package offline import ( "context" "encoding/binary" "fmt" "math" "path/filepath" "time" "github.com/jan/fm-rds-tx/internal/audio" cfgpkg "github.com/jan/fm-rds-tx/internal/config" "github.com/jan/fm-rds-tx/internal/mpx" "github.com/jan/fm-rds-tx/internal/output" "github.com/jan/fm-rds-tx/internal/rds" "github.com/jan/fm-rds-tx/internal/stereo" ) type frameSource interface { NextFrame() audio.Frame } type Generator struct { cfg cfgpkg.Config } func NewGenerator(cfg cfgpkg.Config) *Generator { return &Generator{cfg: cfg} } func (g *Generator) sourceFor(sampleRate float64) frameSource { if g.cfg.Audio.InputPath != "" { if src, err := audio.LoadWAVSource(g.cfg.Audio.InputPath); err == nil { return audio.NewResampledSource(src, sampleRate) } } return audio.NewConfiguredToneSource(sampleRate, g.cfg.Audio.ToneLeftHz, g.cfg.Audio.ToneRightHz, g.cfg.Audio.ToneAmplitude) } func (g *Generator) GenerateFrame(duration time.Duration) *output.CompositeFrame { sampleRate := float64(g.cfg.FM.CompositeRateHz) if sampleRate <= 0 { sampleRate = 228000 } samples := int(duration.Seconds() * sampleRate) if samples <= 0 { samples = int(sampleRate / 10) } frame := &output.CompositeFrame{ Samples: make([]output.IQSample, samples), SampleRateHz: sampleRate, Timestamp: time.Now().UTC(), Sequence: 1, } stereoEncoder := stereo.NewStereoEncoder(sampleRate) combiner := mpx.NewDefaultCombiner() combiner.PilotGain = g.cfg.FM.PilotLevel combiner.RDSGain = g.cfg.FM.RDSInjection rdsEnc, _ := rds.NewEncoder(rds.RDSConfig{ PI: 0x1234, PS: g.cfg.RDS.PS, RT: g.cfg.RDS.RadioText, PTY: uint8(g.cfg.RDS.PTY), SampleRate: sampleRate, }) rdsSamples := rdsEnc.Generate(samples) source := g.sourceFor(sampleRate) for i := 0; i < samples; i++ { t := float64(i) / sampleRate in := source.NextFrame() comps := stereoEncoder.Encode(in) stereoDSB := comps.Stereo * math.Sin(2*math.Pi*38000.0*t) rdsValue := 0.0 if g.cfg.RDS.Enabled && i < len(rdsSamples) { rdsValue = rdsSamples[i] } composite := combiner.Combine(comps.Mono, stereoDSB, comps.Pilot, rdsValue) * g.cfg.FM.OutputDrive frame.Samples[i] = output.IQSample{I: float32(composite), Q: 0} } return frame } func (g *Generator) WriteFile(path string, duration time.Duration) error { if path == "" { path = g.cfg.Backend.OutputPath } if path == "" { path = filepath.Join("build", "offline", "composite.iqf32") } backend, err := output.NewFileBackend(path, binary.LittleEndian, output.BackendInfo{ Name: "offline-file", Description: "offline composite file backend", }) if err != nil { return err } defer backend.Close(context.Background()) if err := backend.Configure(context.Background(), output.BackendConfig{ SampleRateHz: float64(g.cfg.FM.CompositeRateHz), Channels: 2, IQLevel: float32(g.cfg.FM.OutputDrive), }); err != nil { return err } frame := g.GenerateFrame(duration) if _, err := backend.Write(context.Background(), frame); err != nil { return err } if err := backend.Flush(context.Background()); err != nil { return err } return nil } func (g *Generator) Summary(duration time.Duration) string { source := "tones" if g.cfg.Audio.InputPath != "" { source = g.cfg.Audio.InputPath } return fmt.Sprintf("offline frame: freq=%.1fMHz sampleRate=%d duration=%s outputDrive=%.2f stereo=%t rds=%t source=%s", g.cfg.FM.FrequencyMHz, g.cfg.FM.CompositeRateHz, duration.String(), g.cfg.FM.OutputDrive, g.cfg.FM.StereoEnabled, g.cfg.RDS.Enabled, source) }