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END IF
*
* Store details of the interchanges in IPIV
*
IF( KSTEP.EQ.1 ) THEN
IPIV( K ) = KP
ELSE
IPIV( K ) = -KP
IPIV( K-1 ) = -KP
END IF
*
* Decrease K and return to the start of the main loop
*
K = K - KSTEP
GO TO 10
*
30 CONTINUE
*
* Update the upper triangle of A11 (= A(1:k,1:k)) as
*
* A11 := A11 - U12*D*U12' = A11 - U12*W'
*
* computing blocks of NB columns at a time
*
DO 50 J = ( ( K-1 ) / NB )*NB + 1, 1, -NB
JB = MIN( NB, K-J+1 )
*
* Update the upper triangle of the diagonal block
*
DO 40 JJ = J, J + JB - 1
CALL SGEMV( 'No transpose', JJ-J+1, N-K, -ONE,
$ A( J, K+1 ), LDA, W( JJ, KW+1 ), LDW, ONE,
$ A( J, JJ ), 1 )
40 CONTINUE
*
* Update the rectangular superdiagonal block
*
CALL SGEMM( 'No transpose', 'Transpose', J-1, JB, N-K, -ONE,
$ A( 1, K+1 ), LDA, W( J, KW+1 ), LDW, ONE,
$ A( 1, J ), LDA )
50 CONTINUE
*
* Put U12 in standard form by partially undoing the interchanges
* in columns k+1:n
*
J = K + 1
60 CONTINUE
JJ = J
JP = IPIV( J )
IF( JP.LT.0 ) THEN
JP = -JP
J = J + 1
END IF
J = J + 1
IF( JP.NE.JJ .AND. J.LE.N )
$ CALL SSWAP( N-J+1, A( JP, J ), LDA, A( JJ, J ), LDA )
IF( J.LE.N )
$ GO TO 60
*
* Set KB to the number of columns factorized
*
KB = N - K
*
ELSE
*
* Factorize the leading columns of A using the lower triangle
* of A and working forwards, and compute the matrix W = L21*D
* for use in updating A22
*
* K is the main loop index, increasing from 1 in steps of 1 or 2
*
K = 1
70 CONTINUE
*
* Exit from loop
*
IF( ( K.GE.NB .AND. NB.LT.N ) .OR. K.GT.N )
$ GO TO 90
*
* Copy column K of A to column K of W and update it
*
CALL SCOPY( N-K+1, A( K, K ), 1, W( K, K ), 1 )
CALL SGEMV( 'No transpose', N-K+1, K-1, -ONE, A( K, 1 ), LDA,
$ W( K, 1 ), LDW, ONE, W( K, K ), 1 )
*
KSTEP = 1
*
* Determine rows and columns to be interchanged and whether
* a 1-by-1 or 2-by-2 pivot block will be used
*
ABSAKK = ABS( W( K, K ) )
*
* IMAX is the row-index of the largest off-diagonal element in
* column K, and COLMAX is its absolute value
*
IF( K.LT.N ) THEN
IMAX = K + ISAMAX( N-K, W( K+1, K ), 1 )
COLMAX = ABS( W( IMAX, K ) )
ELSE
COLMAX = ZERO
END IF
*
IF( MAX( ABSAKK, COLMAX ).EQ.ZERO ) THEN
*
* Column K is zero: set INFO and continue
*
IF( INFO.EQ.0 )
$ INFO = K
KP = K
ELSE
IF( ABSAKK.GE.ALPHA*COLMAX ) THEN
*
* no interchange, use 1-by-1 pivot block
*
KP = K
ELSE
*
* Copy column IMAX to column K+1 of W and update it
*
CALL SCOPY( IMAX-K, A( IMAX, K ), LDA, W( K, K+1 ), 1 )
CALL SCOPY( N-IMAX+1, A( IMAX, IMAX ), 1, W( IMAX, K+1 ),
$ 1 )
CALL SGEMV( 'No transpose', N-K+1, K-1, -ONE, A( K, 1 ),
$ LDA, W( IMAX, 1 ), LDW, ONE, W( K, K+1 ), 1 )
*
* JMAX is the column-index of the largest off-diagonal
* element in row IMAX, and ROWMAX is its absolute value
*
JMAX = K - 1 + ISAMAX( IMAX-K, W( K, K+1 ), 1 )
ROWMAX = ABS( W( JMAX, K+1 ) )
