rust/src/librustc/middle/borrowck/move_data.rs

// Copyright 2012 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

/*!

Data structures used for tracking moves.

*/

use core::prelude::*;
use core::hashmap::{HashMap, HashSet};
use middle::borrowck::*;
use middle::dataflow::DataFlowContext;
use middle::dataflow::DataFlowOperator;
use middle::ty;
use middle::typeck;
use syntax::ast;
use syntax::ast_util;
use syntax::codemap::span;
use syntax::opt_vec::OptVec;
use syntax::opt_vec;
use util::ppaux::Repr;

pub struct MoveData {
    paths: ~[MovePath],
    path_map: HashMap<@LoanPath, MovePathIndex>,
    moves: ~[Move],
    path_assignments: ~[Assignment],
    var_assignments: ~[Assignment],
    assignee_ids: HashSet<ast::node_id>,
}

pub struct FlowedMoveData {
    move_data: @mut MoveData,
    //         ^~~~~~~~~~~~~
    // It makes me sad to use @mut here, except that due to
    // the visitor design, this is what gather_loans
    // must produce.
    dfcx_moves: MoveDataFlow,
    dfcx_assign: AssignDataFlow
}

#[deriving(Eq)]
pub struct MovePathIndex(uint);

static InvalidMovePathIndex: MovePathIndex =
    MovePathIndex(uint::max_value);

#[deriving(Eq)]
pub struct MoveIndex(uint);

static InvalidMoveIndex: MoveIndex =
    MoveIndex(uint::max_value);

#[deriving(Eq)]
pub struct VarAssignmentIndex(uint);

static InvalidVarAssignmentIndex: VarAssignmentIndex =
    VarAssignmentIndex(uint::max_value);

pub struct MovePath {
    index: MovePathIndex,
    loan_path: @LoanPath,
    parent: MovePathIndex,
    first_move: MoveIndex,
    first_child: MovePathIndex,
    next_sibling: MovePathIndex,
}

pub enum MoveKind {
    Declared,               // When declared, variables start out "moved".
    MoveExpr(@ast::expr),   // Expression or binding that moves a variable
    MovePat(@ast::pat),     // By-move binding
    Captured(@ast::expr),   // Closure creation that moves a value
}

pub struct Move {
    path: MovePathIndex,
    id: ast::node_id,
    kind: MoveKind,
    next_move: MoveIndex,
}

pub struct Assignment {
    path: MovePathIndex,
    id: ast::node_id,
    span: span,
}

pub struct MoveDataFlowOperator;
pub type MoveDataFlow = DataFlowContext<MoveDataFlowOperator>;

pub struct AssignDataFlowOperator;
pub type AssignDataFlow = DataFlowContext<AssignDataFlowOperator>;

impl MoveData {
    pub fn new() -> MoveData {
        MoveData {
            paths: ~[],
            path_map: HashMap::new(),
            moves: ~[],
            path_assignments: ~[],
            var_assignments: ~[],
            assignee_ids: HashSet::new(),
        }
    }

    fn path<'a>(&'a self, index: MovePathIndex) -> &'a MovePath {
        //! Type safe indexing operator
        &self.paths[*index]
    }

    fn mut_path<'a>(&'a mut self, index: MovePathIndex) -> &'a mut MovePath {
        //! Type safe indexing operator
        &mut self.paths[*index]
    }

    fn move<'a>(&'a self, index: MoveIndex) -> &'a Move {
        //! Type safe indexing operator
        &self.moves[*index]
    }

    fn is_var_path(&self, index: MovePathIndex) -> bool {
        //! True if `index` refers to a variable
        self.path(index).parent == InvalidMovePathIndex
    }

    pub fn move_path(&mut self,
                     tcx: ty::ctxt,
                     lp: @LoanPath) -> MovePathIndex {
        /*!
         * Returns the existing move path index for `lp`, if any,
         * and otherwise adds a new index for `lp` and any of its
         * base paths that do not yet have an index.
         */

        match self.path_map.find(&lp) {
            Some(&index) => {
                return index;
            }
            None => {}
        }

        let index = match *lp {
            LpVar(*) => {
                let index = MovePathIndex(self.paths.len());

