openCom-Companion/sbapp/sideband/audioproc.py

import os
import io
import sh
import math
import time
import struct
import numpy as np
import RNS
import LXMF

if RNS.vendor.platformutils.is_android():
    from pyogg import OpusFile, OpusBufferedEncoder, OggOpusWriter
    from pydub import AudioSegment
else:
    if RNS.vendor.platformutils.is_linux():
        from sbapp.pyogg import OpusFile, OpusBufferedEncoder, OggOpusWriter
    else:
        from pyogg import OpusFile, OpusBufferedEncoder, OggOpusWriter

    from sbapp.pydub import AudioSegment

codec2_modes = {
    # LXMF.AM_CODEC2_450PWB: ???, # No bindings
    # LXMF.AM_CODEC2_450: ???,    # No bindings
    LXMF.AM_CODEC2_700C: 700,
    LXMF.AM_CODEC2_1200: 1200,
    LXMF.AM_CODEC2_1300: 1300,
    LXMF.AM_CODEC2_1400: 1400,
    LXMF.AM_CODEC2_1600: 1600,
    LXMF.AM_CODEC2_2400: 2400,
    LXMF.AM_CODEC2_3200: 3200,
}

def samples_from_ogg(file_path=None, output_rate=8000):
    if file_path != None and os.path.isfile(file_path):
        opus_file = OpusFile(file_path)
        audio = AudioSegment(
            bytes(opus_file.as_array()),
            frame_rate=opus_file.frequency,
            sample_width=opus_file.bytes_per_sample, 
            channels=opus_file.channels)

        audio = audio.split_to_mono()[0]
        audio = audio.apply_gain(-audio.max_dBFS)
        audio = audio.set_frame_rate(output_rate)
        audio = audio.set_sample_width(2)
        
        return audio.get_array_of_samples()

def resample(samples, width, channels, input_rate, output_rate, normalize):
    audio = AudioSegment(
        samples,
        frame_rate=input_rate,
        sample_width=width,
        channels=channels)

    if normalize:
        audio = audio.apply_gain(-audio.max_dBFS)

    resampled_audio = audio.set_frame_rate(output_rate)
    return resampled_audio.get_array_of_samples().tobytes()

def samples_to_ogg(samples=None, file_path=None, normalize=False, input_channels=1, input_sample_width=2, input_rate=8000, output_rate=12000, profile="audio"):
    try:
        if file_path != None and samples != None:
            if input_rate != output_rate or normalize:
                samples = resample(samples, input_sample_width, input_channels, input_rate, output_rate, normalize)

            pcm_data = io.BytesIO(samples)
            channels = input_channels; samples_per_second = output_rate; bytes_per_sample = 2
            frame_duration_ms = 60

            opus_buffered_encoder = OpusBufferedEncoder()
            opus_buffered_encoder.set_application(profile)
            opus_buffered_encoder.set_sampling_frequency(samples_per_second)
            opus_buffered_encoder.set_channels(channels)
            opus_buffered_encoder.set_frame_size(frame_duration_ms)
            ogg_opus_writer = OggOpusWriter(file_path, opus_buffered_encoder)

            frame_duration = frame_duration_ms/1000.0
            frame_size = int(frame_duration * samples_per_second)
            bytes_per_frame = frame_size*bytes_per_sample
            
            ogg_opus_writer.write(memoryview(bytearray(samples)))
            ogg_opus_writer.close()
            
            return True
    
    except Exception as e:
        RNS.trace_exception(e)
        return False

def samples_to_wav(samples=None, file_path=None):
    if samples != None and file_path != None:
        import wave
        with wave.open(file_path, "wb") as wf:
            wf.setnchannels(1)
            wf.setsampwidth(2)
            wf.setframerate(8000)
            wf.writeframes(samples)
        return True

