/* Styling for ui_file Copyright (C) 2018-2024 Free Software Foundation, Inc. This file is part of GDB. 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 3 of the License, or (at your option) any later version. This program 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 . */ #include "ui-style.h" #include "gdb_curses.h" #include "gdbsupport/gdb_regex.h" /* A regular expression that is used for matching ANSI terminal escape sequences. */ static const char ansi_regex_text[] = /* Introduction. */ "^\033\\[" #define DATA_SUBEXP 1 /* Capture parameter and intermediate bytes. */ "(" /* Parameter bytes. */ "[\x30-\x3f]*" /* Intermediate bytes. */ "[\x20-\x2f]*" /* End the first capture. */ ")" /* The final byte. */ #define FINAL_SUBEXP 2 "([\x40-\x7e])"; /* The number of subexpressions to allocate space for, including the "0th" whole match subexpression. */ #define NUM_SUBEXPRESSIONS 3 /* The compiled form of ansi_regex_text. */ static regex_t ansi_regex; /* This maps 8-color palette to RGB triples. The values come from plain linux terminal. */ static const uint8_t palette_8colors[][3] = { { 1, 1, 1 }, /* Black. */ { 222, 56, 43 }, /* Red. */ { 57, 181, 74 }, /* Green. */ { 255, 199, 6 }, /* Yellow. */ { 0, 111, 184 }, /* Blue. */ { 118, 38, 113 }, /* Magenta. */ { 44, 181, 233 }, /* Cyan. */ { 204, 204, 204 }, /* White. */ }; /* This maps 16-color palette to RGB triples. The values come from xterm. */ static const uint8_t palette_16colors[][3] = { { 0, 0, 0 }, /* Black. */ { 205, 0, 0 }, /* Red. */ { 0, 205, 0 }, /* Green. */ { 205, 205, 0 }, /* Yellow. */ { 0, 0, 238 }, /* Blue. */ { 205, 0, 205 }, /* Magenta. */ { 0, 205, 205 }, /* Cyan. */ { 229, 229, 229 }, /* White. */ { 127, 127, 127 }, /* Bright Black. */ { 255, 0, 0 }, /* Bright Red. */ { 0, 255, 0 }, /* Bright Green. */ { 255, 255, 0 }, /* Bright Yellow. */ { 92, 92, 255 }, /* Bright Blue. */ { 255, 0, 255 }, /* Bright Magenta. */ { 0, 255, 255 }, /* Bright Cyan. */ { 255, 255, 255 } /* Bright White. */ }; /* See ui-style.h. */ /* Must correspond to ui_file_style::basic_color. */ const std::vector ui_file_style::basic_color_enums = { "none", "black", "red", "green", "yellow", "blue", "magenta", "cyan", "white", nullptr }; /* Returns text representation of a basic COLOR. */ static const char * basic_color_name (int color) { int pos = color - ui_file_style::NONE; if (0 <= pos && pos < ui_file_style::basic_color_enums.size ()) if (const char *s = ui_file_style::basic_color_enums[pos]) return s; error (_("Basic color %d has no name."), color); } /* See ui-style.h. */ void ui_file_style::color::append_ansi (bool is_fg, std::string *str) const { if (m_color_space == color_space::MONOCHROME) str->append (is_fg ? "39" : "49"); else if (is_basic ()) str->append (std::to_string (m_value + (is_fg ? 30 : 40))); else if (m_color_space == color_space::AIXTERM_16COLOR) str->append (std::to_string (m_value - WHITE - 1 + (is_fg ? 90 : 100))); else if (m_color_space == color_space::XTERM_256COLOR) str->append (is_fg ? "38;5;" : "48;5;").append (std::to_string (m_value)); else if (m_color_space == color_space::RGB_24BIT) { // See ISO/IEC 8613-6 (or ITU T.416) 13.1.8 Select Graphic Rendition (SGR) str->append (is_fg ? "38;2;" : "48;2;"); str->append (std::to_string (m_red) + ";" + std::to_string (m_green) + ";" + std::to_string (m_blue)); } else gdb_assert_not_reached ("no valid ansi representation of the color"); } /* See ui-style.h. */ std::string ui_file_style::color::to_ansi (bool is_fg) const { std::string s = "\033["; append_ansi (is_fg, &s); s.push_back ('m'); return s; } /* See ui-style.h. */ std::string ui_file_style::color::to_string () const { if (m_color_space == color_space::RGB_24BIT) { char s[64]; snprintf (s, sizeof s, "#%02X%02X%02X", m_red, m_green, m_blue); return s; } else if (is_none () || is_basic ()) return basic_color_name (m_value); else return std::to_string (get_value ()); } /* See ui-style.h. */ void ui_file_style::color::get_rgb (uint8_t *rgb) const { if (m_color_space == color_space::RGB_24BIT) { rgb[0] = m_red; rgb[1] = m_green; rgb[2] = m_blue; } else if (m_color_space == color_space::ANSI_8COLOR && 0 <= m_value && m_value <= 7) memcpy (rgb, palette_8colors[m_value], 3 * sizeof (uint8_t)); else if (m_color_space == color_space::AIXTERM_16COLOR && 0 <= m_value && m_value <= 15) memcpy (rgb, palette_16colors[m_value], 3 * sizeof (uint8_t)); else if (m_color_space != color_space::XTERM_256COLOR) gdb_assert_not_reached ("get_rgb called on invalid color"); else if (0 <= m_value && m_value <= 15) memcpy (rgb, palette_16colors[m_value], 3 * sizeof (uint8_t)); else if (m_value >= 16 && m_value <= 231) { int value = m_value; value -= 16; /* This obscure formula seems to be what terminals actually do. */ int component = value / 36; rgb[0] = component == 0 ? 