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writer.go
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package m3u8
/*
Part of M3U8 parser & generator library.
This file defines functions related to playlist generation.
Copyright 2013-2019 The Project Developers.
See the AUTHORS and LICENSE files at the top-level directory of this distribution
and at https://github.com/grafov/m3u8/
ॐ तारे तुत्तारे तुरे स्व
*/
import (
"bytes"
"errors"
"fmt"
"math"
"strconv"
"strings"
"time"
)
// ErrPlaylistFull declares the playlist error.
var ErrPlaylistFull = errors.New("playlist is full")
// Set version of the playlist accordingly with section 7
func version(ver *uint8, newver uint8) {
if *ver < newver {
*ver = newver
}
}
func strver(ver uint8) string {
return strconv.FormatUint(uint64(ver), 10)
}
// NewMasterPlaylist creates a new empty master playlist. Master
// playlist consists of variants.
func NewMasterPlaylist() *MasterPlaylist {
p := new(MasterPlaylist)
p.ver = minver
return p
}
// Append appends a variant to master playlist. This operation does
// reset playlist cache.
func (p *MasterPlaylist) Append(uri string, chunklist *MediaPlaylist, params VariantParams) {
v := new(Variant)
v.URI = uri
v.Chunklist = chunklist
v.VariantParams = params
p.Variants = append(p.Variants, v)
if len(v.Alternatives) > 0 {
// From section 7:
// The EXT-X-MEDIA tag and the AUDIO, VIDEO and SUBTITLES attributes of
// the EXT-X-STREAM-INF tag are backward compatible to protocol version
// 1, but playback on older clients may not be desirable. A server MAY
// consider indicating a EXT-X-VERSION of 4 or higher in the Master
// Playlist but is not required to do so.
version(&p.ver, 4) // so it is optional and in theory may be set to ver.1
// but more tests required
}
p.buf.Reset()
}
// ResetCache resetes the playlist' cache.
func (p *MasterPlaylist) ResetCache() {
p.buf.Reset()
}
// Encode generates the output in M3U8 format.
func (p *MasterPlaylist) Encode() *bytes.Buffer {
if p.buf.Len() > 0 {
return &p.buf
}
p.buf.WriteString("#EXTM3U\n#EXT-X-VERSION:")
p.buf.WriteString(strver(p.ver))
p.buf.WriteRune('\n')
if p.IndependentSegments() {
p.buf.WriteString("#EXT-X-INDEPENDENT-SEGMENTS\n")
}
// Write any custom master tags
if p.Custom != nil {
for _, v := range p.Custom {
if customBuf := v.Encode(); customBuf != nil {
p.buf.WriteString(customBuf.String())
p.buf.WriteRune('\n')
}
}
}
var altsWritten = make(map[string]bool)
for _, pl := range p.Variants {
if pl.Alternatives != nil {
for _, alt := range pl.Alternatives {
// Make sure that we only write out an alternative once
altKey := fmt.Sprintf("%s-%s-%s-%s", alt.Type, alt.GroupId, alt.Name, alt.Language)
if altsWritten[altKey] {
continue
}
altsWritten[altKey] = true
p.buf.WriteString("#EXT-X-MEDIA:")
if alt.Type != "" {
p.buf.WriteString("TYPE=") // Type should not be quoted
p.buf.WriteString(alt.Type)
}
if alt.GroupId != "" {
p.buf.WriteString(",GROUP-ID=\"")
p.buf.WriteString(alt.GroupId)
p.buf.WriteRune('"')
}
if alt.Name != "" {
p.buf.WriteString(",NAME=\"")
p.buf.WriteString(alt.Name)
p.buf.WriteRune('"')
}
p.buf.WriteString(",DEFAULT=")
if alt.Default {
p.buf.WriteString("YES")
} else {
p.buf.WriteString("NO")
}
if alt.Autoselect != "" {
p.buf.WriteString(",AUTOSELECT=")
p.buf.WriteString(alt.Autoselect)
}
if alt.Language != "" {
