mirror of
https://github.com/RGBCube/serenity
synced 2025-05-14 08:34:57 +00:00
8bd64f001c
This isn't used by any mandatory tags, and it's not terribly useful. But jpegs exported by Lightroom Classic write the 'tech' tag, and it seems nice to be able to dump its contents. signatureType stores a single u32 which for different tags with this type means different things. In each case, the value is one from a short table of valid values, suggesting this should be a per-tag enum class instead of a per-tag DistinctFourCC, per the comment at the top of DistincFourCC.h. On the other hand, 3 of the 4 tables have an explicit "It is possible that the ICC will define other signature values in the future" note, which suggests the FourCC might actually be the way to go. For now, just punt on that and manually dump the u32 in fourcc style in icc.cpp and don't add any to_string() methods that return a readable string based on the contents of these tables.
257 lines
14 KiB
C++
257 lines
14 KiB
C++
/*
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* Copyright (c) 2022-2023, Nico Weber <thakis@chromium.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <AK/String.h>
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#include <AK/StringView.h>
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#include <LibCore/ArgsParser.h>
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#include <LibCore/DateTime.h>
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#include <LibCore/MappedFile.h>
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#include <LibGfx/ICC/Profile.h>
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#include <LibGfx/ICC/Tags.h>
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#include <LibGfx/ImageDecoder.h>
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template<class T>
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static ErrorOr<String> hyperlink(URL const& target, T const& label)
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{
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return String::formatted("\033]8;;{}\033\\{}\033]8;;\033\\", target, label);
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}
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template<class T>
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static void out_optional(char const* label, Optional<T> const& optional)
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{
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out("{}: ", label);
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if (optional.has_value())
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outln("{}", *optional);
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else
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outln("(not set)");
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}
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ErrorOr<int> serenity_main(Main::Arguments arguments)
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{
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Core::ArgsParser args_parser;
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static StringView path;
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args_parser.add_positional_argument(path, "Path to ICC profile or to image containing ICC profile", "FILE");
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args_parser.parse(arguments);
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auto file = TRY(Core::MappedFile::map(path));
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ReadonlyBytes icc_bytes;
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auto decoder = Gfx::ImageDecoder::try_create_for_raw_bytes(file->bytes());
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if (decoder) {
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if (auto embedded_icc_bytes = TRY(decoder->icc_data()); embedded_icc_bytes.has_value()) {
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icc_bytes = *embedded_icc_bytes;
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} else {
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outln("image contains no embedded ICC profile");
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return 1;
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}
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} else {
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icc_bytes = file->bytes();
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}
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auto profile = TRY(Gfx::ICC::Profile::try_load_from_externally_owned_memory(icc_bytes));
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outln(" size: {} bytes", profile->on_disk_size());
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out_optional(" preferred CMM type", profile->preferred_cmm_type());
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outln(" version: {}", profile->version());
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outln(" device class: {}", Gfx::ICC::device_class_name(profile->device_class()));
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outln(" data color space: {}", Gfx::ICC::data_color_space_name(profile->data_color_space()));
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outln(" connection space: {}", Gfx::ICC::profile_connection_space_name(profile->connection_space()));
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outln("creation date and time: {}", Core::DateTime::from_timestamp(profile->creation_timestamp()));
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out_optional(" primary platform", profile->primary_platform().map([](auto platform) { return primary_platform_name(platform); }));
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auto flags = profile->flags();
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outln(" flags: 0x{:08x}", flags.bits());
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outln(" - {}embedded in file", flags.is_embedded_in_file() ? "" : "not ");
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outln(" - can{} be used independently of embedded color data", flags.can_be_used_independently_of_embedded_color_data() ? "" : "not");
