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SndStereoSave for PHOENIX
#1
Hi team.

How it goes? Here I've modified my audio save routine quite a bit, cheekily borrowing a few things from @a740g and after some trouble it seems to work as expected. It's the first version, it can only do stereo, it doesn't even have subsampling. I will add all this gradually. Just one question: 32 bit WAV sound. Is the type SINGLE used in WAV containers? Windows media player didn't really want to understand it and played like if you ride a bike on a road paved with cobblestones and sing along... (so I converted it to the LONG type and it plays cleanly). Does anyone know?


Code: (Select All)
'SndStereoSave by Petr for PHOENIX 3.5.0

Dim Song As Long
Song = _SndOpen("vi.mp3") ' Replace file name with your sound file
Dim As _MEM N
N = _MemSound(Song, 0)

'convert MP3 as WAV!

If SndChannels(Song) < 2 Then Print "Sorry, this is just for stereo (first version).": End
SndStereoSave N, "Test.wav" 'tested on WAV 16bit stereo, XM file (stereo), MP3 (stereo), all pass


'create the same music as in Song, but so that it plays backwards. Lets try _SndNew!
'the same its for own music created in QB64

Select Case SNDGetBites(N)
    Case 1, 2: bites& = 32
    Case 3: bites& = 16
    Case 4: bites& = 8
End Select

NM& = _SndNew(_SndLen(Song) * _SndRate, SndChannels(Song), bites&)

Dim Done As _Offset, PlusStep As _Offset, Value As Single, NewMusic As _MEM

NewMusic = _MemSound(NM&, 0)

Done = N.SIZE - N.ELEMENTSIZE
Do Until Done = 0
    _MemGet N, N.OFFSET + Done, Value
    _MemPut NewMusic, NewMusic.OFFSET + PlusStep, Value
    Done = Done - 4
    PlusStep = PlusStep + 4
Loop
SndStereoSave NewMusic, "Backward.wav"

_MemFree N
_MemFree NewMusic
End


Function ConvertOffset&& (value As _Offset)
    $Checking:Off
    Dim m As _MEM 'Define a memblock
    m = _Mem(value) 'Point it to use value
    $If 64BIT Then
            'On 64 bit OSes, an OFFSET is 8 bytes in size.  We can put it directly into an Integer64
            _MEMGET m, m.OFFSET, ConvertOffset&& 'Get the contents of the memblock and put the values there directly into ConvertOffset&&
    $Else
        'However, on 32 bit OSes, an OFFSET is only 4 bytes.  We need to put it into a LONG variable first
        _MemGet m, m.OFFSET, temp& 'Like this
        ConvertOffset&& = temp& 'And then assign that long value to ConvertOffset&&
    $End If
    _MemFree m 'Free the memblock
    $Checking:On
End Function

Sub SndStereoSave (arr As _MEM, file As String)
    Type head16
        chunk As String * 4 '       4 bytes  (RIFF)
        size As _Unsigned Long '              4 bytes  (file size)  velikost souboru
        fomat As String * 4 '       4 bytes  (WAVE)
        sub1 As String * 4 '        4 bytes  (fmt )
        subchunksize As Long '      4 bytes  (lo / hi), $00000010 for PCM audio
        format As Integer '         2 bytes  (0001 = standard PCM, 0101 = IBM mu-law, 0102 = IBM a-law, 0103 = IBM AVC ADPCM)
        channels As Integer '       2 bytes  (1 = mono, 2 = stereo)
        rate As Long '              4 bytes  (sample rate, standard is 44100)
        ByteRate As Long '          4 bytes  (= sample rate * number of channels * (bits per channel /8))
        Block As Integer '          2 bytes  (block align = number of channels * bits per sample /8)
        Bits As Integer '           2 bytes  (bits per sample. 8 = 8, 16 = 16)
        subchunk2 As String * 4 '   4 bytes  ("data")  contains begin audio samples
        lenght As _Unsigned Long '            4 bytes  Data block size
    End Type '                     44 bytes  total

    Dim H16 As head16
    ch = FreeFile

    H16.chunk = "RIFF"
    H16.size = 44 + ConvertOffset(arr.SIZE)
    H16.fomat = "WAVE"
    H16.sub1 = "fmt "

    H16.subchunksize = 16

    H16.format = 1
    H16.channels = 2
    H16.rate = _SndRate

    Select Case SNDGetBites(arr)
        Case 1, 2: H16.Bits = 32
        Case 3: H16.Bits = 16
        Case 4: H16.Bits = 8
    End Select

    H16.ByteRate = (_SndRate * 2 * H16.Bits) / 8
    H16.Block = (2 * H16.Bits) / 8

    H16.subchunk2 = "data"
    H16.lenght = ConvertOffset(arr.SIZE)
    If _FileExists(file$) Then Kill file$

    Audio$ = Space$(ConvertOffset(arr.SIZE))
    If SNDGetBites(arr) = 1 Then 'convert values from SINGLE to LONG values, because Marena from the cowshed said it should be like that :)    /Czech Joke/
        Dim A As _MEM, VS As Single, VL As Long
        A = _MemNew(arr.SIZE)
        Do Until done& = arr.SIZE
            VS = _MemGet(arr, arr.OFFSET + done&, Single)
            VL& = 2147483648 * VS
            _MemPut A, A.OFFSET + done&, VL&
            done& = done& + 4
        Loop
        _MemGet A, A.OFFSET, Audio$
        _MemFree A
    Else
        _MemGet arr, arr.OFFSET, Audio$
    End If
    Open file$ For Binary As #ch
    Put #ch, , H16
    Put #ch, , Audio$
    Audio$ = ""

