When you load a Haskell source module into GHCi, it is
normally converted to byte-code and run using the interpreter.
However, interpreted code can also run alongside compiled code in
GHCi; indeed, normally when GHCi starts, it loads up a compiled
copy of the
base package, which contains the
Why should we want to run compiled code? Well, compiled code is roughly 10x faster than interpreted code, but takes about 2x longer to produce (perhaps longer if optimisation is on). So it pays to compile the parts of a program that aren't changing very often, and use the interpreter for the code being actively developed.
When loading up source modules with
GHCi normally looks for any corresponding compiled object files,
and will use one in preference to interpreting the source if
possible. For example, suppose we have a 4-module program
consisting of modules A, B, C, and D. Modules B and C both import
D only, and A imports both B & C:
A / \ B C \ / D
We can compile D, then load the whole program, like this:
Prelude> :! ghc -c D.hs Prelude> :load A Compiling B ( B.hs, interpreted ) Compiling C ( C.hs, interpreted ) Compiling A ( A.hs, interpreted ) Ok, modules loaded: A, B, C, D. *Main>
In the messages from the compiler, we see that there is no line
D. This is because
it isn't necessary to compile
because the source and everything it depends on
is unchanged since the last compilation.
At any time you can use the command
to get a list of the modules currently loaded
*Main> :show modules D ( D.hs, D.o ) C ( C.hs, interpreted ) B ( B.hs, interpreted ) A ( A.hs, interpreted ) *Main>
If we now modify the source of D (or pretend to: using the Unix
touch on the source file is handy for
this), the compiler will no longer be able to use the object file,
because it might be out of date:
*Main> :! touch D.hs *Main> :reload Compiling D ( D.hs, interpreted ) Ok, modules loaded: A, B, C, D. *Main>
Note that module D was compiled, but in this instance because its source hadn't really changed, its interface remained the same, and the recompilation checker determined that A, B and C didn't need to be recompiled.
So let's try compiling one of the other modules:
*Main> :! ghc -c C.hs *Main> :load A Compiling D ( D.hs, interpreted ) Compiling B ( B.hs, interpreted ) Compiling C ( C.hs, interpreted ) Compiling A ( A.hs, interpreted ) Ok, modules loaded: A, B, C, D.
We didn't get the compiled version of C! What happened? Well, in GHCi a compiled module may only depend on other compiled modules, and in this case C depends on D, which doesn't have an object file, so GHCi also rejected C's object file. Ok, so let's also compile D:
*Main> :! ghc -c D.hs *Main> :reload Ok, modules loaded: A, B, C, D.
Nothing happened! Here's another lesson: newly compiled
modules aren't picked up by
*Main> :load A Compiling B ( B.hs, interpreted ) Compiling A ( A.hs, interpreted ) Ok, modules loaded: A, B, C, D.
The automatic loading of object files can sometimes lead to
confusion, because non-exported top-level definitions of a module
are only available for use in expressions at the prompt when the
module is interpreted (see Section 2.4.5, “What's really in scope at the prompt?”). For
this reason, you might sometimes want to force GHCi to load a
module using the interpreter. This can be done by prefixing
* to the module name or filename when
:load, for example
Prelude> :load *A Compiling A ( A.hs, interpreted ) *A>
* is used, GHCi ignores any
pre-compiled object code and interprets the module. If you have
already loaded a number of modules as object code and decide that
you wanted to interpret one of them, instead of re-loading the whole
set you can use
:add *M to specify that you want
M to be interpreted (note that this might cause
other modules to be interpreted too, because compiled modules cannot
depend on interpreted ones).
To always compile everything to object code and never use the
interpreter, use the
-fobject-code option (see
Section 2.10, “Compiling to object code inside GHCi”).
HINT: since GHCi will only use a compiled object file if it
can be sure that the compiled version is up-to-date, a good technique
when working on a large program is to occasionally run
ghc --make to compile the whole project (say
before you go for lunch :-), then continue working in the
interpreter. As you modify code, the changed modules will be
interpreted, but the rest of the project will remain