p.buf.WriteString(",LANGUAGE=\"")
p.buf.WriteString(alt.Language)
p.buf.WriteRune('"')
}
if alt.Forced != "" {
p.buf.WriteString(",FORCED=\"")
p.buf.WriteString(alt.Forced)
p.buf.WriteRune('"')
}
if alt.Characteristics != "" {
p.buf.WriteString(",CHARACTERISTICS=\"")
p.buf.WriteString(alt.Characteristics)
p.buf.WriteRune('"')
}
if alt.Subtitles != "" {
p.buf.WriteString(",SUBTITLES=\"")
p.buf.WriteString(alt.Subtitles)
p.buf.WriteRune('"')
}
if alt.URI != "" {
p.buf.WriteString(",URI=\"")
p.buf.WriteString(alt.URI)
p.buf.WriteRune('"')
}
p.buf.WriteRune('\n')
}
}
if pl.Iframe {
p.buf.WriteString("#EXT-X-I-FRAME-STREAM-INF:PROGRAM-ID=")
p.buf.WriteString(strconv.FormatUint(uint64(pl.ProgramId), 10))
p.buf.WriteString(",BANDWIDTH=")
p.buf.WriteString(strconv.FormatUint(uint64(pl.Bandwidth), 10))
if pl.AverageBandwidth != 0 {
p.buf.WriteString(",AVERAGE-BANDWIDTH=")
p.buf.WriteString(strconv.FormatUint(uint64(pl.AverageBandwidth), 10))
}
if pl.Codecs != "" {
p.buf.WriteString(",CODECS=\"")
p.buf.WriteString(pl.Codecs)
p.buf.WriteRune('"')
}
if pl.Resolution != "" {
p.buf.WriteString(",RESOLUTION=") // Resolution should not be quoted
p.buf.WriteString(pl.Resolution)
}
if pl.Video != "" {
p.buf.WriteString(",VIDEO=\"")
p.buf.WriteString(pl.Video)
p.buf.WriteRune('"')
}
if pl.VideoRange != "" {
p.buf.WriteString(",VIDEO-RANGE=")
p.buf.WriteString(pl.VideoRange)
}
if pl.HDCPLevel != "" {
p.buf.WriteString(",HDCP-LEVEL=")
p.buf.WriteString(pl.HDCPLevel)
}
if pl.URI != "" {
p.buf.WriteString(",URI=\"")
p.buf.WriteString(pl.URI)
p.buf.WriteRune('"')
}
p.buf.WriteRune('\n')
} else {
p.buf.WriteString("#EXT-X-STREAM-INF:PROGRAM-ID=")
p.buf.WriteString(strconv.FormatUint(uint64(pl.ProgramId), 10))
p.buf.WriteString(",BANDWIDTH=")
p.buf.WriteString(strconv.FormatUint(uint64(pl.Bandwidth), 10))
if pl.AverageBandwidth != 0 {
p.buf.WriteString(",AVERAGE-BANDWIDTH=")
p.buf.WriteString(strconv.FormatUint(uint64(pl.AverageBandwidth), 10))
}
if pl.Codecs != "" {
p.buf.WriteString(",CODECS=\"")
p.buf.WriteString(pl.Codecs)
p.buf.WriteRune('"')
}
if pl.Resolution != "" {
p.buf.WriteString(",RESOLUTION=") // Resolution should not be quoted
p.buf.WriteString(pl.Resolution)
}
if pl.Audio != "" {
p.buf.WriteString(",AUDIO=\"")
p.buf.WriteString(pl.Audio)
p.buf.WriteRune('"')
}
if pl.Video != "" {
p.buf.WriteString(",VIDEO=\"")
p.buf.WriteString(pl.Video)
p.buf.WriteRune('"')
}
if pl.Captions != "" {
p.buf.WriteString(",CLOSED-CAPTIONS=")
if pl.Captions == "NONE" {
p.buf.WriteString(pl.Captions) // CC should not be quoted when eq NONE
} else {
p.buf.WriteRune('"')
p.buf.WriteString(pl.Captions)
p.buf.WriteRune('"')
}
}
if pl.Subtitles != "" {
p.buf.WriteString(",SUBTITLES=\"")
p.buf.WriteString(pl.Subtitles)
p.buf.WriteRune('"')
}
if pl.Name != "" {
p.buf.WriteString(",NAME=\"")
p.buf.WriteString(pl.Name)
p.buf.WriteRune('"')
}
if pl.FrameRate != 0 {
p.buf.WriteString(",FRAME-RATE=")
p.buf.WriteString(strconv.FormatFloat(pl.FrameRate, 'f', 3, 64))
}
if pl.VideoRange != "" {
p.buf.WriteString(",VIDEO-RANGE=")
p.buf.WriteString(pl.VideoRange)
}
if pl.HDCPLevel != "" {
p.buf.WriteString(",HDCP-LEVEL=")
p.buf.WriteString(pl.HDCPLevel)
}
p.buf.WriteRune('\n')
p.buf.WriteString(pl.URI)
if p.Args != "" {
if strings.Contains(pl.URI, "?") {
p.buf.WriteRune('&')
} else {
p.buf.WriteRune('?')
