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fix struct read funcs compile error

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This commit is contained in:
nareix 2015-11-19 18:26:32 +08:00
parent 13d151545c
commit dff1b98e9d
5 changed files with 856 additions and 467 deletions
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113
atom/atom.go
View File

@ -1,116 +1,3 @@
package atom
import (
"log"
)
type Atom interface {
CC4() string
Read(Reader) error
}
type Ftyp struct {
}
func (self Ftyp) CC4() string {
return "ftyp"
}
func (self Ftyp) Read(r Reader) (err error) {
log.Println("read ftyp")
return
}
type Moov struct {
*Mvhd
Trak []*Trak
}
func (self Moov) CC4() string {
return "moov"
}
func (self *Moov) Read(r Reader) (err error) {
var atom Atom
if atom, err = r.ReadAtom(&Mvhd{}); err != nil {
return
}
self.Mvhd = atom.(*Mvhd)
for {
if atom, err := r.ReadAtom(&Trak{}); err != nil {
break
} else {
self.Trak = append(self.Trak, atom.(*Trak))
}
}
return
}
type Mvhd struct {
}
func (self Mvhd) CC4() string {
return "mvhd"
}
func (self Mvhd) Read(r Reader) (err error) {
return
}
type Tkhd struct {
}
func (self Tkhd) CC4() string {
return "tkhd"
}
func (self *Tkhd) Read(r Reader) (err error) {
return
}
type Minf struct {
}
type Mdia struct {
*Minf
}
type Trak struct {
Tkhd []*Tkhd
*Mdia
}
func (self Trak) CC4() string {
return "tkhd"
}
func (self *Trak) Read(r Reader) (err error) {
return
}
// Time-to-Sample Atoms
type Stts struct {
}
// Composition Offset Atom
type Ctts struct {
}
// Sync Sample Atoms (Keyframe)
type Stss struct {
}
// Sample-to-Chunk Atoms
type Stsc struct {
}
// Sample Size Atoms
type Stsz struct {
}
// Chunk Offset Atoms
type Stco struct {
}

294
atom/genAtomStruct.js
View File

@ -1,294 +0,0 @@
var ucfirst = x => x.substr(0,1).toUpperCase() + x.slice(1);
var D = (cls, prop, ...fields) => {
var ctor = function (args) {
this.cls = cls;
Object.assign(this, prop);
fields.forEach((f, i) => this[f] = typeof(args[i]) == 'string' ? ucfirst(args[i]) : args[i]);
if (cls == 'Atom' || cls == 'AtomPtr')
this.type = this.type + 'Atom';
};
global[cls] = (...args) => new ctor(args);
}
D('Int', {basic: true, type: 'int'}, 'name', 'len');
D('Str', {basic: true, type: 'string'}, 'name', 'len');
D('TimeStamp', {basic: true, type: 'TimeStamp'}, 'name', 'len');
D('Bytes', {basic: true, type: '[]byte'}, 'name', 'len');
D('Fixed32', {basic: true, type: 'Fixed32'}, 'name', 'len');
D('Atom', {}, 'type', 'name');
D('AtomPtr', {}, 'type', 'name');
D('Struct', {}, 'type', 'name');
D('StructPtr', {}, 'type', 'name');
D('Arr', {}, 'name', 'elem', 'count');
D('LenArr', {}, 'len', 'name', 'elem', 'isptr');
D('Size', {hide: true}, 'len');
D('_', {type: 'Dummy', hide: true}, 'len');
var atoms = {
fileType: [
'ftyp',
AtomPtr('movie', 'movie'),
],
movie: [
'moov',
AtomPtr('movieHeader', 'header'),
Arr('tracks', AtomPtr('track')),
],
movieHeader: [
'mvhd',
Int('version', 1),
Int('flags', 3),
TimeStamp('cTime', 4),
TimeStamp('mTime', 4),
Int('timeScale', 4),
Int('duration', 4),
Int('preferredRate', 4),
Int('preferredVolume', 2),
_(10),
Bytes('matrix', 36),
TimeStamp('previewTime', 4),
TimeStamp('previewDuration', 4),
TimeStamp('posterTime', 4),
TimeStamp('selectionTime', 4),
TimeStamp('selectionDuration', 4),
TimeStamp('currentTime', 4),
Int('nextTrackId', 4),
],
track: [
'trak',
AtomPtr('trackHeader', 'header'),
AtomPtr('media', 'media'),
],
trackHeader: [
'tkhd',
Int('version', 1),
Int('flags', 3),
