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(02-18-2023, 03:38 PM)Petr Wrote: Hello everyone in the forum. Attached is a functional program, it is a cornerstone on a possible path to an equalizer. This one is mainly focused on deep frequencies, but you can try to influence frequencies up to 5KHz with it.
Thanks for sharing this, I will give it a try when back at my PC.
I wonder if it's possible to get this to work on live audio coming in from the PC's microphone?
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Quote:I wonder if it's possible to get this to work on live audio coming in from the PC's microphone?
As it is, so no, it's only intended for audio files on a computer opened with the SNDOPEN command. I don't know if Phoenix already supports microphone directly? If so, I would make a modification.
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(02-18-2023, 08:05 PM)Petr Wrote: You'll find all my programs ... you won't actually find them anymore. I will not spam the forum with past things, only on request.
I would like to see your programs, and I'm sure others here would too.
Why not ask the admins here to set you up a folder in the Prolific Programmers area?
That exists for people like you who have written a lot of programs to share, without spamming anyone!
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Quote:Why not ask the admins here to set you up a folder in the Prolific Programmers area?
It was due to an abject lack of time. I will ask for it, but I say in advance that the new things will be added there really very slowly. On the other hand, I think there are a few things that might be useful. This also applies to graphics.
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02-19-2023, 01:20 AM
(This post was last modified: 02-19-2023, 01:21 AM by SMcNeill.)
(02-18-2023, 09:52 PM)Petr Wrote: Quote:Why not ask the admins here to set you up a folder in the Prolific Programmers area?
It was due to an abject lack of time. I will ask for it, but I say in advance that the new things will be added there really very slowly. On the other hand, I think there are a few things that might be useful. This also applies to graphics.
Done.
"Prolific Programmers" was never intended to be some sort of exclusionary club -- it's a place where folks who post a lot of stuff can choose to keep all their own stuff in one place to help them find, maintain, and organize it. Anyone can get their own little corner there, if they want one.
https://qb64phoenix.com/forum/forumdisplay.php?fid=52
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Thank you, Steve
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Well, unfortunately. I have installed Phoenix on X86, 3.5.0, and the first program in this thread won't run, exactly as Jack describes. It throws an error that memory has been freed. The reason, according to my findings, is an internal Phoenix error, because the right audio channel (a2.SIZE = 0) is not loaded at all, and the left audio channel of the change shows an absurdly high value. Of course, I tried it on the same music file as in QB64 2.02. In QB64 2.02, everything works perfectly fine, without such problems. So please, if my programs don't work for you, report it here. I write it all in QB64 2.02.
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(02-19-2023, 03:39 PM)Petr Wrote: Well, unfortunately. I have installed Phoenix on X86, 3.5.0, and the first program in this thread won't run, exactly as Jack describes. It throws an error that memory has been freed. The reason, according to my findings, is an internal Phoenix error, because the right audio channel (a2.SIZE = 0) is not loaded at all, and the left audio channel of the change shows an absurdly high value. Of course, I tried it on the same music file as in QB64 2.02. In QB64 2.02, everything works perfectly fine, without such problems. So please, if my programs don't work for you, report it here. I write it all in QB64 2.02.
Maybe ask the QB64PE team to investigate this as a potential bug?
Perhaps examining the interrim C code that is produced when your program is compiled will reveal the root cause?
Good luck!
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02-19-2023, 08:55 PM
(This post was last modified: 02-19-2023, 08:59 PM by mnrvovrfc.)
I've noticed the "sudden" use of something like "ConvertOffset()" example in QB64 Wiki in post #10, might have to use it in the first program posted on this thread? I mean, checking the "dot-SIZE" field of a _MEM variable is the only way provided in QB64(PE) to see if the _MEMSOUND call was successful. Therefore it might not be reliable to indicate what is the extent of the loaded sound buffer.
What I mean is, _MEM variable "dot-SIZE" set to zero means either memory was previously allocated and then freed, or _MEMSOUND failed after being called. Some lossy-format files don't like being decoded as part of vain attempts to "protect" them...
Also on post #10 for 64-bit must change that function so it retrieves, and the function returns an _INTEGER64. (Double ampersand sigil.)
EDIT: just noticed the new thread under "Announcements" forum. :/
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So. The rework of the Bass EQ for Phoenix 3.5.0 from the QB64 2.02 version was done much faster than I expected.
I have a few remarks to make about this work. This program uses subsampling, as I wrote in the post earlier. Finally, since my computer samples 192000 samples per second (which is absolutely perfect), it would take far more calculations than at a sample rate of 44100. So the program has to subsample the source MEM arrays to get as close to 44100 mathematically as possible, but also my the sample rate of 192000 must be divisible by this number without a remainder. If a decimal number were to come out, the sound would slow down.