                self.paths.push(MovePath {
                    index: index,
                    loan_path: lp,
                    parent: InvalidMovePathIndex,
                    first_move: InvalidMoveIndex,
                    first_child: InvalidMovePathIndex,
                    next_sibling: InvalidMovePathIndex,
                });

                index
            }

            LpExtend(base, _, _) => {
                let parent_index = self.move_path(tcx, base);
                let index = MovePathIndex(self.paths.len());

                let next_sibling = self.path(parent_index).first_child;
                self.mut_path(parent_index).first_child = index;

                self.paths.push(MovePath {
                    index: index,
                    loan_path: lp,
                    parent: parent_index,
                    first_move: InvalidMoveIndex,
                    first_child: InvalidMovePathIndex,
                    next_sibling: next_sibling,
                });

                index
            }
        };

        debug!("move_path(lp=%s, index=%?)",
               lp.repr(tcx),
               index);

        assert_eq!(*index, self.paths.len() - 1);
        self.path_map.insert(lp, index);
        return index;
    }

    fn existing_move_path(&self,
                          lp: @LoanPath)
                          -> Option<MovePathIndex> {
        self.path_map.find_copy(&lp)
    }

    fn existing_base_paths(&self,
                           lp: @LoanPath)
                           -> OptVec<MovePathIndex> {
        let mut result = opt_vec::Empty;
        self.add_existing_base_paths(lp, &mut result);
        result
    }

    fn add_existing_base_paths(&self,
                               lp: @LoanPath,
                               result: &mut OptVec<MovePathIndex>) {
        /*!
         * Adds any existing move path indices for `lp` and any base
         * paths of `lp` to `result`, but does not add new move paths
         */

        match self.path_map.find_copy(&lp) {
            Some(index) => {
                for self.each_base_path(index) |p| {
                    result.push(p);
                }
            }
            None => {
                match *lp {
                    LpVar(*) => { }
                    LpExtend(b, _, _) => {
                        self.add_existing_base_paths(b, result);
                    }
                }
            }
        }

    }

    pub fn add_move(&mut self,
                    tcx: ty::ctxt,
                    lp: @LoanPath,
                    id: ast::node_id,
                    kind: MoveKind) {
        /*!
         * Adds a new move entry for a move of `lp` that occurs at
         * location `id` with kind `kind`.
         */

        debug!("add_move(lp=%s, id=%?, kind=%?)",
               lp.repr(tcx),
               id,
               kind);

        let path_index = self.move_path(tcx, lp);
        let move_index = MoveIndex(self.moves.len());

        let next_move = self.path(path_index).first_move;
        self.mut_path(path_index).first_move = move_index;

        self.moves.push(Move {
            path: path_index,
            id: id,
            kind: kind,
            next_move: next_move
        });
    }

    pub fn add_assignment(&mut self,
                          tcx: ty::ctxt,
                          lp: @LoanPath,
                          assign_id: ast::node_id,
                          span: span,
                          assignee_id: ast::node_id) {
        /*!
         * Adds a new record for an assignment to `lp` that occurs at
         * location `id` with the given `span`.
         */

        debug!("add_assignment(lp=%s, assign_id=%?, assignee_id=%?",
               lp.repr(tcx), assign_id, assignee_id);

        let path_index = self.move_path(tcx, lp);

        self.assignee_ids.insert(assignee_id);

        let assignment = Assignment {
            path: path_index,
            id: assign_id,
            span: span,
        };

        if self.is_var_path(path_index) {
            debug!("add_assignment[var](lp=%s, assignment=%u, path_index=%?)",
                   lp.repr(tcx), self.var_assignments.len(), path_index);

            self.var_assignments.push(assignment);
        } else {
            debug!("add_assignment[path](lp=%s, path_index=%?)",
                   lp.repr(tcx), path_index);

            self.path_assignments.push(assignment);
        }
    }

    fn add_gen_kills(&self,
                     tcx: ty::ctxt,
                     dfcx_moves: &mut MoveDataFlow,
                     dfcx_assign: &mut AssignDataFlow) {
        /*!
         * Adds the gen/kills for the various moves and
         * assignments into the provided data flow contexts.
         * Moves are generated by moves and killed by assignments and
         * scoping. Assignments are generated by assignment to variables and
         * killed by scoping. See `doc.rs` for more details.
         */

        for self.moves.eachi |i, move| {
            dfcx_moves.add_gen(move.id, i);
        }

        for self.var_assignments.eachi |i, assignment| {
            dfcx_assign.add_gen(assignment.id, i);
            self.kill_moves(assignment.path, assignment.id, dfcx_moves);
        }

        for self.path_assignments.each |assignment| {
            self.kill_moves(assignment.path, assignment.id, dfcx_moves);
        }

