How Data Store in ARM processor

Question

I'm newbie in ARM experiment and I have a problem with concept of data in this processor. I ran into trouble. there is code to check timer interval:

// get the current timer 0 count
unsigned long Timer0_GetTimestamp(void) 
{
 return T0TC;
}

// check to see if a timestamp is in the past
// returns 1 if in the past, 0 if not
int Timer0_TimestampExpiredCk(unsigned long timestamp) 
{
 unsigned long now = T0TC;

if (now > timestamp)
{
 if ((now - timestamp) < 0x80000000)
  return 1;
 else
  return 0;
}
else
{
if ((timestamp - now) >= 0x80000000)
  return 1;
else
  return 0;
}
}

// pause for a specific number of milliseconds
void Timer0_Delay(unsigned long milliseconds) {
 unsigned long timestamp = Timer0_GetTimestamp() + milliseconds;
 while (!Timer0_TimestampExpiredCk(timestamp));
}

I have a problem with the number "0x80000000". Should we consider this number as a 2's complement or just binary ? it is supposed, when the difference between two variable is Zero we change our flag. Correct me if I wrong.

Thank you

Answer 1

(your question has nothing to do with ARM, it is a language question).

what do you want that number to be? you can specify it 0x8000000UL will make it an unsigned long yes?

BTW if you are wanting 0x80000000 as an unsigned long then you can also just look at the msbit of the now-timestamp result

if((now-timestamp)&0x80000000)
   return 0;
else
   return 1;

and there is no ambiguity there.

or

return (~(now-timestamp))>>31; 

Might need an &1 on the end of that if unsigned long is 64 bits, not if unsigned long is 32.

Answer 2

In C, the constant 0x8000000 would be represented as an unsigned int as long as int is 32 bits or greater. This because the compiler must choose the first type from the following list in which the constant can be represented:

• int
• unsigned int
• long
• unsigned long
• long long
• unsigned long long

(C99 standard section 6.4.4.1)

And 0x80000000 can't be represented as a 32 bit int, at least not in 2's complement.

Both of the variables being compared are unsigned int. I can't see any purpose in this comparison with 0x80000000. Surely to check if a timestamp is in the past you just need to do the comparison

return (now > timeStamp);

Your code returns true if the time stamp is in the past unless it is a very long way in the past i.e. more than 0x80000000 milliseconds. It also returns true if the timestamp is a long way in the future.

What's T0TC by the way? If it's a constant, your timer will never expire.