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Crystal

Crystal is about native code generation in and of ruby. In is done.

Step 1 - Assembly

Produce binary that represents code. Traditionally called assembling, but there is no need for an external file representation.

Ie only in ruby code do i want to create machine code.

Most instructions are in fact assembling correctly. Meaning i have tests, and i can use objbump to verify the correct assembler code is disasembled

I even polished the dsl an so (from the tests), this is a valid hello world:

hello = "Hello World\n"
@program.main do 
  mov r7, 4     # 4 == write
  mov r0 , 1    # stdout
  add r1 , pc , hello   # address of "hello World"
  mov r2 , hello.length
	swi 0         #software interupt, ie kernel syscall
  mov r7, 1     # 1 == exit
	swi 0
end
write(7 + hello.length/4 + 1 , 'hello') 

Package the code into an executable. Run that and verify it's output. But full elf support (including externs) is eluding me for now.

Still, this has proven to be a good review point for the arcitecture and means no libc for now. Full rationale on the web (pages rep for now), but it means starting an extra step

Above Hello World can be linked and run. And will say its thing.

Step 2.1 -syscalls

Start implementing some syscalls and add the functionality we actually need from c (basic io only really)

Step 3 -Parse ruby

Parse simple code, using Parslet.

Parsing is a surprisingly fiddly process, very space and order sensitive. But Parslet is great and simple expressions (including function definitions and calls) are starting to work.

I Spent some time on the parse testing framework, so it is safe to fiddle and add.

Step 4 - Vm: Compile the Ast

Since we now have an Abstact syntax tree, it needs to be compiled to a machine Instruction format.

The machine/instruction/data definitions make up the Virtual Machine layer (vm directory)

After some trying around, something has emerged. As it uses the instructions from Step 1, we are ready to say our hellos in ruby

puts("Hello World")

was the first to make the trip: parsed to ast, compiled to Instructions/Code, linked and assembled to binary and executed, gives the surprising output of "Hello World"

Time to add some meat.

Step 5 - Register allocation

A first version of register allocation is done. I moved away from the standard c calling convention to pin a type register and also not have passing and return overlapping. That at least simplified thinking about register allocation. One has to remember the machine level is completely value and pass by value based.

As a side i got a return statement done now, and implicit return at the end has been working. Just making sure all branches actually return implicitly is not done. But no rush there, as one can always write the return explicitly.

Step 6 - Basic type instructions

As we want to work on values, all the value methods have to be implemented to map to machine instructions.

Some are done, most are not. But they are straightforward.

Step 7 - Compound types

Arrays and Hash parse. Good. But this means The Actual datastructures should be implemented. AWIP ( a work in progress)

Step 8

Implement classes, implement Core library of arrays/hash

Step 9

Implement Blocks

Step 11

Implement Exceptions

Step 12

Implement a way to call libc

Step 13

Celebrate New year 2030

Contributing to crystal

Probably best to talk to me, if it's not a typo or so.

I do have a todo, for the adventurous.

Fork and create a branch before sending pulls.

== Copyright

Copyright (c) 2014 Torsten Ruger. See LICENSE.txt for further details.