        // Kill all moves related to a variable `x` when it goes out
        // of scope:
        for self.paths.each |path| {
            match *path.loan_path {
                LpVar(id) => {
                    let kill_id = tcx.region_maps.encl_scope(id);
                    let path = *self.path_map.get(&path.loan_path);
                    self.kill_moves(path, kill_id, dfcx_moves);
                }
                LpExtend(*) => {}
            }
        }

        // Kill all assignments when the variable goes out of scope:
        for self.var_assignments.eachi |assignment_index, assignment| {
            match *self.path(assignment.path).loan_path {
                LpVar(id) => {
                    let kill_id = tcx.region_maps.encl_scope(id);
                    dfcx_assign.add_kill(kill_id, assignment_index);
                }
                LpExtend(*) => {
                    tcx.sess.bug("Var assignment for non var path");
                }
            }
        }
    }

    fn each_base_path(&self,
                      index: MovePathIndex,
                      f: &fn(MovePathIndex) -> bool)
                      -> bool {
        let mut p = index;
        while p != InvalidMovePathIndex {
            if !f(p) {
                return false;
            }
            p = self.path(p).parent;
        }
        return true;
    }

    fn each_extending_path(&self,
                           index: MovePathIndex,
                           f: &fn(MovePathIndex) -> bool) -> bool {
        if !f(index) {
            return false;
        }

        let mut p = self.path(index).first_child;
        while p != InvalidMovePathIndex {
            if !self.each_extending_path(p, f) {
                return false;
            }
            p = self.path(p).next_sibling;
        }

        return true;
    }

    fn each_applicable_move(&self,
                            index0: MovePathIndex,
                            f: &fn(MoveIndex) -> bool) -> bool {
        for self.each_extending_path(index0) |index| {
            let mut p = self.path(index).first_move;
            while p != InvalidMoveIndex {
                if !f(p) {
                    return false;
                }
                p = self.move(p).next_move;
            }
        }
        return true;
    }

    fn kill_moves(&self,
                  path: MovePathIndex,
                  kill_id: ast::node_id,
                  dfcx_moves: &mut MoveDataFlow) {
        for self.each_applicable_move(path) |move_index| {
            dfcx_moves.add_kill(kill_id, *move_index);
        }
    }
}

impl FlowedMoveData {
    pub fn new(move_data: @mut MoveData,
               tcx: ty::ctxt,
               method_map: typeck::method_map,
               id_range: ast_util::id_range,
               body: &ast::blk)
               -> FlowedMoveData
    {
        let mut dfcx_moves =
            DataFlowContext::new(tcx,
                                 method_map,
                                 MoveDataFlowOperator,
                                 id_range,
                                 move_data.moves.len());
        let mut dfcx_assign =
            DataFlowContext::new(tcx,
                                 method_map,
                                 AssignDataFlowOperator,
                                 id_range,
                                 move_data.var_assignments.len());
        move_data.add_gen_kills(tcx, &mut dfcx_moves, &mut dfcx_assign);
        dfcx_moves.propagate(body);
        dfcx_assign.propagate(body);
        FlowedMoveData {
            move_data: move_data,
            dfcx_moves: dfcx_moves,
            dfcx_assign: dfcx_assign,
        }
    }

    pub fn each_move_of(&self,
                        id: ast::node_id,
                        loan_path: @LoanPath,
                        f: &fn(&Move, @LoanPath) -> bool)
                        -> bool {
        /*!
         * Iterates through each move of `loan_path` (or some base path
         * of `loan_path`) that *may* have occurred on entry to `id` without
         * an intervening assignment. In other words, any moves that
         * would invalidate a reference to `loan_path` at location `id`.
         */