}
p.buf.WriteString(p.Args)
}
p.buf.WriteRune('\n')
}
}
return &p.buf
}
// SetCustomTag sets the provided tag on the master playlist for its TagName
func (p *MasterPlaylist) SetCustomTag(tag CustomTag) {
if p.Custom == nil {
p.Custom = make(map[string]CustomTag)
}
p.Custom[tag.TagName()] = tag
}
// Version returns the current playlist version number
func (p *MasterPlaylist) Version() uint8 {
return p.ver
}
// SetVersion sets the playlist version number, note the version maybe changed
// automatically by other Set methods.
func (p *MasterPlaylist) SetVersion(ver uint8) {
p.ver = ver
}
// IndependentSegments returns true if all media samples in a segment can be
// decoded without information from other segments.
func (p *MasterPlaylist) IndependentSegments() bool {
return p.independentSegments
}
// SetIndependentSegments sets whether all media samples in a segment can be
// decoded without information from other segments.
func (p *MasterPlaylist) SetIndependentSegments(b bool) {
p.independentSegments = b
}
// String here for compatibility with Stringer interface. For example
// fmt.Printf("%s", sampleMediaList) will encode playist and print its
// string representation.
func (p *MasterPlaylist) String() string {
return p.Encode().String()
}
// NewMediaPlaylist creates a new media playlist structure. Winsize
// defines how much items will displayed on playlist generation.
// Capacity is total size of a playlist.
func NewMediaPlaylist(winsize uint, capacity uint) (*MediaPlaylist, error) {
p := new(MediaPlaylist)
p.ver = minver
p.capacity = capacity
if err := p.SetWinSize(winsize); err != nil {
return nil, err
}
p.Segments = make([]*MediaSegment, capacity)
return p, nil
}
// last returns the previously written segment's index
func (p *MediaPlaylist) last() uint {
if p.tail == 0 {
return p.capacity - 1
}
return p.tail - 1
}
// Remove current segment from the head of chunk slice form a media playlist. Useful for sliding playlists.
// This operation does reset playlist cache.
func (p *MediaPlaylist) Remove() (err error) {
if p.count == 0 {
return errors.New("playlist is empty")
}
p.head = (p.head + 1) % p.capacity
p.count--
if !p.Closed {
p.SeqNo++
}
p.buf.Reset()
return nil
}
// Append general chunk to the tail of chunk slice for a media playlist.
