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According to, the await keyword is forbidden inside an unsafe block, mentioning only 'difficulties inherent to preserving unmanaged pointers.' Is there a good explanation available on what those difficulties are?

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What more detail do you want? You can't use it in unsafe blocks. – Mitch Wheat Mar 3 '13 at 3:40
@MitchWheat I admit I'm grasping here, but maybe OP is looking for information on what that means. – Platinum Azure Mar 3 '13 at 3:46
It means you can't use it there! Even with a detailed explanation, you still won't be able to use it there. Perhaps OP should explain the problem they are trying to solve. – Mitch Wheat Mar 3 '13 at 3:49
@MitchWheat: sometimes people just try to learn something – pescolino Mar 3 '13 at 3:53
@MitchWheat, StackOverflow is full of answers that elaborate on fine details like this. Indeed it may not change whether I can use await in an unsafe block, but the insight as to why I can't may help in choosing patterns for the times I wish I could. – Sebastian Good Mar 3 '13 at 12:58
up vote 5 down vote accepted

Two basic things you need to know. An async method gets rewritten by the C# compiler into a little class with an unspeakable name that wraps a state machine. The local variables of the async method become fields of that class.

Unsafe code quite often relies on being able to create pointers to local variables. The fixed statement is like that, it creates a hidden local variable that the garbage collector can see and thus update when a garbage collection occurs that moves the array that is being fixed. Creating pointers to local variables is fine, those variables are not subject to being ever moved by the garbage collector. The stack of a thread is always in a fixed location in the virtual memory address space.

Connect the two and you see the problem, a local variable can turn into a field of a class, a field whose address does change when a garbage collection occurs. Suddenly turning unsafe code into breaking code.

A code snippet that demonstrates the issue:

class Example {
    int field;
    unsafe void Method() {
        int local = 42;
        int* p = &local;   // fine
        int* q = &field;   // CS0212

The C# team could have made the effort to carefully analyze the cases where unsafe code is still okay after rewriting. But some cases are just not fixable, like the fixed statement. A bunch of work to only give disappointing news to the programmer, often for a bewildering reason. The sane thing to do here was to simply declare unsafe code off limits.

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That makes good sense. It's a shame the relevant state machine can't simply be declared fixed (optionally, I suppose) and be done with it. I guess the solution is to explicitly allocate the closure variables you'll need into a class, fix that class, and reference pieces of it appropriately. But that gives up half the benefit of the async rewriter wizardry. It's a shame! – Sebastian Good Mar 4 '13 at 23:28

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