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rust/src/librustc/util/common.rs
Alex Crichton 3cb9fa26ef std: Rename Show/String to Debug/Display 
This commit is an implementation of [RFC 565][rfc] which is a stabilization of
the `std::fmt` module and the implementations of various formatting traits.
Specifically, the following changes were performed:

[rfc]: https://github.com/rust-lang/rfcs/blob/master/text/0565-show-string-guidelines.md

* The `Show` trait is now deprecated, it was renamed to `Debug`
* The `String` trait is now deprecated, it was renamed to `Display`
* Many `Debug` and `Display` implementations were audited in accordance with the
  RFC and audited implementations now have the `#[stable]` attribute
  * Integers and floats no longer print a suffix
  * Smart pointers no longer print details that they are a smart pointer
  * Paths with `Debug` are now quoted and escape characters
* The `unwrap` methods on `Result` now require `Display` instead of `Debug`
* The `Error` trait no longer has a `detail` method and now requires that
  `Display` must be implemented. With the loss of `String`, this has moved into
  libcore.
* `impl<E: Error> FromError<E> for Box<Error>` now exists
* `derive(Show)` has been renamed to `derive(Debug)`. This is not currently
  warned about due to warnings being emitted on stage1+

While backwards compatibility is attempted to be maintained with a blanket
implementation of `Display` for the old `String` trait (and the same for
`Show`/`Debug`) this is still a breaking change due to primitives no longer
implementing `String` as well as modifications such as `unwrap` and the `Error`
trait. Most code is fairly straightforward to update with a rename or tweaks of
method calls.

