- speed race is not compulsory
- it is not a group project
- the function that you should improve is attached [included in the test.R file](Tabc test using 1000000 permutations), your function should run in R.
- your function should be statistically correct
- if you win and your code is faster than mine for at least 10% of duration time you will get a two question bonus in the written exam.
- if you win but your code is faster than mine for less than 10% of duration time you will get a one question bonus in the written exam.
- if you do not win but your code is faster than mine for at least 10% of duration time you will get a one question bonus in the written exam.
- deadline: last lesson of the course December, 19th, during with you will briefly discuss your function and show the computing time of it using the following code.
start.time = proc.time()
# your procedure
duration.time = proc.time() - start.timeWrite a function performing the tri-aspect permutation test.
The function must work in the R environment, be statistically correct, and should be at least 10% more efficient than the given Tabc function.
Some tests were done in R and I saw an improvement of 10% by eliminating superfluous conditional statements and uneccessary operations.
It was soon clear that a lower level language was needed to improve the code further.
I adopted the Rcpp library to speed up computation.
The function is statistically correct (exception made for the rand() % n function used to generate permutations, see later) and takes 15% of the time of the unefficient R one.
The code is compatible with C++03, therefore some modern functionalities are missing (tuples, lambda functions, etc...)
It is known that rand() % n does not generate a uniform distribution; C++ offers ways to generate uniform distributions (such as std::uniform_int_distribution in <random> ) that are included in the C++11 standard and were not used in this project, but they can and should be adopted in stead of the current method.
Verify if the following changes improve computation:
- Avoid usage of pairs and tuples altoghether.
- Parallelize computation through RcppThread or similar libraries.
- Use Rccp types and syntactic sugar.