TimeStamp('cTime', 4),
TimeStamp('mTime', 4),
Int('trackId', 4),
_(4),
Int('duration', 4),
_(8),
Int('layer', 2),
Int('alternateGroup', 2),
Int('volume', 2),
_(2),
Bytes('matrix', 36),
Fixed32('trackWidth', 4),
Fixed32('trackHeight', 4),
],
media: [
'mdia',
AtomPtr('mediaHeader', 'header'),
AtomPtr('mediaInfo', 'info'),
],
mediaHeader: [
'mdhd',
Int('version', 1),
Int('flags', 3),
TimeStamp('cTime', 4),
TimeStamp('mTime', 4),
Int('timeScale', 4),
Int('duration', 4),
Int('language', 2),
Int('quality', 2),
],
mediaInfo: [
'minf',
AtomPtr('videoMediaInfo', 'video'),
AtomPtr('sampleTable', 'sample'),
],
videoMediaInfo: [
'vmhd',
Int('version', 1),
Int('flags', 3),
Int('graphicsMode', 2),
Arr('opcolor', Int('', 2), 3),
],
sampleTable: [
'stbl',
AtomPtr('sampleDesc', 'sampleDesc'),
AtomPtr('timeToSample', 'timeToSample'),
AtomPtr('compositionOffset', 'compositionOffset'),
AtomPtr('syncSample', 'syncSample'),
AtomPtr('sampleSize', 'sampleSize'),
AtomPtr('chunkOffset', 'chunkOffset'),
],
sampleDesc: [
'stsd',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Struct('sampleDescEntry')),
],
timeToSample: [
'stts',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Struct('timeToSampleEntry')),
],
compositionOffset: [
'ctts',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Struct('compositionOffsetEntry')),
],
syncSample: [
'stss',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Int('', 4)),
],
sampleSize: [
'stsz',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Int('', 4)),
],
chunkOffset: [
'stco',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Int('', 4)),
],
};
var structs = {
sampleDescEntry: [
Size(4),
Str('format', 4),
_(6),
Int('dataRefIdx', 2),
Bytes('data'),
],
timeToSampleEntry: [
Int('count', 4),
Int('duration', 4),
],
compositionOffsetEntry: [
Int('count', 4),
Int('offset', 4),
],
};
var typeStr = field => (
field.cls == 'AtomPtr' || field.cls == 'StructPtr') ? '*'+field.type : field.type;
var dumpStruct = (name, list) => {
console.log(`type ${name} struct {
%s
}`, list
.filter(field => !field.hide)
.map(field => {
if (field.cls == 'Arr' || field.cls == 'LenArr')
return field.name +' []'+typeStr(field.elem);
return field.name+' '+typeStr(field)
}).join('\n')
);
dumpReadFn(name, null, false, list);
};
var dumpReadFn = (type, cc4, retptr, list) => {
var useSize;
if (retptr) {
console.log(`func Read${type}(r io.LimitedReader) (res *${type}, err error) {`);
console.log(`self := &${type}{}`);
} else {
console.log(`func Read${type}(r io.LimitedReader) (self ${type}, err error) {`);
}
list.forEach(field => {
if (field.cls == 'Size') {
useSize = true;
console.log(`size := ReadInt(r, ${field.len})`);
} else if (field.cls == 'Arr') {
var cond = field.count ? `i := 0; i < ${field.count}; i++` : `r.N > 0`;
console.log(`for ${cond} {`);
console.log(`var item ${typeStr(field.elem)}`);
console.log(`if item, err = Read${field.elem.type}(r); err != nil {
return
} else {
self.${field.name} = append(self.${field.name}, item)
}`);
console.log(`}`);
} else if (field.cls == 'LenArr') {
console.log(`if n, err := ReadInt(r, ${field.len}); err != nil {
return nil, err
} else {
for i := 0; i < n; i++ {
self.${field.name} = append(self.${field.name}, item)
}
}`);
} else {
var fn = field.basic ? field.cls : field.type;
var args = field.basic ? 'r, ' + field.len : 'r';
console.log(`if self.${field.name}, err = Read${fn}(${args}); err != nil {
return
}`);
}
});
if (retptr) {
console.log(`res = self`);
}
console.log(`return`);
