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-rw-r--r--src/doc/reference.md6
-rw-r--r--src/doc/trpl/concurrency.md5
-rw-r--r--src/doc/trpl/ffi.md8
-rw-r--r--src/doc/trpl/iterators.md2
-rw-r--r--src/doc/trpl/method-syntax.md3
-rw-r--r--src/doc/trpl/more-strings.md1
-rw-r--r--src/doc/trpl/standard-input.md4
-rw-r--r--src/doc/trpl/testing.md2
-rw-r--r--src/doc/trpl/traits.md6
-rw-r--r--src/doc/trpl/unsafe.md5
10 files changed, 39 insertions, 3 deletions
diff --git a/src/doc/reference.md b/src/doc/reference.md
index 415ec4e4fbf..07df3bdad34 100644
--- a/src/doc/reference.md
+++ b/src/doc/reference.md
@@ -816,8 +816,7 @@ may optionally begin with any number of `attributes` that apply to the
 containing module. Attributes on the anonymous crate module define important
 metadata that influences the behavior of the compiler.
 
-```{.rust}
-# #![allow(unused_attribute)]
+```no_run
 // Crate name
 #![crate_name = "projx"]
 
@@ -1020,6 +1019,7 @@ Use declarations support a number of convenient shortcuts:
 An example of `use` declarations:
 
 ```
+# #![feature(core)]
 use std::iter::range_step;
 use std::option::Option::{Some, None};
 use std::collections::hash_map::{self, HashMap};
@@ -1080,6 +1080,7 @@ declarations.
 An example of what will and will not work for `use` items:
 
 ```
+# #![feature(core)]
 # #![allow(unused_imports)]
 use foo::core::iter;  // good: foo is at the root of the crate
 use foo::baz::foobaz;    // good: foo is at the root of the crate
@@ -1781,6 +1782,7 @@ functions, with the exception that they may not have a body and are instead
 terminated by a semicolon.
 
 ```
+# #![feature(libc)]
 extern crate libc;
 use libc::{c_char, FILE};
 
diff --git a/src/doc/trpl/concurrency.md b/src/doc/trpl/concurrency.md
index 4a16db63950..9c86d2d3b84 100644
--- a/src/doc/trpl/concurrency.md
+++ b/src/doc/trpl/concurrency.md
@@ -88,6 +88,7 @@ When `guard` goes out of scope, it will block execution until the thread is
 finished. If we didn't want this behaviour, we could use `thread::spawn()`:
 
 ```
+# #![feature(old_io, std_misc)]
 use std::thread;
 use std::old_io::timer;
 use std::time::Duration;
@@ -146,6 +147,7 @@ As an example, here is a Rust program that would have a data race in many
 languages. It will not compile:
 
 ```ignore
+# #![feature(old_io, std_misc)]
 use std::thread;
 use std::old_io::timer;
 use std::time::Duration;
@@ -185,6 +187,7 @@ only one person at a time can mutate what's inside. For that, we can use the
 but for a different reason:
 
 ```ignore
+# #![feature(old_io, std_misc)]
 use std::thread;
 use std::old_io::timer;
 use std::time::Duration;
@@ -229,6 +232,7 @@ guard across thread boundaries, which gives us our error.
 We can use `Arc<T>` to fix this. Here's the working version:
 
 ```
+# #![feature(old_io, std_misc)]
 use std::sync::{Arc, Mutex};
 use std::thread;
 use std::old_io::timer;
@@ -254,6 +258,7 @@ handle is then moved into the new thread. Let's examine the body of the
 thread more closely:
 
 ```
+# #![feature(old_io, std_misc)]
 # use std::sync::{Arc, Mutex};
 # use std::thread;
 # use std::old_io::timer;
diff --git a/src/doc/trpl/ffi.md b/src/doc/trpl/ffi.md
index 018f35337f3..695279e2d5b 100644
--- a/src/doc/trpl/ffi.md
+++ b/src/doc/trpl/ffi.md
@@ -12,6 +12,7 @@ The following is a minimal example of calling a foreign function which will
 compile if snappy is installed:
 
 ```no_run
+# #![feature(libc)]
 extern crate libc;
 use libc::size_t;
 
@@ -45,6 +46,7 @@ keeping the binding correct at runtime.
 The `extern` block can be extended to cover the entire snappy API:
 
 ```no_run
+# #![feature(libc)]
 extern crate libc;
 use libc::{c_int, size_t};
 
@@ -80,6 +82,7 @@ length is number of elements currently contained, and the capacity is the total
 the allocated memory. The length is less than or equal to the capacity.
 
 ```
+# #![feature(libc)]
 # extern crate libc;
 # use libc::{c_int, size_t};
 # unsafe fn snappy_validate_compressed_buffer(_: *const u8, _: size_t) -> c_int { 0 }
@@ -104,6 +107,7 @@ required capacity to hold the compressed output. The vector can then be passed t
 the true length after compression for setting the length.
 