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if (auto unknown_icc_bits = flags.icc_bits() & ~Gfx::ICC::Flags::KnownBitsMask)
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outln(" other unknown ICC bits: 0x{:04x}", unknown_icc_bits);
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if (auto color_management_module_bits = flags.color_management_module_bits())
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outln(" CMM bits: 0x{:04x}", color_management_module_bits);
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out_optional(" device manufacturer", TRY(profile->device_manufacturer().map([](auto device_manufacturer) {
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return hyperlink(device_manufacturer_url(device_manufacturer), device_manufacturer);
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})));
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out_optional(" device model", TRY(profile->device_model().map([](auto device_model) {
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return hyperlink(device_model_url(device_model), device_model);
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})));
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auto device_attributes = profile->device_attributes();
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outln(" device attributes: 0x{:016x}", device_attributes.bits());
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outln(" media is:");
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outln(" - {}",
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device_attributes.media_reflectivity() == Gfx::ICC::DeviceAttributes::MediaReflectivity::Reflective ? "reflective" : "transparent");
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outln(" - {}",
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device_attributes.media_glossiness() == Gfx::ICC::DeviceAttributes::MediaGlossiness::Glossy ? "glossy" : "matte");
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outln(" - {}",
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device_attributes.media_polarity() == Gfx::ICC::DeviceAttributes::MediaPolarity::Positive ? "of positive polarity" : "of negative polarity");
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outln(" - {}",
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device_attributes.media_color() == Gfx::ICC::DeviceAttributes::MediaColor::Colored ? "colored" : "black and white");
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VERIFY((flags.icc_bits() & ~Gfx::ICC::DeviceAttributes::KnownBitsMask) == 0);
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if (auto vendor_bits = device_attributes.vendor_bits())
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outln(" vendor bits: 0x{:08x}", vendor_bits);
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outln(" rendering intent: {}", Gfx::ICC::rendering_intent_name(profile->rendering_intent()));
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outln(" pcs illuminant: {}", profile->pcs_illuminant());
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out_optional(" creator", profile->creator());
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out_optional(" id", profile->id());
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size_t profile_disk_size = icc_bytes.size();
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if (profile_disk_size != profile->on_disk_size()) {
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VERIFY(profile_disk_size > profile->on_disk_size());
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outln("{} trailing bytes after profile data", profile_disk_size - profile->on_disk_size());
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}
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outln("");
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outln("tags:");
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HashMap<Gfx::ICC::TagData*, Gfx::ICC::TagSignature> tag_data_to_first_signature;
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profile->for_each_tag([&tag_data_to_first_signature](auto tag_signature, auto tag_data) {
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if (auto name = tag_signature_spec_name(tag_signature); name.has_value())
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out("{} ({}): ", *name, tag_signature);
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else
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out("Unknown tag ({}): ", tag_signature);
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outln("type {}, offset {}, size {}", tag_data->type(), tag_data->offset(), tag_data->size());
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// Print tag data only the first time it's seen.
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// (Different sigatures can refer to the same data.)
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auto it = tag_data_to_first_signature.find(tag_data);
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if (it != tag_data_to_first_signature.end()) {
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outln(" (see {} above)", it->value);
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return;
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}
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tag_data_to_first_signature.set(tag_data, tag_signature);
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if (tag_data->type() == Gfx::ICC::CurveTagData::Type) {
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auto& curve = static_cast<Gfx::ICC::CurveTagData&>(*tag_data);
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if (curve.values().is_empty()) {
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outln(" identity curve");
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} else if (curve.values().size() == 1) {
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outln(" gamma: {}", FixedPoint<8, u16>::create_raw(curve.values()[0]));
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} else {
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// FIXME: Maybe print the actual points if -v is passed?
