📄 ctrmv.f
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SUBROUTINE CTRMV(UPLO,TRANS,DIAG,N,A,LDA,X,INCX)* .. Scalar Arguments .. INTEGER INCX,LDA,N CHARACTER DIAG,TRANS,UPLO* ..* .. Array Arguments .. COMPLEX A(LDA,*),X(*)* ..** Purpose* =======** CTRMV performs one of the matrix-vector operations** x := A*x, or x := A'*x, or x := conjg( A' )*x,** where x is an n element vector and A is an n by n unit, or non-unit,* upper or lower triangular matrix.** Arguments* ==========** UPLO - CHARACTER*1.* On entry, UPLO specifies whether the matrix is an upper or* lower triangular matrix as follows:** UPLO = 'U' or 'u' A is an upper triangular matrix.** UPLO = 'L' or 'l' A is a lower triangular matrix.** Unchanged on exit.** TRANS - CHARACTER*1.* On entry, TRANS specifies the operation to be performed as* follows:** TRANS = 'N' or 'n' x := A*x.** TRANS = 'T' or 't' x := A'*x.** TRANS = 'C' or 'c' x := conjg( A' )*x.** Unchanged on exit.** DIAG - CHARACTER*1.* On entry, DIAG specifies whether or not A is unit* triangular as follows:** DIAG = 'U' or 'u' A is assumed to be unit triangular.** DIAG = 'N' or 'n' A is not assumed to be unit* triangular.** Unchanged on exit.** N - INTEGER.* On entry, N specifies the order of the matrix A.* N must be at least zero.* Unchanged on exit.** A - COMPLEX array of DIMENSION ( LDA, n ).* Before entry with UPLO = 'U' or 'u', the leading n by n* upper triangular part of the array A must contain the upper* triangular matrix and the strictly lower triangular part of* A is not referenced.* Before entry with UPLO = 'L' or 'l', the leading n by n* lower triangular part of the array A must contain the lower* triangular matrix and the strictly upper triangular part of* A is not referenced.* Note that when DIAG = 'U' or 'u', the diagonal elements of* A are not referenced either, but are assumed to be unity.* Unchanged on exit.** LDA - INTEGER.* On entry, LDA specifies the first dimension of A as declared* in the calling (sub) program. LDA must be at least* max( 1, n ).* Unchanged on exit.** X - COMPLEX array of dimension at least* ( 1 + ( n - 1 )*abs( INCX ) ).* Before entry, the incremented array X must contain the n* element vector x. On exit, X is overwritten with the* tranformed vector x.** INCX - INTEGER.* On entry, INCX specifies the increment for the elements of* X. INCX must not be zero.* Unchanged on exit.*** Level 2 Blas routine.** -- Written on 22-October-1986.* Jack Dongarra, Argonne National Lab.* Jeremy Du Croz, Nag Central Office.* Sven Hammarling, Nag Central Office.* Richard Hanson, Sandia National Labs.*** .. Parameters .. COMPLEX ZERO PARAMETER (ZERO= (0.0E+0,0.0E+0))* ..* .. Local Scalars .. COMPLEX TEMP INTEGER I,INFO,IX,J,JX,KX LOGICAL NOCONJ,NOUNIT* ..* .. External Functions .. LOGICAL LSAME EXTERNAL LSAME* ..* .. External Subroutines .. EXTERNAL XERBLA* ..* .. Intrinsic Functions .. INTRINSIC CONJG,MAX* ..** Test the input parameters.