        // Bad scenarios:
        //
        // 1. Move of `a.b.c`, use of `a.b.c`
        // 2. Move of `a.b.c`, use of `a.b.c.d`
        // 3. Move of `a.b.c`, use of `a` or `a.b`
        //
        // OK scenario:
        //
        // 4. move of `a.b.c`, use of `a.b.d`

        let base_indices = self.move_data.existing_base_paths(loan_path);
        if base_indices.is_empty() {
            return true;
        }

        let opt_loan_path_index = self.move_data.existing_move_path(loan_path);

        for self.dfcx_moves.each_bit_on_entry(id) |index| {
            let move = &self.move_data.moves[index];
            let moved_path = move.path;
            if base_indices.contains(&moved_path) {
                // Scenario 1 or 2: `loan_path` or some base path of
                // `loan_path` was moved.
                if !f(move, self.move_data.path(moved_path).loan_path) {
                    return false;
                }
                loop;
            }

            for opt_loan_path_index.each |&loan_path_index| {
                for self.move_data.each_base_path(moved_path) |p| {
                    if p == loan_path_index {
                        // Scenario 3: some extension of `loan_path`
                        // was moved
                        if !f(move, self.move_data.path(moved_path).loan_path) {
                            return false;
                        }
                    }
                }
            }
        }
        return true;
    }

    pub fn is_assignee(&self,
                       id: ast::node_id)
                       -> bool {
        //! True if `id` is the id of the LHS of an assignment

        self.move_data.assignee_ids.contains(&id)
    }

    pub fn each_assignment_of(&self,
                              id: ast::node_id,
                              loan_path: @LoanPath,
                              f: &fn(&Assignment) -> bool)
                              -> bool {
        /*!
         * Iterates through every assignment to `loan_path` that
         * may have occurred on entry to `id`. `loan_path` must be
         * a single variable.
         */

        let loan_path_index = {
            match self.move_data.existing_move_path(loan_path) {
                Some(i) => i,
                None => {
                    // if there were any assignments, it'd have an index
                    return true;
                }
            }
        };

        for self.dfcx_assign.each_bit_on_entry(id) |index| {
            let assignment = &self.move_data.var_assignments[index];
            if assignment.path == loan_path_index && !f(assignment) {
                return false;
            }
        }
        return true;
    }
}

impl DataFlowOperator for MoveDataFlowOperator {
    #[inline(always)]
    fn initial_value(&self) -> bool {
        false // no loans in scope by default
    }

    #[inline(always)]
    fn join(&self, succ: uint, pred: uint) -> uint {
        succ | pred // moves from both preds are in scope
    }

    #[inline(always)]
    fn walk_closures(&self) -> bool {
        true
    }
}

impl DataFlowOperator for AssignDataFlowOperator {
    #[inline(always)]
    fn initial_value(&self) -> bool {
        false // no assignments in scope by default
    }

    #[inline(always)]
    fn join(&self, succ: uint, pred: uint) -> uint {
        succ | pred // moves from both preds are in scope
    }

    #[inline(always)]
    fn walk_closures(&self) -> bool {
        true
    }
}
Move checking for moves and initialization of local variables and patterns into borrow checker and generalize what moves are allowed. Fixes a nasty bug or two in the pattern move checking code. Unifies dataflow code used for initialization and other things. First step towards once fns. Everybody wins. Fixes #4384. Fixes #4715. cc once fns (#2202), optimizing local moves (#5016). 2013-05-22 06:54:35 -04:00			`// Copyright 2012 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 <LICENSE-APACHE or`
			`// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license`
			`// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your`
			`// option. This file may not be copied, modified, or distributed`
			`// except according to those terms.`

			`/*!`

			`Data structures used for tracking moves.`

			`*/`

			`use core::prelude::*;`
			`use core::hashmap::{HashMap, HashSet};`
			`use middle::borrowck::*;`
			`use middle::dataflow::DataFlowContext;`
			`use middle::dataflow::DataFlowOperator;`
			`use middle::ty;`
			`use middle::typeck;`
			`use syntax::ast;`
			`use syntax::ast_util;`
			`use syntax::codemap::span;`
			`use syntax::opt_vec::OptVec;`
			`use syntax::opt_vec;`
			`use util::ppaux::Repr;`

			`pub struct MoveData {`
			`paths: ~[MovePath],`
			`path_map: HashMap<@LoanPath, MovePathIndex>,`
			`moves: ~[Move],`
			`path_assignments: ~[Assignment],`
			`var_assignments: ~[Assignment],`
			`assignee_ids: HashSet<ast::node_id>,`
			`}`

