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joy4/format/mp4/mp4io/atoms.go

3532 lines
69 KiB
Go

4 years ago
package mp4io
import (
"time"
"gitlab.com/ics_cinnamon/joy4/utils/bits/pio"
)
4 years ago
const MOOF = Tag(0x6d6f6f66)
func (self MovieFrag) Tag() Tag {
return MOOF
}
const HDLR = Tag(0x68646c72)
func (self HandlerRefer) Tag() Tag {
return HDLR
}
const AVC1 = Tag(0x61766331)
func (self AVC1Desc) Tag() Tag {
return AVC1
}
const URL = Tag(0x75726c20)
func (self DataReferUrl) Tag() Tag {
return URL
}
const TREX = Tag(0x74726578)
func (self TrackExtend) Tag() Tag {
return TREX
}
const ESDS = Tag(0x65736473)
func (self ElemStreamDesc) Tag() Tag {
return ESDS
}
const MDHD = Tag(0x6d646864)
func (self MediaHeader) Tag() Tag {
return MDHD
}
const STTS = Tag(0x73747473)
func (self TimeToSample) Tag() Tag {
return STTS
}
const STSS = Tag(0x73747373)
func (self SyncSample) Tag() Tag {
return STSS
}
const MFHD = Tag(0x6d666864)
func (self MovieFragHeader) Tag() Tag {
return MFHD
}
const MVHD = Tag(0x6d766864)
func (self MovieHeader) Tag() Tag {
return MVHD
}
const MINF = Tag(0x6d696e66)
func (self MediaInfo) Tag() Tag {
return MINF
}
const MOOV = Tag(0x6d6f6f76)
func (self Movie) Tag() Tag {
return MOOV
}
const MVEX = Tag(0x6d766578)
func (self MovieExtend) Tag() Tag {
return MVEX
}
const STSD = Tag(0x73747364)
func (self SampleDesc) Tag() Tag {
return STSD
}
const MP4A = Tag(0x6d703461)
func (self MP4ADesc) Tag() Tag {
return MP4A
}
const CTTS = Tag(0x63747473)
func (self CompositionOffset) Tag() Tag {
return CTTS
}
const STCO = Tag(0x7374636f)
func (self ChunkOffset) Tag() Tag {
return STCO
}
const TRUN = Tag(0x7472756e)
func (self TrackFragRun) Tag() Tag {
return TRUN
}
const TRAK = Tag(0x7472616b)
func (self Track) Tag() Tag {
return TRAK
}
const MDIA = Tag(0x6d646961)
func (self Media) Tag() Tag {
return MDIA
}
const STSC = Tag(0x73747363)
func (self SampleToChunk) Tag() Tag {
return STSC
}
const VMHD = Tag(0x766d6864)
func (self VideoMediaInfo) Tag() Tag {
return VMHD
}
const STBL = Tag(0x7374626c)
func (self SampleTable) Tag() Tag {
return STBL
}
const AVCC = Tag(0x61766343)
func (self AVC1Conf) Tag() Tag {
return AVCC
}
const TFDT = Tag(0x74666474)
func (self TrackFragDecodeTime) Tag() Tag {
return TFDT
}
const DINF = Tag(0x64696e66)
func (self DataInfo) Tag() Tag {
return DINF
}
const DREF = Tag(0x64726566)
func (self DataRefer) Tag() Tag {
return DREF
}
const TRAF = Tag(0x74726166)
func (self TrackFrag) Tag() Tag {
return TRAF
}
const STSZ = Tag(0x7374737a)
func (self SampleSize) Tag() Tag {
return STSZ
}
const TFHD = Tag(0x74666864)
func (self TrackFragHeader) Tag() Tag {
return TFHD
}
const TKHD = Tag(0x746b6864)
func (self TrackHeader) Tag() Tag {
return TKHD
}
const SMHD = Tag(0x736d6864)
func (self SoundMediaInfo) Tag() Tag {
return SMHD
}
const MDAT = Tag(0x6d646174)
type Movie struct {
Header *MovieHeader
MovieExtend *MovieExtend
Tracks []*Track
Unknowns []Atom
AtomPos
}
func (self Movie) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MOOV))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self Movie) marshal(b []byte) (n int) {
if self.Header != nil {
n += self.Header.Marshal(b[n:])
}
if self.MovieExtend != nil {
n += self.MovieExtend.Marshal(b[n:])
}
for _, atom := range self.Tracks {
n += atom.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self Movie) Len() (n int) {
n += 8
if self.Header != nil {
n += self.Header.Len()
}
if self.MovieExtend != nil {
n += self.MovieExtend.Len()
}
for _, atom := range self.Tracks {
n += atom.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *Movie) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case MVHD:
{
atom := &MovieHeader{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("mvhd", n+offset, err)
return
}
self.Header = atom
}
case MVEX:
{
atom := &MovieExtend{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("mvex", n+offset, err)
return
}
self.MovieExtend = atom
}
case TRAK:
{
atom := &Track{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("trak", n+offset, err)
return
}
self.Tracks = append(self.Tracks, atom)
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self Movie) Children() (r []Atom) {
if self.Header != nil {
r = append(r, self.Header)
}
if self.MovieExtend != nil {
r = append(r, self.MovieExtend)
}
for _, atom := range self.Tracks {
r = append(r, atom)
}
r = append(r, self.Unknowns...)
