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psblas3/base/serial/dp/cgindex.f

464 lines
15 KiB
Fortran

C
C Parallel Sparse BLAS version 2.2
C (C) Copyright 2006/2007/2008
C Salvatore Filippone University of Rome Tor Vergata
C Alfredo Buttari University of Rome Tor Vergata
C
C Redistribution and use in source and binary forms, with or without
C modification, are permitted provided that the following conditions
C are met:
C 1. Redistributions of source code must retain the above copyright
C notice, this list of conditions and the following disclaimer.
C 2. Redistributions in binary form must reproduce the above copyright
C notice, this list of conditions, and the following disclaimer in the
C documentation and/or other materials provided with the distribution.
C 3. The name of the PSBLAS group or the names of its contributors may
C not be used to endorse or promote products derived from this
C software without specific written permission.
C
C THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
C ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
C TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
C PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS
C BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
C CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
C SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
C INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
C CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
C ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
C POSSIBILITY OF SUCH DAMAGE.
C
C
SUBROUTINE CGINDEX(M,N_BLOCKS,A,IA1,IA2,infoa,ARN,KA,IA,JA, INFON,
+ LARN,LKA,LJA,IPERM,WORK, LWORK, SIZE_REQ, IERROR)
use psb_const_mod
use psb_spmat_type
IMPLICIT NONE
C ... Scalar arguments ...
INTEGER M, LWORK,N_BLOCKS,LARN,LKA,LJA,
+ SIZE_REQ,IERROR
C ... Array arguments ...
complex(psb_spk_) A(*), ARN(*)
INTEGER IA1(*), IA2(*), KA(*),
+ IA(3,*), IPERM(*), JA(*), WORK(*),INFON(*), infoa(*)
C .... Local scalars ...
INTEGER I, J, BLOCK, ROW, COL, POINT_AR, POINT_JA, IP1,
+ IP2, IPX, NNZ, DIM_BLOCK, LIMIT, IPW,COUNT, IPC,CHECK_FLAG,
+ ERR_ACT, ix, regen_flag
LOGICAL CSR
c .. Local Arrays ..
CHARACTER*20 NAME
INTEGER INT_VAL(5)
NAME = 'CGINDEX\0'
IERROR = 0
CALL FCPSB_ERRACTIONSAVE(ERR_ACT)
POINT_AR = 1
POINT_JA = 0
call psb_getifield(check_flag,psb_dupl_,infon,psb_ifasize_,ierror)
call psb_getifield(regen_flag,psb_upd_,infon,psb_ifasize_,ierror)
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR)) THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
NNZ = IA2(M + 1) - 1
COUNT = 0
C .... Invert Permutation Matrix...
IF (IPERM(1).NE.0) THEN
DO I = 1, M
WORK(IPERM(I)) = I
ENDDO
ENDIF
size_Req=0
IF ( (regen_flag == psb_upd_perm_)
+ .AND. (LWORK .GE. (M + NNZ+2))) THEN
C
C Prepare for smart regeneration
C
IPW = M + 2
IP1 = (LKA-PSB_IREG_FLGS_-2)/2
IP2 = IP1+PSB_IREG_FLGS_
IPC = IP2 + NNZ + 1
KA(IP1 + PSB_IPC_) = IPC
KA(IP1+PSB_IP2_) = IP2
INFON(PSB_UPD_PNT_) = IP1
KA(IP1+PSB_IFLAG_) = CHECK_FLAG
KA(IP1+PSB_NNZT_) = NNZ
KA(IP1+PSB_NNZ_) = 0
KA(IP1+PSB_ICHK_) = NNZ+CHECK_FLAG
if (infoa(psb_upd_pnt_) > 0) then
I = infoa(psb_upd_pnt_)
IPX = IA2(I+PSB_IP2_)
C Invert permutation for smart regeneration
DO I = 1, NNZ
WORK(IPW + IA2(IPX + I -1) - 1) = I
ENDDO
else
! No permutation available before, set identity.
DO I = 1, NNZ
WORK(IPW + I - 1) = I
ENDDO
endif
C Construct JAD matrix...