[breaking-change]
Closes #21436
2015-01-20 22:36:13 -08:00

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// 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 <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.
#![allow(non_camel_case_types)]
use std::cell::{RefCell, Cell};
use std::collections::HashMap;
use std::fmt::Debug;
use std::hash::{Hash, Hasher};
use std::iter::repeat;
use std::time::Duration;
use std::collections::hash_state::HashState;
use syntax::ast;
use syntax::visit;
use syntax::visit::Visitor;
// Useful type to use with `Result<>` indicate that an error has already
// been reported to the user, so no need to continue checking.
#[derive(Clone, Copy, Show)]
pub struct ErrorReported;
pub fn time<T, U, F>(do_it: bool, what: &str, u: U, f: F) -> T where
F: FnOnce(U) -> T,
{
thread_local!(static DEPTH: Cell<uint> = Cell::new(0));
if !do_it { return f(u); }
let old = DEPTH.with(|slot| {
let r = slot.get();
slot.set(r + 1);
r
});
let mut u = Some(u);
let mut rv = None;
let dur = {
let ref mut rvp = rv;
Duration::span(move || {
*rvp = Some(f(u.take().unwrap()))
})
};
let rv = rv.unwrap();
println!("{}time: {}.{:03} \t{}", repeat(" ").take(old).collect::<String>(),
dur.num_seconds(), dur.num_milliseconds() % 1000, what);
DEPTH.with(|slot| slot.set(old));
rv
}
pub fn indent<R, F>(op: F) -> R where
R: Debug,
F: FnOnce() -> R,
{
// Use in conjunction with the log post-processor like `src/etc/indenter`
// to make debug output more readable.
debug!(">>");
let r = op();
debug!("<< (Result = {:?})", r);
r
}
pub struct Indenter {
_cannot_construct_outside_of_this_module: ()
}
impl Drop for Indenter {
fn drop(&mut self) { debug!("<<"); }
}
pub fn indenter() -> Indenter {
debug!(">>");
Indenter { _cannot_construct_outside_of_this_module: () }
}
struct LoopQueryVisitor<P> where P: FnMut(&ast::Expr_) -> bool {
p: P,
flag: bool,
}
impl<'v, P> Visitor<'v> for LoopQueryVisitor<P> where P: FnMut(&ast::Expr_) -> bool {
fn visit_expr(&mut self, e: &ast::Expr) {
self.flag |= (self.p)(&e.node);
match e.node {
// Skip inner loops, since a break in the inner loop isn't a
// break inside the outer loop
ast::ExprLoop(..) | ast::ExprWhile(..) | ast::ExprForLoop(..) => {}
_ => visit::walk_expr(self, e)
}
}
}
// Takes a predicate p, returns true iff p is true for any subexpressions
// of b -- skipping any inner loops (loop, while, loop_body)
pub fn loop_query<P>(b: &ast::Block, p: P) -> bool where P: FnMut(&ast::Expr_) -> bool {
let mut v = LoopQueryVisitor {
p: p,
flag: false,
};
visit::walk_block(&mut v, b);
return v.flag;
}
struct BlockQueryVisitor<P> where P: FnMut(&ast::Expr) -> bool {
p: P,
flag: bool,
}
impl<'v, P> Visitor<'v> for BlockQueryVisitor<P> where P: FnMut(&ast::Expr) -> bool {
fn visit_expr(&mut self, e: &ast::Expr) {
self.flag |= (self.p)(e);
visit::walk_expr(self, e)
}
}
// Takes a predicate p, returns true iff p is true for any subexpressions
// of b -- skipping any inner loops (loop, while, loop_body)
pub fn block_query<P>(b: &ast::Block, p: P) -> bool where P: FnMut(&ast::Expr) -> bool {
let mut v = BlockQueryVisitor {
p: p,
flag: false,
};
visit::walk_block(&mut v, &*b);
return v.flag;
}
/// K: Eq + Hash<S>, V, S, H: Hasher<S>
///
/// Determines whether there exists a path from `source` to `destination`. The graph is defined by
/// the `edges_map`, which maps from a node `S` to a list of its adjacent nodes `T`.
///
/// Efficiency note: This is implemented in an inefficient way because it is typically invoked on
/// very small graphs. If the graphs become larger, a more efficient graph representation and
/// algorithm would probably be advised.
pub fn can_reach<T, S>(edges_map: &HashMap<T, Vec<T>, S>, source: T,
destination: T) -> bool
where S: HashState,
<S as HashState>::Hasher: Hasher<Output=u64>,
T: Hash< <S as HashState>::Hasher> + Eq + Clone,
{
if source == destination {
return true;
}
// Do a little breadth-first-search here. The `queue` list
// doubles as a way to detect if we've seen a particular FR
// before. Note that we expect this graph to be an *extremely
// shallow* tree.
let mut queue = vec!(source);
let mut i = 0;
while i < queue.len() {
match edges_map.get(&queue[i]) {
Some(edges) => {
for target in edges.iter() {
if *target == destination {
return true;
}
if !queue.iter().any(|x| x == target) {
queue.push((*target).clone());
}
}
}
None => {}
}
i += 1;
}
return false;
}
/// Memoizes a one-argument closure using the given RefCell containing
/// a type implementing MutableMap to serve as a cache.
///
/// In the future the signature of this function is expected to be:
/// ```
/// pub fn memoized<T: Clone, U: Clone, M: MutableMap<T, U>>(
/// cache: &RefCell<M>,
/// f: &|&: T| -> U
/// ) -> impl |&: T| -> U {
/// ```
/// but currently it is not possible.
///
/// # Example
/// ```
/// struct Context {
/// cache: RefCell<HashMap<uint, uint>>
/// }
///
/// fn factorial(ctxt: &Context, n: uint) -> uint {
/// memoized(&ctxt.cache, n, |n| match n {
/// 0 | 1 => n,
/// _ => factorial(ctxt, n - 2) + factorial(ctxt, n - 1)
/// })
/// }
/// ```
#[inline(always)]
pub fn memoized<T, U, S, F>(cache: &RefCell<HashMap<T, U, S>>, arg: T, f: F) -> U
where T: Clone + Hash<<S as HashState>::Hasher> + Eq,
U: Clone,
S: HashState,
<S as HashState>::Hasher: Hasher<Output=u64>,
F: FnOnce(T) -> U,
{
let key = arg.clone();
let result = cache.borrow().get(&key).map(|result| result.clone());
match result {
Some(result) => result,
None => {
let result = f(arg);
cache.borrow_mut().insert(key, result.clone());
result
}
}
}
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