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r - What is the correct/standard way to check if difference is smaller than machine precision?

I often end up in situations where it is necessary to check if the obtained difference is above machine precision. Seems like for this purpose R has a handy variable: .Machine$double.eps. However when I turn to R source code for guidelines about using this value I see multiple different patterns.

Examples

Here are a few examples from stats library:

t.test.R

if(stderr < 10 *.Machine$double.eps * abs(mx))

chisq.test.R

if(abs(sum(p)-1) > sqrt(.Machine$double.eps))

integrate.R

rel.tol < max(50*.Machine$double.eps, 0.5e-28)

lm.influence.R

e[abs(e) < 100 * .Machine$double.eps * median(abs(e))] <- 0

princomp.R

if (any(ev[neg] < - 9 * .Machine$double.eps * ev[1L]))

etc.

Questions

  1. How can one understand the reasoning behind all those different 10 *, 100 *, 50 * and sqrt() modifiers?
  2. Are there guidelines about using .Machine$double.eps for adjusting differences due to precision issues?
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1 Answer

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The machine precision for double depends on its current value. .Machine$double.eps gives the precision when the values is 1. You can use the C function nextAfter to get the machine precision for other values.

library(Rcpp)
cppFunction("double getPrec(double x) {
  return nextafter(x, std::numeric_limits<double>::infinity()) - x;}")

(pr <- getPrec(1))
#[1] 2.220446e-16
1 + pr == 1
#[1] FALSE
1 + pr/2 == 1
#[1] TRUE
1 + (pr/2 + getPrec(pr/2)) == 1
#[1] FALSE
1 + pr/2 + pr/2 == 1
#[1] TRUE
pr/2 + pr/2 + 1 == 1
#[1] FALSE

Adding value a to value b will not change b when a is <= half of it's machine precision. Checking if the difference is smaler than machine precision is done with <. The modifiers might consider typical cases how often an addition did not show a change.

In R the machine precision can be estimated with:

getPrecR <- function(x) {
  y <- log2(pmax(.Machine$double.xmin, abs(x)))
  ifelse(x < 0 & floor(y) == y, 2^(y-1), 2^floor(y)) * .Machine$double.eps
}
getPrecR(1)
#[1] 2.220446e-16

Each double value is representing a range. For a simple addition, the range of the result depends on the reange of each summand and also the range of their sum.

library(Rcpp)
cppFunction("std::vector<double> getRange(double x) {return std::vector<double>{
   (nextafter(x, -std::numeric_limits<double>::infinity()) - x)/2.
 , (nextafter(x, std::numeric_limits<double>::infinity()) - x)/2.};}")

x <- 2^54 - 2
getRange(x)
#[1] -1  1
y <- 4.1
getRange(y)
#[1] -4.440892e-16  4.440892e-16
z <- x + y
getRange(z)
#[1] -2  2
z - x - y #Should be 0
#[1] 1.9

2^54 - 2.9 + 4.1 - (2^54 + 5.9) #Should be -4.7
#[1] 0
2^54 - 2.9 == 2^54 - 2      #Gain 0.9
2^54 - 2 + 4.1 == 2^54 + 4  #Gain 1.9
2^54 + 5.9 == 2^54 + 4      #Gain 1.9

For higher precission Rmpfr could be used.

library(Rmpfr)
mpfr("2", 1024L)^54 - 2.9 + 4.1 - (mpfr("2", 1024L)^54 + 5.9)
#[1] -4.700000000000000621724893790087662637233734130859375

In case it could be converted to integer gmp could be used (what is in Rmpfr).

library(gmp)
as.bigz("2")^54 * 10 - 29 + 41 - (as.bigz("2")^54 * 10 + 59)
#[1] -47

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