    Close ch
End Sub

Function SNDGetBites (handle As _MEM)
    Select Case handle.TYPE
        Case 260: SNDGetBites = 1 ' 32-bit floating point SINGLE
        Case 132: SNDGetBites = 2 ' 32-bit integer LONG
        Case 130: SNDGetBites = 3 ' 16-bit integer INTEGER
        Case 1153: SNDGetBites = 4 ' 8-bit unsigned integer
    End Select
End Function

Function SndChannels~%% (handle As Long) 'work by a740g
    Dim SampleData As _MEM
    ' Check if the sound is valid
    SampleData = _MemSound(handle, 0)
    If SampleData.SIZE = 0 Then
        Print "SndChannels: MemSound return ZERO for audio data size!"
        Exit Function
    End If

    ' Check the data type and then decide if the sound is stereo or mono
    Select Case SampleData.TYPE
        Case 260 ' 32-bit floating point
            If SampleData.ELEMENTSIZE = 4 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 8 Then
                SndChannels = 2
            End If
        Case 132 ' 32-bit integer
            If SampleData.ELEMENTSIZE = 4 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 8 Then
                SndChannels = 2
            End If
        Case 130: ' 16-bit integer
            If SampleData.ELEMENTSIZE = 2 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 4 Then
                SndChannels = 2
            End If
        Case 1153: ' 8-bit unsigned integer
            If SampleData.ELEMENTSIZE = 1 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 2 Then
                SndChannels = 2
            End If
    End Select
    _MemFree SampleData
End Function

It is good! I was so focused on functionality that I forgot to add labels to the program Smile

So - on line 4, enter a valid name for your music file for Phoenix and then run it. The program is stingy with words, it doesn't write anything on your screen, it keeps secrets. Smile
Your music file will be saved in WAV format to the file test.wav and backward.wav, then play them to check the functionality. Backward.wav is saved vice versa, plays from the end to begin.


Reply
#2
Quote:Just one question: 32 bit WAV sound. Is the type SINGLE used in WAV containers? Windows media player didn't really want to understand it and played like if you ride a bike on a road paved with cobblestones and sing along... (so I converted it to the LONG type and it plays cleanly). Does anyone know?


It does support 32-bit floating-point WAV files. I think I know what is happening here. For floating point samples each sample has to be between -1 .. 1 (0 being the mid-point). I think during the conversion from MP3 > PCM some of these samples go way above or below that range. miniaudio deals with this by clipping the samples during playback / mixing.

Since you are writing out this unclipped data to the file, you'll have to do the clipping yourself.

Again, I may be completely wrong because I have not studied other parts of your code.

I will play with this as soon as I get some time.
Reply
#3
SndStereoSave has been slightly improved and renamed to SndSave. I put the program in a .bm file so that I could just simply include it at the end of the program with the $Include statement.

The program now saves mono and stereo WAV format, 8, 16, 32 bits. Want to test it when you generate your own sounds if that click at the end of the eight bit sound will also occur or not. For now, I've solved it by truncating the WAV file by 22050 samples when saved in 8-bit, removing the click at the end. I have yet to find the reason why this happens, while saving in 16-bit or 32-bit remains fine. It almost seems like the 8 bit audio is slightly longer than it should be.


Test program:
Code: (Select All)
'SndSave by Petr for PHOENIX 3.5.0

'example how convert XM file to WAV file
' Dim Song As Long
' Song = _SndOpen("a.xm")
' Dim As _MEM N
' N = _MemSound(Song, 0)
' SndSave N, "Test.wav" 'tested on WAV 16bit stereo, XM file (stereo), MP3 (stereo), all pass


'example how to create empty streams for 8bit, 16bit and 32 bit sound records and how save it

'generate sound
t = 0
tmp$ = "Sample = ##.#####   Time = ##.#####"
Locate 1, 60: Print "Rate:"; _SndRate


'declare standard arrays for saving values generated using SIN, COS...

Dim SNDREC8(_SndRate * 3.00239 * 1) As _Unsigned _Byte 'sound duration is 3.00239 seconds, use _UNSIGNED _BYTE for 8 bit record, 1 = this sound contains 1 audio channel (mono)
Dim SNDREC16(_SndRate * 3.00239 * 1) As Integer '       sound duration is 3.00239 seconds, use INTEGER for 16 bit record (the same as in old QB64), 1 = this sound contains 1 audio channel (mono)
Dim SNDREC32(_SndRate * 3.00239 * 1) As Single '        sound duration is 3.00239 seconds, use SINGLE for 32 bit record, 1 = this sound contains 1 audio channel (mono)