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outln(" curve with {} points", curve.values().size());
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}
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} else if (tag_data->type() == Gfx::ICC::Lut16TagData::Type) {
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auto& lut16 = static_cast<Gfx::ICC::Lut16TagData&>(*tag_data);
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outln(" input table: {} channels x {} entries", lut16.number_of_input_channels(), lut16.number_of_input_table_entries());
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outln(" output table: {} channels x {} entries", lut16.number_of_output_channels(), lut16.number_of_output_table_entries());
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outln(" color lookup table: {} grid points, {} total entries", lut16.number_of_clut_grid_points(), lut16.clut_values().size());
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auto const& e = lut16.e_matrix();
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outln(" e = [ {}, {}, {},", e[0], e[1], e[2]);
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outln(" {}, {}, {},", e[3], e[4], e[5]);
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outln(" {}, {}, {} ]", e[6], e[7], e[8]);
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} else if (tag_data->type() == Gfx::ICC::Lut8TagData::Type) {
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auto& lut8 = static_cast<Gfx::ICC::Lut8TagData&>(*tag_data);
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outln(" input table: {} channels x {} entries", lut8.number_of_input_channels(), lut8.number_of_input_table_entries());
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outln(" output table: {} channels x {} entries", lut8.number_of_output_channels(), lut8.number_of_output_table_entries());
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outln(" color lookup table: {} grid points, {} total entries", lut8.number_of_clut_grid_points(), lut8.clut_values().size());
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auto const& e = lut8.e_matrix();
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outln(" e = [ {}, {}, {},", e[0], e[1], e[2]);
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outln(" {}, {}, {},", e[3], e[4], e[5]);
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outln(" {}, {}, {} ]", e[6], e[7], e[8]);
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} else if (tag_data->type() == Gfx::ICC::MultiLocalizedUnicodeTagData::Type) {
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auto& multi_localized_unicode = static_cast<Gfx::ICC::MultiLocalizedUnicodeTagData&>(*tag_data);
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for (auto& record : multi_localized_unicode.records()) {
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outln(" {:c}{:c}/{:c}{:c}: \"{}\"",
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record.iso_639_1_language_code >> 8, record.iso_639_1_language_code & 0xff,
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record.iso_3166_1_country_code >> 8, record.iso_3166_1_country_code & 0xff,
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record.text);
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}
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} else if (tag_data->type() == Gfx::ICC::NamedColor2TagData::Type) {
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auto& named_colors = static_cast<Gfx::ICC::NamedColor2TagData&>(*tag_data);
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outln(" vendor specific flag: 0x{:08x}", named_colors.vendor_specific_flag());
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outln(" common name prefix: \"{}\"", named_colors.prefix());
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outln(" common name suffix: \"{}\"", named_colors.suffix());
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outln(" {} colors:", named_colors.size());
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for (size_t i = 0; i < min(named_colors.size(), 5u); ++i) {
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const auto& pcs = named_colors.pcs_coordinates(i);
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// FIXME: Display decoded values? (See ICC v4 6.3.4.2 and 10.8.)
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out(" \"{}\", PCS coordinates: 0x{:04x} 0x{:04x} 0x{:04x}", MUST(named_colors.color_name(i)), pcs.xyz.x, pcs.xyz.y, pcs.xyz.z);
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if (auto number_of_device_coordinates = named_colors.number_of_device_coordinates(); number_of_device_coordinates > 0) {
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out(", device coordinates:");
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for (size_t j = 0; j < number_of_device_coordinates; ++j)
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out(" 0x{:04x}", named_colors.device_coordinates(i)[j]);
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}
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outln();
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}
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if (named_colors.size() > 5u)
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outln(" ...");
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} else if (tag_data->type() == Gfx::ICC::ParametricCurveTagData::Type) {
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auto& parametric_curve = static_cast<Gfx::ICC::ParametricCurveTagData&>(*tag_data);
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switch (parametric_curve.function_type()) {
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case Gfx::ICC::ParametricCurveTagData::FunctionType::Type0:
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outln(" Y = X**{}", parametric_curve.g());
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break;
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case Gfx::ICC::ParametricCurveTagData::FunctionType::Type1:
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outln(" Y = ({}*X + {})**{} if X >= -{}/{}",
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parametric_curve.a(), parametric_curve.b(), parametric_curve.g(), parametric_curve.b(), parametric_curve.a());
