/* * libcucul Canvas for ultrafast compositing of Unicode letters * Copyright (c) 2002-2006 Sam Hocevar * All Rights Reserved * * $Id$ * * This library is free software. It comes without any warranty, to * the extent permitted by applicable law. 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 various import functions. */ #include "config.h" #include "common.h" #if !defined __KERNEL__ # include # include # include #endif #include "cucul.h" #include "cucul_internals.h" static inline uint32_t sscanu32(void const *s) { uint32_t x; memcpy(&x, s, 4); return hton32(x); } static inline uint16_t sscanu16(void const *s) { uint16_t x; memcpy(&x, s, 2); return hton16(x); } struct import { uint32_t clearattr; /* ANSI Graphic Rendition Combination Mode */ uint8_t fg, bg; /* ANSI-context fg/bg */ uint8_t dfg, dbg; /* Default fg/bg */ uint8_t bold, blink, italics, negative, concealed, underline; uint8_t faint, strike, proportional; /* unsupported */ }; static long int import_caca(cucul_canvas_t *, void const *, unsigned int); static long int import_text(cucul_canvas_t *, void const *, unsigned int); static long int import_ansi(cucul_canvas_t *, void const *, unsigned int, int); static void ansi_parse_grcm(cucul_canvas_t *, struct import *, unsigned int, unsigned int const *); /** \brief Import a memory buffer into a canvas * * Import a memory buffer into the given libcucul canvas's current * frame. The current frame is resized accordingly and its contents are * replaced with the imported data. * * Valid values for \c format are: * - \c "": attempt to autodetect the file format. * - \c "caca": import native libcaca files. * - \c "text": import ASCII text files. * - \c "ansi": import ANSI files. * - \c "utf8": import UTF-8 files with ANSI colour codes. * * The number of bytes read is returned. If the file format is valid, but * not enough data was available, 0 is returned. * * If an error occurs, -1 is returned and \b errno is set accordingly: * - \c ENOMEM Not enough memory to allocate canvas. * - \c EINVAL Invalid format requested. * * \param cv A libcucul canvas in which to import the file. * \param data A memory area containing the data to be loaded into the canvas. * \param len The size in bytes of the memory area. * \param format A string describing the input format. * \return The number of bytes read, or 0 if there was not enough data, * or -1 if an error occurred. */ long int cucul_import_memory(cucul_canvas_t *cv, void const *data, unsigned long int len, char const *format) { if(!strcasecmp("caca", format)) return import_caca(cv, data, len); if(!strcasecmp("utf8", format)) return import_ansi(cv, data, len, 1); if(!strcasecmp("text", format)) return import_text(cv, data, len); if(!strcasecmp("ansi", format)) return import_ansi(cv, data, len, 0); /* Autodetection */ if(!strcasecmp("", format)) { unsigned char const *str = data; unsigned int i; /* If 4 first bytes are 0xcaca + 'CV' */ if(len >= 4 && str[0] == 0xca && str[1] == 0xca && str[2] == 'C' && str[3] == 'V') return import_caca(cv, data, len); /* If we find ESC[ argv, we guess it's an ANSI file */ for(i = 0; i + 1 < len; i++) if((str[i] == 0x1b) && (str[i + 1] == '[')) return import_ansi(cv, data, len, 0); /* Otherwise, import it as text */ return import_text(cv, data, len); } seterrno(EINVAL); return -1; } /** \brief Import a file into a canvas * * Import a file into the given libcucul canvas's current frame. The * current frame is resized accordingly and its contents are replaced * with the imported data. * * Valid values for \c format are: * - \c "": attempt to autodetect the file format. * - \c "caca": import native libcaca files. * - \c "text": import ASCII text files. * - \c "ansi": import ANSI files. * - \c "utf8": import UTF-8 files with ANSI colour codes. * * The number of bytes read is returned. If the file format is valid, but * not enough data was available, 0 is returned. * * If an error occurs, -1 is returned and \b errno is set accordingly: * - \c ENOSYS File access is not implemented on this system. * - \c ENOMEM Not enough memory to allocate canvas. * - \c EINVAL Invalid format requested. * cucul_import_file() may also fail and set \b errno for any of the * errors specified for the routine fopen(). * * \param cv A libcucul canvas in which to import the file. * \param filename The name of the file to load. * \param format A string describing the input format. * \return The number of bytes read, or 0 if there was not enough data, * or -1 if an error occurred. */ long int cucul_import_file(cucul_canvas_t *cv, char const *filename, char const *format) { #if defined __KERNEL__ seterrno(ENOSYS); return -1; #else FILE *fp; void *data; long int size; int ret; fp = fopen(filename, "rb"); if(!fp) return -1; /* fopen already set errno */ fseek(fp, 0, SEEK_END); size = ftell(fp); data = malloc(size); if(!data) { fclose(fp); seterrno(ENOMEM); return -1; } fseek(fp, 0, SEEK_SET); fread(data, size, 1, fp); fclose(fp); ret = cucul_import_memory(cv, data, size, format); free(data); return ret; #endif } /** \brief Get available import formats * * Return a list of available import formats. The list is a NULL-terminated * array of strings, interleaving a string containing the internal value for * the import format, to be used with cucul_import_canvas(), and a string * containing the natural language description for that import format. * * This function never fails. * * \return An array of strings. */ char const * const * cucul_get_import_list(void) { static char const * const list[] = { "", "autodetect", "caca", "native libcaca format", "text", "plain text", "ansi", "ANSI coloured text", "utf8", "UTF-8 files with ANSI colour codes", NULL, NULL }; return list; } /* * XXX: the following functions are local. */ static long int import_caca(cucul_canvas_t *cv, void const *data, unsigned int size) { uint8_t const *buf = (uint8_t const *)data; unsigned int control_size, data_size, expected_size, frames, f, n; uint16_t version, flags; unsigned int offset; int32_t xmin = 0, ymin = 0, xmax = 0, ymax = 0; if(size < 20) return 0; if(buf[0] != 0xca || buf[1] != 0xca || buf[2] != 'C' || buf[3] != 'V') { debug("caca import error: expected \\xca\\xcaCV header"); goto invalid_caca; } control_size = sscanu32(buf + 4); data_size = sscanu32(buf + 8); version = sscanu16(buf + 12); frames = sscanu32(buf + 14); flags = sscanu16(buf + 18); if(size < 4 + control_size + data_size) return 0; if(control_size < 16 + frames * 32) { debug("caca import error: control size %lu < expected %lu", (unsigned long int)control_size, 16 + frames * 32); goto invalid_caca; } for(expected_size = 0, f = 0; f < frames; f++) { unsigned int width, height, duration; uint32_t attr; int x, y, handlex, handley; width = sscanu32(buf + 4 + 16 + f * 32); height = sscanu32(buf + 4 + 16 + f * 32 + 4); duration = sscanu32(buf + 4 + 16 + f * 32 + 8); attr = sscanu32(buf + 4 + 16 + f * 32 + 12); x = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 16); y = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 20); handlex = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 24); handley = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 28); expected_size += width * height * 8; if(-handlex < xmin) xmin = -handlex; if(-handley < ymin) ymin = -handley; if((((int32_t) width) - handlex) > xmax) xmax = ((int32_t) width) - handlex; if((((int32_t) height) - handley) > ymax) ymax = ((int32_t) height) - handley; } if(expected_size != data_size) { debug("caca import error: data size %lu < expected %lu", (unsigned long int)data_size, (unsigned long int)expected_size); goto invalid_caca; } cucul_set_canvas_size(cv, 0, 0); cucul_set_canvas_size(cv, xmax - xmin, ymax - ymin); for (f = cucul_get_frame_count(cv); f--; ) { cucul_free_frame(cv, f); } for (offset = 0, f = 0; f < frames; f ++) { unsigned int width, height; width = sscanu32(buf + 4 + 16 + f * 32); height = sscanu32(buf + 4 + 16 + f * 32 + 4); cucul_create_frame(cv, f); cucul_set_frame(cv, f); cv->curattr = sscanu32(buf + 4 + 16 + f * 32 + 12); cv->frames[f].x = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 16); cv->frames[f].y = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 20); cv->frames[f].handlex = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 24); cv->frames[f].handley = (int32_t)sscanu32(buf + 4 + 16 + f * 32 + 28); /* FIXME: check for return value */ for(n = width * height; n--; ) { int x = (n % width) - cv->frames[f].handlex - xmin; int y = (n / width) - cv->frames[f].handley - ymin; cucul_put_char(cv, x, y, sscanu32(buf + 4 + control_size + offset + 8 * n)); cucul_put_attr(cv, x, y, sscanu32(buf + 4 + control_size + offset + 8 * n + 4)); } offset += width * height * 8; cv->frames[f].x -= cv->frames[f].handlex; cv->frames[f].y -= cv->frames[f].handley; cv->frames[f].handlex = -xmin; cv->frames[f].handley = -ymin; } cucul_set_frame(cv, 0); return 4 + control_size + data_size; invalid_caca: seterrno(EINVAL); return -1; } static long int import_text(cucul_canvas_t *cv, void const *data, unsigned int size) { char const *text = (char const *)data; unsigned int width = 0, height = 0, x = 0, y = 0, i; cucul_set_canvas_size(cv, width, height); for(i = 0; i < size; i++) { unsigned char ch = *text++; if(ch == '\r') continue; if(ch == '\n') { x = 0; y++; continue; } if(x >= width || y >= height) { if(x >= width) width = x + 1; if(y >= height) height = y + 1; cucul_set_canvas_size(cv, width, height); } cucul_put_char(cv, x, y, ch); x++; } if(y > height) cucul_set_canvas_size(cv, width, height = y); return size; } static long int import_ansi(cucul_canvas_t *cv, void const *data, unsigned int size, int utf8) { struct import im; unsigned char const *buffer = (unsigned char const*)data; unsigned int i, j, skip, growx = 0, growy = 0, dummy = 0; unsigned int width, height; uint32_t savedattr; int x = 0, y = 0, save_x = 0, save_y = 0; if(utf8) { width = cv->width; height = cv->height; growx = !width; growy = !height; x = cv->frames[cv->frame].x; y = cv->frames[cv->frame].y; } else { cucul_set_canvas_size(cv, width = 80, height = 0); growx = 0; growy = 1; } if(utf8) { im.dfg = CUCUL_DEFAULT; im.dbg = CUCUL_TRANSPARENT; } else { im.dfg = CUCUL_LIGHTGRAY; im.dbg = CUCUL_BLACK; } cucul_set_color_ansi(cv, im.dfg, im.dbg); im.clearattr = cucul_get_attr(cv, -1, -1); ansi_parse_grcm(cv, &im, 1, &dummy); for(i = 0; i < size; i += skip) { uint32_t ch = 0; int wch = 0; skip = 1; if(!utf8 && buffer[i] == '\x1a' && i + 7 < size && !memcmp(buffer + i + 1, "SAUCE00", 7)) break; /* End before SAUCE data */ else if(buffer[i] == '\r') { x = 0; } else if(buffer[i] == '\n') { x = 0; y++; } else if(buffer[i] == '\t') { x = (x + 7) & ~7; } else if(buffer[i] == '\x08') { if(x > 0) x--; } /* If there are not enough characters to parse the escape sequence, * wait until the next try. We require 3. */ else if(buffer[i] == '\x1b' && i + 2 >= size) break; /* XXX: What the fuck is this shit? */ else if(buffer[i] == '\x1b' && buffer[i + 1] == '(' && buffer[i + 2] == 