Skip to content
This repository

HTTPS clone URL

Subversion checkout URL

You can clone with HTTPS or Subversion.

Download ZIP

an x86 compiler written in ruby

tree: ce1f5bb4dc

Fetching latest commit…

Cannot retrieve the latest commit at this time

README.md

sjs
sami.samhuri@gmail.com

published : 2009-09-22
updated : 2009-09-24

Overview

A compiler for fun and education. Written (mostly) in Ruby and based on the tutorial "Let's Build a Compiler" by Jack Crenshaw1.

The semantics are simple and familiar to all programmers. Eager evaluation, assignment with the equals sign, arithmetic using + - * and /, loops, if/else statement, etc. Integers are the only data type.

NOTE: OS X is the only platform that compiles working binaries right now. ELF support for Linux coming soon.

Compiling

OS X

You need gcc, so install Xcode or use MacPorts to build gcc.

Linux

You need ruby and ld which lives in the binutils package.

% sudo aptitude install ruby binutils

That's it! The assembler is included in ~900 lines of Ruby (including comments).

You should be fine letting the build script detect your platform. If not append 'elf' or 'macho' to the command.

% ./build.rb filename.code [elf | macho]

The resulting native executable will be called 'filename' and you should be able to run it directly.

% ./filename <return>

Syntax in 2 minutes

The recursive descent parser starts by parsing a block of code. A block consists of zero or more statements. Whitespace is largely ignored beyond delimiting tokens so statements can be grouped on one line or spread out over multiple lines. With no explicit terminator this can look strange so we will see how it works out when the syntax evolves into something more complicated.

There are no functions or function calls, no closures, arrays, hashes, or anything else you can think of.

Supported statements are:

  • assignment e.g. foo = 4096

  • if/else e.g. if x < 0 a=0 else a=1 end

  • while e.g. while x > 0 x=x-1 end

  • until e.g. until x == 0 x=x-1 end

  • break e.g. break

  • repeat e.g. repeat x=x-1 if x == 0 break end end

  • for e.g. for i=1 to 5 x=x+1 end

  • do e.g. do 5 x=x+1 end

  • print e.g. a=1 print

Print is strange, it prints the last value calculated in hex and that is all. Please don't look at the implementation. ;-)

Supported operations are the following, in increasing order of precedence:

  • add + and subtract -
  • multiply * and divide /
  • relations: == != < > <= >=
  • boolean not !
  • [unimplemented] or ||
  • [unimplemented] and &&
  • bit or | and bit xor ^
  • bit and &
  • unary plus + and minus -

Parentheses are used to force a specific order of evaluation.

As far as booleans go 0 is false and everything else is true. Right now there are only integers so this makes sense.

Internals

I wasn't satisfied using an external assembler and outputing assembly text so I wrote an x86 assembler in Ruby. It assembles just the instructions I need for this compiler, so it is by no means complete. 32-bit only and no prefixes are supported. It's basically just a handful of instructions and mod-rm encoding. I use the system's linker and have no intention of writing my own, don't worry!

The code currently consists of a recursive descent parser that outputs x86 code in ELF binaries on Linux and Mach-O binaries on Darwin. Most of the code for outputing executables is Ruby, but ELF support is still in C and not published in the repository. Classes to output Mach-O and ELF binaries are found in asm/(elf|macho)writer.rb, but ELF support is not implemented yet so binaries only compile and run on OS X right now. ELF should come soon as I now have lights in my den. :)

Some major refactoring is needed as the project grew organically and in order to keep up with the tutorials I have not yet made radical changes. The asm/ directory holds the assembler but also the MachO and ELF code, for now. The assembler is a from-scratch implementation in Ruby. This is my first assembler and first time working with the x86 ISA, so it probably isn't great. It outputs horribly inefficient code and there are no optimizations.

Hopefully I can reduce the number of lines by factoring more, but it's pretty slim at ~3000 LOC. About 2100 of those are actual code. I did not write this compiler with the intention of anyone else reading it but there are a reasonable amount of comments.

Real Lines Total Lines Filename
87 112 build.rb
617 891 compiler.rb
12 29 asm/asm.rb
569 843 asm/binary.rb
197 319 asm/cstruct.rb
4 6 asm/elfsymtab.rb
4 8 asm/elfwriter.rb
170 374 asm/machofile.rb
95 163 asm/macho.rb
19 28 asm/machosym.rb
48 77 asm/machosymtab.rb
19 25 asm/machowriter.rb
16 25 asm/objwriter.rb
20 31 asm/registers.rb
42 66 asm/regproxy.rb
56 89 asm/symtab.rb
131 183 asm/text.rb
2097 3269 total

Happy hacking! -sjs

Something went wrong with that request. Please try again.