/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (c) 2002 by Greg Haerr * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ /* * Rockbox startup font initialization * This file specifies which fonts get compiled-in and * loaded at startup, as well as their mapping into * the FONT_SYSFIXED, FONT_UI and FONT_MP3 ids. */ #include "config.h" #include #include #include #include "inttypes.h" #include "lcd.h" #include "system.h" #include "font.h" #include "file.h" #include "core_alloc.h" #include "debug.h" #include "panic.h" #include "rbunicode.h" #include "diacritic.h" #include "rbpaths.h" #define MAX_FONTSIZE_FOR_16_BIT_OFFSETS 0xFFDB /* max static loadable font buffer size */ #ifndef MAX_FONT_SIZE #if LCD_HEIGHT > 64 #if MEMORYSIZE > 2 #define MAX_FONT_SIZE 60000 #else #define MAX_FONT_SIZE 10000 #endif #else #define MAX_FONT_SIZE 4000 #endif #endif #ifndef FONT_HEADER_SIZE #define FONT_HEADER_SIZE 36 #endif #ifndef BOOTLOADER /* Font cache includes */ #include "font_cache.h" #include "lru.h" #endif #ifndef O_BINARY #define O_BINARY 0 #endif /* compiled-in font */ extern struct font sysfont; #ifndef BOOTLOADER struct buflib_alloc_data { struct font font; bool handle_locked; /* is the buflib handle currently locked? */ int refcount; /* how many times has this font been loaded? */ unsigned char buffer[]; }; static int buflib_allocations[MAXFONTS]; static int handle_for_glyphcache; static int buflibmove_callback(int handle, void* current, void* new) { (void)handle; struct buflib_alloc_data *alloc = (struct buflib_alloc_data*)current; size_t diff = new - current; if (alloc->handle_locked) return BUFLIB_CB_CANNOT_MOVE; if (alloc->font.bits) alloc->font.bits += diff; if (alloc->font.offset) alloc->font.offset += diff; if (alloc->font.width) alloc->font.width += diff; alloc->font.buffer_start += diff; alloc->font.buffer_end += diff; alloc->font.buffer_position += diff; if (alloc->font.cache._index) alloc->font.cache._index += diff; if (alloc->font.cache._lru._base) alloc->font.cache._lru._base += diff; return BUFLIB_CB_OK; } static void lock_font_handle(int handle, bool lock) { struct buflib_alloc_data *alloc = core_get_data(handle); alloc->handle_locked = lock; } static struct buflib_callbacks buflibops = {buflibmove_callback, NULL }; static inline struct font *pf_from_handle(int handle) { struct buflib_alloc_data *alloc = core_get_data(handle); struct font *pf = &alloc->font; return pf; } static inline unsigned char *buffer_from_handle(int handle) { struct buflib_alloc_data *alloc = core_get_data(handle); unsigned char* buffer = alloc->buffer; return buffer; } /* Font cache structures */ static void cache_create(struct font* pf); static void glyph_cache_load(struct font* pf); /* End Font cache structures */ void font_init(void) { int i = 0; while (ibuffer_position + (x) <= pf->buffer_end) /* Helper functions to read big-endian unaligned short or long from the file buffer. Bounds-checking must be done in the calling function. */ static short readshort(struct font *pf) { unsigned short s; s = *pf->buffer_position++ & 0xff; s |= (*pf->buffer_position++ << 8); return s; } static int32_t readlong(struct font *pf) { uint32_t l; l = *pf->buffer_position++ & 0xff; l |= *pf->buffer_position++ << 8; l |= ((uint32_t)(*pf->buffer_position++)) << 16; l |= ((uint32_t)(*pf->buffer_position++)) << 24; return l; } static int glyph_bytes( struct font *pf, int width ) { int ret; if (pf->depth) ret = ( pf->height * width + 1 ) / 2; else ret = width * ((pf->height + 7) / 8); return (ret + 1) & ~1; } static struct font* font_load_header(struct font *pf) { /* Check we have enough data */ if (!HAVEBYTES(28)) return NULL; /* read magic and version #*/ if (memcmp(pf->buffer_position, VERSION, 4) != 0) return NULL; pf->buffer_position += 4; /* font info*/ pf->maxwidth = readshort(pf); pf->height = readshort(pf); pf->ascent = readshort(pf); pf->depth = readshort(pf); pf->firstchar = readlong(pf); pf->defaultchar = readlong(pf); pf->size = readlong(pf); /* get variable font data sizes*/ /* # words of bitmap_t*/ pf->bits_size = readlong(pf); return pf; } /* Load memory font */ static struct font* font_load_in_memory(struct font* pf) { int32_t i, noffset, nwidth; if (!HAVEBYTES(4)) return NULL; /* # longs of offset*/ noffset = readlong(pf); /* # bytes of width*/ nwidth = readlong(pf); /* variable font data*/ pf->bits = (unsigned char *)pf->buffer_position; pf->buffer_position += pf->bits_size*sizeof(unsigned char); if (pf->bits_size < MAX_FONTSIZE_FOR_16_BIT_OFFSETS) { /* pad to 16-bit boundary */ pf->buffer_position = (unsigned char *)(((intptr_t)pf->buffer_position + 1) & ~1); } else { /* pad to 32-bit boundary*/ pf->buffer_position = (unsigned char *)(((intptr_t)pf->buffer_position + 3) & ~3); } if (noffset) { if (pf->bits_size < MAX_FONTSIZE_FOR_16_BIT_OFFSETS) { pf->long_offset = 0; pf->offset = (uint16_t*)pf->buffer_position; /* Check we have sufficient buffer */ if (!HAVEBYTES(noffset * sizeof(uint16_t))) return NULL; for (i=0; ioffset))[i] = (uint16_t)readshort(pf); } } else { pf->long_offset = 1; pf->offset = (uint16_t*)pf->buffer_position; /* Check we have sufficient buffer */ if (!HAVEBYTES(noffset * sizeof(int32_t))) return NULL; for (i=0; ioffset))[i] = (uint32_t)readlong(pf); } } } else pf->offset = NULL; if (nwidth) { pf->width = (unsigned char *)pf->buffer_position; pf->buffer_position += nwidth*sizeof(unsigned char); } else pf->width = NULL; if (pf->buffer_position > pf->buffer_end) return NULL; return pf; /* success!*/ } /* Load cached font */ static struct font* font_load_cached(struct font* pf) { uint32_t noffset, nwidth; unsigned char* oldfileptr = pf->buffer_position; if (!HAVEBYTES(2 * sizeof(int32_t))) return NULL; /* # longs of offset*/ noffset = readlong(pf); /* # bytes of width*/ nwidth = readlong(pf); /* We are now at the bitmap data, this is fixed at 36.. */ pf->bits = NULL; /* Calculate offset to offset data */ pf->buffer_position += pf->bits_size * sizeof(unsigned char); if (pf->bits_size < MAX_FONTSIZE_FOR_16_BIT_OFFSETS) { pf->long_offset = 0; /* pad to 16-bit boundary */ pf->buffer_position = (unsigned char *)(((intptr_t)pf->buffer_position + 1) & ~1); } else { pf->long_offset = 1; /* pad to 32-bit boundary*/ pf->buffer_position = (unsigned char *)(((intptr_t)pf->buffer_position + 3) & ~3); } if (noffset) pf->file_offset_offset = (uint32_t)(pf->buffer_position - pf->buffer_start); else pf->file_offset_offset = 0; /* Calculate offset to widths data */ if (pf->bits_size < MAX_FONTSIZE_FOR_16_BIT_OFFSETS) pf->buffer_position += noffset * sizeof(uint16_t); else pf->buffer_position += noffset * sizeof(uint32_t); if (nwidth) pf->file_width_offset = (uint32_t)(pf->buffer_position - pf->buffer_start); else pf->file_width_offset = 0; pf->buffer_position = oldfileptr; /* Create the cache */ cache_create(pf); return pf; } static void font_reset(int font_id) { struct font *pf = pf_from_handle(buflib_allocations[font_id]); // fixme memset(pf, 0, sizeof(struct font)); pf->fd = -1; } static bool internal_load_font(int font_id, const char *path, char *buf, size_t buf_size) { size_t size; struct font* pf = pf_from_handle(buflib_allocations[font_id]); /* save loaded glyphs */ glyph_cache_save(pf); /* Close font file handle */ if (pf->fd >= 0) close(pf->fd); font_reset(font_id); /* open and read entire font file*/ pf->fd = open(path, O_RDONLY|O_BINARY); if (pf->fd < 0) { DEBUGF("Can't open font: %s\n", path); return false; } /* Check file size */ size = filesize(pf->fd); pf->buffer_start = buf; pf->buffer_size = buf_size; pf->buffer_position = buf; if (size > pf->buffer_size) { read(pf->fd, pf->buffer_position, FONT_HEADER_SIZE); pf->buffer_end = pf->buffer_position + FONT_HEADER_SIZE; if (!font_load_header(pf)) { DEBUGF("Failed font header