So (in my case) the audio has a sample rate of 48000 Hz after going through subsampling instead of 192000 Hz. This ratio is given by the ratio variable.
Attention! When playing with the _SNDRAW command, this command naturally expects to receive 192000 samples per second. So, if you feed it a 48000Hz subsampled signal, you get nonsense. Therefore, it is necessary to play each supplied sample 4 times with the SNDRAW command (because 192,000 / 48,000 = ratio and that is the number 4). This will upscale the signal to the same sampling rate as SNDRATE and program play as expected.
I'll add another description from the previous post to keep it together.
The equalization itself is further implemented by choosing the mix ratio between this triangular signal and the original signal. These are added up and the result is then replayed. Basically, I had it in front of me in the past when I was creating WAVSAVE, but it didn't even occur to me at the time.
Before actually trying this program, I will first warn you about 4 things.
1) I tested the program only in a 32-bit IDE
2) I do not guarantee the correctness of this procedure, although it returns a fairly decent signal at deep frequencies
3) Turn down your speakers before trying, seriously loud production this time can destroy them.
4) Place correct music file name on row 3 in source code before compiling.
Program control is described in the program:
It's fully open, so you can even listen to the triangle signal itself and change the mixing level of the original signal. An equalizer should be made in a similar way, when the individual frequency curves will be mixed together with the original curve.
If someone comes up with a better solution, let them know.
Signal mixing with keys < and >
triangle signal volume (default ist 100%) can be set with keys + and -
frequency setting with keys q,w or Q,W
Code: (Select All) $NoPrefix
_Title "Give me more BASS!"
s$ = "e.mp3" 'PLECE HERE CORRECT MUSIC FILE NAME!
s = SndOpen(s$)
Dim As MEM LS, RS, L, R, O 'arrays with default original MP3 values
Dim As Integer L1, R1, L2, R2, NL, NR 'L1, R1 - integers contains original signal values from MEMSOUND arrays, L2, R2 - the same as L1 and R1 but shifted right by KROK value, so if is created 100 Hz signal,
' so L2 and R2 are shifted by 441 records in MEMSOUND array to right, NL, NR - for mixing both - new and original signal to new signal
'LS = MemSound(s, 1)
'RS = MemSound(s, 2)
O = _MemSound(s, 0)
BackCompatible O, L, R
_MemFree O
'-------------------- downsampling block begin -----------------------
Proposal = 44100 'my proposal for minimal soundrate - but this is not dividible by my SndRate 192 Khz
Do Until _SndRate Mod Proposal = 0
Proposal = Proposal + 2 ' why + 2: sound output is WAV 16 bit, 16 bit = 2 bytes, INTEGER has lenght 2 bytes and INTEGER is used in WAV data block for saving sound information (just in 16 bit WAV)
Loop
Ratio = _SndRate \ Proposal 'downsampling to 48000 Hz, my sndrate 192000 is dividible by 48000, not by 44100 (SaveSound16S is also upgraded, but it is still for saving without _SndNew)
LS = _MemNew(L.SIZE \ Ratio)
RS = _MemNew(R.SIZE \ Ratio)
Done& = 0
Do Until Done& >= L.SIZE - Ratio * 4
L1 = _MemGet(L, L.OFFSET + Done&, Integer)
_MemPut LS, LS.OFFSET + i&, L1
R1 = _MemGet(R, R.OFFSET + Done&, Integer)
_MemPut RS, RS.OFFSET + i&, R1
i& = i& + 2
Done& = Done& + Ratio * 2
Loop
'-------------------- downsampling block end -----------------------
_MemFree L
_MemFree R
L1 = 0: R1 = 0
'ensure that the LS and RS fields are divisible by the KROK value
Dim As Offset MaxKrok, stp, krok 'varibles for reading MEMSOUND array
Dim As _Float PropocetL, PropocetR ' variables for calculating TRIANGLE signal
krok = 220 'Default is program set to creating 100 Hz (Bass) signal
MaxKrok = LS.SIZE 'maximal steps value for MEM functions
Screen NewImage(1200, 768, 256) 'graphis screen for visualising output signal
Do Until MaxKrok Mod krok * 2 = 0 'this loop ensures that when reading the field MEMSOUND to create a new signal, the field will not overflow and Memory out of range not occur.
