mirror of
https://github.com/superseriousbusiness/gotosocial
synced 2024-12-09 07:00:46 +01:00
465 lines
12 KiB
Go
465 lines
12 KiB
Go
package exifcommon
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import (
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"errors"
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"io"
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"encoding/binary"
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"github.com/dsoprea/go-logging"
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)
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var (
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parser *Parser
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)
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var (
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// ErrNotFarValue indicates that an offset-based lookup was attempted for a
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// non-offset-based (embedded) value.
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ErrNotFarValue = errors.New("not a far value")
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)
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// ValueContext embeds all of the parameters required to find and extract the
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// actual tag value.
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type ValueContext struct {
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unitCount uint32
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valueOffset uint32
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rawValueOffset []byte
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rs io.ReadSeeker
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tagType TagTypePrimitive
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byteOrder binary.ByteOrder
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// undefinedValueTagType is the effective type to use if this is an
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// "undefined" value.
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undefinedValueTagType TagTypePrimitive
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ifdPath string
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tagId uint16
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}
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// TODO(dustin): We can update newValueContext() to derive `valueOffset` itself (from `rawValueOffset`).
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// NewValueContext returns a new ValueContext struct.
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func NewValueContext(ifdPath string, tagId uint16, unitCount, valueOffset uint32, rawValueOffset []byte, rs io.ReadSeeker, tagType TagTypePrimitive, byteOrder binary.ByteOrder) *ValueContext {
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return &ValueContext{
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unitCount: unitCount,
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valueOffset: valueOffset,
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rawValueOffset: rawValueOffset,
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rs: rs,
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tagType: tagType,
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byteOrder: byteOrder,
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ifdPath: ifdPath,
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tagId: tagId,
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}
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}
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// SetUndefinedValueType sets the effective type if this is an unknown-type tag.
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func (vc *ValueContext) SetUndefinedValueType(tagType TagTypePrimitive) {
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if vc.tagType != TypeUndefined {
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log.Panicf("can not set effective type for unknown-type tag because this is *not* an unknown-type tag")
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}
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vc.undefinedValueTagType = tagType
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}
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// UnitCount returns the embedded unit-count.
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func (vc *ValueContext) UnitCount() uint32 {
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return vc.unitCount
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}
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// ValueOffset returns the value-offset decoded as a `uint32`.
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func (vc *ValueContext) ValueOffset() uint32 {
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return vc.valueOffset
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}
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// RawValueOffset returns the uninterpreted value-offset. This is used for
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// embedded values (values small enough to fit within the offset bytes rather
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// than needing to be stored elsewhere and referred to by an actual offset).
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func (vc *ValueContext) RawValueOffset() []byte {
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return vc.rawValueOffset
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}
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// AddressableData returns the block of data that we can dereference into.
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func (vc *ValueContext) AddressableData() io.ReadSeeker {
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// RELEASE)dustin): Rename from AddressableData() to ReadSeeker()
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return vc.rs
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}
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// ByteOrder returns the byte-order of numbers.
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func (vc *ValueContext) ByteOrder() binary.ByteOrder {
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return vc.byteOrder
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}
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// IfdPath returns the path of the IFD containing this tag.
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func (vc *ValueContext) IfdPath() string {
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return vc.ifdPath
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}
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// TagId returns the ID of the tag that we represent.
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func (vc *ValueContext) TagId() uint16 {
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return vc.tagId
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}
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// isEmbedded returns whether the value is embedded or a reference. This can't
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// be precalculated since the size is not defined for all types (namely the
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// "undefined" types).
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func (vc *ValueContext) isEmbedded() bool {
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tagType := vc.effectiveValueType()
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return (tagType.Size() * int(vc.unitCount)) <= 4
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}
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// SizeInBytes returns the number of bytes that this value requires. The
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// underlying call will panic if the type is UNDEFINED. It is the
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// responsibility of the caller to preemptively check that.
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func (vc *ValueContext) SizeInBytes() int {
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tagType := vc.effectiveValueType()
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return tagType.Size() * int(vc.unitCount)
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}
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// effectiveValueType returns the effective type of the unknown-type tag or, if
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// not unknown, the actual type.
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func (vc *ValueContext) effectiveValueType() (tagType TagTypePrimitive) {
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if vc.tagType == TypeUndefined {
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tagType = vc.undefinedValueTagType
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if tagType == 0 {
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log.Panicf("undefined-value type not set")
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}
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} else {
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tagType = vc.tagType
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}
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return tagType
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}
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// readRawEncoded returns the encoded bytes for the value that we represent.
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func (vc *ValueContext) readRawEncoded() (rawBytes []byte, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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tagType := vc.effectiveValueType()
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unitSizeRaw := uint32(tagType.Size())
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if vc.isEmbedded() == true {
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byteLength := unitSizeRaw * vc.unitCount
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return vc.rawValueOffset[:byteLength], nil
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}
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_, err = vc.rs.Seek(int64(vc.valueOffset), io.SeekStart)
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log.PanicIf(err)
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rawBytes = make([]byte, vc.unitCount*unitSizeRaw)
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_, err = io.ReadFull(vc.rs, rawBytes)
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log.PanicIf(err)
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return rawBytes, nil
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}
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// GetFarOffset returns the offset if the value is not embedded [within the
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// pointer itself] or an error if an embedded value.
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func (vc *ValueContext) GetFarOffset() (offset uint32, err error) {
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if vc.isEmbedded() == true {
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return 0, ErrNotFarValue
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}
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return vc.valueOffset, nil
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}
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// ReadRawEncoded returns the encoded bytes for the value that we represent.