			`pub struct FlowedMoveData {`
			`move_data: @mut MoveData,`
			`// ^~~~~~~~~~~~~`
			`// It makes me sad to use @mut here, except that due to`
			`// the visitor design, this is what gather_loans`
			`// must produce.`
			`dfcx_moves: MoveDataFlow,`
			`dfcx_assign: AssignDataFlow`
			`}`

			`#[deriving(Eq)]`
			`pub struct MovePathIndex(uint);`

			`static InvalidMovePathIndex: MovePathIndex =`
			`MovePathIndex(uint::max_value);`

			`#[deriving(Eq)]`
			`pub struct MoveIndex(uint);`

			`static InvalidMoveIndex: MoveIndex =`
			`MoveIndex(uint::max_value);`

			`#[deriving(Eq)]`
			`pub struct VarAssignmentIndex(uint);`

			`static InvalidVarAssignmentIndex: VarAssignmentIndex =`
			`VarAssignmentIndex(uint::max_value);`

			`pub struct MovePath {`
			`index: MovePathIndex,`
			`loan_path: @LoanPath,`
			`parent: MovePathIndex,`
			`first_move: MoveIndex,`
			`first_child: MovePathIndex,`
			`next_sibling: MovePathIndex,`
			`}`

			`pub enum MoveKind {`
			`Declared, // When declared, variables start out "moved".`
			`MoveExpr(@ast::expr), // Expression or binding that moves a variable`
			`MovePat(@ast::pat), // By-move binding`
			`Captured(@ast::expr), // Closure creation that moves a value`
			`}`

			`pub struct Move {`
			`path: MovePathIndex,`
			`id: ast::node_id,`
			`kind: MoveKind,`
			`next_move: MoveIndex,`
			`}`

			`pub struct Assignment {`
			`path: MovePathIndex,`
			`id: ast::node_id,`
			`span: span,`
			`}`

			`pub struct MoveDataFlowOperator;`
			`pub type MoveDataFlow = DataFlowContext<MoveDataFlowOperator>;`

			`pub struct AssignDataFlowOperator;`
			`pub type AssignDataFlow = DataFlowContext<AssignDataFlowOperator>;`

			`impl MoveData {`
			`pub fn new() -> MoveData {`
			`MoveData {`
			`paths: ~[],`
			`path_map: HashMap::new(),`
			`moves: ~[],`
			`path_assignments: ~[],`
			`var_assignments: ~[],`
			`assignee_ids: HashSet::new(),`
			`}`
			`}`

			`fn path<'a>(&'a self, index: MovePathIndex) -> &'a MovePath {`
			`//! Type safe indexing operator`
			`&self.paths[*index]`
			`}`

			`fn mut_path<'a>(&'a mut self, index: MovePathIndex) -> &'a mut MovePath {`
			`//! Type safe indexing operator`
			`&mut self.paths[*index]`
			`}`

			`fn move<'a>(&'a self, index: MoveIndex) -> &'a Move {`
			`//! Type safe indexing operator`
			`&self.moves[*index]`
			`}`

			`fn is_var_path(&self, index: MovePathIndex) -> bool {`
			//! True if `index` refers to a variable
			`self.path(index).parent == InvalidMovePathIndex`
			`}`

			`pub fn move_path(&mut self,`
			`tcx: ty::ctxt,`
			`lp: @LoanPath) -> MovePathIndex {`
			`/*!`
			* Returns the existing move path index for `lp`, if any,
			* and otherwise adds a new index for `lp` and any of its
			`* base paths that do not yet have an index.`
			`*/`

			`match self.path_map.find(&lp) {`
			`Some(&index) => {`
			`return index;`
			`}`
			`None => {}`
			`}`

			`let index = match *lp {`
			`LpVar(*) => {`
			`let index = MovePathIndex(self.paths.len());`

			`self.paths.push(MovePath {`
			`index: index,`
			`loan_path: lp,`
			`parent: InvalidMovePathIndex,`
			`first_move: InvalidMoveIndex,`
			`first_child: InvalidMovePathIndex,`
			`next_sibling: InvalidMovePathIndex,`
			`});`

