# rounding a currency

i have the following code to round the currency

function MyRound(value :currency) : integer;

begin
if value > 0 then
result := Trunc(value + 0.5)
else
result := Trunc(value - 0.5);
end;


it worked well so far, my problem now is if i want to round a currency like 999999989000.40 it is giving negative value since Truc takes int and MyRound also returns int.

My possible solutions is to convert currency to string and get the string before . and convert the string back to currency. Is this a right approach? i am new to delpi so pls help me out.

• use int64 instead of integer? Commented Feb 22, 2013 at 12:25
• The solution you suggest is wrong and will not work because your problem is 32-bit overflow. Commented Feb 22, 2013 at 12:41

From my point of view, you have two options:

1. You use the Round function, as David Heffernan pointed;
2. You can use the SimpleRoundTo function, as described here. The advantage of SimpleRoundTo is that it receives parameters of Single, Double and Extended data types and they convert round very well numbers like those stated.

You don't need any type conversions. There are plenty of rounding functions already available to you. Just round the desired number.

• How does SimpleRoundTo(..., 0) differ from Round(...)? Commented Feb 22, 2013 at 15:14
• @DavidHeffernan in this case, it doesn't. That's why I said that your solution gives the same result. However, it makes a difference if you want to round a number to a given precision. Round(...) is a particular case of SimpleRoundTo(...,0) Commented Feb 22, 2013 at 15:31
• @DavidHeffernan: It doesn't use bankers' rounding. According to the documentation that Bogdan linked to "The result of this function depends on the current FPU rounding mode ... To round in "Banker's mode", use System.Math.RoundTo." Commented Feb 22, 2013 at 15:31

You are overcomplicating matters. You can simply use Round:

program Project1;
{$APPTYPE CONSOLE} uses SysUtils; var C: Currency; begin C := 999999989000.4; Writeln(Round(C)); C := 999999989000.5; Writeln(Round(C)); C := 999999989000.6; Writeln(Round(C)); C := 999999989001.4; Writeln(Round(C)); C := 999999989001.5; Writeln(Round(C)); C := 999999989001.6; Writeln(Round(C)); Readln; end.  which outputs 999999989000 999999989000 999999989001 999999989001 999999989002 999999989002  If you don't want banker's rounding, and you really do want your Trunc logic then you do need to write your own function. But the problem with your function is that it was truncating to 32 bit integer. Make the function return a 64 bit integer: program Project1; {$APPTYPE CONSOLE}

uses
SysUtils, Math;

var
C: Currency;

function MyRound(const Value: Currency): Int64;
begin
if Value > 0 then
result := Trunc(Value + 0.5)
else
result := Trunc(Value - 0.5);
end;

begin
C := 999999989000.4;
Writeln(MyRound(C));
C := 999999989000.5;
Writeln(MyRound(C));
C := 999999989000.6;
Writeln(MyRound(C));
C := 999999989001.4;
Writeln(MyRound(C));
C := 999999989001.5;
Writeln(MyRound(C));
C := 999999989001.6;
Writeln(MyRound(C));
end.

999999989000
999999989001
999999989001
999999989001
999999989002
999999989002

• Doesn't round suffer from bankers' rounding where 2.5 goes to 2 and 3.5 goes to 4? (Or the other way round, can never remember). The 0.5 trick is the simplest way to work around that without messing with FPU settings? Commented Feb 22, 2013 at 12:31
• @MarjanVenema Well, that's how Round works. If you want something different, then use something different. Commented Feb 22, 2013 at 12:36
• Well, that's how round works given the standard FPU settings. It is not how people expect round to work given basic math knowledge but no financial background. It certainly surprised me when I found out about it... Commented Feb 22, 2013 at 12:43
• I like Embarcadero's help page (up to date for Alexandria): "If X is exactly halfway between two integer numbers, the result is always the even number". docwiki.embarcadero.com/Libraries/Alexandria/en/System.Round No wonder, why they cannot attract new users. Commented May 3, 2022 at 7:20
• I don't like how the function is explained on Embarcadero's page. Commented May 3, 2022 at 7:30

Take a look at John Herbster's rounding routines. They offer nearly any type of rounding you might want, e.g.:

drNone,    {No rounding.}
drHalfEven,{Round to nearest or to even whole number. (a.k.a Bankers) }
drHalfPos, {Round to nearest or toward positive.}
drHalfNeg, {Round to nearest or toward negative.}
drHalfDown,{Round to nearest or toward zero.}
drHalfUp,  {Round to nearest or away from zero.}
drRndNeg,  {Round toward negative.                    (a.k.a. Floor) }
drRndPos,  {Round toward positive.                    (a.k.a. Ceil ) }
drRndDown, {Round toward zero.                        (a.k.a. Trunc) }
drRndUp);  {Round away from zero.}


I can't give you a link right now, but Google: decimal rounding John Herbster I think his latest rounding routines are in DecimalRounding_JH1.pas. His discussion of floating point rounding (somewhere on Embarcadero's website is a "must-read".

This is what I actually use (would love to hear if there is any problems with this approach!):

function RoundingFunction(X: Real): Int64;
begin
Result := Trunc(SimpleRoundTo(X, 0));
end;

• SimpleRoundTo(x,0) leaves no decimals so, IMHO, the Trunc function is useless there. Commented Feb 22, 2013 at 15:32
• E2010 Incompatible types: 'Int64' and 'Double' Commented Feb 22, 2013 at 15:34
• BTW, is it possible to just cast from Double to Int64? Is it better, for any definition of 'better'? Commented Feb 22, 2013 at 15:37