return
}
type MovieHeader struct {
Version uint8
Flags uint32
CreateTime time.Time
ModifyTime time.Time
TimeScale int32
Duration int32
PreferredRate float64
PreferredVolume float64
Matrix [9]int32
PreviewTime time.Time
PreviewDuration time.Time
PosterTime time.Time
SelectionTime time.Time
SelectionDuration time.Time
CurrentTime time.Time
NextTrackId int32
AtomPos
}
func (self MovieHeader) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MVHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MovieHeader) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
PutTime32(b[n:], self.CreateTime)
n += 4
PutTime32(b[n:], self.ModifyTime)
n += 4
pio.PutI32BE(b[n:], self.TimeScale)
n += 4
pio.PutI32BE(b[n:], self.Duration)
n += 4
PutFixed32(b[n:], self.PreferredRate)
n += 4
PutFixed16(b[n:], self.PreferredVolume)
n += 2
n += 10
for _, entry := range self.Matrix {
pio.PutI32BE(b[n:], entry)
n += 4
}
PutTime32(b[n:], self.PreviewTime)
n += 4
PutTime32(b[n:], self.PreviewDuration)
n += 4
PutTime32(b[n:], self.PosterTime)
n += 4
PutTime32(b[n:], self.SelectionTime)
n += 4
PutTime32(b[n:], self.SelectionDuration)
n += 4
PutTime32(b[n:], self.CurrentTime)
n += 4
pio.PutI32BE(b[n:], self.NextTrackId)
n += 4
return
}
func (self MovieHeader) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += 4
n += 4
n += 4
n += 4
n += 2
n += 10
n += 4 * len(self.Matrix[:])
n += 4
n += 4
n += 4
n += 4
n += 4
n += 4
n += 4
return
}
func (self *MovieHeader) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+4 {
err = parseErr("CreateTime", n+offset, err)
return
}
self.CreateTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("ModifyTime", n+offset, err)
return
}
self.ModifyTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("TimeScale", n+offset, err)
return
}
self.TimeScale = pio.I32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("Duration", n+offset, err)
return
}
self.Duration = pio.I32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("PreferredRate", n+offset, err)
return
}
self.PreferredRate = GetFixed32(b[n:])
n += 4
if len(b) < n+2 {
err = parseErr("PreferredVolume", n+offset, err)
return
}
self.PreferredVolume = GetFixed16(b[n:])
n += 2
n += 10
if len(b) < n+4*len(self.Matrix) {
err = parseErr("Matrix", n+offset, err)
return
}
for i := range self.Matrix {
self.Matrix[i] = pio.I32BE(b[n:])
n += 4
}
if len(b) < n+4 {
err = parseErr("PreviewTime", n+offset, err)
return
}
self.PreviewTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("PreviewDuration", n+offset, err)
return
}
self.PreviewDuration = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("PosterTime", n+offset, err)
return
}
self.PosterTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("SelectionTime", n+offset, err)
return
}
self.SelectionTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("SelectionDuration", n+offset, err)
return
}
self.SelectionDuration = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("CurrentTime", n+offset, err)
return
}
self.CurrentTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("NextTrackId", n+offset, err)
return
}
self.NextTrackId = pio.I32BE(b[n:])
n += 4
return
}
func (self MovieHeader) Children() (r []Atom) {
return
}
type Track struct {
Header *TrackHeader
Media *Media
Unknowns []Atom
AtomPos
}
func (self Track) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TRAK))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self Track) marshal(b []byte) (n int) {
if self.Header != nil {
n += self.Header.Marshal(b[n:])
}
if self.Media != nil {
n += self.Media.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self Track) Len() (n int) {
n += 8
if self.Header != nil {
n += self.Header.Len()
}
if self.Media != nil {
n += self.Media.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *Track) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case TKHD:
{
atom := &TrackHeader{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("tkhd", n+offset, err)
return
}
self.Header = atom
}
case MDIA:
{
atom := &Media{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("mdia", n+offset, err)
return
}
self.Media = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self Track) Children() (r []Atom) {
if self.Header != nil {
r = append(r, self.Header)
}
if self.Media != nil {
r = append(r, self.Media)
}
r = append(r, self.Unknowns...)
return
}
type TrackHeader struct {
Version uint8
Flags uint32
CreateTime time.Time
ModifyTime time.Time
TrackId int32
Duration int32
Layer int16
AlternateGroup int16
Volume float64
Matrix [9]int32
TrackWidth float64
TrackHeight float64
AtomPos
}
func (self TrackHeader) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TKHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TrackHeader) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
PutTime32(b[n:], self.CreateTime)
n += 4
PutTime32(b[n:], self.ModifyTime)
n += 4
pio.PutI32BE(b[n:], self.TrackId)
n += 4
n += 4
pio.PutI32BE(b[n:], self.Duration)
n += 4
n += 8
pio.PutI16BE(b[n:], self.Layer)
n += 2
pio.PutI16BE(b[n:], self.AlternateGroup)
n += 2
PutFixed16(b[n:], self.Volume)
n += 2
n += 2
for _, entry := range self.Matrix {
pio.PutI32BE(b[n:], entry)
n += 4
}
PutFixed32(b[n:], self.TrackWidth)
n += 4
PutFixed32(b[n:], self.TrackHeight)
n += 4
return
}
func (self TrackHeader) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += 4
n += 4
n += 4
n += 4
n += 8
n += 2
n += 2
n += 2
n += 2
n += 4 * len(self.Matrix[:])
n += 4
n += 4
return
}
func (self *TrackHeader) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+4 {
err = parseErr("CreateTime", n+offset, err)
return
}
self.CreateTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("ModifyTime", n+offset, err)
return
}
self.ModifyTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("TrackId", n+offset, err)
return
}
self.TrackId = pio.I32BE(b[n:])
n += 4
n += 4
if len(b) < n+4 {
err = parseErr("Duration", n+offset, err)
return
}
self.Duration = pio.I32BE(b[n:])
n += 4
n += 8
if len(b) < n+2 {
err = parseErr("Layer", n+offset, err)
return
}
self.Layer = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("AlternateGroup", n+offset, err)
return
}
self.AlternateGroup = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("Volume", n+offset, err)
return
}
self.Volume = GetFixed16(b[n:])
n += 2
n += 2
if len(b) < n+4*len(self.Matrix) {
err = parseErr("Matrix", n+offset, err)
return
}
for i := range self.Matrix {
self.Matrix[i] = pio.I32BE(b[n:])
n += 4
}
if len(b) < n+4 {
err = parseErr("TrackWidth", n+offset, err)
return
}
self.TrackWidth = GetFixed32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("TrackHeight", n+offset, err)
return
}
self.TrackHeight = GetFixed32(b[n:])
n += 4
return
}
func (self TrackHeader) Children() (r []Atom) {
return
}
type HandlerRefer struct {
Version uint8
Flags uint32
Type [4]byte
SubType [4]byte
Name []byte
AtomPos
}
func (self HandlerRefer) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(HDLR))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self HandlerRefer) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
copy(b[n:], self.Type[:])
n += len(self.Type[:])
copy(b[n:], self.SubType[:])
n += len(self.SubType[:])
copy(b[n:], self.Name[:])
n += len(self.Name[:])
return
}
func (self HandlerRefer) Len() (n int) {
n += 8
n += 1
n += 3
n += len(self.Type[:])
n += len(self.SubType[:])
n += len(self.Name[:])
return
}
func (self *HandlerRefer) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+len(self.Type) {
err = parseErr("Type", n+offset, err)
return
}
copy(self.Type[:], b[n:])
n += len(self.Type)
if len(b) < n+len(self.SubType) {
err = parseErr("SubType", n+offset, err)
return
}
copy(self.SubType[:], b[n:])
n += len(self.SubType)
self.Name = b[n:]
n += len(b[n:])
return
}
func (self HandlerRefer) Children() (r []Atom) {
return
}
type Media struct {
Header *MediaHeader
Handler *HandlerRefer
Info *MediaInfo
Unknowns []Atom
AtomPos
}
func (self Media) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MDIA))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self Media) marshal(b []byte) (n int) {
if self.Header != nil {
n += self.Header.Marshal(b[n:])
}
if self.Handler != nil {
n += self.Handler.Marshal(b[n:])
}
if self.Info != nil {
n += self.Info.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self Media) Len() (n int) {
n += 8
if self.Header != nil {
n += self.Header.Len()
}
if self.Handler != nil {
n += self.Handler.Len()
}
if self.Info != nil {
n += self.Info.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *Media) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case MDHD:
{
atom := &MediaHeader{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("mdhd", n+offset, err)
return
}
self.Header = atom
}
case HDLR:
{
atom := &HandlerRefer{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("hdlr", n+offset, err)
return
}
self.Handler = atom
}
case MINF:
{
atom := &MediaInfo{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("minf", n+offset, err)
return
}
self.Info = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self Media) Children() (r []Atom) {
if self.Header != nil {
r = append(r, self.Header)
}
if self.Handler != nil {
r = append(r, self.Handler)
}
if self.Info != nil {
r = append(r, self.Info)
}
r = append(r, self.Unknowns...)
