Fast Forward and fastBackward with sound in ActionScript3, is it possible? - audio

Is it possible to create functionality like fast forward and fast backward of given sound file that plays in swf with AtionScrip3 and how?

It is possible.
Take a look at SampleDataEvent, it allows you to manipulate the bytes of a sample before it is played. To play faster, to just have to skip one float every two. To play slower, to may write twice the same float.

If you do this, it "stutters" or repeats subsecond samples. Its as if it expects to take up N amounts of time and if your sample is N/2 mills long, it loops.

Related

Addition of PCM Audio Files - Mixing Audio

I am posed with the task of mixing raw data from audio files. I am currently struggling to get a clean sound from mixing the data, I keep getting distortion or white noise.
Lets say that I have a two byte array of data from two AudioInputStream's. The AIS is used to stream a byte array from a given audio file. Here I can playback single audio files using SourceDataLine's write method. I want to play two audio files simultaneously, therefore I am aware that I need to perform some sort of PCM addition.
Can anyone recommend whether this addition should be done with float values or byte values? Also, when it comes to adding 3,4 or more audio files, I am guessing my problem will be even harder! Do I need to divide by a certain amount to avoid this overflow? Lets say I am adding two 16-bit audio files (min -32,768, max 32,767).
I admit, I have had some advice on this before but can't seem to get it working! I have code of what I have tried but not with me!
Any advice would be great.
Thanks
First off, I question whether you are actually working with fully decoded PCM data values. If you are directly adding bytes, that would only make sense if the sound was recorded at 8-bit resolution, which is done less and less. These days, audio is recorded more commonly as 16-bit values, or more. I think there are some situations that don't require as much frequency content, but with current systems, the cpu savings aren't as critical so people opt to keep at least "CD Quality" (16-bit resolution, stereo, 41000 fps).
So step one, you have to make sure that you are properly converting the byte streams to valid PCM. For example, if 16-bit encoding, the two bytes have to be appended in the correct order (may be either big-endian or little-endian), and the resulting value used.
Once that is properly handled, it is usually sufficient to simply add the values and maybe impose a min and max filter to ensure the signal doesn't go beyond the defined range. I can think of two reasons why this works: (a) audio is usually recorded at a low enough volume that summing will not cause overflow, (b) the signals are random enough, with both positive and negative values, that moments where all the contributors line up in either the positive or negative direction are rare and short-lived.
Using a min and max will "clip" the signals, and can introduce some audible distortion, but it is a much less horrible sound than overflow! If your sources are routinely hitting the min and max, you can simply multiply a volume factor (within the range 0 to 1) to one or more of the contributing signals as a whole, to bring the audio values down.
For 16-bit data, it works to perform operations directly on the signed integers that result from appending the two bytes together (-32768 to 32767). But it is a more common practice to "normalize" the values, i.e., convert the 16-bit integers to floats ranging from -1 to 1, perform operations at that level, and then convert back to integers in the range -32768 to 32767 and break those integers into byte pairs.
There is a free book on digital signal processing that is well worth reading: Steven Smith's "The Scientists and Engineers Guide to Digital Signal Processing." It will give much more detail and background.

How to decrease pitch of audio file in nodejs server side?

I have a .MP3 file stored on my server, and I'd like to modify it to be a bit lower in pitch. I know this can be achieved by increasing the length of the audio, however, I don't know of any libraries in node that can do this.
I've tried using the node web audio api, and soundbank-pitch-shift, but the former doesn't seem to have the capabilities of pitch shifting (AFAIK), and the latter seems designed toward client
I need the solution within the realm of node ONLY- that means no external programs, etc., and it needs to be automated as well, so I can't manually pitch shift.
An ideal solution would be a function that takes a file/filepath as an input, and then creates (or overwrites) another MP3 file but with the pitch shifted by x amount, but really, any solution that produces something with a lower pitch than the original, works.
I'm totally lost here. Please help.
An audio file is basically a list of numbers. Those numbers are read one at a time at a particular speed called the 'sample rate'. The sample rate is otherwise defined as the number of audio samples read every second e.g. if an audio files sample rate is 44100, then there are 44100 samples (or numbers) read every second.
If you are with me so far, the simplest way to lower the pitch of an audio file is to play the file back at a lower sample rate (which is normally fixed in place). In most cases you wont be able to do this, so you need to achieve the same effect by resampling the file i.e adding new samples to the file in between the old samples to make it literally longer. For this you would need to understand interpolation.
The drawback to this technique in either case is that the sound will also play back at a slower speed, as well as at a lower pitch. If it is a problem that the sound has slowed down as well as lowered in pitch as a result of your processing, then you will also have to use a timestretching algorithm to fix the playback speed.
You may also have problems doing this using MP3 files. In this case you may have to uncompress the data in the MP3 file before you can operate on it in such a way that changes the pitch of the file. WAV files are more ideal in audio processing. In any case, you essentially need to turn the file into a list of floating point numbers, and change those numbers to be effectively read back at a slower rate.
Other methods of pitch shifting would probably need to involve the use of ffts, and would be a more complicated affair to say the least.
I am not familiar with nodejs I'm afraid.
I managed to get it working with help from Ollie M's answer and node-lame.
I hadn't known previously that sample rate could affect the speed, but thanks to Ollie, suddenly this problem became a lot more simple.
Using node-lame, all I did was take one of the examples (mp32wav.js), and make it so that I change the parameter sampleRate of the format object, so that it is lower than the base sample rate, which in my application was always a static 24,000. I could also make it dynamic since node-lame can grab the parameters of the input file in the format object.
Ollie, however perfectly describes the drawback with this method
The drawback to this technique in either case is that the sound will
also play back at a slower speed, as well as at a lower pitch. If it
is a problem that the sound has slowed down as well as lowered in
pitch as a result of your processing, then you will also have to use a
timestretching algorithm to fix the playback speed.
I don't have a particular need to implement a time stretching algorithm at the moment (thankfully, because that's a whole other can of worms), since I have the ability to change the initial speed of the file, but others may in the future.
See https://www.npmjs.com/package/audio-decode, https://github.com/audiojs/audio-buffer, and related linked at bottom of audio-buffer readme.