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outln(" Y = 0 else");
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break;
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case Gfx::ICC::ParametricCurveTagData::FunctionType::Type2:
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outln(" Y = ({}*X + {})**{} + {} if X >= -{}/{}",
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parametric_curve.a(), parametric_curve.b(), parametric_curve.g(), parametric_curve.c(), parametric_curve.b(), parametric_curve.a());
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outln(" Y = {} else", parametric_curve.c());
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break;
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case Gfx::ICC::ParametricCurveTagData::FunctionType::Type3:
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outln(" Y = ({}*X + {})**{} if X >= {}",
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parametric_curve.a(), parametric_curve.b(), parametric_curve.g(), parametric_curve.d());
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outln(" Y = {}*X else", parametric_curve.c());
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break;
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case Gfx::ICC::ParametricCurveTagData::FunctionType::Type4:
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outln(" Y = ({}*X + {})**{} + {} if X >= {}",
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parametric_curve.a(), parametric_curve.b(), parametric_curve.g(), parametric_curve.e(), parametric_curve.d());
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outln(" Y = {}*X + {} else", parametric_curve.c(), parametric_curve.f());
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break;
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}
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} else if (tag_data->type() == Gfx::ICC::S15Fixed16ArrayTagData::Type) {
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// This tag can contain arbitrarily many fixed-point numbers, but in practice it's
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// exclusively used for the 'chad' tag, where it always contains 9 values that
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// represent a 3x3 matrix. So print the values in groups of 3.
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auto& fixed_array = static_cast<Gfx::ICC::S15Fixed16ArrayTagData&>(*tag_data);
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out(" [");
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int i = 0;
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for (auto value : fixed_array.values()) {
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if (i > 0) {
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out(",");
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if (i % 3 == 0) {
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outln();
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out(" ");
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}
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}
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out(" {}", value);
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i++;
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}
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outln(" ]");
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} else if (tag_data->type() == Gfx::ICC::SignatureTagData::Type) {
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auto& signature = static_cast<Gfx::ICC::SignatureTagData&>(*tag_data);
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// FIXME: For colorimetricIntentImageStateTag, interpret signature according to ICC v4 Table 26
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// FIXME: For perceptualRenderingIntentGamutTag, interpret signature according to ICC v4 Table 27
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// FIXME: For saturationRenderingIntentGamutTag, interpret signature according to ICC v4 Table 28
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// FIXME: For technologyTag, interpret signature according to ICC v4 Table 29
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outln(" signature: '{:c}{:c}{:c}{:c}' / 0x{:08x}",
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signature.signature() >> 24, (signature.signature() >> 16) & 0xff, (signature.signature() >> 8) & 0xff, signature.signature() & 0xff,
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signature.signature());
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} else if (tag_data->type() == Gfx::ICC::TextDescriptionTagData::Type) {
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auto& text_description = static_cast<Gfx::ICC::TextDescriptionTagData&>(*tag_data);
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outln(" ascii: \"{}\"", text_description.ascii_description());
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out_optional(" unicode", MUST(text_description.unicode_description().map([](auto description) { return String::formatted("\"{}\"", description); })));
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outln(" unicode language code: 0x{}", text_description.unicode_language_code());
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out_optional(" macintosh", MUST(text_description.macintosh_description().map([](auto description) { return String::formatted("\"{}\"", description); })));
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} else if (tag_data->type() == Gfx::ICC::TextTagData::Type) {
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outln(" text: \"{}\"", static_cast<Gfx::ICC::TextTagData&>(*tag_data).text());
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} else if (tag_data->type() == Gfx::ICC::XYZTagData::Type) {
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for (auto& xyz : static_cast<Gfx::ICC::XYZTagData&>(*tag_data).xyzs())
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outln(" {}", xyz);
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}
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});
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return 0;
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}
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