Print "Phoenix generate sound..."
Do
    'queue some sound
    Do While _SndRawLen < 0.1 'you may wish to adjust this
        sample = Sin(t * 440 * Atn(1) * 8) '440Hz sine wave (t * 440 * 2Ď€)
        sample = sample * Exp(-t * 3) 'fade out eliminates clicks after sound
        '------ ---------- -------
        SNDREC8(rec) = 127 * sample + 128 '   recalculate samples for 8 bit record
        SNDREC16(rec) = 32768 * sample '     recalculate samples for 16 bit record
        SNDREC32(rec) = sample '            recalculate sampples for 32 bit record
        rec = rec + 1
        '------ ---------- -------
        _SndRaw sample
        t = t + 1 / _SndRate 'sound card sample frequency determines time
    Loop

    'do other stuff, but it may interrupt sound
    Locate 1, 1: Print Using tmp$; sample; t
Loop While t < 3.0 'play for 3 seconds

Do While _SndRawLen > 0 'Finish any left over queued sound!
Loop

' generated sound is done in memory, in array


' create empty streams and save data to this streams
Dim As _MEM REC8, REC16, REC32
NewSound8 = _SndNew(_SndRate * 3.00239, 1, 8) 'create stereo 8 bit snd record  (sound duration, 1 channel, 8 bites)
NewSound16 = _SndNew(_SndRate * 3.00239, 1, 16)
NewSound32 = _SndNew(_SndRate * 3.00239, 1, 32)


'open created streams for access
REC8 = _MemSound(NewSound8, 0)
REC16 = _MemSound(NewSound16, 0)
REC32 = _MemSound(NewSound32, 0)

Dim WAV8 As _Unsigned _Byte, WAV16 As Integer, WAV32 As Single

'save audiodata to streams
done = 0
Do Until done = UBound(SNDREC8) 'all arrays have the same size
    WAV8 = SNDREC8(done) ' load 8bit sample
    WAV16 = SNDREC16(done) 'load 16bit sample
    WAV32 = SNDREC32(done) 'load 32bit sample

    _MemPut REC8, REC8.OFFSET + done, WAV8 'insert 8bit audio data to 8bit stream, one sample in 8 bit mono is long 1 byte, so step is 1 (+done)
    _MemPut REC16, REC16.OFFSET + done * 2, WAV16 'insert 16bit audio data to 16bit stream , one sample in 16 bit mono is long 2 bytes, step is 2 (done * 2)
    _MemPut REC32, REC32.OFFSET + done * 4, WAV32 'insert 32 bit audio data to 32bit stream, one sample in 32 bit mono is long 4 bytes, step is 4 (done * 4)
    done = done + 1 '
Loop
Print
Print "Lenghts:"

Print REC8.SIZE
Sleep 3

'now, you can listening done outputs:
Print "Playing this sound in 8 bit... "
_SndPlay NewSound8
Do Until _SndPlaying(NewSound8) = 0: Loop
Print
Print "Playing this sound in 16 bit..."
_SndPlay NewSound16
Do Until _SndPlaying(NewSound16) = 0: Loop
Print
Print "Playing this sound in 32 bit..."
_SndPlay NewSound32
Do Until _SndPlaying(NewSound32) = 0: Loop
Print
Print "Saving sound as Test8.WAV in 8 bit quality..."
SndSave REC8, "test8.wav"

Print "Saving sound as Test16.WAV in 16 bit quality..."
SndSave REC16, "test16.wav"

Print "Saving sound as Test32.WAV in 32 bit quality..."
SndSave REC32, "test32.wav"

Sleep 3
Print
Print "SndSave modified the audio in 8-bit form to remove the clicking at the end by truncating the audio by 22050 samples. Hear the difference:"
Print "Original, in memory..."
Sleep 3
_SndPlay NewSound8
Do Until _SndPlaying(NewSound8) = 0: Loop
Sleep 4
Print "Saved on harddrive"
_SndPlayFile "test8.wav"
Do Until _SndPlaying(NewSound8) = 0: Loop
Sleep 3
Print "That`s all"

_SndClose NewSound8
_SndClose NewSound16
_SndClose NewSound32

_MemFree REC8
_MemFree REC16
_MemFree REC32
End

'$include:'SndSave.bm'


File SndSave.bm:
Code: (Select All)
Sub SndSave (arr As _MEM, file As String)
    'this is upgraded SndStereoSave:
    ' SUB renamed as SndSave
    ' Autodetect if input stream is mono or stereo  (based on SndChannels function)

    'from SndChannels function:
    If arr.SIZE = 0 Then
        Print "SndSave: MemSound return ZERO for audio data size!"
        Exit Sub
    End If

    ' Check the data type and then decide if the sound is stereo or mono
    Dim Channels As Integer, Reduce As Integer
    Select Case arr.TYPE
        Case 260 ' 32-bit floating point
            If arr.ELEMENTSIZE = 4 Then
                Channels = 1
            ElseIf arr.ELEMENTSIZE = 8 Then
                Channels = 2
            End If
        Case 132 ' 32-bit integer
            If arr.ELEMENTSIZE = 4 Then
                Channels = 1
            ElseIf arr.ELEMENTSIZE = 8 Then
                Channels = 2
            End If
        Case 130: ' 16-bit integer
            If arr.ELEMENTSIZE = 2 Then
                Channels = 1
            ElseIf arr.ELEMENTSIZE = 4 Then
                Channels = 2
            End If
        Case 1153: ' 8-bit unsigned integer
            If arr.ELEMENTSIZE = 1 Then
                Channels = 1
            ElseIf arr.ELEMENTSIZE = 2 Then
                Channels = 2
            End If
    End Select