audio mixing wrt time

I've read through many questions on stack overflow which states that to mix the audios, you just have to add the byte frames together (and make sure to clip when necessary). But what should I do if I want to say mix an audio with an another with some offset. For example, I want to mix second audio into the first one when the first audio reaches 5th second.
Any help would be appreciated!
Typically when working with audio on a computer, you will be working with audio in the time domain, in the format of PCM samples. That is, many times per second, the pressure level at that point of time will be measured an quantified into a number. If you are working with CD-quality audio, 44,1000 samples per second is the sample rate. The number is often quantified into 16-bit integers. (-32,767 to 32,768). (Other sample rates, bit depths, and quantization are out there and often used, this is just an example.)
If you want to mix two audio streams of the same sample rate, it is possible to simply add the values of each sample together. If you think about it, if you were to hear sound from two sources, their pressure levels would affect each other in much the same way. Sometimes they will cancel each other out, sometimes they will add to each other. You mentioned clipping... you can do this, but you will be introducing distortion into the mix. When a sound is too loud to be quantified, it is clipped at the maximum and minimums of the quantifiable range, causing audible clicks, pops, and poor quality sound. If you want to avoid this problem, you can cut the level of each in half, guaranteeing that even with both streams at their maximum level, they will be within the appropriate range.
Now, your question is about mixing audio with offset. It's absolutely no different. If you want to start mixing 5 seconds in, then 5 * 44,100 = 220500, meaning align sample zero of one stream to sample 220500 of the other stream and mix.

Estimating the time-position in an audio using data?

I am wondering on how to estimate where I am currently in an audio with regards to time, by using the data.
For example, I read data by byte[8192] blocks. How can I know how much byte[8192] is equivalent to in time?
If this is some sort of raw-ish encoding, like PCM, this is simple. The length in time is a function of the sample rate, bit depth, and number of channels. 30 seconds of 16-bit audio at 44.1kHz in mono is 2.5MB. However, you also need to factor in headers and container format crapola. WAV files for example can have a lot of other stuff in them.
Compressed formats are much more tricky. You can never be sure where you are without playing through the file to get to where you are. Of course you can always guesstimate based on the percentage of the file length, if that is good enough for your case.
I think this is not what he was asking.
First you have to tell us what kind of data you are using. WAV? MP3? Usually without knowing where that block came from - so you know if you have some kind of frame information and where to find it - you are not able to determine that block's position.
If you have the full stream and this data then you can do a search

How to mix audio samples?

My question is not completely programming-related, but nevertheless I think SO is the right place to ask.
In my program I generate some audio data and save the track to a WAV file. Everything works fine with one sound generator. But now I want to add more generators and mix the generated audio data into one file. Unfortunately it is more complicated than it seems at first sight.
Moreover I didn't find much useful information on how to mix a set of audio samples.
So is there anyone who can give me advice?
edit:
I'm programming in C++. But it doesn't matter, since I was interested in the theory behind mixing two audio tracks. The problem I have is that I cannot just sum up the samples, because this often produces distorted sound.
I assume your problem is that for every audio source you're adding in, you're having to lower the levels.
If the app gives control to a user, just let them control the levels directly. Hotness is their responsibility, not yours. This is "summing."
If the mixing is automated, you're about to go on a journey. You'll probably need compression, if not limiting. (Limiting is an extreme version of compression.)
Note that anything you do to the audio (including compression and limiting) is a form of distortion, so you WILL have coloration of the audio. Your choice of compression and limiting algorithms will affect the sound.
Since you're not generating the audio in real time, you have the possibility of doing "brick wall" limiting. That's because you have foreknowledge of the levels. Realtime limiting is more limited because you can't know what's coming up--you have to be reactive.
Is this music, sound effects, voices, what?
Programmers here deal with this all the time.
Mixing audio samples means adding them together, that's all. Typically you do add them into a larger data type so that you can detect overflow and clamp the values before casting back into your destination buffer. If you know beforehand that you will have overflow then you can scale their amplitudes prior to addition - simply multiply by a floating point value between 0 and 1, again keeping in mind the issue of precision, perhaps converting to a larger data type first.
If you have a specific problem that is not addressed by this, feel free to update your original question.
dirty mix of two samples
mix = (a + b) - a * b * sign(a + b)
You never said what programming language and platform, however for now I'll assume Windows using C#.
http://www.codeplex.com/naudio
Great open source library that really covers off lots of the stuff you'd encounter during most audio operations.

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