DO BLOCK = 1, N_BLOCKS
COL = 1
DIM_BLOCK = IA(1,BLOCK+1)-IA(1,BLOCK)
c$$$ write(0,*) 'CGINDEX: BLOCK LOOP ',block,n_blocks,dim_block
if (dim_block .gt. PSB_MAXJDROWS_) then
write(0,*) 'Wrong value for dim_block',block,
+ IA(1,BLOCK+1),IA(1,BLOCK)
return
endif
LIMIT = INT(DIM_BLOCK*PSB_PERCENT_)
POINT_JA = POINT_JA+1
IF (LJA.LT.POINT_JA) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
IA(2,BLOCK) = POINT_JA
JA(POINT_JA) = POINT_AR
CSR = .FALSE.
IF (DIM_BLOCK.NE.0) THEN
C ... If current block is not empty ...
C ... For each Column belonging to Block ...
DO WHILE(.TRUE.)
C ... For each row belonging to the block BLOCK ...
DO I = IA(1,BLOCK), IA(1,BLOCK+1)-1
IF (IPERM(1).EQ.0) THEN
ROW = I
ELSE
ROW = WORK(I)
ENDIF
C ... If the current row is too short ...
IF (IA2(ROW)+COL-1.GE.IA2(ROW+1)) THEN
C ... Switch to CSR representation ...
IF (I.LE.IA(1,BLOCK)+LIMIT) THEN
CSR=.TRUE.
POINT_AR = POINT_AR - I + IA(1,BLOCK)
GOTO 998
ELSE
COUNT = COUNT + 1
ARN(POINT_AR) = 0.D0
KA(POINT_AR) = KA(POINT_AR-1)
IF(POINT_AR.LT.IP1) THEN
KA(IPC + COUNT -1) = POINT_AR
ENDIF
C
C The following statement assumes that we never get here with POINT_AR=1
C
POINT_AR = POINT_AR+1
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR))
+ THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
ENDIF
ELSE
ARN(POINT_AR) = A(IA2(ROW)+COL-1)
KA(POINT_AR) = IA1(IA2(ROW)+COL-1)
IF(POINT_AR.LT.IP1) THEN
KA(IP2 + WORK(IPW +
+ IA2(ROW) +COL -1-1)-1) = POINT_AR
ENDIF
POINT_AR = POINT_AR+1
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR))
+ THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
ENDIF
ENDDO
IF (CSR) GOTO 998
IF (LJA.LT.POINT_JA+COL) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
IF(IERROR.EQ.0) THEN
JA(POINT_JA+COL) = POINT_AR
ENDIF
COL = COL+1
ENDDO
ENDIF
998 CONTINUE
POINT_JA = POINT_JA+COL-1
IF (LJA.LT.POINT_JA) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
IA(3,BLOCK) = POINT_JA
C ... Start CSR Format ...
C ... For each row belonging to the block BLOCK ...
DO I = IA(1,BLOCK), IA(1,BLOCK+1)-1
IF (IPERM(1).EQ.0) THEN
ROW = I
ELSE
ROW = WORK(I)
ENDIF
C ... For each nnzero elements belonging to current row ...
DO J = IA2(ROW)+COL-1, IA2(ROW+1)-1
ARN(POINT_AR) = A(J)
KA (POINT_AR) = IA1(J)
IF (POINT_AR.LT.IP1) THEN
KA(IP2 + WORK(IPW + J-1)-1) = POINT_AR
ENDIF
POINT_AR = POINT_AR+1
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR)) THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
ENDDO
POINT_JA = POINT_JA+1
IF (LJA.LT.POINT_JA) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
JA(POINT_JA) = POINT_AR
ENDDO
ENDDO
IA(2,N_BLOCKS+1) = POINT_JA
KA(IP1 + PSB_ZERO_) = COUNT
IF (POINT_AR.GE.IP1) THEN
SIZE_REQ=NNZ+COUNT
ELSE
SIZE_REQ=0
ENDIF
ELSE
c$$$ c write(*,*)'inizio a ciclare sui blocchi'
IP1 = LKA - PSB_ZERO_
DO BLOCK = 1, N_BLOCKS
COL = 1
DIM_BLOCK = IA(1,BLOCK+1)-IA(1,BLOCK)
LIMIT = INT(DIM_BLOCK*PSB_PERCENT_)
POINT_JA = POINT_JA+1
IF (LJA.LT.POINT_JA) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
IA(2,BLOCK) = POINT_JA
JA(POINT_JA) = POINT_AR
CSR = .FALSE.
