mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
synced 2024-12-25 02:18:16 +03:00
651 lines
16 KiB
Go
651 lines
16 KiB
Go
package exifcommon
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import (
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"errors"
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"fmt"
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"strings"
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"github.com/dsoprea/go-logging"
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)
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var (
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ifdLogger = log.NewLogger("exifcommon.ifd")
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)
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var (
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ErrChildIfdNotMapped = errors.New("no child-IFD for that tag-ID under parent")
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)
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// MappedIfd is one node in the IFD-mapping.
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type MappedIfd struct {
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ParentTagId uint16
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Placement []uint16
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Path []string
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Name string
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TagId uint16
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Children map[uint16]*MappedIfd
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}
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// String returns a descriptive string.
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func (mi *MappedIfd) String() string {
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pathPhrase := mi.PathPhrase()
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return fmt.Sprintf("MappedIfd<(0x%04X) [%s] PATH=[%s]>", mi.TagId, mi.Name, pathPhrase)
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}
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// PathPhrase returns a non-fully-qualified IFD path.
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func (mi *MappedIfd) PathPhrase() string {
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return strings.Join(mi.Path, "/")
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}
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// TODO(dustin): Refactor this to use IfdIdentity structs.
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// IfdMapping describes all of the IFDs that we currently recognize.
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type IfdMapping struct {
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rootNode *MappedIfd
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}
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// NewIfdMapping returns a new IfdMapping struct.
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func NewIfdMapping() (ifdMapping *IfdMapping) {
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rootNode := &MappedIfd{
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Path: make([]string, 0),
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Children: make(map[uint16]*MappedIfd),
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}
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return &IfdMapping{
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rootNode: rootNode,
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}
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}
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// NewIfdMappingWithStandard retruns a new IfdMapping struct preloaded with the
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// standard IFDs.
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func NewIfdMappingWithStandard() (ifdMapping *IfdMapping, 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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im := NewIfdMapping()
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err = LoadStandardIfds(im)
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log.PanicIf(err)
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return im, nil
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}
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// Get returns the node given the path slice.
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func (im *IfdMapping) Get(parentPlacement []uint16) (childIfd *MappedIfd, 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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ptr := im.rootNode
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for _, tagId := range parentPlacement {
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if descendantPtr, found := ptr.Children[tagId]; found == false {
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log.Panicf("ifd child with tag-ID (%04x) not registered: [%s]", tagId, ptr.PathPhrase())
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} else {
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ptr = descendantPtr
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}
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}
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return ptr, nil
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}
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// GetWithPath returns the node given the path string.
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func (im *IfdMapping) GetWithPath(pathPhrase string) (mi *MappedIfd, 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 pathPhrase == "" {
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log.Panicf("path-phrase is empty")
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}
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path := strings.Split(pathPhrase, "/")
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ptr := im.rootNode
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for _, name := range path {
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var hit *MappedIfd
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for _, mi := range ptr.Children {
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if mi.Name == name {
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hit = mi
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break
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}
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}
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if hit == nil {
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log.Panicf("ifd child with name [%s] not registered: [%s]", name, ptr.PathPhrase())
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}
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ptr = hit
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}
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return ptr, nil
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}
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// GetChild is a convenience function to get the child path for a given parent
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// placement and child tag-ID.
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func (im *IfdMapping) GetChild(parentPathPhrase string, tagId uint16) (mi *MappedIfd, 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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mi, err = im.GetWithPath(parentPathPhrase)
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log.PanicIf(err)
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for _, childMi := range mi.Children {
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if childMi.TagId == tagId {
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return childMi, nil
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}
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}
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// Whether or not an IFD is defined in data, such an IFD is not registered
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// and would be unknown.
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log.Panic(ErrChildIfdNotMapped)
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return nil, nil
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}
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// IfdTagIdAndIndex represents a specific part of the IFD path.
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//
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// This is a legacy type.
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type IfdTagIdAndIndex struct {
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Name string
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TagId uint16
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Index int
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}
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// String returns a descriptive string.