// This operation does reset playlist cache.
func (p *MediaPlaylist) Append(uri string, duration float64, title string) error {
seg := new(MediaSegment)
seg.URI = uri
seg.Duration = duration
seg.Title = title
return p.AppendSegment(seg)
}
// AppendSegment appends a MediaSegment to the tail of chunk slice for
// a media playlist. This operation does reset playlist cache.
func (p *MediaPlaylist) AppendSegment(seg *MediaSegment) error {
if p.head == p.tail && p.count > 0 {
return ErrPlaylistFull
}
seg.SeqId = p.SeqNo
if p.count > 0 {
seg.SeqId = p.Segments[(p.capacity+p.tail-1)%p.capacity].SeqId + 1
}
p.Segments[p.tail] = seg
p.tail = (p.tail + 1) % p.capacity
p.count++
if p.TargetDuration < seg.Duration {
p.TargetDuration = math.Ceil(seg.Duration)
}
p.buf.Reset()
return nil
}
// Slide combines two operations: firstly it removes one chunk from
// the head of chunk slice and move pointer to next chunk. Secondly it
// appends one chunk to the tail of chunk slice. Useful for sliding
// playlists. This operation does reset cache.
func (p *MediaPlaylist) Slide(uri string, duration float64, title string) {
if !p.Closed && p.count >= p.winsize {
p.Remove()
}
p.Append(uri, duration, title)
}
// ResetCache resets playlist cache. Next called Encode() will
// regenerate playlist from the chunk slice.
func (p *MediaPlaylist) ResetCache() {
p.buf.Reset()
}
// Encode generates output in M3U8 format. Marshal `winsize` elements
// from bottom of the `segments` queue.
func (p *MediaPlaylist) Encode() *bytes.Buffer {
if p.buf.Len() > 0 {
return &p.buf
}
p.buf.WriteString("#EXTM3U\n#EXT-X-VERSION:")
p.buf.WriteString(strver(p.ver))
p.buf.WriteRune('\n')
// Write any custom master tags
if p.Custom != nil {
for _, v := range p.Custom {
if customBuf := v.Encode(); customBuf != nil {
p.buf.WriteString(customBuf.String())
p.buf.WriteRune('\n')
}
}
}
// default key (workaround for Widevine)
if p.Key != nil {
p.buf.WriteString("#EXT-X-KEY:")
p.buf.WriteString("METHOD=")
p.buf.WriteString(p.Key.Method)
if p.Key.Method != "NONE" {
p.buf.WriteString(",URI=\"")
p.buf.WriteString(p.Key.URI)
p.buf.WriteRune('"')
if p.Key.IV != "" {
p.buf.WriteString(",IV=")
p.buf.WriteString(p.Key.IV)
}
if p.Key.Keyformat != "" {
p.buf.WriteString(",KEYFORMAT=\"")
p.buf.WriteString(p.Key.Keyformat)
p.buf.WriteRune('"')
}
if p.Key.Keyformatversions != "" {
p.buf.WriteString(",KEYFORMATVERSIONS=\"")
p.buf.WriteString(p.Key.Keyformatversions)
p.buf.WriteRune('"')
}
}
p.buf.WriteRune('\n')
}
if p.Map != nil {
p.buf.WriteString("#EXT-X-MAP:")
p.buf.WriteString("URI=\"")
p.buf.WriteString(p.Map.URI)
p.buf.WriteRune('"')
if p.Map.Limit > 0 {
p.buf.WriteString(",BYTERANGE=")
p.buf.WriteString(strconv.FormatInt(p.Map.Limit, 10))
p.buf.WriteRune('@')
p.buf.WriteString(strconv.FormatInt(p.Map.Offset, 10))
}
p.buf.WriteRune('\n')
}
if p.MediaType > 0 {
p.buf.WriteString("#EXT-X-PLAYLIST-TYPE:")
switch p.MediaType {
case EVENT:
p.buf.WriteString("EVENT\n")
p.buf.WriteString("#EXT-X-ALLOW-CACHE:NO\n")
case VOD:
p.buf.WriteString("VOD\n")
}
}
p.buf.WriteString("#EXT-X-MEDIA-SEQUENCE:")