console.log(`}`);
};
var dumpWriteFn = (name, list) => {
var useSize;
console.log(`func Write${name}(w Writer, atom ${name}) (err error) {`);
list.map(x => {
if (x.type == 'size') {
useSize = true;
return `ReadInt(r, ${x.len})`;
}
});
console.log(`}`);
};
console.log('// THIS FILE IS AUTO GENERATED');
console.log('');
console.log('package atom');
for (var k in atoms) {
var list = atoms[k];
var name = ucfirst(k)+'Atom';
var cc4 = list[0];
list = list.slice(1);
dumpStruct(name, list);
dumpReadFn(name, cc4, true, list);
}
for (var k in structs) {
var list = structs[k];
dumpStruct(ucfirst(k), list)
}

354
atom/genStruct.js Normal file
View File

@ -0,0 +1,354 @@
var uc = x => x && x.substr(0,1).toUpperCase()+x.slice(1);
Array.prototype.nonull = function () {
return this.filter(x => x);
};
var Int = (name,len) => {return {name:uc(name),len,type:'int',fn:'Int'}};
var Str = (name,len) => {return {name:uc(name),len,type:'string',fn:'String'}};
var TimeStamp = (name,len) => {return {name:uc(name),len,type:'TimeStamp',fn:'TimeStamp'}};
var Bytes = (name,len) => {return {name:uc(name),len,type:'[]byte',fn:'Bytes'}};
var BytesLeft = (name) => {return {name:uc(name),type:'[]byte',fn:'BytesLeft'}};
var Fixed32 = (name,len) => {return {name:uc(name),len,type:'Fixed32',fn:'Fixed32'}};
var Atom = (type,name) => {return {name:uc(name),type:uc(type)+'Atom',fn:uc(type)+'Atom'}};
var AtomPtr = (type,name) => {return {name:uc(name),type:'*'+uc(type)+'Atom',fn:uc(type)+'Atom'}};
var Struct = (type,name) => {return {name:uc(name),type:uc(type),fn:uc(type)}};
var StructPtr = (type,name) => {return {name:uc(name),type:'*'+uc(type),fn:uc(type)}};
var Arr = (name,elem,count) => {return {name:uc(name),elem,count,type:'[]'+elem.type}};
var LenArr = (sizelen,name,elem) => {return {sizelen,name:uc(name),elem,type:'[]'+elem.type}};
var Size = (len) => {return {len,hide:true,fn:'Int'}};
var _ = (len) => {return {len,hide:true,fn:'Dummy'}};
var atoms = {
fileType: [
'ftyp',
AtomPtr('movie', 'movie'),
],
movie: [
'moov',
AtomPtr('movieHeader', 'header'),
Arr('tracks', AtomPtr('track')),
],
movieHeader: [
'mvhd',
Int('version', 1),
Int('flags', 3),
TimeStamp('cTime', 4),
TimeStamp('mTime', 4),
Int('timeScale', 4),
Int('duration', 4),
Int('preferredRate', 4),
Int('preferredVolume', 2),
_(10),
Bytes('matrix', 36),
TimeStamp('previewTime', 4),
TimeStamp('previewDuration', 4),
TimeStamp('posterTime', 4),
TimeStamp('selectionTime', 4),
TimeStamp('selectionDuration', 4),
TimeStamp('currentTime', 4),
Int('nextTrackId', 4),
],
track: [
'trak',
AtomPtr('trackHeader', 'header'),
AtomPtr('media', 'media'),
],
trackHeader: [
'tkhd',
Int('version', 1),
Int('flags', 3),
TimeStamp('cTime', 4),
TimeStamp('mTime', 4),
Int('trackId', 4),
_(4),
Int('duration', 4),
_(8),
Int('layer', 2),
Int('alternateGroup', 2),
Int('volume', 2),
_(2),
Bytes('matrix', 36),
Fixed32('trackWidth', 4),
Fixed32('trackHeight', 4),
],
media: [
'mdia',
AtomPtr('mediaHeader', 'header'),
AtomPtr('mediaInfo', 'info'),
],
mediaHeader: [
'mdhd',
Int('version', 1),
Int('flags', 3),
TimeStamp('cTime', 4),
TimeStamp('mTime', 4),
Int('timeScale', 4),
Int('duration', 4),
Int('language', 2),
Int('quality', 2),
],
mediaInfo: [
'minf',
AtomPtr('videoMediaInfo', 'video'),
AtomPtr('sampleTable', 'sample'),
],
videoMediaInfo: [
'vmhd',
Int('version', 1),
Int('flags', 3),
Int('graphicsMode', 2),
Arr('opcolor', Int('', 2), 3),
],
sampleTable: [
'stbl',
AtomPtr('sampleDesc', 'sampleDesc'),
