Metaprogramming refers to a variety of ways a program has knowledge of itself or can manipulate itself.
In languages like C#, reflection is a form of metaprogramming since the program can examine information about itself. For example returning a list of all the properties of an object.
In languages like ActionScript, you can evaluate functions at runtime to create new programs such as eval("x" + i). DoSomething() would affect an object called x1 when i is 1 and x2 when i is 2.
Finally, another common form of metaprogramming is when the program can change itself in non-trivial fashions. LISP is well known for this and is something Paul Graham championed about a decade ago. I'll have to look up some of his specific essays. But the idea is that the program would change another part of the program based on its state. This allows a level of flexibility to make decisions at runtime that is very difficult in most popular languages today.
It is also worth noting that back in the good ol' days of programming in straight assembly, programs that altered themselves at runtime were necessary and very commonplace.
From Paul Graham's essay "What Made Lisp Different":
Many languages have something called a
macro. But Lisp macros are unique. And
believe it or not, what they do is
related to the parentheses. The
designers of Lisp didn't put all those
parentheses in the language just to be
different. To the Blub programmer,
Lisp code looks weird. But those
parentheses are there for a reason.
They are the outward evidence of a
fundamental difference between Lisp
and other languages.
Lisp code is made out of Lisp data
objects. And not in the trivial sense
that the source files contain
characters, and strings are one of the
data types supported by the language.
Lisp code, after it's read by the
parser, is made of data structures
that you can traverse.
If you understand how compilers work,
what's really going on is not so much
that Lisp has a strange syntax as that
Lisp has no syntax. You write programs
in the parse trees that get generated
within the compiler when other
languages are parsed. But these parse
trees are fully accessible to your
programs. You can write programs that
manipulate them. In Lisp, these
programs are called macros. They are
programs that write programs.
Programs that write programs? When
would you ever want to do that? Not
very often, if you think in Cobol. All
the time, if you think in Lisp. It
would be convenient here if I could
give an example of a powerful macro,
and say there! how about that? But if
I did, it would just look like
gibberish to someone who didn't know
Lisp; there isn't room here to explain
everything you'd need to know to
understand what it meant. In Ansi
Common Lisp I tried to move things
along as fast as I could, and even so
I didn't get to macros until page 160.
But I think I can give a kind of
argument that might be convincing. The
source code of the Viaweb editor was
probably about 20-25% macros. Macros
are harder to write than ordinary Lisp
functions, and it's considered to be
bad style to use them when they're not
necessary. So every macro in that code
is there because it has to be. What
that means is that at least 20-25% of
the code in this program is doing
things that you can't easily do in any
other language. However skeptical the
Blub programmer might be about my
claims for the mysterious powers of
Lisp, this ought to make him curious.
We weren't writing this code for our
own amusement. We were a tiny startup,
programming as hard as we could in
order to put technical barriers
between us and our competitors.
A suspicious person might begin to
wonder if there was some correlation
here. A big chunk of our code was
doing things that are very hard to do
in other languages. The resulting
software did things our competitors'
software couldn't do. Maybe there was
some kind of connection. I encourage
you to follow that thread. There may
be more to that old man hobbling along
on his crutches than meets the eye.