 ```
+# #![feature(libc)]
 # extern crate libc;
 # use libc::{size_t, c_int};
 # unsafe fn snappy_compress(a: *const u8, b: size_t, c: *mut u8,
@@ -130,6 +134,7 @@ Decompression is similar, because snappy stores the uncompressed size as part of
 format and `snappy_uncompressed_length` will retrieve the exact buffer size required.
 
 ```
+# #![feature(libc)]
 # extern crate libc;
 # use libc::{size_t, c_int};
 # unsafe fn snappy_uncompress(compressed: *const u8,
@@ -408,6 +413,7 @@ global state. In order to access these variables, you declare them in `extern`
 blocks with the `static` keyword:
 
 ```no_run
+# #![feature(libc)]
 extern crate libc;
 
 #[link(name = "readline")]
@@ -426,6 +432,7 @@ interface. To do this, statics can be declared with `mut` so we can mutate
 them.
 
 ```no_run
+# #![feature(libc)]
 extern crate libc;
 
 use std::ffi::CString;
@@ -458,6 +465,7 @@ calling foreign functions. Some foreign functions, most notably the Windows API,
 conventions. Rust provides a way to tell the compiler which convention to use:
 
 ```
+# #![feature(libc)]
 extern crate libc;
 
 #[cfg(all(target_os = "win32", target_arch = "x86"))]
diff --git a/src/doc/trpl/iterators.md b/src/doc/trpl/iterators.md
index 33dc1ba07ca..8d7b1c3bd83 100644
--- a/src/doc/trpl/iterators.md
+++ b/src/doc/trpl/iterators.md
@@ -246,6 +246,7 @@ These two basic iterators should serve you well. There are some more
 advanced iterators, including ones that are infinite. Like `count`:
 
 ```rust
+# #![feature(core)]
 std::iter::count(1, 5);
 ```
 
@@ -294,6 +295,7 @@ has no side effect on the original iterator. Let's try it out with our infinite
 iterator from before, `count()`:
 
 ```rust
+# #![feature(core)]
 for i in std::iter::count(1, 5).take(5) {
     println!("{}", i);
 }
diff --git a/src/doc/trpl/method-syntax.md b/src/doc/trpl/method-syntax.md
index 0ca42c3b12d..8cb16f7ab33 100644
--- a/src/doc/trpl/method-syntax.md
+++ b/src/doc/trpl/method-syntax.md
@@ -23,6 +23,7 @@ the ability to use this *method call syntax* via the `impl` keyword.
 Here's how it works:
 
 ```{rust}
+# #![feature(core)]
 struct Circle {
     x: f64,
     y: f64,
@@ -87,6 +88,7 @@ original example, `foo.bar().baz()`? This is called 'method chaining', and we
 can do it by returning `self`.
 
 ```
+# #![feature(core)]
 struct Circle {
     x: f64,
     y: f64,
@@ -164,6 +166,7 @@ have method overloading, named arguments, or variable arguments. We employ
 the builder pattern instead. It looks like this:
 
 ```
+# #![feature(core)]
 struct Circle {
     x: f64,
     y: f64,
diff --git a/src/doc/trpl/more-strings.md b/src/doc/trpl/more-strings.md
index 6567cd448f9..4b2281badd7 100644
--- a/src/doc/trpl/more-strings.md
+++ b/src/doc/trpl/more-strings.md
@@ -148,6 +148,7 @@ Rust provides iterators for each of these situations:
 Usually, the `graphemes()` method on `&str` is what you want:
 
 ```
+# #![feature(unicode)]
 let s = "u͔n͈̰̎i̙̮͚̦c͚̉o̼̩̰͗d͔̆̓ͥé";
 
 for l in s.graphemes(true) {
diff --git a/src/doc/trpl/standard-input.md b/src/doc/trpl/standard-input.md
index 794b1df7563..0ef286ac069 100644
--- a/src/doc/trpl/standard-input.md
+++ b/src/doc/trpl/standard-input.md
@@ -5,7 +5,7 @@ we haven't seen before. Here's a simple program that reads some input,
 and then prints it back out:
 