AtomPtr('timeToSample', 'timeToSample'),
AtomPtr('compositionOffset', 'compositionOffset'),
AtomPtr('syncSample', 'syncSample'),
AtomPtr('sampleSize', 'sampleSize'),
AtomPtr('chunkOffset', 'chunkOffset'),
],
sampleDesc: [
'stsd',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Struct('sampleDescEntry')),
],
timeToSample: [
'stts',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Struct('timeToSampleEntry')),
],
compositionOffset: [
'ctts',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Struct('compositionOffsetEntry')),
],
syncSample: [
'stss',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Int('', 4)),
],
sampleSize: [
'stsz',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Int('', 4)),
],
chunkOffset: [
'stco',
Int('version', 1),
Int('flags', 3),
LenArr(4, 'entries', Int('', 4)),
],
};
var structs = {
sampleDescEntry: [
Size(4),
Str('format', 4),
_(6),
Int('dataRefIdx', 2),
BytesLeft('data'),
],
timeToSampleEntry: [
Int('count', 4),
Int('duration', 4),
],
compositionOffsetEntry: [
Int('count', 4),
Int('offset', 4),
],
};
var genReadStmts = (opts) => {
var stmts = [];
if (opts.resIsPtr)
stmts = stmts.concat([StrStmt(`self := &${opts.atomType}{}`)]);
var readElemStmts = field => {
var arr = 'self.'+field.name;
return [
DeclVar('item', field.elem.type),
CallCheckAssign('Read'+field.elem.fn, ['r', field.elem.len].nonull(), ['item']),
StrStmt(`${arr} = append(${arr}, item)`),
]
};
stmts = stmts.concat(opts.fields.map(field => {
if (field.sizelen) {
var arr = 'self.'+field.name;
return [
DeclVar('count', 'int'),
CallCheckAssign('ReadInt', ['r', field.sizelen], ['count']),
For(RangeN('i', 'count'), readElemStmts(field)),
];
} else if (field.elem) {
var cond = field.count ? RangeN('i', field.count) : StrStmt('r.N > 0');
return For(cond, readElemStmts(field));
} else if (!field.hide) {
return CallCheckAssign('Read'+field.fn, ['r', field.len].nonull(), ['self.'+field.name]);
}
}).nonull());
if (opts.resIsPtr)
stmts = stmts.concat([StrStmt(`res = self`)]);
return Func(
'Read'+opts.fnName,
[['r', '*io.LimitedReader']],
[[opts.resIsPtr?'res':'self', (opts.resIsPtr?'*':'')+opts.atomType], ['err', 'error']],
stmts
);
};
var D = (cls, ...fields) => {
global[cls] = (...args) => {
var obj = {cls: cls};
fields.forEach((k, i) => obj[k] = args[i]);
return obj;
};
};
D('Func', 'name', 'args', 'rets', 'body');
D('CallCheckAssign', 'fn', 'args', 'rets');
D('DeclVar', 'name', 'type');
D('For', 'cond', 'body');
D('RangeN', 'i', 'n');
D('DeclStruct', 'name', 'body');
D('StrStmt', 'content');
var dumpFn = f => {
var dumpArgs = x => x.map(x => x.join(' ')).join(',');
return `func ${f.name}(${dumpArgs(f.args)}) (${dumpArgs(f.rets)}) {
${dumpStmts(f.body)}
return
}`;
};
var dumpStmts = stmts => {
var dumpStmt = stmt => {
if (stmt instanceof Array) {
return dumpStmts(stmt);
} if (stmt.cls == 'CallCheckAssign') {
return `if ${stmt.rets.concat(['err']).join(',')} = ${stmt.fn}(${stmt.args.join(',')}); err != nil {
return
}`;
} else if (stmt.cls == 'DeclVar') {
return `var ${stmt.name} ${stmt.type}`;
} else if (stmt.cls == 'For') {
return `for ${dumpStmt(stmt.cond)} {
${dumpStmts(stmt.body)}
}`;
} else if (stmt.cls == 'RangeN') {
return `${stmt.i} := 0; ${stmt.i} < ${stmt.n}; ${stmt.i}++`;
} else if (stmt.cls == 'DeclStruct') {
return `type ${stmt.name} struct {
${stmt.body.map(line => line.join(' ')).join('\n')}
}`;
} else if (stmt.cls == 'Func') {
return dumpFn(stmt);
} else if (stmt.cls == 'StrStmt') {
return stmt.content;
}
};
