Numerical Errors
Unexpected things can happen when you use floating point numbers!
Introduction
Sooner or later, you're going to want to include real--aka floating point--numbers in your programs. These could be for measured quantities, or parameterisations. One thing's for sure, however, integers don't always cut it. Now this is all fine and as it should be. A word of warning, however. Programs containing floating point numbers can do very odd things indeed! Use them with care.
I didn't expect that!
Let's dive into our first example:
svn co http://source.ggy.bris.ac.uk/subversion-open/numerics/trunk ./numerics cd numerics/examples/example1 make
There are two programs in this directory, one written in C, the other in Fortran. Let's run the C program first:
./surprising_c.exe
This program does some very simple arithmetic and yet we start to see odd things happening already! For example the trigonometric function tan can give us hugely different values depending upon whether we give it a single precision- (typically stored using 4 bytes) or a double precision- (8 byte) number. To be fair \tan(\pi/2) (radians) is undefined, and so it's hard to say what the right output should be. However, is does highlight that you need to be vigilant when using floating-point numbers and not to expect that your program's behaviour will always be benign.