Need to do 64 bit multiplication on a machine with 32 bit longs

I'm working on a small embedded system that has 32 bit long ints. For one calculation I need output the time since 1970 in ms. I can get the time in 32 bit unsigned long seconds since 1970, but how can I represent this as a 64 bit no. of ms if my biggest int is only 32bits? I'm sure stackoverflow will have a cunning answer! I am using Dynamic C, close to standard C. I have some sample code from another system which has a 64 bit long long data type:

``````long long T = (long long)(SampleTime * 1000.0 + 0.5);
data.TimeLower = (unsigned int)(T & 0xffffffff);
data.TimeUpper = (unsigned short)((T >> 32) & 0xffff);
``````
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What language are you working with? –  Vinnyq12 May 28 '11 at 23:47
It's Dynamic C, an quirky superset of C for embedded systems –  fred basset May 28 '11 at 23:54

Since you are only multiplying by 1000 (seconds -> millis), you can do it with two 16 bit mutliplies and one add and a bit of bit fiddling, I have used your putative data type to store the result below:

``````uint32_t time32 = time();
uint32_t t1 = (time32 & 0xffff) * 1000;
uint32_t t2 = ((time32 >> 16) * 1000) + (t1 >> 16);
data.TimeLower = (uint32_t) ((t2 & 0xffff) << 16) | (t1 & 0xffff);
data.TimeUpper = (uint32_t) (t2 >> 16);
``````
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The standard approach, assuming you have a 16x16->32 multiply available, would be to split both numbers into 16-bit high and low parts, compute four partial products, and add the results. If you don't have a 16x16->32 primitive which is faster than a 32x32->32 primitive, though, I'm not sure what the best approach would be. I would think that a 32x32->32 multiply should be more useful than a 16x16->32, but I can't think how one would use it.

Personally, I wish there were a standard primitive to return the top half of a NxN multiply (32x32, certainly; also 16x16 for smaller machines and 64x64 for larger ones).

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