# Tag Info

0

If server returns a price that doesn't have two decimals you can fix it in the parse method. Or you can just format an output in your template: <%= Price.toFixed(2) %>

0

Int32 simply return unsigned integer which it does not return any decimal digits.

1

Your last example will work, especially since you don't care which way the value is rounded. Int32 HalfCount = (11/2); // result is 5 This will drop the decimal portion of the result, storing only the integer portion in HalfCount.

0

Just for posterity, what I ended up doing is indeed along the lines of Brendan's answer. As I have signed rationals, I do the following (without going in detail): Add 1/(2*10^precision) to the positive, or -1/(2*10^precision) to the negative rational Divide, print out leaving out the last digit and trailing zeroes.

0

For some algorithms you need a consistent bias when 'nearest' is a tie. // round-to-nearest with mid-value bias towards positive infinity int idiv_nearest( int n, int d ) { if (d<0) n*=-1, d*=-1; return (abs(n)+((d-(n<0?1:0))>>1))/d * ((n<0)?-1:+1); } This works regardless of the sign of the numerator or denominator.

0

Thank you, thank you very much rmkrishna and Faro ((= I do it with TextView.setText(String.format("%.2f",Double.parseDouble(XMLData.get("Son7GunlukSagis").replace(",", ".")))+ " mm");

1

The problem is that the binary representation of floating point numbers can't exactly represent most decimal numbers. For example, the two closest values to 1.235 are: 1.2350000000000000976996261670137755572795867919921875 1.234999999999999875655021241982467472553253173828125 Since the first one is closer to the desired value, it's the one you get. When ...

1

if your XMLdata.get("XMLField") value is float u can do the following code String finalValue = String.format( "%.2f", XMLdata.get("XMLField")); TextView.setText(finalValue + " mm"); if your XMLdata.get("XMLField") is String convert it into float do the above method.

0

TextView.setText((Math.floor(MathXMLdata.get("XMLField") * 100.0) / 100.0).toString() + " mm"); This converts 10,5858555966668 to 1058,58555966668, rounds it to 1058 and converts it back to 10,58. Note: Math.floor always rounds down (cuts off all missing fractional numbers). If you intend to round to the closest value, use Math.round.

2

If you wanted to round an unsigned rational value to the nearest integer you'd add 0.5 and then only display the integer part. For 1 digit after the decimal point you'd add 0.05. For 2 digits after the decimal point you'd add 0.005. For n digits after the decimal point you'd add 5 / ( 10**(n+1) ).

0

Truncate and add 0.5. The numbers in the interval [x.000, x.999] are truncated to x.0 and then adding 0.5 puts them at x.5. This is sufficient for every interval, assuming that no extra requirements are placed on integer starting values.

0

Multiply your number by 2, round it, then divide by 2 back.

1

Try this query. SELECT ROUND('1.3278100',6,0) AS x0, ROUND('1.3278200',6,0) AS y0, ROUND('1.3278100',6,1) AS x1, ROUND('1.3278200',6,1) AS y1, ROUND(CAST( '1.3278100' AS FLOAT), 6, 0) AS a0, ROUND(CAST( '1.3278200' AS FLOAT), 6, 0) AS b0, ROUND(CAST( ...

0

Use ROUND(@var,6) instead of ROUND(@var,6,1). There is a 3rd optional parameter in the ROUND() function and it looks like you don't need it here.

0

I'll leave the below here for the moment, it is true, but it is not the reason for the op's issue. The correct answer is the one provided by MatBailie, -the nVarChar string is being converted to a float, and then the truncation operation is reducing it to the next lower value... From MSDN for Round function function Is the type of operation to perform. ...

0

A = ceil(3*rand); %// 1,2,3 with equal probability B = ceil(3*rand); %// 1,2,3 with equal probability, independent from A notAB = setdiff(1:3,union(A,B)); %// allowed values for C indC = ceil(rand*numel(notAB)); %// select one of them, with equal probability C = notAB(indC); In this case it may be simpler to explicitly write all allowed combinations and ...

2

You should be using RANDI to make the random integers. AB = randi([1, 3], 1, 2); % Generate A and B at the same time while true C = randi([1 3]); % Make C if ~ismember(C, AB) % Is C ok? break; % Then terminate the loop. end end Or here's another approach without the loop. AB = randi([1, 3], 1, 2); % ...