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func (itii IfdTagIdAndIndex) String() string {
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return fmt.Sprintf("IfdTagIdAndIndex<NAME=[%s] ID=(%04x) INDEX=(%d)>", itii.Name, itii.TagId, itii.Index)
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}
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// ResolvePath takes a list of names, which can also be suffixed with indices
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// (to identify the second, third, etc.. sibling IFD) and returns a list of
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// tag-IDs and those indices.
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//
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// Example:
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//
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// - IFD/Exif/Iop
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// - IFD0/Exif/Iop
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//
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// This is the only call that supports adding the numeric indices.
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func (im *IfdMapping) ResolvePath(pathPhrase string) (lineage []IfdTagIdAndIndex, 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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pathPhrase = strings.TrimSpace(pathPhrase)
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if pathPhrase == "" {
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log.Panicf("can not resolve empty path-phrase")
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}
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path := strings.Split(pathPhrase, "/")
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lineage = make([]IfdTagIdAndIndex, len(path))
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ptr := im.rootNode
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empty := IfdTagIdAndIndex{}
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for i, name := range path {
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indexByte := name[len(name)-1]
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index := 0
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if indexByte >= '0' && indexByte <= '9' {
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index = int(indexByte - '0')
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name = name[:len(name)-1]
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}
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itii := IfdTagIdAndIndex{}
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for _, mi := range ptr.Children {
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if mi.Name != name {
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continue
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}
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itii.Name = name
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itii.TagId = mi.TagId
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itii.Index = index
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ptr = mi
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break
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}
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if itii == empty {
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log.Panicf("ifd child with name [%s] not registered: [%s]", name, pathPhrase)
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}
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lineage[i] = itii
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}
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return lineage, nil
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}
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// FqPathPhraseFromLineage returns the fully-qualified IFD path from the slice.
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func (im *IfdMapping) FqPathPhraseFromLineage(lineage []IfdTagIdAndIndex) (fqPathPhrase string) {
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fqPathParts := make([]string, len(lineage))
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for i, itii := range lineage {
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if itii.Index > 0 {
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fqPathParts[i] = fmt.Sprintf("%s%d", itii.Name, itii.Index)
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} else {
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fqPathParts[i] = itii.Name
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}
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}
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return strings.Join(fqPathParts, "/")
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}
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// PathPhraseFromLineage returns the non-fully-qualified IFD path from the
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// slice.
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func (im *IfdMapping) PathPhraseFromLineage(lineage []IfdTagIdAndIndex) (pathPhrase string) {
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pathParts := make([]string, len(lineage))
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for i, itii := range lineage {
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pathParts[i] = itii.Name
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}
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return strings.Join(pathParts, "/")
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}
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// StripPathPhraseIndices returns a non-fully-qualified path-phrase (no
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// indices).
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func (im *IfdMapping) StripPathPhraseIndices(pathPhrase string) (strippedPathPhrase 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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lineage, err := im.ResolvePath(pathPhrase)
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log.PanicIf(err)
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strippedPathPhrase = im.PathPhraseFromLineage(lineage)
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return strippedPathPhrase, nil
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}
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// Add puts the given IFD at the given position of the tree. The position of the
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// tree is referred to as the placement and is represented by a set of tag-IDs,
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// where the leftmost is the root tag and the tags going to the right are
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// progressive descendants.
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func (im *IfdMapping) Add(parentPlacement []uint16, tagId uint16, name 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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// TODO(dustin): !! It would be nicer to provide a list of names in the placement rather than tag-IDs.