'B') { skip += 2; } /* Interpret escape commands, as per Standard ECMA-48 "Control * Functions for Coded Character Sets", 5.4. Control sequences. */ else if(buffer[i] == '\x1b' && buffer[i + 1] == '[') { unsigned int argc = 0, argv[101]; unsigned int param, inter, final; /* Compute offsets to parameter bytes, intermediate bytes and * to the final byte. Only the final byte is mandatory, there * can be zero of the others. * 0 param=2 inter final final+1 * +-----+------------------+---------------------+-----------------+ * | CSI | parameter bytes | intermediate bytes | final byte | * | | 0x30 - 0x3f | 0x20 - 0x2f | 0x40 - 0x7e | * | ^[[ | 0123456789:;<=>? | SPC !"#$%&'()*+,-./ | azAZ@[\]^_`{|}~ | * +-----+------------------+---------------------+-----------------+ */ param = 2; for(inter = param; i + inter < size; inter++) if(buffer[i + inter] < 0x30 || buffer[i + inter] > 0x3f) break; for(final = inter; i + final < size; final++) if(buffer[i + final] < 0x20 || buffer[i + final] > 0x2f) break; if(i + final >= size || buffer[i + final] < 0x40 || buffer[i + final] > 0x7e) break; /* Invalid Final Byte */ skip += final; /* Sanity checks */ if(param < inter && buffer[i + param] >= 0x3c) { /* Private sequence, only parse what we know */ debug("ansi import: private sequence \"^[[%.*s\"", final - param + 1, buffer + i + param); continue; /* Private sequence, skip it entirely */ } if(final - param > 100) continue; /* Suspiciously long sequence, skip it */ /* Parse parameter bytes as per ECMA-48 5.4.2: Parameter string * format */ if(param < inter) { argv[0] = 0; for(j = param; j < inter; j++) { if(buffer[i + j] == ';') argv[++argc] = 0; else if(buffer[i + j] >= '0' && buffer[i + j] <= '9') argv[argc] = 10 * argv[argc] + (buffer[i + j] - '0'); } argc++; } /* Interpret final byte. The code representations are given in * ECMA-48 5.4: Control sequences, and the code definitions are * given in ECMA-48 8.3: Definition of control functions. */ switch(buffer[i + final]) { case 'H': /* CUP (0x48) - Cursor Position */ x = (argc > 1 && argv[1] > 0) ? argv[1] - 1 : 0; y = (argc > 0 && argv[0] > 0) ? argv[0] - 1 : 0; break; case 'A': /* CUU (0x41) - Cursor Up */ y -= argc ? argv[0] : 1; if(y < 0) y = 0; break; case 'B': /* CUD (0x42) - Cursor Down */ y += argc ? argv[0] : 1; break; case 'C': /* CUF (0x43) - Cursor Right */ x += argc ? argv[0] : 1; break; case 'D': /* CUB (0x44) - Cursor Left */ x -= argc ? argv[0] : 1; if(x < 0) x = 0; break; case 'G': /* CHA (0x47) - Cursor Character Absolute */ x = (argc && argv[0] > 0) ? argv[0] - 1 : 0; break; case 'J': /* ED (0x4a) - Erase In Page */ savedattr = cucul_get_attr(cv, -1, -1); cucul_set_attr(cv, im.clearattr); if(!argc || argv[0] == 0) { cucul_draw_line(cv, x, y, width, y, ' '); cucul_fill_box(cv, 0, y + 1, width - 1, height - 1, ' '); } else if(argv[0] == 1) { cucul_fill_box(cv, 0, 0, width - 1, y - 1, ' '); cucul_draw_line(cv, 0, y, x, y, ' '); } else if(argv[0] == 2) //x = y = 0; cucul_fill_box(cv, 0, 0, width - 1, height - 1, ' '); cucul_set_attr(cv, savedattr); break; case 'K': /* EL (0x4b) - Erase In Line */ if(!argc || argv[0] == 0) cucul_draw_line(cv, x, y, width, y, ' '); else if(argv[0] == 1) cucul_draw_line(cv, 0, y, x, y, ' '); else if(argv[0] == 2) if((unsigned int)x < width) cucul_draw_line(cv, x, y, width - 1, y, ' '); //x = width; break; case 'P': /* DCH (0x50) - Delete Character */ if(!argc || argv[0] == 0) argv[0] = 1; /* echo -ne 'foobar\r\e[0P\n' */ for(j = 0; (unsigned int)(j + argv[0]) < width; j++) { cucul_put_char(cv, j, y, cucul_get_char(cv, j + argv[0], y)); cucul_put_attr(cv, j, y, cucul_get_attr(cv, j + argv[0], y)); } #if 0 savedattr = cucul_get_attr(cv, -1, -1); cucul_set_attr(cv, im.clearattr); for( ; (unsigned int)j < width; j++) cucul_put_char(cv, j, y, ' '); cucul_set_attr(cv, savedattr); #endif case 'X': /* ECH (0x58) - Erase Character */ if(argc && argv[0]) { savedattr = cucul_get_attr(cv, -1, -1); cucul_set_attr(cv, im.clearattr); cucul_draw_line(cv, x, y, x + argv[0] - 1, y, ' '); cucul_set_attr(cv, savedattr); } case 'd': /* VPA (0x64) - Line Position Absolute */ y = (argc && argv[0] > 0) ? argv[0] - 1 : 0; break; case 'f': /* HVP (0x66) - Character And Line Position */ x = (argc > 1 && argv[1] > 0) ? argv[1] - 1 : 0; y = (argc > 0 && argv[0] > 0) ? argv[0] - 1 : 0; break; case 'h': /* SM (0x68) - FIXME */ debug("ansi import: set mode %i", argc ? (int)argv[0] : -1); break; case 'l': /* RM (0x6c) - FIXME */ debug("ansi import: reset mode %i", argc ? (int)argv[0] : -1); break; case 'm': /* SGR (0x6d) - Select Graphic Rendition */ if(argc) ansi_parse_grcm(cv, &im, argc, argv); else ansi_parse_grcm(cv, &im, 1, &dummy); break; case 's': /* Private (save cursor position) */ save_x = x; save_y = y; break; case 'u': /* Private (reload cursor position) */ x = save_x; y = save_y; break; default: debug("ansi import: unknown command \"^[[%.*s\"", final - param + 1, buffer + i + param); break; } } /* Parse OSC stuff. */ else if(buffer[i] == '\x1b' && buffer[i + 1] == ']') { char *string; unsigned int command = 0; unsigned int mode = 2, semicolon, final; for(semicolon = mode; i + semicolon < size; semicolon++) { if(buffer[i + semicolon] < '0' || buffer[i + semicolon] > '9') break; command = 10 * command + (buffer[i + semicolon] - '0'); } if(i + semicolon >= size || buffer[i + semicolon] != ';') break; /* Invalid Mode */ for(final = semicolon + 1; i + final < size; final++) if(buffer[i + final] < 0x20) break; if(i + final >= size || buffer[i + final] != '\a') break; /* Not enough data or no bell found */ /* FIXME: XTerm also reacts to and */ /* FIXME: differenciate between not enough data (try again) * and invalid data (print shit) */ skip += final; string = malloc(final - (semicolon + 1) + 1); memcpy(string, buffer + (semicolon + 1), final - (semicolon + 1)); string[final - (semicolon + 1)] = '\0'; debug("ansi import: got OSC command %i string '%s'", command, string); free(string); } /* Get the character we’re going to paste */ else if(utf8) { unsigned int bytes; if(i + 6 < size) ch = cucul_utf8_to_utf32((char const *)(buffer + i), &bytes); else { /* Add a trailing zero to what we're going to read */ char tmp[7]; memcpy(tmp, buffer + i, size - i); tmp[size - i] = '\0'; ch = cucul_utf8_to_utf32(tmp, &bytes); } if(!bytes) { /* If the Unicode is invalid, assume it was latin1. */ ch = buffer[i]; bytes = 1; } wch = cucul_utf32_is_fullwidth(ch) ? 2 : 1; skip += bytes - 1; } else { ch = cucul_cp437_to_utf32(buffer[i]); wch = 1; } /* Wrap long lines or grow horizontally */ while((unsigned int)x + wch > width) { if(growx) { savedattr = cucul_get_attr(cv, -1, -1); cucul_set_attr(cv, im.clearattr); cucul_set_canvas_size(cv, width = x + wch, height); cucul_set_attr(cv, savedattr); } else { x -= width; y++; } } /* Scroll or grow vertically */ if((unsigned int)y >= height) { savedattr = cucul_get_attr(cv, -1, -1); cucul_set_attr(cv, im.clearattr); if(growy) { cucul_set_canvas_size(cv, width, height = y + 1); } else { int lines = (y - height) + 1; for(j = 0; j + lines < height; j++) { memcpy(cv->attrs + j * cv->width, cv->attrs + (j + lines) * cv->width, cv->width * 4); memcpy(cv->chars + j * cv->width, cv->chars + (j + lines) * cv->width, cv->width * 4); } cucul_fill_box(cv, 0, height - lines, cv->width - 1, height - 1, ' '); y -= lines; } cucul_set_attr(cv, savedattr); } /* Now