/* * 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 functions for converting colour values between * various colourspaces. */ #include "config.h" #include "common.h" #if defined(HAVE_ERRNO_H) # include #endif #include "cucul.h" #include "cucul_internals.h" static const uint16_t ansitab[16] = { 0xf000, 0xf008, 0xf080, 0xf088, 0xf800, 0xf808, 0xf880, 0xf888, 0xf444, 0xf44f, 0xf4f4, 0xf4ff, 0xff44, 0xff4f, 0xfff4, 0xffff, }; /** \brief Set the default colour pair. * * This function sets the default ANSI colour pair. String functions such as * caca_printf() and graphical primitive functions such as caca_draw_line() * will use these colours. * * Color values are those defined in cucul.h, such as CUCUL_COLOR_RED * or CUCUL_COLOR_TRANSPARENT. * * If an error occurs, -1 is returned and \b errno is set accordingly: * - \c EINVAL At least one of the colour values is invalid. * * \param cv A handle to the libcucul canvas. * \param fg The requested foreground colour. * \param bg The requested background colour. * \return 0 in case of success, -1 if an error occurred. */ int cucul_set_color(cucul_canvas_t *cv, unsigned char fg, unsigned char bg) { if(fg > 0x20 || bg > 0x20) { #if defined(HAVE_ERRNO_H) errno = EINVAL; #endif return -1; } cv->fgcolor = fg; cv->bgcolor = bg; return 0; } /** \brief Set the default colour pair (truecolor version). * * This function sets the default colour pair. String functions such as * caca_printf() and graphical primitive functions such as caca_draw_line() * will use these colours. * * Colors are 16-bit ARGB values, each component being coded on 4 bits. For * instance, 0xf088 is solid dark cyan (A=15 R=0 G=8 B=8), and 0x8fff is * white with 50% alpha (A=8 R=15 G=15 B=15). * * If an error occurs, -1 is returned and \b errno is set accordingly: * - \c EINVAL At least one of the colour values is invalid. * * \param cv A handle to the libcucul canvas. * \param fg The requested foreground colour. * \param bg The requested background colour. * \return 0 in case of success, -1 if an error occurred. */ int cucul_set_truecolor(cucul_canvas_t *cv, unsigned int fg, unsigned int bg) { if(fg > 0xffff || bg > 0xffff) { #if defined(HAVE_ERRNO_H) errno = EINVAL; #endif return -1; } if(fg < 0x100) fg += 0x100; if(bg < 0x100) bg += 0x100; cv->fgcolor = fg; cv->bgcolor = bg; return 0; } /* * XXX: the following functions are local */ static uint8_t nearest_ansi(uint16_t argb16, uint8_t def) { unsigned int i, best, dist; if(argb16 < CUCUL_COLOR_DEFAULT) return argb16; if(argb16 == CUCUL_COLOR_DEFAULT || argb16 == CUCUL_COLOR_TRANSPARENT) return def; if(argb16 < 0x5fff) /* too transparent, return default colour */ return def; best = def; dist = 0xffff; for(i = 0; i < 16; i++) { unsigned int d = 0; int a, b; a = (ansitab[i] >> 8) & 0xf; b = (argb16 >> 8) & 0xf; d += (a - b) * (a - b); a = (ansitab[i] >> 4) & 0xf; b = (argb16 >> 4) & 0xf; d += (a - b) * (a - b); a = ansitab[i] & 0xf; b = argb16 & 0xf; d += (a - b) * (a - b); if(d < dist) { dist = d; best = i; } } return best; } uint8_t _cucul_argb32_to_ansi8(uint32_t ch) { uint16_t fg = ch & 0xffff; uint16_t bg = ch >> 16; return nearest_ansi(fg, CUCUL_COLOR_LIGHTGRAY) | (nearest_ansi(bg, CUCUL_COLOR_BLACK) << 4); } uint8_t _cucul_argb32_to_ansi4fg(uint32_t ch) { return nearest_ansi(ch & 0xffff, CUCUL_COLOR_LIGHTGRAY); } uint8_t _cucul_argb32_to_ansi4bg(uint32_t ch) { return nearest_ansi(ch >> 16, CUCUL_COLOR_BLACK); } uint16_t _cucul_argb32_to_rgb12fg(uint32_t ch) { uint16_t fg = ch & 0xffff; if(fg < CUCUL_COLOR_DEFAULT) return ansitab[fg] & 0x0fff; if(fg == CUCUL_COLOR_DEFAULT) return ansitab[CUCUL_COLOR_LIGHTGRAY] & 0x0fff; if(fg == CUCUL_COLOR_TRANSPARENT) return ansitab[CUCUL_COLOR_LIGHTGRAY] & 0x0fff; return fg & 0x0fff; } uint16_t _cucul_argb32_to_rgb12bg(uint32_t ch) { uint16_t bg = ch >> 16; if(bg < CUCUL_COLOR_DEFAULT) return ansitab[bg] & 0x0fff; if(bg == CUCUL_COLOR_DEFAULT) return ansitab[CUCUL_COLOR_BLACK] & 0x0fff; if(bg == CUCUL_COLOR_TRANSPARENT) return ansitab[CUCUL_COLOR_BLACK] & 0x0fff; return bg & 0x0fff; } #define RGB12TO24(i) \ (((uint32_t)((i & 0xf00) >> 8) * 0x110000) \ | ((uint32_t)((i & 0x0f0) >> 4) * 0x001100) \ | ((uint32_t)(i & 0x00f) * 0x000011)) uint32_t _cucul_argb32_to_rgb24fg(uint32_t ch) { return RGB12TO24(_cucul_argb32_to_rgb12fg(ch)); } uint32_t _cucul_argb32_to_rgb24bg(uint32_t ch) { return RGB12TO24(_cucul_argb32_to_rgb12bg(ch)); } void _cucul_argb32_to_argb4(uint32_t ch, uint8_t argb[8]) { uint16_t fg = ch & 0xffff; uint16_t bg = ch >> 16; if(fg < CUCUL_COLOR_DEFAULT) fg = ansitab[fg]; else if(fg == CUCUL_COLOR_DEFAULT) fg = ansitab[CUCUL_COLOR_LIGHTGRAY]; else if(fg == CUCUL_COLOR_TRANSPARENT) fg = 0x0fff; if(bg < CUCUL_COLOR_DEFAULT) bg = ansitab[bg]; else if(bg == CUCUL_COLOR_DEFAULT) bg = ansitab[CUCUL_COLOR_BLACK]; else if(bg == CUCUL_COLOR_TRANSPARENT) bg = 0x0fff; argb[0] = bg >> 12; argb[1] = (bg >> 8) & 0xf; argb[2] = (bg >> 4) & 0xf; argb[3] = bg & 0xf; argb[4] = fg >> 12; argb[5] = (fg >> 8) & 0xf; argb[6] = (fg >> 4) & 0xf; argb[7] = fg & 0xf; }