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I have to provide a C-style callback for a specific C library in an iOS app. The callback has no void *userData or something similar. So I am not able to loop in a context. I'd like to avoid introducing a global context to solve this. An ideal solution would be an Objective-C block.

My question: Is there a way to 'cast' a block into a function pointer or to wrap/cloak it somehow?

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up vote 5 down vote accepted

Technically, you could get access to a function pointer for the block. But it's totally unsafe to do so, so I certainly don't recommend it. To see how, consider the following example:

#import <Foundation/Foundation.h>

struct Block_layout {
    void *isa;
    int flags;
    int reserved; 
    void (*invoke)(void *, ...);
    struct Block_descriptor *descriptor;

int main(int argc, char *argv[]) {
    @autoreleasepool {
        // Block that doesn't take or return anything
        void(^block)() = ^{
            NSLog(@"Howdy %i", argc);

        // Cast to a struct with the same memory layout
        struct Block_layout *blockStr = (struct Block_layout *)(__bridge void *)block;

        // Now do same as `block()':

        // Block that takes an int and returns an int
        int(^returnBlock)(int) = ^int(int a){
            return a;

        // Cast to a struct with the same memory layout
        struct Block_layout *blockStr2 = (struct Block_layout *)(__bridge void *)returnBlock;

        // Now do same as `returnBlock(argc)':
        int ret = ((int(*)(void*, int a, ...))(blockStr2->invoke))(blockStr2, argc);
        NSLog(@"ret = %i", ret);

Running that yields:

Howdy 1
ret = 1

Which is what we'd expect from purely executing those blocks directly with block(). So, you could use invoke as your function pointer.

But as I say, this is totally unsafe. Don't actually use this!

If you want to see a write-up of a way to do what you're asking, then check this out:

It's just a great write-up of what you would need to do to get this to work. Sadly, it's never going to work on iOS though (since you need to mark a page as executable which you're not allowed to do within your app's sandbox). But nevertheless, a great article.

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Please excuse my ignorance, but why exactly is it unsafe? I suppose it is because the struct is an internal one and could change in the future, right? – Jan Deinhard Oct 22 '12 at 16:32
That's right :-). – mattjgalloway Oct 22 '12 at 16:49
The problem with this is that it still requires you to pass the block to the invoke function, whereas the OP says you cannot pass a context to the callback. – newacct Oct 22 '12 at 17:37
Yeh indeed... I was trying to come up with a mad way but haven't found a way yet. Of course, it's likely there isn't a way :-). – mattjgalloway Oct 22 '12 at 18:28
This isn't totally unsafe. The Block's layout is fixed at compile time and "baked in" to your executable. It won't break in the field. It may only require modification the next time you compile. – Josh Caswell Jun 6 '14 at 18:32

If your block needs context information, and the callback does not offer any context, I'm afraid the answer is a clear no. Blocks have to store context information somewhere, so you will never be able to cast such a block into a no-arguments function pointer.

A carefully designed global variable approach is probably the best solution in this case.

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MABlockClosure can do exactly this. But it may be overkill for whatever you need.

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The description of imp_implementationWithBlock (found in objc/runtime.h) has this to say:

Creates a pointer to a function that will call the block when the method is called.

It's supposed to be used for methods, but it seems you can use it to convert any (see comments below by newacct) block into a function pointer:

#import <Foundation/Foundation.h>
#import <objc/runtime.h>

int main(int argc, const char * argv[]) {
    @autoreleasepool {
        NSString *message = @"Hello, World!";

        NSString* (^upperCaseStringBlock)(NSString*) = ^NSString*(NSString* string)
            return [string uppercaseString];

        NSString* (*upperCaseString)(NSString*) = (void*)imp_implementationWithBlock(upperCaseStringBlock);

        NSString *upperCaseMessage = upperCaseString(message);

        NSLog(@"%@", upperCaseMessage);

        // Probably optional
    return 0;
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That happens to work for a single pointer parameter, but does not work in general. imp_implementationWithBlock takes a block whose first parameter is an object pointer, and it returns an IMP, a pointer to a function that takes an object pointer as first parameter (for self), a selector as second parameter (for _cmd), and remaining parameters. The function that imp_implementationWithBlock returns passes its first argument (self) as the first argument of the block, discards its second argument (_cmd), and passes the third and on arguments as the second and on arguments of the block. – newacct Jul 14 '14 at 1:30
For your block of type NSString* (^)(NSString *), the returned function pointer should really have type NSString * (*)(NSString *string, SEL ignored). In your case not passing the second argument turned out okay because the second argument is unused. If your block had more parameters like NSString * (^)(NSString *foo, NSString *bar) then the function pointer will need to have type NSString * (*)(NSString *foo, SEL ignored, NSString *bar), which is probably not the signature you want. Also, if the first parameter is not a type that fits in a register, crazy stuff will happen. – newacct Jul 14 '14 at 1:30

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