WSJT-X/lib/timer.f90

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subroutine timer(dname,k)
! Times procedure number n between a call with k=0 (tstart) and with
! k=1 (tstop). Accumulates sums of these times in array ut (user time).
! Also traces all calls (for debugging purposes) if limtrace.gt.0
!
! If this is used with OpenMP than the /tracer_priv/ common block must
! be copyed into each thread of a thread team by using the copyin()
! clause on the !$omp parallel directive that creates the team.
!$ use omp_lib
character*8 dname
!$ integer tid
integer onlevel(0:10)
common/tracer/ limtrace,lu
common/tracer_priv/level,onlevel
parameter (MAXCALL=100)
character*8 name(MAXCALL),space
logical on(MAXCALL)
real ut(MAXCALL),ut0(MAXCALL)
!$ integer ntid(MAXCALL)
integer nmax,ncall(MAXCALL),nlevel(MAXCALL),nparent(MAXCALL)
common/data/nmax,name,on,ut,ut0,dut,ntid,ncall,nlevel,nparent,total,sum,sumf,space
data eps/0.000001/,ntrace/0/
data level/0/,nmax/0/,space/' '/
data limtrace/0/,lu/-1/
!$omp threadprivate(/tracer_priv/)
!$omp critical(timer)
if(limtrace.lt.0) go to 999
if(lu.lt.1) lu=6
if(k.gt.1) go to 40 !Check for "all done" (k>1)
onlevel(0)=0
!$ tid=omp_get_thread_num()
do n=1,nmax !Check for existing name/parent[/thread]
if(name(n).eq.dname &
!$ .and.ntid(n).eq.tid &
) then
if (on(n)) then
if (nparent(n).eq.onlevel(level-1)) goto 20
else
if (nparent(n).eq.onlevel(level)) goto 20
end if
end if
enddo
nmax=nmax+1 !This is a new one
n=nmax
!$ ntid(n)=tid
ncall(n)=0
on(n)=.false.
ut(n)=eps
name(n)=dname
20 if(k.eq.0) then !Get start times (k=0)
if(on(n)) then
print*,'Error in timer: ',dname,' already on.'
end if
level=level+1 !Increment the level
on(n)=.true.
! call system_clock(icount,irate)
! ut0(n)=float(icount)/irate
! call cpu_time(ut0(n))
ut0(n)=secnds(0.0)
ncall(n)=ncall(n)+1
if(ncall(n).gt.1.and.nlevel(n).ne.level) then
!recursion is happening
!
!TODO: somehow need to account for this deeper call at the
!shallowest instance in the call chain and this needs to be
!done without incrementing anything here other than counters
!and timers
!
nlevel(n)=-1
else
nlevel(n)=level
endif
nparent(n)=onlevel(level-1)
onlevel(level)=n
else if(k.eq.1) then !Get stop times and accumulate sums. (k=1)
if(on(n)) then
on(n)=.false.
! call system_clock(icount,irate)
! ut1=float(icount)/irate
! call cpu_time(ut1)
ut1=secnds(0.0)
ut(n)=ut(n)+ut1-ut0(n)
endif
level=level-1
endif
ntrace=ntrace+1
if(ntrace.lt.limtrace) write(lu,1020) ntrace,tname,k,level,nparent(n)
1020 format(i8,': ',a8,3i5)
go to 998
! Write out the timer statistics
40 write(lu,1040)
1040 format(/' Name Time Frac dTime', &
' dFrac Calls'/58('-'))
!$ !walk backwards through the database rolling up thread data by call chain
!$ do i=nmax,1,-1
!$ do j=1,i-1
!$ l=j
!$ m=i
!$ do while (name(l).eq.name(m))
!$ l=nparent(l)
!$ m=nparent(m)
!$ if (l.eq.0.or.m.eq.0) exit
!$ end do
!$ if (l.eq.0.and.m.eq.0) then
!$ !same call chain so roll up data
!$ ncall(j)=ncall(j)+ncall(i)
!$ ut(j)=ut(j)+ut(i)
!$ do n=1,nmax
!$ if (nparent(n).eq.i) nparent(n)=j
!$ end do
!$ name(i)=space
!$ exit
!$ end if
!$ end do
!$ end do
if(k.gt.100) then
ndiv=k-100
do i=1,nmax
ncall(i)=ncall(i)/ndiv
ut(i)=ut(i)/ndiv
enddo
endif
total=ut(1)
sum=0.
sumf=0.
i=1
call print_root(i)
write(lu,1070) sum,sumf
1070 format(58('-')/32x,f10.3,f6.2)
nmax=0
eps=0.000001
ntrace=0
level=0
onlevel(0)=0
998 flush(lu)
999 continue
!$omp end critical(timer)
return
end subroutine timer
recursive subroutine print_root(i)
character*16 sname
common/tracer/ limtrace,lu
parameter (MAXCALL=100)
character*8 name(MAXCALL),space
logical on(MAXCALL)
real ut(MAXCALL),ut0(MAXCALL)
!$ integer ntid(MAXCALL)
integer nmax,ncall(MAXCALL),nlevel(MAXCALL),nparent(MAXCALL)
common/data/nmax,name,on,ut,ut0,dut,ntid,ncall,nlevel,nparent,total,sum,sumf,space
if (i.le.nmax) then
if (name(i).ne.space) then
dut=ut(i)
do j=i,nmax
if(nparent(j).eq.i) dut=dut-ut(j)
enddo
if(dut.lt.0.0) dut=0.0
utf=ut(i)/total
dutf=dut/total
sum=sum+dut
sumf=sumf+dutf
kk=nlevel(i)
sname=space(1:kk)//name(i)//space(1:8-kk)
write(lu,2000) sname,ut(i),utf,dut,dutf,ncall(i)
2000 format(a16,2(f10.3,f6.2),i9)
do j=i,nmax
if(nparent(j).eq.i) call print_root(j)
enddo
end if
end if
return
end subroutine print_root