p.buf.WriteString(strconv.FormatUint(p.SeqNo, 10))
p.buf.WriteRune('\n')
p.buf.WriteString("#EXT-X-TARGETDURATION:")
p.buf.WriteString(strconv.FormatInt(int64(math.Ceil(p.TargetDuration)), 10)) // due section 3.4.2 of M3U8 specs EXT-X-TARGETDURATION must be integer
p.buf.WriteRune('\n')
if p.StartTime > 0.0 {
p.buf.WriteString("#EXT-X-START:TIME-OFFSET=")
p.buf.WriteString(strconv.FormatFloat(p.StartTime, 'f', -1, 64))
if p.StartTimePrecise {
p.buf.WriteString(",PRECISE=YES")
}
p.buf.WriteRune('\n')
}
if p.DiscontinuitySeq != 0 {
p.buf.WriteString("#EXT-X-DISCONTINUITY-SEQUENCE:")
p.buf.WriteString(strconv.FormatUint(uint64(p.DiscontinuitySeq), 10))
p.buf.WriteRune('\n')
}
if p.Iframe {
p.buf.WriteString("#EXT-X-I-FRAMES-ONLY\n")
}
// Widevine tags
if p.WV != nil {
if p.WV.AudioChannels != 0 {
p.buf.WriteString("#WV-AUDIO-CHANNELS ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.AudioChannels), 10))
p.buf.WriteRune('\n')
}
if p.WV.AudioFormat != 0 {
p.buf.WriteString("#WV-AUDIO-FORMAT ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.AudioFormat), 10))
p.buf.WriteRune('\n')
}
if p.WV.AudioProfileIDC != 0 {
p.buf.WriteString("#WV-AUDIO-PROFILE-IDC ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.AudioProfileIDC), 10))
p.buf.WriteRune('\n')
}
if p.WV.AudioSampleSize != 0 {
p.buf.WriteString("#WV-AUDIO-SAMPLE-SIZE ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.AudioSampleSize), 10))
p.buf.WriteRune('\n')
}
if p.WV.AudioSamplingFrequency != 0 {
p.buf.WriteString("#WV-AUDIO-SAMPLING-FREQUENCY ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.AudioSamplingFrequency), 10))
p.buf.WriteRune('\n')
}
if p.WV.CypherVersion != "" {
p.buf.WriteString("#WV-CYPHER-VERSION ")
p.buf.WriteString(p.WV.CypherVersion)
p.buf.WriteRune('\n')
}
if p.WV.ECM != "" {
p.buf.WriteString("#WV-ECM ")
p.buf.WriteString(p.WV.ECM)
p.buf.WriteRune('\n')
}
if p.WV.VideoFormat != 0 {
p.buf.WriteString("#WV-VIDEO-FORMAT ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.VideoFormat), 10))
p.buf.WriteRune('\n')
}
if p.WV.VideoFrameRate != 0 {
p.buf.WriteString("#WV-VIDEO-FRAME-RATE ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.VideoFrameRate), 10))
p.buf.WriteRune('\n')
}
if p.WV.VideoLevelIDC != 0 {
p.buf.WriteString("#WV-VIDEO-LEVEL-IDC")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.VideoLevelIDC), 10))
p.buf.WriteRune('\n')
}
if p.WV.VideoProfileIDC != 0 {
p.buf.WriteString("#WV-VIDEO-PROFILE-IDC ")
p.buf.WriteString(strconv.FormatUint(uint64(p.WV.VideoProfileIDC), 10))
p.buf.WriteRune('\n')
}
if p.WV.VideoResolution != "" {
p.buf.WriteString("#WV-VIDEO-RESOLUTION ")
p.buf.WriteString(p.WV.VideoResolution)
p.buf.WriteRune('\n')
}
if p.WV.VideoSAR != "" {
p.buf.WriteString("#WV-VIDEO-SAR ")
p.buf.WriteString(p.WV.VideoSAR)
p.buf.WriteRune('\n')
}
}
var (
seg *MediaSegment
durationCache = make(map[float64]string)
)
head := p.head
count := p.count
for i := uint(0); (i < p.winsize || p.winsize == 0) && count > 0; count-- {
seg = p.Segments[head]
head = (head + 1) % p.capacity
if seg == nil { // protection from badly filled chunklists
continue
}
