ebiten/audio/player.go

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// Copyright 2021 The Ebiten Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package audio
import (
"io"
"runtime"
"sync"
"time"
)
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// player is almost the same as the interface oto.Player.
// This is defined in order to remove the dependency on Oto from this file.
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type player interface {
Pause()
Play()
IsPlaying() bool
Volume() float64
SetVolume(volume float64)
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BufferedSize() int
Err() error
SetBufferSize(bufferSize int)
io.Seeker
io.Closer
}
type context interface {
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NewPlayer(io.Reader) player
Suspend() error
Resume() error
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Err() error
}
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type playerFactory struct {
context context
sampleRate int
m sync.Mutex
}
var driverForTesting context
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func newPlayerFactory(sampleRate int) *playerFactory {
f := &playerFactory{
sampleRate: sampleRate,
}
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if driverForTesting != nil {
f.context = driverForTesting
}
return f
}
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type playerImpl struct {
context *Context
player player
src io.Reader
stream *timeStream
factory *playerFactory
initBufferSize int
// adjustedPosition is the player's more accurate position.
// The underlying buffer might not be changed even if the player is playing.
// adjustedPosition is adjusted by the time duration during the player position doesn't change while its playing.
adjustedPosition time.Duration
// lastSamples is the last value of the number of samples.
// When lastSamples is a negative number, this value is not initialized yet.
lastSamples int64
// stopwatch is a stopwatch to measure the time duration during the player position doesn't change while its playing.
stopwatch stopwatch
m sync.Mutex
}
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func (f *playerFactory) newPlayer(context *Context, src io.Reader) (*playerImpl, error) {
f.m.Lock()
defer f.m.Unlock()
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p := &playerImpl{
src: src,
context: context,
factory: f,
lastSamples: -1,
}
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runtime.SetFinalizer(p, (*playerImpl).Close)
return p, nil
}
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func (f *playerFactory) suspend() error {
f.m.Lock()
defer f.m.Unlock()
if f.context == nil {
return nil
}
return f.context.Suspend()
}
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func (f *playerFactory) resume() error {
f.m.Lock()
defer f.m.Unlock()
if f.context == nil {
return nil
}
return f.context.Resume()
}
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func (f *playerFactory) error() error {
f.m.Lock()
defer f.m.Unlock()
if f.context == nil {
return nil
}
return f.context.Err()
}
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func (f *playerFactory) initContextIfNeeded() (<-chan struct{}, error) {
f.m.Lock()
defer f.m.Unlock()
if f.context != nil {
return nil, nil
}
c, ready, err := newContext(f.sampleRate)
if err != nil {
return nil, err
}
f.context = c
return ready, nil
}
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func (p *playerImpl) ensurePlayer() error {
// Initialize the underlying player lazily to enable calling NewContext in an 'init' function.
// Accessing the underlying player functions requires the environment to be already initialized,
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// but if Ebitengine is used for a shared library, the timing when init functions are called
// is unexpectable.
// e.g. a variable for JVM on Android might not be set.
ready, err := p.factory.initContextIfNeeded()
if err != nil {
return err
}
if ready != nil {
go func() {
<-ready
p.context.setReady()
}()
}
if p.stream == nil {
s, err := newTimeStream(p.src, p.factory.sampleRate)
if err != nil {
return err
}
p.stream = s
}
if p.player == nil {
p.player = p.factory.context.NewPlayer(p.stream)
if p.initBufferSize != 0 {
p.player.SetBufferSize(p.initBufferSize)
p.initBufferSize = 0
}
}
return nil
}
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func (p *playerImpl) Play() {
p.m.Lock()
defer p.m.Unlock()
if err := p.ensurePlayer(); err != nil {
p.context.setError(err)
return
}
if p.player.IsPlaying() {
return
}
p.player.Play()
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p.context.addPlayingPlayer(p)
p.stopwatch.start()
}
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func (p *playerImpl) Pause() {
p.m.Lock()
defer p.m.Unlock()
if p.player == nil {
return
}
if !p.player.IsPlaying() {
return
}
p.player.Pause()
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p.context.removePlayingPlayer(p)
p.stopwatch.stop()
}
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func (p *playerImpl) IsPlaying() bool {
p.m.Lock()
defer p.m.Unlock()
return p.isPlaying()
}
func (p *playerImpl) isPlaying() bool {
if p.player == nil {
return false
}
return p.player.IsPlaying()
}
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func (p *playerImpl) Volume() float64 {
p.m.Lock()
defer p.m.Unlock()
if err := p.ensurePlayer(); err != nil {
p.context.setError(err)
return 0
}
return p.player.Volume()
}
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func (p *playerImpl) SetVolume(volume float64) {
p.m.Lock()
defer p.m.Unlock()
if err := p.ensurePlayer(); err != nil {
p.context.setError(err)
return
}
p.player.SetVolume(volume)
}
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func (p *playerImpl) Close() error {
p.m.Lock()
defer p.m.Unlock()
runtime.SetFinalizer(p, nil)
if p.player != nil {
defer func() {
p.player = nil
}()
p.player.Pause()
p.stopwatch.stop()
return p.player.Close()
}
return nil
}
func (p *playerImpl) Position() time.Duration {
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p.m.Lock()
defer p.m.Unlock()
return p.adjustedPosition
}
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func (p *playerImpl) Rewind() error {
return p.SetPosition(0)
}
func (p *playerImpl) SetPosition(offset time.Duration) error {
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p.m.Lock()
defer p.m.Unlock()
if offset == 0 && p.player == nil {
p.adjustedPosition = 0
return nil
}
if err := p.ensurePlayer(); err != nil {
return err
}
pos := p.stream.timeDurationToPos(offset)
if _, err := p.player.Seek(pos, io.SeekStart); err != nil {
return err
}
p.lastSamples = -1
// Just after setting a position, the buffer size should be 0 as no data is sent.
