Reword 'stupid' and 'crazy' in docs.
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configure
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configure
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@ -1568,7 +1568,7 @@ do
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then
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LLVM_BUILD_DIR=${CFG_BUILD_DIR}$t/llvm
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LLVM_INST_DIR=$LLVM_BUILD_DIR
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# For some crazy reason the MSVC output dir is different than Unix
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# For some weird reason the MSVC output dir is different than Unix
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if [ ${is_msvc} -ne 0 ]; then
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if [ -n "$CFG_DISABLE_OPTIMIZE_LLVM" ]
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then
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@ -24,10 +24,10 @@ exactly what we said but, you know, fast. Wouldn't that be great?
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# Compiler Reordering
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Compilers fundamentally want to be able to do all sorts of crazy transformations
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to reduce data dependencies and eliminate dead code. In particular, they may
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radically change the actual order of events, or make events never occur! If we
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write something like
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Compilers fundamentally want to be able to do all sorts of complicated
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transformations to reduce data dependencies and eliminate dead code. In
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particular, they may radically change the actual order of events, or make events
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never occur! If we write something like
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```rust,ignore
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x = 1;
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@ -22,7 +22,7 @@ Well, Rust *has* a safe programming language. Let's step back a bit.
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Rust can be thought of as being composed of two programming languages: *Safe
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Rust* and *Unsafe Rust*. Safe Rust is For Reals Totally Safe. Unsafe Rust,
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unsurprisingly, is *not* For Reals Totally Safe. In fact, Unsafe Rust lets you
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do some really crazy unsafe things.
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do some really, *really* unsafe things.
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Safe Rust is the *true* Rust programming language. If all you do is write Safe
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Rust, you will never have to worry about type-safety or memory-safety. You will
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@ -21,11 +21,11 @@ prevent *all* race conditions would be pretty awful to use, if not just
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incorrect.
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So it's perfectly "fine" for a Safe Rust program to get deadlocked or do
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something incredibly stupid with incorrect synchronization. Obviously such a
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program isn't very good, but Rust can only hold your hand so far. Still, a
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race condition can't violate memory safety in a Rust program on
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its own. Only in conjunction with some other unsafe code can a race condition
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actually violate memory safety. For instance:
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something nonsensical with incorrect synchronization. Obviously such a program
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isn't very good, but Rust can only hold your hand so far. Still, a race
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condition can't violate memory safety in a Rust program on its own. Only in
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conjunction with some other unsafe code can a race condition actually violate
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memory safety. For instance:
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```rust,no_run
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use std::thread;
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@ -207,7 +207,7 @@ unsafe fn unregister_dtor(key: Key) -> bool {
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// loop to basically match Unix semantics. If we don't reach a fixed point
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// after a short while then we just inevitably leak something most likely.
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//
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// # The article mentions crazy stuff about "/INCLUDE"?
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// # The article mentions weird stuff about "/INCLUDE"?
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//
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// It sure does! Specifically we're talking about this quote:
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//
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