load"); close(pf->fd); pf->fd = -1; return false; } if (!font_load_cached(pf)) { DEBUGF("Failed font cache load"); close(pf->fd); pf->fd = -1; return false; } glyph_cache_load(pf); } else { read(pf->fd, pf->buffer_position, pf->buffer_size); pf->buffer_end = pf->buffer_position + size; close(pf->fd); pf->fd = -1; if (!font_load_header(pf)) { DEBUGF("Failed font header load"); return false; } if (!font_load_in_memory(pf)) { DEBUGF("Failed mem load"); return false; } } return true; } static int find_font_index(const char* path) { int index = 0, handle; while (index < MAXFONTS) { handle = buflib_allocations[index]; if (handle > 0 && !strcmp(core_get_name(handle), path)) return index; index++; } return FONT_SYSFIXED; } static int alloc_and_init(int font_idx, const char* name, size_t size) { int *phandle = &buflib_allocations[font_idx]; int handle = *phandle; struct buflib_alloc_data *pdata; struct font *pf; size_t alloc_size = size + sizeof(struct buflib_alloc_data); if (handle > 0) return handle; *phandle = core_alloc_ex(name, alloc_size, &buflibops); handle = *phandle; if (handle < 0) return handle; pdata = core_get_data(handle); pf = &pdata->font; font_reset(font_idx); pdata->handle_locked = false; pdata->refcount = 1; pf->buffer_position = pf->buffer_start = buffer_from_handle(handle); pf->buffer_size = size; return handle; } const char* font_filename(int font_id) { int handle = buflib_allocations[font_id]; if (handle > 0) return core_get_name(handle); return NULL; } /* read and load font into incore font structure, * returns the font number on success, -1 on failure */ int font_load_ex(const char *path, size_t buffer_size) { int font_id = find_font_index(path); char *buffer; int *handle; if (font_id > FONT_SYSFIXED) { /* already loaded, no need to reload */ struct buflib_alloc_data *pd = core_get_data(buflib_allocations[font_id]); if (pd->font.buffer_size < buffer_size) { int old_refcount, old_id; /* reload the font: * 1) save of refcont and id * 2) force unload (set refcount to 1 to make sure it get unloaded) * 3) reload with the larger buffer * 4) restore the id and refcount */ old_id = font_id; old_refcount = pd->refcount; pd->refcount = 1; font_unload(font_id); font_id = font_load_ex(path, buffer_size); if (font_id < 0) { // not much we can do here, maybe try reloading with the small buffer again return -1; } if (old_id != font_id) { buflib_allocations[old_id] = buflib_allocations[font_id]; buflib_allocations[font_id] = -1; font_id = old_id; } pd = core_get_data(buflib_allocations[font_id]); pd->refcount = old_refcount; } pd->refcount++; //printf("reusing handle %d for %s (count: %d)\n", font_id, path, pd->refcount); return font_id; } for (font_id = FONT_FIRSTUSERFONT; font_id < MAXFONTS; font_id++) { handle = &buflib_allocations[font_id]; if (*handle < 0) { break; } } handle = &buflib_allocations[font_id]; *handle = alloc_and_init(font_id, path, buffer_size); if (*handle < 0) return -1; if (handle_for_glyphcache < 0) handle_for_glyphcache = *handle; buffer = buffer_from_handle(*handle); lock_font_handle(*handle, true); if (!internal_load_font(font_id, path, buffer, buffer_size)) { lock_font_handle(*handle, false); core_free(*handle); *handle = -1; return -1; } lock_font_handle(*handle, false); //printf("%s -> [%d] -> %d\n", path, font_id, *handle); return font_id; /* success!