not-python-rust

Author SHA1 Message Date

Author	SHA1	Message	Date
Alek Ratzloff	4cdc48537c	Add Map type, add hashbrown crate dependency We should have a preliminary implementation of maps going right now. Thus far we have: * Map.insert * Map.__index__ * Map.remove And some other minor functions. The big news with this is the couple of pretty hot `unsafe` calls that borrow the VM mutably in two different closures, simultaneously. This should be safe since these two different closures aren't being called at the same time, somehow. Maybe one could be calling the other. But that's not happening (I checked). This also adds the hashbrown crate to handle the actual hashtable implementation, so we don't have to implement our own hashtables. Signed-off-by: Alek Ratzloff <alekratz@gmail.com>	2024-10-14 19:05:27 -07:00
Alek Ratzloff	8b931e9d12	Revamp object system, start using `gc` crate Wow, what a ride. I think everything should be working now. In short: * Objects use the `gc` crate, which as a `Gc` garbage-collected pointer type. I may choose to implement my own in contiguous memory in the future. We will see. * The type system is no longer global. This is a bit of a burden, because now, whenever you want to create a new object, you need to pass its type object into the `Obj::instantiate` method, as well as its `::create` static method. * This burden is somewhat alleviated by the `ObjFactory` trait, which helps create new objects as long as you have access to a `builtins` hashmap. So something that would normally look like this: fn init_builtins(builtins: &mut HashMap<String, ObjP>) { let print_builtin = upcast_obj(BuiltinFunctionInst::create( ObjP::clone(&builtins.get("BuiltinFunction").unwrap()), "print", print, 1 ); builtins.insert("print".to_string(), print_builtin) // other builtins inserted here... } now looks like this: fn init_builtins(builtins: &mut HashMap<String, ObjP>) { let print_builtin = builtins.create_builtin_function("print", print, 1); builtins.insert("print".to_string(), print_builtin); } (turns out, if all you need is a HashMap<String, ObjP>, you can implement ObjFactory for HashMap<String, ObjP> itself(!)) Overall, I'm happier with this design, and I think this is what is going to get merged. It's a little weird to be querying type names that are used in the language itself to get those type objects, but whatever works, I guess. Next up is vtables. Signed-off-by: Alek Ratzloff <alekratz@gmail.com>	2024-09-23 18:12:32 -07:00
Alek Ratzloff	16f3dc960c	Base initial commit Still WIP, working on object system still, which in Rust, makes me want to kill myself Signed-off-by: Alek Ratzloff <alekratz@gmail.com>	2024-09-20 16:04:30 -07:00

4cdc48537c

Add Map type, add hashbrown crate dependency

We should have a preliminary implementation of maps going right now.
Thus far we have:

* Map.insert
* Map.__index__
* Map.remove

And some other minor functions. The big news with this is the couple of
pretty hot `unsafe` calls that borrow the VM mutably in two different
closures, simultaneously. This should be safe since these two different
closures aren't being called at the same time, somehow. Maybe one could
be calling the other. But that's not happening (I checked).

This also adds the hashbrown crate to handle the actual hashtable
implementation, so we don't have to implement our own hashtables.

Signed-off-by: Alek Ratzloff <alekratz@gmail.com>

2024-10-14 19:05:27 -07:00

Alek Ratzloff

8b931e9d12

Revamp object system, start using gc crate

Wow, what a ride. I think everything should be working now. In short:

* Objects use the `gc` crate, which as a `Gc` garbage-collected pointer
  type. I may choose to implement my own in contiguous memory in the
  future. We will see.
* The type system is no longer global. This is a bit of a burden,
  because now, whenever you want to create a new object, you need to
  pass its type object into the `Obj::instantiate` method, as well as
  its `::create` static method.
* This burden is somewhat alleviated by the `ObjFactory` trait, which
  helps create new objects as long as you have access to a `builtins`
  hashmap. So something that would normally look like this:

    fn init_builtins(builtins: &mut HashMap<String, ObjP>) {
        let print_builtin = upcast_obj(BuiltinFunctionInst::create(
            ObjP::clone(&builtins.get("BuiltinFunction").unwrap()),
            "print",
            print,
            1
        );
        builtins.insert("print".to_string(), print_builtin)
        // other builtins inserted here...
    }

  now looks like this:

    fn init_builtins(builtins: &mut HashMap<String, ObjP>) {
        let print_builtin = builtins.create_builtin_function("print", print, 1);
        builtins.insert("print".to_string(), print_builtin);
    }

(turns out, if all you need is a HashMap<String, ObjP>, you can
implement ObjFactory for HashMap<String, ObjP> itself(!))

Overall, I'm happier with this design, and I think this is what is going
to get merged. It's a little weird to be querying type names that are
used in the language itself to get those type objects, but whatever
works, I guess.

Next up is vtables.

Signed-off-by: Alek Ratzloff <alekratz@gmail.com>

2024-09-23 18:12:32 -07:00

Alek Ratzloff

16f3dc960c

Base initial commit

Still WIP, working on object system still, which in Rust, makes me want
to kill myself

Signed-off-by: Alek Ratzloff <alekratz@gmail.com>

2024-09-20 16:04:30 -07:00

3 Commits