# Is Multiplying a decimal number where all results are full integers, considered Floating Point Math?

Sorry for the wordy title. My code is targeting a microcontroller (msp430) with no floating point unit, but this should apply to any similar MCU.

If I am multiplying a large runtime variable with what would normally be considered a floating point decimal number (1.8), is this still treated like floating point math by the MCU or compiler?

My simplified code is:

``````int multip = 0xf;          // Can be from 0-15, not available at compile time
int holder = multip * 625; // 0 - 9375
holder = holder * 1.8;     // 0 - 16875`
``````

Since the result will always be a positive full, real integer number, is it still floating point math as far as the MCU or compiler are concerned, or is it fixed point?

(I realize I could just multiply by 18, but that would require declaring a 32bit long instead of a 16 bit int then dividing and downcasting for the array it will be put in, trying to skimp on memory here)

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When you say "floating point," do you mean the IEEE-754 variety? –  Robert Harvey Sep 17 '13 at 23:47
According to my experience, most compiler treat 1.8 as a floating number even though there is no floating point unit on your chip. But operations with floating point numbers cost much more than those with integers. So it depend on your requirements. –  Wisatbff Sep 18 '13 at 0:23
Why would positivity matter? –  user2357112 Sep 18 '13 at 0:25
@user2357112 fixed. Meant full integers. –  cde Sep 18 '13 at 0:28
@RobertHarvey I would assume so –  cde Sep 18 '13 at 0:31

The result is not an integer; it rounds to an integer.

``````9375 * 1.8000000000000000444089209850062616169452667236328125
``````

yields

``````16875.0000000000004163336342344337026588618755340576171875
``````

which rounds (in double precision floating point) to 16875.

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That's because the compiler or mcu inherently treats 1.8 as a float, immediately creating imprecision right? Shame. Thanks. –  cde Sep 18 '13 at 2:29
You could always do the calculation as `holder *= 2; holder -= holder/10;` –  R.. Sep 18 '13 at 3:06
@cde Not the MCU, but the compiler treats 1.8 as a float. The MCU is stupid that it just executes the instructions in the hex file(output of the linker). So it's the compiler that optimizes the floating point operations. –  Wisatbff Sep 18 '13 at 4:55

If you write a floating-point multiply, I know of no compiler that will determine that there's a way to do that in fixed-point instead. (That does not mean they do not exist, but it ... seems unlikely.)

I assume you simplified away something important, because it seems like you could just do:

``````result = multip * 1125;
``````

and get the final result directly.

I'd go for chux's formula if there's some reason you can't just multiply by 1125.

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Confident FP code will be created for

``````holder = holder * 1.8
``````

To avoid FP and 32-bit math, given the OP values of

``````int multip = 0xf;    // Max 15
unsigned holder = multip * 625; // Max 9375
// holder = holder * 1.8;
// alpha depends on rounding desired,  e.g. 2 for round to nearest.
holder += (holder*4u + alpha)/5;
``````
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If `int x` is non-negative, you can compute `x *= 1.8` rounded to nearest using only `int` arithmetic, without overflow unless the final result overflows, with:

``````x - (x+2)/5 + x
``````

For truncation instead of round-to-nearest, use:

``````x - (x+4)/5 + x
``````

If `x` may be negative, some additional work is needed.

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