IF (DIM_BLOCK.NE.0) THEN
C ... If current block is not empty ...
C ... For each Column belonging to Block ...
DO WHILE(.TRUE.)
C ... For each row belonging to the block BLOCK ...
DO I = IA(1,BLOCK), IA(1,BLOCK+1)-1
IF (IPERM(1).EQ.0) THEN
ROW = I
ELSE
ROW = WORK(I)
ENDIF
C ... If the current row is too short ...
IF (IA2(ROW)+COL-1.GE.IA2(ROW+1)) THEN
C ... Switch to CSR representation ...
IF (I.LE.IA(1,BLOCK)+LIMIT) THEN
CSR=.TRUE.
POINT_AR = POINT_AR - I + IA(1,BLOCK)
GOTO 999
ELSE
COUNT= COUNT+1
ARN(POINT_AR) = 0.D0
KA (POINT_AR) = KA(POINT_AR-1)
C
C The following statement assumes that we never get here with POINT_AR=1
C
POINT_AR = POINT_AR+1
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR))
+ THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
ENDIF
ELSE
ARN(POINT_AR) = A(IA2(ROW)+COL-1)
KA (POINT_AR) = IA1(IA2(ROW)+COL-1)
POINT_AR = POINT_AR+1
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR))
+ THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
ENDIF
ENDDO
IF (CSR) GOTO 999
IF (LJA.LT.POINT_JA+COL) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
JA(POINT_JA+COL) = POINT_AR
COL = COL+1
ENDDO
ENDIF
999 CONTINUE
POINT_JA = POINT_JA+COL-1
IF (LJA.LT.POINT_JA) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
IA(3,BLOCK) = POINT_JA
C ... Start CSR Format ...
C ... For each row belonging to the block BLOCK ...
DO I = IA(1,BLOCK), IA(1,BLOCK+1)-1
IF (IPERM(1).EQ.0) THEN
ROW = I
ELSE
ROW = WORK(I)
ENDIF
C ... For each nnzero elements belonging to current row ...
DO J = IA2(ROW)+COL-1, IA2(ROW+1)-1
ARN(POINT_AR) = A(J)
KA (POINT_AR) = IA1(J)
POINT_AR = POINT_AR+1
IF ((LARN.LT.POINT_AR).OR.(LKA.LT.POINT_AR)) THEN
IERROR = 60
INT_VAL(1) = 11
INT_VAL(2) = POINT_AR
INT_VAL(3) = LARN
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
ENDDO
POINT_JA = POINT_JA+1
IF (LJA.LT.POINT_JA) THEN
IERROR = 60
INT_VAL(1) = 13
INT_VAL(2) = POINT_JA
INT_VAL(3) = LJA
CALL FCPSB_ERRPUSH(IERROR,NAME,INT_VAL)
GOTO 9999
ENDIF
JA(POINT_JA) = POINT_AR
ENDDO
ENDDO
IA(2,N_BLOCKS+1) = POINT_JA
IF (POINT_AR.GE.lka) THEN
SIZE_REQ=NNZ+COUNT
ELSE
SIZE_REQ=0
ENDIF
ENDIF
infon(1)=point_ar-1
CALL FCPSB_ERRACTIONRESTORE(ERR_ACT)
RETURN
9999 CONTINUE
CALL FCPSB_ERRACTIONRESTORE(ERR_ACT)
IF ( ERR_ACT .NE. 0 ) THEN
CALL FCPSB_SERROR()
RETURN
ENDIF
RETURN
END