Hello all,
Those of you who take an interest in the LaTeX3 SVN may have noticed
that I've just added the beginnings of a 'l3fp' module as part of expl3.
This is intended to provide a set of floating point functions for LaTeX3.
As you'll all know, floating point work in TeX is not exactly easy
(excepting when using LuaTeX, where of course the Lua route is
available). The aim of l3fp is to provide accurate floating point
functions (i.e. not using dimens) with a reasonable range of input and
written for speed so that the module is generally useful.
At the moment there are only a small set of basic arithmetic functions
available in l3fp. So for example there is
\fp_add:Nnn <var> <a> <b>
which adds <a> and <b> and assigns the result to <var>. I've also
defined an 'fp' data type, which is currently simply a macro which
contains a number. So there is also a function
\fp_add:Nn <var> <a>
which adds <a> to the current content of <var> (which of course should
be an fp).
In terms of input range, I've gone for 999999999.999999999 to
+999999999.999999999. This should be sufficient for a wide range of
purposes (for example, if you convert a dimen into a floating point
number in units pt then you are safe for any dimen TeX can handle).
The design of the internals of the package is loosely following the
wellknown fp package. However, that package is rather slow, at least
partly as it handles 18 digits either side of the decimal. The approach
in l3fp currently delivers addition, subtraction, multiplication and
division much faster than fp does (between about 8 and 15 times as fast
for a large number of repeated calculations). I hope this makes the
module fast enough for practical use.
The next phase is to add some more complex functions. I'm planning to
cover trigonometry, exponential/ln and roots, plus a pseudorandom
number generator and a few utility functions. They may take a while:
getting it right is not that easy.
Feedback on the module is very welcome, for example on which functions
to provide, bugs (there are bound to be some), etc.

Joseph Wright
