func main() {
var m Meter
m.Initialize()
defer portaudio.Terminate()
var FLAGS_list = false
flag.BoolVar(&FLAGS_list, "l", false, "List all devices")
flag.Parse()
if FLAGS_list {
m.LogDevices()
return
}
s := m.OpenStream()
defer s.Close()
select {
// Wait forever.
}
if err := s.Stop(); err != nil {
fmt.Printf("portaudio.Stream.Stop failed: ", err)
return
}
}
func (spotify *Spotify) finishInitialisation(webApiAuth bool, pa *portAudio) error {
if webApiAuth {
if spotify.client = webapi.Auth(); spotify.client != nil {
if privateUser, err := spotify.client.CurrentUser(); err == nil {
if privateUser.ID != spotify.session.LoginUsername() {
return errors.New("Username doesn't match with web-api authorization")
}
} else {
spotify.client = nil
}
}
}
// init audio could happen after initPlaylist but this logs to output therefore
// the screen isn't built properly
portaudio.Initialize()
go pa.player()
defer portaudio.Terminate()
if err := spotify.initPlaylist(); err != nil {
return err
}
spotify.waitForEvents()
return nil
}
func main() {
flag.Parse()
portaudio.Initialize()
defer portaudio.Terminate()
portmidi.Initialize()
defer portmidi.Terminate()
if *doDemo {
if err := demo(); err != nil {
log.Println(err)
}
return
}
http.Handle("/", http.FileServer(http.Dir("static")))
http.HandleFunc("/socket", socket.Handler)
l, err := net.Listen("tcp", *listenAddr)
if err != nil {
log.Fatal(err)
}
go http.Serve(l, nil)
u := fmt.Sprintf("http://%v/", *listenAddr)
if !*doBrowser || !openBrowser(u) {
fmt.Printf("Open your web browser to %v\n\n", u)
}
fmt.Println("Press enter to quit...")
os.Stdin.Read([]byte{0})
}
func main() {
w := &window{voices: map[int]*sineVoice{}}
p := audio.Params{SampleRate: 96000}
audio.Init(w, p)
portaudio.Initialize()
defer portaudio.Terminate()
s, err := portaudio.OpenDefaultStream(0, 1, p.SampleRate, 64, w.processAudio)
if err != nil {
fmt.Println(err)
return
}
if err := s.Start(); err != nil {
fmt.Println(err)
return
}
defer s.Stop()
if err := gui.Run(func() {
gui.NewWindow(w, "beep", func(win *gui.Window) {
w.Window = win
gui.SetKeyFocus(w)
})
}); err != nil {
fmt.Println(err)
}
}
func main() {
portaudio.Initialize()
defer portaudio.Terminate()
hs, err := portaudio.HostApis()
chk(err)
err = tmpl.Execute(os.Stdout, hs)
chk(err)
}
func (a *app) OnTerm() {
if a.pastream != nil {
a.pastream.Stop()
a.pastream.Close()
chk(portaudio.Terminate())
}
a.r.Close()
}
func main() {
portaudio.Initialize()
defer portaudio.Terminate()
s := newStereoSine(256, 320, sampleRate)
defer s.Close()
chk(s.Start())
time.Sleep(2 * time.Second)
chk(s.Stop())
}
func main() {
portaudio.Initialize()
defer portaudio.Terminate()
e := newEcho(time.Second / 3)
defer e.Close()
chk(e.Start())
time.Sleep(4 * time.Second)
chk(e.Stop())
}
// Slightly modified exact copy of the portaudio example
func record(f *os.File, timer <-chan time.Time) {
// form chunk
_, _ = f.WriteString("FORM")