if p.winsize > 0 { // skip for VOD playlists, where winsize = 0
i++
}
if seg.SCTE != nil {
switch seg.SCTE.Syntax {
case SCTE35_67_2014:
p.buf.WriteString("#EXT-SCTE35:")
p.buf.WriteString("CUE=\"")
p.buf.WriteString(seg.SCTE.Cue)
p.buf.WriteRune('"')
if seg.SCTE.ID != "" {
p.buf.WriteString(",ID=\"")
p.buf.WriteString(seg.SCTE.ID)
p.buf.WriteRune('"')
}
if seg.SCTE.Time != 0 {
p.buf.WriteString(",TIME=")
p.buf.WriteString(strconv.FormatFloat(seg.SCTE.Time, 'f', -1, 64))
}
p.buf.WriteRune('\n')
case SCTE35_OATCLS:
switch seg.SCTE.CueType {
case SCTE35Cue_Start:
p.buf.WriteString("#EXT-OATCLS-SCTE35:")
p.buf.WriteString(seg.SCTE.Cue)
p.buf.WriteRune('\n')
p.buf.WriteString("#EXT-X-CUE-OUT:")
p.buf.WriteString(strconv.FormatFloat(seg.SCTE.Time, 'f', -1, 64))
p.buf.WriteRune('\n')
case SCTE35Cue_Mid:
p.buf.WriteString("#EXT-X-CUE-OUT-CONT:")
p.buf.WriteString("ElapsedTime=")
p.buf.WriteString(strconv.FormatFloat(seg.SCTE.Elapsed, 'f', -1, 64))
p.buf.WriteString(",Duration=")
p.buf.WriteString(strconv.FormatFloat(seg.SCTE.Time, 'f', -1, 64))
p.buf.WriteString(",SCTE35=")
p.buf.WriteString(seg.SCTE.Cue)
p.buf.WriteRune('\n')
case SCTE35Cue_End:
p.buf.WriteString("#EXT-X-CUE-IN")
p.buf.WriteRune('\n')
}
}
}
// check for key change
if seg.Key != nil && p.Key != seg.Key {
p.buf.WriteString("#EXT-X-KEY:")
p.buf.WriteString("METHOD=")
p.buf.WriteString(seg.Key.Method)
if seg.Key.Method != "NONE" {
p.buf.WriteString(",URI=\"")
p.buf.WriteString(seg.Key.URI)
p.buf.WriteRune('"')
if seg.Key.IV != "" {
p.buf.WriteString(",IV=")
p.buf.WriteString(seg.Key.IV)
}
if seg.Key.Keyformat != "" {
p.buf.WriteString(",KEYFORMAT=\"")
p.buf.WriteString(seg.Key.Keyformat)
p.buf.WriteRune('"')
}
if seg.Key.Keyformatversions != "" {
p.buf.WriteString(",KEYFORMATVERSIONS=\"")
p.buf.WriteString(seg.Key.Keyformatversions)
p.buf.WriteRune('"')
}
}
p.buf.WriteRune('\n')
}
if seg.Discontinuity {
p.buf.WriteString("#EXT-X-DISCONTINUITY\n")
}
// ignore segment Map if default playlist Map is present
if p.Map == nil && seg.Map != nil {
p.buf.WriteString("#EXT-X-MAP:")
p.buf.WriteString("URI=\"")
p.buf.WriteString(seg.Map.URI)
p.buf.WriteRune('"')
if seg.Map.Limit > 0 {
p.buf.WriteString(",BYTERANGE=")
p.buf.WriteString(strconv.FormatInt(seg.Map.Limit, 10))
p.buf.WriteRune('@')
p.buf.WriteString(strconv.FormatInt(seg.Map.Offset, 10))
}
p.buf.WriteRune('\n')
}
if !seg.ProgramDateTime.IsZero() {
p.buf.WriteString("#EXT-X-PROGRAM-DATE-TIME:")
p.buf.WriteString(seg.ProgramDateTime.Format(DATETIME))
p.buf.WriteRune('\n')
}
if seg.Limit > 0 {
p.buf.WriteString("#EXT-X-BYTERANGE:")
p.buf.WriteString(strconv.FormatInt(seg.Limit, 10))
p.buf.WriteRune('@')
p.buf.WriteString(strconv.FormatInt(seg.Offset, 10))
p.buf.WriteRune('\n')
}
// Add Custom Segment Tags here
if seg.Custom != nil {
for _, v := range seg.Custom {
if customBuf := v.Encode(); customBuf != nil {
p.buf.WriteString(customBuf.String())
p.buf.WriteRune('\n')
}
}
}
p.buf.WriteString("#EXTINF:")
if str, ok := durationCache[seg.Duration]; ok {
p.buf.WriteString(str)
} else {
if p.durationAsInt {
// Old Android players has problems with non integer Duration.