*/ } int font_load(const char *path) { int size; int fd = open( path, O_RDONLY ); if ( fd < 0 ) return -1; size = filesize(fd); if (size > MAX_FONT_SIZE) size = MAX_FONT_SIZE; return font_load_ex(path, size); } void font_unload(int font_id) { int *handle = &buflib_allocations[font_id]; struct buflib_alloc_data *pdata = core_get_data(*handle); struct font* pf = &pdata->font; pdata->refcount--; if (pdata->refcount < 1) { //printf("freeing id: %d %s\n", font_id, core_get_name(*handle)); if (pf && pf->fd >= 0) close(pf->fd); if (*handle > 0) core_free(*handle); if (handle_for_glyphcache == *handle) handle_for_glyphcache = -1; // should find the next available handle *handle = -1; } } /* * Return a pointer to an incore font structure. * If the requested font isn't loaded/compiled-in, * decrement the font number and try again. */ struct font* font_get(int font) { struct font* pf; if (font == FONT_UI) font = MAXFONTS-1; if (font <= FONT_SYSFIXED) return &sysfont; while (1) { struct buflib_alloc_data *alloc = core_get_data(buflib_allocations[font]); pf = &alloc->font; if (pf && pf->height) return pf; if (--font < 0) return &sysfont; } } static int pf_to_handle(struct font* pf) { int i; for (i=0; i 0) { struct buflib_alloc_data *pdata = core_get_data(handle); if (pf == &pdata->font) return handle; } } return -1; } /* * Reads an entry into cache entry */ static void load_cache_entry(struct font_cache_entry* p, void* callback_data) { struct font* pf = callback_data; int handle = pf_to_handle(pf); unsigned short char_code = p->_char_code; unsigned char tmp[2]; if (handle > 0) lock_font_handle(handle, true); if (pf->file_width_offset) { int width_offset = pf->file_width_offset + char_code; lseek(pf->fd, width_offset, SEEK_SET); read(pf->fd, &(p->width), 1); } else { p->width = pf->maxwidth; } int32_t bitmap_offset = 0; if (pf->file_offset_offset) { int32_t offset = pf->file_offset_offset + char_code * (pf->long_offset ? sizeof(int32_t) : sizeof(int16_t)); lseek(pf->fd, offset, SEEK_SET); read (pf->fd, tmp, 2); bitmap_offset = tmp[0] | (tmp[1] << 8); if (pf->long_offset) { read (pf->fd, tmp, 2); bitmap_offset |= (tmp[0] << 16) | (tmp[1] << 24); } } else { bitmap_offset = char_code * glyph_bytes(pf, p->width); } int32_t file_offset = FONT_HEADER_SIZE + bitmap_offset; lseek(pf->fd, file_offset, SEEK_SET); int src_bytes = glyph_bytes(pf, p->width); read(pf->fd, p->bitmap, src_bytes); if (handle > 0) lock_font_handle(handle, false); } /* * Converts cbuf into a font cache */ static void cache_create(struct font* pf) { /* maximum size of rotated bitmap */ int bitmap_size = glyph_bytes( pf, pf->maxwidth); /* Initialise cache */ font_cache_create(&pf->cache, pf->buffer_start, pf->buffer_size, bitmap_size); } /* * Returns width of character */ int font_get_width(struct font* pf, unsigned short char_code) { /* check input range*/ if (char_code < pf->firstchar || char_code >= pf->firstchar+pf->size) char_code = pf->defaultchar; char_code -= pf->firstchar; return (pf->fd >= 0 && pf != &sysfont)? font_cache_get(&pf->cache,char_code,load_cache_entry,pf)->width: pf->width? pf->width[char_code]: pf->maxwidth; } const unsigned char* font_get_bits(struct font* pf, unsigned short char_code) { const unsigned char* bits; /* check input range*/ if (char_code < pf->firstchar || char_code >= pf->firstchar+pf->size) char_code = pf->defaultchar; char_code -= pf->firstchar; if (pf->fd >= 0 && pf != &sysfont) { bits = (unsigned char*)font_cache_get(&pf->cache,char_code,load_cache_entry, pf)->bitmap; } else { bits = pf->bits; if (pf->offset) { if (pf->bits_size < MAX_FONTSIZE_FOR_16_BIT_OFFSETS) bits += ((uint16_t*)(pf->offset))[char_code]; else bits += ((uint32_t*)(pf->offset))[char_code]; } else bits += char_code * glyph_bytes(pf, pf->maxwidth); } return bits; } static int cache_fd; static void glyph_file_write(void* data) { struct font_cache_entry* p = data; int handle = handle_for_glyphcache; struct font* pf = pf_from_handle(handle); unsigned short ch; unsigned char tmp[2]; if ( p->_char_code == 0xffff ) return; ch = p->_char_code + pf->firstchar; if ( cache_fd >= 0) { tmp[0] = ch >> 8; tmp[1] = ch & 0xff; if (write(cache_fd, tmp, 2) != 2) { close(cache_fd); cache_fd = -1; } } return; } /* save the char codes of the loaded glyphs to a file */ void glyph_cache_save(struct font* pf) { if (pf != pf_from_handle(handle_for_glyphcache)) return; if (pf->fd >= 0) { cache_fd = open(GLYPH_CACHE_FILE, O_WRONLY|O_CREAT|O_TRUNC, 0666); if (cache_fd < 0) return; lru_traverse(&pf->cache._lru, glyph_file_write); if (cache_fd >= 0) { close(cache_fd); cache_fd = -1; } } return; } int font_glyphs_to_bufsize(const char *path, int glyphs) { struct font f; int bufsize; char buf[FONT_HEADER_SIZE]; f.buffer_start = buf; f.buffer_size = sizeof(buf); f.buffer_position = buf; f.fd = open(path, O_RDONLY|O_BINARY); if(f.fd < 0) return 0; read(f.fd, f.buffer_position, FONT_HEADER_SIZE); f.buffer_end = f.buffer_position + FONT_HEADER_SIZE; if( !font_load_header(&f) ) { close(f.fd); return 0; } close(f.fd); bufsize = LRU_SLOT_OVERHEAD + sizeof(struct font_cache_entry) + sizeof( unsigned short); bufsize += glyph_bytes(&f, f.maxwidth); bufsize *= glyphs; if ( bufsize < FONT_HEADER_SIZE ) bufsize = FONT_HEADER_SIZE; return bufsize; } static int ushortcmp(const void *a, const void *b) { return ((int)(*(unsigned short*)a - *(unsigned short*)b)); } static void glyph_cache_load(struct font* pf) { if (handle_for_glyphcache <= 0) return; #define MAX_SORT 256 if (pf->fd >= 0 && pf == pf_from_handle(handle_for_glyphcache)) { int fd; int i, size; unsigned char tmp[2]; unsigned short ch; unsigned short glyphs[MAX_SORT]; unsigned short glyphs_lru_order[MAX_SORT]; int glyph_file_skip=0, glyph_file_size=0; int sort_size = pf->cache._capacity; if ( sort_size > MAX_SORT ) sort_size = MAX_SORT; fd = open(GLYPH_CACHE_FILE, O_RDONLY|O_BINARY); if (fd >= 0) { /* only read what fits */ glyph_file_size = filesize( fd ); if ( glyph_file_size > 2*pf->cache._capacity ) { glyph_file_skip = glyph_file_size - 2*pf->cache._capacity; lseek( fd, glyph_file_skip, SEEK_SET ); } while(1) { for ( size = 0; read( fd, tmp, 2 ) == 2 && size < sort_size; size++ ) { glyphs[size] = (tmp[0] << 8) | tmp[1]; glyphs_lru_order[size] = glyphs[size]; } /* sort glyphs array to make sector cache happy */ qsort((void *)glyphs, size, sizeof(unsigned short), ushortcmp ); /* load font bitmaps */ i = 0; font_get_bits(pf, glyphs[i]); for ( i = 1; i < size ; i++) { if ( glyphs[i] != glyphs[i-1] ) font_get_bits(pf, glyphs[i]); } /* redo to fix lru order */ for ( i = 0; i < size ; i++) font_get_bits(pf, glyphs_lru_order[i]); if ( size < sort_size ) break; } close(fd); } else { /* load latin1 chars into cache */ for ( ch = 32 ; ch < 256 && ch < pf->cache._capacity + 32; ch++ ) font_get_bits(pf, ch); } } return; } #else /* BOOTLOADER */ void font_init(void) { } /* * Bootloader only supports the built-in sysfont. */ struct font* font_get(int font) { (void)font; return &sysfont; } /* * Returns width of character */ int font_get_width(struct font* pf, unsigned short char_code) { /* check input range*/ if (char_code < pf->firstchar || char_code >= pf->firstchar+pf->size) char_code = pf->defaultchar; char_code -= pf->firstchar; return pf->width? pf->width[char_code]: pf->maxwidth; } const unsigned char* font_get_bits(struct font* pf, unsigned short char_code) { const unsigned char* bits; /* check input range*/ if (char_code < pf->firstchar || char_code >= pf->firstchar+pf->size) char_code = pf->defaultchar; char_code -= pf->firstchar; /* assume small font with uint16_t offsets*/ bits = pf->bits + (pf->offset? ((uint16_t*)(pf->offset))[char_code]: (((pf->height + 7) / 8) * pf->maxwidth * char_code)); return bits; } #endif /* BOOTLOADER */ /* * Returns the stringsize of a given string. */ int font_getstringsize(const unsigned char *str, int *w, int *h, int fontnumber) { struct font* pf = font_get(fontnumber); unsigned short ch; int width = 0; for (str = utf8decode(str, &ch); ch != 0 ; str = utf8decode(str, &ch)) { if (is_diacritic(ch, NULL)) continue; /* get proportional width and glyph bits*/ width += font_get_width(pf,ch); } if ( w ) *w = width; if ( h ) *h = pf->height; return width; } /* ----------------------------------------------------------------- * vim: et sw=4 ts=8 sts=4 tw=78 */