def voice_processing(input_path):
    try:
        ffmpeg = None
        ffmpeg = sh.ffmpeg
        if ffmpeg:
            filters = "highpass=f=250, lowpass=f=3000,speechnorm=e=12.5:r=0.0001:l=1"
            output_bitrate = "12k"
            opus_apptype = "audio"
            output_path = input_path.replace(".ogg","")+".p.ogg"
            args = [
                "-i", input_path, "-filter:a", filters,
                "-c:a", "libopus", "-application", opus_apptype,
                "-vbr", "on","-b:a", output_bitrate, output_path]
            try:
                try:
                    os.unlink(output_path)
                except:
                    pass
                ffmpeg(*args)
                return output_path
            except Exception as e:
                RNS.log("Could not process audio with ffmpeg", RNS.LOG_ERROR)
                RNS.trace_exception(e)
                return None

    except Exception as e:
        return None

def detect_codec2():
    try:
        import pycodec2
        return True
    except Exception as e:
        RNS.log("Could not import codec2 module, libcodec2 is probably not installed or available", RNS.LOG_ERROR)
        RNS.trace_exception(e)

    return False

# Samples must be 8KHz, 16-bit, 1 channel
def encode_codec2(samples, mode):
    ap_start = time.time()
    import pycodec2
    if not mode in codec2_modes:
        return None

    c2 = pycodec2.Codec2(codec2_modes[mode])
    SPF = c2.samples_per_frame()
    PACKET_SIZE = SPF * 2 # 16-bit samples
    STRUCT_FORMAT = '{}h'.format(SPF)
    F_FRAMES = len(samples)/SPF
    N_FRAMES = math.floor(len(samples)/SPF)
    # TODO: Add padding to align to whole frames
    frames = np.array(samples[0:N_FRAMES*SPF], dtype=np.int16)
    
    encoded = b""
    for pi in range(0, N_FRAMES):
        pstart = pi*SPF
        pend = (pi+1)*SPF
        frame = frames[pstart:pend]
        encoded_packet = c2.encode(frame)
        encoded += encoded_packet

    ap_duration = time.time() - ap_start
    RNS.log("Codec2 encoding complete in "+RNS.prettytime(ap_duration)+", bytes out: "+str(len(encoded)), RNS.LOG_DEBUG)

    return encoded

def decode_codec2(encoded_bytes, mode):
    ap_start = time.time()
    import pycodec2
    if not mode in codec2_modes:
        return None

    c2 = pycodec2.Codec2(codec2_modes[mode])
    SPF = c2.samples_per_frame()
    BPF = c2.bytes_per_frame()
    STRUCT_FORMAT = '{}h'.format(SPF)
    N_FRAMES = math.floor(len(encoded_bytes)/BPF)

    decoded = b""
    for pi in range(0, N_FRAMES):
        pstart = pi*BPF
        pend = (pi+1)*BPF
        encoded_packet = encoded_bytes[pstart:pend]
        decoded_frame = c2.decode(encoded_packet)
        decoded += struct.pack(STRUCT_FORMAT, *decoded_frame)

    ap_duration = time.time() - ap_start
    RNS.log("Codec2 decoding complete in "+RNS.prettytime(ap_duration)+", samples out: "+str(len(decoded)), RNS.LOG_DEBUG)

    return decoded
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`import os`
			`import io`
Added audio processing when available 2024-06-04 18:12:28 +02:00			`import sh`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`import math`
			`import time`
			`import struct`
			`import numpy as np`
			`import RNS`
			`import LXMF`

			`if RNS.vendor.platformutils.is_android():`
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`from pyogg import OpusFile, OpusBufferedEncoder, OggOpusWriter`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`from pydub import AudioSegment`
			`else:`
Import variations 2024-06-04 11:11:19 +02:00			`if RNS.vendor.platformutils.is_linux():`
			`from sbapp.pyogg import OpusFile, OpusBufferedEncoder, OggOpusWriter`
			`else:`
			`from pyogg import OpusFile, OpusBufferedEncoder, OggOpusWriter`

Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`from sbapp.pydub import AudioSegment`