    Type head16
        chunk As String * 4 '       4 bytes  (RIFF)
        size As _Unsigned Long '              4 bytes  (file size)  velikost souboru
        fomat As String * 4 '       4 bytes  (WAVE)
        sub1 As String * 4 '        4 bytes  (fmt )
        subchunksize As Long '      4 bytes  (lo / hi), $00000010 for PCM audio
        format As Integer '         2 bytes  (0001 = standard PCM, 0101 = IBM mu-law, 0102 = IBM a-law, 0103 = IBM AVC ADPCM)
        channels As Integer '       2 bytes  (1 = mono, 2 = stereo)
        rate As Long '              4 bytes  (sample rate, standard is 44100)
        ByteRate As Long '          4 bytes  (= sample rate * number of channels * (bits per channel /8))
        Block As Integer '          2 bytes  (block align = number of channels * bits per sample /8)
        Bits As Integer '           2 bytes  (bits per sample. 8 = 8, 16 = 16)
        subchunk2 As String * 4 '   4 bytes  ("data")  contains begin audio samples
        lenght As _Unsigned Long '            4 bytes  Data block size
    End Type '                     44 bytes  total

    Dim H16 As head16
    Ch = FreeFile

    H16.chunk = "RIFF"
    H16.size = 44 + ConvertOffset(arr.SIZE)
    H16.fomat = "WAVE"
    H16.sub1 = "fmt "

    H16.subchunksize = 16

    H16.format = 1
    H16.channels = Channels
    H16.rate = _SndRate

    Select Case SNDGetBites(arr)
        Case 1, 2: H16.Bits = 32
        Case 3: H16.Bits = 16
        Case 4: H16.Bits = 8
    End Select

    H16.ByteRate = (_SndRate * Channels * H16.Bits) / 8
    H16.Block = (Channels * H16.Bits) / 8

    H16.subchunk2 = "data"
    H16.lenght = ConvertOffset(arr.SIZE)
    If _FileExists(file$) Then Kill file$

    If H16.Bits = 8 Then Reduce = 22050 Else Reduce = 0

    Audio$ = Space$(ConvertOffset(arr.SIZE) - Reduce)
    If SNDGetBites(arr) = 1 Then 'convert values from SINGLE to LONG values, because there was problem whe trying playing SINGLE values
        Dim A As _MEM, VS As Single, VL As Long
        A = _MemNew(arr.SIZE)
        Do Until done& = arr.SIZE
            VS = _MemGet(arr, arr.OFFSET + done&, Single)
            VL& = 2147483648 * VS
            _MemPut A, A.OFFSET + done&, VL&
            done& = done& + 4
        Loop
        _MemGet A, A.OFFSET, Audio$
        _MemFree A
    Else
        _MemGet arr, arr.OFFSET, Audio$
    End If
    Open file$ For Binary As #Ch
    Put #Ch, , H16
    Put #Ch, , Audio$
    Audio$ = ""

    Close Ch
End Sub

Function SNDGetBites (handle As _MEM)
    Select Case handle.TYPE
        Case 260: SNDGetBites = 1 ' 32-bit floating point SINGLE
        Case 132: SNDGetBites = 2 ' 32-bit integer LONG
        Case 130: SNDGetBites = 3 ' 16-bit integer INTEGER
        Case 1153: SNDGetBites = 4 ' 8-bit unsigned integer
    End Select
End Function

Function SndChannels~%% (handle As Long)
    Dim SampleData As _MEM
    ' Check if the sound is valid
    SampleData = _MemSound(handle, 0)
    If SampleData.SIZE = 0 Then
        Print "SndChannels: MemSound return ZERO for audio data size!"
        Exit Function
    End If

    ' Check the data type and then decide if the sound is stereo or mono
    Select Case SampleData.TYPE
        Case 260 ' 32-bit floating point
            If SampleData.ELEMENTSIZE = 4 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 8 Then
                SndChannels = 2
            End If
        Case 132 ' 32-bit integer
            If SampleData.ELEMENTSIZE = 4 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 8 Then
                SndChannels = 2
            End If
        Case 130: ' 16-bit integer
            If SampleData.ELEMENTSIZE = 2 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 4 Then
                SndChannels = 2
            End If
        Case 1153: ' 8-bit unsigned integer
            If SampleData.ELEMENTSIZE = 1 Then
                SndChannels = 1
            ElseIf SampleData.ELEMENTSIZE = 2 Then
                SndChannels = 2
            End If
    End Select
    _MemFree SampleData
End Function

Function ConvertOffset&& (value As _Offset)
    $Checking:Off
    Dim m As _MEM 'Define a memblock
    m = _Mem(value) 'Point it to use value
    $If 64BIT Then
            'On 64 bit OSes, an OFFSET is 8 bytes in size.  We can put it directly into an Integer64
            _MEMGET m, m.OFFSET, ConvertOffset&& 'Get the contents of the memblock and put the values there directly into ConvertOffset&&
    $Else
        'However, on 32 bit OSes, an OFFSET is only 4 bytes.  We need to put it into a LONG variable first
        _MemGet m, m.OFFSET, temp& 'Like this
        ConvertOffset&& = temp& 'And then assign that long value to ConvertOffset&&
    $End If
    _MemFree m 'Free the memblock
    $Checking:On
End Function


Reply
#4
Released new upgraded version SoundSave for QB64 Phoenix!
Options:  
                  - the possibility of saving with an optional sampling frequency
                 - save as mono / stereo / pseudo stereo / sound on left / sound on right
                 - supported output WAV file formats: 8bit, 16bit, 24bit, 32bit
                 - possibility to insert echo

Program is wroted for _SndNew or _SndOpen handles, so is possible saving own sounds created in QB64 or music loaded with SndOpen save as WAV file.