return
}
type MediaHeader struct {
Version uint8
Flags uint32
CreateTime time.Time
ModifyTime time.Time
TimeScale int32
Duration int32
Language int16
Quality int16
AtomPos
}
func (self MediaHeader) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MDHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MediaHeader) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
PutTime32(b[n:], self.CreateTime)
n += 4
PutTime32(b[n:], self.ModifyTime)
n += 4
pio.PutI32BE(b[n:], self.TimeScale)
n += 4
pio.PutI32BE(b[n:], self.Duration)
n += 4
pio.PutI16BE(b[n:], self.Language)
n += 2
pio.PutI16BE(b[n:], self.Quality)
n += 2
return
}
func (self MediaHeader) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += 4
n += 4
n += 4
n += 2
n += 2
return
}
func (self *MediaHeader) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+4 {
err = parseErr("CreateTime", n+offset, err)
return
}
self.CreateTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("ModifyTime", n+offset, err)
return
}
self.ModifyTime = GetTime32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("TimeScale", n+offset, err)
return
}
self.TimeScale = pio.I32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("Duration", n+offset, err)
return
}
self.Duration = pio.I32BE(b[n:])
n += 4
if len(b) < n+2 {
err = parseErr("Language", n+offset, err)
return
}
self.Language = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("Quality", n+offset, err)
return
}
self.Quality = pio.I16BE(b[n:])
n += 2
return
}
func (self MediaHeader) Children() (r []Atom) {
return
}
type MediaInfo struct {
Sound *SoundMediaInfo
Video *VideoMediaInfo
Data *DataInfo
Sample *SampleTable
Unknowns []Atom
AtomPos
}
func (self MediaInfo) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MINF))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MediaInfo) marshal(b []byte) (n int) {
if self.Sound != nil {
n += self.Sound.Marshal(b[n:])
}
if self.Video != nil {
n += self.Video.Marshal(b[n:])
}
if self.Data != nil {
n += self.Data.Marshal(b[n:])
}
if self.Sample != nil {
n += self.Sample.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self MediaInfo) Len() (n int) {
n += 8
if self.Sound != nil {
n += self.Sound.Len()
}
if self.Video != nil {
n += self.Video.Len()
}
if self.Data != nil {
n += self.Data.Len()
}
if self.Sample != nil {
n += self.Sample.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *MediaInfo) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case SMHD:
{
atom := &SoundMediaInfo{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("smhd", n+offset, err)
return
}
self.Sound = atom
}
case VMHD:
{
atom := &VideoMediaInfo{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("vmhd", n+offset, err)
return
}
self.Video = atom
}
case DINF:
{
atom := &DataInfo{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("dinf", n+offset, err)
return
}
self.Data = atom
}
case STBL:
{
atom := &SampleTable{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stbl", n+offset, err)
return
}
self.Sample = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self MediaInfo) Children() (r []Atom) {
if self.Sound != nil {
r = append(r, self.Sound)
}
if self.Video != nil {
r = append(r, self.Video)
}
if self.Data != nil {
r = append(r, self.Data)
}
if self.Sample != nil {
r = append(r, self.Sample)
}
r = append(r, self.Unknowns...)
return
}
type DataInfo struct {
Refer *DataRefer
Unknowns []Atom
AtomPos
}
func (self DataInfo) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(DINF))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self DataInfo) marshal(b []byte) (n int) {
if self.Refer != nil {
n += self.Refer.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self DataInfo) Len() (n int) {
n += 8
if self.Refer != nil {
n += self.Refer.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *DataInfo) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case DREF:
{
atom := &DataRefer{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("dref", n+offset, err)
return
}
self.Refer = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self DataInfo) Children() (r []Atom) {
if self.Refer != nil {
r = append(r, self.Refer)
}
r = append(r, self.Unknowns...)
return
}
type DataRefer struct {
Version uint8
Flags uint32
Url *DataReferUrl
AtomPos
}
func (self DataRefer) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(DREF))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self DataRefer) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
_childrenNR := 0
if self.Url != nil {
_childrenNR++
}
pio.PutI32BE(b[n:], int32(_childrenNR))
n += 4
if self.Url != nil {
n += self.Url.Marshal(b[n:])
}
return
}
func (self DataRefer) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
if self.Url != nil {
n += self.Url.Len()
}
return
}
func (self *DataRefer) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
n += 4
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case URL:
{
atom := &DataReferUrl{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("url ", n+offset, err)
return
}
self.Url = atom
}
}
n += size
}
return
}
func (self DataRefer) Children() (r []Atom) {
if self.Url != nil {
r = append(r, self.Url)
}
return
}
type DataReferUrl struct {
Version uint8
Flags uint32
AtomPos
}
func (self DataReferUrl) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(URL))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self DataReferUrl) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
return
}
func (self DataReferUrl) Len() (n int) {
n += 8
n += 1
n += 3
return
}
func (self *DataReferUrl) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
return
}
func (self DataReferUrl) Children() (r []Atom) {
return
}
type SoundMediaInfo struct {
Version uint8
Flags uint32
Balance int16
AtomPos
}
func (self SoundMediaInfo) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(SMHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self SoundMediaInfo) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutI16BE(b[n:], self.Balance)
n += 2
n += 2
return
}
func (self SoundMediaInfo) Len() (n int) {
n += 8
n += 1
n += 3
n += 2
n += 2
return
}
func (self *SoundMediaInfo) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+2 {
err = parseErr("Balance", n+offset, err)
return
}
self.Balance = pio.I16BE(b[n:])
n += 2
n += 2
return
}
func (self SoundMediaInfo) Children() (r []Atom) {
return
}
type VideoMediaInfo struct {
Version uint8
Flags uint32
GraphicsMode int16
Opcolor [3]int16
AtomPos
}
func (self VideoMediaInfo) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(VMHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self VideoMediaInfo) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutI16BE(b[n:], self.GraphicsMode)
n += 2
for _, entry := range self.Opcolor {
pio.PutI16BE(b[n:], entry)
n += 2
}
return
}
func (self VideoMediaInfo) Len() (n int) {
n += 8
n += 1
n += 3
n += 2
n += 2 * len(self.Opcolor[:])
return
}
func (self *VideoMediaInfo) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+2 {
err = parseErr("GraphicsMode", n+offset, err)
return
}
self.GraphicsMode = pio.I16BE(b[n:])
n += 2
