package exif
import (
"bytes"
"fmt"
"reflect"
"strings"
"testing"
"github.com/dsoprea/go-exif/v2/common"
"github.com/dsoprea/go-exif/v2/undefined"
"github.com/dsoprea/go-logging"
)
func TestIfdBuilder_Add(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
originalBytes := []byte{0x11, 0x22, 0x33}
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x44,
value: NewIfdBuilderTagValueFromBytes([]byte(originalBytes)),
}
err = ib.Add(bt)
log.PanicIf(err)
if ib.ifdPath != exifcommon.IfdPathStandard {
t.Fatalf("IFD name not correct.")
} else if ib.ifdTagId != 0 {
t.Fatalf("IFD tag-ID not correct.")
} else if ib.byteOrder != exifcommon.TestDefaultByteOrder {
t.Fatalf("IFD byte-order not correct.")
} else if len(ib.tags) != 4 {
t.Fatalf("IFD tag-count not correct.")
} else if ib.existingOffset != 0 {
t.Fatalf("IFD offset not correct.")
} else if ib.nextIb != nil {
t.Fatalf("Next-IFD not correct.")
}
tags := ib.Tags()
if tags[0].tagId != 0x11 {
t.Fatalf("tag (0) tag-ID not correct")
} else if bytes.Compare(tags[0].value.Bytes(), []byte("test string")) != 0 {
t.Fatalf("tag (0) value not correct")
}
if tags[1].tagId != 0x22 {
t.Fatalf("tag (1) tag-ID not correct")
} else if bytes.Compare(tags[1].value.Bytes(), []byte("test string2")) != 0 {
t.Fatalf("tag (1) value not correct")
}
if tags[2].tagId != 0x33 {
t.Fatalf("tag (2) tag-ID not correct")
} else if bytes.Compare(tags[2].value.Bytes(), []byte("test string3")) != 0 {
t.Fatalf("tag (2) value not correct")
}
if tags[3].tagId != 0x44 {
t.Fatalf("tag (3) tag-ID not correct")
} else if bytes.Compare(tags[3].value.Bytes(), originalBytes) != 0 {
t.Fatalf("tag (3) value not correct")
}
}
func TestIfdBuilder_SetNextIb(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib1 := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
ib2 := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
if ib1.nextIb != nil {
t.Fatalf("Next-IFD for IB1 not initially terminal.")
}
err = ib1.SetNextIb(ib2)
log.PanicIf(err)
if ib1.nextIb != ib2 {
t.Fatalf("Next-IFD for IB1 not correct.")
} else if ib2.nextIb != nil {
t.Fatalf("Next-IFD for IB2 terminal.")
}
}
func TestIfdBuilder_AddChildIb(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
ibChild := NewIfdBuilder(im, ti, exifcommon.IfdPathStandardExif, exifcommon.TestDefaultByteOrder)
err = ib.AddChildIb(ibChild)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
if ib.tags[0].tagId != 0x11 {
t.Fatalf("first tag not correct")
} else if ib.tags[1].tagId != ibChild.ifdTagId {
t.Fatalf("second tag ID does not match child-IFD tag-ID: (0x%04x) != (0x%04x)", ib.tags[1].tagId, ibChild.ifdTagId)
} else if ib.tags[1].value.Ib() != ibChild {
t.Fatalf("second tagvalue does not match child-IFD")
} else if ib.tags[2].tagId != 0x22 {
t.Fatalf("third tag not correct")
}
}
func TestIfdBuilder_AddTagsFromExisting(t *testing.T) {
defer func() {
if state := recover(); state != nil {
err := log.Wrap(state.(error))
log.PrintError(err)
t.Fatalf("Test failure.")
}
}()
exifData := getExifSimpleTestIbBytes()
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, index, err := Collect(im, ti, exifData)
log.PanicIf(err)
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
err = ib.AddTagsFromExisting(index.RootIfd, nil, nil)
log.PanicIf(err)
expected := []uint16{
0x000b,
0x00ff,
0x0100,
0x013e,
}
if len(ib.tags) != len(expected) {
t.Fatalf("Tag count not correct: (%d) != (%d)", len(ib.tags), len(expected))
}
for i, tag := range ib.tags {
if tag.tagId != expected[i] {
t.Fatalf("Tag (%d) not correct: (0x%04x) != (0x%04x)", i, tag.tagId, expected[i])
}
}
}
func TestIfdBuilder_AddTagsFromExisting__Includes(t *testing.T) {
exifData := getExifSimpleTestIbBytes()
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, index, err := Collect(im, ti, exifData)
log.PanicIf(err)
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
err = ib.AddTagsFromExisting(index.RootIfd, []uint16{0x00ff}, nil)
log.PanicIf(err)
expected := []uint16{
0x00ff,
}
if len(ib.tags) != len(expected) {
t.Fatalf("Tag count not correct: (%d) != (%d)", len(ib.tags), len(expected))
}
for i, tag := range ib.tags {
if tag.tagId != expected[i] {
t.Fatalf("Tag (%d) not correct: (0x%04x) != (0x%04x)", i, tag.tagId, expected[i])
}
}
}
func TestIfdBuilder_AddTagsFromExisting__Excludes(t *testing.T) {
exifData := getExifSimpleTestIbBytes()
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, index, err := Collect(im, ti, exifData)
log.PanicIf(err)
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
err = ib.AddTagsFromExisting(index.RootIfd, nil, []uint16{0xff})
log.PanicIf(err)
expected := []uint16{
0x000b,
0x0100,
0x013e,
}
if len(ib.tags) != len(expected) {
t.Fatalf("Tag count not correct: (%d) != (%d)", len(ib.tags), len(expected))
