Which is the best efficient way to round up a number and then truncate it (remove decimal places after rounding up)?

for example if decimal is above 0.5 (that is, 0.6, 0.7, and so on), I want to round up and then truncate (case 1). Otherwise, I would like to truncate (case 2)

for example:
232.98266601563 => after rounding and truncate = 233 (case 1)
232.49445450000 => after rounding and truncate = 232 (case 2)
232.50000000000 => after rounding and truncate = 232 (case 2)

There is no build-in math.round() function in Lua, but you can do the following: print(math.floor(a+0.5)).

  • What is a supposed to be? – averwhy Jan 31 '20 at 18:22
  • @averwhy a is the value you want to round. – Nifim Jan 31 '20 at 18:48
  • 1
    This returns 1 for a = 0.49999999999999994; it should return 0. – Pedro Gimeno Nov 7 '20 at 12:25
  • @PedroGimeno Is that the only wrong case, or are there others? I tried 1.49999999999999988 + 0.5, which worked fine. Same for 2.49999999999999977 + 0.5. – Roland Illig Feb 15 at 19:49
  • @RolandIllig It's the only case as far as I know. The addition of 0.49999999999999994 and 0.5 returns 1 due to rounding; for bigger numbers the rounding does not cause problems because they don't have enough significant digits as for them to affect the rounding. That number is special in that 0.5 is bigger than it. – Pedro Gimeno Feb 16 at 7:56

A trick that is useful for rounding at decimal digits other than whole integers is to pass the value through formatted ASCII text, and use the %f format string to specify the rounding desired. For example

mils = tonumber(string.format("%.3f", exact))

will round the arbitrary value in exact to a multiple of 0.001.

A similar result can be had with scaling before and after using one of math.floor() or math.ceil(), but getting the details right according to your expectations surrounding the treatment of edge cases can be tricky. Not that this isn't an issue with string.format(), but a lot of work has gone into making it produce "expected" results.

Rounding to a multiple of something other than a power of ten will still require scaling, and still has all the tricky edge cases. One approach that is simple to express and has stable behavior is to write

function round(exact, quantum)
    local quant,frac = math.modf(exact/quantum)
    return quantum * (quant + (frac > 0.5 and 1 or 0))

and tweak the exact condition on frac (and possibly the sign of exact) to get the edge cases you wanted.

  • 1
    Unfortunately string.format() rounds differently depending on the Lua version used. See my question about LuaJIT which prefers to round up while most others round down when faced with an "exact" half. – Caleb Oct 27 '20 at 20:16

To also support negative numbers, use this:

function round(x)
  return x>=0 and math.floor(x+0.5) or math.ceil(x-0.5)
  • 2
    This returns 1 for x = 0.49999999999999994 and -1 for -0.49999999999999994; it should return 0. See my answer for a version that properly rounds to nearest or even. – Pedro Gimeno Nov 7 '20 at 12:21

If your Lua uses double precision IEC-559 (aka IEEE-754) floats, as most do, and your numbers are relatively small (the method is guaranteed to work for inputs between -251 and 251), the following efficient code will perform rounding using your FPU's current rounding mode, which is usually round to nearest, ties to even:

local function round(num)
  return num + (2^52 + 2^51) - (2^52 + 2^51)

(Note that the numbers in parentheses are calculated at compilation time; they don't affect runtime).

For example, when the FPU is set to round to nearest or even, this unit test prints "All tests passed":

local function testnum(num, expected)
  if round(num) ~= expected then
    error(("Failure rounding %.17g, expected %.17g, actual %.17g")
          :format(num+0, expected+0, round(num)+0))

local function test(num, expected)
  testnum(num, expected)
  testnum(-num, -expected)

test(0, 0)
test(0.2, 0)
test(0.4, 0)
-- Most rounding algorithms you find on the net, including Ola M's answer,
-- fail this one:
test(0.49999999999999994, 0)
-- Ties are rounded to the nearest even number, rather than always up:
test(0.5, 0)
test(0.5000000000000001, 1)
test(1.4999999999999998, 1)
test(1.5, 2)
test(2.5, 2)
test(3.5, 4)
test(2^51-0.5, 2^51)
test(2^51-0.75, 2^51-1)
test(2^51-1.25, 2^51-1)
test(2^51-1.5, 2^51-2)
print("All tests passed")

Here's another (less efficient, of course) algorithm that performs the same FPU rounding but works for all numbers:

local function round(num)
  local ofs = 2^52
  if math.abs(num) > ofs then
    return num
  return num < 0 and num - ofs + ofs or num + ofs - ofs
  • Could you explain why the correction needs to be 2^52 + 2^51? I tried 2^53 - 2, and it worked equally well for your test cases. Of course I could do the math myself, and it would certainly be worth it, but maybe you can share the tricky details and edge cases with a larger audience here. – Roland Illig Feb 17 at 11:51
  • 1
    @RolandIllig My test suite is not very exhaustive; it doesn't check all corner cases. Your number fails for e.g. 2.75, which gets rounded to 2.0. Adding and subtracting 2^52 to any number between 0 and 2^52-1 rounds it by pushing it to the range 2^52..2^53, where the double precision floats lose all their decimals, before adjusting back. To cover negatives, I added 2^51 in order to ensure the intermediate result is still in the range 2^52..2^53. If you push it beyond 2^53 as your number does often, you lose even numbers too; e.g. 2^53+1 can't be exactly represented in double precision. – Pedro Gimeno Feb 17 at 19:58
  • "you lose even numbers too" - I meant you lose odd numbers. – Pedro Gimeno Feb 18 at 15:47

Here's one to round to an arbitrary number of digits (0 if not defined):

function round(x, n)
    n = math.pow(10, n or 0)
    x = x * n
    if x >= 0 then x = math.floor(x + 0.5) else x = math.ceil(x - 0.5) end
    return x / n
  • This works for Lua, but not LuaJIT. If you let x=32.90625 and n=4 then most Luas will give you 32.9062 but LuaJIT will give you 23.0963. See my question about how to avoid this. – Caleb Oct 27 '20 at 20:32

For bad rounding (cutting the end off):

function round(number)
  return number - (number % 1)

Well, if you want, you can expand this for good rounding.

function round(number)
  if (number - (number % 0.1)) - (number - (number % 1)) < 0.5 then
    number = number - (number % 1)
    number = (number - (number % 1)) + 1
 return number


Expected results:

3, 3, 42, 5, 5


I like the response above by RBerteig: mils = tonumber(string.format("%.3f", exact)). Expanded it to a function call and added a precision value.

function round(number, precision)
   local fmtStr = string.format('%%0.%sf',precision)
   number = string.format(fmtStr,number)
   return number
  • Unfortunately string.format() rounds differently depending on the Lua version used. See my question about LuaJIT which prefers to round up while most others round down when faced with an "exact" half. – Caleb Oct 27 '20 at 20:26

Should be math.ceil(a-0.5) to correctly handle half-integer numbers

  • 4
    Depends on what "correctly" means. One has to carefully decide what to do about half steps, and what to do with negative values. Both add a half and floor and your subtract a half and ceil introduce a consistent bias to the case of the exact half. And both are different from add half and truncate assuming that truncation usually rounds towards zero. Implementing round to even value is more "fair" in some sense. Rounding is fraught with subtlety. – RBerteig Aug 19 '13 at 20:35

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