if len(b) < n+2*len(self.Opcolor) {
err = parseErr("Opcolor", n+offset, err)
return
}
for i := range self.Opcolor {
self.Opcolor[i] = pio.I16BE(b[n:])
n += 2
}
return
}
func (self VideoMediaInfo) Children() (r []Atom) {
return
}
type SampleTable struct {
SampleDesc *SampleDesc
TimeToSample *TimeToSample
CompositionOffset *CompositionOffset
SampleToChunk *SampleToChunk
SyncSample *SyncSample
ChunkOffset *ChunkOffset
SampleSize *SampleSize
AtomPos
}
func (self SampleTable) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STBL))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self SampleTable) marshal(b []byte) (n int) {
if self.SampleDesc != nil {
n += self.SampleDesc.Marshal(b[n:])
}
if self.TimeToSample != nil {
n += self.TimeToSample.Marshal(b[n:])
}
if self.CompositionOffset != nil {
n += self.CompositionOffset.Marshal(b[n:])
}
if self.SampleToChunk != nil {
n += self.SampleToChunk.Marshal(b[n:])
}
if self.SyncSample != nil {
n += self.SyncSample.Marshal(b[n:])
}
if self.ChunkOffset != nil {
n += self.ChunkOffset.Marshal(b[n:])
}
if self.SampleSize != nil {
n += self.SampleSize.Marshal(b[n:])
}
return
}
func (self SampleTable) Len() (n int) {
n += 8
if self.SampleDesc != nil {
n += self.SampleDesc.Len()
}
if self.TimeToSample != nil {
n += self.TimeToSample.Len()
}
if self.CompositionOffset != nil {
n += self.CompositionOffset.Len()
}
if self.SampleToChunk != nil {
n += self.SampleToChunk.Len()
}
if self.SyncSample != nil {
n += self.SyncSample.Len()
}
if self.ChunkOffset != nil {
n += self.ChunkOffset.Len()
}
if self.SampleSize != nil {
n += self.SampleSize.Len()
}
return
}
func (self *SampleTable) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case STSD:
{
atom := &SampleDesc{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stsd", n+offset, err)
return
}
self.SampleDesc = atom
}
case STTS:
{
atom := &TimeToSample{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stts", n+offset, err)
return
}
self.TimeToSample = atom
}
case CTTS:
{
atom := &CompositionOffset{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("ctts", n+offset, err)
return
}
self.CompositionOffset = atom
}
case STSC:
{
atom := &SampleToChunk{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stsc", n+offset, err)
return
}
self.SampleToChunk = atom
}
case STSS:
{
atom := &SyncSample{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stss", n+offset, err)
return
}
self.SyncSample = atom
}
case STCO:
{
atom := &ChunkOffset{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stco", n+offset, err)
return
}
self.ChunkOffset = atom
}
case STSZ:
{
atom := &SampleSize{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("stsz", n+offset, err)
return
}
self.SampleSize = atom
}
}
n += size
}
return
}
func (self SampleTable) Children() (r []Atom) {
if self.SampleDesc != nil {
r = append(r, self.SampleDesc)
}
if self.TimeToSample != nil {
r = append(r, self.TimeToSample)
}
if self.CompositionOffset != nil {
r = append(r, self.CompositionOffset)
}
if self.SampleToChunk != nil {
r = append(r, self.SampleToChunk)
}
if self.SyncSample != nil {
r = append(r, self.SyncSample)
}
if self.ChunkOffset != nil {
r = append(r, self.ChunkOffset)
}
if self.SampleSize != nil {
r = append(r, self.SampleSize)
}
return
}
type SampleDesc struct {
Version uint8
AVC1Desc *AVC1Desc
MP4ADesc *MP4ADesc
Unknowns []Atom
AtomPos
}
func (self SampleDesc) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STSD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self SampleDesc) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
n += 3
_childrenNR := 0
if self.AVC1Desc != nil {
_childrenNR++
}
if self.MP4ADesc != nil {
_childrenNR++
}
_childrenNR += len(self.Unknowns)
pio.PutI32BE(b[n:], int32(_childrenNR))
n += 4
if self.AVC1Desc != nil {
n += self.AVC1Desc.Marshal(b[n:])
}
if self.MP4ADesc != nil {
n += self.MP4ADesc.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self SampleDesc) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
if self.AVC1Desc != nil {
n += self.AVC1Desc.Len()
}
if self.MP4ADesc != nil {
n += self.MP4ADesc.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *SampleDesc) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
n += 3
n += 4
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case AVC1:
{
atom := &AVC1Desc{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("avc1", n+offset, err)
return
}
self.AVC1Desc = atom
}
case MP4A:
{
atom := &MP4ADesc{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("mp4a", n+offset, err)
return
}
self.MP4ADesc = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self SampleDesc) Children() (r []Atom) {
if self.AVC1Desc != nil {
r = append(r, self.AVC1Desc)
}
if self.MP4ADesc != nil {
r = append(r, self.MP4ADesc)
}
r = append(r, self.Unknowns...)
return
}
type MP4ADesc struct {
DataRefIdx int16
Version int16
RevisionLevel int16
Vendor int32
NumberOfChannels int16
SampleSize int16
CompressionId int16
SampleRate float64
Conf *ElemStreamDesc
Unknowns []Atom
AtomPos
}
func (self MP4ADesc) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MP4A))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MP4ADesc) marshal(b []byte) (n int) {
n += 6
pio.PutI16BE(b[n:], self.DataRefIdx)
n += 2
pio.PutI16BE(b[n:], self.Version)
n += 2
pio.PutI16BE(b[n:], self.RevisionLevel)
n += 2
pio.PutI32BE(b[n:], self.Vendor)
n += 4
pio.PutI16BE(b[n:], self.NumberOfChannels)
n += 2
pio.PutI16BE(b[n:], self.SampleSize)
n += 2
pio.PutI16BE(b[n:], self.CompressionId)
n += 2
n += 2
PutFixed32(b[n:], self.SampleRate)
n += 4
if self.Conf != nil {
n += self.Conf.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self MP4ADesc) Len() (n int) {
n += 8
n += 6
n += 2
n += 2
n += 2
n += 4
n += 2
n += 2
n += 2
n += 2
n += 4
if self.Conf != nil {
n += self.Conf.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *MP4ADesc) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
n += 6
if len(b) < n+2 {
err = parseErr("DataRefIdx", n+offset, err)
return
}
self.DataRefIdx = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("RevisionLevel", n+offset, err)
return
}
self.RevisionLevel = pio.I16BE(b[n:])
n += 2
if len(b) < n+4 {
err = parseErr("Vendor", n+offset, err)
return
}
self.Vendor = pio.I32BE(b[n:])
n += 4
if len(b) < n+2 {
err = parseErr("NumberOfChannels", n+offset, err)
return
}
self.NumberOfChannels = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("SampleSize", n+offset, err)
return
}
self.SampleSize = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("CompressionId", n+offset, err)
return
}
self.CompressionId = pio.I16BE(b[n:])
n += 2
n += 2
if len(b) < n+4 {
err = parseErr("SampleRate", n+offset, err)
return
}
self.SampleRate = GetFixed32(b[n:])
n += 4
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case ESDS:
{
atom := &ElemStreamDesc{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("esds", n+offset, err)
return
}
self.Conf = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self MP4ADesc) Children() (r []Atom) {
if self.Conf != nil {
r = append(r, self.Conf)
}
r = append(r, self.Unknowns...)
