// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. // A pass that annotates for each loops and functions with the free // variables that they contain. #[allow(non_camel_case_types)]; use middle::resolve; use middle::ty; use collections::HashMap; use syntax::codemap::Span; use syntax::{ast, ast_util}; use syntax::visit; use syntax::visit::Visitor; // A vector of defs representing the free variables referred to in a function. // (The def_upvar will already have been stripped). #[deriving(Encodable, Decodable)] pub struct freevar_entry { def: ast::Def, //< The variable being accessed free. span: Span //< First span where it is accessed (there can be multiple) } pub type freevar_info = @~[@freevar_entry]; pub type freevar_map = HashMap; struct CollectFreevarsVisitor { seen: HashMap, refs: ~[@freevar_entry], def_map: resolve::DefMap, } impl Visitor for CollectFreevarsVisitor { fn visit_item(&mut self, _: &ast::Item, _: int) { // ignore_item } fn visit_expr(&mut self, expr: &ast::Expr, depth: int) { match expr.node { ast::ExprFnBlock(..) | ast::ExprProc(..) => { visit::walk_expr(self, expr, depth + 1) } ast::ExprPath(..) => { let mut i = 0; let def_map = self.def_map.borrow(); match def_map.get().find(&expr.id) { None => fail!("path not found"), Some(&df) => { let mut def = df; while i < depth { match def { ast::DefUpvar(_, inner, _, _) => { def = *inner; } _ => break } i += 1; } if i == depth { // Made it to end of loop let dnum = ast_util::def_id_of_def(def).node; if !self.seen.contains_key(&dnum) { self.refs.push(@freevar_entry { def: def, span: expr.span, }); self.seen.insert(dnum, ()); } } } } } _ => visit::walk_expr(self, expr, depth) } } } // Searches through part of the AST for all references to locals or // upvars in this frame and returns the list of definition IDs thus found. // Since we want to be able to collect upvars in some arbitrary piece // of the AST, we take a walker function that we invoke with a visitor // in order to start the search. fn collect_freevars(def_map: resolve::DefMap, blk: &ast::Block) -> freevar_info { let seen = HashMap::new(); let refs = ~[]; let mut v = CollectFreevarsVisitor { seen: seen, refs: refs, def_map: def_map, }; v.visit_block(blk, 1); let CollectFreevarsVisitor { refs, .. } = v; return @refs; } struct AnnotateFreevarsVisitor { def_map: resolve::DefMap, freevars: freevar_map, } impl Visitor<()> for AnnotateFreevarsVisitor { fn visit_fn(&mut self, fk: &visit::FnKind, fd: &ast::FnDecl, blk: &ast::Block, s: Span, nid: ast::NodeId, _: ()) { let vars = collect_freevars(self.def_map, blk); self.freevars.insert(nid, vars); visit::walk_fn(self, fk, fd, blk, s, nid, ()); } } // Build a map from every function and for-each body to a set of the // freevars contained in it. The implementation is not particularly // efficient as it fully recomputes the free variables at every // node of interest rather than building up the free variables in // one pass. This could be improved upon if it turns out to matter. pub fn annotate_freevars(def_map: resolve::DefMap, krate: &ast::Crate) -> freevar_map { let mut visitor = AnnotateFreevarsVisitor { def_map: def_map, freevars: HashMap::new(), }; visit::walk_crate(&mut visitor, krate, ()); let AnnotateFreevarsVisitor { freevars, .. } = visitor; freevars } pub fn get_freevars(tcx: ty::ctxt, fid: ast::NodeId) -> freevar_info { let freevars = tcx.freevars.borrow(); match freevars.get().find(&fid) { None => fail!("get_freevars: {} has no freevars", fid), Some(&d) => return d } } pub fn has_freevars(tcx: ty::ctxt, fid: ast::NodeId) -> bool { !get_freevars(tcx, fid).is_empty() }