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psblas3/base/serial/csr/scsrmv.f

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prec/psb_sprecinit.f90 prec/psb_sprecset.f90 test/fileread/Makefile test/fileread/cf_sample.f90 test/fileread/df_sample.f90 test/fileread/getp.f90 test/fileread/runs/cfs.inp test/fileread/runs/sfs.inp test/fileread/sf_sample.f90 test/fileread/zf_sample.f90 test/pargen/Makefile test/pargen/ppde.f90 test/pargen/runs/ppde.inp test/pargen/spde.f90 util/psb_hbio_mod.f90 util/psb_mat_dist_mod.f90 util/psb_mmio_mod.f90 util/psb_read_mat_mod.f90 Merged the single precision branch.
17 years ago
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
***********************************************************************
* DSRMV modified for SPARKER
* *
* FUNCTION: Driver for routines performing one of the sparse *
* matrix vector operations *
* *
* y = alpha*op(A)*x + beta*y *
* *
* where op(A) is one of: *
* *
* op(A) = A or op(A) = A' or *
* op(A) = lower or upper part of A *
* *
* alpha and beta are scalars. *
* The data structure of the matrix is related *
* to the scalar computer. *
* This is an internal routine called by: *
* DSMMV *
* *
* ENTRY-POINT = DSRMV *
* INPUT = *
* *
* *
* SYMBOLIC NAME: TRANS *
* POSITION: PARAMETER NO 1. *
* ATTRIBUTES: CHARACTER*1 *
* VALUES: 'N' 'T' 'L' 'U' *
* DESCRIPTION: Specifies the form of op(A) to be used in the *
* matrix vector multiplications as follows: *
* *
* TRANS = 'N' , op( A ) = A. *
* *
* TRANS = 'T' , op( A ) = A'. *
* *
* TRANS = 'L' or 'U', op( A ) = lower or *
* upper part of A *
* *
* SYMBOLIC NAME: DIAG *
* POSITION: PARAMETER NO 2. *
* ATTRIBUTES: CHARACTER*1 *
* VALUES: 'N' 'U' *
* DESCRIPTION: *
* Specifies whether or not the matrix A has *
* unit diagonal as follows: *
* *
* DIAG = 'N' A is not assumed *
* to have unit diagonal *
* *
* DIAG = 'U' A is assumed *
* to have unit diagonal. *
* *
* WARNING: it is the caller's responsibility *
* to ensure that if the matrix has unit *
* diagonal, there are no elements of the *
* diagonal are stored in the arrays AS and JA. *
* *
* SYMBOLIC NAME: M *
* POSITION: PARAMETER NO 3. *
* ATTRIBUTES: INTEGER*4. *
* VALUES: M >= 0 *
* DESCRIPTION: Number of rows of the matrix op(A). *
* *
* SYMBOLIC NAME: N *
* POSITION: PARAMETER NO 4. *
* ATTRIBUTES: INTEGER*4. *
* VALUES: N >= 0 *
* DESCRIPTION: Number of columns of the matrix op(A) *
* *
* SYMBOLIC NAME: ALPHA *
* POSITION: PARAMETER NO 5. *
* ATTRIBUTES: REAL*8. *
* VALUES: any. *
* DESCRIPTION: Specifies the scalar alpha. *
* *
* *
* SYMBOLIC NAME: AS *
* POSITION: PARAMETER NO 6. *
* ATTRIBUTES: REAL*8: ARRAY(IA(M+1)-1) *
* VALUES: ANY *
* DESCRIPTION: Array containing the non zero coefficients of *
* the sparse matrix op(A). *
* *
* SYMBOLIC NAME: JA *
* POSITION: PARAMETER NO 7. *
* ATTRIBUTES: INTEGER*4: ARRAY(IA(M+1)-1) *
* VALUES: 0 < JA(I) <= M *
* DESCRIPTION: Array containing the column number of the *
* nonzero coefficients stored in array AS. *
* *
* SYMBOLIC NAME: IA *
* POSITION: PARAMETER NO 8. *
* ATTRIBUTES: INTEGER*4: ARRAY(*) *
* VALUES: IA(I) > 0 *
* DESCRIPTION: Contains the pointers for the beginning of *
* each rows. *
* *
* *
* SYMBOLIC NAME: X *
* POSITION: PARAMETER NO 9. *
* ATTRIBUTES: REAL*8 ARRAY(N) (or ARRAY(M) when op(A) = A') *
* VALUES: any. *
* DESCRIPTION: Contains the values of the vector to be *
* multiplied by the matrix A. *
* *
* SYMBOLIC NAME: BETA *
* POSITION: PARAMETER NO 10. *
* ATTRIBUTES: REAL*8. *
* VALUES: any. *
* DESCRIPTION: Specifies the scalar beta. *
* *
* SYMBOLIC NAME: Y *
* POSITION: PARAMETER NO 11. *
* ATTRIBUTES: REAL*8 ARRAY(M) (or ARRAY(N) when op(A) = A') *
* VALUES: any. *
* DESCRIPTION: Contains the values of the vector to be *
* updated by the matrix-vector multiplication. *
* *
* SYMBOLIC NAME: WORK *
* POSITION: PARAMETER NO 12. *
* ATTRIBUTES: REAL*8 ARRAY(M) (or ARRAY(N) when op(A) = A') *
* VALUES: any. *
* DESCRIPTION: Work area available to the program. It is used *
* only when TRANS = 'T'. *
* *
* OUTPUT = *
* *
* *
* SYMBOLIC NAME: Y *
* POSITION: PARAMETER NO 11. *
* ATTRIBUTES: REAL*8 ARRAY(M) (or ARRAY(N) when op(A) = A') *
* VALUES: any. *
* DESCRIPTION: Contains the values of the vector *
* updated by the matrix-vector multiplication. *
* *
* *
***********************************************************************
SUBROUTINE SCSRMV(TRANS,DIAG,M,N,ALPHA,AS,JA,IA,X,BETA,Y,
+ WORK,LWORK,IERROR)
use psb_const_mod
use psb_string_mod
C .. Scalar Arguments ..