binary.Write(f, binary.BigEndian, int32(0))
_, _ = f.WriteString("AIFF")
// common chunk
_, _ = f.WriteString("COMM")
binary.Write(f, binary.BigEndian, int32(18))
binary.Write(f, binary.BigEndian, int16(1))
binary.Write(f, binary.BigEndian, int32(0))
binary.Write(f, binary.BigEndian, int16(32))
_, _ = f.Write([]byte{0x40, 0x0e, 0xac, 0x44, 0, 0, 0, 0, 0, 0}) //80-bit sample rate 44100
// sound chunk
_, _ = f.WriteString("SSND")
binary.Write(f, binary.BigEndian, int32(0))
binary.Write(f, binary.BigEndian, int32(0))
binary.Write(f, binary.BigEndian, int32(0))
nSamples := 0
defer func() {
// fill in missing sizes
totalBytes := 4 + 8 + 18 + 8 + 8 + 4*nSamples
_, _ = f.Seek(4, 0)
binary.Write(f, binary.BigEndian, int32(totalBytes))
_, _ = f.Seek(22, 0)
binary.Write(f, binary.BigEndian, int32(nSamples))
_, _ = f.Seek(42, 0)
binary.Write(f, binary.BigEndian, int32(4*nSamples+8))
f.Close()
}()
portaudio.Initialize()
defer portaudio.Terminate()
in := make([]int32, 64)
stream, _ := portaudio.OpenDefaultStream(1, 0, 44100, len(in), in)
defer stream.Close()
stream.Start()
defer stream.Stop()
for {
stream.Read()
binary.Write(f, binary.BigEndian, in)
nSamples += len(in)
select {
case <-timer:
return
default:
}
}
}
func (spotify *Spotify) finishInitialisation(pa *portAudio) error {
// init audio could happen after initPlaylist but this logs to output therefore
// the screen isn't built properly
portaudio.Initialize()
go pa.player()
defer portaudio.Terminate()
if err := spotify.initPlaylist(); err != nil {
return err
}
spotify.waitForEvents()
return nil
}
func main() {
portaudio.Initialize()
defer portaudio.Terminate()
h, err := portaudio.DefaultHostApi()
chk(err)
stream, err := portaudio.OpenStream(portaudio.HighLatencyParameters(nil, h.DefaultOutputDevice), func(out []int32) {
for i := range out {
out[i] = int32(rand.Uint32())
}
})
chk(err)
defer stream.Close()
chk(stream.Start())
time.Sleep(time.Second)
chk(stream.Stop())
}
func main() {
flag.Parse()
if *random {
*seed = time.Now().UnixNano()
fmt.Println("seed =", *seed)
}
if *seed != math.MinInt64 {
*random = true
}
rand.Seed(*seed)
portaudio.Initialize()
defer portaudio.Terminate()
p := audio.Params{SampleRate: 48000}
m := audio.MultiVoice{}
audio.Init(&m, p)
// for _, x := range [][2]float64{{1, 1}, {2, 1}, {3, 1}, {4, 1}, {5, 1}, {3, 2}, {4, 3}, {5, 4}, {7, 4}, {6, 5}, {7, 5}, {8, 5}, {9, 5}} {
for xy := 1; xy <= 60; xy++ {
for x := 2; x <= int(math.Sqrt(float64(xy))); x++ {
if y := xy / x; x*y == xy && relPrime(x, y) {
x, y, xy := float64(x), float64(y), float64(xy)
c := math.Exp(-xy * math.Log2(y/x) / 12)
f := y / x
phase := 0.0
if *random {
phase = rand.Float64()
}
m.Add(newSineBeat(.5*c, 128*f, 1/xy, phase, .1/f))
}
}
}
s, err := portaudio.OpenDefaultStream(0, 1, p.SampleRate, 512, func(out []float32) {
for i := range out {
out[i] = float32(audio.Saturate(m.Sing()))
}
})
if err != nil {
panic(err)
}
s.Start()
fmt.Println("Press Enter to stop.")
