigned* end) { // We do support hexadecimal start/end like "0x10FFFF" if (elem->QueryUnsignedAttribute("start", start) != tinyxml2::XML_SUCCESS || elem->QueryUnsignedAttribute("end", end) != tinyxml2::XML_SUCCESS || *end < *start || *start > 0x10FFFF ) { return false; } *end = SDL_min(*end, 0x10FFFF); return true; } static uint8_t load_font(FontContainer* container, const char* name) { if (container->count >= 254) { return 0; } Font* new_fonts = (Font*) SDL_realloc(container->fonts, sizeof(Font)*(container->count+1)); if (new_fonts == NULL) { return 0; } container->fonts = new_fonts; uint8_t f_idx = container->count++; Font* f = &container->fonts[f_idx]; vlog_info("Loading font \"%s\"...", name); char name_png[256]; char name_txt[256]; char name_xml[256]; SDL_snprintf(name_png, sizeof(name_png), "graphics/%s.png", name); SDL_snprintf(name_txt, sizeof(name_txt), "graphics/%s.txt", name); SDL_snprintf(name_xml, sizeof(name_xml), "graphics/%s.fontmeta", name); SDL_strlcpy(f->name, name, sizeof(f->name)); SDL_strlcpy(f->display_name, name, sizeof(f->display_name)); f->type = FontType_FONT; f->glyph_w = 8; f->glyph_h = 8; f->fallback_key[0] = '\0'; f->fallback_idx_valid = false; bool white_teeth = false; tinyxml2::XMLDocument doc; tinyxml2::XMLHandle hDoc(&doc); tinyxml2::XMLElement* pElem; bool xml_loaded = false; if (FILESYSTEM_areAssetsInSameRealDir(name_png, name_xml) && FILESYSTEM_loadAssetTiXml2Document(name_xml, doc) ) { xml_loaded = true; hDoc = hDoc.FirstChildElement("font_metadata"); if ((pElem = hDoc.FirstChildElement("display_name").ToElement()) != NULL) { SDL_strlcpy(f->display_name, pElem->GetText(), sizeof(f->display_name)); } if ((pElem = hDoc.FirstChildElement("type").ToElement()) != NULL) { if (SDL_strcmp(pElem->GetText(), "buttons") == 0) { f->type = FontType_BUTTONS; } } if ((pElem = hDoc.FirstChildElement("width").ToElement()) != NULL) { f->glyph_w = help.Int(pElem->GetText()); } if ((pElem = hDoc.FirstChildElement("height").ToElement()) != NULL) { f->glyph_h = help.Int(pElem->GetText()); } if ((pElem = hDoc.FirstChildElement("white_teeth").ToElement()) != NULL) { // If 1, we don't need to whiten the entire font (like in old versions) white_teeth = help.Int(pElem->GetText()); } if ((pElem = hDoc.FirstChildElement("fallback").ToElement()) != NULL) { SDL_strlcpy(f->fallback_key, pElem->GetText(), sizeof(f->fallback_key)); } } f->image = LoadImage(name_png, white_teeth ? TEX_COLOR : TEX_WHITE); SDL_zeroa(f->glyph_page); if (f->image == NULL) { return f_idx; } /* We may have a 2.3-style font.txt with all the characters. * font.txt takes priority over in the XML. * If neither exist, it's just ASCII. */ bool charset_loaded = false; bool special_loaded = false; unsigned char* charmap = NULL; if (FILESYSTEM_areAssetsInSameRealDir(name_png, name_txt)) { FILESYSTEM_loadAssetToMemory(name_txt, &charmap, NULL, false); } if (charmap != NULL) { // We have a .txt! It's an obsolete system, but it takes priority if the file exists. const char* current = (char*) charmap; int pos = 0; uint32_t codepoint; while ((codepoint = UTF8_next(¤t))) { add_glyphinfo(f, codepoint, pos); ++pos; } VVV_free(charmap); charset_loaded = true; } if (xml_loaded && !charset_loaded && (pElem = hDoc.FirstChildElement("chars").ToElement()) != NULL) { // in the XML is the preferred system. int pos = 0; tinyxml2::XMLElement* subElem; FOR_EACH_XML_SUB_ELEMENT(pElem, subElem) { EXPECT_ELEM(subElem, "range"); unsigned start, end; if (!decode_xml_range(subElem, &start, &end)) { continue; } for (uint32_t codepoint = start; codepoint <= end; codepoint++) { add_glyphinfo(f, codepoint, pos); ++pos; } } charset_loaded = true; } if (!charset_loaded) { /* If we don't have font.txt and no tag either, * this font is 2.2-and-below-style plain ASCII. */ for (uint32_t codepoint = 0x00; codepoint < 0x80; codepoint++) { add_glyphinfo(f, codepoint, codepoint); } } if (xml_loaded && (pElem = hDoc.FirstChildElement("special").ToElement()) != NULL) { tinyxml2::XMLElement* subElem; FOR_EACH_XML_SUB_ELEMENT(pElem, subElem) { EXPECT_ELEM(subElem, "range"); unsigned start, end; if (!decode_xml_range(subElem, &start, &end)) { continue; } int advance = subElem->IntAttribute("advance", -1); int color = subElem->IntAttribute("color", -1); for (uint32_t codepoint = start; codepoint <= end; codepoint++) { GlyphInfo* glyph = get_glyphinfo(f, codepoint); if (glyph == NULL) { continue; } if (advance >= 0 && advance < 256) { glyph->advance = advance; } if (color == 0) { glyph->flags &= ~GLYPH_COLOR; } else if (color == 1) { glyph->flags |= GLYPH_COLOR; } } } special_loaded = true; } if (!special_loaded && f->glyph_w == 8 && f->glyph_h == 8) { /* If we don't have , and the font is 8x8, * 0x00-0x1F will be less wide because that's how it has always been. */ for (uint32_t codepoint = 0x00; codepoint < 0x20; codepoint++) { GlyphInfo* glyph = get_glyphinfo(f, codepoint); if (glyph != NULL) { glyph->advance = 6; } } } return f_idx; } static bool find_font_by_name(FontContainer* container, const char* name, uint8_t* idx) { // Returns true if font found (and idx is set), false if not found if (container->map_name_idx == NULL) { // No fonts yet... return false; } uintptr_t i; if (hashmap_get(container->map_name_idx, (char*) name, SDL_strlen(name), &i)) { *idx = i; return true; } return false; } bool find_main_font_by_name(const char* name, uint8_t* idx) { return find_font_by_name(&fonts_main, name, idx); } uint8_t get_font_idx_8x8(void) { return font_idx_8x8; } bool level_font_is_main_idx(const uint8_t idx) { return !font_idx_level_is_custom && font_idx_level == idx; } void set_level_font(const char* name) { /* Apply the choice for a certain level-specific font. * This function is for custom levels. */ font_level_is_interface = false; if (find_font_by_name(&fonts_custom, name, &font_idx_level)) { font_idx_level_is_custom = true; } else { font_idx_level_is_custom = false; if (!find_font_by_name(&fonts_main, name, &font_idx_level)) { if (SDL_strcmp(name, "font") != 0) { set_level_font("font"); } else { font_idx_level = font_idx_8x8; } } } } void set_level_font_interface(void) { /* Set the level font equal to the interface font. * This function is for the main game. */ font_level_is_interface = true; } void set_level_font_new(void) { /* Set the level font to the default font for new levels. * This function is for starting the editor. */ font_level_is_interface = false; font_idx_level_is_custom = false; if (loc::new_level_font == "") { /* Just take the language's font * (Japanese VVVVVV can make Japanese levels by default, etc) */ font_idx_level = loc::get_langmeta()->font_idx; } else { /* If the user has changed the font (wants to make levels * for a different userbase) then remember that choice. */ if (!find_main_font_by_name(loc::new_level_font.c_str(), &font_idx_level)) { font_idx_level = font_idx_8x8; } } #ifndef NO_CUSTOM_LEVELS cl.level_font_name = get_main_font_name(font_idx_level); #endif } static void fill_map_name_idx(FontContainer* container) { /* Initialize the name->idx hashmap for the fonts in this container. * This should only be done once, after all the fonts are added. */ container->map_name_idx = hashmap_create(); for (uint8_t i = 0; i < container->count; i++) { Font* f = &container->fonts[i]; hashmap_set(container->map_name_idx, f->name, SDL_strlen(f->name), i); } } static void set_fallbacks(FontContainer* container) { /* Initialize the value of fallback_idx for all fonts in this container. * Only main fonts can be fallback fonts. */ for (uint8_t i = 0; i < container->count; i++) { Font* f = &container->fonts[i]; if (find_main_font_by_name(f->fallback_key, &f->fallback_idx)) { f->fallback_idx_valid = true; } } } static void load_font_filename(bool is_custom, const char* filename) { // Load font.png, and everything that matches *.fontmeta (but not font.fontmeta) size_t expected_ext_start; bool is_fontpng = SDL_strcmp(filename, "font.png") == 0; if (is_fontpng) { expected_ext_start = SDL_strlen(filename)-4; } else { expected_ext_start = SDL_strlen(filename)-9; } if (is_fontpng || (endsWith(filename, ".fontmeta") && SDL_strcmp(filename, "font.fontmeta") != 0)) { char font_name[64]; SDL_strlcpy(font_name, filename, sizeof(font_name)); font_name[SDL_min(63, expected_ext_start)] = '\0'; uint8_t f_idx = load_font(is_custom ? &fonts_custom : &fonts_main, font_name); if (is_fontpng && !is_custom) { font_idx_8x8 = f_idx; } } } void load_main(void) { // Load all global fonts EnumHandle handle = {}; const char* item; while ((item = FILESYSTEM_enumerate("graphics", &handle)) != NULL) { load_font_filename(false, item); } FILESYSTEM_freeEnumerate(&handle); font_idx_level = font_idx_8x8; fill_map_name_idx(&fonts_main); set_fallbacks(&fonts_main); // Initialize the font menu options, 8x8 font first font_idx_options[0] = font_idx_8x8; font_idx_options_n = 1; for (uint8_t i = 0; i < fonts_main.count; i++) { if (i == font_idx_8x8) { continue; } if (fonts_main.fonts[i].type != FontType_FONT) { continue; } font_idx_options[font_idx_options_n++] = i; if (font_idx_options_n >= sizeof(font_idx_options)) { break; } } } void load_custom(const char* name) { // Load all custom (level-specific assets) fonts unload_custom(); EnumHandle handle = {}; const char* item; while ((item = FILESYSTEM_enumerateAssets("graphics", &handle)) != NULL) { load_font_filename(true, item); } FILESYSTEM_freeEnumerate(&handle); fill_map_name_idx(&fonts_custom); set_fallbacks(&fonts_custom); set_level_font(name); } void unload_font(Font* f) { VVV_freefunc(SDL_DestroyTexture, f->image); for (int i = 0; i < FONT_N_PAGES; i++) { VVV_free(f->glyph_page[i]); } } void unload_font_container(FontContainer* container) { VVV_freefunc(hashmap_free, container->map_name_idx); for (uint8_t i = 0; i < container->count; i++) { unload_font(&container->fonts[i]); } VVV_free(container->fonts); container->fonts = NULL; container->count = 0; } void unload_custom(void) { // Unload all custom fonts unload_font_container(&fonts_custom); } void destroy(void) { // Unload all fonts (main and custom) for exiting unload_custom(); unload_font_container(&fonts_main); } static Font* container_get(FontContainer* container, uint8_t idx) { /* Get a certain font from the given container (with bounds checking). * Does its best to return at least something, * but if there are no fonts whatsoever, can return NULL. */ if (idx < container->count) { return &container->fonts[idx]; } if (font_idx_8x8 < fonts_main.count) { return &fonts_main.fonts[font_idx_8x8]; } if (fonts_main.count > 0) { return &fonts_main.fonts[0]; } if (fonts_custom.count > 0) { return &fonts_custom.fonts[0]; } return NULL; } static Font* fontsel_to_font(int sel) { /* Take font selection integer (0-31) and turn it into the correct Font * 0: PR_FONT_INTERFACE - use interface font * 1: PR_FONT_LEVEL - use level font * 2: PR_FONT_8X8 - use 8x8 font no matter