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func (vc *ValueContext) ReadRawEncoded() (rawBytes []byte, err error) {
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// TODO(dustin): Remove this method and rename readRawEncoded in its place.
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return vc.readRawEncoded()
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}
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// Format returns a string representation for the value.
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//
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// Where the type is not ASCII, `justFirst` indicates whether to just stringify
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// the first item in the slice (or return an empty string if the slice is
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// empty).
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//
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// Since this method lacks the information to process undefined-type tags (e.g.
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// byte-order, tag-ID, IFD type), it will return an error if attempted. See
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// `Undefined()`.
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func (vc *ValueContext) Format() (value string, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawBytes, err := vc.readRawEncoded()
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log.PanicIf(err)
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phrase, err := FormatFromBytes(rawBytes, vc.effectiveValueType(), false, vc.byteOrder)
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log.PanicIf(err)
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return phrase, nil
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}
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// FormatFirst is similar to `Format` but only gets and stringifies the first
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// item.
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func (vc *ValueContext) FormatFirst() (value string, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawBytes, err := vc.readRawEncoded()
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log.PanicIf(err)
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phrase, err := FormatFromBytes(rawBytes, vc.tagType, true, vc.byteOrder)
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log.PanicIf(err)
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return phrase, nil
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}
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// ReadBytes parses the encoded byte-array from the value-context.
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func (vc *ValueContext) ReadBytes() (value []byte, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseBytes(rawValue, vc.unitCount)
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log.PanicIf(err)
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return value, nil
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}
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// ReadAscii parses the encoded NUL-terminated ASCII string from the value-
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// context.
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func (vc *ValueContext) ReadAscii() (value string, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseAscii(rawValue, vc.unitCount)
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log.PanicIf(err)
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return value, nil
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}
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// ReadAsciiNoNul parses the non-NUL-terminated encoded ASCII string from the
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// value-context.
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func (vc *ValueContext) ReadAsciiNoNul() (value string, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseAsciiNoNul(rawValue, vc.unitCount)
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log.PanicIf(err)
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return value, nil
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}
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// ReadShorts parses the list of encoded shorts from the value-context.
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func (vc *ValueContext) ReadShorts() (value []uint16, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseShorts(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// ReadLongs parses the list of encoded, unsigned longs from the value-context.
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func (vc *ValueContext) ReadLongs() (value []uint32, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseLongs(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// ReadFloats parses the list of encoded, floats from the value-context.
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func (vc *ValueContext) ReadFloats() (value []float32, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseFloats(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// ReadDoubles parses the list of encoded, doubles from the value-context.
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func (vc *ValueContext) ReadDoubles() (value []float64, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseDoubles(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// ReadRationals parses the list of encoded, unsigned rationals from the value-
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// context.
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func (vc *ValueContext) ReadRationals() (value []Rational, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseRationals(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// ReadSignedLongs parses the list of encoded, signed longs from the value-context.
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func (vc *ValueContext) ReadSignedLongs() (value []int32, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseSignedLongs(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// ReadSignedRationals parses the list of encoded, signed rationals from the
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// value-context.
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func (vc *ValueContext) ReadSignedRationals() (value []SignedRational, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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rawValue, err := vc.readRawEncoded()
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log.PanicIf(err)
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value, err = parser.ParseSignedRationals(rawValue, vc.unitCount, vc.byteOrder)
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log.PanicIf(err)
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return value, nil
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}
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// Values knows how to resolve the given value. This value is always a list
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// (undefined-values aside), so we're named accordingly.
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//
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// Since this method lacks the information to process unknown-type tags (e.g.
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// byte-order, tag-ID, IFD type), it will return an error if attempted. See
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// `Undefined()`.
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func (vc *ValueContext) Values() (values interface{}, err error) {
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defer func() {
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if state := recover(); state != nil {
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err = log.Wrap(state.(error))
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}
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}()
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if vc.tagType == TypeByte {
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values, err = vc.ReadBytes()
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log.PanicIf(err)
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} else if vc.tagType == TypeAscii {
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values, err = vc.ReadAscii()
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log.PanicIf(err)
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} else if vc.tagType == TypeAsciiNoNul {
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values, err = vc.ReadAsciiNoNul()
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log.PanicIf(err)
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} else if vc.tagType == TypeShort {
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values, err = vc.ReadShorts()
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log.PanicIf(err)
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} else if vc.tagType == TypeLong {
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values, err = vc.ReadLongs()
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log.PanicIf(err)
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} else if vc.tagType == TypeRational {
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values, err = vc.ReadRationals()
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log.PanicIf(err)
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} else if vc.tagType == TypeSignedLong {
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values, err = vc.ReadSignedLongs()
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log.PanicIf(err)
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} else if vc.tagType == TypeSignedRational {
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values, err = vc.ReadSignedRationals()
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log.PanicIf(err)
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} else if vc.tagType == TypeFloat {
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values, err = vc.ReadFloats()
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log.PanicIf(err)
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} else if vc.tagType == TypeDouble {
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values, err = vc.ReadDoubles()
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log.PanicIf(err)
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} else if vc.tagType == TypeUndefined {
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log.Panicf("will not parse undefined-type value")
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// Never called.
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return nil, nil
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} else {
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log.Panicf("value of type [%s] is unparseable", vc.tagType)
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// Never called.
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return nil, nil
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}
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return values, nil
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}
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func init() {
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parser = new(Parser)
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}
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