1

Firstly A=round(((rand(1)*2)+1)) Will pick 1 25% of the time, 2 50% of the time and 3 25% of time. Which is NOT a uniform distribution. What you actually wanted was A=floor(((rand*3)+1)); To prove this try A=round(((rand(10000,1)*2)+1)) and observe the values for sum(A==1)/10000, sum(A==2)/10000 etc... Now to get C try S = randperm(3); and ...

0

Try this - lin_ind = 1:3; out = lin_ind(lin_ind~=A & lin_ind~=B); C = out(1)

0

I know this is not a Java-Method. But why not use modulus? :) public static void main(String[] args) { for (float number = 0; number<1; number+=0.01f){ float rounded = round(number); System.out.printf("%f -> %.2f\n", number, rounded); } } public static float round(float number){ float ret; float mod = number % 0.05f; ...

0

To round to the nearest 0.05, one simple way is to multiply by 20, round to the nearest integer, then divide by 20. 100.00 * 20 = 2000.00 round-> 2000 2000/20 = 100.00 100.02 * 20 = 2000.20 round-> 2000 2000/20 = 100.00 100.04 * 20 = 2000.80 round-> 2001 2001/20 = 100.05 100.06 * 20 = 2001.20 round-> 2001 etc 100.07 * 20 ...

2

Have you tried ROUND method? However the following SQL may fit your requirement: Select str((Cast((@Dt2 - @Dt1) as Float) * 24.0)) as hours1 , str(ROUND(Cast((@Dt2 - @Dt1) as Float) * 24.0*60.0, 0, 1))%60 as minutes1

1

One should be able to find the closest hexagon with O(1) complexity: odd even odd even 0 +----+ | | +----+ | | 00 |\ | | | 02 | | | | \+----+ | | + | | /| 01 | | | | H +----+/ | | +----+ | | 10 |\ | | | 12 | | | | \+----+ | | + | | /| 11 | | | | 2H +----+/ | | +----+ ...

0

Actually, due to the regular shape of hexagons (all sides are the same length), this is as easy as cycling through your list of hexagonal tiles and figuring out which tile's center is closest to the mouse click. C++ pseudocode: //assuming "map" is an array of "Tile" pointers Tile *closest = nullptr; int fromClosestCenterToClick = INT_MAX; for (int row = ...

3

The point clicked will always be closest to the center of hexagon in which the click occurs, unless the point is exactly between two hexagons in which case it will be equidistant from the two centers. The equation for the distance between two points is the SQRT( (x1-x2)^2 + (y1-y2)^2 ). You do not have to test the distance to every hexagon. By creating x/y ...

0

Be careful using toFixed() Be careful using .toFixed() as it might return different rounding results for different browsers. Read this post for details on the topic!

0

To round down towards negative infinity, use: rounded=Math.floor(number); To round down towards zero (assuming the number fits in an int), use: rounded=number|0; To round down towards zero (for any number), use: if(number>0)rounded=Math.floor(number);else rounded=Math.ceil(number);

3

How about this: rounded_val = len(src_string) & (-2) Although it is sometimes not obvious to someone not familiar with binary arithmetic.

9

Maybe rounded_val = len(src_string) & ~1 This simply clears the 1s bit, which is exactly what you need. Only works for ints, but len should always be integer.

2

The // operator is probably your best bet, but you could also use the divmod function: rounded_val = divmod(len(src_string), 2)[0] * 2

1

Why not this: rounded_val = len(src_string) - len(src_string) % 2

16

Use // floor division instead if you don't like relying on the Python 2 / behaviour for integer operands: rounded_val = (len(src_string) // 2) * 2

0

Divide by 10000, use floor to round down to an integer, then multiply by 10000: \$x = 146740; \$x = 10000 * floor(\$x/10000); Or subtract the remainer: \$x = 146740; \$x = \$x - (\$x % 10000); To extend this to 1 million, you can do: if (\$x > 1000000) { \$divisor = 1000000; } elseif (\$x > 10000) { \$divisor = 10000; } else { \$divisor = 1; } ...

