/************************************************************************** * color.c -- This file is part of GNU nano. * * * * Copyright (C) 2001-2011, 2013-2020 Free Software Foundation, Inc. * * Copyright (C) 2014-2017 Benno Schulenberg * * * * GNU nano 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 3 of the License, * * or (at your option) any later version. * * * * GNU nano is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty * * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * See the GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program. If not, see http://www.gnu.org/licenses/. * * * **************************************************************************/ #include "prototypes.h" #ifdef ENABLE_COLOR #include #ifdef HAVE_MAGIC_H #include #endif #include /* For early versions of ncurses-6.0, use an additional A_PROTECT attribute * for all colors, in order to work around an ncurses miscoloring bug. */ #if defined(NCURSES_VERSION_MAJOR) && (NCURSES_VERSION_MAJOR == 6) && \ (NCURSES_VERSION_MINOR == 0) && (NCURSES_VERSION_PATCH < 20151017) #define A_BANDAID A_PROTECT #else #define A_BANDAID A_NORMAL #endif static bool defaults_allowed = FALSE; /* Whether ncurses accepts -1 to mean "default color". */ /* Initialize the color pairs for nano's interface. */ void set_interface_colorpairs(void) { #ifdef HAVE_USE_DEFAULT_COLORS /* Ask ncurses to allow -1 to mean "default color". */ defaults_allowed = (use_default_colors() == OK); #endif /* Initialize the color pairs for nano's interface elements. */ for (size_t index = 0; index < NUMBER_OF_ELEMENTS; index++) { colortype *combo = color_combo[index]; if (combo != NULL) { if (!defaults_allowed) { if (combo->fg == THE_DEFAULT) combo->fg = COLOR_WHITE; if (combo->bg == THE_DEFAULT) combo->bg = COLOR_BLACK; } init_pair(index + 1, combo->fg, combo->bg); interface_color_pair[index] = COLOR_PAIR(index + 1) | A_BANDAID | combo->attributes; } else { if (index == FUNCTION_TAG || index == SCROLL_BAR) interface_color_pair[index] = A_NORMAL; else if (index == GUIDE_STRIPE) interface_color_pair[index] = A_REVERSE; else if (index == ERROR_MESSAGE) { init_pair(index + 1, COLOR_WHITE, COLOR_RED); interface_color_pair[index] = COLOR_PAIR(index + 1) | A_BOLD | A_BANDAID; } else interface_color_pair[index] = hilite_attribute; } free(color_combo[index]); } } /* Assign a pair number to each of the foreground/background color combinations * in the given syntax, giving identical combinations the same number. */ void set_syntax_colorpairs(syntaxtype *sntx) { short number = NUMBER_OF_ELEMENTS; colortype *older; for (colortype *ink = sntx->color; ink != NULL; ink = ink->next) { if (!defaults_allowed) { if (ink->fg == THE_DEFAULT) ink->fg = COLOR_WHITE; if (ink->bg == THE_DEFAULT) ink->bg = COLOR_BLACK; } older = sntx->color; while (older != ink && (older->fg != ink->fg || older->bg != ink->bg)) older = older->next; ink->pairnum = (older != ink) ? older->pairnum : ++number; ink->attributes |= COLOR_PAIR(ink->pairnum) | A_BANDAID; } } /* Initialize the color pairs for the current syntax. */ void prepare_palette(void) { short number = NUMBER_OF_ELEMENTS; /* For each unique pair number, tell ncurses the combination of colors. */ for (colortype *ink = openfile->syntax->color; ink != NULL; ink = ink->next) if (ink->pairnum > number) { init_pair(ink->pairnum, ink->fg, ink->bg); number = ink->pairnum; } have_palette = TRUE; } /* Try to match the given shibboleth string with one of the regexes in * the list starting at head. Return TRUE upon success. */ bool found_in_list(regexlisttype *head, const char *shibboleth) { regexlisttype *item; regex_t rgx; for (item = head; item != NULL; item = item->next) { regcomp(&rgx, item->full_regex, NANO_REG_EXTENDED); if (regexec(&rgx, shibboleth, 0, NULL, 0) == 0) { regfree(&rgx); return TRUE; } regfree(&rgx); } return FALSE; } /* Find a syntax that applies to the current buffer, based upon filename * or buffer content, and load and prime this syntax when needed. */ void find_and_prime_applicable_syntax(void) { syntaxtype *sntx = NULL; /* If the rcfiles were not read, or contained no syntaxes, get out. */ if (syntaxes == NULL) return; /* If we specified a syntax-override string, use it. */ if (syntaxstr != NULL) { /* An override of "none" is like having no syntax at all. */ if (strcmp(syntaxstr, "none") == 0) return; for (sntx = syntaxes; sntx != NULL; sntx = sntx->next) if (strcmp(sntx->name, syntaxstr) == 0) break; if (sntx == NULL && !inhelp) statusline(ALERT, _("Unknown syntax name: %s"), syntaxstr); } /* If no syntax-override string was specified, or it didn't match, * try finding a syntax based on the filename (extension). */ if (sntx == NULL && !inhelp) { char *fullname = get_full_path(openfile->filename); if (fullname == NULL) fullname = mallocstrcpy(fullname, openfile->filename); for (sntx = syntaxes; sntx != NULL; sntx = sntx->next) if (found_in_list(sntx->extensions, fullname)) break; free(fullname); } /* If the filename didn't match anything, try the first line. */ if (sntx == NULL && !inhelp) { for (sntx = syntaxes; sntx != NULL; sntx = sntx->next) if (found_in_list(sntx->headers, openfile->filetop->data)) break; } #ifdef HAVE_LIBMAGIC /* If we still don't have an answer, try using magic. */ if (sntx == NULL && !inhelp) { struct stat fileinfo; magic_t cookie = NULL; const char *magicstring = NULL; if (stat(openfile->filename, &fileinfo) == 0) { /* Open the magic database and get a diagnosis of the file. */ cookie = magic_open(MAGIC_SYMLINK | #ifdef DEBUG MAGIC_DEBUG | MAGIC_CHECK | #endif MAGIC_ERROR); if (cookie == NULL || magic_load(cookie, NULL) < 0) statusline(ALERT, _("magic_load() failed: %s"), strerror(errno)); else { magicstring = magic_file(cookie, openfile->filename); if (magicstring == NULL) statusline(ALERT, _("magic_file(%s) failed: %s"), openfile->filename, magic_error(cookie)); } } /* Now try and find a syntax that matches the magic string. */ if (magicstring != NULL) { for (sntx = syntaxes; sntx != NULL; sntx = sntx->next) if (found_in_list(sntx->magics, magicstring)) break; } if (stat(openfile->filename, &fileinfo) == 0) magic_close(cookie); } #endif /* HAVE_LIBMAGIC */ /* If nothing at all matched, see if there is a default syntax. */ if (sntx == NULL && !inhelp) { for (sntx = syntaxes; sntx != NULL; sntx = sntx->next) if (strcmp(sntx->name, "default") == 0) break; } /* When the syntax isn't loaded yet, parse it and initialize its colors. */ if (sntx != NULL && sntx->filename != NULL) { parse_one_include(sntx->filename, sntx); set_syntax_colorpairs(sntx); } openfile->syntax = sntx; } /* Allocate and initialize (for the given line) the cache for multiline info. */ void set_up_multicache(linestruct *line) { line->multidata = nmalloc(openfile->syntax->nmultis * sizeof(short)); for (short index = 0; index < openfile->syntax->nmultis; index++) line->multidata[index] = -1; } /* Determine whether the matches of multiline regexes are still the same, * and if not, schedule a screen refresh, so things will be repainted. */ void check_the_multis(linestruct *line) { const colortype *ink; bool astart, anend; regmatch_t startmatch, endmatch; char *afterstart; /* If there is no syntax or