From fbf35c839b706286307b673a3dd6231c81ad4661 Mon Sep 17 00:00:00 2001 From: Aleksey Kladov Date: Wed, 20 Mar 2019 14:49:06 +0300 Subject: kill old roadmap: it is completed --- docs/dev/ROADMAP.md | 77 ----------------------------------------------------- 1 file changed, 77 deletions(-) delete mode 100644 docs/dev/ROADMAP.md diff --git a/docs/dev/ROADMAP.md b/docs/dev/ROADMAP.md deleted file mode 100644 index 3856ebc5b..000000000 --- a/docs/dev/ROADMAP.md +++ /dev/null @@ -1,77 +0,0 @@ -# Rust Analyzer Roadmap 01 - -Written on 2018-11-06, extends approximately to February 2019. -After that, we should coordinate with the compiler/rls developers to align goals and share code and experience. - - -# Overall Goals - -The mission is: - * Provide an excellent "code analyzed as you type" IDE experience for the Rust language, - * Implement the bulk of the features in Rust itself. - - -High-level architecture constraints: - * Long-term, replace the current rustc frontend. - It's *obvious* that the code should be shared, but OTOH, all great IDEs started as from-scratch rewrites. - * Don't hard-code a particular protocol or mode of operation. - Produce a library which could be used for implementing an LSP server, or for in-process embedding. - * As long as possible, stick with stable Rust. - - -# Current Goals - -Ideally, we would be coordinating with the compiler/rls teams, but they are busy working on making Rust 2018 at the moment. -The sync-up point will happen some time after the edition, probably early 2019. -In the meantime, the goal is to **experiment**, specifically, to figure out how a from-scratch written RLS might look like. - - -## Data Storage and Protocol implementation - -The fundamental part of any architecture is who owns which data, how the data is mutated and how the data is exposed to user. -For storage we use the [salsa](http://github.com/salsa-rs/salsa) library, which provides a solid model that seems to be the way to go. - -Modification to source files is mostly driven by the language client, but we also should support watching the file system. The current -file watching implementation is a stub. - -**Action Item:** implement reliable file watching service. - -We also should extract LSP bits as a reusable library. There's already `gen_lsp_server`, but it is pretty limited. - -**Action Item:** try using `gen_lsp_server` in more than one language server, for example for TOML and Nix. - -The ideal architecture for `gen_lsp_server` is still unclear. I'd rather avoid futures: they bring significant runtime complexity -(call stacks become insane) and the performance benefits are negligible for our use case (one thread per request is perfectly OK given -the low amount of requests a language server receives). The current interface is based on crossbeam-channel, but it's not clear -if that is the best choice. - - -## Low-effort, high payoff features - -Implementing 20% of type inference will give use 80% of completion. -Thus it makes sense to partially implement name resolution, type inference and trait matching, even though there is a chance that -this code is replaced later on when we integrate with the compiler - -Specifically, we need to: - -* **Action Item:** implement path resolution, so that we get completion in imports and such. -* **Action Item:** implement simple type inference, so that we get completion for inherent methods. -* **Action Item:** implement nicer completion infrastructure, so that we have icons, snippets, doc comments, after insert callbacks, ... - - -## Dragons to kill - -To make experiments most effective, we should try to prototype solutions for the hardest problems. -In the case of Rust, the two hardest problems are: - * Conditional compilation and source/model mismatch. - A single source file might correspond to several entities in the semantic model. - For example, different cfg flags produce effectively different crates from the same source. - * Macros are intertwined with name resolution in a single fix-point iteration algorithm. - This is just plain hard to implement, but also interacts poorly with on-demand. - - -For the first bullet point, we need to design descriptors infra and explicit mapping step between sources and semantic model, which is intentionally fuzzy in one direction. -The **action item** here is basically "write code, see what works, keep high-level picture in mind". - -For the second bullet point, there's hope that salsa with its deep memoization will result in a fast enough solution even without being fully on-demand. -Again, the **action item** is to write the code and see what works. Salsa itself uses macros heavily, so it should be a great test. -- cgit v1.2.3