}
for i, tag := range ib.tags {
if tag.tagId != expected[i] {
t.Fatalf("Tag (%d) not correct: (0x%04x) != (0x%04x)", i, tag.tagId, expected[i])
}
}
}
func TestIfdBuilder_FindN__First_1(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
found, err := ib.FindN(0x11, 1)
log.PanicIf(err)
if len(found) != 1 {
log.Panicf("Exactly one result was not found: (%d)", len(found))
} else if found[0] != 0 {
log.Panicf("Result was not in the right place: (%d)", found[0])
}
tags := ib.Tags()
bt = tags[found[0]]
if bt.tagId != 0x11 {
log.Panicf("Found entry is not correct: (0x%04x)", bt.tagId)
}
}
func TestIfdBuilder_FindN__First_2_1Returned(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
found, err := ib.FindN(0x11, 2)
log.PanicIf(err)
if len(found) != 1 {
log.Panicf("Exactly one result was not found: (%d)", len(found))
} else if found[0] != 0 {
log.Panicf("Result was not in the right place: (%d)", found[0])
}
tags := ib.Tags()
bt = tags[found[0]]
if bt.tagId != 0x11 {
log.Panicf("Found entry is not correct: (0x%04x)", bt.tagId)
}
}
func TestIfdBuilder_FindN__First_2_2Returned(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string5")),
}
err = ib.Add(bt)
log.PanicIf(err)
found, err := ib.FindN(0x11, 2)
log.PanicIf(err)
if len(found) != 2 {
log.Panicf("Exactly one result was not found: (%d)", len(found))
} else if found[0] != 0 {
log.Panicf("First result was not in the right place: (%d)", found[0])
} else if found[1] != 3 {
log.Panicf("Second result was not in the right place: (%d)", found[1])
}
tags := ib.Tags()
bt = tags[found[0]]
if bt.tagId != 0x11 || bytes.Compare(bt.value.Bytes(), []byte("test string")) != 0 {
log.Panicf("Found entry 0 is not correct: (0x%04x) [%s]", bt.tagId, bt.value)
}
bt = tags[found[1]]
if bt.tagId != 0x11 || bytes.Compare(bt.value.Bytes(), []byte("test string4")) != 0 {
log.Panicf("Found entry 1 is not correct: (0x%04x) [%s]", bt.tagId, bt.value)
}
}
func TestIfdBuilder_FindN__Middle_WithDuplicates(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string5")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string6")),
}
err = ib.Add(bt)
log.PanicIf(err)
found, err := ib.FindN(0x33, 1)
log.PanicIf(err)
if len(found) != 1 {
log.Panicf("Exactly one result was not found: (%d)", len(found))
} else if found[0] != 2 {
log.Panicf("Result was not in the right place: (%d)", found[0])
}
tags := ib.Tags()
bt = tags[found[0]]
if bt.tagId != 0x33 {
log.Panicf("Found entry is not correct: (0x%04x)", bt.tagId)
}
}
func TestIfdBuilder_FindN__Middle_NoDuplicates(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
found, err := ib.FindN(0x33, 1)
log.PanicIf(err)
if len(found) != 1 {
log.Panicf("Exactly one result was not found: (%d)", len(found))
} else if found[0] != 2 {
log.Panicf("Result was not in the right place: (%d)", found[0])
}
tags := ib.Tags()
bt = tags[found[0]]
if bt.tagId != 0x33 {
log.Panicf("Found entry is not correct: (0x%04x)", bt.tagId)
}
}
func TestIfdBuilder_FindN__Miss(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
found, err := ib.FindN(0x11, 1)
log.PanicIf(err)
if len(found) != 0 {
t.Fatalf("Expected empty results.")
}
}
func TestIfdBuilder_Find__Hit(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
position, err := ib.Find(0x33)
log.PanicIf(err)
if position != 2 {
log.Panicf("Result was not in the right place: (%d)", position)
}
tags := ib.Tags()
bt = tags[position]
if bt.tagId != 0x33 {
log.Panicf("Found entry is not correct: (0x%04x)", bt.tagId)
}
}
func TestIfdBuilder_Find__Miss(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
_, err = ib.Find(0x99)
if err == nil {
t.Fatalf("Expected an error.")
} else if log.Is(err, ErrTagEntryNotFound) == false {
log.Panic(err)
}
}
func TestIfdBuilder_Replace(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
currentIds := make([]uint16, 3)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Pre-replace tags are not correct.")
}
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x99,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Replace(0x22, bt)
log.PanicIf(err)
currentIds = make([]uint16, 3)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x99, 0x33}, currentIds) == false {
t.Fatalf("Post-replace tags are not correct.")
}
}
func TestIfdBuilder_ReplaceN(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
currentIds := make([]uint16, 3)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Pre-replace tags are not correct.")
}
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0xA9,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.ReplaceAt(1, bt)
log.PanicIf(err)
currentIds = make([]uint16, 3)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0xA9, 0x33}, currentIds) == false {
t.Fatalf("Post-replace tags are not correct.")