no multiline regex, there is nothing to do. */ if (openfile->syntax == NULL || openfile->syntax->nmultis == 0) return; if (line->multidata == NULL) set_up_multicache(line); for (ink = openfile->syntax->color; ink != NULL; ink = ink->next) { /* If it's not a multiline regex, skip. */ if (ink->end == NULL) continue; astart = (regexec(ink->start, line->data, 1, &startmatch, 0) == 0); afterstart = line->data + (astart ? startmatch.rm_eo : 0); anend = (regexec(ink->end, afterstart, 1, &endmatch, 0) == 0); /* Check whether the multidata still matches the current situation. */ if (line->multidata[ink->id] == CNONE || line->multidata[ink->id] == CWHOLELINE) { if (!astart && !anend) continue; } else if (line->multidata[ink->id] == CSTARTENDHERE) { if (astart && anend && startmatch.rm_so < endmatch.rm_so) continue; } else if (line->multidata[ink->id] == CBEGINBEFORE) { if (!astart && anend) continue; } else if (line->multidata[ink->id] == CENDAFTER) { if (astart && !anend) continue; } /* There is a mismatch, so something changed: repaint. */ refresh_needed = TRUE; return; } } /* Precalculate the multi-line start and end regex info so we can * speed up rendering (with any hope at all...). */ void precalc_multicolorinfo(void) { const colortype *ink; regmatch_t startmatch, endmatch; linestruct *line, *tailline; if (openfile->syntax == NULL || openfile->syntax->nmultis == 0 || openfile->filetop->multidata || ISSET(NO_SYNTAX)) return; /* For each line, allocate cache space for the multiline-regex info. */ for (line = openfile->filetop; line != NULL; line = line->next) set_up_multicache(line); for (ink = openfile->syntax->color; ink != NULL; ink = ink->next) { /* If this is not a multi-line regex, skip it. */ if (ink->end == NULL) continue; for (line = openfile->filetop; line != NULL; line = line->next) { int index = 0; /* Assume nothing applies until proven otherwise below. */ line->multidata[ink->id] = CNONE; /* For an unpaired start match, mark all remaining lines. */ if (line->prev && line->prev->multidata[ink->id] == CWOULDBE) { line->multidata[ink->id] = CWOULDBE; continue; } /* When the line contains a start match, look for an end, and if * found, mark all the lines that are affected. */ while (regexec(ink->start, line->data + index, 1, &startmatch, (index == 0) ? 0 : REG_NOTBOL) == 0) { /* Begin looking for an end match after the start match. */ index += startmatch.rm_eo; /* If there is an end match on this line, mark the line, but * continue looking for other starts after it. */ if (regexec(ink->end, line->data + index, 1, &endmatch, (index == 0) ? 0 : REG_NOTBOL) == 0) { line->multidata[ink->id] = CSTARTENDHERE; index += endmatch.rm_eo; /* If both start and end are mere anchors, step ahead. */ if (startmatch.rm_so == startmatch.rm_eo && endmatch.rm_so == endmatch.rm_eo) { /* When at end-of-line, we're done. */ if (line->data[index] == '\0') break; index = step_right(line->data, index); } continue; } /* Look for an end match on later lines. */ tailline = line->next; while (tailline != NULL) { if (regexec(ink->end, tailline->data, 1, &endmatch, 0) == 0) break; tailline = tailline->next; } if (tailline == NULL) { line->multidata[ink->id] = CWOULDBE; break; } /* We found it, we found it, la la la la la. Mark all * the lines in between and the end properly. */ line->multidata[ink->id] = CENDAFTER; for (line = line->next; line != tailline; line = line->next) line->multidata[ink->id] = CWHOLELINE; tailline->multidata[ink->id] = CBEGINBEFORE; /* Begin looking for a new start after the end match. */ index = endmatch.rm_eo; } } } } #endif /* ENABLE_COLOR */