#!/usr/bin/env python2 # IRPF90 is a Fortran90 preprocessor written in Python for programming using # the Implicit Reference to Parameters (IRP) method. # Copyright (C) 2009 Anthony SCEMAMA # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # Anthony Scemama # LCPQ - IRSAMC - CNRS # Universite Paul Sabatier # 118, route de Narbonne # 31062 Toulouse Cedex 4 # scemama@irsamc.ups-tlse.fr rdtsc = """ #ifdef __i386 double irp_rdtsc_(void) { unsigned long long x; __asm__ volatile ("rdtsc" : "=A" (x)); return (double) x; } #elif __amd64 double irp_rdtsc_(void) { unsigned long long a, d; __asm__ volatile ("rdtsc" : "=a" (a), "=d" (d)); return (double)((d<<32) | a); } #endif """ import subprocess import tempfile import os import threading from irpf90_t import irpdir def build_rdtsc(): filename = irpdir+"irp_rdtsc.c" file = open(filename,'w') file.write(rdtsc) file.close() def t(): p = subprocess.Popen(["gcc","-O2",filename,"-c","-o","irp_rdtsc.o"]) p.communicate() os.remove(filename) threading.Thread(target=t).start() def build_module(): from variables import variables data = """ module irp_timer double precision :: irp_profile(3,%(n)d) integer :: irp_order(%(n)d) character*(64) :: irp_profile_label(%(n)d) double precision :: irp_rdtsc_shift contains subroutine profile_sort () implicit none character*(64) :: xtmp integer :: i, i0, j, jmax do i=1,size(irp_profile_label) irp_order(i)=i enddo do i=1,size(irp_profile_label) xtmp = irp_profile_label(i) i0 = irp_order(i) j = i-1 do j=i-1,1,-1 if ( irp_profile_label(j) > xtmp ) then irp_profile_label(j+1) = irp_profile_label(j) irp_order(j+1) = irp_order(j) else exit endif enddo irp_profile_label(j+1) = xtmp irp_order(j+1) = i0 enddo end subroutine profile_sort end module subroutine irp_init_timer use irp_timer implicit none integer :: i double precision :: irp_rdtsc, t0 irp_profile = 0.d0 irp_rdtsc_shift = 0.d0 do i=1,1000000 t0 = irp_rdtsc() enddo irp_rdtsc_shift = 1.d-6*(irp_rdtsc()-t0) %(text)s end subroutine irp_set_timer(i,value) use irp_timer implicit none integer, intent(in) :: i double precision, intent(inout) :: value value = value - irp_rdtsc_shift irp_profile(1,i) = irp_profile(1,i) + value irp_profile(2,i) = irp_profile(2,i) + value*value irp_profile(3,i) = irp_profile(3,i) + 1.d0 end subroutine irp_print_timer() use irp_timer implicit none integer :: i, ii double precision :: error, sigma2, average, average2, frequency, t0 double precision :: irp_rdtsc t0 = irp_rdtsc() call sleep(1) frequency = (irp_rdtsc()-t0-irp_rdtsc_shift) call profile_sort() print '(A24,A8,A17,A20,A13,A20)', '', 'N.Calls', 'Tot Cycles', 'Avg Cycles', & 'Tot Secs', 'Avg Secs' print '(A)', '---------------------------------------------------'// & '---------------------------------------------------' do ii=1,%(n)d i = irp_order(ii) if (irp_profile(3,i) > 0.) then error = 0.d0 average = irp_profile(1,i)/irp_profile(3,i) if (irp_profile(3,i) > 1.d0) then average2 = irp_profile(2,i)/irp_profile(3,i) sigma2 = (average2 - average*average) error = sqrt(sigma2/(irp_profile(3,i)+1.d0)) endif print '(A24 , F8.0 , X,F12.0 , X,F12.0,A3,F8.0, X,F12.8, X,F8.5,A3,F8.5 )', & irp_profile_label(ii), & irp_profile(3,i), & irp_profile(1,i), & average, '+/-', error, & irp_profile(1,i)/frequency, & average/frequency, '+/-', error/frequency endif enddo print *, 'Frequency :', frequency*1.d-9, ' GHz' print *, 'rdtsc latency :', irp_rdtsc_shift, ' cycles' end """ label = {} for i in variables: vi = variables[i] label[vi.label] = vi.same_as text = [] lmax = 0 for l in label: text.append(" irp_profile_label(%d) = '%s'"%(l,label[l])) lmax = max(lmax,l) text.sort() text = '\n'.join(text) data = data%{'text': text, 'n':lmax} file = open("IRPF90_temp/irp_profile.irp.F90",'w') file.write(data) file.close() def run(): build_module() build_rdtsc() if __name__ == "__main__": build_rdtsc()