}
}
func TestIfdBuilder_DeleteFirst(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
if len(ib.Tags()) != 4 {
t.Fatalf("Pre-delete tag count not correct.")
}
currentIds := make([]uint16, 4)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Pre-delete tags not correct.")
}
err = ib.DeleteFirst(0x22)
log.PanicIf(err)
if len(ib.Tags()) != 3 {
t.Fatalf("Post-delete (1) tag count not correct.")
}
currentIds = make([]uint16, 3)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Post-delete (1) tags not correct.")
}
err = ib.DeleteFirst(0x22)
log.PanicIf(err)
if len(ib.Tags()) != 2 {
t.Fatalf("Post-delete (2) tag count not correct.")
}
currentIds = make([]uint16, 2)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x33}, currentIds) == false {
t.Fatalf("Post-delete (2) tags not correct.")
}
err = ib.DeleteFirst(0x22)
if err == nil {
t.Fatalf("Expected an error.")
} else if log.Is(err, ErrTagEntryNotFound) == false {
log.Panic(err)
}
}
func TestIfdBuilder_DeleteN(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
if len(ib.Tags()) != 4 {
t.Fatalf("Pre-delete tag count not correct.")
}
currentIds := make([]uint16, 4)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Pre-delete tags not correct.")
}
err = ib.DeleteN(0x22, 1)
log.PanicIf(err)
if len(ib.Tags()) != 3 {
t.Fatalf("Post-delete (1) tag count not correct.")
}
currentIds = make([]uint16, 3)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Post-delete (1) tags not correct.")
}
err = ib.DeleteN(0x22, 1)
log.PanicIf(err)
if len(ib.Tags()) != 2 {
t.Fatalf("Post-delete (2) tag count not correct.")
}
currentIds = make([]uint16, 2)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x33}, currentIds) == false {
t.Fatalf("Post-delete (2) tags not correct.")
}
err = ib.DeleteN(0x22, 1)
if err == nil {
t.Fatalf("Expected an error.")
} else if log.Is(err, ErrTagEntryNotFound) == false {
log.Panic(err)
}
}
func TestIfdBuilder_DeleteN_Two(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
if len(ib.Tags()) != 4 {
t.Fatalf("Pre-delete tag count not correct.")
}
currentIds := make([]uint16, 4)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Pre-delete tags not correct.")
}
err = ib.DeleteN(0x22, 2)
log.PanicIf(err)
if len(ib.Tags()) != 2 {
t.Fatalf("Post-delete tag count not correct.")
}
currentIds = make([]uint16, 2)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x33}, currentIds) == false {
t.Fatalf("Post-delete tags not correct.")
}
err = ib.DeleteFirst(0x22)
if err == nil {
t.Fatalf("Expected an error.")
} else if log.Is(err, ErrTagEntryNotFound) == false {
log.Panic(err)
}
}
func TestIfdBuilder_DeleteAll(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
bt := &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x11,
value: NewIfdBuilderTagValueFromBytes([]byte("test string")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string2")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x22,
value: NewIfdBuilderTagValueFromBytes([]byte("test string3")),
}
err = ib.Add(bt)
log.PanicIf(err)
bt = &BuilderTag{
ifdPath: exifcommon.IfdPathStandard,
typeId: exifcommon.TypeByte,
tagId: 0x33,
value: NewIfdBuilderTagValueFromBytes([]byte("test string4")),
}
err = ib.Add(bt)
log.PanicIf(err)
if len(ib.Tags()) != 4 {
t.Fatalf("Pre-delete tag count not correct.")
}
currentIds := make([]uint16, 4)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x22, 0x22, 0x33}, currentIds) == false {
t.Fatalf("Pre-delete tags not correct.")
}
n, err := ib.DeleteAll(0x22)
log.PanicIf(err)
if n != 2 {
t.Fatalf("Returned delete tag count not correct.")
} else if len(ib.Tags()) != 2 {
t.Fatalf("Post-delete tag count not correct.")
}
currentIds = make([]uint16, 2)
for i, bt := range ib.Tags() {
currentIds[i] = bt.tagId
}
if reflect.DeepEqual([]uint16{0x11, 0x33}, currentIds) == false {
t.Fatalf("Post-delete tags not correct.")
}
err = ib.DeleteFirst(0x22)
if err == nil {
t.Fatalf("Expected an error.")
} else if log.Is(err, ErrTagEntryNotFound) == false {
log.Panic(err)
}
}
func TestIfdBuilder_CreateIfdBuilderFromExistingChain(t *testing.T) {
defer func() {
if state := recover(); state != nil {
err := log.Wrap(state.(error))
log.PrintErrorf(err, "Test failure.")