0

you could divide the value by 1000. If it is integer 146740/1000 = 146. And after that multiply by 1000 will give 146000

0

Create another variable for your outputs - eg: DECLARE @Column AS NVARCHAR(MAX), @Output nvarchar(max), @SQL AS NVARCHAR(MAX) SELECT [Player], [Start], [Average] INTO #DbTemp1 FROM [PlayerScoreByWeek] WHERE [Start] >= DateAdd(DAY, -7, GETDATE()) SELECT @Column = STUFF((SELECT ','+ QUOTENAME([Start]) FROM #DbTemp1 ...

0

Never ever use Float or Double for money calculations. Always, and I mean always, use BigDecimal as e.g. stated here or here. Some code: final BigDecimal orig = new BigDecimal(1.2); final BigDecimal discountPercentage = new BigDecimal(0.173); final BigDecimal discount = orig.multiply(discountPercentage); System.out.println("discount = " + ...

0

your code will throw a NumberFormatException because of orig = Double.parseDouble("amount"); You are trying to parse a number from the acutal String "amount". If you already have the amount variable initalized, you should use that variable (remove the quotes in the parseDouble method. E.g. String amount = "7.0"; ...

0

Error: orig = Double.parseDouble("amount"); does not use the variable, but is a string with the content a-m-o-u-n-t. String amount = "1.2"; double orig = Double.parseDouble(amount); double discount = orig*(discountPercentage/100); discount = Math.round(discount); However be warned, that a double value can only be an approximation of a decimal number, ...

-1

float round(float f,float prec) { return (float) (Math.floor(f*(1.0f/prec) + 0.5)/(1.0f/prec)); } use round(0.2076f,0.01f) result 0.21

0

Try this: ... discount *= 100; discount = Math.round(discount); discount /= 100; ...

0

The first code snippet works incorrectly for negative numbers. -3.5 will be come -3, not -4 int round_number(float x) { if (x >= 0) return x + 0.5; else return x - 0.5 } For ceiling, adding 1 is enough int ceiling(float x) { if (x < 0 || (int)x == x) return x; else return x + 1.0; } When x = 3.0 o(r ...

1

This fails for negative numbers. int round_up(float y) { return y + 0.99999999; } But let's use that to our advantage. float to int conversion is a truncate toward 0.0. Thus negative numbers are doing a "round up" or "ceiling" function. When we have a positive float, convert to int noting this is a "floor" function. Adjust when y is not an integer. ...

2

Unless you reliably know the epsilon of float (I'm not sure standard C provides that), I think you're stuck with return (y < 0 || y == (int)y) ? y : y + 1;

0

Try this: int round_up(float x) { if ( (int) x == x ) return x; else return x + 1; }

5

Do it like this: int round_zero_digits(float x) { return x + 0.5; } Or more general: #include <math.h> /* for pow() */ ... float round_n_digits(float x, unsigned int n) { x *= pow(10., n); x = (int) (x + 0.5); while (n--) { x /=10.; } return x; } With round_n_digits(x, 0) being equivalent to round_zero_digits(x). Update ...

0

If the cells you wish to format in this fashion contain values rather than formulas, select the cells and run this tiny macro: Sub PhancyPhormat() Dim r As Range, i As Long, le As Long Dim DQ As String DQ = Chr(34) For Each r In Selection s = CStr(r.Value) le = Len(s) For i = 3 To le Mid(s, ...

0

Assuming your value is in A1, the following formula returns the correct result on both of your numbers =ROUND(A1/POWER(10,LEN(A1)-2),0)*POWER(10,LEN(A1)-2) In other words, get the number of digits... LEN(A1) Get 10^(Number of digits-2) POWER(10,LEN(A1)-2) Divide your number by that number A1/POWER(10,LEN(A1)-2),0) Round that number to get rid of the ...

0

Perhaps you could use conditional formatting as described here: http://www.wikihow.com/Apply-Conditional-Formatting-in-Excel so if your number is over 100 and less than 1000 - # # " 00" over 1000 and less than 10000 - # # " 000" etc etc Edit - I know the tutorial is for some Mac version of excel, but Conditionl Formatting is still there in my Excel2010

0

The following test case works as expected. The output is 28. List<decimal> Containers = new List<decimal> {Decimal.Parse("5.11"), Decimal.Parse("4.1"), Decimal.Parse("7.6"), Decimal.Parse("1.9"), ...

0

var n = 8.22344; n = Math.round(n * 100)/100; alert(n);

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