fmt.Scanln()
s.Stop()
}
func init() {
portaudio.Initialize()
go func() {
defer os.Exit(0)
sig := make(chan os.Signal, 1)
signal.Notify(sig)
if <-sig == syscall.SIGQUIT {
buf := make([]byte, 1<<10)
for runtime.Stack(buf, true) == len(buf) {
buf = make([]byte, 2*len(buf))
}
fmt.Fprintln(os.Stderr, string(buf))
}
for _, c := range playControls {
c.Stop()
<-c.Done
}
portaudio.Terminate()
}()
}
func (self *Server) Start() error {
portaudio.Initialize()
defer portaudio.Terminate()
var err error
if err = self.startAudio(); err != nil {
return err
}
if err = self.startSerial(); err != nil {
return err
}
if err = self.startHttp(); err != nil {
return err
}
return nil
}
func Run(paths []string) {
// initialize audio
portaudio.Initialize()
defer portaudio.Terminate()
audio := NewAudio()
if err := audio.Start(); err != nil {
log.Fatalln(err)
}
defer audio.Stop()
// initialize glfw
if err := glfw.Init(); err != nil {
log.Fatalln(err)
}
defer glfw.Terminate()
// create window
glfw.WindowHint(glfw.ContextVersionMajor, 2)
glfw.WindowHint(glfw.ContextVersionMinor, 1)
window, err := glfw.CreateWindow(width*scale, height*scale, title, nil, nil)
if err != nil {
log.Fatalln(err)
}
window.MakeContextCurrent()
// initialize gl
if err := gl.Init(); err != nil {
log.Fatalln(err)
}
gl.Enable(gl.TEXTURE_2D)
// run director
director := NewDirector(window, audio)
director.Start(paths)
}
func main() {
if len(os.Args) < 2 {
fmt.Println("missing required argument: output file name")
return
}
fmt.Println("Recording. Press Ctrl-C to stop.")
sig := make(chan os.Signal, 1)
signal.Notify(sig, os.Interrupt, os.Kill)
fileName := os.Args[1]
if !strings.HasSuffix(fileName, ".aiff") {
fileName += ".aiff"
}
f, err := os.Create(fileName)
chk(err)
// form chunk
_, err = f.WriteString("FORM")
chk(err)
chk(binary.Write(f, binary.BigEndian, int32(0))) //total bytes
_, err = f.WriteString("AIFF")
chk(err)
// common chunk
_, err = f.WriteString("COMM")
chk(err)
chk(binary.Write(f, binary.BigEndian, int32(18))) //size
chk(binary.Write(f, binary.BigEndian, int16(1))) //channels
chk(binary.Write(f, binary.BigEndian, int32(0))) //number of samples
chk(binary.Write(f, binary.BigEndian, int16(32))) //bits per sample
_, err = f.Write([]byte{0x40, 0x0e, 0xac, 0x44, 0, 0, 0, 0, 0, 0}) //80-bit sample rate 44100
chk(err)
// sound chunk
_, err = f.WriteString("SSND")
chk(err)
chk(binary.Write(f, binary.BigEndian, int32(0))) //size
chk(binary.Write(f, binary.BigEndian, int32(0))) //offset
chk(binary.Write(f, binary.BigEndian, int32(0))) //block
nSamples := 0
defer func() {
// fill in missing sizes
totalBytes := 4 + 8 + 18 + 8 + 8 + 4*nSamples
_, err = f.Seek(4, 0)
chk(err)
chk(binary.Write(f, binary.BigEndian, int32(totalBytes)))
_, err = f.Seek(22, 0)
chk(err)
chk(binary.Write(f, binary.BigEndian, int32(nSamples)))
_, err = f.Seek(42, 0)
chk(err)
chk(binary.Write(f, binary.BigEndian, int32(4*nSamples+8)))
chk(f.Close())
}()
portaudio.Initialize()
defer portaudio.Terminate()
in := make([]int32, 64)
stream, err := portaudio.OpenDefaultStream(1, 0, 44100, len(in), in)
chk(err)
defer stream.Close()
chk(stream.Start())
for {
chk(stream.Read())
chk(binary.Write(f, binary.BigEndian, in))
nSamples += len(in)
select {
case <-sig:
return
default:
}
}
chk(stream.Stop())
}
func main() {
if len(os.Args) < 2 {
fmt.Println("missing required argument: input file name")
return
}
fmt.Println("Playing. Press Ctrl-C to stop.")