}
}()
rawExif, err := SearchFileAndExtractExif(testImageFilepath)
log.PanicIf(err)
im := NewIfdMapping()
err = LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, index, err := Collect(im, ti, rawExif)
log.PanicIf(err)
ib := NewIfdBuilderFromExistingChain(index.RootIfd)
actual := ib.DumpToStrings()
expected := []string{
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-INDEX=(0) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(0) TAG=[0x010f]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(1) TAG=[0x0110]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(2) TAG=[0x0112]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(3) TAG=[0x011a]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(4) TAG=[0x011b]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(5) TAG=[0x0128]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(6) TAG=[0x0132]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(7) TAG=[0x013b]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(8) TAG=[0x0213]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(9) TAG=[0x8298]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[IFD/Exif] TAG-INDEX=(10) TAG=[0x8769]>",
"IFD<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-INDEX=(0) IFD-TAG-ID=(0x8769) TAG=[0x8769]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(0) TAG=[0x829a]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(1) TAG=[0x829d]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(2) TAG=[0x8822]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(3) TAG=[0x8827]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(4) TAG=[0x8830]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(5) TAG=[0x8832]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(6) TAG=[0x9000]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(7) TAG=[0x9003]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(8) TAG=[0x9004]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(9) TAG=[0x9101]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(10) TAG=[0x9201]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(11) TAG=[0x9202]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(12) TAG=[0x9204]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(13) TAG=[0x9207]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(14) TAG=[0x9209]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(15) TAG=[0x920a]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(16) TAG=[0x927c]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(17) TAG=[0x9286]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(18) TAG=[0x9290]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(19) TAG=[0x9291]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(20) TAG=[0x9292]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(21) TAG=[0xa000]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(22) TAG=[0xa001]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(23) TAG=[0xa002]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(24) TAG=[0xa003]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[IFD/Exif/Iop] TAG-INDEX=(25) TAG=[0xa005]>",
"IFD<PARENTS=[IFD->IFD/Exif] FQ-IFD-PATH=[IFD/Exif/Iop] IFD-INDEX=(0) IFD-TAG-ID=(0xa005) TAG=[0xa005]>",
"TAG<PARENTS=[IFD->IFD/Exif] FQ-IFD-PATH=[IFD/Exif/Iop] IFD-TAG-ID=(0xa005) CHILD-IFD=[] TAG-INDEX=(0) TAG=[0x0001]>",
"TAG<PARENTS=[IFD->IFD/Exif] FQ-IFD-PATH=[IFD/Exif/Iop] IFD-TAG-ID=(0xa005) CHILD-IFD=[] TAG-INDEX=(1) TAG=[0x0002]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(26) TAG=[0xa20e]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(27) TAG=[0xa20f]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(28) TAG=[0xa210]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(29) TAG=[0xa401]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(30) TAG=[0xa402]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(31) TAG=[0xa403]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(32) TAG=[0xa406]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(33) TAG=[0xa430]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(34) TAG=[0xa431]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(35) TAG=[0xa432]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(36) TAG=[0xa434]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[] TAG-INDEX=(37) TAG=[0xa435]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[IFD/GPSInfo] TAG-INDEX=(11) TAG=[0x8825]>",
"IFD<PARENTS=[IFD] FQ-IFD-PATH=[IFD/GPSInfo] IFD-INDEX=(0) IFD-TAG-ID=(0x8825) TAG=[0x8825]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/GPSInfo] IFD-TAG-ID=(0x8825) CHILD-IFD=[] TAG-INDEX=(0) TAG=[0x0000]>",
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-INDEX=(1) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(0) TAG=[0x0201]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(1) TAG=[0x0202]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(2) TAG=[0x0103]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(3) TAG=[0x011a]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(4) TAG=[0x011b]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[] TAG-INDEX=(5) TAG=[0x0128]>",
}
if reflect.DeepEqual(actual, expected) == false {
fmt.Printf("ACTUAL:\n%s\n\nEXPECTED:\n%s\n", strings.Join(actual, "\n"), strings.Join(expected, "\n"))
t.Fatalf("IB did not [correctly] duplicate the IFD structure.")
}
}
// TODO(dustin): !! Test with an actual GPS-attached image.
func TestIfdBuilder_CreateIfdBuilderFromExistingChain_RealData(t *testing.T) {
rawExif, err := SearchFileAndExtractExif(testImageFilepath)
log.PanicIf(err)
// Decode from binary.
im := NewIfdMapping()
err = LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, originalIndex, err := Collect(im, ti, rawExif)
log.PanicIf(err)
originalThumbnailData, err := originalIndex.RootIfd.NextIfd.Thumbnail()
log.PanicIf(err)
originalTags := originalIndex.RootIfd.DumpTags()
// Encode back to binary.
ibe := NewIfdByteEncoder()
rootIb := NewIfdBuilderFromExistingChain(originalIndex.RootIfd)
updatedExif, err := ibe.EncodeToExif(rootIb)
log.PanicIf(err)
// Parse again.
_, recoveredIndex, err := Collect(im, ti, updatedExif)
log.PanicIf(err)
recoveredTags := recoveredIndex.RootIfd.DumpTags()
recoveredThumbnailData, err := recoveredIndex.RootIfd.NextIfd.Thumbnail()
log.PanicIf(err)
// Check the thumbnail.
if bytes.Compare(recoveredThumbnailData, originalThumbnailData) != 0 {
t.Fatalf("recovered thumbnail does not match original")
}
// Validate that all of the same IFDs were presented.
originalIfdTags := make([][2]interface{}, 0)
for _, ite := range originalTags {
if ite.ChildIfdPath() != "" {
originalIfdTags = append(originalIfdTags, [2]interface{}{ite.IfdPath(), ite.TagId()})
}
}
recoveredIfdTags := make([][2]interface{}, 0)
for _, ite := range recoveredTags {
if ite.ChildIfdPath() != "" {
recoveredIfdTags = append(recoveredIfdTags, [2]interface{}{ite.IfdPath(), ite.TagId()})
}
}
if reflect.DeepEqual(recoveredIfdTags, originalIfdTags) != true {
fmt.Printf("Original IFD tags:\n\n")
for i, x := range originalIfdTags {
fmt.Printf(" %02d %v\n", i, x)
}
fmt.Printf("\nRecovered IFD tags:\n\n")
for i, x := range recoveredIfdTags {
fmt.Printf(" %02d %v\n", i, x)
}
fmt.Printf("\n")
t.Fatalf("Recovered IFD tags are not correct.")
