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Diffstat (limited to 'src/cormaddp.f90')
| -rw-r--r-- | src/cormaddp.f90 | 642 |
1 files changed, 0 insertions, 642 deletions
diff --git a/src/cormaddp.f90 b/src/cormaddp.f90 deleted file mode 100644 index b0b6516..0000000 --- a/src/cormaddp.f90 +++ /dev/null @@ -1,642 +0,0 @@ -module selectionalgo - use, intrinsic :: iso_fortran_env - - implicit none - - real, parameter :: cost=1.4826, sqrt2=sqrt(2.) - integer, parameter :: sp = real32, dp=real64 - - interface qselect - procedure quickselectdp, quickselectscalardp - end interface qselect - - interface iselect - procedure introselectdp, introselectscalardp - end interface iselect - - contains - - !!!!!!! DOUBLE PRECISION - recursive subroutine quickselectrecursivedp(invector,tovector,k,output) - real(kind=dp), dimension(:), allocatable, target, intent(inout) :: invector - real(kind=dp), intent(inout), pointer, contiguous :: tovector(:) - integer, intent(inout) :: k - real(kind=dp), intent(out) :: output - real(kind=dp) :: swapper, pvt - integer :: i, r, subst - real(kind=dp), pointer :: a,b,c - - r=size(tovector) - - select case(r) - case(1) - output=tovector(1) - return - case(2) - select case(k) - case(1) - output=minval(tovector) - case(2) - output=maxval(tovector) - end select - return - case(3) - select case(k) - case(1) - output=minval(tovector) - case(3) - output=maxval(tovector) - case(2) - i=r/2+1 - output=sum(tovector)-minval(tovector)-maxval(tovector) - end select - return - case default - i=r/2+1 - - !pivoting section (pivot of 3) - a=>tovector(1) - b=>tovector(i) - c=>tovector(r) - pvt=a+b+c - swapper=max(a,b,c) - b=swapper - pvt=pvt-swapper - swapper=min(a,b,c) - a=swapper - pvt=pvt-swapper - c=pvt - - !one pass section - subst=1 - b=>tovector(subst) - do i=1,(r-1-3),3 - a => tovector(i) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - a => tovector(i+1) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - a => tovector(i+2) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - end do - do i=i,(r-1) - a => tovector(i) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - end do - tovector(r)=tovector(subst) - tovector(subst)=pvt - - !decide next step - select case(subst-k) - case(0) - output=tovector(k) - case(1:) - tovector => tovector(1:subst-1) - call quickselectrecursivedp(invector,tovector,k, output) - case(:-1) - k=k-subst - tovector => tovector(subst+1:) - call quickselectrecursivedp(invector,tovector,k, output) - end select - end select - end subroutine quickselectrecursivedp - - recursive subroutine introselectrecursivedp(invector,tovector,k,output) - real(kind=dp), dimension(:), allocatable, target, intent(inout) :: invector - real(kind=dp), intent(inout), pointer, contiguous :: tovector(:) - integer, intent(inout) :: k - real(kind=dp), intent(out) :: output - real(kind=dp) :: swapper, pvt - integer, save :: switch - integer :: i, r, subst, r_min, switch_after - real(kind=dp), pointer :: a,b,c - - r=ubound(tovector,1) - r_min = 3000 ! at least this bigger to switch to median of medians - switch_after = 5 ! at least fails this amount of time to reorder - ! one third of the vector to consider med of med - - select case(r) - case(1) - output=tovector(1) - switch=0 - return - case(2) - select case(k) - case(1) - output=minval(tovector) - case(2) - output=maxval(tovector) - end