/* * libcucul Canvas for ultrafast compositing of Unicode letters * Copyright (c) 2002-2006 Sam Hocevar * All Rights Reserved * * $Id$ * * This library is free software; you can redistribute it and/or * modify it under the terms of the Do What The Fuck You Want To * Public License, Version 2, as published by Sam Hocevar. See * http://sam.zoy.org/wtfpl/COPYING for more details. */ /* * This file contains font handling functions. */ #include "config.h" #include "common.h" #if !defined(__KERNEL__) # if defined(HAVE_ENDIAN_H) # include # endif # if defined(HAVE_ARPA_INET_H) # include # elif defined(HAVE_NETINET_IN_H) # include # endif # if defined(HAVE_ERRNO_H) # include # endif # include # include # include #endif #include "cucul.h" #include "cucul_internals.h" /* Internal fonts */ #include "font_mono9.h" #include "font_monobold12.h" /* Helper structures for font loading */ #if !defined(_DOXYGEN_SKIP_ME) struct font_header { uint32_t control_size, data_size; uint16_t version, blocks; uint32_t glyphs; uint16_t bpp, width, height, flags; }; struct block_info { uint32_t start, stop, index; }; struct glyph_info { uint16_t width, height; uint32_t data_offset; }; struct cucul_font { struct font_header header; struct block_info *block_list; unsigned long int *user_block_list; struct glyph_info *glyph_list; uint8_t *font_data; uint8_t *private; }; #endif #define DECLARE_UNPACKGLYPH(bpp) \ static inline void \ unpack_glyph ## bpp(uint8_t *glyph, uint8_t *packed_data, \ unsigned int n) \ { \ unsigned int i; \ \ for(i = 0; i < n; i++) \ { \ uint8_t pixel = packed_data[i / (8 / bpp)]; \ pixel >>= bpp * ((8 / bpp) - 1 - (i % (8 / bpp))); \ pixel %= (1 << bpp); \ pixel *= 0xff / ((1 << bpp) - 1); \ *glyph++ = pixel; \ } \ } DECLARE_UNPACKGLYPH(4) DECLARE_UNPACKGLYPH(2) DECLARE_UNPACKGLYPH(1) /** \brief Load a font from memory for future use. * * This function loads a font and returns a handle to its internal * structure. The handle can then be used with cucul_render_canvas() * for bitmap output. * * Internal fonts can also be loaded: if \c size is set to 0, \c data must * be a string containing the internal font name. * * If \c size is non-zero, the \c size bytes of memory at address \c data * are loaded as a font. This memory are must not be freed by the calling * program until the font handle has been freed with cucul_free_font(). * * If an error occurs, NULL is returned and \b errno is set accordingly: * - \c ENOENT Requested built-in font does not exist. * - \c EINVAL Invalid font data in memory area. * - \c ENOMEM Not enough memory to allocate font structure. * * \param data The memory area containing the font or its name. * \param size The size of the memory area, or 0 if the font name is given. * \return A font handle or NULL in case of error. */ cucul_font_t *cucul_load_font(void const *data, unsigned int size) { cucul_font_t *f; unsigned int i; if(size == 0) { if(!strcasecmp(data, "Monospace 9")) return cucul_load_font((char *)&mono9_data, mono9_size); if(!strcasecmp(data, "Monospace Bold 12")) return cucul_load_font((char *)&monobold12_data, monobold12_size); #if defined(HAVE_ERRNO_H) errno = ENOENT; #endif return NULL; } if(size < sizeof(struct font_header)) { #if defined(HAVE_ERRNO_H) errno = EINVAL; #endif return NULL; } f = malloc(sizeof(cucul_font_t)); if(!f) { #if defined(HAVE_ERRNO_H) errno = ENOMEM; #endif return NULL; } f->private = (void *)(uintptr_t)data; memcpy(&f->header, f->private + 8, sizeof(struct font_header)); f->header.control_size = hton32(f->header.control_size); f->header.data_size = hton32(f->header.data_size); f->header.version = hton16(f->header.version); f->header.blocks = hton16(f->header.blocks); f->header.glyphs = hton32(f->header.glyphs); f->header.bpp = hton16(f->header.bpp); f->header.width = hton16(f->header.width); f->header.height = hton16(f->header.height); f->header.flags = hton16(f->header.flags); if(size != 8 + f->header.control_size + f->header.data_size || (f->header.bpp != 8 && f->header.bpp != 4 && f->header.bpp != 2 && f->header.bpp != 1) || (f->header.flags & 1) == 0) { free(f); #if defined(HAVE_ERRNO_H) errno = EINVAL; #endif return NULL; } f->block_list = malloc(f->header.blocks * sizeof(struct block_info)); if(!f->block_list) { free(f); #if