# Fixing Floating Point Error

I have some code that gets the leading value (non-zero) of a Double using normal math instead of String Math...

For Example:
0.020 would return 2
3.12 would return 3
1000 should return 1

The code I have at the moment is:

``````LeadingValue := Trunc(ResultValue * Power(10, -(Floor(Log10(ResultValue)))))
``````

However when ResultValue is 1000 then LeadingValue ends up as 0.

What can I do to fix this problem I'm assuming is being caused by floating point errors?

Thanks.

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I'm curious as to why you can't / won't use String manipulation for this. Could you explain further?

The most obvious thing you can do to fix the problem is to convert the number to a String and find the first non zero digit.

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String Math would slow it down a lot, this needs to be a fast routine. – HannesNZ May 31 '10 at 0:00
How much performance improvement is there? Just curious, as log, exp and FP in general is not fast either. – awmross May 31 '10 at 4:43
You are loosing the game at "convert the number to a string". As soon as the floating point number is represented as an mantissa + exponent, you've lost the precision. – gabr May 31 '10 at 6:40
@HannesNZ: floating point numbers cannot be represented exactly as decimal string values and vice versa. So either use strings for everything, or be prepared for rounding artefacts. – Jeroen Wiert Pluimers May 31 '10 at 14:37

A possible way to cheat around the rounding problems:

``````program Project1;

{\$APPTYPE CONSOLE}

uses
SysUtils,
Math;

function LeadingValue(num: extended): integer;
const
ExtendedResolution = 1E-19 * 1000; // from Math
begin
num := Abs(num);
Result := Trunc(num * Power(10, -(Floor(Log10(num)))) + ExtendedResolution);
end;

begin
try
except
on E: Exception do
Writeln(E.ClassName, ': ', E.Message);
end;
end.
``````
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if you divide instead of multiply, it fixes your test cases. Overall, it will yield better result as the "Power" result won't have a fractional value. I'm afraid it might not have a 100% case coverage, but unless a better solution is proposed, this should be better than what you have.

``````function Func(Value : Double) : Integer;
begin
Result := Trunc(Value / Power(10, (Floor(Log10(Value)))))
end;
``````
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You're not going to be able to do this with 100% accuracy using floating-point math. What you need to do essentially is to convert a binary floating-point value to a decimal string. Routines that do that accurately, like David Gay's dtoa.c, use high precision (integer) arithmetic.

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