mirror of
https://github.com/wader/fq.git
synced 2024-12-03 21:52:59 +03:00
1ddea1ada3
Move registry to interp and add support for functions and filesystems. This will be used later for allow formats to add own functions and fq code. Add gojqextra function helpers to have more comfortable API to add functions. Takes care of argument type casting and JQValue:s and some more things. Refactor interp package to use new function helper and registry. Probably fixes a bunch of JQValue bugs and other type errors. Refactor out some mpeg nal things to mpeg format. Refactor interp jq code into display.q and init.jq. Remove undocumented aes_ctr funciton, was a test. Hopefully will add more crypto things laster.
252 lines
6.1 KiB
Go
252 lines
6.1 KiB
Go
package tiff
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// https://www.adobe.io/content/dam/udp/en/open/standards/tiff/TIFF6.pdf
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import (
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"github.com/wader/fq/format"
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"github.com/wader/fq/pkg/decode"
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"github.com/wader/fq/pkg/interp"
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"github.com/wader/fq/pkg/scalar"
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)
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var tiffIccProfile decode.Group
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func init() {
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interp.RegisterFormat(decode.Format{
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Name: format.TIFF,
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Description: "Tag Image File Format",
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Groups: []string{format.PROBE, format.IMAGE},
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DecodeFn: tiffDecode,
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Dependencies: []decode.Dependency{
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{Names: []string{format.ICC_PROFILE}, Group: &tiffIccProfile},
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},
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})
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}
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const littleEndian = 0x49492a00 // "II*\0"
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const bigEndian = 0x4d4d002a // "MM\0*"
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var endianNames = scalar.UToSymStr{
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littleEndian: "little-endian",
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bigEndian: "big-endian",
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}
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const (
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BYTE = 1
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ASCII = 2
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SHORT = 3
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LONG = 4
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RATIONAL = 5
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UNDEFINED = 7
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SLONG = 9
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SRATIONAL = 10
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)
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var typeNames = scalar.UToSymStr{
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BYTE: "BYTE",
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ASCII: "ASCII",
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SHORT: "SHORT",
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LONG: "LONG",
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RATIONAL: "RATIONAL",
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UNDEFINED: "UNDEFINED",
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SLONG: "SLONG",
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SRATIONAL: "SRATIONAL",
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}
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// TODO: tiff 6.0 types
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var typeByteSize = map[uint64]uint64{
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BYTE: 1,
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ASCII: 1,
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SHORT: 2,
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LONG: 4,
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RATIONAL: 4 + 4,
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UNDEFINED: 1,
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SLONG: 4,
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SRATIONAL: 4 + 4,
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}
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func fieldRational(d *decode.D, name string) float64 {
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var v float64
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d.FieldStruct(name, func(d *decode.D) {
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numerator := d.FieldU32("numerator")
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denominator := d.FieldU32("denominator")
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v := float64(numerator) / float64(denominator)
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d.FieldValueFloat("float", v)
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})
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return v
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}
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func fieldSRational(d *decode.D, name string) float64 {
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var v float64
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d.FieldStruct(name, func(d *decode.D) {
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numerator := d.FieldS32("numerator")
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denominator := d.FieldS32("denominator")
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v := float64(numerator) / float64(denominator)
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d.FieldValueFloat("float", v)
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})
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return v
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}
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type strips struct {
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offsets []int64
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byteCounts []int64
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}
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func decodeIfd(d *decode.D, s *strips, tagNames scalar.UToSymStr) int64 {
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var nextIfdOffset int64
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d.FieldStruct("ifd", func(d *decode.D) {
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numberOfFields := d.FieldU16("number_of_field")
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d.FieldArray("entries", func(d *decode.D) {
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for i := uint64(0); i < numberOfFields; i++ {
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d.FieldStruct("entry", func(d *decode.D) {
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tag := d.FieldU16("tag", tagNames, scalar.ActualHex)
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typ := d.FieldU16("type", typeNames)
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count := d.FieldU32("count")
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valueOrByteOffset := d.FieldU32("value_offset")
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if _, ok := typeNames[typ]; !ok {
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return
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}
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valueByteOffset := valueOrByteOffset
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valueByteSize := typeByteSize[typ] * count
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if valueByteSize <= 4 {
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// if value fits in offset itself use offset to value_offset
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valueByteOffset = uint64(d.Pos()/8) - 4
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}
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switch {
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case typ == LONG && (tag == ExifIFD || tag == GPSInfo):
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ifdPos := valueOrByteOffset
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pos := d.Pos()
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d.SeekAbs(int64(ifdPos * 8))
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switch tag {
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case ExifIFD:
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// TODO: exif tag names?
