/usr/lib/puredata/extra/expr~/README.txt is in puredata-extra 0.46.7-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 | You can get more information on the expr object at
http://www.crca.ucsd.edu/~yadegari/expr.html
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New if Version 0.4
-access to variables (made by value object)
-multiple expression separated by ;
-added the following shorthands:
$y or $y1 = $y1[-1] and $y2 = $y2[-1]
-new functions:
if - conditional evaluation
cbrt - cube root
erf - error function
erfc - complementary error function
expm1 - exponential minus 1,
log1p - logarithm of 1 plus
isinf - is the value infinite,
finite - is the value finite
isnan -- is the resut a nan (Not a number)
copysign - copy sign of a number
ldexp - multiply floating-point number by integral power of 2
imodf - get signed integral value from floating-point number
modf - get signed fractional value from floating-point number
drem - floating-point remainder function
Thanks to Orm Finnendahl for adding the following functions:
fmod - floating-point remainder function
ceil - ceiling function: smallest integral value not less than argument
floor - largest integral value not greater than argument
------------
New in Version 0.3
-Full function functionality
------------
The object "expr" is used for expression evaluaion of control data.
Expr~ and fexpr~ are extentions to the expr object to work with vectors.
The expr~ object is designed to efficiently combine signal and control
stream processing by vector operations on the basis of the block size of
the environment.
fexpr~ object provides a flexible mechanism for building FIR and
IIR filters by evaluating expressions on a sample by sample basis
and providing access to prior samples of the input and output audio
streams. When fractional offset is used, fexpr~ uses linear interpolation
to determine the value of the indexed sample. fexpr~ evaluates the
expression for every single sample and at every evaluation previous
samples (limited by the audio vector size) can be accessed. $x is used to
denote a singnal input whose samples we would like to access. The syntax
is $x followed by the inlet number and indexed by brackets, for example
$x1[-1] specifies the previous sample of the first inlet. Therefore,
if we are to build a simple filter which replaces every sample by
the average of that sample and its previous one, we would use "fexpr~
($x1[0]+$x1[-1])/2 ". For ease of when the brackets are omitted, the
current sample is implied, so we can right the previous filter expression
as follows: " fexpr~ ($x1+$x1[-1])/2". To build IIR filters $y is used
to access the previous samples of the output stream.
The three objects expr, expr~, and fexpr~ are implemented in the same object
so the files expr~.pd_linux and fexpr~.pd_linux are links to expr.pd_linux
This release has been compiled and tested on Linux 6.0.
--------
Here are some syntax information: (refer to help-expr.pd for examples)
Syntyax:
The syntax is very close to how expression are written in
C. Variables are specified as follows where the '#' stands
for the inlet number:
$i#: integer input variable
$f#: float input variable
$s#: symbol input variable
Used for expr~ only:
$v#: signal (vector) input (vector by vector evaluation)
Used for fexpr~ only:
$x#[n]: the sample from inlet # indexed by n, where n has to
satisfy 0 => n >= -vector size,
($x# is a shorthand for $x#[0], specifying the current sample)
$y#[n]: the output value indexed by n, where n has to
satisfy 0 > n >= -vector size,
$y[n] is a shorthand for $y1[n]
I'll appreciate hearing about bugs, comments, suggestions, ...
Shahrokh Yadegari (sdy@ucsd.edu)
7/10/02
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