Numeric comparison difficulty in R
One more comment. The all.equal is a generic. For numeric values, it uses all.equal.numeric. An inspection of this function shows that it used .Machine$double.eps^0.5, where .Machine$double.eps is defined as
double.eps: the smallest positive floating-point number ‘x’ such that
‘1 + x != 1’. It equals ‘double.base ^ ulp.digits’ if either
‘double.base’ is 2 or ‘double.rounding’ is 0; otherwise, it
is ‘(double.base ^ double.ulp.digits) / 2’. Normally
‘2.220446e-16’.
(.Machine manual page).
In other words, that would be an acceptable choice for your tolerance:
myeq <- function(a, b, tol=.Machine$double.eps^0.5)
abs(a - b) <= tol
You could create this as a separate operator or overwrite the original >= function (probably not a good idea) if you want to use this approach frequently:
# using a tolerance
epsilon <- 1e-10 # set this as a global setting
`%>=%` <- function(x, y) (x + epsilon > y)
# as a new operator with the original approach
`%>=%` <- function(x, y) (all.equal(x, y)==TRUE | (x > y))
# overwriting R's version (not advised)
`>=` <- function(x, y) (isTRUE(all.equal(x, y)) | (x > y))
> (a-b) >= 0.5
[1] TRUE
> c(1,3,5) >= 2:4
[1] FALSE FALSE TRUE
For completeness' sake, I'll point out that, in certain situations, you could simply round to a few decimal places (and this is kind of a lame solution by comparison to the better solution previously posted.)
round(0.58 - 0.08, 2) == 0.5
I've never been a fan of all.equal for such things. It seems to me the tolerance works in mysterious ways sometimes. Why not just check for something greater than a tolerance less than 0.05
tol = 1e-5
(a-b) >= (0.05-tol)
In general, without rounding and with just conventional logic I find straight logic better than all.equal
If x == y then x-y == 0. Perhaps x-y is not exactly 0 so for such cases I use
abs(x-y) <= tol
You have to set tolerance anyway for all.equal and this is more compact and straightforward than all.equal.