select - switch=0 - return - case(3) - select case(k) - case(1) - output=minval(tovector) - case(3) - output=maxval(tovector) - case(2) - i=r/2+1 - output=sum(tovector)-minval(tovector)-maxval(tovector) - end select - switch=0 - return - case default - i=r/2+1 - - !pivoting section (pivot of 3) - a=>tovector(1) - b=>tovector(i) - c=>tovector(r) - pvt=a+b+c - swapper=max(a,b,c) - b=swapper - pvt=pvt-swapper - swapper=min(a,b,c) - a=swapper - pvt=pvt-swapper - c=pvt - - !one pass section - subst=1 - b=>tovector(subst) - do i=1,(r-1-3),3 - a => tovector(i) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - a => tovector(i+1) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - a => tovector(i+2) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - end do - do i=i,(r-1) - a => tovector(i) - if (a<pvt) then - swapper=b - b=a - a=swapper - subst=subst+1 - b=>tovector(subst) - end if - end do - tovector(r)=tovector(subst) - tovector(subst)=pvt - - !decide next step - select case(subst-k) - case(0) - output=tovector(k) - switch=0 - case(1:) - tovector => tovector(1:subst-1) - if ((subst-1)>r*2/3) then - switch=switch+1 - if (switch==switch_after .and. r>r_min) then - !reset switch and call medofmeddp - switch=0 - call medofmeddp(invector,tovector,k, output) - else - call introselectrecursivedp(invector,tovector,k, output) - end if - else - switch=0 - call introselectrecursivedp(invector,tovector,k, output) - end if - case(:-1) - k=k-subst - tovector => tovector(subst+1:) - if ((r-subst)>r*2/3) then - switch=switch+1 - if (switch==switch_after .and. r>r_min) then - !reset switch and call medofmeddp - switch=0 - call medofmeddp(invector,tovector,k, output) - else - call introselectrecursivedp(invector,tovector,k, output) - end if - else - switch=0 - call introselectrecursivedp(invector,tovector,k, output) - end if - end select - end select - end subroutine introselectrecursivedp - - recursive subroutine medofmeddp(invector,tovector,k,output) - real(kind=dp), dimension(:), allocatable, target, intent(inout) :: invector - real(kind=dp), intent(inout), pointer, contiguous :: tovector(:) - real(kind=dp), intent(out) :: output - integer, intent(inout) :: k - - real(kind=dp), pointer, contiguous :: subsec(:) - real(kind=dp), dimension(:),allocatable :: meds - integer :: i,subst,r - real(kind=dp) :: pvt - !real(kind=dp) :: swapper - !real(kind=dp), pointer :: a,b - - r=ubound(tovector,1) - select case(mod(r,5)) - case(0) - allocate(meds(r/5)) - do i=1,r-4,5 - subsec=>tovector(i:i+4) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - subst=minloc(subsec(3:),1)+2 - pvt=subsec(subst) - subsec(subst)=subsec(3) - subsec(3)=pvt - meds(int(i/5.0)+1)=pvt - end do - case(1) - allocate(meds(r/5+1)) - do i=1,r-4,5 - subsec=>tovector(i:i+4) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - subst=minloc(subsec(3:),1)+2 - pvt=subsec(subst) - subsec(subst)=subsec(3) - subsec(3)=pvt - meds(int(i/5.0)+1)=pvt - end do - meds(r/5+1)=tovector(i) - case(2) - allocate(meds(r/5+1)) - do i=1,r-4,5 - subsec=>tovector(i:i+4) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - subst=minloc(subsec(3:),1)+2 - pvt=subsec(subst) - subsec(subst)=subsec(3) - subsec(3)=pvt - meds(int(i/5.0)+1)=pvt - end do - subsec=>tovector(i:) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - meds(r/5+1)=subsec(2) - case(3) - allocate(meds(r/5+1)) - do