return stmts.map(dumpStmt).join('\n')
};
(() => {
var len = 3;
var f = Func('Readxx', [['f', '*io.LimitedReader']], [['res', '*xx'], ['err', 'error']], [
CallCheckAssign('ReadInt', ['f', len], ['self.xx']),
CallCheckAssign('WriteInt', ['f', len], ['self.xx']),
DeclVar('n', 'int'),
For(RangeN('i', 'n'), [
CallCheckAssign('WriteInt', ['f', len], ['self.xx']),
DeclStruct('hi', [['a', 'b'], ['c', 'd'], ['e', 'f']]),
]),
]);
console.log(dumpFn(f));
});
var allStmts = () => {
var stmts = [];
var convStructFields = fields => {
var typeStr = field => (
field.cls == 'AtomPtr' || field.cls == 'StructPtr') ? '*'+field.type : field.type;
return fields.filter(field => !field.hide)
.map(field => {
if (field.cls == 'Arr' || field.cls == 'LenArr')
return [field.name, '[]'+typeStr(field.elem)];
return [field.name, typeStr(field)];
});
};
for (var k in atoms) {
var list = atoms[k];
var name = uc(k)+'Atom';
var cc4 = list[0];
var fields = list.slice(1);
stmts = stmts.concat([
DeclStruct(name, convStructFields(fields)),
genReadStmts({
cc4: cc4,
fields: fields,
fnName: name,
atomType: name,
resIsPtr: true,
}),
]);
}
for (var k in structs) {
var fields = structs[k];
var name = uc(k);
stmts = stmts.concat([
DeclStruct(name, convStructFields(fields)),
genReadStmts({
fields: fields,
fnName: name,
atomType: name,
}),
]);
}
return stmts;
};
console.log(`// THIS FILE IS AUTO GENERATED
package atom
import (
"io"
)
`, dumpStmts(allStmts()));

59
atom/reader.go
View File

@ -6,15 +6,24 @@ import (
"io/ioutil"
)
type Reader struct {
io.LimitedReader
type Fixed32 uint32
type TimeStamp uint32
func ReadBytes(r io.Reader, n int) (res []byte, err error) {
res = make([]byte, n)
if n, err = r.Read(res); err != nil {
return
}
return
}
type Fixed32 uint32
func ReadBytesLeft(r *io.LimitedReader) (res []byte, err error) {
return ReadBytes(r, int(r.N))
}
func (self Reader) ReadUInt(n int) (res uint, err error) {
b := make([]byte, n)
if n, err = self.Read(b); err != nil {
func ReadUInt(r io.Reader, n int) (res uint, err error) {
var b []byte
if b, err = ReadBytes(r, n); err != nil {
return
}
for i := 0; i < n; i++ {
@ -24,29 +33,48 @@ func (self Reader) ReadUInt(n int) (res uint, err error) {
return
}
func (self Reader) ReadInt(n int) (res int, err error) {
var resu uint
if resu, err = self.ReadUInt(n); err != nil {
func ReadInt(r io.Reader, n int) (res int, err error) {
var ui uint
if ui, err = ReadUInt(r, n); err != nil {
return
}
res = int(resu)
res = int(ui)
return
}
func (self Reader) ReadString(n int) (res string, err error) {
b := make([]byte, n)
if n, err = self.Read(b); err != nil {
func ReadFixed32(r io.Reader, n int) (res Fixed32, err error) {
var ui uint
if ui, err = ReadUInt(r, n); err != nil {
return
}
res = Fixed32(ui)
return
}
func ReadTimeStamp(r io.Reader, n int) (res TimeStamp, err error) {
var ui uint
if ui, err = ReadUInt(r, n); err != nil {
return
}
res = TimeStamp(ui)
return
}
func ReadString(r io.Reader, n int) (res string, err error) {
var b []byte
if b, err = ReadBytes(r, n); err != nil {
return
}
res = string(b)
return
}
func (self Reader) Skip(n int) (err error) {
_, err = io.CopyN(ioutil.Discard, self.Reader, int64(n))
func ReadDummy(r io.Reader, n int) (res int, err error) {
_, err = io.CopyN(ioutil.Discard, r, int64(n))
return
}
/*
func (self Reader) ReadAtom(atom Atom) (res Atom, err error) {
for {
var size int
@ -83,4 +111,5 @@ func (self Reader) ReadAtom(atom Atom) (res Atom, err error) {
return
}
}
*/

483
atom/struct.go
