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I've looked through the TI C/C++ compiler v6.1 user's guide (spru514e) but didn't find anything.

The asm statement doesn't seem to provide anything in this regard, the manual even warns against changing values of variables (p132). The GNU extension for declaring effects on variables is not implemented (p115).

I also didn't find any intrinsic for memory barriers (like __memory_changed() in Keil's armcc).

Searching the web or the TI forums also turned up nothing.

Any other hints how to proceed?

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The ordering requirement seems to be simply with regards to compiler optimizations and scheduling. I don't suppose this could be worked around by moving the asm statement out into a static inline function, returning the value you want updated? – unixsmurf Oct 9 '12 at 10:38
The wiki says the compiler does not support Atomic Builtins. Probably, your only hope is that volatile accesses aren't reordered. And you may need to insert some nops to avoid unprotected pipeline conflicts as explained in the Pipeline chapter of the CPU and Instruction Set Reference guide. If you have multiple CPUs, things can get messier. – Alexey Frunze Oct 9 '12 at 10:43
@unixsmurf I don't want to do anything in assembly. An empty inline assembly statement that says it modifies memory is just a way to do a memory barrier in gcc. – starblue Oct 9 '12 at 16:05
@Alexey Frunze Thanks for the link, I didn't know that gcc has an explicit memory barrier (´__sync_synchronize()´). As for the TI compiler, volatile seems to work, but I want to avoid it, since it would prevent too many compiler optimizations. – starblue Oct 9 '12 at 16:09
First, a memory barrier cannot guarantee that you read latest datafrom the memory. It can enforce ordering on the read operations, though. If you really want a memory barrier, why not create a logical one, then? Using volatile keyword in C is acceptable, there a few tricks on how to use volatile, that might reduce your code size while achieving what you want. Or did I divert from your question? – askmish Oct 11 '12 at 17:16

Memory barriers are about the ordering of memory accesses, but you also have to ensure that values do not stay in registers but are written to memory at all.

The only way to enforce this with TI's compiler is to use volatile.

Please note that volatile, while being a modifier of a variable, is in its implementation not about the variable itself (i.e., its memory), but about all the accesses to this variable. So if you want to avoid the effects of too little optmization, write your program so that only some variable accesses are volatile.

To do this, declare your variables normally, and add volatile only when you want to force a read or write of a variable. You can use helper functions like this:

inline void force_write(int *ptr, int value)
    *(volatile int *)ptr = value;

or use this nifty macro stolen from Linux, usable for both reading/writing and for all types:

#define ACCESS_ONCE(x) (*(volatile typeof(x) *)&(x))
if (ACCESS_ONCE(ready) != 0)
    ACCESS_ONCE(new_data) = 42;

(The name has historical reasons; better call it FORCE_ACCESS.)

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