what * 3-31: - use (main) font index 0-28 */ if (sel < 0) { // Shouldn't happen but better safe than sorry... return NULL; } switch (sel) { case 1: if (!font_level_is_interface) { if (font_idx_level_is_custom) { return container_get(&fonts_custom, font_idx_level); } else { return container_get(&fonts_main, font_idx_level); } } SDL_FALLTHROUGH; case 0: return container_get(&fonts_main, loc::get_langmeta()->font_idx); case 2: return container_get(&fonts_main, font_idx_8x8); } return container_get(&fonts_main, sel-3); } #define FLAG_PART(start, count) ((flags >> start) % (1 << count)) static PrintFlags decode_print_flags(uint32_t flags) { PrintFlags pf; pf.scale = FLAG_PART(0, 3) + 1; pf.font_sel = fontsel_to_font(FLAG_PART(3, 5)); pf.brightness = ~FLAG_PART(8, 8) & 0xff; pf.border = flags & PR_BOR; pf.align_cen = flags & PR_CEN; pf.align_right = flags & PR_RIGHT; pf.cjk_low = flags & PR_CJK_LOW; pf.cjk_high = flags & PR_CJK_HIGH; return pf; } #undef FLAG_PART static bool next_wrap( Font* f, size_t* start, size_t* len, const char* str, const int maxwidth ) { /* Get information about the current line in wordwrapped text, * given this line starts at str[*start]. * *start is updated to the start of the next line. */ size_t idx = 0; size_t lenfromlastspace = 0; size_t lastspace = 0; int linewidth = 0; *len = 0; if (str[idx] == '\0') { return false; } while (true) { uint8_t codepoint_nbytes; uint32_t codepoint = UTF8_peek_next(&str[idx], &codepoint_nbytes); switch (codepoint) { case ' ': if (loc::get_langmeta()->autowordwrap) { lenfromlastspace = idx; lastspace = *start; } break; case '\n': case '|': *start += 1; SDL_FALLTHROUGH; case '\0': return true; } linewidth += get_advance(f, codepoint); if (linewidth > maxwidth) { if (lenfromlastspace != 0) { *len = lenfromlastspace; *start = lastspace + 1; } if (idx == 0) { // Oops, we're stuck at a single character *len = 1; *start += 1; } return true; } idx += codepoint_nbytes; *start += codepoint_nbytes; *len += codepoint_nbytes; } } static bool next_wrap_buf( Font* f, char buffer[], const size_t buffer_size, size_t* start, const char* str, const int maxwidth ) { /* Get each line of wordwrapped text, writing one line at a time to a buffer. * Call as follows: * * char buf[256]; * size_t start = 0; * while (next_wrap_buf(font, buf, sizeof(buf), &start, "String to wordwrap", 320)) * { * // buf contains a line of text * } */ size_t len = 0; const size_t prev_start = *start; const bool retval = next_wrap(f, start, &len, &str[*start], maxwidth); if (retval) { /* Like next_split_s(), don't use SDL_strlcpy() here. */ const size_t length = SDL_min(buffer_size - 1, len); SDL_memcpy(buffer, &str[prev_start], length); buffer[length] = '\0'; } return retval; } std::string string_wordwrap(const uint32_t flags, const std::string& s, int maxwidth, short *lines /*= NULL*/) { /* Return a string wordwrapped to a maximum limit by adding newlines. * CJK will need to have autowordwrap disabled and have manually inserted newlines. */ if (lines != NULL) { *lines = 1; } PrintFlags pf = decode_print_flags(flags); if (pf.font_sel == NULL) { return s; } const char* orig = s.c_str(); std::string result; size_t start = 0; bool first = true; while (true) { size_t len = 0; const char* part = &orig[start]; const bool retval = next_wrap(pf.font_sel, &start, &len, part, maxwidth); if (!retval) { return result; } if (first) { first = false; } else { result.push_back('\n'); if (lines != NULL) { (*lines)++; } } result.append(part, len); } } std::string string_wordwrap_balanced(const uint32_t flags, const std::string& s, int maxwidth) { /* Return a string wordwrapped