return
}
type AVC1Desc struct {
DataRefIdx int16
Version int16
Revision int16
Vendor int32
TemporalQuality int32
SpatialQuality int32
Width int16
Height int16
HorizontalResolution float64
VorizontalResolution float64
FrameCount int16
CompressorName [32]byte
Depth int16
ColorTableId int16
Conf *AVC1Conf
Unknowns []Atom
AtomPos
}
func (self AVC1Desc) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(AVC1))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self AVC1Desc) marshal(b []byte) (n int) {
n += 6
pio.PutI16BE(b[n:], self.DataRefIdx)
n += 2
pio.PutI16BE(b[n:], self.Version)
n += 2
pio.PutI16BE(b[n:], self.Revision)
n += 2
pio.PutI32BE(b[n:], self.Vendor)
n += 4
pio.PutI32BE(b[n:], self.TemporalQuality)
n += 4
pio.PutI32BE(b[n:], self.SpatialQuality)
n += 4
pio.PutI16BE(b[n:], self.Width)
n += 2
pio.PutI16BE(b[n:], self.Height)
n += 2
PutFixed32(b[n:], self.HorizontalResolution)
n += 4
PutFixed32(b[n:], self.VorizontalResolution)
n += 4
n += 4
pio.PutI16BE(b[n:], self.FrameCount)
n += 2
copy(b[n:], self.CompressorName[:])
n += len(self.CompressorName[:])
pio.PutI16BE(b[n:], self.Depth)
n += 2
pio.PutI16BE(b[n:], self.ColorTableId)
n += 2
if self.Conf != nil {
n += self.Conf.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self AVC1Desc) Len() (n int) {
n += 8
n += 6
n += 2
n += 2
n += 2
n += 4
n += 4
n += 4
n += 2
n += 2
n += 4
n += 4
n += 4
n += 2
n += len(self.CompressorName[:])
n += 2
n += 2
if self.Conf != nil {
n += self.Conf.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *AVC1Desc) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
n += 6
if len(b) < n+2 {
err = parseErr("DataRefIdx", n+offset, err)
return
}
self.DataRefIdx = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("Revision", n+offset, err)
return
}
self.Revision = pio.I16BE(b[n:])
n += 2
if len(b) < n+4 {
err = parseErr("Vendor", n+offset, err)
return
}
self.Vendor = pio.I32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("TemporalQuality", n+offset, err)
return
}
self.TemporalQuality = pio.I32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("SpatialQuality", n+offset, err)
return
}
self.SpatialQuality = pio.I32BE(b[n:])
n += 4
if len(b) < n+2 {
err = parseErr("Width", n+offset, err)
return
}
self.Width = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("Height", n+offset, err)
return
}
self.Height = pio.I16BE(b[n:])
n += 2
if len(b) < n+4 {
err = parseErr("HorizontalResolution", n+offset, err)
return
}
self.HorizontalResolution = GetFixed32(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("VorizontalResolution", n+offset, err)
return
}
self.VorizontalResolution = GetFixed32(b[n:])
n += 4
n += 4
if len(b) < n+2 {
err = parseErr("FrameCount", n+offset, err)
return
}
self.FrameCount = pio.I16BE(b[n:])
n += 2
if len(b) < n+len(self.CompressorName) {
err = parseErr("CompressorName", n+offset, err)
return
}
copy(self.CompressorName[:], b[n:])
n += len(self.CompressorName)
if len(b) < n+2 {
err = parseErr("Depth", n+offset, err)
return
}
self.Depth = pio.I16BE(b[n:])
n += 2
if len(b) < n+2 {
err = parseErr("ColorTableId", n+offset, err)
return
}
self.ColorTableId = pio.I16BE(b[n:])
n += 2
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case AVCC:
{
atom := &AVC1Conf{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("avcC", n+offset, err)
return
}
self.Conf = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self AVC1Desc) Children() (r []Atom) {
if self.Conf != nil {
r = append(r, self.Conf)
}
r = append(r, self.Unknowns...)
