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Generally, when I run benchmarks, I wrap my statements in expression. Recently, it was suggested to either (a) not do so or (b) use quote instead of expression.

I find two advantages to wrapping the statements:

  • compared to entire statements, they are more easily swapped out.
  • I can lapply over a list of inputs, and compare those results

However, in exploring the different methods, I noticed a discrepency between the three methods (wrapping in expression, wrapping in quote, or not wrapping at all)

The question is:
Why the discrepency?
(it appears that wrapping in quote does not actually evaluate the call.)


  mat <-  matrix(sample(seq(1e6), 4^2*1e4, T), ncol=400) 

  # apply(mat, 2, mean)

  expr <- expression(apply(mat, 2, mean))
  quot <- quote(apply(mat, 2, mean))

  benchmark(raw=apply(mat, 2, mean), expr, quot)[, -(7:8)]
  #    test replications elapsed relative user.self sys.self
  #  2 expr          100   1.269       NA     1.256    0.019
  #  3 quot          100   0.000       NA     0.001    0.000
  #  1  raw          100   1.494       NA     1.286    0.021

  benchmark(raw=apply(mat, 2, mean))[, -(7:8)]
  benchmark(expr)[, -(7:8)]
  benchmark(quot)[, -(7:8)]

  # results
  #    test replications elapsed relative user.self sys.self
  #  1  raw          100   1.274        1      1.26    0.018
  #    test replications elapsed relative user.self sys.self
  #  1 expr          100   1.476        1     1.342    0.021
  #    test replications elapsed relative user.self sys.self
  #  1 quot          100   0.006        1     0.006    0.001
share|improve this question
up vote 7 down vote accepted

Your issue is that quote does not produce an expression but a call, so within the call to benchmark, there is no expression to evaluate.

If you evaluate the `call it will actually get evaluated, and the timings are reasonable.

[1] "call"
[1] "expression"

 benchmark(raw=apply(mat, 2, mean), expr, eval(quot))[, -(7:8)]
        test replications elapsed relative user.self sys.self
3 eval(quot)          100    0.76    1.000      0.77        0
2       expr          100    0.83    1.092      0.83        0
1        raw          100    0.78    1.026      0.78        0

In general, I tend to create a function that contains the call / process I wish to benchmark. Note that it is good practice to include things like assigning the result to a value.


 raw <- function() {x <- apply(mat, 2, mean)}

In which case it looks like that there is a slight improvement by eval(quote(...)).

benchmark(raw(), eval(quote(raw()))

                test replications elapsed relative user.self sys.self 
2 eval(quote(raw()))          100    0.76    1.000      0.75     0.01        
1              raw()          100    0.80    1.053      0.80     0.00        

But often these small differences can be due to overheads in functions and may not reflect how the performance scales to larger problems. See the many questions with benchmarkings of data.table solutions, using a small number of replications but big data may better reflect performance.

share|improve this answer
Thanks mnel. Are there any differences (ie advantages/disadvantages) to using one vs the other? – Ricardo Saporta Dec 4 '12 at 22:40
@RicardoSaporta, I've added a bit more of a my understanding of benchmarking. – mnel Dec 4 '12 at 22:53
Specifically, your last statement is exactly how I began to use expression (as wrapping the statements in a function may not be as representative) – Ricardo Saporta Dec 4 '12 at 23:41
I think you're getting tripped up by R's inconsistent use of the word expression. Informally, an unevaluated expression is something like a + b, or f(g(1,3), 4) - but technically, those are calls. The output of expression is a list of calls, which is needed only when sourcing in external file. – hadley Dec 5 '12 at 13:46

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