package icc // http://www.color.org/ICC1-V41.pdf // https://www.color.org/icc32.pdf import ( "github.com/wader/fq/format" "github.com/wader/fq/format/registry" "github.com/wader/fq/internal/num" "github.com/wader/fq/pkg/decode" ) func init() { registry.MustRegister(decode.Format{ Name: format.ICC_PROFILE, Description: "International Color Consortium profile", DecodeFn: iccProfileDecode, }) } func xyzType(_ int64, d *decode.D) { d.FieldFP32("X") d.FieldFP32("Y") d.FieldFP32("Z") } func textType(_ int64, d *decode.D) { d.FieldUTF8NullFixedLen("text", int(d.BitsLeft()/8)) } func paraType(_ int64, d *decode.D) { d.FieldU32("reserved0") d.FieldU16("function_type") d.FieldU16("reserved1") d.FieldRawLen("parameters", d.BitsLeft()) } func descType(_ int64, d *decode.D) { descLen := d.FieldU32("description_length") d.FieldUTF8NullFixedLen("description", int(descLen)) d.FieldU32("language_code") localDescLen := d.FieldU32("localizable_description_length") d.FieldUTF8NullFixedLen("localizable_description", int(localDescLen)) d.FieldU16("script_code") d.FieldU8("macintosh_description_length") d.FieldUTF8NullFixedLen("macintosh_description", 67) } func multiLocalizedUnicodeType(tagStart int64, d *decode.D) { numberOfNames := d.FieldU32("number_of_names") recordSize := d.FieldU32("record_size") d.FieldArray("names", func(d *decode.D) { for i := uint64(0); i < numberOfNames; i++ { d.FieldStruct("name", func(d *decode.D) { d.FieldUTF8("language_code", 2) d.FieldUTF8("country_code", 2) nameLength := d.FieldU32("name_length") nameOffset := d.FieldU32("name_offset") d.RangeFn(tagStart+int64(nameOffset)*8, int64(nameLength)*8, func(d *decode.D) { d.FieldUTF16BE("value", int(nameLength)) }) }) recordPadding := int64(recordSize) - 2 - 2 - 4 - 4 if recordPadding > 0 { d.FieldRawLen("padding", recordPadding) } } }) } var typeToDecode = map[string]func(tagStart int64, d *decode.D){ "XYZ ": xyzType, "text": textType, "para": paraType, "desc": descType, "mluc": multiLocalizedUnicodeType, } func decodeBCDU8(d *decode.D) uint64 { n := d.U8() return (n>>4)*10 + n&0xf } func iccProfileDecode(d *decode.D, in interface{}) interface{} { /* 0..3 Profile size uInt32Number 4..7 CMM Type signature see below 8..11 Profile version number see below 12..15 Profile/Device Class signature see below 16..19 Color space of data (possibly a derived space) [i.e. “the canonical input space”] see below 20..23 Profile Connection Space (PCS) [i.e. “the canonical output space”] see below 24..35 Date and time this profile was first created dateTimeNumber 36..39 ‘acsp’ (61637370h) profile file signature 40..43 Primary Platform signature see below 44..47 Flags to indicate various options for the CMM such as distributed processing and caching options see below 48..51 Device manufacturer of the device for which this profile is created see below 52..55 Device model of the device for which this profile is created see below 56..63 Device attributes unique to the particular device setup such as media type see below 64..67 Rendering Intent see below 68..79 The XYZ values of the illuminant of the Profile Connection Space. This must correspond to D50. It is explained in more detail in A.1. XYZNumber 80..83 Profile Creator signature see below 84..99 Profile ID see below 100..127 28 bytes reserved for future expansion - must be set to zeros */ // TODO: PokeU32()? size := d.U32() d.SeekRel(-4 * 8) d.LenFn(int64(size)*8, func(d *decode.D) { d.FieldStruct("header", func(d *decode.D) { d.FieldU32("size") d.FieldUTF8NullFixedLen("cmm_type_signature", 4) d.FieldUFn("version_major", decodeBCDU8) d.FieldUFn("version_minor", decodeBCDU8) d.FieldU16("version_reserved") d.FieldUTF8NullFixedLen("device_class_signature", 4) d.FieldUTF8NullFixedLen("color_space", 4) d.FieldUTF8NullFixedLen("connection_space", 4) d.FieldStruct("timestamp", func(d *decode.D) { d.FieldU16("year") d.FieldU16("month") d.FieldU16("day") d.FieldU16("hours") d.FieldU16("minutes") d.FieldU16("seconds") }) d.FieldUTF8NullFixedLen("file_signature", 4) d.FieldUTF8NullFixedLen("primary_platform", 4) d.FieldU32("flags") d.FieldUTF8NullFixedLen("device_manufacturer", 4) d.FieldUTF8NullFixedLen("device_model", 4) d.FieldUTF8NullFixedLen("device_attribute", 8) d.FieldUTF8NullFixedLen("render_intent", 4) d.FieldUTF8NullFixedLen("xyz_illuminant", 12) d.FieldUTF8NullFixedLen("profile_creator_signature", 4) d.FieldUTF8NullFixedLen("profile_id", 16) d.FieldRawLen("reserved", 28*8, d.BitBufIsZero()) }) d.FieldStruct("tag_table", func(d *decode.D) { tagCount := d.FieldU32("count") d.FieldArray("table", func(d *decode.D) { for i := uint64(0); i < tagCount; i++ { d.FieldStruct("element", func(d *decode.D) { d.FieldUTF8NullFixedLen("signature", 4) offset := d.FieldU32("offset") size := d.FieldU32("size") d.RangeFn(int64(offset)*8, int64(size)*8, func(d *decode.D) { tagStart := d.Pos() typ := d.FieldUTF8NullFixedLen("type", 4) d.FieldU32("reserved") if fn, ok := typeToDecode[typ]; ok { fn(tagStart, d) } else { d.FieldRawLen("data", int64(size-4-4)*8) } }) // "All tag data is required to start on a 4-byte boundary (relative to the start of the profile data stream)" // we can't add this at the start of the element as we don't know how big the previous element in the stream // was. instead add alignment after if offset+size does not align and to be sure clamp it if outside buffer. paddingStart := int64(offset) + int64(size) paddingBytes := (4 - (int64(offset)+int64(size))%4) % 4 paddingBytes = num.MinInt64(paddingBytes, d.Len()-(paddingStart+paddingBytes)) if paddingBytes != 0 { d.RangeFn(paddingStart*8, paddingBytes*8, func(d *decode.D) { d.FieldRawLen("alignment", d.BitsLeft()) }) } }) } }) }) }) return nil }