Since there is a new option to choose the sampling frequency, just remind you that too low a sampling frequency has a significant effect on the sound quality. The default was 44100, of course, if your sound card supports it, you can save the sound at a higher sample rate. You get the maximum if you put _SndRate in the SoundRate parameter of the SoundSave function.

Code: (Select All)
'SaveSound for QB64PE version 3.0
'wroted Petr Preclik
'   - support all possible soundrate in output wav file (maximum is your soundcard _SndRate),
'   - support 8 bites, 16 bites, 24 bites and 32 bites Wav files as output format,
'   - contains build - in soundrate automaticaly correction,
'   - support for Mono / Stereo / PseudoStereo / Left mono and Right silent, Right mono and left silent
'   - can add echo to record


'usage: SaveSound (snd handle&, output file name$, options for saving (on next row), record sound rate - higher = better quality, higher size, output Wav file Biterate (8, 16, 24 or 32))

'options for saving:
'
' Stereo - save sound in stereo format.
' BothMono - output wav file contains one channel, players play it then in both speakers as mono music
' MonoLeft - output wav file contains two channels, right is silent, left contains music data, output format is stereo
' MonoRight - output wav file contains two channels, right contains music data, left is silent, output format is stereo
' PseudoStereo -  on input can be used stereo or mono sound file, this option copy left channel and shift it in time to right channel - create small echo delay

' Stereo Or Echo - save sound as stereo format and create small echo
' BothMono Or Echo - save sound to one channel and create echo
' MonoLeft Or Echo - save sound to left channel and create echo, right channel is silent
' MonoRight Or Echo - save sound to right channel and create echo, left channel is silent
' PseudoStereo Or Echo - copy shifted left channel as right channel and create longer echo delay


'------------ SndSave.bi ---------------
'                DO NOT CHANGE CONST!
Const MonoLeft = 1
Const MonoRight = 2
Const Stereo = 4
Const BothMono = 8
Const PseudoStereo = 16
Const Echo = 32
Const Enabled = 1
Const Disabled = 0
'---------------------------------------


'Warning. This program can create 24bit WAVE files. QB64 can it open and play, BUT _MEMSOUND work not with this type (expected returned values 3 and 6 are not writed in help about _MEMSOUND)
'Mono record element size is 3 byte, stereo record element size lenght is 6 bytes.

'https://stackoverflow.com/questions/24151973/reading-24-bit-samples-from-a-wav-file





Dim snd As Long
snd = _SndOpen("w.mod")
'or, for your own music handle please use QB64PE function _SndNew

Print "Music file opened", snd



Status = SaveSound(snd, "w-mod.wav", Stereo Or Echo, 44100, 24)
SSSH Status




hnd = _SndOpen("w-mod.wav")
Print hnd
_SndPlay hnd




' ----------------------------- SndSave.bm -------------------------------
Sub SSSH (Status)
    Select Case Status
        Case 1: Print "All ok, operation complete"
        Case -100: Print "Sound card sound rate is lower than sound rate used for SaveSound!"
        Case -101: Print "This biterate format is not supported."
        Case -102: Print "m.SIZE is ZERO. Warning, 24bit Wave are not compatible with MEMSOUND, but are compatible with _SndOpen!, or is used invalid handle."
    End Select
End Sub



Function SaveSound (Handle As Long, SaveAS$, Parameter, SoundRate, BiteRate) 'for SNDNEW or SNDOPEN handles
    ParameterD = Parameter
    AddEcho = Disabled
    Select Case Parameter
        Case 33, 34, 36, 40, 48
            AddEcho = Enabled
            ParameterD = Parameter Xor Echo
    End Select


    If ParameterD = 8 Then OutChannels = 1 Else OutChannels = 2
    If SoundRate > _SndRate Then SaveSound = -100: Exit Function 'upsampling is not supported

    Select Case BiteRate
        Case 8, 16, 24, 32
        Case Else
            SaveSound = -101: Exit Function 'supported output WAVE format is 8bit or 16bit or 32bit
    End Select
    BR3 = BiteRate
    '---------------------------
    SoundR = SoundRate
    Do Until _SndRate Mod SoundR = 0
        SoundR = SoundR + 1
    Loop
    Ratio = _SndRate / SoundR 'step for downsampling from original
    ' Print "Real usable (and used) samplerate is: "; Ratio; _SndRate / Ratio
    '----------------------------------

    'ziskat informace o zdrojovem zvuku
    Dim m As _MEM
    m = _MemSound(Handle, 0)
    If m.SIZE = 0 Then SaveSound = -102: Exit Function 'music handle is not valid

