+// **Exercise 13.1**: Change rgrep such that it prints not only the matching lines, but also the name of the file
+// and the number of the line in the file. You will have to change the type of the channels from `String` to something
+// that records this extra information.
+
+//@ ## Ownership, Borrowing, and Concurrency
+//@ The little demo above showed that concurrency in Rust has a fairly simple API. Considering Rust has closures,
+//@ that should not be entirely surprising. However, as it turns out, Rust goes well beyond this and actually ensures
+//@ the absence of data races. <br/>
+//@ A data race is typically defined as having two concurrent, unsynchronized
+//@ accesses to the same memory location, at least one of which is a write. In other words, a data race is mutation in
+//@ the presence of aliasing, which Rust reliably rules out! It turns out that the same mechanism that makes our single-threaded
+//@ programs memory safe, and that prevents us from invalidating iterators, also helps secure our multi-threaded code against
+//@ data races. For example, notice how `read_files` sends a `String` to `filter_lines`. At run-time, only the pointer to
+//@ the character data will actually be moved around (just like when a `String` is passed to a function with full ownership). However,
+//@ `read_files` has to *give up* ownership of the string to perform `send`, to it is impossible for an outstanding borrow to
+//@ still be around. After it sent the string to the other side, `read_files` has no pointer into the string content
+//@ anymore, and hence no way to race on the data with someone else.
+//@
+//@ There is a little more to this. Remember the `'static` bound we had to add to `register` in the previous parts, to make
+//@ sure that the callbacks do not reference any pointers that might become invalid? This is just as crucial for spawning
+//@ a thread: In general, that thread could last for much longer than the current stack frame. Thus, it must not use
+//@ any pointers to data in that stack frame. This is achieved by requiring the `FnOnce` closure passed to `thread::spawn`
+//@ to be valid for lifetime `'static`, as you can see in [its documentation](http://doc.rust-lang.org/stable/std/thread/fn.spawn.html).
+//@ This avoids another kind of data race, where the thread's access races with the callee deallocating its stack frame.
+//@ It is only thanks to the concept of lifetimes that this can be expressed as part of the type of `spawn`.
+
+//@ ## Send
+//@ However, the story goes even further. I said above that `Arc` is a thread-safe version of `Rc`, which uses atomic operations
+//@ to manipulate the reference count. It is thus crucial that we don't use `Rc` across multiple threads, or the reference count may
+//@ become invalid. And indeed, if you replace `Arc` by `Rc` (and add the appropriate imports), Rust will tell you that something
+//@ is wrong. That's great, of course, but how did it do that?
+//@
+//@ The answer is already hinted at in the error: It will say something about `Send`. You may have noticed that the closure in
+//@ `thread::spawn` does not just have a `'static` bound, but also has to satisfy `Send`. `Send` is a trait, and just like `Copy`,
+//@ it's just a marker - there are no functions provided by `Send`. What the trait says is that types which are `Send` can be
+//@ safely sent to another thread without causing trouble. Of course, all the primitive data-types are `Send`. So is `Arc`,
+//@ which is why Rust accepted our code. But `Rc` is not `Send`, and for a good reason! If had two `Rc` to the same data, and
+//@ sent one of them to another thread, things could go havoc due to the lack of synchronization.
+//@
+//@ Now, `Send` as a trait is fairly special. It has a so-called *default implementation*. This means that *every type* implements
+//@ `Send`, unless it opts out. Opting out is viral: If your type contains a type that opted out, then you don't have `Send`, either.
+//@ So if the environment of your closure contains an `Rc`, it won't be `Send`, preventing it from causing trouble. If however every
+//@ captured variable *is* `Send`, then so is the entire environment, and you are good.