* INFO = 0 IF (.NOT.LSAME(UPLO,'U') .AND. .NOT.LSAME(UPLO,'L')) THEN INFO = 1 ELSE IF (.NOT.LSAME(TRANS,'N') .AND. .NOT.LSAME(TRANS,'T') .AND. + .NOT.LSAME(TRANS,'C')) THEN INFO = 2 ELSE IF (.NOT.LSAME(DIAG,'U') .AND. .NOT.LSAME(DIAG,'N')) THEN INFO = 3 ELSE IF (N.LT.0) THEN INFO = 4 ELSE IF (LDA.LT.MAX(1,N)) THEN INFO = 6 ELSE IF (INCX.EQ.0) THEN INFO = 8 END IF IF (INFO.NE.0) THEN CALL XERBLA('CTRMV ',INFO) RETURN END IF** Quick return if possible.* IF (N.EQ.0) RETURN* NOCONJ = LSAME(TRANS,'T') NOUNIT = LSAME(DIAG,'N')** Set up the start point in X if the increment is not unity. This* will be ( N - 1 )*INCX too small for descending loops.* IF (INCX.LE.0) THEN KX = 1 - (N-1)*INCX ELSE IF (INCX.NE.1) THEN KX = 1 END IF** Start the operations. In this version the elements of A are* accessed sequentially with one pass through A.* IF (LSAME(TRANS,'N')) THEN** Form x := A*x.* IF (LSAME(UPLO,'U')) THEN IF (INCX.EQ.1) THEN DO 20 J = 1,N IF (X(J).NE.ZERO) THEN TEMP = X(J) DO 10 I = 1,J - 1 X(I) = X(I) + TEMP*A(I,J) 10 CONTINUE IF (NOUNIT) X(J) = X(J)*A(J,J) END IF 20 CONTINUE ELSE JX = KX DO 40 J = 1,N IF (X(JX).NE.ZERO) THEN TEMP = X(JX) IX = KX DO 30 I = 1,J - 1 X(IX) = X(IX) + TEMP*A(I,J) IX = IX + INCX 30 CONTINUE IF (NOUNIT) X(JX) = X(JX)*A(J,J) END IF JX = JX + INCX 40 CONTINUE END IF ELSE IF (INCX.EQ.1) THEN DO 60 J = N,1,-1 IF (X(J).NE.ZERO) THEN TEMP = X(J) DO 50 I = N,J + 1,-1 X(I) = X(I) + TEMP*A(I,J) 50 CONTINUE IF (NOUNIT) X(J) = X(J)*A(J,J) END IF 60 CONTINUE ELSE KX = KX + (N-1)*INCX JX = KX DO 80 J = N,1,-1 IF (X(JX).NE.ZERO) THEN TEMP = X(JX) IX = KX DO 70 I = N,J + 1,-1 X(IX) = X(IX) + TEMP*A(I,J) IX = IX - INCX 70 CONTINUE IF (NOUNIT) X(JX) = X(JX)*A(J,J) END IF JX = JX - INCX 80 CONTINUE END IF END IF ELSE** Form x := A'*x or x := conjg( A' )*x.* IF (LSAME(UPLO,'U')) THEN IF (INCX.EQ.1) THEN DO 110 J = N,1,-1 TEMP = X(J) IF (NOCONJ) THEN IF (NOUNIT) TEMP = TEMP*A(J,J) DO 90 I = J - 1,1,-1 TEMP = TEMP + A(I,J)*X(I) 90 CONTINUE ELSE IF (NOUNIT) TEMP = TEMP*CONJG(A(J,J)) DO 100 I = J - 1,1,-1 TEMP = TEMP + CONJG(A(I,J))*X(I) 100 CONTINUE END IF X(J) = TEMP 110 CONTINUE ELSE JX = KX + (N-1)*INCX DO 140 J = N,1,-1 TEMP = X(JX) IX = JX IF (NOCONJ) THEN IF (NOUNIT) TEMP = TEMP*A(J,J) DO 120 I = J - 1,1,-1 IX = IX - INCX TEMP = TEMP + A(I,J)*X(IX) 120 CONTINUE ELSE IF (NOUNIT) TEMP = TEMP*CONJG(A(J,J)) DO 130 I = J - 1,1,-1 IX = IX - INCX TEMP = TEMP + CONJG(A(I,J))*X(IX) 130 CONTINUE END IF X(JX) = TEMP JX = JX - INCX 140 CONTINUE END IF ELSE IF (INCX.EQ.1) THEN DO 170 J = 1,N TEMP = X(J) IF (NOCONJ) THEN IF (NOUNIT) TEMP = TEMP*A(J,J) DO 150 I = J + 1,N TEMP = TEMP + A(I,J)*X(I) 150 CONTINUE ELSE IF (NOUNIT) TEMP = TEMP*CONJG(A(J,J)) DO 160 I = J + 1,N TEMP = TEMP + CONJG(A(I,J))*X(I) 160 CONTINUE END IF X(J) = TEMP 170 CONTINUE ELSE JX = KX DO 200 J = 1,N TEMP = X(JX) IX = JX IF (NOCONJ) THEN IF (NOUNIT) TEMP = TEMP*A(J,J) DO 180 I = J + 1,N IX = IX + INCX TEMP = TEMP + A(I,J)*X(IX) 180 CONTINUE ELSE IF (NOUNIT) TEMP = TEMP*CONJG(A(J,J)) DO 190 I = J + 1,N IX = IX + INCX TEMP = TEMP + CONJG(A(I,J))*X(IX) 190 CONTINUE END IF X(JX) = TEMP JX = JX + INCX 200 CONTINUE END IF END IF END IF* RETURN** End of CTRMV .* END⌨️ 快捷键说明
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