i=1,r-4,5 - subsec=>tovector(i:i+4) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - subst=minloc(subsec(3:),1)+2 - pvt=subsec(subst) - subsec(subst)=subsec(3) - subsec(3)=pvt - meds(int(i/5.0)+1)=pvt - end do - subsec=>tovector(i:) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - meds(r/5+1)=pvt - case(4) - allocate(meds(r/5+1)) - do i=1,r-4,5 - subsec=>tovector(i:i+4) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - subst=minloc(subsec(3:),1)+2 - pvt=subsec(subst) - subsec(subst)=subsec(3) - subsec(3)=pvt - meds(int(i/5.0)+1)=pvt - end do - subsec=>tovector(i:) - subst=minloc(subsec,1) - pvt=subsec(subst) - subsec(subst)=subsec(1) - subsec(1)=pvt - subst=minloc(subsec(2:),1)+1 - pvt=subsec(subst) - subsec(subst)=subsec(2) - subsec(2)=pvt - subst=minloc(subsec(3:),1)+2 - pvt=subsec(subst) - subsec(subst)=subsec(3) - subsec(3)=pvt - meds(r/5+1)=pvt - end select - - !set pivot - pvt=qselect(meds) - do i=1,r-3,3 - if (tovector(i)==pvt) then - tovector(i)=tovector(r) - tovector(r)=pvt - exit - else if (tovector(i+1)==pvt) then - tovector(i+1)=tovector(r) - tovector(r)=pvt - exit - else if (tovector(i+2)==pvt) then - tovector(i+2)=tovector(r) - tovector(r)=pvt - exit - else - cycle - end if - end do - do i=i,r - if (tovector(i)==pvt) then - tovector(i)=tovector(r) - tovector(r)=pvt - exit - else - cycle - end if - end do - - call introselectrecursivedp(invector,tovector,k, output) - end subroutine medofmeddp - - function introselectdp(invector,ord,evencorrection) - real(kind=dp), intent(in), dimension(:) :: invector - logical, optional, intent(in) :: evencorrection - integer, intent(in), optional :: ord - real(kind=dp) :: introselectdp - - real(kind=dp), dimension(:), allocatable, target :: vector - real(kind=dp), pointer, contiguous :: tovector(:) => null() - integer :: k1, k - - k1=size(invector) - allocate(vector(k1)) - vector=invector - tovector => vector - - k1=ubound(invector,1) - if(present(ord)) then - k=ord - else - k=k1/2+1 - end if - - if(present(evencorrection)) then - if (k/=k1/2+1 .or. mod(k1,2)/=0) then - !write(*,'(a)') 'Warning: evencorrection argument ignored.' - k1=0 - else - k1=0 - if (evencorrection) k1=k-1 - end if - else - k1=0 - end if - - call introselectrecursivedp(vector,tovector,k, introselectdp) - - if (k1/=0) then - block - real(kind=dp) :: temp - temp=introselectdp - !tovector=>vector(1:k1+1) - tovector=>vector - call introselectrecursivedp(vector,tovector,k1, introselectdp) - introselectdp=(introselectdp+temp)/2.0 - end block - end if - end function introselectdp - - function quickselectdp(invector,ord,evencorrection) - real(kind=dp), intent(in), dimension(:) :: invector - logical, optional, intent(in) :: evencorrection - integer, intent(in), optional :: ord - real(kind=dp) :: quickselectdp - - real(kind=dp), dimension(:), allocatable, target :: vector - real(kind=dp), pointer, contiguous :: tovector(:) => null() - integer :: k1, k - - k1=size(invector) - allocate(vector(k1)) - vector=invector - tovector => vector - - k1=ubound(invector,1) - if(present(ord)) then - k=ord - else - k=k1/2+1 - end if - - if(present(evencorrection)) then - if (k/=k1/2+1 .or. mod(k1,2)/=0) then - !write(*,'(a)') 'Warning: evencorrection argument ignored.' - k1=0 - else - k1=0 - if (evencorrection) k1=k-1 - end if - else - k1=0 - end if - - call quickselectrecursivedp(vector,tovector,k, quickselectdp) - - if (k1/=0) then - block - real(kind=dp) :: temp - temp=quickselectdp - tovector=>vector(1:k1+1) - call quickselectrecursivedp(vector,tovector,k1, quickselectdp) - quickselectdp=(quickselectdp+temp)/2.0 - end block - end if - end function quickselectdp - - !deal with scalar input - function introselectscalardp(invector,ord, evencorrection) - real(kind=dp), intent(in) :: invector - integer, intent(in), optional :: ord - logical, optional, intent(in) :: evencorrection - real(kind=dp) :: introselectscalardp - - if (present(evencorrection) .or. present(ord)) then - continue - end if - - introselectscalardp=invector - end function introselectscalardp - - function quickselectscalardp(invector,ord, evencorrection) - real(kind=dp), intent(in) :: invector - integer, intent(in), optional :: ord - logical, optional, intent(in) :: evencorrection - real(kind=dp) :: quickselectscalardp - - if (present(evencorrection) .or. present(ord)) then - continue - end if - - quickselectscalardp=invector - end function quickselectscalardp - - -end module selectionalgo - -subroutine cormadvecdp(matrix,nrow,ncol,res,ressize,correcteven) - - use selectionalgo - - implicit none - - !note kind dp is defined in selectionalgo - integer, intent(in) :: nrow, ncol,ressize, correcteven !.Fortran R function will not deal with deferred size arrays - real(kind=dp), dimension(nrow,ncol), intent(inout) :: matrix - real(kind=dp), dimension(ressize), intent(out) :: res - - integer :: i, j, n, p - real(kind=dp) :: med,mad - !real(kind=dp) :: fresh - real(kind=dp), dimension(:), allocatable :: U, V - !real(kind=dp), dimension(:), allocatable :: A, B - - - p=ubound(matrix,2) - n=ubound(matrix,1) - allocate(U(n),V(n)) - - if (correcteven==1) then - do i=1,p-3,3 - U=matrix(:,i) - med=iselect(U,evencorrection=.true.) - matrix(:,i)=(U-med)/(sqrt2*cost*iselect(abs(U-med),evencorrection=.true.)) - U=matrix(:,i+1) - med=iselect(U,evencorrection=.true.) - matrix(:,i+1)=(U-med)/(sqrt2*cost*iselect(abs(U-med),evencorrection=.true.)) - U=matrix(:,i+2) - med=iselect(U,evencorrection=.true.) - matrix(:,i+2)=(U-med)/(sqrt2*cost*iselect(abs(U-med),evencorrection=.true.)) - end do - do i=i,p - U=matrix(:,i) - med=iselect(U,evencorrection=.true.) - matrix(:,i)=(U-med)/(sqrt2*cost*iselect(abs(U-med),evencorrection=.true.)) - end do - !unrolled loops - n=1 - do i=1,p-1 - do j=i+1,p - U=matrix(:,i)+matrix(:,j) - V=-matrix(:,i)+matrix(:,j) - mad=(cost*iselect(abs(U-iselect(U,evencorrection=.true.)),evencorrection=.true.))**2 - med=(cost*iselect(abs(V-iselect(V,evencorrection=.true.)),evencorrection=.true.))**2 - res(n)=(mad-med)/(mad+med) - n=n+1 - end do - end do - else - do i=1,p-3,3 - U=matrix(:,i) - med=iselect(U) - matrix(:,i)=(U-med)/(sqrt2*cost*iselect(abs(U-med))) - U=matrix(:,i+1) - med=iselect(U) - matrix(:,i+1)=(U-med)/(sqrt2*cost*iselect(abs(U-med))) - U=matrix(:,i+2) - med=iselect(U) - matrix(:,i+2)=(U-med)/(sqrt2*cost*iselect(abs(U-med))) - end do - do i=i,p - U=matrix(:,i) - med=iselect(U) - matrix(:,i)=(U-med)/(sqrt2*cost*iselect(abs(U-med))) - end do - !unrolled loops - n=1 - do i=1,p-1 - do j=i+1,p - U=matrix(:,i)+matrix(:,j) - V=-matrix(:,i)+matrix(:,j) - mad=(cost*iselect(abs(U-iselect(U))))**2 - med=(cost*iselect(abs(V-iselect(V))))**2 - res(n)=(mad-med)/(mad+med) - n=n+1 - end do - end do - end if -end subroutine cormadvecdp |
