# Architecture This document describes high-level architecture of rust-analyzer. If you want to familiarize yourself with the code base, you are just in the right place! ## Code generation Some of the components of this repository are generated through automatic processes. These are outlined below: - `gen-syntax`: The kinds of tokens are reused in several places, so a generator is used. We use tera templates to generate the files listed below, based on the grammar described in [grammar.ron]: - [ast/generated.rs][ast generated] in `ra_syntax` based on [ast/generated.tera.rs][ast source] - [syntax_kinds/generated.rs][syntax_kinds generated] in `ra_syntax` based on [syntax_kinds/generated.tera.rs][syntax_kinds source] [tera]: https://tera.netlify.com/ [grammar.ron]: ./crates/ra_syntax/src/grammar.ron [ast generated]: ./crates/ra_syntax/src/ast/generated.rs [ast source]: ./crates/ra_syntax/src/ast/generated.rs.tera [syntax_kinds generated]: ./crates/ra_syntax/src/syntax_kinds/generated.rs [syntax_kinds source]: ./crates/ra_syntax/src/syntax_kinds/generated.rs.tera ## Code Walk-Through ### `crates/ra_syntax` Rust syntax tree structure and parser. See [RFC](https://github.com/rust-lang/rfcs/pull/2256) for some design notes. - [rowan](https://github.com/rust-analyzer/rowan) library is used for constructing syntax trees. - `grammar` module is the actual parser. It is a hand-written recursive descent parsers, which produces a sequence of events like "start node X", "finish not Y". It works similarly to [kotlin parser](https://github.com/JetBrains/kotlin/blob/4d951de616b20feca92f3e9cc9679b2de9e65195/compiler/frontend/src/org/jetbrains/kotlin/parsing/KotlinParsing.java), which is a good source for inspiration for dealing with syntax errors and incomplete input. Original [libsyntax parser](https://github.com/rust-lang/rust/blob/6b99adeb11313197f409b4f7c4083c2ceca8a4fe/src/libsyntax/parse/parser.rs) is what we use for the definition of the Rust language. - `parser_api/parser_impl` bridges the tree-agnostic parser from `grammar` with `rowan` trees. This is the thing that turns a flat list of events into a tree (see `EventProcessor`) - `ast` a type safe API on top of the raw `rowan` tree. - `grammar.ron` RON description of the grammar, which is used to generate `syntax_kinds` and `ast` modules, using `cargo gen-syntax` command. - `algo`: generic tree algorithms, including `walk` for O(1) stack space tree traversal (this is cool) and `visit` for type-driven visiting the nodes (this is double plus cool, if you understand how `Visitor` works, you understand rust-analyzer). Test for ra_syntax are mostly data-driven: `tests/data/parser` contains a bunch of `.rs` (test vectors) and `.txt` files with corresponding syntax trees. During testing, we check `.rs` against `.txt`. If the `.txt` file is missing, it is created (this is how you update tests). Additionally, running `cargo gen-tests` will walk the grammar module and collect all `//test test_name` comments into files inside `tests/data` directory. See [#93](https://github.com/rust-analyzer/rust-analyzer/pull/93) for an example PR which fixes a bug in the grammar. ### `crates/ra_db` We use [salsa][https://github.com/salsa-rs/salsa] crate for incremental and on-demand computation. Roughly, you can think of salsa as a key-value store, but it also can compute derived values using specified functions. The `ra_db` crate provides a basic infrastructure for interracting with salsa. Crucially, it defines most of the "input" queries: facts supplied by the client of the analyzer. ### `crates/ra_hir` HIR provides a high-level "object oriented" acess to Rust code. The principal difference between HIR and syntax trees is that HIR is bound to a particular crate instance. That is, it has cfg flags and features applied (in theory, in practice this is to be implemented). So, there relation between syntax and HIR is many-to-one. The `source_binder` modules is responsible for guessing a hir for a particular source position. Underneath, hir works on top of salsa, using a `HirDatabase` trait. ### `crates/ra_analysis` A stateful library for analyzing many Rust files as they change. `AnalysisHost` is a mutable entity (clojure's atom) which holds current state, incorporates changes and handles out `Analysis` --- an immutable consistent snapshot of world state at a point in time, which actually powers analysis. ### `crates/ra_lsp_server` An LSP implementation which uses `ra_analysis` for managing state and `ra_editor` for actually doing useful stuff. See [#79](https://github.com/rust-analyzer/rust-analyzer/pull/79/) as an example of PR which adds a new feature to `ra_editor` and exposes it to `ra_lsp_server`. ### `crates/ra_editor` All IDE features which can be implemented if you only have access to a single file. `ra_editor` could be used to enhance editing of Rust code without the need to fiddle with build-systems, file synchronization and such. In a sense, `ra_editor` is just a bunch of pure functions which take a syntax tree as an input. The tests for `ra_editor` are `#[cfg(test)] mod tests` unit-tests spread throughout its modules. ### `crates/gen_lsp_server` A language server scaffold, exposing a synchronous crossbeam-channel based API. This crate handles protocol handshaking and parsing messages, while you control the message dispatch loop yourself. Run with `RUST_LOG=sync_lsp_server=debug` to see all the messages. ### `crates/ra_cli` A CLI interface to rust-analyzer. ### `crate/tools` Custom Cargo tasks used to develop rust-analyzer: - `cargo gen-syntax` -- generate `ast` and `syntax_kinds` - `cargo gen-tests` -- collect inline tests from grammar - `cargo install-code` -- build and install VS Code extension and server ### `editors/code` VS Code plugin ## Common workflows To try out VS Code extensions, run `cargo install-code`. This installs both the `ra_lsp_server` binary and VS Code extension. To install only the binary, use `cargo install --path crates/ra_lsp_server --force` To see logs from the language server, set `RUST_LOG=info` env variable. To see all communication between the server and the client, use `RUST_LOG=gen_lsp_server=debug` (will print quite a bit of stuff). To run tests, just `cargo test`. To work on VS Code extension, launch code inside `editors/code` and use `F5` to launch/debug. To automatically apply formatter and linter suggestions, use `npm run fix`.