imag/libimagruby
2017-01-22 18:44:47 +01:00
..
lib Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
src Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
test Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
.gitignore Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
Cargo.toml Add Store::new() function interface 2017-01-22 15:44:21 +01:00
Gemfile Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
imag.gemspec Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
Makefile Move: imag-ruby -> libimagruby 2017-01-21 13:56:05 +01:00
Rakefile Rename: Imag -> RImag (class) 2017-01-22 18:44:47 +01:00
README.md Add documentation in README 2017-01-22 13:17:13 +01:00

imag-ruby

A Ruby gem for scripting imag modules.

How does this work?

Well, as we have some problems with lifetimes here, we have a fairly complex codebase in this crate.

The Problem

The Problem is, that libimagstore::store::FileLockEntry<'a> has a lifetime. If we would wrap this object into a ruru wrapper and pass to the Ruby code, we couldn't guarantee anymore that the lifetime holds.

The problem is simple, you see...

The solution?

Never pass anything to the Ruby code.

Yes, exactly. The Ruby code only sees 'handles'. It never actually gets the Store object either. We move the Store Object into a Cache object (actually, the Ruby code could have multiple Store objects to work with this way) and return a StoreHandle to the Ruby code (which is a UUID underneath).

Also, the Ruby code never actually touches a FileLockEntry - it only gets a Handle for each FileLockEntry - which is a tuple of the StoreHandle and the libimagstore::storeid::StoreId for the Entry.

Each operation on a FileLockEntry is then wrapped by this very library. Each time FileLockEntry is touched, this library fetches the appropriate Store object from the static Cache, then fetches the FileLockEntry object from it, does the operation and then drops the object (which implies that the actual FileLockEntry is update()d!).

The Hell?

Yes, I know this is a lot of overhead. But what are we talking about here? This is Ruby code we're talking about here, so speed is not our concern.

You could argue this is a hell of complexity introduced in this library and yes it is. If there are bugs (and I bet there are) they would be complex as hell. But that's it... if you have a better approach, please file a PR.

Tests?

We have tests Ruby scripts in ./test, they are not executed by travis-ci, as we need Ruby 2.3.0 for this and travis has 2.2.0 as latest version. But I hope we get it in travis soonish.

Ruby gem?

This crate will contain both the Rust bindings for imag using ruru and a bunch of wrapper code for the actual imag gem.

We are not there yet, though.

Why another layer of indirection?

As "ruru" does not yet support modules (which is sad btw) we would end up with functions for all the things.

E.G.: imag_runtime_setup() instead of Imag::Runtime::setup()

I want to add a Ruby gem to wrap these things.

So basically a piece of Ruby which uses imag.rb (the Rust gem) to build imag as a gem which then exports a fine module system.

Ideas for module system:

Imag (Module)
  Runtime (Class)
  Store (Class)
  Entry (Class)
  EntryHeader (Class)
  EntryContent (Class (inherits from String))
  StoreId (Class)

I would name the types the same as in the Rust codebase, to avoid confusion. Only exception would be the Entry class, which would be a FileLockEntry underneath.

If we adapt libimagentrytag and the other libimagentry* libraries, we would extend this type.

More plans

I want to pull these libraries into the Ruby bindings:

  • libimagentryedit
  • libimagentryfilter
  • libimagentrylink
  • libimagentrylist
  • libimagentrymarkdown
  • libimagentrytag
  • libimagentryview

Which all provide functions on top of libimagstore::store::{FileLock,}Entry, so we will implement them on Imag::Entry.