p.adjustedPosition = p.stream.positionInTimeDuration()
p.stopwatch.reset()
if p.isPlaying() {
p.stopwatch.start()
}
return nil
}
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func (p *playerImpl) Err() error {
p.m.Lock()
defer p.m.Unlock()
if p.player == nil {
return nil
}
return p.player.Err()
}
func (p *playerImpl) SetBufferSize(bufferSize time.Duration) {
p.m.Lock()
defer p.m.Unlock()
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bufferSizeInBytes := int(bufferSize * bytesPerSampleInt16 * time.Duration(p.factory.sampleRate) / time.Second)
bufferSizeInBytes = bufferSizeInBytes / bytesPerSampleInt16 * bytesPerSampleInt16
if p.player == nil {
p.initBufferSize = bufferSizeInBytes
return
}
p.player.SetBufferSize(bufferSizeInBytes)
}
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func (p *playerImpl) source() io.Reader {
return p.src
}
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func (p *playerImpl) onContextSuspended() {
p.m.Lock()
defer p.m.Unlock()
if p.player == nil {
return
}
p.stopwatch.stop()
}
func (p *playerImpl) onContextResumed() {
p.m.Lock()
defer p.m.Unlock()
if p.player == nil {
return
}
if p.isPlaying() {
p.stopwatch.start()
}
}
func (p *playerImpl) updatePosition() {
p.m.Lock()
defer p.m.Unlock()
if p.player == nil {
p.adjustedPosition = 0
return
}
if !p.context.IsReady() {
p.adjustedPosition = 0
return
}
samples := (p.stream.position() - int64(p.player.BufferedSize())) / bytesPerSampleInt16
var adjustingTime time.Duration
if p.lastSamples >= 0 && p.lastSamples == samples {
// If the number of samples is not changed from the last tick,
// the underlying buffer is not updated yet. Adjust the position by the time (#2901).
adjustingTime = p.stopwatch.current()
} else {
p.lastSamples = samples
p.stopwatch.reset()
if p.isPlaying() {
p.stopwatch.start()
}
}
// Update the adjusted position every tick. This is necessary to keep the position accurate.
p.adjustedPosition = time.Duration(samples)*time.Second/time.Duration(p.factory.sampleRate) + adjustingTime
}
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type timeStream struct {
r io.Reader
sampleRate int
pos int64
// m is a mutex for this stream.
// All the exported functions are protected by this mutex as Read can be read from a different goroutine than Seek.
m sync.Mutex
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}
func newTimeStream(r io.Reader, sampleRate int) (*timeStream, error) {
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s := &timeStream{
r: r,
sampleRate: sampleRate,
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}
if seeker, ok := s.r.(io.Seeker); ok {
// Get the current position of the source.
pos, err := seeker.Seek(0, io.SeekCurrent)
if err != nil {
return nil, err
}
s.pos = pos
}
return s, nil
}
func (s *timeStream) Read(buf []byte) (int, error) {
s.m.Lock()
defer s.m.Unlock()
n, err := s.r.Read(buf)
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s.pos += int64(n)
return n, err
}
func (s *timeStream) Seek(offset int64, whence int) (int64, error) {
s.m.Lock()
defer s.m.Unlock()
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seeker, ok := s.r.(io.Seeker)
if !ok {
// TODO: Should this return an error?
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panic("audio: the source must be io.Seeker when seeking but not")
}
pos, err := seeker.Seek(offset, whence)
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if err != nil {
return pos, err
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}
s.pos = pos
return pos, nil
}
func (s *timeStream) timeDurationToPos(offset time.Duration) int64 {
s.m.Lock()
defer s.m.Unlock()
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o := int64(offset) * bytesPerSampleInt16 * int64(s.sampleRate) / int64(time.Second)
// Align the byte position with the samples.
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o -= o % bytesPerSampleInt16
o += s.pos % bytesPerSampleInt16
return o
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}
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func (s *timeStream) position() int64 {
s.m.Lock()
defer s.m.Unlock()
return s.pos
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}
func (s *timeStream) positionInTimeDuration() time.Duration {
s.m.Lock()
defer s.m.Unlock()
return time.Duration(s.pos) * time.Second / (time.Duration(s.sampleRate) * bytesPerSampleInt16)
}