return
}
type AVC1Conf struct {
Data []byte
AtomPos
}
func (self AVC1Conf) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(AVCC))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self AVC1Conf) marshal(b []byte) (n int) {
copy(b[n:], self.Data[:])
n += len(self.Data[:])
return
}
func (self AVC1Conf) Len() (n int) {
n += 8
n += len(self.Data[:])
return
}
func (self *AVC1Conf) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
self.Data = b[n:]
n += len(b[n:])
return
}
func (self AVC1Conf) Children() (r []Atom) {
return
}
type TimeToSample struct {
Version uint8
Flags uint32
Entries []TimeToSampleEntry
AtomPos
}
func (self TimeToSample) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STTS))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TimeToSample) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
for _, entry := range self.Entries {
PutTimeToSampleEntry(b[n:], entry)
n += LenTimeToSampleEntry
}
return
}
func (self TimeToSample) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += LenTimeToSampleEntry * len(self.Entries)
return
}
func (self *TimeToSample) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]TimeToSampleEntry, _len_Entries)
if len(b) < n+LenTimeToSampleEntry*len(self.Entries) {
err = parseErr("TimeToSampleEntry", n+offset, err)
return
}
for i := range self.Entries {
self.Entries[i] = GetTimeToSampleEntry(b[n:])
n += LenTimeToSampleEntry
}
return
}
func (self TimeToSample) Children() (r []Atom) {
return
}
type TimeToSampleEntry struct {
Count uint32
Duration uint32
}
func GetTimeToSampleEntry(b []byte) (self TimeToSampleEntry) {
self.Count = pio.U32BE(b[0:])
self.Duration = pio.U32BE(b[4:])
return
}
func PutTimeToSampleEntry(b []byte, self TimeToSampleEntry) {
pio.PutU32BE(b[0:], self.Count)
pio.PutU32BE(b[4:], self.Duration)
}
const LenTimeToSampleEntry = 8
type SampleToChunk struct {
Version uint8
Flags uint32
Entries []SampleToChunkEntry
AtomPos
}
func (self SampleToChunk) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STSC))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self SampleToChunk) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
for _, entry := range self.Entries {
PutSampleToChunkEntry(b[n:], entry)
n += LenSampleToChunkEntry
}
return
}
func (self SampleToChunk) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += LenSampleToChunkEntry * len(self.Entries)
return
}
func (self *SampleToChunk) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]SampleToChunkEntry, _len_Entries)
if len(b) < n+LenSampleToChunkEntry*len(self.Entries) {
err = parseErr("SampleToChunkEntry", n+offset, err)
return
}
for i := range self.Entries {
self.Entries[i] = GetSampleToChunkEntry(b[n:])
n += LenSampleToChunkEntry
}
return
}
func (self SampleToChunk) Children() (r []Atom) {
return
}
type SampleToChunkEntry struct {
FirstChunk uint32
SamplesPerChunk uint32
SampleDescId uint32
}
func GetSampleToChunkEntry(b []byte) (self SampleToChunkEntry) {
self.FirstChunk = pio.U32BE(b[0:])
self.SamplesPerChunk = pio.U32BE(b[4:])
self.SampleDescId = pio.U32BE(b[8:])
return
}
func PutSampleToChunkEntry(b []byte, self SampleToChunkEntry) {
pio.PutU32BE(b[0:], self.FirstChunk)
pio.PutU32BE(b[4:], self.SamplesPerChunk)
pio.PutU32BE(b[8:], self.SampleDescId)
}
const LenSampleToChunkEntry = 12
type CompositionOffset struct {
Version uint8
Flags uint32
Entries []CompositionOffsetEntry
AtomPos
}
func (self CompositionOffset) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(CTTS))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self CompositionOffset) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
for _, entry := range self.Entries {
PutCompositionOffsetEntry(b[n:], entry)
n += LenCompositionOffsetEntry
}
return
}
func (self CompositionOffset) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += LenCompositionOffsetEntry * len(self.Entries)
return
}
func (self *CompositionOffset) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]CompositionOffsetEntry, _len_Entries)
if len(b) < n+LenCompositionOffsetEntry*len(self.Entries) {
err = parseErr("CompositionOffsetEntry", n+offset, err)
return
}
for i := range self.Entries {
self.Entries[i] = GetCompositionOffsetEntry(b[n:])
n += LenCompositionOffsetEntry
}
return
}
func (self CompositionOffset) Children() (r []Atom) {
return
}
type CompositionOffsetEntry struct {
Count uint32
Offset uint32
}
func GetCompositionOffsetEntry(b []byte) (self CompositionOffsetEntry) {
self.Count = pio.U32BE(b[0:])
self.Offset = pio.U32BE(b[4:])
return
}
func PutCompositionOffsetEntry(b []byte, self CompositionOffsetEntry) {
pio.PutU32BE(b[0:], self.Count)
pio.PutU32BE(b[4:], self.Offset)
}
const LenCompositionOffsetEntry = 8
type SyncSample struct {
Version uint8
Flags uint32
Entries []uint32
AtomPos
}
func (self SyncSample) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STSS))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self SyncSample) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
for _, entry := range self.Entries {
pio.PutU32BE(b[n:], entry)
n += 4
}
return
}
func (self SyncSample) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += 4 * len(self.Entries)
return
}
func (self *SyncSample) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]uint32, _len_Entries)
if len(b) < n+4*len(self.Entries) {
err = parseErr("uint32", n+offset, err)
return
}
for i := range self.Entries {
self.Entries[i] = pio.U32BE(b[n:])
n += 4
}
return
}
func (self SyncSample) Children() (r []Atom) {
return
}
type ChunkOffset struct {
Version uint8
Flags uint32
Entries []uint32
AtomPos
}
func (self ChunkOffset) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STCO))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self ChunkOffset) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
for _, entry := range self.Entries {
pio.PutU32BE(b[n:], entry)
n += 4
}
return
}
func (self ChunkOffset) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += 4 * len(self.Entries)
return
}
func (self *ChunkOffset) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]uint32, _len_Entries)
if len(b) < n+4*len(self.Entries) {
err = parseErr("uint32", n+offset, err)
return
}
for i := range self.Entries {
self.Entries[i] = pio.U32BE(b[n:])
n += 4
}
return
}
func (self ChunkOffset) Children() (r []Atom) {
return
}
type MovieFrag struct {
Header *MovieFragHeader
Tracks []*TrackFrag
Unknowns []Atom
AtomPos
}
func (self MovieFrag) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MOOF))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MovieFrag) marshal(b []byte) (n int) {
if self.Header != nil {
n += self.Header.Marshal(b[n:])
}
for _, atom := range self.Tracks {
n += atom.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self MovieFrag) Len() (n int) {
n += 8
if self.Header != nil {
n += self.Header.Len()
}
for _, atom := range self.Tracks {
n += atom.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *MovieFrag) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case MFHD:
{
atom := &MovieFragHeader{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("mfhd", n+offset, err)
return
}
self.Header = atom
}
case TRAF:
{
atom := &TrackFrag{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("traf", n+offset, err)
return
}
self.Tracks = append(self.Tracks, atom)
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self MovieFrag) Children() (r []Atom) {
if self.Header != nil {
r = append(r, self.Header)
}
for _, atom := range self.Tracks {
r = append(r, atom)
}
r = append(r, self.Unknowns...)
return
}
type MovieFragHeader struct {
Version uint8
Flags uint32
Seqnum uint32
AtomPos
}
func (self MovieFragHeader) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MFHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MovieFragHeader) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], self.Seqnum)
n += 4
return
}
func (self MovieFragHeader) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
return
}
func (self *MovieFragHeader) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+4 {
err = parseErr("Seqnum", n+offset, err)
return
}
self.Seqnum = pio.U32BE(b[n:])
n += 4
return
}
func (self MovieFragHeader) Children() (r []Atom) {
return
}
type TrackFrag struct {
Header *TrackFragHeader
DecodeTime *TrackFragDecodeTime
Run *TrackFragRun
Unknowns []Atom
AtomPos
}
func (self TrackFrag) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TRAF))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TrackFrag) marshal(b []byte) (n int) {
if self.Header != nil {
n += self.Header.Marshal(b[n:])
}
if self.DecodeTime != nil {
n += self.DecodeTime.Marshal(b[n:])
}
if self.Run != nil {
n += self.Run.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self TrackFrag) Len() (n int) {
n += 8
if self.Header != nil {
n += self.Header.Len()
}
if self.DecodeTime != nil {
n += self.DecodeTime.Len()
}
if self.Run != nil {
n += self.Run.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *TrackFrag) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case TFHD:
{
atom := &TrackFragHeader{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("tfhd", n+offset, err)
return
}
self.Header = atom
}
case TFDT:
{
atom := &TrackFragDecodeTime{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("tfdt", n+offset, err)
return
}
self.DecodeTime = atom
}
case TRUN:
{
atom := &TrackFragRun{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("trun", n+offset, err)
return
}
self.Run = atom
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self TrackFrag) Children() (r []Atom) {
if self.Header != nil {
r = append(r, self.Header)
}
if self.DecodeTime != nil {
r = append(r, self.DecodeTime)
}
if self.Run != nil {
r = append(r, self.Run)
}
r = append(r, self.Unknowns...)
