I have done a lot of work with array-based interpreted languages, but I'm having a look at Fortran. What has just occurred to me after writing my first bit of code is the question of whether or not gfortran will optimise an expression using array syntax by placing the expression in a single loop. In most array-based interpreters an expression such as A=B/n*2*pi (where B is an array) would require 5 loops and multiple array temporaries to evaluate. Is gfortran clever enough to optimise this out, and will my code below (the line that calculates the array from 0 to 2pi) be as efficient as an explicit do loop around the expression? Is there anything I should look out for when using array syntax if I'm worried about performance?
PROGRAM Sine IMPLICIT NONE REAL, PARAMETER :: PI = 3.415926535 INTEGER, PARAMETER :: z = 500 INTEGER :: ier INTEGER, EXTERNAL :: PGBEG REAL, DIMENSION(z) :: x,y x=(indgen(z)-1.0)/z*(2*pi) ! This line...`` y=sin(x) CALL plot(y,x) CONTAINS FUNCTION indgen(n) result(i) INTEGER :: n INTEGER, DIMENSION(n) :: i INTEGER :: l DO l=1,n i(l)=l END DO END FUNCTION indgen SUBROUTINE plot(y,x) REAL, DIMENSION(:) :: x,y ier=PGBEG(0,'/XWINDOW',1,1) CALL PGENV(0.0,7.0,-1.0,1.0,0,1) CALL PGLINE(SIZE(x),x,y) CALL PGEND() END SUBROUTINE plot END PROGRAM Sine