# Fixed point in varius values. uC cortex

i want to multiple values by scale factor on microcontroler, and i cant use float values. For example, once i've got value 170 which is multiply by scale factor ex. 0.00065, so result is 0.1105 and i only need 0.11. I've got values form -500 to +500. I know that it's something about fixed point but i'cant figure out how to solve it. Thans for help

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If your input is an integer, and only the output requires to be fixed point, it's fairly simple.

Lets use 16.16 fixed point. This means you have 16 bits of fraction, and 16 bits of integer. To convert an integer to fixed point, just shift left by 16 bits (or multiply by 65536).

Your input is `170`, or `0xAA`. So the fixed-point representation would be `0xAA0000`.

You want to multiply by 0.00065, which would be `0x002b`.

To multiply you need to either multiply the numbers together and then cancel out one of the scales (both inputs are scaled, so the result will be scaled twice), or cancel one of the scales before multiplying.

``````0xaa0000 * 0x2b = 0x1c8e0000
0x1c8e0000 >> 16 = 0x1c8e
``````

However note that this could overflow with a larger input. If you tried to use 500, it would produce a larger than 32-bit value.

If your input is an integer, you could just leave it unshifted. Lets do that:

``````0xaa * 0x2b = 0x1c8e
``````

Same answer, but no shifting. However your input obviously can only be an integer.

Either way, `0x1c8e` is your answer, but expressed in 65536ths. If you take that number in decimal (7310) and divide by 65536, you'll get 0.11154..., which is an approximation of the answer you want.

You can choose any fraction/integer split you like with fixed point, and you could even mix and match. You just have to take into account where the split is when you perform any mathematical operation, usually shifting either the inputs or the outputs appropriately. The main problem to deal with is picking a format which doesn't overflow or underflow for the operations you want to do.

To print the values out, you just need a little bit of integer manipulation.

Lets take the value `0xaa1c8e`. First, take the integer part by shifting by 16. That gives 0xaa.

Now take the fraction, which is 0x1c8e. Multiply by an appropriate amount for the digits you want. Lets just multiply by 100, for two decimal digits. That gives 0xb2778. Shift that back by 16, which leaves just 0xb.

If you printf with the string: `"%d.%02d", 0xaa, 0xb`, you'll get "170.11", which is correct.

Here's a rough and ready example:

``````int a = (0.00065 * 65536 + 0.5); // Convert the float value to fixed point, with rounding.
int b = 170;

int m = b * a;

bool n = false;
if(m < 0) {m = -m; n=true;}
int i_part = m >> 16;
int f_part = m & 0xffff;
f_part *= 100;
f_part >>= 16;

printf("%s%d.%02d\n",n?"-":"",i_part,f_part);
``````
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thanks for answer, only thing left me to do is print it on screen. i'm using sprintf function to do it so how can i put into string value 0.xx .. ? and next 1.5x –  Matt Dec 18 '12 at 16:47
If you really need to print it in decimal form, without float support you'll need a custom function to format it. –  JasonD Dec 18 '12 at 16:51
ugh... i think there isnt any function to do it .. ? –  Matt Dec 18 '12 at 16:54
its not too tricky. If you only want a couple of digits, multiply your number by 100, and then divide by 65536 (which is a shift). You just need to print the integer with a decimal point in the right place. –  JasonD Dec 18 '12 at 16:59
i just tested your proposition. It's good but when i got b=-170 i should get -0.11 using your code it's -1.88. i tried this int main(void) { short int a,b,d,c; a=-300; // c=((a*100000)*65)/1000000; b=c/10000; d=c%10000; printf("try = %d",c); printf(" try = %d.%02d",b,d); but i got 0.-**** or when i a i greater and it's got minus sign sometimes i got possitive value –  Matt Dec 18 '12 at 20:46

Represent your fixed point by 2 integers and use them both once you need to perform some operation. E.g., `0.11 = 11/100`, so you can have two integer variables, numerator(`11`) and denominator(`100`) and they in conjunction represent a rational number corresponding to your value.

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