}
// Validate that all of the tags owned by the IFDs were presented. Note
// that the thumbnail tags are not kept but only produced on the fly, which
// is why we check it above.
if len(recoveredTags) != len(originalTags) {
t.Fatalf("Recovered tag-count does not match original.")
}
for i, recoveredIte := range recoveredTags {
if recoveredIte.ChildIfdPath() != "" {
continue
}
originalIte := originalTags[i]
if recoveredIte.IfdPath() != originalIte.IfdPath() {
t.Fatalf("IfdIdentity not as expected: %s != %s ITE=%s", recoveredIte.IfdPath(), originalIte.IfdPath(), recoveredIte)
} else if recoveredIte.TagId() != originalIte.TagId() {
t.Fatalf("Tag-ID not as expected: %d != %d ITE=%s", recoveredIte.TagId(), originalIte.TagId(), recoveredIte)
} else if recoveredIte.TagType() != originalIte.TagType() {
t.Fatalf("Tag-type not as expected: %d != %d ITE=%s", recoveredIte.TagType(), originalIte.TagType(), recoveredIte)
}
originalValueBytes, err := originalIte.RawBytes()
log.PanicIf(err)
recoveredValueBytes, err := recoveredIte.RawBytes()
log.PanicIf(err)
if bytes.Compare(recoveredValueBytes, originalValueBytes) != 0 {
fmt.Printf("ACTUAL: %s\n", originalIte)
exifcommon.DumpBytes(recoveredValueBytes)
fmt.Printf("EXPECTED: %s\n", recoveredIte)
exifcommon.DumpBytes(originalValueBytes)
t.Fatalf("Bytes of tag content not correct.")
}
}
}
// func TestIfdBuilder_CreateIfdBuilderFromExistingChain_RealData_WithUpdate(t *testing.T) {
// rawExif, err := SearchFileAndExtractExif(testImageFilepath)
// log.PanicIf(err)
// // Decode from binary.
// ti := NewTagIndex()
// _, originalIndex, err := Collect(im, ti, rawExif)
// log.PanicIf(err)
// originalThumbnailData, err := originalIndex.RootIfd.NextIfd.Thumbnail()
// log.PanicIf(err)
// originalTags := originalIndex.RootIfd.DumpTags()
// // Encode back to binary.
// ibe := NewIfdByteEncoder()
// rootIb := NewIfdBuilderFromExistingChain(originalIndex.RootIfd)
// // Update a tag,.
// exifBt, err := rootIb.FindTagWithName("ExifTag")
// log.PanicIf(err)
// ucBt, err := exifBt.value.Ib().FindTagWithName("UserComment")
// log.PanicIf(err)
// uc := exifundefined.Tag9286UserComment{
// EncodingType: TagUndefinedType_9286_UserComment_Encoding_ASCII,
// EncodingBytes: []byte("TEST COMMENT"),
// }
// err = ucBt.SetValue(rootIb.byteOrder, uc)
// log.PanicIf(err)
// // Encode.
// updatedExif, err := ibe.EncodeToExif(rootIb)
// log.PanicIf(err)
// // Parse again.
// _, recoveredIndex, err := Collect(im, ti, updatedExif)
// log.PanicIf(err)
// recoveredTags := recoveredIndex.RootIfd.DumpTags()
// recoveredThumbnailData, err := recoveredIndex.RootIfd.NextIfd.Thumbnail()
// log.PanicIf(err)
// // Check the thumbnail.
// if bytes.Compare(recoveredThumbnailData, originalThumbnailData) != 0 {
// t.Fatalf("recovered thumbnail does not match original")
// }
// // Validate that all of the same IFDs were presented.
// originalIfdTags := make([][2]interface{}, 0)
// for _, ite := range originalTags {
// if ite.ChildIfdPath() != "" {
// originalIfdTags = append(originalIfdTags, [2]interface{}{ite.IfdPath(), ite.TagId()})
// }
// }
// recoveredIfdTags := make([][2]interface{}, 0)
// for _, ite := range recoveredTags {
// if ite.ChildIfdPath() != "" {
// recoveredIfdTags = append(recoveredIfdTags, [2]interface{}{ite.IfdPath(), ite.TagId()})
// }
// }
// if reflect.DeepEqual(recoveredIfdTags, originalIfdTags) != true {
// fmt.Printf("Original IFD tags:\n\n")
// for i, x := range originalIfdTags {
// fmt.Printf(" %02d %v\n", i, x)
// }
// fmt.Printf("\nRecovered IFD tags:\n\n")
// for i, x := range recoveredIfdTags {
// fmt.Printf(" %02d %v\n", i, x)
// }
// fmt.Printf("\n")
// t.Fatalf("Recovered IFD tags are not correct.")
// }
// // Validate that all of the tags owned by the IFDs were presented. Note
// // that the thumbnail tags are not kept but only produced on the fly, which
// // is why we check it above.
