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There are a lot of libs to work with mp3 tags, but I need just 2 functions - split mp3 file in 2 parts and the second one to merge 5 mp3.

Can you suggest anything? Thanks!

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    When you join mp3 files you will find a gap between them, because mp3 is block based and the last block of a file will be filled with silence. – Mark Ransom Jun 1 '10 at 20:58
122

I wrote a library (pydub) for pretty much this exact use case:

from pydub import AudioSegment

sound = AudioSegment.from_mp3("/path/to/file.mp3")

# len() and slicing are in milliseconds
halfway_point = len(sound) / 2
second_half = sound[halfway_point:]

# Concatenation is just adding
second_half_3_times = second_half + second_half + second_half

# writing mp3 files is a one liner
second_half_3_times.export("/path/to/new/file.mp3", format="mp3")

Adding a silent gap

If you'd like to add silence between parts of a sound:

two_sec_silence = AudioSegment.silent(duration=2000)
sound_with_gap = sound[:1000] + two_sec_silence + sound[1000:]
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  • 8
    @발렌텐 yes, just create a silent audio segment: two_sec_pause = AudioSegment.silent(duration=2000) which you can then concatenate like normal sound1 + two_sec_pause + sound2 – Jiaaro Feb 27 '15 at 14:59
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    this lib is a gem, thanks for your share, this is very helping, I am developping a software for language learners giving them the opportunity to generate training sounds made from spoken-word short mp3 files. – vdegenne Feb 27 '15 at 15:21
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    Does this library avoid re-encoding? – andresp Mar 19 '17 at 13:36
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    @andresp no, it decodes when you open and re-encodes when you export. Most types of changes aren't possible without re-encoding (especially when you are working with multiple audio inputs, which may not have matching formats/channels/bitrate/encoder settings/etc) – Jiaaro Mar 21 '17 at 13:57
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    @Jun you need either ffmpeg or avlib if you want to do format conversions. WAVE format is supported in pure python. To open or save other formats you will need one of those packages installed – Jiaaro Sep 10 '18 at 22:08
9

Have a look at the MP3 file structure on Wikipedia. Use binary read mode in python to edit the MP3 file. s = open(file_name, 'rb').read() will put the whole file into a string object representing the raw bytes in your file (e.g. \xeb\xfe\x80). You can then search and edit the string, addressing the byte offsets with indeces using brackets: s[n]. Finally, just do a binary write of the MP3 frames you want in your new file(s), appending the ID3 header to the set of frames that you want to make up each file.

3

Check out GStreamer and its Python wrapper Gst-Python.

3

Here is my attempt at splitting an MP3 using python without re-encoding. Not all varieties of MP3 files are supported and I would gladly welcome suggestions or improvements. The script is hard coded to split at 55 seconds but the code demonstrates the general principles.

from __future__ import print_function
import struct
import sys

#MP3 frames are not independent because of the byte reservoir. This script does not account for
#that in determining where to do the split.

def SplitMp3(fi, splitSec, out):

    #Constants for MP3
    bitrates = {0x0: "free", 0x1: 32, 0x2: 40, 0x3: 48, 0x4: 56, 0x5: 64, 0x6: 80, 0x7: 96, 0x8: 112,
        0x9: 128, 0xa: 160, 0xb: 192, 0xc: 224, 0xd: 256, 0xe: 320, 0xf: "bad"}
    freqrates = {0x0: 44100, 0x1: 48000, 0x2: 32000, 0x3: "reserved"}
    countMpegFrames = 0
    frameDuration = 0.026
    unrecognizedBytes = 0
    splitFrame = int(round(splitSec / frameDuration))

    while True:

        startPos = fi.tell()

        #Check for 3 byte headers
        id3Start = fi.read(3)
        if len(id3Start) == 3:

            if id3Start == b'TAG':
                print ("Found ID3 v1/1.1 header")
                fi.seek(startPos + 256)
                continue

            if id3Start == b'ID3':
                #Possibly a ID3v2 header
                majorVer, minorVer, flags, encSize = struct.unpack(">BBBI", fi.read(7))
                if majorVer != 0xFF and minorVer != 0xFF:
                    encSize1 = (encSize & 0x7f000000) >> 24
                    encSize2 = (encSize & 0x7f0000) >> 16
                    encSize3 = (encSize & 0x7f00) >> 8
                    encSize4 = (encSize & 0x7f)
                    if encSize1 < 0x80 and encSize2 < 0x80 and encSize3 < 0x80 and encSize4 < 0x80:
                        size = ((encSize & 0x7f000000) >> 3) + ((encSize & 0x7f0000) >> 2) + ((encSize & 0x7f00) >> 1) + (encSize & 0x7f)
                        unsync = (flags >> 7) & 0x1
                        extendedHeader = (flags >> 6) & 0x1
                        experimental = (flags >> 5) & 0x1
                        print ("Found ID3v2 header")
                        print ("version", majorVer, minorVer, unsync, extendedHeader, experimental)
                        print ("size", size)
                        #TODO extendedHeader not supported yet

