326 lines
9.9 KiB
Rust
326 lines
9.9 KiB
Rust
// Copyright 2012 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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/*!
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Condition handling
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Conditions are a utility used to deal with handling error conditions. The syntax
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of a condition handler strikes a resemblance to try/catch blocks in other
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languages, but condition handlers are *not* a form of exception handling in the
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same manner.
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A condition is declared through the `condition!` macro provided by the compiler:
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```rust
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condition! {
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pub my_error: int -> ~str;
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}
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```
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This macro declares an inner module called `my_error` with one static variable,
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`cond` that is a static `Condition` instance. To help understand what the other
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parameters are used for, an example usage of this condition would be:
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```rust
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do my_error::cond.trap(|raised_int| {
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// the condition `my_error` was raised on, and the value it raised is stored
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// in `raised_int`. This closure must return a `~str` type (as specified in
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// the declaration of the condition
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if raised_int == 3 { ~"three" } else { ~"oh well" }
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}).inside {
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// The condition handler above is installed for the duration of this block.
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// That handler will override any previous handler, but the previous handler
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// is restored when this block returns (handlers nest)
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//
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// If any code from this block (or code from another block) raises on the
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// condition, then the above handler will be invoked (so long as there's no
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// other nested handler).
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println(my_error::cond.raise(3)); // prints "three"
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println(my_error::cond.raise(4)); // prints "oh well"
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}
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```
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Condition handling is useful in cases where propagating errors is either to
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cumbersome or just not necessary in the first place. It should also be noted,
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though, that if there is not handler installed when a condition is raised, then
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the task invokes `fail!()` and will terminate.
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## More Info
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Condition handlers as an error strategy is well explained in the [conditions
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tutorial](http://static.rust-lang.org/doc/master/tutorial-conditions.html),
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along with comparing and contrasting it with other error handling strategies.
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*/
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use local_data;
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use prelude::*;
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use unstable::raw::Closure;
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#[doc(hidden)]
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pub struct Handler<T, U> {
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priv handle: Closure,
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priv prev: Option<@Handler<T, U>>,
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}
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/// This struct represents the state of a condition handler. It contains a key
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/// into TLS which holds the currently install handler, along with the name of
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/// the condition (useful for debugging).
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///
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/// This struct should never be created directly, but rather only through the
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/// `condition!` macro provided to all libraries using libstd.
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pub struct Condition<T, U> {
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/// Name of the condition handler
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name: &'static str,
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/// TLS key used to insert/remove values in TLS.
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key: local_data::Key<@Handler<T, U>>
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}
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impl<T, U> Condition<T, U> {
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/// Creates an object which binds the specified handler. This will also save
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/// the current handler *on creation* such that when the `Trap` is consumed,
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/// it knows which handler to restore.
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///
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/// # Example
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///
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/// ```rust
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/// condition! { my_error: int -> int; }
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///
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/// let trap = my_error::cond.trap(|error| error + 3);
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///
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/// // use `trap`'s inside method to register the handler and then run a
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/// // block of code with the handler registered
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/// ```
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pub fn trap<'a>(&'a self, h: &'a fn(T) -> U) -> Trap<'a, T, U> {
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let h: Closure = unsafe { ::cast::transmute(h) };
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let prev = local_data::get(self.key, |k| k.map(|x| *x));
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let h = @Handler { handle: h, prev: prev };
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Trap { cond: self, handler: h }
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}
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/// Raises on this condition, invoking any handler if one has been
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/// registered, or failing the current task otherwise.
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///
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/// While a condition handler is being run, the condition will have no
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/// handler listed, so a task failure will occur if the condition is
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/// re-raised during the handler.
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///
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/// # Arguments
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///
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/// * t - The argument to pass along to the condition handler.
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///
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/// # Return value
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///
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/// If a handler is found, its return value is returned, otherwise this
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/// function will not return.
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pub fn raise(&self, t: T) -> U {
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let msg = format!("Unhandled condition: {}: {:?}", self.name, t);
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self.raise_default(t, || fail!("{}", msg.clone()))
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}
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/// Performs the same functionality as `raise`, except that when no handler
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/// is found the `default` argument is called instead of failing the task.