			`codec2_modes = {`
			`# LXMF.AM_CODEC2_450PWB: ???, # No bindings`
			`# LXMF.AM_CODEC2_450: ???, # No bindings`
			`LXMF.AM_CODEC2_700C: 700,`
			`LXMF.AM_CODEC2_1200: 1200,`
			`LXMF.AM_CODEC2_1300: 1300,`
			`LXMF.AM_CODEC2_1400: 1400,`
			`LXMF.AM_CODEC2_1600: 1600,`
			`LXMF.AM_CODEC2_2400: 2400,`
			`LXMF.AM_CODEC2_3200: 3200,`
			`}`

Audio recording on Linux 2024-06-04 14:29:28 +02:00			`def samples_from_ogg(file_path=None, output_rate=8000):`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`if file_path != None and os.path.isfile(file_path):`
Import variations 2024-06-04 11:11:19 +02:00			`opus_file = OpusFile(file_path)`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`audio = AudioSegment(`
			`bytes(opus_file.as_array()),`
			`frame_rate=opus_file.frequency,`
			`sample_width=opus_file.bytes_per_sample,`
			`channels=opus_file.channels)`

			`audio = audio.split_to_mono()[0]`
			`audio = audio.apply_gain(-audio.max_dBFS)`
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`audio = audio.set_frame_rate(output_rate)`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`audio = audio.set_sample_width(2)`

			`return audio.get_array_of_samples()`

Audio recording on Linux 2024-06-04 14:29:28 +02:00			`def resample(samples, width, channels, input_rate, output_rate, normalize):`
			`audio = AudioSegment(`
			`samples,`
			`frame_rate=input_rate,`
			`sample_width=width,`
			`channels=channels)`

			`if normalize:`
			`audio = audio.apply_gain(-audio.max_dBFS)`

			`resampled_audio = audio.set_frame_rate(output_rate)`
			`return resampled_audio.get_array_of_samples().tobytes()`

			`def samples_to_ogg(samples=None, file_path=None, normalize=False, input_channels=1, input_sample_width=2, input_rate=8000, output_rate=12000, profile="audio"):`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`try:`
			`if file_path != None and samples != None:`
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`if input_rate != output_rate or normalize:`
			`samples = resample(samples, input_sample_width, input_channels, input_rate, output_rate, normalize)`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`pcm_data = io.BytesIO(samples)`
			`channels = input_channels; samples_per_second = output_rate; bytes_per_sample = 2`
			`frame_duration_ms = 60`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00
Import variations 2024-06-04 11:11:19 +02:00			`opus_buffered_encoder = OpusBufferedEncoder()`
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`opus_buffered_encoder.set_application(profile)`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`opus_buffered_encoder.set_sampling_frequency(samples_per_second)`
			`opus_buffered_encoder.set_channels(channels)`
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`opus_buffered_encoder.set_frame_size(frame_duration_ms)`
Import variations 2024-06-04 11:11:19 +02:00			`ogg_opus_writer = OggOpusWriter(file_path, opus_buffered_encoder)`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00
Audio recording on Linux 2024-06-04 14:29:28 +02:00			`frame_duration = frame_duration_ms/1000.0`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`frame_size = int(frame_duration * samples_per_second)`
			`bytes_per_frame = frame_size*bytes_per_sample`

Audio recording on Linux 2024-06-04 14:29:28 +02:00			`ogg_opus_writer.write(memoryview(bytearray(samples)))`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`ogg_opus_writer.close()`
Audio recording on Linux 2024-06-04 14:29:28 +02:00
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`return True`

			`except Exception as e:`
			`RNS.trace_exception(e)`
			`return False`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00
			`def samples_to_wav(samples=None, file_path=None):`
			`if samples != None and file_path != None:`
			`import wave`
			`with wave.open(file_path, "wb") as wf:`
			`wf.setnchannels(1)`
			`wf.setsampwidth(2)`
			`wf.setframerate(8000)`
			`wf.writeframes(samples)`
			`return True`