durationCache[seg.Duration] = strconv.FormatInt(int64(math.Ceil(seg.Duration)), 10)
} else {
// Wowza Mediaserver and some others prefer floats.
durationCache[seg.Duration] = strconv.FormatFloat(seg.Duration, 'f', 3, 32)
}
p.buf.WriteString(durationCache[seg.Duration])
}
p.buf.WriteRune(',')
p.buf.WriteString(seg.Title)
p.buf.WriteRune('\n')
p.buf.WriteString(seg.URI)
if p.Args != "" {
p.buf.WriteRune('?')
p.buf.WriteString(p.Args)
}
p.buf.WriteRune('\n')
}
if p.Closed {
p.buf.WriteString("#EXT-X-ENDLIST\n")
}
return &p.buf
}
// String here for compatibility with Stringer interface For example
// fmt.Printf("%s", sampleMediaList) will encode playist and print its
// string representation.
func (p *MediaPlaylist) String() string {
return p.Encode().String()
}
// DurationAsInt represents the duration as the integer in encoded playlist.
func (p *MediaPlaylist) DurationAsInt(yes bool) {
if yes {
// duration must be integers if protocol version is less than 3
version(&p.ver, 3)
}
p.durationAsInt = yes
}
// Count tells us the number of items that are currently in the media
// playlist.
func (p *MediaPlaylist) Count() uint {
return p.count
}
// Close sliding playlist and make them fixed.
func (p *MediaPlaylist) Close() {
if p.buf.Len() > 0 {
p.buf.WriteString("#EXT-X-ENDLIST\n")
}
p.Closed = true
}
// SetDefaultKey sets encryption key appeared once in header of the
// playlist (pointer to MediaPlaylist.Key). It useful when keys not
// changed during playback. Set tag for the whole list.
func (p *MediaPlaylist) SetDefaultKey(method, uri, iv, keyformat, keyformatversions string) error {
// A Media Playlist MUST indicate a EXT-X-VERSION of 5 or higher if it
// contains:
// - The KEYFORMAT and KEYFORMATVERSIONS attributes of the EXT-X-KEY tag.
if keyformat != "" || keyformatversions != "" {
version(&p.ver, 5)
}
p.Key = &Key{method, uri, iv, keyformat, keyformatversions}
return nil
}
// SetDefaultMap sets default Media Initialization Section values for
// playlist (pointer to MediaPlaylist.Map). Set EXT-X-MAP tag for the
// whole playlist.
func (p *MediaPlaylist) SetDefaultMap(uri string, limit, offset int64) {
version(&p.ver, 5) // due section 4
p.Map = &Map{uri, limit, offset}
}
// SetIframeOnly marks medialist as consists of only I-frames (Intra
// frames). Set tag for the whole list.
func (p *MediaPlaylist) SetIframeOnly() {
version(&p.ver, 4) // due section 4.3.3
p.Iframe = true
}
// SetKey sets encryption key for the current segment of media playlist
// (pointer to Segment.Key).
func (p *MediaPlaylist) SetKey(method, uri, iv, keyformat, keyformatversions string) error {
if p.count == 0 {
return errors.New("playlist is empty")
}
// A Media Playlist MUST indicate a EXT-X-VERSION of 5 or higher if it
// contains:
// - The KEYFORMAT and KEYFORMATVERSIONS attributes of the EXT-X-KEY tag.