MaxKrok = MaxKrok - 1
Loop
'Default settings
mix = .25 'Original signal MIX level to output signal (is not volume level)
Volume = 1 'Created Signal (Created Signal) volume level
Locate 1: Print "Original Signal:"; Int(mix * 100); "%"; " Created Signal:"; Int((1 - mix) * 100); "%"; " "
Locate 1, 90: Print "Created Signal Volume Level:"; Int(Volume * 100); " "
Locate 2, 1: Print "Use the < and > keys to set the ratio between the original and generated signal, Q and W for freq. change, + and - for generated signal volume level."
Do Until stp >= MaxKrok - krok * 4 'read MEMSOUND array in full range
MemGet LS, LS.OFFSET + stp, L1 'read left original signal
MemGet RS, RS.OFFSET + stp, R1 'read right original signal
MemGet LS, LS.OFFSET + stp + krok * 2, L2 'read left original signal shifted to right by krok's value
MemGet RS, RS.OFFSET + stp + krok * 2, R2 'read right original signal shifted to right by krok's value
stp = stp + krok * 2 '* 2 - values in MEMSOUND array are INTEGERS, 2 Bytes long
PropocetL = (L2 - L1) / ConvertOffset(krok) 'calculation of the size of the increase or decrease of the signal to create a triangular signal [LEFT]
PropocetR = (R2 - R1) / ConvertOffset(krok) 'calculation of the size of the increase or decrease of the signal to create a triangular signal [RIGHT]
PrL = PropocetL
PrR = PropocetR
NL = L1 'reset this value (NL) to start value before create new triangle signal for left channel
NR = R1 'reset this value (NR) to start value before create new triangle signal for right channel
es = 0
If _SndRate < 48000 Then snr = 44100 Else snr = 48000
Locate 1, 60: Print "Frequency curve: [Hz] "; snr / krok
Locked = 0 'for the possibility of changing the frequency during playback
Do Until es = krok 'it only reads the slice of the memsound field in which the new signal is formed
'keyborad program setup
k$ = InKey$
Select Case k$
Case ",", "<": mix = mix + .01: Locate 1: Print "Original Signal:"; Int(mix * 100); "%"; " Created Signal:"; Int(bmix * 100); "%"; " "
Case ".", ">": mix = mix - .01: Locate 1: Print "Original Signal:"; Int(mix * 100); "%"; " Created Signal:"; Int(bmix * 100); "%"; " "
Case "+": Volume = Volume + .1
If Volume > 2 Then Volume = 2
Locate 1, 90: Print "Created Signal Volume Level:"; Int(Volume * 100); " " ' Volume - is created signal volume level
Case "-": Volume = Volume - .1
If Volume < 0 Then Volume = 0
Locate 1, 90: Print "Created Signal Volume Level:"; Int(Volume * 100); " "
Case "Q", "q"
If Locked = 0 Then
Locked = 1
krok = krok + 10
If krok > 550 Then krok = 550
MaxKrok = LS.SIZE
Do Until MaxKrok Mod krok * 2 = 0
MaxKrok = MaxKrok - 1
Loop
If _SndRate < 48000 Then snr = 44100 Else snr = 48000
Locate 1, 60: Print "Frequency curve: [Hz] "; snr / krok / 2 'we working with downsamples source
Exit Do
End If
Case "W", "w"
If Locked = 0 Then
Locked = 1
krok = krok - 10
If krok < 1 Then krok = 1
MaxKrok = LS.SIZE
Do Until MaxKrok Mod krok * 2 = 0
MaxKrok = MaxKrok - 1
Loop
If _SndRate < 48000 Then snr = 44100 Else snr = 48000
Locate 1, 60: Print "Frequency curve: [Hz] "; snr / krok / 2
Exit Do
End If
End Select
If mix < 0 Then mix = 0
If mix > 1 Then mix = 1
bmix = 1 - mix
posuvX = posuvX + 1 'variable for shift curve on the screen, just for graphic, not for own sound function
If posuvX = Width Then posuvX = 1
Line (posuvX, 40)-(posuvX, Height), 0, BF
MemGet LS, LS.OFFSET + (stp - krok * 2) + es * 2, L1 'krok and es varibles must be multiplied by two, because MEMGET reads INTEGER values.
MemGet RS, RS.OFFSET + (stp - krok * 2) + es * 2, R1
SL = L1 * mix / 32768 + (NL / 32768 * bmix * Volume) 'the same as for R1 but for left channel.
sR = R1 * mix / 32768 + (NR / 32768 * bmix * Volume) 'R1 is original signal, mix is R1 percentage level in new signal, NR is created signal, bmix is percentage level for NR and volume is NR volume level.