			`index`
			`}`

			`LpExtend(base, _, _) => {`
			`let parent_index = self.move_path(tcx, base);`
			`let index = MovePathIndex(self.paths.len());`

			`let next_sibling = self.path(parent_index).first_child;`
			`self.mut_path(parent_index).first_child = index;`

			`self.paths.push(MovePath {`
			`index: index,`
			`loan_path: lp,`
			`parent: parent_index,`
			`first_move: InvalidMoveIndex,`
			`first_child: InvalidMovePathIndex,`
			`next_sibling: next_sibling,`
			`});`

			`index`
			`}`
			`};`

			`debug!("move_path(lp=%s, index=%?)",`
			`lp.repr(tcx),`
			`index);`

			`assert_eq!(*index, self.paths.len() - 1);`
			`self.path_map.insert(lp, index);`
			`return index;`
			`}`

			`fn existing_move_path(&self,`
			`lp: @LoanPath)`
			`-> Option<MovePathIndex> {`
			`self.path_map.find_copy(&lp)`
			`}`

			`fn existing_base_paths(&self,`
			`lp: @LoanPath)`
			`-> OptVec<MovePathIndex> {`
			`let mut result = opt_vec::Empty;`
			`self.add_existing_base_paths(lp, &mut result);`
			`result`
			`}`

			`fn add_existing_base_paths(&self,`
			`lp: @LoanPath,`
			`result: &mut OptVec<MovePathIndex>) {`
			`/*!`
			* Adds any existing move path indices for `lp` and any base
			* paths of `lp` to `result`, but does not add new move paths
			`*/`

			`match self.path_map.find_copy(&lp) {`
			`Some(index) => {`
			`for self.each_base_path(index) \|p\| {`
			`result.push(p);`
			`}`
			`}`
			`None => {`
			`match *lp {`
			`LpVar(*) => { }`
			`LpExtend(b, _, _) => {`
			`self.add_existing_base_paths(b, result);`
			`}`
			`}`
			`}`
			`}`

			`}`

			`pub fn add_move(&mut self,`
			`tcx: ty::ctxt,`
			`lp: @LoanPath,`
			`id: ast::node_id,`
			`kind: MoveKind) {`
			`/*!`
			* Adds a new move entry for a move of `lp` that occurs at
			* location `id` with kind `kind`.
			`*/`

			`debug!("add_move(lp=%s, id=%?, kind=%?)",`
			`lp.repr(tcx),`
			`id,`
			`kind);`

			`let path_index = self.move_path(tcx, lp);`
			`let move_index = MoveIndex(self.moves.len());`

			`let next_move = self.path(path_index).first_move;`
			`self.mut_path(path_index).first_move = move_index;`

			`self.moves.push(Move {`
			`path: path_index,`
			`id: id,`
			`kind: kind,`
			`next_move: next_move`
			`});`
			`}`

			`pub fn add_assignment(&mut self,`
			`tcx: ty::ctxt,`
			`lp: @LoanPath,`
			`assign_id: ast::node_id,`
			`span: span,`
			`assignee_id: ast::node_id) {`
			`/*!`
			* Adds a new record for an assignment to `lp` that occurs at
			* location `id` with the given `span`.
			`*/`

			`debug!("add_assignment(lp=%s, assign_id=%?, assignee_id=%?",`
			`lp.repr(tcx), assign_id, assignee_id);`

			`let path_index = self.move_path(tcx, lp);`

			`self.assignee_ids.insert(assignee_id);`

			`let assignment = Assignment {`
			`path: path_index,`
			`id: assign_id,`
			`span: span,`
			`};`

			`if self.is_var_path(path_index) {`
			`debug!("add_assignment[var](lp=%s, assignment=%u, path_index=%?)",`
			`lp.repr(tcx), self.var_assignments.len(), path_index);`

			`self.var_assignments.push(assignment);`
			`} else {`
			`debug!("add_assignment[path](lp=%s, path_index=%?)",`
			`lp.repr(tcx), path_index);`