// if len(recoveredTags) != len(originalTags) {
// t.Fatalf("Recovered tag-count does not match original.")
// }
// for i, recoveredIte := range recoveredTags {
// if recoveredIte.ChildIfdPath() != "" {
// continue
// }
// originalIte := originalTags[i]
// if recoveredIte.IfdPath() != originalIte.IfdPath() {
// t.Fatalf("IfdIdentity not as expected: %s != %s ITE=%s", recoveredIte.IfdPath(), originalIte.IfdPath(), recoveredIte)
// } else if recoveredIte.TagId() != originalIte.TagId() {
// t.Fatalf("Tag-ID not as expected: %d != %d ITE=%s", recoveredIte.TagId(), originalIte.TagId(), recoveredIte)
// } else if recoveredIte.TagType() != originalIte.TagType() {
// t.Fatalf("Tag-type not as expected: %d != %d ITE=%s", recoveredIte.TagType(), originalIte.TagType(), recoveredIte)
// }
// originalValueBytes, err := originalIte.ValueBytes(originalIndex.RootIfd.addressableData, originalIndex.RootIfd.ByteOrder)
// log.PanicIf(err)
// recoveredValueBytes, err := recoveredIte.ValueBytes(recoveredIndex.RootIfd.addressableData, recoveredIndex.RootIfd.ByteOrder)
// log.PanicIf(err)
// if recoveredIte.TagId() == 0x9286 {
// expectedValueBytes := make([]byte, 0)
// expectedValueBytes = append(expectedValueBytes, []byte{'A', 'S', 'C', 'I', 'I', 0, 0, 0}...)
// expectedValueBytes = append(expectedValueBytes, []byte("TEST COMMENT")...)
// if bytes.Compare(recoveredValueBytes, expectedValueBytes) != 0 {
// t.Fatalf("Recovered UserComment does not have the right value: %v != %v", recoveredValueBytes, expectedValueBytes)
// }
// } else if bytes.Compare(recoveredValueBytes, originalValueBytes) != 0 {
// t.Fatalf("bytes of tag content not correct: %v != %v ITE=%s", recoveredValueBytes, originalValueBytes, recoveredIte)
// }
// }
// }
func ExampleIfd_Thumbnail() {
rawExif, err := SearchFileAndExtractExif(testImageFilepath)
log.PanicIf(err)
im := NewIfdMapping()
err = LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, index, err := Collect(im, ti, rawExif)
log.PanicIf(err)
thumbnailData, err := index.RootIfd.NextIfd.Thumbnail()
log.PanicIf(err)
thumbnailData = thumbnailData
// Output:
}
func ExampleBuilderTag_SetValue() {
rawExif, err := SearchFileAndExtractExif(testImageFilepath)
log.PanicIf(err)
im := NewIfdMapping()
err = LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
_, index, err := Collect(im, ti, rawExif)
log.PanicIf(err)
// Create builder.
rootIb := NewIfdBuilderFromExistingChain(index.RootIfd)
// Find tag to update.
exifBt, err := rootIb.FindTagWithName("ExifTag")
log.PanicIf(err)
ucBt, err := exifBt.value.Ib().FindTagWithName("UserComment")
log.PanicIf(err)
// Update the value. Since this is an "undefined"-type tag, we have to use
// its type-specific struct.
// TODO(dustin): !! Add an example for setting a non-unknown value, too.
uc := exifundefined.Tag9286UserComment{
EncodingType: exifundefined.TagUndefinedType_9286_UserComment_Encoding_ASCII,
EncodingBytes: []byte("TEST COMMENT"),
}
err = ucBt.SetValue(rootIb.byteOrder, uc)
log.PanicIf(err)
// Encode.
ibe := NewIfdByteEncoder()
updatedExif, err := ibe.EncodeToExif(rootIb)
log.PanicIf(err)
updatedExif = updatedExif
// Output:
}
// ExampleIfdBuilder_SetStandardWithName establishes a chain of `IfdBuilder`
// structs from an existing chain of `Ifd` structs, navigates to the IB
// representing IFD0, updates the ProcessingSoftware tag to a different value,
// encodes down to a new EXIF block, reparses, and validates that the value for
// that tag is what we set it to.
func ExampleIfdBuilder_SetStandardWithName() {
rawExif, err := SearchFileAndExtractExif(testImageFilepath)
log.PanicIf(err)
// Boilerplate.
im := NewIfdMapping()
err = LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
// Load current IFDs.
_, index, err := Collect(im, ti, rawExif)
log.PanicIf(err)
ib := NewIfdBuilderFromExistingChain(index.RootIfd)
// Read the IFD whose tag we want to change.
// Standard:
// - "IFD0"
// - "IFD0/Exif0"
// - "IFD0/Exif0/Iop0"
// - "IFD0/GPSInfo0"
//
// If the numeric indices are not included, (0) is the default. Note that
// this isn't strictly necessary in our case since IFD0 is the first IFD anyway, but we're putting it here to show usage.
ifdPath := "IFD0"
childIb, err := GetOrCreateIbFromRootIb(ib, ifdPath)
log.PanicIf(err)
// There are a few functions that allow you to surgically change the tags in an
// IFD, but we're just gonna overwrite a tag that has an ASCII value.
tagName := "ProcessingSoftware"
err = childIb.SetStandardWithName(tagName, "alternative software")
log.PanicIf(err)
// Encode the in-memory representation back down to bytes.
ibe := NewIfdByteEncoder()
updatedRawExif, err := ibe.EncodeToExif(ib)
log.PanicIf(err)
// Reparse the EXIF to confirm that our value is there.