real(psb_spk_) ALPHA, BETA
INTEGER M, N,LWORK,IERROR
CHARACTER DIAG, TRANS
C .. Array Arguments ..
real(psb_spk_) AS(*), WORK(*), X(*), Y(*)
INTEGER IA(*), JA(*)
C .. Local Scalars ..
real(psb_dpk_) ACC
INTEGER I, J, K, NCOLA, NROWA
LOGICAL SYM, TRA, UNI
C .. Executable Statements ..
C
IERROR = 0
UNI = (psb_toupper(DIAG).EQ.'U')
TRA = (psb_toupper(TRANS).EQ.'T')
C Symmetric matrix upper or lower
SYM = ((psb_toupper(TRANS).EQ.'L').OR.
+ (psb_toupper(TRANS).EQ.'U'))
C
IF ( .NOT. TRA) THEN
NROWA = M
NCOLA = N
ELSE IF (TRA) THEN
NROWA = N
NCOLA = M
END IF !(....TRA)
IF (ALPHA.EQ.SZERO) THEN
IF (BETA.EQ.SZERO) THEN
DO I = 1, M
Y(I) = SZERO
ENDDO
ELSE
DO 20 I = 1, M
Y(I) = BETA*Y(I)
20 CONTINUE
ENDIF
RETURN
END IF
C
IF (SYM) THEN
IF (UNI) THEN
C
C ......Symmetric with unitary diagonal.......
C ....OK!!
C To be optimized
IF (BETA.NE.SZERO) THEN
DO 40 I = 1, M
C
C Product for diagonal elements
C
Y(I) = BETA*Y(I) + ALPHA*X(I)
40 CONTINUE
ELSE
DO I = 1, M
Y(I) = ALPHA*X(I)
ENDDO
ENDIF
C Product for other elements
DO 80 I = 1, M
ACC = SZERO
DO 60 J = IA(I), IA(I+1) - 1
K = JA(J)
Y(K) = Y(K) + ALPHA*AS(J)*X(I)
ACC = ACC + AS(J)*X(K)
60 CONTINUE
Y(I) = Y(I) + ALPHA*ACC
80 CONTINUE
C
ELSE IF ( .NOT. UNI) THEN
C
C Check if matrix is lower or upper
C
IF (psb_toupper(TRANS).EQ.'L') THEN
C
C LOWER CASE: diagonal element is the last element of row
C ....OK!
IF (BETA.NE.SZERO) THEN
DO 100 I = 1, M
Y(I) = BETA*Y(I)
100 CONTINUE
ELSE
DO I = 1, M
Y(I) = SZERO
ENDDO
ENDIF
DO 140 I = 1, M
ACC = SZERO
DO 120 J = IA(I), IA(I+1) - 1 ! it was -2
K = JA(J)
C
C To be optimized
C
IF (K.NE.I) THEN !for symmetric element
Y(K) = Y(K) + ALPHA*AS(J)*X(I)
ENDIF
ACC = ACC + AS(J)*X(K)
120 CONTINUE
Y(I) = Y(I) + ALPHA*ACC
140 CONTINUE
ELSE ! ....Trans<>L
C
C UPPER CASE
C ....OK!!