    'get info about channels number
    Select Case m.TYPE
        Case 260 ' 32-bit floating point
            If m.ELEMENTSIZE = 4 Then
                Channels = 1
            ElseIf m.ELEMENTSIZE = 8 Then
                Channels = 2
            End If
        Case 132 ' 32-bit integer
            If m.ELEMENTSIZE = 4 Then
                Channels = 1
            ElseIf m.ELEMENTSIZE = 8 Then
                Channels = 2
            End If
        Case 130: ' 16-bit integer
            If m.ELEMENTSIZE = 2 Then
                Channels = 1
            ElseIf m.ELEMENTSIZE = 4 Then
                Channels = 2
            End If
        Case 1153: ' 8-bit unsigned integer
            If m.ELEMENTSIZE = 1 Then
                Channels = 1
            ElseIf m.ELEMENTSIZE = 2 Then
                Channels = 2
            End If
        Case Else
            Print "Sorry, unknown m.TYPE for sound file on input: "; m.TYPE

    End Select

    'get biterate source signal (8 bit, 16 bit or 32 bit)

    Type Snd32
        Left As Single
        Right As Single
    End Type



    Select Case SNDGetBites(m)
        Case 1, 2
            Bites = 32
            Size& = ConvertOffset(m.SIZE) \ 4 \ Channels
            Dim SndIn(Size&) As Snd32
        Case 3
            Bites = 16
            Size& = ConvertOffset(m.SIZE) \ 2 \ Channels
            Dim SndIn(Size&) As Snd32 'all input sound data are calculated to SINGLE array, so later this can be compiled to all other sound type
        Case 4
            Bites = 8
            Size& = ConvertOffset(m.SIZE) \ Channels
            Dim SndIn(Size&) As Snd32
    End Select


    Dim i As Long
    Do Until done& = m.SIZE
        Select Case Bites
            Case 32
                SndIn(i).Left = _MemGet(m, m.OFFSET + Step32&, Single)
                If Channels = 2 Then
                    Step32& = Step32& + 4
                    SndIn(i).Right = _MemGet(m, m.OFFSET + Step32&, Single)
                Else
                    SndIn(i).Right = SndIn(i).Left
                End If
                Step32& = Step32& + 4
                done& = Step32&

            Case 16
                SndIn(i).Left = (_MemGet(m, m.OFFSET + Step16&, Integer) / 32768) 'netestovany VSTUP
                If Channels = 2 Then
                    Step16& = Step16& + 2
                    SndIn(i).Right = (_MemGet(m, m.OFFSET + Step16&, Integer) / 32768) 'netestovany VSTUP
                Else
                    SndIn(i).Right = SndIn(i).Left
                End If
                Step16& = Step16& + 2
                done& = Step16&

            Case 8

                SndIn(i).Left = (-128 + _MemGet(m, m.OFFSET + Step8&, _Unsigned _Byte)) / 255 'netestovany VSTUP
                If Channels = 2 Then
                    Step8& = Step8& + 1
                    SndIn(i).Right = (-128 + _MemGet(m, m.OFFSET + Step8&, _Unsigned _Byte)) / 255 'netestovany VSTUP
                Else
                    SndIn(i).Right = SndIn(i).Left
                End If
                Step8& = Step8& + 1
                done& = Step8&
        End Select
        i = i + 1
    Loop

    'sound is now saved in SINGLE SndIn array, mem handle m can be deleted...


    SizeNew& = Size& * (BiteRate / 8) / Ratio 'if downsamplingm then new memory block size is smaller than original
    If AddEcho Then SizeNew& = SizeNew& + (_SndRate / Ratio) * Channels
    _MemFree m

    Delay = .35 * (_SndRate / Ratio) 'delay for echo effect
    Dim em As Long
    If AddEcho = Enabled Then

        For em = Delay To UBound(SndIn)
            SndIn(em).Left = SndIn(em).Left * .5 + LeftBack * .5
            SndIn(em).Right = SndIn(em).Right * .5 + RightBack * .5
        Next
    End If


    Dim SndOut As _MEM
    SndOut = _MemNew(SizeNew& * OutChannels)
    RecLen = BiteRate / 8
    BR = BiteRate

    i& = 0

    'resolution if output is 8bit/16bit/24bit/32bit
    Dim ReadIt As Long
    AudioCH = 2
    For ReadIt = 0 To UBound(SndIn) - (_SndRate / Ratio) Step Ratio

        Select Case BR
            Case 8
                left = -128 - SndIn(ReadIt).Left * 127
                right = -128 - SndIn(ReadIt).Right * 127
                If ReadIt > Delay Then PseudoRight = -128 - SndIn(ReadIt - Delay).Left * 127

            Case 16
                left = SndIn(ReadIt).Left * 32768
                right = SndIn(ReadIt).Right * 32768
                If ReadIt > Delay Then PseudoRight = SndIn(ReadIt - Delay).Left * 32768

            Case 24
                Left& = SndIn(ReadIt).Left * 8388607
                Right& = SndIn(ReadIt).Right * 8388607
                If ReadIt& > Delay Then PseudoRight& = SndIn(ReadIt& - Delay).Left * 8388607

            Case 32
                Left& = SndIn(ReadIt).Left * 2147483648
                Right& = SndIn(ReadIt).Right * 2147483648
                If ReadIt& > Delay Then PseudoRight& = SndIn(ReadIt& - Delay).Left * 2147483648