sig := make(chan os.Signal, 1)
signal.Notify(sig, os.Interrupt, os.Kill)
fileName := os.Args[1]
f, err := os.Open(fileName)
chk(err)
defer f.Close()
id, data, err := readChunk(f)
chk(err)
if id.String() != "FORM" {
fmt.Println("bad file format")
return
}
_, err = data.Read(id[:])
chk(err)
if id.String() != "AIFF" {
fmt.Println("bad file format")
return
}
var c commonChunk
var audio io.Reader
for {
id, chunk, err := readChunk(data)
if err == io.EOF {
break
}
chk(err)
switch id.String() {
case "COMM":
chk(binary.Read(chunk, binary.BigEndian, &c))
case "SSND":
chunk.Seek(8, 1) //ignore offset and block
audio = chunk
default:
fmt.Printf("ignoring unknown chunk '%s'\n", id)
}
}
//assume 44100 sample rate, mono, 32 bit
portaudio.Initialize()
defer portaudio.Terminate()
out := make([]int32, 8192)
stream, err := portaudio.OpenDefaultStream(0, 1, 44100, len(out), &out)
chk(err)
defer stream.Close()
chk(stream.Start())
defer stream.Stop()
for remaining := int(c.NumSamples); remaining > 0; remaining -= len(out) {
if len(out) > remaining {
out = out[:remaining]
}
err := binary.Read(audio, binary.BigEndian, out)
if err == io.EOF {
break
}
chk(err)
chk(stream.Write())
select {
case <-sig:
return
default:
}
}
}
func main() {
if len(os.Args) < 2 {
fmt.Println("Usage:", os.Args[0], "hostname:port [buffer-duration]")
os.Exit(1)
return
}
portaudio.Initialize()
defer portaudio.Terminate()
addr := os.Args[1]
bufferStr := "100ms"
if len(os.Args) > 2 {
bufferStr = os.Args[2]
}
bufferLen, err := time.ParseDuration(bufferStr)
if err != nil {
fmt.Printf("Invalid buffer length: %v\n", err)
return
}
conn, err := net.Dial("tcp", addr)
if err != nil {
fmt.Println("Error connecting to server:", err)
return
}
defer conn.Close()
buf := make([]byte, 8)
_, err = io.ReadFull(conn, buf)
if err != nil {
fmt.Println("Error reading headers:", err)
return
}
if buf[0] != 'R' {
fmt.Printf("Invalid header start: %x\n", buf[0])
return
} else if buf[1] == 0 {
fmt.Println("Server is full")
return
} else if buf[1] != 1 {
fmt.Printf("Unsupported protocol version: %d\n", buf[1])
return
}
flags := buf[2]
if flags&rawstreamer.EncodingLittleEndian != 0 {
Endianness = binary.LittleEndian
} else if flags&rawstreamer.EncodingBigEndian != 0 {
Endianness = binary.BigEndian
} else {
fmt.Println("Encoding endianness not specified!")