if keyformat != "" || keyformatversions != "" {
version(&p.ver, 5)
}
p.Segments[p.last()].Key = &Key{method, uri, iv, keyformat, keyformatversions}
return nil
}
// SetMap sets map for the current segment of media playlist (pointer
// to Segment.Map).
func (p *MediaPlaylist) SetMap(uri string, limit, offset int64) error {
if p.count == 0 {
return errors.New("playlist is empty")
}
version(&p.ver, 5) // due section 4
p.Segments[p.last()].Map = &Map{uri, limit, offset}
return nil
}
// SetRange sets limit and offset for the current media segment
// (EXT-X-BYTERANGE support for protocol version 4).
func (p *MediaPlaylist) SetRange(limit, offset int64) error {
if p.count == 0 {
return errors.New("playlist is empty")
}
version(&p.ver, 4) // due section 3.4.1
p.Segments[p.last()].Limit = limit
p.Segments[p.last()].Offset = offset
return nil
}
// SetSCTE sets the SCTE cue format for the current media segment.
//
// Deprecated: Use SetSCTE35 instead.
func (p *MediaPlaylist) SetSCTE(cue string, id string, time float64) error {
return p.SetSCTE35(&SCTE{Syntax: SCTE35_67_2014, Cue: cue, ID: id, Time: time})
}
// SetSCTE35 sets the SCTE cue format for the current media segment
func (p *MediaPlaylist) SetSCTE35(scte35 *SCTE) error {
if p.count == 0 {
return errors.New("playlist is empty")
}
p.Segments[p.last()].SCTE = scte35
return nil
}
// SetDiscontinuity sets discontinuity flag for the current media
// segment. EXT-X-DISCONTINUITY indicates an encoding discontinuity
// between the media segment that follows it and the one that preceded
// it (i.e. file format, number and type of tracks, encoding
// parameters, encoding sequence, timestamp sequence).
func (p *MediaPlaylist) SetDiscontinuity() error {
if p.count == 0 {
return errors.New("playlist is empty")
}
p.Segments[p.last()].Discontinuity = true
return nil
}
// SetProgramDateTime sets program date and time for the current media
// segment. EXT-X-PROGRAM-DATE-TIME tag associates the first sample of
// a media segment with an absolute date and/or time. It applies only
// to the current media segment. Date/time format is
// YYYY-MM-DDThh:mm:ssZ (ISO8601) and includes time zone.
func (p *MediaPlaylist) SetProgramDateTime(value time.Time) error {
if p.count == 0 {
return errors.New("playlist is empty")
}
p.Segments[p.last()].ProgramDateTime = value
return nil
}
// SetCustomTag sets the provided tag on the media playlist for its
// TagName.
func (p *MediaPlaylist) SetCustomTag(tag CustomTag) {
if p.Custom == nil {
p.Custom = make(map[string]CustomTag)
}
p.Custom[tag.TagName()] = tag
}
// SetCustomSegmentTag sets the provided tag on the current media
// segment for its TagName.
func (p *MediaPlaylist) SetCustomSegmentTag(tag CustomTag) error {
if p.count == 0 {
return errors.New("playlist is empty")
}
last := p.Segments[p.last()]
if last.Custom == nil {
last.Custom = make(map[string]CustomTag)
}
last.Custom[tag.TagName()] = tag
return nil
}
// Version returns the current playlist version number
func (p *MediaPlaylist) Version() uint8 {
return p.ver
}
// SetVersion sets the playlist version number, note the version maybe changed
// automatically by other Set methods.
func (p *MediaPlaylist) SetVersion(ver uint8) {
p.ver = ver
}
// WinSize returns the playlist's window size.
func (p *MediaPlaylist) WinSize() uint {
return p.winsize
}
// SetWinSize overwrites the playlist's window size.
func (p *MediaPlaylist) SetWinSize(winsize uint) error {
if winsize > p.capacity {
return errors.New("capacity must be greater than winsize or equal")
}
p.winsize = winsize
return nil
}