From 5e21ae9418380b8c183c4663ca03bd63dd240aa9 Mon Sep 17 00:00:00 2001 From: Aleksey Kladov Date: Wed, 10 Jan 2018 22:45:01 +0300 Subject: Some architecture notes --- docs/ARCHITECTURE.md | 97 +++++++++++++++++++++++++++++++++++++++++++++++++++- 1 file changed, 96 insertions(+), 1 deletion(-) diff --git a/docs/ARCHITECTURE.md b/docs/ARCHITECTURE.md index 5b50f8faa..a1fa246c2 100644 --- a/docs/ARCHITECTURE.md +++ b/docs/ARCHITECTURE.md @@ -1 +1,96 @@ -# Design and open questions about libsyntax. +# Design and open questions about libsyntax + + +The high-level description of the architecture is in RFC.md. You might +also want to dig through https://github.com/matklad/fall/ which +contains some pretty interesting stuff build using similar ideas +(warning: it is completely undocumented, poorly written and in general +not the thing which I recommend to study (yes, this is +self-contradictory)). + +## Tree + +The centerpiece of this whole endeavor is the syntax tree, in the +`tree` module. Open questions: + +- how to best represent errors, to take advantage of the fact that + they are rare, but to enable fully-persistent style structure + sharing between tree nodes? + +- should we make red/green split from Roslyn more pronounced? + +- one can layout nodes in a single array in such a way that children + of the node form a continuous slice. Seems nifty, but do we need it? + +- should we use SoA or AoS for NodeData? + +- should we split leaf nodes and internal nodes into separate arrays? + Can we use it to save some bits here and there? (leaves don't need + first_child field, for example). + + +## Parser + +The syntax tree is produced using a three-staged process. + +First, a raw text is split into tokens with a lexer. Lexer has a +peculiar signature: it is an `Fn(&str) -> Token`, where token is a +pair of `SyntaxKind` (you should have read the `tree` module and RFC +by this time! :)) and a len. That is, lexer chomps only the first +token of the input. This forces the lexer to be stateless, and makes +it possible to implement incremental relexing easily. + +Then, the bulk of work, the parser turns a stream of tokens into +stream of events. Not that parser **does not** construct a tree right +away. This is done for several reasons: + +* to decouple the actual tree data structure from the parser: you can + build any datastructre you want from the stream of events + +* to make parsing fast: you can produce a list of events without + allocations + +* to make it easy to tweak tree structure. Consider this code: + + ``` + #[cfg(test)] + pub fn foo() {} + ``` + + Here, the attribute and the `pub` keyword must be the children of + the `fn` node. However, when parsing them, we don't yet know if + there would be a function ahead: it very well might be a `struct` + there. If we use events, we generally don't care about this *in + parser* and just spit them in order. + +* (Is this true?) to make incremental reparsing easier: you can reuse + the same rope data structure for all of the original string, the + tokens and the events. + + +The parser also does not know about whitespace tokens: it's the job of +the next layer to assign whitespace and comments to nodes. However, +parser can remap contextual tokens, like `>>` or `union`, so it has +access to the text. + +And at last, the TreeBuilder converts a flat stream of events into a +tree structure. It also *should* be responsible for attaching comments +and rebalancing the tree, but it does not do this yet :) + + +## Error reporing + +TODO: describe how stuff like `skip_to_first` works + + +## Validator + +Parser and lexer accept a lot of *invalid* code intentionally. The +idea is to post-process the tree and to proper error reporting, +literal conversion and quick-fix suggestions. There is no +design/implementation for this yet. + + +## AST + +Nothing yet, see `AstNode` in `fall`. -- cgit v1.2.3