For UpSampling = 1 To Ratio
SndRaw SL, sR
Next
NL = NL + PrL 'signal calculation - fall or rise - formation of a triangular waveform [LEFT]
NR = NR + PrR 'signal calculation - fall or rise - formation of a triangular waveform [RIGHT]
es = es + 1
Line (posuvX, (Height / 2 - SL * 100))-(posuvX, (Height / 2 + SL * 100)), , BF 'draw output signal to screen
Do Until SndRawLen < 0.1 'wait until all music samples are playing
Loop
Loop
Loop
_SndClose s
_MemFree LS
_MemFree RS
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 BackCompatible (Snd As _MEM, Left As _MEM, Right As _MEM)
If Snd.SIZE = 0 Then
Print "Original sample data array is empty."
Exit Sub
End If
Dim SndChannels As Long, ChannelLenght As _Offset
Select Case Snd.TYPE
Case 260 ' 32-bit floating point
ChannelLenght = Snd.SIZE \ 4 'return size in INTEGERS
If Snd.ELEMENTSIZE = 4 Then
SndChannels = 1
ElseIf Snd.ELEMENTSIZE = 8 Then
SndChannels = 2
End If
Case 132 ' 32-bit integer
ChannelLenght = Snd.SIZE \ 4 'return size in INTEGERS
If Snd.ELEMENTSIZE = 4 Then
SndChannels = 1
ElseIf Snd.ELEMENTSIZE = 8 Then
SndChannels = 2
End If
Case 130: ' 16-bit integer
ChannelLenght = Snd.SIZE \ 2 'return size in INTEGERS
If Snd.ELEMENTSIZE = 2 Then
SndChannels = 1
ElseIf Snd.ELEMENTSIZE = 4 Then
SndChannels = 2
End If
Case 1153: ' 8-bit unsigned integer
ChannelLenght = Snd.SIZE 'return size in INTEGERS
If Snd.ELEMENTSIZE = 1 Then
SndChannels = 1
ElseIf Snd.ELEMENTSIZE = 2 Then
SndChannels = 2
End If
End Select
Left = _MemNew(ChannelLenght)
Right = _MemNew(ChannelLenght)
Dim As Integer LI, RI
Dim As Long Oi
Dim i As _Offset
Do Until i = Snd.SIZE - Snd.ELEMENTSIZE 'Read Phoenix MEMSOUND and convert it as back-compatible as QB64 2.02 MEMSOUND's output.
Select Case SndChannels
Case 1
Select Case Snd.TYPE
Case 260: sampL = _MemGet(Snd, Snd.OFFSET + i, Single) ' 32-bit floating point
Case 132: sampL = _MemGet(Snd, Snd.OFFSET + i, Long) / 2147483648 ' 32-bit integer
Case 130: sampL = _MemGet(Snd, Snd.OFFSET + i, Integer) / 32768 ' 16-bit integer
Case 1153: sampL = (_MemGet(Snd, Snd.OFFSET + i, _Unsigned _Byte) - 128) / 128 ' 8-bit unsigned integer
End Select
Case 2
Select Case Snd.TYPE
Case 260: sampL = _MemGet(Snd, Snd.OFFSET + i, Single): sampR = _MemGet(Snd, Snd.OFFSET + i + Snd.ELEMENTSIZE \ 2, Single) ' 32-bit floating point
Case 132: sampL = _MemGet(Snd, Snd.OFFSET + i, Long) / 2147483648: sampR = _MemGet(Snd, Snd.OFFSET + i + Snd.ELEMENTSIZE \ 2, Long) / 2147483648 ' 32-bit integer
Case 130: sampL = _MemGet(Snd, Snd.OFFSET + i, Integer) / 32768: sampR = _MemGet(Snd, Snd.OFFSET + i + Snd.ELEMENTSIZE \ 2, Integer) / 32768 ' 16-bit integer
Case 1153: sampL = (_MemGet(Snd, Snd.OFFSET + i, _Unsigned _Byte) - 128) / 128: sampR = (_MemGet(Snd, Snd.OFFSET + i + Snd.ELEMENTSIZE \ 2, _Unsigned _Byte) - 128) / 128 ' 8-bit unsigned integer
End Select
End Select
If SndChannels Mod 2 = 0 Then
LI = sampL * 32767
RI = sampR * 32767
_MemPut Left, Left.OFFSET + Oi, LI
_MemPut Right, Right.OFFSET + Oi, RI
Else
LI = sampL * 32767
_MemPut Left, Left.OFFSET + Oi, LI
_MemPut Right, Right.OFFSET + Oi, LI
End If
i = i + Snd.ELEMENTSIZE
Oi = Oi + 2
Loop
End Sub
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