        End Select

        Select Case ParameterD
            Case 1 '
                ' Monoleft -  left channel contains data, right nothing
                Select Case RecLen
                    Case 1 '8 bit
                        Dim LeftUB As _Unsigned _Byte
                        LeftUB = left
                        _MemPut SndOut, SndOut.OFFSET + i&, LeftUB '                                         left channel contains sound data  8bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 1, 0 As _UNSIGNED _BYTE '                       right channel is silent
                        i& = i& + 2
                    Case 2 '16 bit
                        Dim LeftIB As Integer
                        LeftIB = left
                        _MemPut SndOut, SndOut.OFFSET + i&, LeftIB '                                         left channel contains sound data  16bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 2, 0 As INTEGER '                               right channel is silent
                        i& = i& + 4

                    Case 3 '24 bit
                        _MemPut SndOut, SndOut.OFFSET + i&, Left& 'SB '                                      left channel contains sound data  32bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 3, 0 As LONG '                                  right channel is silent
                        i& = i& + 6

                    Case 4 '32 bit
                        _MemPut SndOut, SndOut.OFFSET + i&, Left& 'SB '                                      left channel contains sound data  32bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 4, 0 As LONG '                                  right channel is silent
                        i& = i& + 8
                End Select



            Case 2
                ' MonoRight -  right channel contains audiodata, left nothing
                Select Case RecLen
                    Case 1 'tvori se 8 bitovy WAV
                        Dim RightUB As _Unsigned _Byte
                        RightUB = right
                        _MemPut SndOut, SndOut.OFFSET + i&, 0 As _UNSIGNED _BYTE '                      left channel is silent
                        _MemPut SndOut, SndOut.OFFSET + i& + 1, RightUB '                               right channel contains sound data  8bit
                        i& = i& + 2

                    Case 2
                        Dim RightIB As Integer
                        RightIB = right
                        _MemPut SndOut, SndOut.OFFSET + i&, 0 As INTEGER '                             left channel is silent
                        _MemPut SndOut, SndOut.OFFSET + i& + 2, RightIB '                              right channel contains sound data 16bit
                        i& = i& + 4
                    Case 3
                        _MemPut SndOut, SndOut.OFFSET + i&, 0 As LONG '                                 left channel is silent
                        _MemPut SndOut, SndOut.OFFSET + i& + 3, Right& '                                right channel contains sound data 32 bit
                        i& = i& + 6

                    Case 4
                        _MemPut SndOut, SndOut.OFFSET + i&, 0 As LONG '                                  left channel is silent
                        _MemPut SndOut, SndOut.OFFSET + i& + 4, Right& 'SB '                              right channel contains sound data 32 bit
                        i& = i& + 8
                End Select

            Case 4
                'Stereo
                Select Case RecLen
                    Case 1 '8 bite WAV
                        Dim As _Unsigned _Byte Rub, Lub
                        Rub = right
                        Lub = left
                        _MemPut SndOut, SndOut.OFFSET + i&, Lub '                                      left channel contains left audio data
                        _MemPut SndOut, SndOut.OFFSET + i& + 1, Rub '                                  right channel contains right audio data  8bit
                        i& = i& + 2

                    Case 2
                        Dim As Integer RIB, LIB
                        RIB = right
                        LIB = left
                        _MemPut SndOut, SndOut.OFFSET + i&, LIB '                                     left channel contains sound data 16 bit left
                        _MemPut SndOut, SndOut.OFFSET + i& + 2, RIB '                                 right channel contains sound data 16bit right
                        i& = i& + 4

                    Case 3
                        _MemPut SndOut, SndOut.OFFSET + i&, Left& '                                  left channel contains sound data 32 bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 3, Right& '                              right channel contains sound data 32 bit
                        i& = i& + 6

                    Case 4
                        _MemPut SndOut, SndOut.OFFSET + i&, Left& '                                  left channel contains sound data 32 bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 4, Right& '                              right channel contains sound data 32 bit
                        i& = i& + 8
                End Select

            Case 8
                'BothMono  (1 channel)

                Select Case RecLen
                    Case 1 '8 bite WAV
                        Dim As _Unsigned _Byte UBmono
                        UBmono = (right + left) / 2

                        _MemPut SndOut, SndOut.OFFSET + i&, UBmono '                                      left channel contains left audio data, track contains just one channel (is real MONO)
                        i& = i& + 1

                    Case 2 '16 bite WAV
                        Dim As Integer Imono
                        Imono = (right + left) / 2
                        _MemPut SndOut, SndOut.OFFSET + i&, Imono '                                        left channel contains sound data 16 bit, track contains just one channel (MONO)
                        i& = i& + 2

                    Case 3 '24 bite WAV
                        '
                        Smono& = (Right& + Left&) / 2
                        _MemPut SndOut, SndOut.OFFSET + i&, Smono& '                                         left channel contains sound data 32 bit, track contains just one channel
                        i& = i& + 3

                    Case 4 '32 bite WAV

                        Smono& = (Right& + Left&) / 2
                        _MemPut SndOut, SndOut.OFFSET + i&, Smono& '                                         left channel contains sound data 32 bit, track contains just one channel
                        i& = i& + 4
                End Select