return
}
encoding := flags & rawstreamer.EncodingMask
numBytes := int(buf[3])
bits := numBytes * 8
if numBytes < 1 || numBytes > 4 {
fmt.Printf("Unsupported number of bits: %d\n", bits)
return
}
if encoding == rawstreamer.EncodingFloatingPoint {
numBytes = 4
bits = 32
}
sampleRate := Endianness.Uint32(buf[4:])
fmt.Printf("Streaming info: %dHz, ", sampleRate)
fmt.Printf("%dbit %s, ", bits, rawstreamer.EncodingString[encoding])
fmt.Printf("%s, %v buffer\n", Endianness.String(), bufferLen)
bufferSize := sampleRate / 50 // 20ms buffer size
Buffers = []chan float32{
make(chan float32, getChannelBufferSize(bufferLen, bufferSize, sampleRate)),
make(chan float32, getChannelBufferSize(bufferLen, bufferSize, sampleRate)),
}
Buffering = int32(getChannelBufferSize(bufferLen, bufferSize, sampleRate))
LastLeft = 0
LastRight = 0
printStatus()
Stream, err = portaudio.OpenDefaultStream(0, 2, float64(sampleRate), int(bufferSize), processAudio)
defer Stream.Close()
err = Stream.Start()
if err != nil {
fmt.Println("Failed to start stream:", err)
return
}
defer func() {
Stream.Stop()
close(Buffers[0])
close(Buffers[1])
}()
buf = make([]byte, int(bufferSize)*numBytes*2)
align := 8 % (numBytes * 2)
if align > 0 {
// Read in the extra padding
_, err = io.ReadFull(conn, buf[:(numBytes*2)-align])
if err != nil {
fmt.Println("Error reading headers:", err)
return
}
}
var lastData time.Time
remainder := 0
for {
n := 0
conn.SetReadDeadline(time.Now().Add(2 * time.Minute))
n, err = io.ReadAtLeast(conn, buf[remainder:], numBytes*2-remainder)
if err != nil {
fmt.Println("Error reading stream:", err)
return
}
n += remainder
remainder = n % (numBytes * 2)
for i := 0; i < (n - remainder); i += numBytes * 2 {
BufferingSync.Lock()
left := rawstreamer.ReadFloat32(buf[i:i+numBytes], flags, Endianness)
right := rawstreamer.ReadFloat32(buf[i+numBytes:i+numBytes*2], flags, Endianness)
if left != 0 || right != 0 {
lastData = time.Now()
Buffers[0] <- left
Buffers[1] <- right
} else if time.Since(lastData) < 1*time.Minute {
Buffers[0] <- left
Buffers[1] <- right
}
if atomic.LoadInt32(&Buffering) > 0 && time.Since(lastData) < 1*time.Minute {
atomic.AddInt32(&Buffering, -1)
}
BufferingSync.Unlock()
}
copy(buf, buf[n-remainder:n])
}
}
// Init starts the audio system, loads sound assets, and starts the sound loop.
func Init() error {
if err := portaudio.Initialize(); err != nil {
return err
}
log.Printf("PortAudio version: %d %s", portaudio.Version(), portaudio.VersionText())
var err error
makeBuffer := func(name string) []int16 {
if err != nil {
return nil
}
var r io.Reader
if r, err = asset.Reader(name); err != nil {
return nil
}
var w *wav
if w, err = decodeWAV(r); err != nil {
return nil
}
log.Printf("%s: %+v", name, w)
buf := make([]int16, len(w.data)/2)
for i := 0; i < len(buf); i++ {
buf[i] = int16(w.data[i*2])
buf[i] += int16(w.data[i*2+1]) << 8
}
return buf
}
var soundBuffers [][]int16
for _, a := range soundAssets {
soundBuffers = append(soundBuffers, makeBuffer(a))
}
if err != nil {
return err
}
soundQueue := make(chan Sound, soundQueueSize)
Play = func(s Sound) {
soundQueue <- s
}
done := make(chan bool)
Terminate = func() {
done <- true
<-done
close(done)
logFatalIfErr("portaudio.Terminate", portaudio.Terminate())
}
go func() {
const (
numInputChannels = 0 /* zero input - no recording */
numOutputChannels = 2 /* stereo output */
sampleRate = 44100 /* samples per second */
intervalMs = 100
framesPerBuffer = sampleRate / 1000.0 * intervalMs /* len(buf) == numChannels * framesPerBuffer */
outputBufferSize = numOutputChannels * framesPerBuffer
)
// Temporary buffers to read and write the next audio batch.
tmpIn := make([]int16, outputBufferSize)
tmpOut := make([]int16, outputBufferSize)
// outputRingBuffer is a buffer that the PortAudio callback will read data from,
// and that we will periodically wake up to write new data to.
outputRingBuffer := newRingBuffer(outputBufferSize * 10)
// process is the callback that PortAudio will call when it needs audio data.
process := func(out []int16) {
outputRingBuffer.pop(tmpIn)
for i := 0; i < len(out); i++ {
out[i] = tmpIn[i]
}
}
stream, err := portaudio.OpenDefaultStream(numInputChannels, numOutputChannels, sampleRate, framesPerBuffer, process)
logFatalIfErr("portaudio.OpenDefaultStream", err)
defer func() {
logFatalIfErr("stream.Close", stream.Close())
}()
logFatalIfErr("stream.Start()", stream.Start())
defer func() {
// stream.Stop blocks until all samples have been played.
