ref: 74e40654e64f321399f3e2bb04019f83c96ce6fa
dir: /src/gfx/pal_spec.cpp/
/* * This file is part of RGBDS. * * Copyright (c) 2022, Eldred Habert and RGBDS contributors. * * SPDX-License-Identifier: MIT */ #include "gfx/pal_spec.hpp" #include <algorithm> #include <cassert> #include <cinttypes> #include <climits> #include <cstdint> #include <cstdio> #include <cstring> #include <fstream> #include <limits> #include <optional> #include <ostream> #include <streambuf> #include <string> #include <string_view> #include <tuple> #include <type_traits> #include <unordered_map> #include "platform.h" #include "gfx/main.hpp" using namespace std::string_view_literals; constexpr uint8_t nibble(char c) { if (c >= 'a') { assert(c <= 'f'); return c - 'a' + 10; } else if (c >= 'A') { assert(c <= 'F'); return c - 'A' + 10; } else { assert(c >= '0' && c <= '9'); return c - '0'; } } constexpr uint8_t toHex(char c1, char c2) { return nibble(c1) * 16 + nibble(c2); } constexpr uint8_t singleToHex(char c) { return toHex(c, c); } template<typename Str> // Should be std::string or std::string_view static void skipWhitespace(Str const &str, typename Str::size_type &pos) { pos = std::min(str.find_first_not_of(" \t"sv, pos), str.length()); } void parseInlinePalSpec(char const * const rawArg) { // List of #rrggbb/#rgb colors, comma-separated, palettes are separated by colons std::string_view arg(rawArg); using size_type = decltype(arg)::size_type; auto parseError = [&rawArg, &arg](size_type ofs, size_type len, char const *fmt, auto &&...args) { (void)arg; // With NDEBUG, `arg` is otherwise not used assert(ofs <= arg.length()); assert(len <= arg.length()); error(fmt, args...); fprintf(stderr, "In inline palette spec: %s\n" " ", rawArg); for (auto i = ofs; i; --i) { putc(' ', stderr); } for (auto i = len; i; --i) { putc('^', stderr); } putc('\n', stderr); }; options.palSpec.clear(); options.palSpec.emplace_back(); // Value-initialized, not default-init'd, so we get zeros size_type n = 0; // Index into the argument // TODO: store max `nbColors` ever reached, and compare against palette size later size_t nbColors = 0; // Number of colors in the current palette for (;;) { ++n; // Ignore the '#' (checked either by caller or previous loop iteration) Rgba &color = options.palSpec.back()[nbColors]; auto pos = std::min(arg.find_first_not_of("0123456789ABCDEFabcdef"sv, n), arg.length()); switch (pos - n) { case 3: color = Rgba(singleToHex(arg[n + 0]), singleToHex(arg[n + 1]), singleToHex(arg[n + 2]), 0xFF); break; case 6: color = Rgba(toHex(arg[n + 0], arg[n + 1]), toHex(arg[n + 2], arg[n + 3]), toHex(arg[n + 4], arg[n + 5]), 0xFF); break; case 0: parseError(n - 1, 1, "Missing color after '#'"); return; default: parseError(n, pos - n, "Unknown color specification"); return; } n = pos; // Skip whitespace, if any skipWhitespace(arg, n); // Skip comma/semicolon, or end if (n == arg.length()) { break; } switch (arg[n]) { case ',': ++n; // Skip it ++nbColors; // A trailing comma may be followed by a semicolon skipWhitespace(arg, n); if (n == arg.length()) { break; } else if (arg[n] != ';' && arg[n] != ':') { if (nbColors == 4) { parseError(n, 1, "Each palette can only contain up to 4 colors"); return; } break; } [[fallthrough]]; case ':': case ';': ++n; skipWhitespace(arg, n); nbColors = 0; // Start a new palette // Avoid creating a spurious empty palette if (n != arg.length()) { options.palSpec.emplace_back(); } break; default: parseError(n, 1, "Unexpected character, expected ',', ';', or end of argument"); return; } // Check again to allow trailing a comma/semicolon if (n == arg.length()) { break; } if (arg[n] != '#') { parseError(n, 1, "Unexpected character, expected '#'"); return; } } } /* * Tries to read some magic bytes from the provided `file`. * Returns whether the magic was correctly read. */ template<size_t n> static bool readMagic(std::filebuf &file, char const *magic) { assert(strlen(magic) == n); char magicBuf[n]; return file.sgetn(magicBuf, n) == n && memcmp(magicBuf, magic, n); } // Like `readMagic`, but automatically determines the size from the string literal's length. // Don't worry if you make a mistake, an `assert`'s got your back! #define READ_MAGIC(file, magic) \ readMagic<sizeof(magic) - 1>(file, magic) // Don't count the terminator template<typename T, typename U> static T readBE(U const *bytes) { T val = 0; for (size_t i = 0; i < sizeof(val); ++i) { val = val << 8 | static_cast<uint8_t>(bytes[i]); } return val; } template<typename T, typename U> static T readLE(U const *bytes) { T val = 0; for (size_t i = 0; i < sizeof(val); ++i) { val |= static_cast<uint8_t>(bytes[i]) << (i * 8); } return val; } /* * **Appends** the first line read from `file` to the end of the provided `buffer`. */ static void readLine(std::filebuf &file, std::string &buffer) { // TODO: maybe this can be optimized to bulk reads? for (;;) { auto c = file.sbumpc(); if (c == std::filebuf::traits_type::eof()) { return; } if (c == '\n') { // Discard a trailing CRLF if (!buffer.empty() && buffer.back() == '\r') { buffer.pop_back(); } return; } buffer.push_back(c); } } // FIXME: Normally we'd use `std::from_chars`, but that's not available with GCC 7 /* * Parses the initial part of a string_view, advancing the "read index" as it does */ template<typename U> // Should be uint*_t static std::optional<U> parseDec(std::string const &str, std::string::size_type &n) { std::string::size_type start = n; uintmax_t value = 0; // Use a larger type to handle overflow more easily for (auto end = std::min(str.length(), str.find_first_not_of("0123456789"sv, n)); n < end; ++n) { value = std::min(value * 10 + (str[n] - '0'), (uintmax_t)std::numeric_limits<U>::max); } return n > start ? std::optional<U>{value} : std::nullopt; } static std::optional<Rgba> parseColor(std::string const &str, std::string::size_type &n, uint16_t i) { std::optional<uint8_t> r = parseDec<uint8_t>(str, n); if (!r) { error("Failed to parse color #%" PRIu16 " (\"%s\"): invalid red component", i + 1, str.c_str()); return std::nullopt; } skipWhitespace(str, n); if (n == str.length()) { error("Failed to parse color #%" PRIu16 " (\"%s\"): missing green component", i + 1, str.c_str()); return std::nullopt; } std::optional<uint8_t> g = parseDec<uint8_t>(str, n); if (!g) { error("Failed to parse color #%" PRIu16 " (\"%s\"): invalid green component", i + 1, str.c_str()); return std::nullopt; } skipWhitespace(str, n); if (n == str.length()) { error("Failed to parse color #%" PRIu16 " (\"%s\"): missing blue component", i + 1, str.c_str()); return std::nullopt; } std::optional<uint8_t> b = parseDec<uint8_t>(str, n); if (!b) { error("Failed to parse color #%" PRIu16 " (\"%s\"): invalid blue component", i + 1, str.c_str()); return std::nullopt; } return std::optional<Rgba>{Rgba(*r, *g, *b, 0xFF)}; } static void parsePSPFile(std::filebuf &file) { // https://www.selapa.net/swatches/colors/fileformats.php#psp_pal std::string line; readLine(file, line); if (line != "JASC-PAL") { error("Palette file does not appear to be a PSP palette file"); return; } line.clear(); readLine(file, line); if (line != "0100") { error("Unsupported PSP palette file version \"%s\"", line.c_str()); return; } line.clear(); readLine(file, line); std::string::size_type n = 0; std::optional<uint16_t> nbColors = parseDec<uint16_t>(line, n); if (!nbColors || n != line.length()) { error("Invalid \"number of colors\" line in PSP file (%s)", line.c_str()); return; } if (*nbColors > options.nbColorsPerPal * options.nbPalettes) { warning("PSP file contains %" PRIu16 " colors, but there can only be %" PRIu16 "; ignoring extra", *nbColors, options.nbColorsPerPal * options.nbPalettes); nbColors = options.nbColorsPerPal * options.nbPalettes; } options.palSpec.clear(); for (uint16_t i = 0; i < *nbColors; ++i) { line.clear(); readLine(file, line); n = 0; std::optional<Rgba> color = parseColor(line, n, i + 1); if (!color) { return; } if (n != line.length()) { error("Failed to parse color #%" PRIu16 " (\"%s\"): trailing characters after blue component", i + 1, line.c_str()); return; } if (i % options.nbColorsPerPal == 0) { options.palSpec.emplace_back(); } options.palSpec.back()[i % options.nbColorsPerPal] = *color; } } static void parseGPLFile(std::filebuf &file) { // https://gitlab.gnome.org/GNOME/gimp/-/blob/gimp-2-10/app/core/gimppalette-load.c#L39 std::string line; readLine(file, line); // FIXME: C++20 will allow `!line.starts_with` instead of `line.rfind` with 0 if (line.rfind("GIMP Palette", 0)) { error("Palette file does not appear to be a GPL palette file"); return; } uint16_t nbColors = 0; uint16_t maxNbColors = options.nbColorsPerPal * options.nbPalettes; for (;;) { line.clear(); readLine(file, line); if (!line.length()) { break; } // FIXME: C++20 will allow `line.starts_with` instead of `!line.rfind` with 0 if (!line.rfind("#", 0) || !line.rfind("Name:", 0) || !line.rfind("Column:", 0)) { continue; } std::string::size_type n = 0; std::optional<Rgba> color = parseColor(line, n, nbColors + 1); if (!color) { return; } ++nbColors; if (nbColors < maxNbColors) { if (nbColors % options.nbColorsPerPal == 1) { options.palSpec.emplace_back(); } options.palSpec.back()[nbColors % options.nbColorsPerPal] = *color; } } if (nbColors > maxNbColors) { warning("GPL file contains %" PRIu16 " colors, but there can only be %" PRIu16 "; ignoring extra", nbColors, maxNbColors); } } static void parseHEXFile(std::filebuf &file) { // https://lospec.com/palette-list/tag/gbc uint16_t nbColors = 0; uint16_t maxNbColors = options.nbColorsPerPal * options.nbPalettes; for (;;) { std::string line; readLine(file, line); if (!line.length()) { break; } if (line.length() != 6 || line.find_first_not_of("0123456789ABCDEFabcdef"sv) != std::string::npos) { error("Failed to parse color #%" PRIu16 " (\"%s\"): invalid \"rrggbb\" line", nbColors + 1, line.c_str()); return; } Rgba color = Rgba(toHex(line[0], line[1]), toHex(line[2], line[3]), toHex(line[4], line[5]), 0xFF); ++nbColors; if (nbColors < maxNbColors) { if (nbColors % options.nbColorsPerPal == 1) { options.palSpec.emplace_back(); } options.palSpec.back()[nbColors % options.nbColorsPerPal] = color; } } if (nbColors > maxNbColors) { warning("HEX file contains %" PRIu16 " colors, but there can only be %" PRIu16 "; ignoring extra", nbColors, maxNbColors); } } static void parseACTFile(std::filebuf &file) { // https://www.adobe.com/devnet-apps/photoshop/fileformatashtml/#50577411_pgfId-1070626 std::array<char, 772> buf; auto len = file.sgetn(buf.data(), buf.size()); uint16_t nbColors = 256; if (len == 772) { nbColors = readBE<uint16_t>(&buf[768]); // TODO: apparently there is a "transparent color index"? What? if (nbColors > 256 || nbColors == 0) { error("Invalid number of colors in ACT file (%" PRIu16 ")", nbColors); return; } } else if (len != 768) { error("Invalid file size for ACT file (expected 768 or 772 bytes, got %zu", len); return; } if (nbColors > options.nbColorsPerPal * options.nbPalettes) { warning("ACT file contains %" PRIu16 " colors, but there can only be %" PRIu16 "; ignoring extra", nbColors, options.nbColorsPerPal * options.nbPalettes); nbColors = options.nbColorsPerPal * options.nbPalettes; } options.palSpec.clear(); options.palSpec.emplace_back(); char const *ptr = buf.data(); size_t colorIdx = 0; for (uint16_t i = 0; i < nbColors; ++i) { Rgba &color = options.palSpec.back()[colorIdx]; color = Rgba(ptr[0], ptr[1], ptr[2], 0xFF); ptr += 3; ++colorIdx; if (colorIdx == options.nbColorsPerPal) { options.palSpec.emplace_back(); colorIdx = 0; } } // Remove the spurious empty palette if there is one if (colorIdx == 0) { options.palSpec.pop_back(); } } static void parseACOFile(std::filebuf &file) { // https://www.adobe.com/devnet-apps/photoshop/fileformatashtml/#50577411_pgfId-1055819 // http://www.nomodes.com/aco.html char buf[10]; if (file.sgetn(buf, 2) != 2) { error("Couldn't read ACO file version"); return; } if (readBE<uint16_t>(buf) != 1) { error("Palette file does not appear to be an ACO file"); return; } if (file.sgetn(buf, 2) != 2) { error("Couldn't read number of colors in palette file"); return; } uint16_t nbColors = readBE<uint16_t>(buf); if (nbColors > options.nbColorsPerPal * options.nbPalettes) { warning("ACO file contains %" PRIu16 " colors, but there can only be %" PRIu16 "; ignoring extra", nbColors, options.nbColorsPerPal * options.nbPalettes); nbColors = options.nbColorsPerPal * options.nbPalettes; } options.palSpec.clear(); for (uint16_t i = 0; i < nbColors; ++i) { if (file.sgetn(buf, 10) != 10) { error("Failed to read color #%" PRIu16 " from palette file", i + 1); return; } if (i % options.nbColorsPerPal == 0) { options.palSpec.emplace_back(); } Rgba &color = options.palSpec.back()[i % options.nbColorsPerPal]; uint16_t colorType = readBE<uint16_t>(buf); switch (colorType) { case 0: // RGB color = Rgba(buf[0], buf[2], buf[4], 0xFF); break; case 1: // HSB error("Unsupported color type (HSB) for ACO file"); return; case 2: // CMYK error("Unsupported color type (CMYK) for ACO file"); return; case 7: // Lab error("Unsupported color type (lab) for ACO file"); return; case 8: // Grayscale error("Unsupported color type (grayscale) for ACO file"); return; default: error("Unknown color type (%" PRIu16 ") for ACO file", colorType); return; } } // TODO: maybe scan the v2 data instead (if present) // `codecvt` can be used to convert from UTF-16 to UTF-8 } static void parseGBCFile(std::filebuf &file) { // This only needs to be able to read back files generated by `rgbgfx -p` options.palSpec.clear(); for (;;) { char buf[2 * 4]; auto len = file.sgetn(buf, sizeof(buf)); if (len == 0) { break; } else if (len != sizeof(buf)) { error("GBC palette dump contains %zu 8-byte palette%s, plus %zu byte%s", options.palSpec.size(), options.palSpec.size() == 1 ? "" : "s", len, len == 1 ? "" : "s"); break; } options.palSpec.push_back({Rgba::fromCGBColor(readLE<uint16_t>(&buf[0])), Rgba::fromCGBColor(readLE<uint16_t>(&buf[2])), Rgba::fromCGBColor(readLE<uint16_t>(&buf[4])), Rgba::fromCGBColor(readLE<uint16_t>(&buf[6]))}); } } void parseExternalPalSpec(char const *arg) { // `fmt:path`, parse the file according to the given format // Split both parts, error out if malformed char const *ptr = strchr(arg, ':'); if (ptr == nullptr) { error("External palette spec must have format `fmt:path` (missing colon)"); return; } char const *path = ptr + 1; static std::array parsers{ std::tuple{"PSP", &parsePSPFile, std::ios::in }, std::tuple{"GPL", &parseGPLFile, std::ios::in }, std::tuple{"HEX", &parseHEXFile, std::ios::in }, std::tuple{"ACT", &parseACTFile, std::ios::binary}, std::tuple{"ACO", &parseACOFile, std::ios::binary}, std::tuple{"GBC", &parseGBCFile, std::ios::binary}, }; auto iter = std::find_if(parsers.begin(), parsers.end(), [&arg, &ptr](decltype(parsers)::value_type const &parser) { return strncasecmp(arg, std::get<0>(parser), ptr - arg) == 0; }); if (iter == parsers.end()) { error("Unknown external palette format \"%.*s\"", static_cast<int>(std::min(ptr - arg, static_cast<decltype(ptr - arg)>(INT_MAX))), arg); return; } std::filebuf file; // Some parsers read the file in text mode, others in binary mode if (!file.open(path, std::ios::in | std::get<2>(*iter))) { error("Failed to open palette file \"%s\"", path); return; } std::get<1> (*iter)(file); }