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ptr, err := im.Get(parentPlacement)
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log.PanicIf(err)
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path := make([]string, len(parentPlacement)+1)
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if len(parentPlacement) > 0 {
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copy(path, ptr.Path)
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}
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path[len(path)-1] = name
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placement := make([]uint16, len(parentPlacement)+1)
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if len(placement) > 0 {
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copy(placement, ptr.Placement)
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}
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placement[len(placement)-1] = tagId
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childIfd := &MappedIfd{
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ParentTagId: ptr.TagId,
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Path: path,
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Placement: placement,
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Name: name,
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TagId: tagId,
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Children: make(map[uint16]*MappedIfd),
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}
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if _, found := ptr.Children[tagId]; found == true {
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log.Panicf("child IFD with tag-ID (%04x) already registered under IFD [%s] with tag-ID (%04x)", tagId, ptr.Name, ptr.TagId)
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}
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ptr.Children[tagId] = childIfd
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return nil
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}
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func (im *IfdMapping) dumpLineages(stack []*MappedIfd, input []string) (output []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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currentIfd := stack[len(stack)-1]
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output = input
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for _, childIfd := range currentIfd.Children {
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stackCopy := make([]*MappedIfd, len(stack)+1)
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copy(stackCopy, stack)
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stackCopy[len(stack)] = childIfd
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// Add to output, but don't include the obligatory root node.
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parts := make([]string, len(stackCopy)-1)
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for i, mi := range stackCopy[1:] {
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parts[i] = mi.Name
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}
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output = append(output, strings.Join(parts, "/"))
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output, err = im.dumpLineages(stackCopy, output)
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log.PanicIf(err)
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}
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return output, nil
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}
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// DumpLineages returns a slice of strings representing all mappings.
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func (im *IfdMapping) DumpLineages() (output []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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stack := []*MappedIfd{im.rootNode}
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output = make([]string, 0)
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output, err = im.dumpLineages(stack, output)
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log.PanicIf(err)
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return output, nil
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}
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// LoadStandardIfds loads the standard IFDs into the mapping.
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func LoadStandardIfds(im *IfdMapping) (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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err = im.Add(
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[]uint16{},
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IfdStandardIfdIdentity.TagId(), IfdStandardIfdIdentity.Name())
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log.PanicIf(err)
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err = im.Add(
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[]uint16{IfdStandardIfdIdentity.TagId()},
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IfdExifStandardIfdIdentity.TagId(), IfdExifStandardIfdIdentity.Name())
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log.PanicIf(err)
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err = im.Add(
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[]uint16{IfdStandardIfdIdentity.TagId(), IfdExifStandardIfdIdentity.TagId()},
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IfdExifIopStandardIfdIdentity.TagId(), IfdExifIopStandardIfdIdentity.Name())
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log.PanicIf(err)
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err = im.Add(
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[]uint16{IfdStandardIfdIdentity.TagId()},
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IfdGpsInfoStandardIfdIdentity.TagId(), IfdGpsInfoStandardIfdIdentity.Name())
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log.PanicIf(err)
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return nil
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}
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// IfdTag describes a single IFD tag and its parent (if any).
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type IfdTag struct {
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parentIfdTag *IfdTag
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tagId uint16
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name string
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}
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func NewIfdTag(parentIfdTag *IfdTag, tagId uint16, name string) IfdTag {
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return IfdTag{
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parentIfdTag: parentIfdTag,
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tagId: tagId,
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name: name,
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}
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}
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// ParentIfd returns the IfdTag of this IFD's parent.
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func (it IfdTag) ParentIfd() *IfdTag {
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return it.parentIfdTag
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}
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// TagId returns the tag-ID of this IFD.
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func (it IfdTag) TagId() uint16 {
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return it.tagId
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}
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// Name returns the simple name of this IFD.
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func (it IfdTag) Name() string {
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return it.name
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}
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// String returns a descriptive string.
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func (it IfdTag) String() string {
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parentIfdPhrase := ""
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if it.parentIfdTag != nil {
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parentIfdPhrase = fmt.Sprintf(" PARENT=(0x%04x)[%s]", it.parentIfdTag.tagId, it.parentIfdTag.name)
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}
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return fmt.Sprintf("IfdTag<TAG-ID=(0x%04x) NAME=[%s]%s>", it.tagId, it.name, parentIfdPhrase)
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}
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var (
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// rootStandardIfd is the standard root IFD.
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rootStandardIfd = NewIfdTag(nil, 0x0000, "IFD") // IFD
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// exifStandardIfd is the standard "Exif" IFD.
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exifStandardIfd = NewIfdTag(&rootStandardIfd, 0x8769, "Exif") // IFD/Exif
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// iopStandardIfd is the standard "Iop" IFD.