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pub fn raise_default(&self, t: T, default: || -> U) -> U {
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match local_data::pop(self.key) {
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None => {
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debug!("Condition.raise: found no handler");
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default()
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}
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Some(handler) => {
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debug!("Condition.raise: found handler");
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match handler.prev {
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None => {}
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Some(hp) => local_data::set(self.key, hp)
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}
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let handle : |T| -> U = unsafe {
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::cast::transmute(handler.handle)
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};
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let u = handle(t);
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local_data::set(self.key, handler);
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u
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}
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}
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}
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}
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/// A `Trap` is created when the `trap` method is invoked on a `Condition`, and
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/// it is used to actually bind a handler into the TLS slot reserved for this
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/// condition.
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///
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/// Normally this object is not dealt with directly, but rather it's directly
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/// used after being returned from `trap`
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struct Trap<'self, T, U> {
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priv cond: &'self Condition<T, U>,
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priv handler: @Handler<T, U>
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}
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impl<'self, T, U> Trap<'self, T, U> {
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/// Execute a block of code with this trap handler's exception handler
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/// registered.
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///
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/// # Example
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///
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/// ```rust
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/// condition! { my_error: int -> int; }
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///
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/// let result = do my_error::cond.trap(|error| error + 3).inside {
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/// my_error::cond.raise(4)
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/// };
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/// assert_eq!(result, 7);
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/// ```
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pub fn inside<V>(&self, inner: &'self fn() -> V) -> V {
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let _g = Guard { cond: self.cond };
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debug!("Trap: pushing handler to TLS");
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local_data::set(self.cond.key, self.handler);
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inner()
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}
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}
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#[doc(hidden)]
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struct Guard<'self, T, U> {
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priv cond: &'self Condition<T, U>
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}
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#[unsafe_destructor]
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impl<'self, T, U> Drop for Guard<'self, T, U> {
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fn drop(&mut self) {
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debug!("Guard: popping handler from TLS");
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let curr = local_data::pop(self.cond.key);
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match curr {
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None => {}
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Some(h) => match h.prev {
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None => {}
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Some(hp) => local_data::set(self.cond.key, hp)
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}
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}
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}
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}
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#[cfg(test)]
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mod test {
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condition! {
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sadness: int -> int;
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}
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fn trouble(i: int) {
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debug!("trouble: raising condition");
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let j = sadness::cond.raise(i);
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debug!("trouble: handler recovered with {}", j);
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}
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fn nested_trap_test_inner() {
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let mut inner_trapped = false;
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do sadness::cond.trap(|_j| {
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debug!("nested_trap_test_inner: in handler");
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inner_trapped = true;
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0
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}).inside {
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debug!("nested_trap_test_inner: in protected block");
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trouble(1);
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}
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assert!(inner_trapped);
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}
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#[test]
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fn nested_trap_test_outer() {
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let mut outer_trapped = false;
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do sadness::cond.trap(|_j| {
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debug!("nested_trap_test_outer: in handler");
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outer_trapped = true; 0
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}).inside {
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debug!("nested_guard_test_outer: in protected block");
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nested_trap_test_inner();
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trouble(1);
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}
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assert!(outer_trapped);
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}
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fn nested_reraise_trap_test_inner() {
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let mut inner_trapped = false;
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do sadness::cond.trap(|_j| {
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debug!("nested_reraise_trap_test_inner: in handler");
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inner_trapped = true;
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let i = 10;
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debug!("nested_reraise_trap_test_inner: handler re-raising");
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sadness::cond.raise(i)
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}).inside {
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debug!("nested_reraise_trap_test_inner: in protected block");
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trouble(1);
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}
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assert!(inner_trapped);
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}
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#[test]
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fn nested_reraise_trap_test_outer() {
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let mut outer_trapped = false;
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do sadness::cond.trap(|_j| {
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debug!("nested_reraise_trap_test_outer: in handler");
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outer_trapped = true; 0
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}).inside {
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debug!("nested_reraise_trap_test_outer: in protected block");
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nested_reraise_trap_test_inner();
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}
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assert!(outer_trapped);
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}
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#[test]
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fn test_default() {
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let mut trapped = false;
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do sadness::cond.trap(|j| {
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debug!("test_default: in handler");
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sadness::cond.raise_default(j, || { trapped=true; 5 })
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}).inside {
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debug!("test_default: in protected block");
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trouble(1);
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}
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assert!(trapped);
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}
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// Issue #6009
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mod m {
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condition! {
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// #6009, #8215: should this truly need a `pub` for access from n?
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pub sadness: int -> int;
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}
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mod n {
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use super::sadness;
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#[test]
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fn test_conditions_are_public() {
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let mut trapped = false;
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do sadness::cond.trap(|_| {
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trapped = true;
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0
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}).inside {
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sadness::cond.raise(0);
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}
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assert!(trapped);
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}
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}
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}
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}
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