_, index, err = Collect(im, ti, updatedRawExif)
log.PanicIf(err)
// This isn't strictly necessary for the same reason as above, but it's here
// for documentation.
childIfd, err := FindIfdFromRootIfd(index.RootIfd, ifdPath)
log.PanicIf(err)
results, err := childIfd.FindTagWithName(tagName)
log.PanicIf(err)
for _, ite := range results {
valueRaw, err := ite.Value()
log.PanicIf(err)
stringValue := valueRaw.(string)
fmt.Println(stringValue)
}
// Output:
// alternative software
}
func TestIfdBuilder_CreateIfdBuilderWithExistingIfd(t *testing.T) {
ti := NewTagIndex()
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
mi, err := im.GetWithPath(exifcommon.IfdPathStandardGps)
log.PanicIf(err)
tagId := mi.TagId
parentIfd := &Ifd{
IfdPath: exifcommon.IfdPathStandard,
tagIndex: ti,
}
ifd := &Ifd{
IfdPath: exifcommon.IfdPathStandardGps,
ByteOrder: exifcommon.TestDefaultByteOrder,
Offset: 0x123,
ParentIfd: parentIfd,
ifdMapping: im,
tagIndex: ti,
}
ib := NewIfdBuilderWithExistingIfd(ifd)
if ib.ifdPath != ifd.IfdPath {
t.Fatalf("IFD-name not correct.")
} else if ib.ifdTagId != tagId {
t.Fatalf("IFD tag-ID not correct.")
} else if ib.byteOrder != ifd.ByteOrder {
t.Fatalf("IFD byte-order not correct.")
} else if ib.existingOffset != ifd.Offset {
t.Fatalf("IFD offset not correct.")
}
}
func TestNewStandardBuilderTag__OneUnit(t *testing.T) {
ti := NewTagIndex()
it, err := ti.Get(exifcommon.IfdPathStandardExif, uint16(0x8833))
log.PanicIf(err)
bt := NewStandardBuilderTag(exifcommon.IfdPathStandardExif, it, exifcommon.TestDefaultByteOrder, []uint32{uint32(0x1234)})
if bt.ifdPath != exifcommon.IfdPathStandardExif {
t.Fatalf("II in BuilderTag not correct")
} else if bt.tagId != 0x8833 {
t.Fatalf("tag-ID not correct")
} else if bytes.Compare(bt.value.Bytes(), []byte{0x0, 0x0, 0x12, 0x34}) != 0 {
t.Fatalf("value not correct")
}
}
func TestNewStandardBuilderTag__TwoUnits(t *testing.T) {
ti := NewTagIndex()
it, err := ti.Get(exifcommon.IfdPathStandardExif, uint16(0x8833))
log.PanicIf(err)
bt := NewStandardBuilderTag(exifcommon.IfdPathStandardExif, it, exifcommon.TestDefaultByteOrder, []uint32{uint32(0x1234), uint32(0x5678)})
if bt.ifdPath != exifcommon.IfdPathStandardExif {
t.Fatalf("II in BuilderTag not correct")
} else if bt.tagId != 0x8833 {
t.Fatalf("tag-ID not correct")
} else if bytes.Compare(bt.value.Bytes(), []byte{
0x0, 0x0, 0x12, 0x34,
0x0, 0x0, 0x56, 0x78}) != 0 {
t.Fatalf("value not correct")
}
}
func TestIfdBuilder_AddStandardWithName(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
ib := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
err = ib.AddStandardWithName("ProcessingSoftware", "some software")
log.PanicIf(err)
if len(ib.tags) != 1 {
t.Fatalf("Exactly one tag was not found: (%d)", len(ib.tags))
}
bt := ib.tags[0]
if bt.ifdPath != exifcommon.IfdPathStandard {
t.Fatalf("II not correct: %s", bt.ifdPath)
} else if bt.tagId != 0x000b {
t.Fatalf("Tag-ID not correct: (0x%04x)", bt.tagId)
}
s := string(bt.value.Bytes())
if s != "some software\000" {
t.Fatalf("Value not correct: (%d) [%s]", len(s), s)
}
}
func TestGetOrCreateIbFromRootIb__Noop(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
rootIb := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
ib, err := GetOrCreateIbFromRootIb(rootIb, "IFD")
log.PanicIf(err)
if ib != rootIb {
t.Fatalf("Expected same IB back from no-op get-or-create.")
} else if ib.nextIb != nil {
t.Fatalf("Expected no siblings on IB from no-op get-or-create.")
} else if len(ib.tags) != 0 {
t.Fatalf("Expected no new tags on IB from no-op get-or-create.")
}
}
func TestGetOrCreateIbFromRootIb__FqNoop(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
rootIb := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
ib, err := GetOrCreateIbFromRootIb(rootIb, "IFD0")
log.PanicIf(err)
if ib != rootIb {
t.Fatalf("Expected same IB back from no-op get-or-create.")
} else if ib.nextIb != nil {
t.Fatalf("Expected no siblings on IB from no-op get-or-create.")