            Case 16
                'PseudoStereo - PseudoRight defined upper
                Select Case RecLen
                    Case 1 '
                        Dim As _Unsigned _Byte pRub, pLub
                        pRub = PseudoRight
                        pLub = left
                        _MemPut SndOut, SndOut.OFFSET + i&, pLub '                                      left channel contains left audio data
                        _MemPut SndOut, SndOut.OFFSET + i& + 1, pRub '                                  right channel contains right audio data  - shifted by DELAY  8bit
                        i& = i& + 2

                    Case 2
                        Dim As Integer pRIB, pLIB
                        pRIB = PseudoRight
                        pLIB = left
                        _MemPut SndOut, SndOut.OFFSET + i&, pLIB '                                     left channel contains sound data 16 bit left
                        _MemPut SndOut, SndOut.OFFSET + i& + 2, pRIB '                                 right channel contains sound data 16bit right
                        i& = i& + 4

                    Case 3
                        _MemPut SndOut, SndOut.OFFSET + i&, Left& '                                  left channel contains sound data 32 bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 3, PseudoRight& '                              right channel contains sound data 32 bit
                        i& = i& + 6

                    Case 4
                        _MemPut SndOut, SndOut.OFFSET + i&, Left& '                                  left channel contains sound data 32 bit
                        _MemPut SndOut, SndOut.OFFSET + i& + 4, PseudoRight& '                              right channel contains sound data 32 bit
                        i& = i& + 8
                End Select
        End Select
    Next ReadIt


    'own save
    Type WAVhead
        chunk As String * 4 '       4 bytes  (RIFF)
        size As _Unsigned Long '              4 bytes  (file size)  velikost souboru
        fomat As String * 4 '       4 bytes  (WAVE)
        sub1 As String * 4 '        4 bytes  (fmt )
        subchunksize As Long '      4 bytes  (lo / hi), $00000010 for PCM audio
        format As Integer '         2 bytes  (0001 = standard PCM, 0101 = IBM mu-law, 0102 = IBM a-law, 0103 = IBM AVC ADPCM)
        channels As Integer '       2 bytes  (1 = mono, 2 = stereo)
        rate As Long '              4 bytes  (sample rate, standard is 44100)
        ByteRate As Long '          4 bytes  (= sample rate * number of channels * (bits per channel /8))
        Block As Integer '          2 bytes  (block align = number of channels * bits per sample /8)
        Bits As Integer '           2 bytes  (bits per sample. 8 = 8, 16 = 16)
        subchunk2 As String * 4 '   4 bytes  ("data")  contains begin audio samples
        lenght As _Unsigned Long '            4 bytes  Data block size
    End Type '                     44 bytes  total
    Dim WH As WAVhead

    WH.chunk = "RIFF"
    WH.size = 44 + ConvertOffset(SndOut.SIZE) - 8
    WH.fomat = "WAVE"
    WH.sub1 = "fmt "
    WH.subchunksize = 16
    WH.format = 1
    WH.channels = OutChannels
    WH.rate = SoundR
    WH.ByteRate = SoundR * OutChannels * (BR \ 8)
    WH.Block = OutChannels * (BR \ 8)
    WH.Bits = BR
    WH.subchunk2 = "data"
    WH.lenght = ConvertOffset(SndOut.SIZE)

    ff = FreeFile

    Open SaveAS$ For Binary As #ff
    tracklen$ = Space$(ConvertOffset(SndOut.SIZE))
    _MemGet SndOut, SndOut.OFFSET, tracklen$

    Put ff, , WH
    Put ff, , tracklen$

    tracklen$ = ""
    _MemFree SndOut
    Close ff

    SaveSound = 1
End Function

Function SNDGetBites (handle As _MEM)
    Select Case handle.TYPE
        Case 260: SNDGetBites = 1 ' 32-bit floating point SINGLE
        Case 132: SNDGetBites = 2 ' 32-bit integer LONG
        Case 130: SNDGetBites = 3 ' 16-bit integer INTEGER
        Case 1153: SNDGetBites = 4 ' 8-bit unsigned integer
    End Select
End Function

Function ConvertOffset&& (value As _Offset)
    $Checking:Off
    Dim m As _MEM 'Define a memblock
    m = _Mem(value) 'Point it to use value
    $If 64BIT Then
            'On 64 bit OSes, an OFFSET is 8 bytes in size.  We can put it directly into an Integer64
            _MEMGET m, m.OFFSET, Temp&& 'Get the contents of the memblock and put the values into Integer64 variable first
            ConvertOffset&& = temp&&
    $Else
        'However, on 32 bit OSes, an OFFSET is only 4 bytes.  We need to put it into a LONG variable first
        _MemGet m, m.OFFSET, temp& 'Like this
        ConvertOffset&& = temp& 'And then assign that long value to ConvertOffset&&
    $End If
    _MemFree m 'Free the memblock
    $Checking:On
End Function
'---------------------------------------------------------------------



 


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#5
When working with 8-bit raw, 128 is the zero-crossing not zero. Zero is the "bottom" of the waveform and 255 is the "top" when seen from Audacity or different audio editor. It's tricky after enough programming for 16-bit signed WAV. 22050 samples is a lot to fade out if using a sampling rate below 44100Hz which means a lot of "chipheads" still using ancient tracker music-creation software and players that support those formats won't use your function to create a WAV file. LOL.

Keep up the good work. I've always wanted to program stuff like this. Smile
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