                        fi.seek(startPos + 10 + size)
                        continue

        #Check for 4 byte headers
        fi.seek(startPos)
        headerRaw = fi.read(4)
        if len(headerRaw) == 4:
            headerWord = struct.unpack(">I", headerRaw)[0]

            #Check for MPEG-1 audio frame
            if headerWord & 0xfff00000 == 0xfff00000:
                print ("Possible MPEG-1 audio header", hex(headerWord))
                countMpegFrames += 1
                ver = (headerWord & 0xf0000) >> 16
                bitrateEnc = (headerWord & 0xf000) >> 12
                freqEnc = (headerWord & 0xf00) >> 8
                mode = (headerWord & 0xf0) >> 4
                cpy = (headerWord & 0xf)
                if ver & 0xe == 0xa and freqEnc != 0xf:
                    print ("Probably an MP3 frame")
                    bitrate = bitrates[bitrateEnc]
                    freq = freqrates[freqEnc >> 2]
                    padding = ((freqEnc >> 1) & 0x1) == 1
                    print ("bitrate", bitrate, "kbps")
                    print ("freq", freq, "Hz")
                    print ("padding", padding)
                    frameLen = int((144 * bitrate * 1000 / freq ) + padding)

                    #Copy frame to output
                    fi.seek(startPos)
                    frameData = fi.read(frameLen)
                    if countMpegFrames >= splitFrame:
                        out.write(frameData)

                    fi.seek(startPos + frameLen)
                    continue
                else:
                    raise RuntimeError("Unsupported format:", hex(ver), "header:", hex(headerWord))

        #If no header can be detected, move on to the next byte
        fi.seek(startPos)
        nextByteRaw = fi.read(1)
        if len(nextByteRaw) == 0:
            break #End of file
        unrecognizedBytes += 1

    print ("unrecognizedBytes", unrecognizedBytes)
    print ("countMpegFrames", countMpegFrames)
    print ("duration", countMpegFrames * frameDuration, "sec")

if __name__=="__main__":
    fi = open(sys.argv[1], "rb")
    out = open("test.mp3", "wb")
    SplitMp3(fi, 55.0, out)
    out.close()

Merging would be a similar case of extracting and appending frames from two separate MP3 input files.

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    If you want want to trim the audio, modify the code by adding another parameter to denote the ending time (say secondSplitSec). Calculate secondSplitFrame by using a similar formula to that of splitFrame. Change if countMpegFrames >= splitFrame: to if secondSplitFrame >= countMpegFrames >= splitFrame: – aronquemarr May 17 '20 at 13:59
  • I have wanted to trim the audio , and I edited the code as aronquemarr(upper comment) told . I have succesfully splitted the long mp3 file but it was too loosy . For instance I splitted 0 to 41 second of audio , it splitted 0 to 37 and that loosieness is increasing with amount . I researched a little bit , but I couldn't find the reason – Wasp Nesser Oct 28 '20 at 20:47
-4

use the unix split command:

split -b 200k file.mp3 output_

this will output output_a, output_b, output_c, ..

you can then get mp3 files just by renaming

for file in ./output_*; do mv "$file" "$(basename $file).mp3"; done

this will output output_a.mp3, output_b.mp3, output_c.mp3 ... all of them (except the last one, may be) are 200kb in size, and the total size of the output_x is the same as file.mp3

you can use the du (disk usage) command to get the file's number of byte and then decide how many bytes to cut..

du -sh file.mp3

then to join use the cat command:

cat output_2.mp3 output_3.mp3 output_4.mp3 > output.mp3

of course you can put all this in a shell script and call it from python.

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    You won't be able to play such segments. – Valentin Heinitz Apr 18 '15 at 19:45
  • The comment is useful, however, splitting the audio is something completely different from splitting the binary structure of the file. – Gerard van Helden Jan 20 '18 at 22:27

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