			`self.path_assignments.push(assignment);`
			`}`
			`}`

			`fn add_gen_kills(&self,`
			`tcx: ty::ctxt,`
			`dfcx_moves: &mut MoveDataFlow,`
			`dfcx_assign: &mut AssignDataFlow) {`
			`/*!`
			`* Adds the gen/kills for the various moves and`
			`* assignments into the provided data flow contexts.`
			`* Moves are generated by moves and killed by assignments and`
			`* scoping. Assignments are generated by assignment to variables and`
			* killed by scoping. See `doc.rs` for more details.
			`*/`

			`for self.moves.eachi \|i, move\| {`
			`dfcx_moves.add_gen(move.id, i);`
			`}`

			`for self.var_assignments.eachi \|i, assignment\| {`
			`dfcx_assign.add_gen(assignment.id, i);`
			`self.kill_moves(assignment.path, assignment.id, dfcx_moves);`
			`}`

			`for self.path_assignments.each \|assignment\| {`
			`self.kill_moves(assignment.path, assignment.id, dfcx_moves);`
			`}`

			// Kill all moves related to a variable `x` when it goes out
			`// of scope:`
			`for self.paths.each \|path\| {`
			`match *path.loan_path {`
			`LpVar(id) => {`
			`let kill_id = tcx.region_maps.encl_scope(id);`
			`let path = *self.path_map.get(&path.loan_path);`
			`self.kill_moves(path, kill_id, dfcx_moves);`
			`}`
			`LpExtend(*) => {}`
			`}`
			`}`

			`// Kill all assignments when the variable goes out of scope:`
			`for self.var_assignments.eachi \|assignment_index, assignment\| {`
			`match *self.path(assignment.path).loan_path {`
			`LpVar(id) => {`
			`let kill_id = tcx.region_maps.encl_scope(id);`
			`dfcx_assign.add_kill(kill_id, assignment_index);`
			`}`
			`LpExtend(*) => {`
			`tcx.sess.bug("Var assignment for non var path");`
			`}`
			`}`
			`}`
			`}`

			`fn each_base_path(&self,`
			`index: MovePathIndex,`
			`f: &fn(MovePathIndex) -> bool)`
			`-> bool {`
			`let mut p = index;`
			`while p != InvalidMovePathIndex {`
			`if !f(p) {`
			`return false;`
			`}`
			`p = self.path(p).parent;`
			`}`
			`return true;`
			`}`

			`fn each_extending_path(&self,`
			`index: MovePathIndex,`
			`f: &fn(MovePathIndex) -> bool) -> bool {`
			`if !f(index) {`
			`return false;`
			`}`

			`let mut p = self.path(index).first_child;`
			`while p != InvalidMovePathIndex {`
			`if !self.each_extending_path(p, f) {`
			`return false;`
			`}`
			`p = self.path(p).next_sibling;`
			`}`

			`return true;`
			`}`

			`fn each_applicable_move(&self,`
			`index0: MovePathIndex,`
			`f: &fn(MoveIndex) -> bool) -> bool {`
			`for self.each_extending_path(index0) \|index\| {`
			`let mut p = self.path(index).first_move;`
			`while p != InvalidMoveIndex {`
			`if !f(p) {`
			`return false;`
			`}`
			`p = self.move(p).next_move;`
			`}`
			`}`
			`return true;`
			`}`

			`fn kill_moves(&self,`
			`path: MovePathIndex,`
			`kill_id: ast::node_id,`
			`dfcx_moves: &mut MoveDataFlow) {`
			`for self.each_applicable_move(path) \|move_index\| {`
			`dfcx_moves.add_kill(kill_id, *move_index);`
			`}`
			`}`
			`}`

			`impl FlowedMoveData {`
			`pub fn new(move_data: @mut MoveData,`
			`tcx: ty::ctxt,`
			`method_map: typeck::method_map,`
			`id_range: ast_util::id_range,`
			`body: &ast::blk)`
			`-> FlowedMoveData`
			`{`
			`let mut dfcx_moves =`
			`DataFlowContext::new(tcx,`
			`method_map,`
			`MoveDataFlowOperator,`
			`id_range,`
			`move_data.moves.len());`
			`let mut dfcx_assign =`
			`DataFlowContext::new(tcx,`
			`method_map,`
			`AssignDataFlowOperator,`
			`id_range,`
			`move_data.var_assignments.len());`
			`move_data.add_gen_kills(tcx, &mut dfcx_moves, &mut dfcx_assign);`
			`dfcx_moves.propagate(body);`
			`dfcx_assign.propagate(body);`
			`FlowedMoveData {`
			`move_data: move_data,`
			`dfcx_moves: dfcx_moves,`
			`dfcx_assign: dfcx_assign,`
			`}`
			`}`

