/* * Copyright (c) 2022-2023, Nico Weber * * SPDX-License-Identifier: BSD-2-Clause */ #pragma once #include #include #include #include #include #include #include #include #include #include namespace Gfx::ICC { URL device_manufacturer_url(DeviceManufacturer); URL device_model_url(DeviceModel); // ICC v4, 7.2.4 Profile version field class Version { public: Version() = default; Version(u8 major, u8 minor_and_bugfix) : m_major_version(major) , m_minor_and_bugfix_version(minor_and_bugfix) { } u8 major_version() const { return m_major_version; } u8 minor_version() const { return m_minor_and_bugfix_version >> 4; } u8 bugfix_version() const { return m_minor_and_bugfix_version & 0xf; } private: u8 m_major_version = 0; u8 m_minor_and_bugfix_version = 0; }; // ICC v4, 7.2.5 Profile/device class field enum class DeviceClass : u32 { InputDevice = 0x73636E72, // 'scnr' DisplayDevice = 0x6D6E7472, // 'mntr' OutputDevice = 0x70727472, // 'prtr' DeviceLink = 0x6C696E6B, // 'link' ColorSpace = 0x73706163, // 'spac' Abstract = 0x61627374, // 'abst' NamedColor = 0x6E6D636C, // 'nmcl' }; StringView device_class_name(DeviceClass); // ICC v4, 7.2.6 Data colour space field, Table 19 — Data colour space signatures enum class ColorSpace : u32 { nCIEXYZ = 0x58595A20, // 'XYZ ', used in data color spaces. PCSXYZ = nCIEXYZ, // Used in profile connection space instead. CIELAB = 0x4C616220, // 'Lab ', used in data color spaces. PCSLAB = CIELAB, // Used in profile connection space instead. CIELUV = 0x4C757620, // 'Luv ' YCbCr = 0x59436272, // 'YCbr' CIEYxy = 0x59787920, // 'Yxy ' RGB = 0x52474220, // 'RGB ' Gray = 0x47524159, // 'GRAY' HSV = 0x48535620, // 'HSV ' HLS = 0x484C5320, // 'HLS ' CMYK = 0x434D594B, // 'CMYK' CMY = 0x434D5920, // 'CMY ' TwoColor = 0x32434C52, // '2CLR' ThreeColor = 0x33434C52, // '3CLR' FourColor = 0x34434C52, // '4CLR' FiveColor = 0x35434C52, // '5CLR' SixColor = 0x36434C52, // '6CLR' SevenColor = 0x37434C52, // '7CLR' EightColor = 0x38434C52, // '8CLR' NineColor = 0x39434C52, // '9CLR' TenColor = 0x41434C52, // 'ACLR' ElevenColor = 0x42434C52, // 'BCLR' TwelveColor = 0x43434C52, // 'CCLR' ThirteenColor = 0x44434C52, // 'DCLR' FourteenColor = 0x45434C52, // 'ECLR' FifteenColor = 0x46434C52, // 'FCLR' }; StringView data_color_space_name(ColorSpace); StringView profile_connection_space_name(ColorSpace); // ICC v4, 7.2.10 Primary platform field, Table 20 — Primary platforms enum class PrimaryPlatform : u32 { Apple = 0x4150504C, // 'APPL' Microsoft = 0x4D534654, // 'MSFT' SiliconGraphics = 0x53474920, // 'SGI ' Sun = 0x53554E57, // 'SUNW' }; StringView primary_platform_name(PrimaryPlatform); // ICC v4, 7.2.15 Rendering intent field enum class RenderingIntent { Perceptual, MediaRelativeColorimetric, Saturation, ICCAbsoluteColorimetric, }; StringView rendering_intent_name(RenderingIntent); // ICC v4, 7.2.11 Profile flags field class Flags { public: Flags(); // "The profile flags field contains flags." Flags(u32); u32 bits() const { return m_bits; } // "These can indicate various hints for the CMM such as distributed processing and caching options." // "The least-significant 16 bits are reserved for the ICC." u16 color_management_module_bits() const { return bits() >> 16; } u16 icc_bits() const { return bits() & 0xffff; } // "Bit position 0: Embedded profile (0 if not embedded, 1 if embedded in file)" bool is_embedded_in_file() const { return (icc_bits() & 1) != 0; } // "Bit position 1: Profile cannot be used independently of the embedded colour data (set to 1 if true, 0 if false)" // Double negation isn't unconfusing, so this function uses the inverted, positive sense. bool can_be_used_independently_of_embedded_color_data() const { return (icc_bits() & 2) == 0; } static constexpr u32 KnownBitsMask = 3; private: u32 m_bits = 0; }; // ICC v4, 7.2.14 Device attributes field class DeviceAttributes { public: DeviceAttributes(); // "The device attributes field shall contain flags used to identify attributes // unique to the particular device setup for which the profile is applicable." DeviceAttributes(u64); u64 bits() const { return m_bits; } // "The least-significant 32 bits of this 64-bit value are defined by the ICC. " u32 icc_bits() const { return bits() & 0xffff'ffff; } // "Notice that bits 0, 1, 2, and 3 describe the media, not the device." // "0": "Reflective (0) or transparency (1)" enum class MediaReflectivity { Reflective, Transparent, }; MediaReflectivity media_reflectivity() const { return MediaReflectivity(icc_bits() & 1); } // "1": "Glossy (0) or matte (1)" enum class MediaGlossiness { Glossy, Matte, }; MediaGlossiness media_glossiness() const { return MediaGlossiness((icc_bits() >> 1) & 1); } // "2": "Media polarity, positive (0) or negative (1)" enum class MediaPolarity { Positive, Negative, }; MediaPolarity media_polarity() const { return MediaPolarity((icc_bits() >> 2) & 1); } // "3": "Colour media (0), black & white media (1)" enum class MediaColor { Colored, BlackAndWhite, }; MediaColor media_color() const { return MediaColor((icc_bits() >> 3) & 1); } // "4 to 31": Reserved (set to binary zero)" // "32 to 63": "Use not defined by ICC (vendor specific" u32 vendor_bits() const { return bits() >> 32; } static constexpr u64 KnownBitsMask = 0xf; private: u64 m_bits = 0; }; class Profile : public RefCounted { public: static ErrorOr> try_load_from_externally_owned_memory(ReadonlyBytes); Optional preferred_cmm_type() const { return m_preferred_cmm_type; } Version version() const { return m_version; } DeviceClass device_class() const { return m_device_class; } ColorSpace data_color_space() const { return m_data_color_space; } // For non-DeviceLink profiles, always PCSXYZ or PCSLAB. ColorSpace connection_space() const { return m_connection_space; } u32 on_disk_size() const { return m_on_disk_size; } time_t creation_timestamp() const { return m_creation_timestamp; } Optional primary_platform() const { return m_primary_platform; } Flags flags() const { return m_flags; } Optional device_manufacturer() const { return m_device_manufacturer; } Optional device_model() const { return m_device_model; } DeviceAttributes device_attributes() const { return m_device_attributes; } RenderingIntent rendering_intent() const { return m_rendering_intent; } XYZ const& pcs_illuminant() const { return m_pcs_illuminant; } Optional creator() const { return m_creator; } Optional const& id() const { return m_id; } static Crypto::Hash::MD5::DigestType compute_id(ReadonlyBytes); template void for_each_tag(Callback callback) const { for (auto const& tag : m_tag_table) callback(tag.key, tag.value); } // Only versions 2 and 4 are in use. bool is_v2() const { return version().major_version() == 2; } bool is_v4() const { return version().major_version() == 4; } private: ErrorOr read_header(ReadonlyBytes); ErrorOr> read_tag(ReadonlyBytes bytes, u32 offset_to_beginning_of_tag_data_element, u32 size_of_tag_data_element); ErrorOr read_tag_table(ReadonlyBytes); ErrorOr check_required_tags(); ErrorOr check_tag_types(); u32 m_on_disk_size { 0 }; Optional m_preferred_cmm_type; Version m_version; DeviceClass m_device_class {}; ColorSpace m_data_color_space {}; ColorSpace m_connection_space {}; time_t m_creation_timestamp { 0 }; Optional m_primary_platform {}; Flags m_flags; Optional m_device_manufacturer; Optional m_device_model; DeviceAttributes m_device_attributes; RenderingIntent m_rendering_intent {}; XYZ m_pcs_illuminant; Optional m_creator; Optional m_id; OrderedHashMap> m_tag_table; }; } template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, Gfx::ICC::Version const& version) { return Formatter::format(builder, "{}.{}.{}"sv, version.major_version(), version.minor_version(), version.bugfix_version()); } };