Added audio processing when available 2024-06-04 18:12:28 +02:00			`def voice_processing(input_path):`
			`try:`
			`ffmpeg = None`
			`ffmpeg = sh.ffmpeg`
			`if ffmpeg:`
			`filters = "highpass=f=250, lowpass=f=3000,speechnorm=e=12.5:r=0.0001:l=1"`
			`output_bitrate = "12k"`
			`opus_apptype = "audio"`
			`output_path = input_path.replace(".ogg","")+".p.ogg"`
			`args = [`
			`"-i", input_path, "-filter:a", filters,`
			`"-c:a", "libopus", "-application", opus_apptype,`
			`"-vbr", "on","-b:a", output_bitrate, output_path]`
			`try:`
			`try:`
			`os.unlink(output_path)`
			`except:`
			`pass`
			`ffmpeg(*args)`
			`return output_path`
			`except Exception as e:`
			`RNS.log("Could not process audio with ffmpeg", RNS.LOG_ERROR)`
			`RNS.trace_exception(e)`
			`return None`

			`except Exception as e:`
			`return None`

Detect codec2 shared libs and display message if not available 2024-06-04 16:18:32 +02:00			`def detect_codec2():`
			`try:`
			`import pycodec2`
			`return True`
			`except Exception as e:`
			`RNS.log("Could not import codec2 module, libcodec2 is probably not installed or available", RNS.LOG_ERROR)`
			`RNS.trace_exception(e)`

			`return False`

Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`# Samples must be 8KHz, 16-bit, 1 channel`
			`def encode_codec2(samples, mode):`
			`ap_start = time.time()`
			`import pycodec2`
			`if not mode in codec2_modes:`
			`return None`

			`c2 = pycodec2.Codec2(codec2_modes[mode])`
			`SPF = c2.samples_per_frame()`
			`PACKET_SIZE = SPF * 2 # 16-bit samples`
			`STRUCT_FORMAT = '{}h'.format(SPF)`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`F_FRAMES = len(samples)/SPF`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`N_FRAMES = math.floor(len(samples)/SPF)`
Improved audio playback on Linux 2024-06-04 04:46:47 +02:00			`# TODO: Add padding to align to whole frames`
Codec2 encode and decode 2024-06-04 02:56:23 +02:00			`frames = np.array(samples[0:N_FRAMES*SPF], dtype=np.int16)`

			`encoded = b""`
			`for pi in range(0, N_FRAMES):`
			`pstart = pi*SPF`
			`pend = (pi+1)*SPF`
			`frame = frames[pstart:pend]`
			`encoded_packet = c2.encode(frame)`
			`encoded += encoded_packet`

			`ap_duration = time.time() - ap_start`
			`RNS.log("Codec2 encoding complete in "+RNS.prettytime(ap_duration)+", bytes out: "+str(len(encoded)), RNS.LOG_DEBUG)`

			`return encoded`

			`def decode_codec2(encoded_bytes, mode):`
			`ap_start = time.time()`
			`import pycodec2`
			`if not mode in codec2_modes:`
			`return None`

			`c2 = pycodec2.Codec2(codec2_modes[mode])`
			`SPF = c2.samples_per_frame()`
			`BPF = c2.bytes_per_frame()`
			`STRUCT_FORMAT = '{}h'.format(SPF)`
			`N_FRAMES = math.floor(len(encoded_bytes)/BPF)`

			`decoded = b""`
			`for pi in range(0, N_FRAMES):`
			`pstart = pi*BPF`
			`pend = (pi+1)*BPF`
			`encoded_packet = encoded_bytes[pstart:pend]`
			`decoded_frame = c2.decode(encoded_packet)`
			`decoded += struct.pack(STRUCT_FORMAT, *decoded_frame)`

			`ap_duration = time.time() - ap_start`
			`RNS.log("Codec2 decoding complete in "+RNS.prettytime(ap_duration)+", samples out: "+str(len(decoded)), RNS.LOG_DEBUG)`

			`return decoded`