return
}
type MovieExtend struct {
Tracks []*TrackExtend
Unknowns []Atom
AtomPos
}
func (self MovieExtend) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(MVEX))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self MovieExtend) marshal(b []byte) (n int) {
for _, atom := range self.Tracks {
n += atom.Marshal(b[n:])
}
for _, atom := range self.Unknowns {
n += atom.Marshal(b[n:])
}
return
}
func (self MovieExtend) Len() (n int) {
n += 8
for _, atom := range self.Tracks {
n += atom.Len()
}
for _, atom := range self.Unknowns {
n += atom.Len()
}
return
}
func (self *MovieExtend) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
for n+8 < len(b) {
tag := Tag(pio.U32BE(b[n+4:]))
size := int(pio.U32BE(b[n:]))
if len(b) < n+size {
err = parseErr("TagSizeInvalid", n+offset, err)
return
}
switch tag {
case TREX:
{
atom := &TrackExtend{}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("trex", n+offset, err)
return
}
self.Tracks = append(self.Tracks, atom)
}
default:
{
atom := &Dummy{Tag_: tag, Data: b[n : n+size]}
if _, err = atom.Unmarshal(b[n:n+size], offset+n); err != nil {
err = parseErr("", n+offset, err)
return
}
self.Unknowns = append(self.Unknowns, atom)
}
}
n += size
}
return
}
func (self MovieExtend) Children() (r []Atom) {
for _, atom := range self.Tracks {
r = append(r, atom)
}
r = append(r, self.Unknowns...)
return
}
type TrackExtend struct {
Version uint8
Flags uint32
TrackId uint32
DefaultSampleDescIdx uint32
DefaultSampleDuration uint32
DefaultSampleSize uint32
DefaultSampleFlags uint32
AtomPos
}
func (self TrackExtend) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TREX))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TrackExtend) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], self.TrackId)
n += 4
pio.PutU32BE(b[n:], self.DefaultSampleDescIdx)
n += 4
pio.PutU32BE(b[n:], self.DefaultSampleDuration)
n += 4
pio.PutU32BE(b[n:], self.DefaultSampleSize)
n += 4
pio.PutU32BE(b[n:], self.DefaultSampleFlags)
n += 4
return
}
func (self TrackExtend) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
n += 4
n += 4
n += 4
n += 4
return
}
func (self *TrackExtend) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+4 {
err = parseErr("TrackId", n+offset, err)
return
}
self.TrackId = pio.U32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("DefaultSampleDescIdx", n+offset, err)
return
}
self.DefaultSampleDescIdx = pio.U32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("DefaultSampleDuration", n+offset, err)
return
}
self.DefaultSampleDuration = pio.U32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("DefaultSampleSize", n+offset, err)
return
}
self.DefaultSampleSize = pio.U32BE(b[n:])
n += 4
if len(b) < n+4 {
err = parseErr("DefaultSampleFlags", n+offset, err)
return
}
self.DefaultSampleFlags = pio.U32BE(b[n:])
n += 4
return
}
func (self TrackExtend) Children() (r []Atom) {
return
}
type SampleSize struct {
Version uint8
Flags uint32
SampleSize uint32
Entries []uint32
AtomPos
}
func (self SampleSize) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(STSZ))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self SampleSize) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], self.SampleSize)
n += 4
if self.SampleSize != 0 {
return
}
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
for _, entry := range self.Entries {
pio.PutU32BE(b[n:], entry)
n += 4
}
return
}
func (self SampleSize) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
if self.SampleSize != 0 {
return
}
n += 4
n += 4 * len(self.Entries)
return
}
func (self *SampleSize) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if len(b) < n+4 {
err = parseErr("SampleSize", n+offset, err)
return
}
self.SampleSize = pio.U32BE(b[n:])
n += 4
if self.SampleSize != 0 {
return
}
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]uint32, _len_Entries)
if len(b) < n+4*len(self.Entries) {
err = parseErr("uint32", n+offset, err)
return
}
for i := range self.Entries {
self.Entries[i] = pio.U32BE(b[n:])
n += 4
}
return
}
func (self SampleSize) Children() (r []Atom) {
return
}
type TrackFragRun struct {
Version uint8
Flags uint32
DataOffset uint32
FirstSampleFlags uint32
Entries []TrackFragRunEntry
AtomPos
}
func (self TrackFragRun) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TRUN))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TrackFragRun) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
pio.PutU32BE(b[n:], uint32(len(self.Entries)))
n += 4
if self.Flags&TRUN_DATA_OFFSET != 0 {
{
pio.PutU32BE(b[n:], self.DataOffset)
n += 4
}
}
if self.Flags&TRUN_FIRST_SAMPLE_FLAGS != 0 {
{
pio.PutU32BE(b[n:], self.FirstSampleFlags)
n += 4
}
}
for i, entry := range self.Entries {
var flags uint32
if i > 0 {
flags = self.Flags
} else {
flags = self.FirstSampleFlags
}
if flags&TRUN_SAMPLE_DURATION != 0 {
pio.PutU32BE(b[n:], entry.Duration)
n += 4
}
if flags&TRUN_SAMPLE_SIZE != 0 {
pio.PutU32BE(b[n:], entry.Size)
n += 4
}
if flags&TRUN_SAMPLE_FLAGS != 0 {
pio.PutU32BE(b[n:], entry.Flags)
n += 4
}
if flags&TRUN_SAMPLE_CTS != 0 {
pio.PutU32BE(b[n:], entry.Cts)
n += 4
}
}
return
}
func (self TrackFragRun) Len() (n int) {
n += 8
n += 1
n += 3
n += 4
if self.Flags&TRUN_DATA_OFFSET != 0 {
{
n += 4
}
}