View File

@ -1,134 +1,547 @@
// THIS FILE IS AUTO GENERATED
package atom
import (
"io"
)
type FileTypeAtom struct {
Movie *Movie
Movie *MovieAtom
}
func ReadFileTypeAtom(r *io.LimitedReader) (res *FileTypeAtom, err error) {
self := &FileTypeAtom{}
if self.Movie, err = ReadMovieAtom(r); err != nil {
return
}
res = self
return
}
type MovieAtom struct {
MovieHeader *MovieHeader
Header *MovieHeaderAtom
Tracks []*TrackAtom
}
func ReadMovieAtom(r *io.LimitedReader) (res *MovieAtom, err error) {
self := &MovieAtom{}
if self.Header, err = ReadMovieHeaderAtom(r); err != nil {
return
}
for r.N > 0 {
var item *TrackAtom
if item, err = ReadTrackAtom(r); err != nil {
return
}
self.Tracks = append(self.Tracks, item)
}
res = self
return
}
type MovieHeaderAtom struct {
Version int
Flags int
CTime Ts
MTime Ts
CTime TimeStamp
MTime TimeStamp
TimeScale int
Duration int
PreferredRate int
PreferredVolume int
Matrix []byte
PreviewTime Ts
PreviewDuration Ts
PosterTime Ts
SelectionTime Ts
SelectionDuration Ts
CurrentTime Ts
PreviewTime TimeStamp
PreviewDuration TimeStamp
PosterTime TimeStamp
SelectionTime TimeStamp
SelectionDuration TimeStamp
CurrentTime TimeStamp
NextTrackId int
}
func ReadMovieHeaderAtom(r *io.LimitedReader) (res *MovieHeaderAtom, err error) {
self := &MovieHeaderAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
if self.CTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.MTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.TimeScale, err = ReadInt(r, 4); err != nil {
return
}
if self.Duration, err = ReadInt(r, 4); err != nil {
return
}
if self.PreferredRate, err = ReadInt(r, 4); err != nil {
return
}
if self.PreferredVolume, err = ReadInt(r, 2); err != nil {
return
}
if self.Matrix, err = ReadBytes(r, 36); err != nil {
return
}
if self.PreviewTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.PreviewDuration, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.PosterTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.SelectionTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.SelectionDuration, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.CurrentTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.NextTrackId, err = ReadInt(r, 4); err != nil {
return
}
res = self
return
}
type TrackAtom struct {
TrackHeader *TrackHeader
Media *Media
Header *TrackHeaderAtom
Media *MediaAtom
}
func ReadTrackAtom(r *io.LimitedReader) (res *TrackAtom, err error) {
self := &TrackAtom{}
if self.Header, err = ReadTrackHeaderAtom(r); err != nil {
return
}
if self.Media, err = ReadMediaAtom(r); err != nil {
return
}
res = self
return
}
type TrackHeaderAtom struct {
Version int
Flags int
CTime Ts
MTime Ts
CTime TimeStamp
MTime TimeStamp
TrackId int
Duration int
Layer int
AlternateGroup int
Volume int
Matrix []byte
TrackWidth fixed32
TrackHeight fixed32
TrackWidth Fixed32
TrackHeight Fixed32
}
func ReadTrackHeaderAtom(r *io.LimitedReader) (res *TrackHeaderAtom, err error) {
self := &TrackHeaderAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
if self.CTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.MTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.TrackId, err = ReadInt(r, 4); err != nil {
return
}
if self.Duration, err = ReadInt(r, 4); err != nil {
return
}
if self.Layer, err = ReadInt(r, 2); err != nil {
return
}
if self.AlternateGroup, err = ReadInt(r, 2); err != nil {
return
}
if self.Volume, err = ReadInt(r, 2); err != nil {
return
}
if self.Matrix, err = ReadBytes(r, 36); err != nil {