defined(HAVE_ERRNO_H) errno = ENOMEM; #endif return NULL; } f->user_block_list = malloc((f->header.blocks + 1) * 2 * sizeof(unsigned long int)); if(!f->user_block_list) { free(f->block_list); free(f); #if defined(HAVE_ERRNO_H) errno = ENOMEM; #endif return NULL; } memcpy(f->block_list, f->private + 8 + sizeof(struct font_header), f->header.blocks * sizeof(struct block_info)); for(i = 0; i < f->header.blocks; i++) { f->block_list[i].start = hton32(f->block_list[i].start); f->block_list[i].stop = hton32(f->block_list[i].stop); f->block_list[i].index = hton32(f->block_list[i].index); if(f->block_list[i].start > f->block_list[i].stop || (i > 0 && f->block_list[i].start < f->block_list[i - 1].stop) || f->block_list[i].index >= f->header.glyphs) { free(f->user_block_list); free(f->block_list); free(f); #if defined(HAVE_ERRNO_H) errno = EINVAL; #endif return NULL; } f->user_block_list[i * 2] = f->block_list[i].start; f->user_block_list[i * 2 + 1] = f->block_list[i].stop; } f->user_block_list[i * 2] = 0; f->user_block_list[i * 2 + 1] = 0; f->glyph_list = malloc(f->header.glyphs * sizeof(struct glyph_info)); if(!f->glyph_list) { free(f->user_block_list); free(f->block_list); free(f); #if defined(HAVE_ERRNO_H) errno = ENOMEM; #endif return NULL; } memcpy(f->glyph_list, f->private + 8 + sizeof(struct font_header) + f->header.blocks * sizeof(struct block_info), f->header.glyphs * sizeof(struct glyph_info)); for(i = 0; i < f->header.glyphs; i++) { f->glyph_list[i].width = hton16(f->glyph_list[i].width); f->glyph_list[i].height = hton16(f->glyph_list[i].height); f->glyph_list[i].data_offset = hton32(f->glyph_list[i].data_offset); if(f->glyph_list[i].data_offset >= f->header.data_size || f->glyph_list[i].data_offset + (f->glyph_list[i].width * f->glyph_list[i].height * f->header.bpp + 7) / 8 > f->header.data_size) { free(f->glyph_list); free(f->user_block_list); free(f->block_list); free(f); #if defined(HAVE_ERRNO_H) errno = EINVAL; #endif return NULL; } } f->font_data = f->private + 8 + f->header.control_size; return f; } /** \brief Get available builtin fonts * * Return a list of available builtin fonts. The list is a NULL-terminated * array of strings. * * This function never fails. * * \return An array of strings. */ char const * const * cucul_get_font_list(void) { static char const * const list[] = { "Monospace 9", "Monospace Bold 12", NULL }; return list; } /** \brief Get a font's maximum glyph width. * * This function returns the maximum value for the current font's glyphs * * This function never fails. * * \param f The font, as returned by cucul_load_font() * \return The maximum glyph width. */ unsigned int cucul_get_font_width(cucul_font_t *f) { return f->header.width; } /** \brief Get a font's maximum glyph height. * * This function returns the maximum value for the current font's glyphs * * This function never fails. * * \param f The font, as returned by cucul_load_font() * \return The maximum glyph height. */ unsigned int cucul_get_font_height(cucul_font_t *f) { return f->header.height; } /** \brief Get a font's list of supported glyphs. * * This function returns the list of Unicode blocks supported by the * given font. The list is a zero-terminated list of indices. Here is * an example: * * \code * { * 0x0, 0x80, // Basic latin: A, B, C, a, b, c * 0x80, 0x100, // Latin-1 supplement: "A, 'e, ^u * 0x530, 0x590, // Armenian * 0x0, 0x0, // END * }; * \endcode * * This function never fails. * * \param f The font, as returned by cucul_load_font() * \return The list of Unicode blocks supported by the font. */ unsigned long int const *cucul_get_font_blocks(cucul_font_t *f) { return (unsigned long int const *)f->user_block_list; } /** \brief Free a font structure. * * This function frees all data allocated by cucul_load_font(). The * font structure is no longer usable by other libcucul functions. Once * this function has returned, the memory area that was given to * cucul_load_font() can be freed. * * This function never fails. * * \param f The font, as returned by cucul_load_font() * \return This function always returns 0. */ int cucul_free_font(cucul_font_t *f) { free(f->glyph_list); free(f->user_block_list); free(f->block_list); free(f); return 0; } /** \brief Render the canvas onto an image buffer. * * This