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321 lines
8.1 KiB
Fortran
321 lines
8.1 KiB
Fortran
!
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! Parallel Sparse BLAS version 3.5
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! (C) Copyright 2006-2018
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! Salvatore Filippone
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! Alfredo Buttari
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!
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! Redistribution and use in source and binary forms, with or without
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! modification, are permitted provided that the following conditions
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! are met:
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! 1. Redistributions of source code must retain the above copyright
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! notice, this list of conditions and the following disclaimer.
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! 2. Redistributions in binary form must reproduce the above copyright
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! notice, this list of conditions, and the following disclaimer in the
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! documentation and/or other materials provided with the distribution.
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! 3. The name of the PSBLAS group or the names of its contributors may
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! not be used to endorse or promote products derived from this
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! software without specific written permission.
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!
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! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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! ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
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! TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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! PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS
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! BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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! CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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! SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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! CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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! ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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! POSSIBILITY OF SUCH DAMAGE.
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!
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!
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!
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! Reorder (an) input vector(s) based on a list sort output.
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! Based on: D. E. Knuth: The Art of Computer Programming
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! vol. 3: Sorting and Searching, Addison Wesley, 1973
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! ex. 5.2.12
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!
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!
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module psb_m_ip_reord_mod
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use psb_const_mod
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interface psb_ip_reord
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module procedure psb_ip_reord_m1m,&
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& psb_ip_reord_m1m1, psb_ip_reord_m1m2,&
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& psb_ip_reord_m1m3
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module procedure psb_ip_reord_m1e,&
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& psb_ip_reord_m1e1, psb_ip_reord_m1e2,&
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& psb_ip_reord_m1e3
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end interface
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contains
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subroutine psb_ip_reord_m1m(n,x,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_mpk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_mpk_) :: lswap, lp, k
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1m
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subroutine psb_ip_reord_m1m1(n,x,indx,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_mpk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_mpk_) :: indx(*)
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integer(psb_mpk_) :: lswap, lp, k, ixswap
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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ixswap = indx(lp)
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indx(lp) = indx(k)
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indx(k) = ixswap
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1m1
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subroutine psb_ip_reord_m1m2(n,x,i1,i2,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_mpk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_mpk_) :: i1(*), i2(*)
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integer(psb_mpk_) :: lswap, lp, k, isw1, isw2
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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isw1 = i1(lp)
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i1(lp) = i1(k)
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i1(k) = isw1
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isw2 = i2(lp)
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i2(lp) = i2(k)
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i2(k) = isw2
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1m2
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subroutine psb_ip_reord_m1m3(n,x,i1,i2,i3,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_mpk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_mpk_) :: i1(*), i2(*), i3(*)
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integer(psb_mpk_) :: lswap, lp, k, isw1, isw2, isw3
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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isw1 = i1(lp)
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i1(lp) = i1(k)
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i1(k) = isw1
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isw2 = i2(lp)
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i2(lp) = i2(k)
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i2(k) = isw2
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isw3 = i3(lp)
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i3(lp) = i3(k)
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i3(k) = isw3
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1m3
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subroutine psb_ip_reord_m1e(n,x,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_epk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_epk_) :: lswap, lp, k
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1e
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subroutine psb_ip_reord_m1e1(n,x,indx,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_epk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_epk_) :: indx(*)
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integer(psb_epk_) :: lswap, lp, k, ixswap
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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ixswap = indx(lp)
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indx(lp) = indx(k)
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indx(k) = ixswap
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1e1
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subroutine psb_ip_reord_m1e2(n,x,i1,i2,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_epk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_epk_) :: i1(*), i2(*)
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integer(psb_epk_) :: lswap, lp, k, isw1, isw2
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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isw1 = i1(lp)
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i1(lp) = i1(k)
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i1(k) = isw1
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isw2 = i2(lp)
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i2(lp) = i2(k)
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i2(k) = isw2
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1e2
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subroutine psb_ip_reord_m1e3(n,x,i1,i2,i3,iaux)
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integer(psb_ipk_), intent(in) :: n
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integer(psb_epk_) :: iaux(0:*)
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integer(psb_mpk_) :: x(*)
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integer(psb_epk_) :: i1(*), i2(*), i3(*)
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integer(psb_epk_) :: lswap, lp, k, isw1, isw2, isw3
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integer(psb_mpk_) :: swap
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lp = iaux(0)
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k = 1
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do
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if ((lp == 0).or.(k>n)) exit
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do
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if (lp >= k) exit
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lp = iaux(lp)
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end do
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swap = x(lp)
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x(lp) = x(k)
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x(k) = swap
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isw1 = i1(lp)
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i1(lp) = i1(k)
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i1(k) = isw1
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isw2 = i2(lp)
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i2(lp) = i2(k)
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i2(k) = isw2
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isw3 = i3(lp)
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i3(lp) = i3(k)
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i3(k) = isw3
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lswap = iaux(lp)
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iaux(lp) = iaux(k)
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iaux(k) = lp
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lp = lswap
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k = k + 1
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enddo
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return
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end subroutine psb_ip_reord_m1e3
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end module psb_m_ip_reord_mod
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