if self.Flags&TRUN_FIRST_SAMPLE_FLAGS != 0 {
{
n += 4
}
}
for i := range self.Entries {
var flags uint32
if i > 0 {
flags = self.Flags
} else {
flags = self.FirstSampleFlags
}
if flags&TRUN_SAMPLE_DURATION != 0 {
n += 4
}
if flags&TRUN_SAMPLE_SIZE != 0 {
n += 4
}
if flags&TRUN_SAMPLE_FLAGS != 0 {
n += 4
}
if flags&TRUN_SAMPLE_CTS != 0 {
n += 4
}
}
return
}
func (self *TrackFragRun) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
var _len_Entries uint32
_len_Entries = pio.U32BE(b[n:])
n += 4
self.Entries = make([]TrackFragRunEntry, _len_Entries)
if self.Flags&TRUN_DATA_OFFSET != 0 {
{
if len(b) < n+4 {
err = parseErr("DataOffset", n+offset, err)
return
}
self.DataOffset = pio.U32BE(b[n:])
n += 4
}
}
if self.Flags&TRUN_FIRST_SAMPLE_FLAGS != 0 {
{
if len(b) < n+4 {
err = parseErr("FirstSampleFlags", n+offset, err)
return
}
self.FirstSampleFlags = pio.U32BE(b[n:])
n += 4
}
}
for i := 0; i < int(_len_Entries); i++ {
var flags uint32
if i > 0 {
flags = self.Flags
} else {
flags = self.FirstSampleFlags
}
entry := &self.Entries[i]
if flags&TRUN_SAMPLE_DURATION != 0 {
entry.Duration = pio.U32BE(b[n:])
n += 4
}
if flags&TRUN_SAMPLE_SIZE != 0 {
entry.Size = pio.U32BE(b[n:])
n += 4
}
if flags&TRUN_SAMPLE_FLAGS != 0 {
entry.Flags = pio.U32BE(b[n:])
n += 4
}
if flags&TRUN_SAMPLE_CTS != 0 {
entry.Cts = pio.U32BE(b[n:])
n += 4
}
}
return
}
func (self TrackFragRun) Children() (r []Atom) {
return
}
type TrackFragRunEntry struct {
Duration uint32
Size uint32
Flags uint32
Cts uint32
}
func GetTrackFragRunEntry(b []byte) (self TrackFragRunEntry) {
self.Duration = pio.U32BE(b[0:])
self.Size = pio.U32BE(b[4:])
self.Flags = pio.U32BE(b[8:])
self.Cts = pio.U32BE(b[12:])
return
}
func PutTrackFragRunEntry(b []byte, self TrackFragRunEntry) {
pio.PutU32BE(b[0:], self.Duration)
pio.PutU32BE(b[4:], self.Size)
pio.PutU32BE(b[8:], self.Flags)
pio.PutU32BE(b[12:], self.Cts)
}
const LenTrackFragRunEntry = 16
type TrackFragHeader struct {
Version uint8
Flags uint32
BaseDataOffset uint64
StsdId uint32
DefaultDuration uint32
DefaultSize uint32
DefaultFlags uint32
AtomPos
}
func (self TrackFragHeader) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TFHD))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TrackFragHeader) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
if self.Flags&TFHD_BASE_DATA_OFFSET != 0 {
{
pio.PutU64BE(b[n:], self.BaseDataOffset)
n += 8
}
}
if self.Flags&TFHD_STSD_ID != 0 {
{
pio.PutU32BE(b[n:], self.StsdId)
n += 4
}
}
if self.Flags&TFHD_DEFAULT_DURATION != 0 {
{
pio.PutU32BE(b[n:], self.DefaultDuration)
n += 4
}
}
if self.Flags&TFHD_DEFAULT_SIZE != 0 {
{
pio.PutU32BE(b[n:], self.DefaultSize)
n += 4
}
}
if self.Flags&TFHD_DEFAULT_FLAGS != 0 {
{
pio.PutU32BE(b[n:], self.DefaultFlags)
n += 4
}
}
return
}
func (self TrackFragHeader) Len() (n int) {
n += 8
n += 1
n += 3
if self.Flags&TFHD_BASE_DATA_OFFSET != 0 {
{
n += 8
}
}
if self.Flags&TFHD_STSD_ID != 0 {
{
n += 4
}
}
if self.Flags&TFHD_DEFAULT_DURATION != 0 {
{
n += 4
}
}
if self.Flags&TFHD_DEFAULT_SIZE != 0 {
{
n += 4
}
}
if self.Flags&TFHD_DEFAULT_FLAGS != 0 {
{
n += 4
}
}
return
}
func (self *TrackFragHeader) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if self.Flags&TFHD_BASE_DATA_OFFSET != 0 {
{
if len(b) < n+8 {
err = parseErr("BaseDataOffset", n+offset, err)
return
}
self.BaseDataOffset = pio.U64BE(b[n:])
n += 8
}
}
if self.Flags&TFHD_STSD_ID != 0 {
{
if len(b) < n+4 {
err = parseErr("StsdId", n+offset, err)
return
}
self.StsdId = pio.U32BE(b[n:])
n += 4
}
}
if self.Flags&TFHD_DEFAULT_DURATION != 0 {
{
if len(b) < n+4 {
err = parseErr("DefaultDuration", n+offset, err)
return
}
self.DefaultDuration = pio.U32BE(b[n:])
n += 4
}
}
if self.Flags&TFHD_DEFAULT_SIZE != 0 {
{
if len(b) < n+4 {
err = parseErr("DefaultSize", n+offset, err)
return
}
self.DefaultSize = pio.U32BE(b[n:])
n += 4
}
}
if self.Flags&TFHD_DEFAULT_FLAGS != 0 {
{
if len(b) < n+4 {
err = parseErr("DefaultFlags", n+offset, err)
return
}
self.DefaultFlags = pio.U32BE(b[n:])
n += 4
}
}
return
}
func (self TrackFragHeader) Children() (r []Atom) {
return
}
type TrackFragDecodeTime struct {
Version uint8
Flags uint32
Time time.Time
AtomPos
}
func (self TrackFragDecodeTime) Marshal(b []byte) (n int) {
pio.PutU32BE(b[4:], uint32(TFDT))
n += self.marshal(b[8:]) + 8
pio.PutU32BE(b[0:], uint32(n))
return
}
func (self TrackFragDecodeTime) marshal(b []byte) (n int) {
pio.PutU8(b[n:], self.Version)
n += 1
pio.PutU24BE(b[n:], self.Flags)
n += 3
if self.Version != 0 {
PutTime64(b[n:], self.Time)
n += 8
} else {
PutTime32(b[n:], self.Time)
n += 4
}
return
}
func (self TrackFragDecodeTime) Len() (n int) {
n += 8
n += 1
n += 3
if self.Version != 0 {
n += 8
} else {
n += 4
}
return
}
func (self *TrackFragDecodeTime) Unmarshal(b []byte, offset int) (n int, err error) {
(&self.AtomPos).setPos(offset, len(b))
n += 8
if len(b) < n+1 {
err = parseErr("Version", n+offset, err)
return
}
self.Version = pio.U8(b[n:])
n += 1
if len(b) < n+3 {
err = parseErr("Flags", n+offset, err)
return
}
self.Flags = pio.U24BE(b[n:])
n += 3
if self.Version != 0 {
self.Time = GetTime64(b[n:])
n += 8
} else {
self.Time = GetTime32(b[n:])
n += 4
}
return
}
func (self TrackFragDecodeTime) Children() (r []Atom) {
return
}