function renders the given canvas on an image buffer using a specific * font. The pixel format is fixed (32-bit ARGB, 8 bits for each component). * * The required image width can be computed using * cucul_get_canvas_width() and cucul_get_font_width(). The required * height can be computed using cucul_get_canvas_height() and * cucul_get_font_height(). * * Glyphs that do not fit in the image buffer are currently not rendered at * all. They may be cropped instead in future versions. * * This function never fails. * * \param cv The canvas to render * \param f The font, as returned by cucul_load_font() * \param buf The image buffer * \param width The width (in pixels) of the image buffer * \param height The height (in pixels) of the image buffer * \param pitch The pitch (in bytes) of an image buffer line. * \return This function always returns 0. */ int cucul_render_canvas(cucul_canvas_t *cv, cucul_font_t *f, void *buf, unsigned int width, unsigned int height, unsigned int pitch) { uint8_t *glyph = NULL; unsigned int x, y, xmax, ymax; if(f->header.bpp != 8) glyph = malloc(f->header.width * f->header.height); if(width < cv->width * f->header.width) xmax = width / f->header.width; else xmax = cv->width; if(height < cv->height * f->header.height) ymax = height / f->header.height; else ymax = cv->height; for(y = 0; y < ymax; y++) { for(x = 0; x < xmax; x++) { uint8_t argb[8]; unsigned int starty = y * f->header.height; unsigned int startx = x * f->header.width; uint32_t ch = cv->chars[y * cv->width + x]; uint32_t attr = cv->attr[y * cv->width + x]; unsigned int b, i, j; struct glyph_info *g; /* Find the Unicode block where our glyph lies */ for(b = 0; b < f->header.blocks; b++) { if(ch < f->block_list[b].start) { b = f->header.blocks; break; } if(ch < f->block_list[b].stop) break; } /* Glyph not in font? Skip it. */ if(b == f->header.blocks) continue; g = &f->glyph_list[f->block_list[b].index + ch - f->block_list[b].start]; _cucul_argb32_to_argb4(attr, argb); /* Step 1: unpack glyph */ switch(f->header.bpp) { case 8: glyph = f->font_data + g->data_offset; break; case 4: unpack_glyph4(glyph, f->font_data + g->data_offset, g->width * g->height); break; case 2: unpack_glyph2(glyph, f->font_data + g->data_offset, g->width * g->height); break; case 1: unpack_glyph1(glyph, f->font_data + g->data_offset, g->width * g->height); break; } /* Step 2: render glyph using colour attribute */ for(j = 0; j < g->height; j++) { uint8_t *line = buf; line += (starty + j) * pitch + 4 * startx; for(i = 0; i < g->width; i++) { uint8_t *pixel = line + 4 * i; uint32_t p, q, t; p = glyph[j * g->width + i]; q = 0xff - p; for(t = 0; t < 4; t++) pixel[t] = (((q * argb[t]) + (p * argb[4 + t])) / 0xf); } } } } if(f->header.bpp != 8) free(glyph); return 0; } /* * The libcaca font format, version 1 * ---------------------------------- * * All types are big endian. * * struct * { * uint8_t caca_header[4]; // "CACA" * uint8_t caca_file_type[4]; // "FONT" * * font_header: * uint32_t control_size; // Control size (font_data - font_header) * uint32_t data_size; // Data size (EOF - font_data) * * uint16_t version; // Font format version * // bit 0: set to 1 if font is compatible * // with version 1 of the format * // bits 1-15: unused yet, must be 0 * * uint16_t blocks; // Number of blocks in the font * uint32_t glyphs; // Total number of glyphs in the font * * uint16_t bpp; // Bits per pixel for glyph data (valid * // Values are 1, 2, 4 and 8) * uint16_t width; // Maximum glyph width * uint16_t height; // Maximum glyph height * * uint16_t flags; // Feature flags * // bit 0: set to 1 if font is fixed width * // bits 1-15: unused yet, must be 0 * * block_info: * struct * { * uint32_t start; // Unicode index of the first glyph * uint32_t stop; // Unicode index of the last glyph + 1 * uint32_t index; // Glyph info index of the first glyph * } * block_list[blocks]; * * glyph_info: * struct * { * uint16_t width; // Glyph width in pixels * uint16_t height; // Glyph height in pixels * uint32_t data_offset; // Offset (starting from data) to the data * // for the first character * } * glyph_list[glyphs]; * * extension_1: * extension_2: * ... * extension_N: * ... // reserved for future use * * font_data: * uint8_t data[data_size]; // glyph data * }; */