If you have a float in the form A.CDEFGHI, how do you truncate the end to only have three numerals: A.CD ?
For example: I want to convert 3.5123444 to 3.51.
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If you have a float in the form A.CDEFGHI, how do you truncate the end to only have three numerals: A.CD ?
For example: I want to convert 3.5123444 to 3.51.
That's AS but the math is the same no matter what language you use.Code:Math.floor(Math.pow(10, p) * n) / Math.pow(10, p); //n  number to truncate //p  precision
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Maybe getTimer() or TweenMax is the answer to your problem . . .
Code:#include <math.h> ... float yourNumber = 1.23456; yourNumber = floor(yourNumber*100)/100;
There's also setPrecision(n), but I think that's only when you're printing.
floor() does round (down), and doesn't truncate. If you are wanting to perform math with a truncated number, you can try to use this method, but I don't think it will work, and it is less precise. If you are wanting to change the display of your variable, kdd was right, setprecision(n) is the way to do that, n representing the number of digits to show:
float yourVar = 3.14159;
cout << setprecision(2) << yourVar << endl; //Shows 3.14
Not sure what you mean.. "rounding" down (as you put it) is truncation is it not?
But this produces the wrong output for yourVar = 3.148; It should be 3.14 if it were truncated but setprecision will round it up to 3.15.float yourVar = 3.14159;
cout << setprecision(2) << yourVar << endl; //Shows 3.14
Last edited by Yeldarb; May 7th, 2008 at 03:19 PM.
Rounding is not the same as truncation, truncation is the severing of digits at a certain point, with no effect on the integral value of the number, whereas rounding (floor/ceil) potentially alters the integral value of the number. The difference is small, but it has a real effect on precise mathematical operations. setprecision does not alter the stored number (round or truncate), it just displays the specified number of significant digits to the right of the decimal (though I know it does round the displayed number).
The point I was making was that NeoDreamer should leave their variable value as is, and display it with the desired precision (perhaps even using setw(n)), because flooring the number could make for less precise calculations.
actionAction, how is flooring not the same as truncation? We are assuming here that the underlying hardware representation of floats is exact enough for the precision of the floats used here, right? If I truncate 3.18 to 1 decimal digits, is the result not 3.1, the same as floor(3.18 * 10)/10? What exception would there be?
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Exactly; rounding is not the same as truncation. Which is why when he asked how to truncate a number rounding probably wasn't what he was looking for. There are many mathematical reasons where he may want to truncate a number rather than round it.
It's only "less accurate" if you assume that he's just trying to display the full precision number to a certain number of decimal places. If he wants to do computation with a truncated number, the *only* accurate answer is gotten by truncating (whether it is via flooring a float or casting to an integer is not really relevant).
Last edited by Yeldarb; May 8th, 2008 at 03:55 AM.
First, I am not trying to stir the pot, as it were; nor do I mean any offense.
@MT: It depends on the arguments supplied, 3.18 for instance, floors to 3.2, and truncates to 3.1. FLOOR does truncate and is equivalent to TRUNC on positive arguments, CEIL is equivalent to TRUNC on negative arguments, but what each of these functions truncates towards is the important distinction. Floor truncates toward negative infinity, CEIL truncates toward positive infinity, and actual TRUNC functions truncate toward zero. Using these functions interchangeably (without knowing for sure if you are dealing with exclusively positive digits) will produce inaccurate results.What exception would there be?
@Yeldarb: I was simply saying it is more accurate to use the full precision number for operations, and only to truncate the displayed number. Obviously if NeoDreamer wants to do calculations with a truncated number, they should use a truncated number.
I retract my statement that floor doesn't truncate, I don't know why I said that.
Last edited by actionAction; May 8th, 2008 at 01:20 PM.
I'm not sure but I think that behavior is undefined in the C++ spec (in terms of truncation on integer division); it may be compiler/processor dependent.
It could very well be compiler specific (VS2005 Pro on my end). The funny part about this discussion is that there really is no trunc function inherent to C++, so one would most likely be relegated to using float or ceil in a conditional (negative or positive) like this:
But here is a trunc function that uses modf to actually truncate:Code:double fakeTRUNC(double n, double p = 1) { if(n > 0) { double val = (pow(10,p)) * n; floor(val); val /= pow(10,p); return val; } else { double val = (pow(10,p)) * n; ceil(val); val /= pow(10,p); return val; } }
Code:double TRUNC(double value, int decimal_places) { double integer = 0, fractional = 0, output = 0; int j = 0, places = 1; fractional = modf(value, &output); for( int i = 0; i < decimal_places + 1; i++ ) { fractional = modf(fractional, &integer); for( j = 0; j < i; j++ ) { places *= 10; } output += integer / places; places = 1; fractional *= 10; } return output; }
Haven't tried it, but perhaps just an integer type conversion could help?
float pi = 3.1415926;
float pi2 = (float)((int)(pi*100)/100);
(The above may be incorrect, but the point is to create an integer with two extra decimals, and it will simply discard anything after the floating point  just reverse it again, and you would have a truncated number)
Last edited by Surrogate; May 27th, 2008 at 08:10 PM.
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This is quite simple really using basic knowledge of C.
1. shift decimal place 2 places to right (i.e. multiply by 100).
2. cast it to an int to get rid of the rest of the digits after to decimal point
3. divide by 100 to shift the decimal place back 2 places to the left
Note that the lvalue (fVal) must obviously be a float!
e.g.
float fVal = 3.5123444;
fVal = (int) (fVal * 100.0f) / 100.0f;
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