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decodeIfd(d, &strips{}, tiffTagNames)
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case GPSInfo:
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decodeIfd(d, &strips{}, gpsInfoTagNames)
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}
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d.SeekAbs(pos)
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default:
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d.FieldArray("values", func(d *decode.D) {
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switch {
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case typ == UNDEFINED:
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switch tag {
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case InterColorProfile:
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d.FieldFormatRange("icc", int64(valueByteOffset)*8, int64(valueByteSize)*8, tiffIccProfile, nil)
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default:
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d.RangeFn(int64(valueByteOffset*8), int64(valueByteSize*8), func(d *decode.D) {
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d.FieldRawLen("value", d.BitsLeft())
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})
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}
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case typ == ASCII:
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d.RangeFn(int64(valueByteOffset*8), int64(valueByteSize*8), func(d *decode.D) {
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d.FieldUTF8NullFixedLen("value", int(valueByteSize))
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})
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case typ == BYTE:
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d.RangeFn(int64(valueByteOffset*8), int64(valueByteSize*8), func(d *decode.D) {
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d.FieldRawLen("value", d.BitsLeft())
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})
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default:
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d.RangeFn(int64(valueByteOffset*8), int64(valueByteSize*8), func(d *decode.D) {
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for i := uint64(0); i < count; i++ {
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switch typ {
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// TODO: only some typ?
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case BYTE:
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d.FieldU8("value")
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case SHORT:
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v := d.FieldU16("value")
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_ = v
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switch tag {
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case StripOffsets:
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s.offsets = append(s.offsets, int64(v*8))
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case StripByteCounts:
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s.byteCounts = append(s.byteCounts, int64(v*8))
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}
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case LONG:
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v := d.FieldU32("value")
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_ = v
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switch tag {
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case StripOffsets:
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s.offsets = append(s.offsets, int64(v*8))
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case StripByteCounts:
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s.byteCounts = append(s.byteCounts, int64(v*8))
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}
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case RATIONAL:
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fieldRational(d, "value")
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case SLONG:
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d.FieldS32("value")
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case SRATIONAL:
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fieldSRational(d, "value")
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default:
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d.Errorf("unknown type")
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}
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}
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})
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}
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})
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}
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})
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}
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})
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nextIfdOffset = int64(d.FieldU32("next_ifd"))
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})
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return nextIfdOffset
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}
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func tiffDecode(d *decode.D, in any) any {
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endian := d.FieldU32("endian", endianNames, scalar.ActualHex)
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switch endian {
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case littleEndian:
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d.Endian = decode.LittleEndian
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case bigEndian:
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d.Endian = decode.BigEndian
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default:
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d.Fatalf("unknown endian")
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}
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d.SeekRel(-4 * 8)
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d.FieldUTF8("order", 2, d.AssertStr("II", "MM"))
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d.FieldU16("integer_42", d.AssertU(42))
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ifdOffset := int64(d.FieldU32("first_ifd"))
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s := &strips{}
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// to catch infinite loops
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ifdSeen := map[int64]struct{}{}
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d.FieldArray("ifds", func(d *decode.D) {
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for ifdOffset != 0 {
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if _, ok := ifdSeen[ifdOffset]; ok {
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d.Fatalf("ifd loop detected for %d", ifdOffset)
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}
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ifdSeen[ifdOffset] = struct{}{}
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d.SeekAbs(ifdOffset * 8)
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ifdOffset = decodeIfd(d, s, tiffTagNames)
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}
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})
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if len(s.offsets) != len(s.byteCounts) {
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// TODO: warning
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} else {
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d.FieldArray("strips", func(d *decode.D) {
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for i := 0; i < len(s.offsets); i++ {
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d.RangeFn(s.offsets[i], s.byteCounts[i], func(d *decode.D) {
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d.FieldRawLen("strip", d.BitsLeft())
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})
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}
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})
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}
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return nil
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}
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