 ```{rust,ignore}
-fn main() {
+corefn main() {
     println!("Type something!");
 
     let input = std::old_io::stdin().read_line().ok().expect("Failed to read line");
@@ -28,6 +28,7 @@ Since writing the fully qualified name all the time is annoying, we can use
 the `use` statement to import it in:
 
 ```{rust}
+# #![feature(old_io)]
 use std::old_io::stdin;
 
 stdin();
@@ -37,6 +38,7 @@ However, it's considered better practice to not import individual functions, but
 to import the module, and only use one level of qualification:
 
 ```{rust}
+# #![feature(old_io)]
 use std::old_io;
 
 old_io::stdin();
diff --git a/src/doc/trpl/testing.md b/src/doc/trpl/testing.md
index 72e9ec9f750..8fb08e1c6cf 100644
--- a/src/doc/trpl/testing.md
+++ b/src/doc/trpl/testing.md
@@ -546,6 +546,8 @@ is an opaque "black box" to the optimizer and so forces it to consider any
 argument as used.
 
 ```rust
+# #![feature(test)]
+
 extern crate test;
 
 # fn main() {
diff --git a/src/doc/trpl/traits.md b/src/doc/trpl/traits.md
index 676f1cc425a..fe26fc5e1eb 100644
--- a/src/doc/trpl/traits.md
+++ b/src/doc/trpl/traits.md
@@ -4,6 +4,7 @@ Do you remember the `impl` keyword, used to call a function with method
 syntax?
 
 ```{rust}
+# #![feature(core)]
 struct Circle {
     x: f64,
     y: f64,
@@ -21,6 +22,7 @@ Traits are similar, except that we define a trait with just the method
 signature, then implement the trait for that struct. Like this:
 
 ```{rust}
+# #![feature(core)]
 struct Circle {
     x: f64,
     y: f64,
@@ -84,6 +86,7 @@ which implements `HasArea` will have an `.area()` method.
 Here's an extended example of how this works:
 
 ```{rust}
+# #![feature(core)]
 trait HasArea {
     fn area(&self) -> f64;
 }
@@ -225,6 +228,7 @@ If we add a `use` line right above `main` and make the right things public,
 everything is fine:
 
 ```{rust}
+# #![feature(core)]
 use shapes::HasArea;
 
 mod shapes {
@@ -408,6 +412,7 @@ but instead, we found a floating-point variable. We need a different bound. `Flo
 to the rescue:
 
 ```
+# #![feature(std_misc)]
 use std::num::Float;
 
 fn inverse<T: Float>(x: T) -> Result<T, String> {
@@ -423,6 +428,7 @@ from the `Float` trait. Both `f32` and `f64` implement `Float`, so our function
 works just fine:
 
 ```
+# #![feature(std_misc)]
 # use std::num::Float;
 # fn inverse<T: Float>(x: T) -> Result<T, String> {
 #     if x == Float::zero() { return Err("x cannot be zero!".to_string()) }
diff --git a/src/doc/trpl/unsafe.md b/src/doc/trpl/unsafe.md
index 11f0b8e1ddb..2116976d55a 100644
--- a/src/doc/trpl/unsafe.md
+++ b/src/doc/trpl/unsafe.md
@@ -187,6 +187,7 @@ As an example, we give a reimplementation of owned boxes by wrapping
 reimplementation is as safe as the `Box` type.
 
 ```
+# #![feature(libc)]
 #![feature(unsafe_destructor)]
 
 extern crate libc;
@@ -443,6 +444,7 @@ The function marked `#[start]` is passed the command line parameters
 in the same format as C:
 
 ```
+# #![feature(libc)]
 #![feature(lang_items, start, no_std)]
 #![no_std]
 
@@ -470,6 +472,7 @@ correct ABI and the correct name, which requires overriding the
 compiler's name mangling too:
 
 ```ignore
+# #![feature(libc)]
 #![feature(no_std)]
 #![no_std]
 #![no_main]
@@ -526,6 +529,7 @@ As an example, here is a program that will calculate the dot product of two
 vectors provided from C, using idiomatic Rust practices.
 
 ```
+# #![feature(libc, core)]
 #![feature(lang_items, start, no_std)]
 #![no_std]
 
@@ -650,6 +654,7 @@ and one for deallocation. A freestanding program that uses the `Box`
 sugar for dynamic allocations via `malloc` and `free`:
 
 ```
+# #![feature(libc)]
 #![feature(lang_items, box_syntax, start, no_std)]
 #![no_std]