C
IF (BETA.NE.SZERO) THEN
DO 160 I = 1, M
Y(I) = BETA*Y(I)
160 CONTINUE
ELSE
DO I = 1, M
Y(I) = SZERO
ENDDO
ENDIF
DO 200 I = 1, M
ACC = SZERO
DO 180 J = IA(I) , IA(I+1) - 1 ! removed +1
K = JA(J)
C
C To be optimized
C
IF(K.NE.I) THEN
Y(K) = Y(K) + ALPHA*AS(J)*X(I)
ENDIF
ACC = ACC + AS(J)*X(K)
180 CONTINUE
Y(I) = Y(I) + ALPHA*ACC
200 CONTINUE
END IF ! ......TRANS=='L'
END IF ! ......Not UNI
C
ELSE IF ( .NOT. TRA) THEN !......NOT SYM
IF ( .NOT. UNI) THEN
C
C .......General Not Unit, No Traspose
C
if (beta == szero) then
if (alpha==sone) then
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = acc
enddo
else if (alpha==-sone) then
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc - as(j)*x(ja(j))
enddo
y(i) = acc
enddo
else
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = alpha*acc
enddo
endif
else if (beta==sone) then
if (alpha==sone) then
do i = 1, m
acc = y(i)
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = acc
enddo
else if (alpha==-sone) then
do i = 1, m
acc = y(i)
do j = ia(i), ia(i+1) - 1
acc = acc - as(j)*x(ja(j))
enddo
y(i) = acc
enddo
else
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = alpha*acc + y(i)
enddo
endif
else if (beta==-sone) then
if (alpha==sone) then
do i = 1, m
acc = -y(i)
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = acc
enddo
else if (alpha==-sone) then
do i = 1, m
acc = -y(i)
do j = ia(i), ia(i+1) - 1
acc = acc - as(j)*x(ja(j))
enddo
y(i) = acc
enddo
else
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = alpha*acc - y(i)
enddo
endif
else
if (alpha==sone) then
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = acc + beta*y(i)
enddo
else if (alpha==-sone) then
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc - as(j)*x(ja(j))
enddo
y(i) = acc + beta*y(i)
enddo
else
do i = 1, m
acc = szero
do j = ia(i), ia(i+1) - 1
acc = acc + as(j)*x(ja(j))
enddo
y(i) = alpha*acc + beta*y(i)
enddo
endif
end if
C
ELSE IF (UNI) THEN
C
IF (BETA.NE.SZERO) THEN
DO 280 I = 1, M
ACC = SZERO
DO 260 J = IA(I), IA(I+1) - 1
ACC = ACC + AS(J)*X(JA(J))
260 CONTINUE
Y(I) = ALPHA*(ACC+X(I)) + BETA*Y(I)
280 CONTINUE
ELSE !(BETA.EQ.SZERO)
DO I = 1, M
ACC = SZERO
DO J = IA(I), IA(I+1) - 1
ACC = ACC + AS(J)*X(JA(J))
ENDDO
Y(I) = ALPHA*(ACC+X(I))
ENDDO
ENDIF
END IF !....End Testing on UNI
C
ELSE IF (TRA) THEN !....Else on SYM (swapped M and N)
C
IF ( .NOT. UNI) THEN
C
IF (BETA.NE.SZERO) THEN
DO 300 I = 1, M
Y(I) = BETA*Y(I)
300 CONTINUE
ELSE !(BETA.EQ.SZERO)
DO I = 1, M
Y(I) = SZERO
ENDDO
ENDIF
C
ELSE IF (UNI) THEN
C
IF (BETA.NE.SZERO) THEN
DO 320 I = 1, M
Y(I) = BETA*Y(I) + ALPHA*X(I)
320 CONTINUE
ELSE !(BETA.EQ.SZERO)
DO I = 1, M
Y(I) = ALPHA*X(I)
ENDDO
ENDIF
C
END IF !....UNI
C
IF (ALPHA.EQ.SONE) THEN
C
DO 360 I = 1, N
DO 340 J = IA(I), IA(I+1) - 1
K = JA(J)
Y(K) = Y(K) + AS(J)*X(I)
340 CONTINUE
360 CONTINUE
C
ELSE IF (ALPHA.EQ.-SONE) THEN
C
DO 400 I = 1, n
DO 380 J = IA(I), IA(I+1) - 1
K = JA(J)
Y(K) = Y(K) - AS(J)*X(I)
380 CONTINUE
400 CONTINUE
C
ELSE !.....Else on TRA
C
C This work array is used for efficiency
C
IF (LWORK.LT.N) THEN
IERROR = 60
WORK(1) = DBLE(N)
RETURN
ENDIF
DO 420 I = 1, N
WORK(I) = ALPHA*X(I)
420 CONTINUE
C
DO 460 I = 1, n
DO 440 J = IA(I), IA(I+1) - 1
K = JA(J)
Y(K) = Y(K) + AS(J)*WORK(I)
440 CONTINUE
460 CONTINUE
C
END IF !.....End testing on ALPHA
END IF !.....End testing on SYM
C
RETURN
C
C END OF DSRMV
C
END