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iopStandardIfd = NewIfdTag(&exifStandardIfd, 0xA005, "Iop") // IFD/Exif/Iop
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// gpsInfoStandardIfd is the standard "GPS" IFD.
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gpsInfoStandardIfd = NewIfdTag(&rootStandardIfd, 0x8825, "GPSInfo") // IFD/GPSInfo
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)
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// IfdIdentityPart represents one component in an IFD path.
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type IfdIdentityPart struct {
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Name string
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Index int
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}
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// String returns a fully-qualified IFD path.
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func (iip IfdIdentityPart) String() string {
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if iip.Index > 0 {
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return fmt.Sprintf("%s%d", iip.Name, iip.Index)
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} else {
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return iip.Name
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}
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}
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// UnindexedString returned a non-fully-qualified IFD path.
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func (iip IfdIdentityPart) UnindexedString() string {
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return iip.Name
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}
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// IfdIdentity represents a single IFD path and provides access to various
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// information and representations.
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//
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// Only global instances can be used for equality checks.
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type IfdIdentity struct {
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ifdTag IfdTag
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parts []IfdIdentityPart
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ifdPath string
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fqIfdPath string
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}
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// NewIfdIdentity returns a new IfdIdentity struct.
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func NewIfdIdentity(ifdTag IfdTag, parts ...IfdIdentityPart) (ii *IfdIdentity) {
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ii = &IfdIdentity{
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ifdTag: ifdTag,
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parts: parts,
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}
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ii.ifdPath = ii.getIfdPath()
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ii.fqIfdPath = ii.getFqIfdPath()
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return ii
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}
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// NewIfdIdentityFromString parses a string like "IFD/Exif" or "IFD1" or
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// something more exotic with custom IFDs ("SomeIFD4/SomeChildIFD6"). Note that
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// this will valid the unindexed IFD structure (because the standard tags from
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// the specification are unindexed), but not, obviously, any indices (e.g.
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// the numbers in "IFD0", "IFD1", "SomeIFD4/SomeChildIFD6"). It is
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// required for the caller to check whether these specific instances
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// were actually parsed out of the stream.
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func NewIfdIdentityFromString(im *IfdMapping, fqIfdPath string) (ii *IfdIdentity, 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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lineage, err := im.ResolvePath(fqIfdPath)
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log.PanicIf(err)
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var lastIt *IfdTag
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identityParts := make([]IfdIdentityPart, len(lineage))
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for i, itii := range lineage {
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// Build out the tag that will eventually point to the IFD represented
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// by the right-most part in the IFD path.
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it := &IfdTag{
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parentIfdTag: lastIt,
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tagId: itii.TagId,
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name: itii.Name,
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}
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lastIt = it
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// Create the next IfdIdentity part.
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iip := IfdIdentityPart{
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Name: itii.Name,
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Index: itii.Index,
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}
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identityParts[i] = iip
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}
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ii = NewIfdIdentity(*lastIt, identityParts...)
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return ii, nil
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}
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func (ii *IfdIdentity) getFqIfdPath() string {
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partPhrases := make([]string, len(ii.parts))
|
|
for i, iip := range ii.parts {
|
|
partPhrases[i] = iip.String()
|
|
}
|
|
|
|
return strings.Join(partPhrases, "/")
|
|
}
|
|
|
|
func (ii *IfdIdentity) getIfdPath() string {
|
|
partPhrases := make([]string, len(ii.parts))
|
|
for i, iip := range ii.parts {
|
|
partPhrases[i] = iip.UnindexedString()
|
|
}
|
|
|
|
return strings.Join(partPhrases, "/")
|
|
}
|
|
|
|
// String returns a fully-qualified IFD path.
|
|
func (ii *IfdIdentity) String() string {
|
|
return ii.fqIfdPath
|
|
}
|
|
|
|
// UnindexedString returns a non-fully-qualified IFD path.
|
|
func (ii *IfdIdentity) UnindexedString() string {
|
|
return ii.ifdPath
|
|
}
|
|
|
|
// IfdTag returns the tag struct behind this IFD.