to a limit of maxwidth by adding newlines. * Try to fill the lines as far as possible, and return result where lines are most filled. * Goal is to have all lines in textboxes be about as long and to avoid wrapping just one word to a new line. * CJK will need to have autowordwrap disabled and have manually inserted newlines. */ if (!loc::get_langmeta()->autowordwrap) { return s; } short lines; string_wordwrap(flags, s, maxwidth, &lines); int bestwidth = maxwidth; if (lines > 1) { for (int curlimit = maxwidth; curlimit > 1; curlimit -= 8) { short try_lines; string_wordwrap(flags, s, curlimit, &try_lines); if (try_lines > lines) { bestwidth = curlimit + 8; break; } } } return string_wordwrap(flags, s, bestwidth); } std::string string_unwordwrap(const std::string& s) { /* Takes a string wordwrapped by newlines, and turns it into a single line, undoing the wrapping. * Also trims any leading/trailing whitespace and collapses multiple spaces into one (to undo manual centering) * Only applied to English, so langmeta.autowordwrap isn't used here (it'd break looking up strings) */ std::string result; result.reserve(s.length()); bool latest_was_space = true; // last character was a space (or the beginning, don't want leading whitespace) int consecutive_newlines = 0; // number of newlines currently encountered in a row (multiple newlines should stay!) const char* str = s.c_str(); uint32_t ch; while ((ch = UTF8_next(&str))) { if (ch == '\n') { if (consecutive_newlines == 0) { ch = ' '; } else if (consecutive_newlines == 1) { // The last character was already a newline, so change it back from the space we thought it should have become. result[result.size()-1] = '\n'; } consecutive_newlines++; } else { consecutive_newlines = 0; } if (ch != ' ' || !latest_was_space) { result.append(UTF8_encode(ch).bytes); } latest_was_space = (ch == ' ' || ch == '\n'); } // We could have one trailing space if (!result.empty() && result[result.size()-1] == ' ') { result.erase(result.end()-1); } return result; } static int print_char( const Font* f, const uint32_t codepoint, int x, int y, const int scale, uint8_t r, uint8_t g, uint8_t b, const uint8_t brightness ) { /* Draws the glyph for a codepoint at x,y. * Returns the amount of pixels to advance the cursor. */ const Font* f_glyph; GlyphInfo* glyph = find_glyphinfo(f, codepoint, &f_glyph); if (glyph == NULL) { return f->glyph_w * scale; } if (glyph->flags & GLYPH_COLOR && (r | g | b) != 0) { r = g = b = brightness; } else if (brightness < 255) { float bri_factor = brightness / (float) 255; r *= bri_factor; g *= bri_factor; b *= bri_factor; } // If the glyph is a fallback glyph, center it if (f_glyph != f) { x += (f->glyph_w - f_glyph->glyph_w) / 2; y += (f->glyph_h - f_glyph->glyph_h) / 2; } graphics.draw_grid_tile( f_glyph->image, glyph->image_idx, x, y, f_glyph->glyph_w, f_glyph->glyph_h, r, g, b, scale, scale * (graphics.flipmode ? -1 : 1) ); return get_advance_ff(f, f_glyph, glyph) * scale; } const char* get_main_font_name(uint8_t idx) { Font* f = container_get(&fonts_main, idx); if (f == NULL) { return ""; } return f->name; } const char* get_main_font_display_name(uint8_t idx) { Font* f = container_get(&fonts_main, idx); if (f == NULL) { return ""; } if (idx == font_idx_8x8) { // Deciding the name for the 8x8 font was harder than I'd like to admit. if (loc::lang == "en" || loc::get_langmeta()->font_idx != font_idx_8x8) { // If you use English, or a CJK language: "english/..." SDL_strlcpy( f->display_name, "english/…", sizeof(f->display_name) ); } else { // If you use another, e.g. German: "english/deutsch/..." SDL_snprintf( f->display_name, sizeof(f->display_name), "english/%s/…", loc::get_langmeta()->nativename.c_str() ); } } return f->display_name; } const char* get_level_font_display_name(void) { if (font_idx_level_is_custom) { Font* f = container_get(&fonts_custom, font_idx_level); if (f == NULL) { return ""; } return f->display_name; } return get_main_font_display_name(font_idx_level); } bool glyph_dimensions(uint32_t flags, uint8_t* glyph_w, uint8_t* glyph_h) { /* Gets the dimensions (glyph_w and glyph_h) of a certain font. * Returns true if the font is valid (glyph_w and/or glyph_h were written to if not NULL), false if not. */ PrintFlags pf = decode_print_flags(flags); if (pf.font_sel == NULL) { return false; } if (glyph_w != NULL) { *glyph_w = pf.font_sel->glyph_w; } if (glyph_h != NULL) { *glyph_h = pf.font_sel->glyph_h; } return true; } int len(const uint32_t flags, const std::string& t) { PrintFlags pf = decode_print_flags(flags); int text_len = 0; uint32_t codepoint; const char* text = t.c_str(); // TODO no std::string while ((codepoint = UTF8_next(&text))) { text_len += get_advance(pf.font_sel, codepoint); } return text_len * pf.scale; } int height(const uint32_t flags) { PrintFlags pf = decode_print_flags(flags); if (pf.font_sel == NULL) { return 8; } return pf.font_sel->glyph_h * pf.scale; } void print( const uint32_t flags, int x, int y, const std::string& text, const uint8_t r, const uint8_t g, const uint8_t b ) { PrintFlags pf = decode_print_flags(flags); if (pf.font_sel == NULL) { return; } if (pf.align_cen || pf.align_right) { const int textlen = len(flags, text); if (pf.align_cen) { if (x == -1) { x = SCREEN_WIDTH_PIXELS / 2; } x = SDL_max(x - textlen/2, 0); } else { x -= textlen; } } if (pf.border && !graphics.notextoutline) { static const int offsets[4][2] = {{0,-1}, {-1,0}, {1,0}, {0,1}}; for (int offset = 0; offset < 4; offset++) { print( flags & ~PR_BOR & ~PR_CEN & ~PR_RIGHT, x + offsets[offset][0]*pf.scale, y + offsets[offset][1]*pf.scale, text, 0, 0, 0 ); } } int h_diff_8 = (pf.font_sel->glyph_h-8)*pf.scale; if (h_diff_8 < 0) { /* If the font is less high than 8, * just center it (lower on screen) */ y -= h_diff_8/2; } else if (pf.cjk_high) { y -= h_diff_8; } else if (!pf.cjk_low) { y -= h_diff_8/2; } int position = 0; const char* str = text.c_str(); // TODO no std::string uint32_t codepoint; while ((codepoint = UTF8_next(&str))) { position += font::print_char( pf.font_sel, codepoint, x + position, y, pf.scale, r, g, b, pf.brightness ); } } int print_wrap( uint32_t flags, const int x, int y, const std::string& text, const uint8_t r, const uint8_t g, const uint8_t b, int linespacing /*= -1*/, int maxwidth /*= -1*/ ) { PrintFlags pf = decode_print_flags(flags); if (pf.font_sel == NULL) { return y; } if (linespacing == -1) { linespacing = 10; } linespacing = SDL_max(linespacing, pf.font_sel->glyph_h * pf.scale); if (maxwidth == -1) { maxwidth = 304; } if (pf.border && !graphics.notextoutline && (r|g|b) != 0) { print_wrap(flags, x, y, text, 0, 0, 0, linespacing, maxwidth); flags &= ~PR_BOR; } const char* str = text.c_str(); // This could fit 64 non-BMP characters onscreen, should be plenty char buffer[256]; size_t start = 0; if (graphics.flipmode) { // Correct for the height of the resulting print. size_t len = 0; while (next_wrap(pf.font_sel, &start, &len, &str[start], maxwidth)) { y += linespacing; } y -= linespacing; start = 0; } while (next_wrap_buf(pf.font_sel, buffer, sizeof(buffer), &start, str, maxwidth)) { print(flags, x, y, buffer, r, g, b); if (graphics.flipmode) { y -= linespacing; } else { y += linespacing; } } return y + linespacing; } } // namespace font