=begin RD

=ruby-audiofile 0.2
==a ruby binding to the audiofile library, surprisingly enough
==The underlying library

The ((<"http://dreamscape.68.org/~michael/audiofile"|audiofile library>))
was originally proprietary to SGI, and was used in Irix to read and
write audio files of various types: wav, aiff, au, etc. After a bit of coding
by Michael Pruett, and a few more things, it's no longer proprietary, though 
some parts are not yet in existence. We'll talk about that later. But here's 

===What audiofile does:

* Reads audio files of various types 
* Supports mu-law and A-law compression and uncompressed files
* Provides information on them, such as sampling rate, sample type, etc.
* Can switch byte order on the fly while reading, for user convenience
* Writes audio files
* Supports weird extensions (e.g. instruments in AIFF files, loops in WAV files)

===But audiofile doesn't:

* Read MP3's
* Read Vorbis files (see ((<"http://www.xiph.org/ogg/vorbis/">)) for that)
* Write either of these
* Resample files on the fly while writing or reading (yet)
* Change sample formats or compression on the fly (yet)
* Support multitrack files (yet). It does support multiple ((*channels*)),
  i.e. stereo and whatnot, but doesn't support any formats yet that can store
  multiple ((*tracks*)).

==This binding

This extension is a binding of the audiofile library to the Ruby language. With
the aid of this super-wonderful extension, you can do everything you could do
with audiofile in Ruby, except:

===Things supported by audiofile, but not ruby-audiofile

* reading non-raw files in a raw way
* handling errors elegantly (error handling works fairly well, but may
  need changes)
* querying the capabilities of the library itself, a la afQuery
* messing with loops, instruments, text data, or anything but the audio itself
  (this is coming later)
* doing anything that audiofile has API for, but doesn't actually support

The last item may need a small bit of explanation: there are a number of 
functions declared in audiofile.h (or commented out) which show that the
author has a clear idea of what it will look like to the user of the library
to use these not-yet-supported features, but there's not actually any code
behind these declarations. 

==ruby-audiofile version 0.2.1

Version 0.2 adds file writing support, and fixes a bug with #read where
it returned half the data it was supposed to. Also the API has changed
some; the real_ prefixes no longer exist and there is a new virtual_
prefix. This makes code using ruby-audiofile shorter and more succinct.

Version 0.2.1 takes out a couple of debugging printf's i accidentally left in, and changes the width/width= methods to bits/bits= to fit better with Linux::SoundDSP. Minor documentation changes as well.

==How to install
Either inside a Ruby source tree, or inside the Ruby library directory (for me,
/usr/lib/ruby/1.6/i386-linux), untar the archive, change into the audiofile
directory, and run these commands:
  ruby extconf.rb
  make
  su
  make install

==How to use

In your scripts,
  require 'audiofile'
This defines the AudioFile class, which has the following methods:

===AudioFile class

--- AudioFile.new( filename, [mode] )
--- AudioFile.open( filename, [mode] )
Open a new AudioFile and return it. Hopefully, the filename needs no
explanation. The mode is either "r" or "w". The filesetup is only needed when
writing files, and describes the sample-rate, sample-type, file type, etc.

If you're writing a file, you should know how writing actually
happens. When you open a file for writing using the audiofile extension,
it is not actually opened until you write to it. This is so that you
can set the properties of the file (file format, sample width, number
of channels, etc.; see below for these methods). If you do not set
all of the properties of the file, you will get undefined results. The
properties that must be set are (in order of the length of their names):

* rate
* bits
* channels
* byte_order
* compression
* file_format
* sample_format

--- AudioFile#close
Close the file.

--- AudioFile#read( [frames] )
Read frames frames from the file. A ((:frame:)) is one sample for each channel.
So in a 44100Hz, 16-bit, stereo file, a frame would take four bytes: two for 
the left channel, and two for the right. (Two bytes is 16 bits of course.)
This returns a new string every time, so if you're reading many times from an
audio file, read_into is suggested. That way your script will not grow huge in
memory.

--- AudioFile#read_into( string )
Read into string from the file. This replaces the contents of the string by 
reading the largest number of frames that will fit into the current length of
the string. It returns the number of bytes actually read. Example use:
  string = " " * 32
  file.read_into(string)

--- AudioFile#write( string )
Write the string to the file. See the note under #open for how this happens
and how that affects you. 

Also note that both #read_into and #write round to the frame. That is,
read_into will only read as many whole frames as fit into the string you
give it, and write will only write as many whole frames as are contained
in the string you pass to it.

--- AudioFile#flush
Flush the write buffers for the file.

--- AudioFile#pos
Returns the current position inside the file, in frames. (See #read
about frames.)

--- AudioFile#pos=( [new_pos] )
Move to a new position inside the file. The position is specified in frames.
You cannot move backwards inside the file; #pos= will throw an exception if you
do. 

