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sdr-wideband-suite
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Wideband autonomous SDR analysis engine forked from sdr-visual-suite
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sdr-wideband-suite/internal/recorder/demod.go

102 wiersze
2.5KB
Czysty Wina Historia 

  1. package recorder

  2. 

  3. import (

  4. 	"errors"

  5. 	"log"

  6. 	"path/filepath"

  7. 

  8. 	"sdr-visual-suite/internal/classifier"

  9. 	"sdr-visual-suite/internal/demod"

  10. 	"sdr-visual-suite/internal/detector"

  11. )

  12. 

  13. func (m *Manager) demodAndWrite(dir string, ev detector.Event, iq []complex64, files map[string]any) error {

  14. 	if ev.Class == nil {

  15. 		return nil

  16. 	}

  17. 	name := mapClassToDemod(ev.Class.ModType)

  18. 	if name == "" {

  19. 		return nil

  20. 	}

  21. 	d := demod.Get(name)

  22. 	if d == nil {

  23. 		return errors.New("demodulator not found")

  24. 	}

  25. 	bw := ev.Bandwidth

  26. 	offset := ev.CenterHz - m.centerHz

  27. 	var audio []float32

  28. 	var inputRate int

  29. 	gpu := m.gpuEngine()

  30. 	if gpu != nil {

  31. 		gpuMode, useGPU := gpuModeFor(name)

  32. 		if useGPU {

  33. 			if gpuAudio, gpuRate, ok := tryGPUAudio(gpu, name, iq, offset, bw, gpuMode); ok {

  34. 				audio = gpuAudio

  35. 				inputRate = gpuRate

  36. 			}

  37. 		}

  38. 	}

  39. 	var stereoHybrid *wfmHybridResult

  40. 	if audio == nil {

  41. 		if name == "WFM_STEREO" {

  42. 			log.Printf("gpudemod: WFM_STEREO using hybrid stereo/RDS post-process for event %d", ev.ID)

  43. 			res := demodWFMStereoHybrid(m.gpuEngine(), iq, m.sampleRate, offset, bw)

  44. 			stereoHybrid = &res

  45. 			audio = res.Audio

  46. 			inputRate = res.AudioRate

  47. 		} else {

  48. 			log.Printf("gpudemod: CPU demod fallback used for event %d (%s)", ev.ID, name)

  49. 			audio, inputRate = demodAudioCPU(d, iq, m.sampleRate, offset, bw)

  50. 		}

  51. 	}

  52. 	wav := filepath.Join(dir, "audio.wav")

  53. 	if err := writeWAV(wav, audio, inputRate, d.Channels()); err != nil {

  54. 		return err

  55. 	}

  56. 	files["audio"] = "audio.wav"

  57. 	files["audio_sample_rate"] = inputRate

  58. 	files["audio_channels"] = d.Channels()

  59. 	files["audio_demod"] = name

  60. 	if name == "WFM_STEREO" && stereoHybrid != nil {

  61. 		if len(stereoHybrid.RDS) > 0 {

  62. 			rdsPath := filepath.Join(dir, "rds.wav")

  63. 			_ = writeWAV(rdsPath, stereoHybrid.RDS, stereoHybrid.RDSRate, 1)

  64. 			files["rds_baseband"] = "rds.wav"

  65. 			files["rds_sample_rate"] = stereoHybrid.RDSRate

  66. 			dec := rdsdecoder{}

  67. 			res := dec.Decode(stereoHybrid.RDS, stereoHybrid.RDSRate)

  68. 			if res.PI != 0 {

  69. 				files["rds_pi"] = res.PI

  70. 			}

  71. 			if res.PS != "" {

  72. 				files["rds_ps"] = res.PS

  73. 			}

  74. 			if res.RT != "" {

  75. 				files["rds_rt"] = res.RT

  76. 			}

  77. 		}

  78. 	}

  79. 	return nil

  80. }

  81. 

  82. func mapClassToDemod(c classifier.SignalClass) string {

  83. 	switch c {

  84. 	case classifier.ClassAM:

  85. 		return "AM"

  86. 	case classifier.ClassNFM:

  87. 		return "NFM"

  88. 	case classifier.ClassWFM:

  89. 		return "WFM"

  90. 	case classifier.ClassSSBUSB:

  91. 		return "USB"

  92. 	case classifier.ClassSSBLSB:

  93. 		return "LSB"

  94. 	case classifier.ClassCW:

  95. 		return "CW"

  96. 	case classifier.ClassFT8, classifier.ClassWSPR, classifier.ClassFSK, classifier.ClassPSK:

  97. 		return "USB"

  98. 	default:

  99. 		return ""

  100. 	}

  101. }