return
}
if self.TrackWidth, err = ReadFixed32(r, 4); err != nil {
return
}
if self.TrackHeight, err = ReadFixed32(r, 4); err != nil {
return
}
res = self
return
}
type MediaAtom struct {
MediaHeader *MediaHeader
MediaInfo *MediaInfo
Header *MediaHeaderAtom
Info *MediaInfoAtom
}
func ReadMediaAtom(r *io.LimitedReader) (res *MediaAtom, err error) {
self := &MediaAtom{}
if self.Header, err = ReadMediaHeaderAtom(r); err != nil {
return
}
if self.Info, err = ReadMediaInfoAtom(r); err != nil {
return
}
res = self
return
}
type MediaHeaderAtom struct {
Version int
Flags int
CTime Ts
MTime Ts
CTime TimeStamp
MTime TimeStamp
TimeScale int
Duration int
Language int
Quality int
}
func ReadMediaHeaderAtom(r *io.LimitedReader) (res *MediaHeaderAtom, err error) {
self := &MediaHeaderAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
if self.CTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.MTime, err = ReadTimeStamp(r, 4); err != nil {
return
}
if self.TimeScale, err = ReadInt(r, 4); err != nil {
return
}
if self.Duration, err = ReadInt(r, 4); err != nil {
return
}
if self.Language, err = ReadInt(r, 2); err != nil {
return
}
if self.Quality, err = ReadInt(r, 2); err != nil {
return
}
res = self
return
}
type MediaInfoAtom struct {
VideoMediaInfo *VideoMediaInfo
Video *VideoMediaInfoAtom
Sample *SampleTableAtom
}
func ReadMediaInfoAtom(r *io.LimitedReader) (res *MediaInfoAtom, err error) {
self := &MediaInfoAtom{}
if self.Video, err = ReadVideoMediaInfoAtom(r); err != nil {
return
}
if self.Sample, err = ReadSampleTableAtom(r); err != nil {
return
}
res = self
return
}
type VideoMediaInfoAtom struct {
Version int
Flags int
GraphicsMode int
Opcolor []int
}
func ReadVideoMediaInfoAtom(r *io.LimitedReader) (res *VideoMediaInfoAtom, err error) {
self := &VideoMediaInfoAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
if self.GraphicsMode, err = ReadInt(r, 2); err != nil {
return
}
for i := 0; i < 3; i++ {
var item int
if item, err = ReadInt(r, 2); err != nil {
return
}
self.Opcolor = append(self.Opcolor, item)
}
res = self
return
}
type SampleTableAtom struct {
SampleDesc *SampleDesc
TimeToSample *TimeToSample
CompositionOffset *CompositionOffset
SyncSample *SyncSample
SampleSize *SampleSize
ChunkOffset *ChunkOffset
SampleDesc *SampleDescAtom
TimeToSample *TimeToSampleAtom
CompositionOffset *CompositionOffsetAtom
SyncSample *SyncSampleAtom
SampleSize *SampleSizeAtom
ChunkOffset *ChunkOffsetAtom
}
func ReadSampleTableAtom(r *io.LimitedReader) (res *SampleTableAtom, err error) {
self := &SampleTableAtom{}
if self.SampleDesc, err = ReadSampleDescAtom(r); err != nil {
return
}
if self.TimeToSample, err = ReadTimeToSampleAtom(r); err != nil {
return
}
if self.CompositionOffset, err = ReadCompositionOffsetAtom(r); err != nil {
return
}
if self.SyncSample, err = ReadSyncSampleAtom(r); err != nil {
return
}
if self.SampleSize, err = ReadSampleSizeAtom(r); err != nil {
return
}
if self.ChunkOffset, err = ReadChunkOffsetAtom(r); err != nil {
return
}
res = self
return
}
type SampleDescAtom struct {
Version int
Flags int
Entries []SampleDescEntry
}
func ReadSampleDescAtom(r *io.LimitedReader) (res *SampleDescAtom, err error) {
self := &SampleDescAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
var count int
if count, err = ReadInt(r, 4); err != nil {
return
}
for i := 0; i < count; i++ {
var item SampleDescEntry
if item, err = ReadSampleDescEntry(r); err != nil {
return
}
self.Entries = append(self.Entries, item)