|
|
func (ii *IfdIdentity) IfdTag() IfdTag {
|
|
return ii.ifdTag
|
|
}
|
|
|
|
// TagId returns the tag-ID of the IFD.
|
|
func (ii *IfdIdentity) TagId() uint16 {
|
|
return ii.ifdTag.TagId()
|
|
}
|
|
|
|
// LeafPathPart returns the last right-most path-part, which represents the
|
|
// current IFD.
|
|
func (ii *IfdIdentity) LeafPathPart() IfdIdentityPart {
|
|
return ii.parts[len(ii.parts)-1]
|
|
}
|
|
|
|
// Name returns the simple name of this IFD.
|
|
func (ii *IfdIdentity) Name() string {
|
|
return ii.LeafPathPart().Name
|
|
}
|
|
|
|
// Index returns the index of this IFD (more then one IFD under a parent IFD
|
|
// will be numbered [0..n]).
|
|
func (ii *IfdIdentity) Index() int {
|
|
return ii.LeafPathPart().Index
|
|
}
|
|
|
|
// Equals returns true if the two IfdIdentity instances are effectively
|
|
// identical.
|
|
//
|
|
// Since there's no way to get a specific fully-qualified IFD path without a
|
|
// certain slice of parts and all other fields are also derived from this,
|
|
// checking that the fully-qualified IFD path is equals is sufficient.
|
|
func (ii *IfdIdentity) Equals(ii2 *IfdIdentity) bool {
|
|
return ii.String() == ii2.String()
|
|
}
|
|
|
|
// NewChild creates an IfdIdentity for an IFD that is a child of the current
|
|
// IFD.
|
|
func (ii *IfdIdentity) NewChild(childIfdTag IfdTag, index int) (iiChild *IfdIdentity) {
|
|
if *childIfdTag.parentIfdTag != ii.ifdTag {
|
|
log.Panicf("can not add child; we are not the parent:\nUS=%v\nCHILD=%v", ii.ifdTag, childIfdTag)
|
|
}
|
|
|
|
childPart := IfdIdentityPart{childIfdTag.name, index}
|
|
childParts := append(ii.parts, childPart)
|
|
|
|
iiChild = NewIfdIdentity(childIfdTag, childParts...)
|
|
return iiChild
|
|
}
|
|
|
|
// NewSibling creates an IfdIdentity for an IFD that is a sibling to the current
|
|
// one.
|
|
func (ii *IfdIdentity) NewSibling(index int) (iiSibling *IfdIdentity) {
|
|
parts := make([]IfdIdentityPart, len(ii.parts))
|
|
|
|
copy(parts, ii.parts)
|
|
parts[len(parts)-1].Index = index
|
|
|
|
iiSibling = NewIfdIdentity(ii.ifdTag, parts...)
|
|
return iiSibling
|
|
}
|
|
|
|
var (
|
|
// IfdStandardIfdIdentity represents the IFD path for IFD0.
|
|
IfdStandardIfdIdentity = NewIfdIdentity(rootStandardIfd, IfdIdentityPart{"IFD", 0})
|
|
|
|
// IfdExifStandardIfdIdentity represents the IFD path for IFD0/Exif0.
|
|
IfdExifStandardIfdIdentity = IfdStandardIfdIdentity.NewChild(exifStandardIfd, 0)
|
|
|
|
// IfdExifIopStandardIfdIdentity represents the IFD path for IFD0/Exif0/Iop0.
|
|
IfdExifIopStandardIfdIdentity = IfdExifStandardIfdIdentity.NewChild(iopStandardIfd, 0)
|
|
|
|
// IfdGPSInfoStandardIfdIdentity represents the IFD path for IFD0/GPSInfo0.
|
|
IfdGpsInfoStandardIfdIdentity = IfdStandardIfdIdentity.NewChild(gpsInfoStandardIfd, 0)
|
|
|
|
// Ifd1StandardIfdIdentity represents the IFD path for IFD1.
|
|
Ifd1StandardIfdIdentity = NewIfdIdentity(rootStandardIfd, IfdIdentityPart{"IFD", 1})
|
|
)
|