} else if len(ib.tags) != 0 {
t.Fatalf("Expected no new tags on IB from no-op get-or-create.")
}
}
func TestGetOrCreateIbFromRootIb_InvalidChild(t *testing.T) {
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
rootIb := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
_, err = GetOrCreateIbFromRootIb(rootIb, "IFD/Invalid")
if err == nil {
t.Fatalf("Expected failure for invalid IFD child in IB get-or-create.")
} else if err.Error() != "ifd child with name [Invalid] not registered: [IFD/Invalid]" {
log.Panic(err)
}
}
func TestGetOrCreateIbFromRootIb__Child(t *testing.T) {
defer func() {
if state := recover(); state != nil {
err := log.Wrap(state.(error))
log.PrintErrorf(err, "Test failure.")
}
}()
im := NewIfdMapping()
err := LoadStandardIfds(im)
log.PanicIf(err)
ti := NewTagIndex()
rootIb := NewIfdBuilder(im, ti, exifcommon.IfdPathStandard, exifcommon.TestDefaultByteOrder)
lines := rootIb.DumpToStrings()
expected := []string{
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-INDEX=(0) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
}
if reflect.DeepEqual(lines, expected) != true {
fmt.Printf("ACTUAL:\n")
fmt.Printf("\n")
for i, line := range lines {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
fmt.Printf("EXPECTED:\n")
fmt.Printf("\n")
for i, line := range expected {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
t.Fatalf("Constructed IFDs not correct.")
}
ib, err := GetOrCreateIbFromRootIb(rootIb, "IFD/Exif")
log.PanicIf(err)
if ib.fqIfdPath != "IFD/Exif" {
t.Fatalf("Returned IB does not have the expected path (IFD/Exif).")
}
lines = rootIb.DumpToStrings()
expected = []string{
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-INDEX=(0) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[IFD/Exif] TAG-INDEX=(0) TAG=[0x8769]>",
"IFD<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-INDEX=(0) IFD-TAG-ID=(0x8769) TAG=[0x8769]>",
}
if reflect.DeepEqual(lines, expected) != true {
fmt.Printf("ACTUAL:\n")
fmt.Printf("\n")
for i, line := range lines {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
fmt.Printf("EXPECTED:\n")
fmt.Printf("\n")
for i, line := range expected {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
t.Fatalf("Constructed IFDs not correct.")
}
ib, err = GetOrCreateIbFromRootIb(rootIb, "IFD0/Exif/Iop")
log.PanicIf(err)
if ib.fqIfdPath != "IFD/Exif/Iop" {
t.Fatalf("Returned IB does not have the expected path (IFD/Exif/Iop).")
}
lines = rootIb.DumpToStrings()
expected = []string{
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-INDEX=(0) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[IFD/Exif] TAG-INDEX=(0) TAG=[0x8769]>",
"IFD<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-INDEX=(0) IFD-TAG-ID=(0x8769) TAG=[0x8769]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[IFD/Exif/Iop] TAG-INDEX=(0) TAG=[0xa005]>",
"IFD<PARENTS=[IFD->IFD/Exif] FQ-IFD-PATH=[IFD/Exif/Iop] IFD-INDEX=(0) IFD-TAG-ID=(0xa005) TAG=[0xa005]>",
}
if reflect.DeepEqual(lines, expected) != true {
fmt.Printf("ACTUAL:\n")
fmt.Printf("\n")
for i, line := range lines {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
fmt.Printf("EXPECTED:\n")
fmt.Printf("\n")
for i, line := range expected {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
t.Fatalf("Constructed IFDs not correct.")
}
ib, err = GetOrCreateIbFromRootIb(rootIb, "IFD1")
log.PanicIf(err)
if ib.fqIfdPath != "IFD1" {
t.Fatalf("Returned IB does not have the expected path (IFD1).")
}
lines = rootIb.DumpToStrings()
expected = []string{
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-INDEX=(0) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
"TAG<PARENTS=[] FQ-IFD-PATH=[IFD] IFD-TAG-ID=(0x0000) CHILD-IFD=[IFD/Exif] TAG-INDEX=(0) TAG=[0x8769]>",
"IFD<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-INDEX=(0) IFD-TAG-ID=(0x8769) TAG=[0x8769]>",
"TAG<PARENTS=[IFD] FQ-IFD-PATH=[IFD/Exif] IFD-TAG-ID=(0x8769) CHILD-IFD=[IFD/Exif/Iop] TAG-INDEX=(0) TAG=[0xa005]>",
"IFD<PARENTS=[IFD->IFD/Exif] FQ-IFD-PATH=[IFD/Exif/Iop] IFD-INDEX=(0) IFD-TAG-ID=(0xa005) TAG=[0xa005]>",
"IFD<PARENTS=[] FQ-IFD-PATH=[IFD1] IFD-INDEX=(1) IFD-TAG-ID=(0x0000) TAG=[0x0000]>",
}
if reflect.DeepEqual(lines, expected) != true {
fmt.Printf("ACTUAL:\n")
fmt.Printf("\n")
for i, line := range lines {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
fmt.Printf("EXPECTED:\n")
fmt.Printf("\n")
for i, line := range expected {
fmt.Printf("%d: %s\n", i, line)
}
fmt.Printf("\n")
t.Fatalf("Constructed IFDs not correct.")
}
}