}
res = self
return
}
type TimeToSampleAtom struct {
Version int
Flags int
Entries []TimeToSampleEntry
}
func ReadTimeToSampleAtom(r *io.LimitedReader) (res *TimeToSampleAtom, err error) {
self := &TimeToSampleAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
var count int
if count, err = ReadInt(r, 4); err != nil {
return
}
for i := 0; i < count; i++ {
var item TimeToSampleEntry
if item, err = ReadTimeToSampleEntry(r); err != nil {
return
}
self.Entries = append(self.Entries, item)
}
res = self
return
}
type CompositionOffsetAtom struct {
Version int
Flags int
Entries []CompositionOffsetEntry
}
func ReadCompositionOffsetAtom(r *io.LimitedReader) (res *CompositionOffsetAtom, err error) {
self := &CompositionOffsetAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
var count int
if count, err = ReadInt(r, 4); err != nil {
return
}
for i := 0; i < count; i++ {
var item CompositionOffsetEntry
if item, err = ReadCompositionOffsetEntry(r); err != nil {
return
}
self.Entries = append(self.Entries, item)
}
res = self
return
}
type SyncSampleAtom struct {
Version int
Flags int
Entries []int
}
func ReadSyncSampleAtom(r *io.LimitedReader) (res *SyncSampleAtom, err error) {
self := &SyncSampleAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
var count int
if count, err = ReadInt(r, 4); err != nil {
return
}
for i := 0; i < count; i++ {
var item int
if item, err = ReadInt(r, 4); err != nil {
return
}
self.Entries = append(self.Entries, item)
}
res = self
return
}
type SampleSizeAtom struct {
Version int
Flags int
Entries []int
}
func ReadSampleSizeAtom(r *io.LimitedReader) (res *SampleSizeAtom, err error) {
self := &SampleSizeAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
var count int
if count, err = ReadInt(r, 4); err != nil {
return
}
for i := 0; i < count; i++ {
var item int
if item, err = ReadInt(r, 4); err != nil {
return
}
self.Entries = append(self.Entries, item)
}
res = self
return
}
type ChunkOffsetAtom struct {
Version int
Flags int
Entries []int
}
type sampleDescEntry struct {
Format string
func ReadChunkOffsetAtom(r *io.LimitedReader) (res *ChunkOffsetAtom, err error) {
self := &ChunkOffsetAtom{}
if self.Version, err = ReadInt(r, 1); err != nil {
return
}
if self.Flags, err = ReadInt(r, 3); err != nil {
return
}
var count int
if count, err = ReadInt(r, 4); err != nil {
return
}
for i := 0; i < count; i++ {
var item int
if item, err = ReadInt(r, 4); err != nil {
return
}
self.Entries = append(self.Entries, item)
}
res = self
return
}
type SampleDescEntry struct {
Format string
DataRefIdx int
Data []byte
}
type timeToSampleEntry struct {
func ReadSampleDescEntry(r *io.LimitedReader) (self SampleDescEntry, err error) {
if self.Format, err = ReadString(r, 4); err != nil {
return
}
if self.DataRefIdx, err = ReadInt(r, 2); err != nil {
return
}
if self.Data, err = ReadBytesLeft(r); err != nil {
return
}
return
}
type TimeToSampleEntry struct {
Count int
Duration int
}
type compositionOffsetEntry struct {
func ReadTimeToSampleEntry(r *io.LimitedReader) (self TimeToSampleEntry, err error) {
if self.Count, err = ReadInt(r, 4); err != nil {
return
}
if self.Duration, err = ReadInt(r, 4); err != nil {
return
}
return
}
type CompositionOffsetEntry struct {
Count int
Offset int
}
func ReadCompositionOffsetEntry(r *io.LimitedReader) (self CompositionOffsetEntry, err error) {
if self.Count, err = ReadInt(r, 4); err != nil {
return
}
if self.Offset, err = ReadInt(r, 4); err != nil {
return
}
return
}