logFatalIfErr("stream.Stop", stream.Stop())
done <- true
}()
var active [][]int16
quit := false
loop:
for {
select {
case <-time.After(intervalMs * time.Millisecond):
// Play whatever sounds are in the queue at the time.
n := len(soundQueue)
for i := 0; i < n; i++ {
active = append(active, soundBuffers[<-soundQueue])
}
// Fill temporary buffer with any active sounds buffers.
for i := 0; i < len(tmpOut); i++ {
// Combine active signals together.
var v int16
for j := 0; j < len(active); j++ {
// Remove any buffers if they have no more samples.
if len(active[j]) == 0 {
active = append(active[:j], active[j+1:]...)
j--
continue
}
v += active[j][0]
active[j] = active[j][1:]
}
tmpOut[i] = v
}
outputRingBuffer.push(tmpOut...)
// Only quit waking until there are no more streams to play.
if quit && len(active) == 0 {
break loop
}
case <-done:
close(soundQueue) // Prevent any new sounds from being scheduled.
quit = true
}
}
}()
return nil
}
func Run() {
chk(LoadUgen("./inst/spread.so", "spread"))
chk(LoadUgen("./inst/reverb.so", "reverb"))
chk(LoadUgen("./inst/lead2.so", "midi"))
chk(LoadUgen("./inst/lead.so", "lead"))
chk(LoadUgen("./inst/bass.so", "bass"))
chk(LoadUgen("./inst/snare.so", "snare"))
chk(LoadUgen("./inst/lopass.so", "lopass"))
shouldRecord := flag.Bool("record", false, "whether to record")
addr := flag.String("addr", "localhost:8080", "http service address")
flag.Parse()
portaudio.Initialize()
defer portaudio.Terminate()
if *shouldRecord {
var err error
f, err = os.Create("/tmp/recording.f32")
// # to play:
// $ play -x -r 44100 -c 1 /tmp/recording.f32
// # to convert to wav:
// $ sox -x -r 44100 -c 1 /tmp/recording.f32 recording.wav
chk(err)
}
s, err := openStream(processAudio)
fmt.Println("%+v\n", s.Info())
chk(err)
defer s.Close()
if true {
service.Initialize(*addr, cmdHandle)
}
if true {
client, err := coremidi.NewClient("midi client")
chk(err)
port, err := coremidi.NewInputPort(client, "test",
func(source coremidi.Source, event []byte) {
handleMidiEvent(event, bleeps)
})
chk(err)
sources, err := coremidi.AllSources()
chk(err)
for _, source := range sources {
// func(source coremidi.Source) {
fmt.Printf("Listening to midi source %s [%s]\n", source.Name(), source.Manufacturer())
port.Connect(source)
// }(source)
}
}
filterOn("reverb", 80.0, []*float64{getBus(0)})
filterOn("lopass", 90.0, []*float64{getBus(0), &resFreq, &Q})
filterOn("spread", 100.0, []*float64{getBus(0), getBus(1)})
go func() {
for {
fmt.Printf("inner loop taking avg ~%f samples\n", inner.Seconds()*sampleRate/float64(innerCount))
inner = 0
innerCount = 0
time.Sleep(1 * time.Second)
}
}()
chk(s.Start())
select {}
defer chk(s.Stop())
}
func Play(x audio.Voice) {
var v int
var v2 *audio.Params
var v3 interface{}
var v4 *portaudio.Stream
var v5 *portaudio.Stream
var v6 chan struct{}
var v7 chan struct{}
var v8 interface{}
var v9 float64
var v10 float64
var v11 int
var v12 audio.Voice
var v13 int
v12 = x
v8 = x
portaudio.Initialize() //;0
defer portaudio.Terminate() //0;