			`pub fn each_move_of(&self,`
			`id: ast::node_id,`
			`loan_path: @LoanPath,`
			`f: &fn(&Move, @LoanPath) -> bool)`
			`-> bool {`
			`/*!`
			* Iterates through each move of `loan_path` (or some base path
			* of `loan_path`) that may have occurred on entry to `id` without
			`* an intervening assignment. In other words, any moves that`
			* would invalidate a reference to `loan_path` at location `id`.
			`*/`

			`// Bad scenarios:`
			`//`
			// 1. Move of `a.b.c`, use of `a.b.c`
			// 2. Move of `a.b.c`, use of `a.b.c.d`
			// 3. Move of `a.b.c`, use of `a` or `a.b`
			`//`
			`// OK scenario:`
			`//`
			// 4. move of `a.b.c`, use of `a.b.d`

			`let base_indices = self.move_data.existing_base_paths(loan_path);`
			`if base_indices.is_empty() {`
			`return true;`
			`}`

			`let opt_loan_path_index = self.move_data.existing_move_path(loan_path);`

			`for self.dfcx_moves.each_bit_on_entry(id) \|index\| {`
			`let move = &self.move_data.moves[index];`
			`let moved_path = move.path;`
			`if base_indices.contains(&moved_path) {`
			// Scenario 1 or 2: `loan_path` or some base path of
			// `loan_path` was moved.
			`if !f(move, self.move_data.path(moved_path).loan_path) {`
			`return false;`
			`}`
			`loop;`
			`}`

			`for opt_loan_path_index.each \|&loan_path_index\| {`
			`for self.move_data.each_base_path(moved_path) \|p\| {`
			`if p == loan_path_index {`
			// Scenario 3: some extension of `loan_path`
			`// was moved`
			`if !f(move, self.move_data.path(moved_path).loan_path) {`
			`return false;`
			`}`
			`}`
			`}`
			`}`
			`}`
			`return true;`
			`}`

			`pub fn is_assignee(&self,`
			`id: ast::node_id)`
			`-> bool {`
			//! True if `id` is the id of the LHS of an assignment

			`self.move_data.assignee_ids.contains(&id)`
			`}`

			`pub fn each_assignment_of(&self,`
			`id: ast::node_id,`
			`loan_path: @LoanPath,`
			`f: &fn(&Assignment) -> bool)`
			`-> bool {`
			`/*!`
			* Iterates through every assignment to `loan_path` that
			* may have occurred on entry to `id`. `loan_path` must be
			`* a single variable.`
			`*/`

			`let loan_path_index = {`
			`match self.move_data.existing_move_path(loan_path) {`
			`Some(i) => i,`
			`None => {`
			`// if there were any assignments, it'd have an index`
			`return true;`
			`}`
			`}`
			`};`

			`for self.dfcx_assign.each_bit_on_entry(id) \|index\| {`
			`let assignment = &self.move_data.var_assignments[index];`
			`if assignment.path == loan_path_index && !f(assignment) {`
			`return false;`
			`}`
			`}`
			`return true;`
			`}`
			`}`

			`impl DataFlowOperator for MoveDataFlowOperator {`
			`#[inline(always)]`
			`fn initial_value(&self) -> bool {`
			`false // no loans in scope by default`
			`}`

			`#[inline(always)]`
			`fn join(&self, succ: uint, pred: uint) -> uint {`
			`succ \| pred // moves from both preds are in scope`
			`}`

			`#[inline(always)]`
			`fn walk_closures(&self) -> bool {`
			`true`
			`}`
			`}`

			`impl DataFlowOperator for AssignDataFlowOperator {`
			`#[inline(always)]`
			`fn initial_value(&self) -> bool {`
			`false // no assignments in scope by default`
			`}`

			`#[inline(always)]`
			`fn join(&self, succ: uint, pred: uint) -> uint {`
			`succ \| pred // moves from both preds are in scope`
			`}`

			`#[inline(always)]`
			`fn walk_closures(&self) -> bool {`
			`true`
			`}`
			`}`