0 : (55 + component * 40); value %= 36; component = value / 6; rgb[1] = component == 0 ? 0 : (55 + component * 40); value %= 6; rgb[2] = value == 0 ? 0 : (55 + value * 40); } else if (232 <= m_value && m_value <= 255) { uint8_t v = (m_value - 232) * 10 + 8; rgb[0] = v; rgb[1] = v; rgb[2] = v; } else gdb_assert_not_reached ("get_rgb called on invalid color"); } /* See ui-style.h. */ ui_file_style::color ui_file_style::color::approximate (const std::vector &spaces) const { if (spaces.empty () || is_none ()) return NONE; color_space target_space = color_space::MONOCHROME; for (color_space sp : spaces) if (sp == m_color_space) return *this; else if (sp > target_space) target_space = sp; if (target_space == color_space::RGB_24BIT) { uint8_t rgb[3]; get_rgb (rgb); return color (rgb[0], rgb[1], rgb[2]); } int target_size = 0; switch (target_space) { case color_space::ANSI_8COLOR: target_size = 8; break; case color_space::AIXTERM_16COLOR: target_size = 16; break; case color_space::XTERM_256COLOR: target_size = 256; break; } if (is_simple() && m_value < target_size) return color (target_space, m_value); color result = NONE; int best_distance = std::numeric_limits::max (); uint8_t rgb[3]; get_rgb (rgb); for (int i = 0; i < target_size; ++i) { uint8_t c_rgb[3]; color c (target_space, i); c.get_rgb (c_rgb); int d_red = std::abs (rgb[0] - c_rgb[0]); int d_green = std::abs (rgb[1] - c_rgb[1]); int d_blue = std::abs (rgb[2] - c_rgb[2]); int dist = d_red * d_red + d_green * d_green + d_blue * d_blue; if (dist < best_distance) { best_distance = dist; result = c; } } return result; } /* See ui-style.h. */ std::string ui_file_style::to_ansi () const { std::string result ("\033["); if (!is_default ()) { m_foreground.append_ansi (true, &result); result.push_back (';'); m_background.append_ansi (false, &result); result.push_back (';'); if (m_intensity == NORMAL) result.append ("22"); else result.append (std::to_string (m_intensity)); result.push_back (';'); if (m_reverse) result.push_back ('7'); else result.append ("27"); } result.push_back ('m'); return result; } /* Read a ";" and a number from STRING. Return the number of characters read and put the number into *NUM. */ static bool read_semi_number (const char *string, regoff_t *idx, long *num) { if (string[*idx] != ';') return false; ++*idx; if (string[*idx] < '0' || string[*idx] > '9') return false; char *tail; *num = strtol (string + *idx, &tail, 10); *idx = tail - string; return true; } /* A helper for ui_file_style::parse that reads an extended color sequence; that is, and 8- or 24- bit color. */ static bool extended_color (const char *str, regoff_t *idx, ui_file_style::color *color) { long value; if (!read_semi_number (str, idx, &value)) return false; if (value == 5) { /* 8-bit color. */ if (!read_semi_number (str, idx, &value)) return false; if (value >= 0 && value <= 255) *color = ui_file_style::color (value); else return false; } else if (value == 2) { /* 24-bit color. */ long r, g, b; if (!read_semi_number (str, idx, &r) || r > 255 || !read_semi_number (str, idx, &g) || g > 255 || !read_semi_number (str, idx, &b) || b > 255) return false; *color = ui_file_style::color (r, g, b); } else { /* Unrecognized sequence. */ return false; } return true; } /* See ui-style.h. */ bool ui_file_style::parse (const char *buf, size_t *n_read) { regmatch_t subexps[NUM_SUBEXPRESSIONS]; int match = regexec (&ansi_regex, buf, ARRAY_SIZE (subexps), subexps, 0); if (match == REG_NOMATCH) { *n_read = 0; return false; } /* Other failures mean the regexp is broken. */ gdb_assert (match == 0); /* The regexp is anchored. */ gdb_assert (subexps[0].rm_so == 0); /* The final character exists. */ gdb_assert (subexps[FINAL_SUBEXP].rm_eo - subexps[FINAL_SUBEXP].rm_so == 1); if (buf[subexps[FINAL_SUBEXP].rm_so] != 'm') { /* We don't handle this sequence, so just drop it. */ *n_read = subexps[0].rm_eo; return false; } /* Examine each setting in the match and apply it to the result. See the Select Graphic Rendition section of https://en.wikipedia.org/wiki/ANSI_escape_code. In essence each code is just a number, separated by ";"; there are some more wrinkles but we don't support them all.. */ /* "\033[m" means the same thing as "\033[0m", so handle that specially here. */ if (subexps[DATA_SUBEXP].rm_so == subexps[DATA_SUBEXP].rm_eo) *this = ui_file_style (); for (regoff_t i = subexps[DATA_SUBEXP].rm_so; i < subexps[DATA_SUBEXP].rm_eo; ++i) { if (buf[i] == ';') { /* Skip. */ } else if (buf[i] >= '0' && buf[i] <= '9') { char *tail; long value = strtol (buf + i, &tail, 10); i = tail - buf; switch (value) { case 0: /* Reset. */ *this = ui_file_style (); break; case 1: /* Bold. */ m_intensity = BOLD; break; case 2: /* Dim. */ m_intensity = DIM; break; case 7: /* Reverse. */ m_reverse = true; break; case 21: m_intensity = NORMAL; break; case 22: /* Normal. */ m_intensity = NORMAL; break; case 27: /* Inverse off. */ m_reverse = false; break; case 30: case 31: case 32: case 33: case 34: case 35: case 36: case 37: m_foreground = color (value - 30); break; /* Note: not 38. */ case 39: m_foreground = NONE; break; case 40: case 41: case 42: case 43: case 44: case 45: case 46: case 47: m_background = color (value - 40); break; /* Note: not 48. */ case 49: m_background = NONE; break; case 90: case 91: case 92: case 93: case 94: case 95: case 96: case 97: m_foreground = color (value - 90 + 8); break; case 100: case 101: case 102: case 103: case 104: case 105: case 106: case 107: m_background = color (value - 100 + 8); break; case 38: /* If we can't parse the extended color, fail. */ if (!extended_color (buf, &i, &m_foreground)) { *n_read = subexps[0].rm_eo; return false; } break; case 48: /* If we can't parse the extended color, fail. */ if (!extended_color (buf, &i, &m_background)) { *n_read = subexps[0].rm_eo; return false; } break; default: /* Ignore everything else. */ break; } } else { /* Unknown, let's just ignore. */ } } *n_read = subexps[0].rm_eo; return true; } /* See ui-style.h. */ bool skip_ansi_escape (const char *buf, int *n_read) { regmatch_t subexps[NUM_SUBEXPRESSIONS]; int match = regexec (&ansi_regex, buf, ARRAY_SIZE (subexps), subexps, 0); if (match == REG_NOMATCH || buf[subexps[FINAL_SUBEXP].rm_so] != 'm') return false; *n_read = subexps[FINAL_SUBEXP].rm_eo; return true; } void _initialize_ui_style (); void _initialize_ui_style () { int code = regcomp (&ansi_regex, ansi_regex_text, REG_EXTENDED); /* If the regular expression was incorrect, it was a programming error. */ gdb_assert (code == 0); } /* See ui-style.h. */ const std::vector & colorsupport () { static const std::vector value = [] { std::vector result = {color_space::MONOCHROME}; int colors = tgetnum ("Co"); if (colors >= 8) result.push_back (color_space::ANSI_8COLOR); if (colors >= 16) result.push_back (color_space::AIXTERM_16COLOR); if (colors >= 256) result.push_back (color_space::XTERM_256COLOR); const char *colorterm = getenv ("COLORTERM"); if (colorterm != nullptr && (!strcmp (colorterm, "truecolor") || !strcmp (colorterm, "24bit"))) result.push_back (color_space::RGB_24BIT); return result; } (); return value; } const char * color_space_name (color_space c) { switch (c) { case color_space::MONOCHROME: return "monochrome"; case color_space::ANSI_8COLOR: return "ansi_8color"; case color_space::AIXTERM_16COLOR: return "aixterm_16color"; case color_space::XTERM_256COLOR: return "xterm_256color"; case color_space::RGB_24BIT: return "rgb_24bit"; } gdb_assert_not_reached ("color_space_name called on invalid color"); } bool color_space_safe_cast (color_space *result, long c) { switch (static_cast(c)) { case color_space::MONOCHROME: case color_space::ANSI_8COLOR: case color_space::AIXTERM_16COLOR: case color_space::XTERM_256COLOR: case color_space::RGB_24BIT: *result = static_cast(c); return true; } return false; }