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Laboratory exercises
Solutions to the lab exercises are accessible to tutors and demonstrators on a private page.
There are four lab exercises for the course:
- Implement control structures in a flowchart language.
- Add array access to a typed language
- Implement procedure calls, nested procedures and higher-order functions.
- Extend a code generator for the ARM to better exploit addressing modes.
Some of the exercises have optional parts that you may like to complete. It's more important, however, that you do at least the non-optional parts of all the labs, including the last one. In addition, there is an entirely optional Lab 0 that provides an introduction to compiling and running OCaml programs.
The lab exercises are described in Chapters 3, 5, 7 and 9 of the coursebook, with a separate set of instructions for Lab 0. Listings of the chief modules you will need to change are provided in Appendix E of the book.
- A note about the nodexp tool.
- A note about the pibake script.
The lab materials are delivered using an anonymous Mercurial server in a way described in the instructions for Lab 1. You can also browse the materials using the URL http://spivey.oriel.ox.ac.uk/hg/compilers
, and there's a cheat sheet listing the commands you'll need to use.
If you're already familiar with Git, then the same materials are accessible as a Git repository at http://spivey.oriel.ox.ac.uk/git/compilers.git
. If you're tempted to follow this route, be aware that the lab manual provides help only with Mercurial.
Quick start
Clone the Mercurial repository containing the materials by using the command,
$ hg clone http://spivey.oriel.ox.ac.uk/hg/compilers
This will make a directory called compilers
containing all the materials.
Now change to the subdirectory compilers/keiko
and build the interpreter for the Keiko machine:
$ (cd compilers/keiko; make)
(The parentheses here make the change of directory local to the command.)
Second, change to the subidrectory compilers/lib
and build some utility modules that are common to all our compilers:
$ (cd compilers/lib; make)
Next, you can change to the subdirectory for one of the labs and build the initial version of it:
$ cd compilers/lab1 $ make
Finally, you can run regression tests on the resulting compiler:
$ make test
You'll find the first test gcd.p
already passes. But the second test uses features that the lab asks you to implement, so it will fail until you've done the lab exercise. When your work is done, all tests will pass.
Using your own machine
Naturally enough, the computers in the Software Lab have been set up with all the software that is needed to do these exercises. If you want to use your own machine, that is perfectly possible, and another page gives suggestions for setting up the software you need. You will probably wish to do this well before the end of term so that you are set up for the Christmas assignment.
Safety net
Here, for safety's sake, is a tarball containing the same materials: compilers.tar.gz. After downloading it, you can unpack it and create a Mercurial repository with the commands
$ tar xvfz compilers.tar.gz $ cd compilers $ hg init $ hg add . $ hg ci -m 'Initial revision'