var v14 int
x2 := make(chan struct{}, v14)
v6 = x2
v7 = x2
const x3 = 96000
v9 = x3
v10 = x3
const x4 = 64
v13 = x4
v = x4
x5 := &audio.Params{SampleRate: v10, BufferSize: v13}
v2 = x5
v2.Set(v8) //;1
const x6 = 1
v11 = x6
x7 := func(in [][]float32, out [][]float32) {
var v15 []float32
var v16 [][]float32
var v17 bool
var v18 audio.Audio
v16 = out
x8, done := v12.Sing()
v18 = x8
v17 = done
var v19 int
x9 := &v16[v19]
v15 = *x9
for k := range v18 {
var v20 = &v18[k]
var v21 int
var v22 float64
var v23 float32
v21 = k
v22 = *v20
x10 := (float32)(v22)
v23 = x10
v15[v21] = v23
}
if v17 {
var v24 struct{}
select {
case v7 <- v24:
default:
}
}
}
v3 = x7
var v25 int
x11, _ := portaudio.OpenDefaultStream(v25, v11, v9, v, v3) //0;
v4 = x11
v5 = x11
v4.Start() //1;2
<-v6 //2;3
v5.Stop() //3;
}
//Creates a new engine and populates it with the core functions
func LoadAudio(e *Engine) *Engine {
e = add(e, "portaudio.init", NewCode("portaudio.init", 0, func(e *Engine, c *Thingy) *Engine {
portaudio.Initialize()
return e
}))
e = add(e, "portaudio.terminate", NewCode("portaudio.terminate", 0, func(e *Engine, c *Thingy) *Engine {
defer portaudio.Terminate()
return e
}))
e = add(e, "portaudio.setData", NewCode("setData", 3, func(ne *Engine, c *Thingy) *Engine {
var posString, buffWrap, valString *Thingy
posString, ne.dataStack = popStack(ne.dataStack)
valString, ne.dataStack = popStack(ne.dataStack)
buffWrap, ne.dataStack = popStack(ne.dataStack)
var pos, _ = strconv.ParseInt(posString.getSource(), 10, 32)
var val, _ = strconv.ParseFloat(valString.getSource(), 32)
out := buffWrap._structVal.([][]float32)
out[0][pos] = float32(val)
return ne
}))
e = add(e, "portaudio.start", NewCode("portaudio.start", -1, func(e *Engine, c *Thingy) *Engine {
//AudioCallbackState = e.RunString("CLEARSTACK", "setup audio callback")
AudioCallbackState = e
stream, err := portaudio.OpenDefaultStream(0, 2, sampleRate, 0, processAudio)
chk(err)
stream.Start()
chk(err)
e.dataStack = pushStack(e.dataStack, NewWrapper(stream))
chk(err)
return e
}))
e = add(e, "portaudio.HostApis", NewCode("portaudio.HostApis", 0, func(e *Engine, c *Thingy) *Engine {
var tmpl = template.Must(template.New("").Parse(
`[ {{range .}}
H[
Name [ {{.Name}} ]
{{if .DefaultInputDevice}}DefaultInput [ {{.DefaultInputDevice.Name}} ] {{end}}
{{if .DefaultOutputDevice}}DefaultOutput [ {{.DefaultOutputDevice.Name}} ] {{end}}
Devices [ {{range .Devices}}
H[
Name [ {{.Name}} ]
MaxInputChannels [ {{.MaxInputChannels}} ]
MaxOutputChannels [ {{.MaxOutputChannels}} ]
DefaultLowInputLatency [ {{.DefaultLowInputLatency}} ]
DefaultLowOutputLatency [ {{.DefaultLowOutputLatency}} ]
DefaultHighInputLatency [ {{.DefaultHighInputLatency}} ]
DefaultHighOutputLatency [ {{.DefaultHighOutputLatency}} ]
DefaultSampleRate [ {{.DefaultSampleRate}} ]
]H
{{end}}
]
]H
{{end}}
]`,
))
var b bytes.Buffer
hs, err := portaudio.HostApis()
chk(err)
err = tmpl.Execute(&b, hs)
chk(err)
s := b.String()
fmt.Println(s)
return e
}))
return e
}