--- AudioFile#frame_count
Returns how many frames are in this file.

--- AudioFile#virtual_byte_order=( [new_byte_order] )
Sets the virtual byte order. new_byte_order should be either 
AudioFile::BIG_ENDIAN or AudioFile::LITTLE_ENDIAN. 

When you read from the file, this byte order is the one the results will come 
back in. So if you are reading a little-endian file and you use #byte_order= 
AudioFile::BIG_ENDIAN, then #read, the data you get will be in big-endian byte 
order, because the library will switch the bytes on the fly.

Conversely, if you are writing a file, and you set the virtual byte order,
and write to the file, the library will use the bytes you give it in the
virtual byte order, and swap them as needed in order to get them in the
file in the real byte order.

--- AudioFile#virtual_byte_order
Returns the virtual byte order. This will be one of:
* AudioFile::BIG_ENDIAN
* AudioFile::LITTLE_ENDIAN

--- AudioFile#byte_order
Returns the real byte order. See the constants above. This is the byte
order in which the file is stored and does not change when you use
#virtual_byte_order=.

--- AudioFile#byte_order=
Sets the real byte order. For use when writing files only. Use before
actually writing to the file.

--- AudioFile#compression
Returns the real compression type, which will be one of:
* AudioFile::UNKNOWN
* AudioFile::NONE
* AudioFile::G722
* AudioFile::G711_ULAW
* AudioFile::G711_ALAW
or one of these, all of which are unsupported by the audiofile library:
* AudioFile::APPLE_ACE2
* AudioFile::APPLE_ACE8
* AudioFile::APPLE_MAC3
* AudioFile::APPLE_MAC6
* AudioFile::G726
* AudioFile::G728
* AudioFile::DVI_AUDIO
* AudioFile::GSM
* AudioFile::FS1016

--- AudioFile#compression=
Sets the real compression type. See the constants above. For use when
writing files only. Use before actually writing to the file.

--- AudioFile#sample_format
Returns the real sample format, which will be one of:
* AudioFile::TWOS_COMPLEMENT
* AudioFile::UNSIGNED
* AudioFile::FLOAT
* AudioFile::DOUBLE

--- AudioFile#sample_format=
Sets the real sample format. See the constants above. For use when
writing files only. Use before actually writing to the file.

--- AudioFile#bits
Returns the number of bits in a sample. Commonly, this is 8 or 16. Some
of the file formats supported support sample widths greater than 16,
which are usually 24 or 32. The default behavior of the library is to
pad 24-bit samples to 32 bits for speed of handling. To change this,
look for the EXPAND_3TO4 define in the source (audiofile.c, around line
90), change and recompile.

--- AudioFile#bits=
Sets the number of bits in a sample. For use when writing files only. Use
before actually writing to the file.

--- AudioFile#rate
Returns the number of samples per second. (commonly 44100, 22050, etc.)

--- AudioFile#rate=
Sets the number of samples per second. For use when writing files
only. Use before actually writing to the file.

--- AudioFile#channels
Returns the number of channels. (commonly 1 or 2)

--- AudioFile#channels=
Sets the number of channels. For use when writing files only. Use before
actually writing to the file.

--- AudioFile#pcm_mapping=( param )
param is an array containing four floats, corresponding to the slope, 
intercept, minimum clip and maximum clip values. This alters how the library
sees the samples. Example:
  file.real_pcm_mapping = [0.0, 1.0, -1.0, 1.0]
You now know almost as much about this as I do. (Which isn't much.)

== About the virtual_ prefix on method names
The audiofile library (ideally) supports complete virtualization of all 
parameters of a sound file (sampling frequency, sample type, compresson...)
such that the library would translate on the fly from the format in the file
to the format the user of the library wishes to read. All of this support isn't
in place yet: in fact, the only thing that is virtualized right now is the byte
order. So when complete virtualization is supported, my binding will have 
#virtual_sample_rate=, #virtual_sample_format=, etc. methods. Right now
there's only #virtual_byte_order and #virtual_byte_order=.

== Have fun with it!
If you have any more questions about AudioFile, you can look at the source
(by the way, many thanks to matz for writing extensions before I did; I copied
the structure of my extension from gdbm, which he wrote). Or you can ask me 
questions at ((<"mailto:liver@soon.com"|liver@soon.com>)). Or try to
catch me on irc.openprojects.net channel #ruby-lang, as sarynx. (If it's
not during the [Northern Hemisphere] summer you might not see me much
there. Go for the email.)

If you use this extension in a Ruby app, I'd love to know! Email me and tell
me.

== Next version
Might support querying the library for its capabilities. Might support
non-strictly-audio data parts like instruments and loops.

The methods that return constants will hopefully end up more elegant in
some way.