paste our character, if any */ if(wch) { cucul_put_char(cv, x, y, ch); x += wch; } } if(growy && (unsigned int)y > height) { savedattr = cucul_get_attr(cv, -1, -1); cucul_set_attr(cv, im.clearattr); cucul_set_canvas_size(cv, width, height = y); cucul_set_attr(cv, savedattr); } cv->frames[cv->frame].x = x; cv->frames[cv->frame].y = y; // if(utf8) // cucul_set_attr(cv, savedattr); return i; } /* XXX : ANSI loader helper */ static void ansi_parse_grcm(cucul_canvas_t *cv, struct import *im, unsigned int argc, unsigned int const *argv) { static uint8_t const ansi2cucul[] = { CUCUL_BLACK, CUCUL_RED, CUCUL_GREEN, CUCUL_BROWN, CUCUL_BLUE, CUCUL_MAGENTA, CUCUL_CYAN, CUCUL_LIGHTGRAY }; unsigned int j; uint8_t efg, ebg; /* Effective (libcucul) fg/bg */ for(j = 0; j < argc; j++) { /* Defined in ECMA-48 8.3.117: SGR - SELECT GRAPHIC RENDITION */ if(argv[j] >= 30 && argv[j] <= 37) im->fg = ansi2cucul[argv[j] - 30]; else if(argv[j] >= 40 && argv[j] <= 47) im->bg = ansi2cucul[argv[j] - 40]; else if(argv[j] >= 90 && argv[j] <= 97) im->fg = ansi2cucul[argv[j] - 90] + 8; else if(argv[j] >= 100 && argv[j] <= 107) im->bg = ansi2cucul[argv[j] - 100] + 8; else switch(argv[j]) { case 0: /* default rendition */ im->fg = im->dfg; im->bg = im->dbg; im->bold = im->blink = im->italics = im->negative = im->concealed = im->underline = im->faint = im->strike = im->proportional = 0; break; case 1: /* bold or increased intensity */ im->bold = 1; break; case 2: /* faint, decreased intensity or second colour */ im->faint = 1; break; case 3: /* italicized */ im->italics = 1; break; case 4: /* singly underlined */ im->underline = 1; break; case 5: /* slowly blinking (less then 150 per minute) */ case 6: /* rapidly blinking (150 per minute or more) */ im->blink = 1; break; case 7: /* negative image */ im->negative = 1; break; case 8: /* concealed characters */ im->concealed = 1; break; case 9: /* crossed-out (characters still legible but marked as to be * deleted */ im->strike = 1; break; case 21: /* doubly underlined */ im->underline = 1; break; case 22: /* normal colour or normal intensity (neither bold nor * faint) */ im->bold = im->faint = 0; break; case 23: /* not italicized, not fraktur */ im->italics = 0; break; case 24: /* not underlined (neither singly nor doubly) */ im->underline = 0; break; case 25: /* steady (not blinking) */ im->blink = 0; break; case 26: /* (reserved for proportional spacing as specified in CCITT * Recommendation T.61) */ im->proportional = 1; break; case 27: /* positive image */ im->negative = 0; break; case 28: /* revealed characters */ im->concealed = 0; break; case 29: /* not crossed out */ im->strike = 0; break; case 38: /* (reserved for future standardization, intended for setting * character foreground colour as specified in ISO 8613-6 * [CCITT Recommendation T.416]) */ break; case 39: /* default display colour (implementation-defined) */ im->fg = im->dfg; break; case 48: /* (reserved for future standardization, intended for setting * character background colour as specified in ISO 8613-6 * [CCITT Recommendation T.416]) */ break; case 49: /* default background colour (implementation-defined) */ im->bg = im->dbg; break; case 50: /* (reserved for cancelling the effect of the rendering * aspect established by parameter value 26) */ im->proportional = 0; break; default: debug("ansi import: unknown sgr %i", argv[j]); break; } } if(im->concealed) { efg = ebg = CUCUL_TRANSPARENT; } else { efg = im->negative ? im->bg : im->fg; ebg = im->negative ? im->fg : im->bg; if(im->bold) { if(efg < 8) efg += 8; else if(efg == CUCUL_DEFAULT) efg = CUCUL_WHITE; } } cucul_set_color_ansi(cv, efg, ebg); }