IF( IMAX.LT.N ) THEN
JMAX = IMAX + ISAMAX( N-IMAX, W( IMAX+1, K+1 ), 1 )
ROWMAX = MAX( ROWMAX, ABS( W( JMAX, K+1 ) ) )
END IF
*
IF( ABSAKK.GE.ALPHA*COLMAX*( COLMAX / ROWMAX ) ) THEN
*
* no interchange, use 1-by-1 pivot block
*
KP = K
ELSE IF( ABS( W( IMAX, K+1 ) ).GE.ALPHA*ROWMAX ) THEN
*
* interchange rows and columns K and IMAX, use 1-by-1
* pivot block
*
KP = IMAX
*
* copy column K+1 of W to column K
*
CALL SCOPY( N-K+1, W( K, K+1 ), 1, W( K, K ), 1 )
ELSE
*
* interchange rows and columns K+1 and IMAX, use 2-by-2
* pivot block
*
KP = IMAX
KSTEP = 2
END IF
END IF
*
KK = K + KSTEP - 1
*
* Updated column KP is already stored in column KK of W
*
IF( KP.NE.KK ) THEN
*
* Copy non-updated column KK to column KP
*
A( KP, K ) = A( KK, K )
CALL SCOPY( KP-K-1, A( K+1, KK ), 1, A( KP, K+1 ), LDA )
CALL SCOPY( N-KP+1, A( KP, KK ), 1, A( KP, KP ), 1 )
*
* Interchange rows KK and KP in first KK columns of A and W
*
CALL SSWAP( KK, A( KK, 1 ), LDA, A( KP, 1 ), LDA )
CALL SSWAP( KK, W( KK, 1 ), LDW, W( KP, 1 ), LDW )
END IF
*
IF( KSTEP.EQ.1 ) THEN
*
* 1-by-1 pivot block D(k): column k of W now holds
*
* W(k) = L(k)*D(k)
*
* where L(k) is the k-th column of L
*
* Store L(k) in column k of A
*
CALL SCOPY( N-K+1, W( K, K ), 1, A( K, K ), 1 )
IF( K.LT.N ) THEN
R1 = ONE / A( K, K )
CALL SSCAL( N-K, R1, A( K+1, K ), 1 )
END IF
ELSE
*
* 2-by-2 pivot block D(k): columns k and k+1 of W now hold
*
* ( W(k) W(k+1) ) = ( L(k) L(k+1) )*D(k)
*
* where L(k) and L(k+1) are the k-th and (k+1)-th columns
* of L
*
IF( K.LT.N-1 ) THEN
*
* Store L(k) and L(k+1) in columns k and k+1 of A
*
D21 = W( K+1, K )
D11 = W( K+1, K+1 ) / D21
D22 = W( K, K ) / D21
T = ONE / ( D11*D22-ONE )
D21 = T / D21
DO 80 J = K + 2, N
A( J, K ) = D21*( D11*W( J, K )-W( J, K+1 ) )
A( J, K+1 ) = D21*( D22*W( J, K+1 )-W( J, K ) )
80 CONTINUE
END IF
*
* Copy D(k) to A
*
A( K, K ) = W( K, K )
A( K+1, K ) = W( K+1, K )
A( K+1, K+1 ) = W( K+1, K+1 )
END IF
END IF
*
* Store details of the interchanges in IPIV
*
IF( KSTEP.EQ.1 ) THEN
IPIV( K ) = KP
ELSE
IPIV( K ) = -KP
IPIV( K+1 ) = -KP
END IF
*
* Increase K and return to the start of the main loop
*
K = K + KSTEP
GO TO 70
*
90 CONTINUE
*
* Update the lower triangle of A22 (= A(k:n,k:n)) as
*
* A22 := A22 - L21*D*L21' = A22 - L21*W'
*
* computing blocks of NB columns at a time
*
DO 110 J = K, N, NB
JB = MIN( NB, N-J+1 )
*
* Update the lower triangle of the diagonal block
*
DO 100 JJ = J, J + JB - 1
CALL SGEMV( 'No transpose', J+JB-JJ, K-1, -ONE,
$ A( JJ, 1 ), LDA, W( JJ, 1 ), LDW, ONE,
$ A( JJ, JJ ), 1 )
100 CONTINUE
*
* Update the rectangular subdiagonal block
*
IF( J+JB.LE.N )
$ CALL SGEMM( 'No transpose', 'Transpose', N-J-JB+1, JB,
$ K-1, -ONE, A( J+JB, 1 ), LDA, W( J, 1 ), LDW,
$ ONE, A( J+JB, J ), LDA )
110 CONTINUE
*
* Put L21 in standard form by partially undoing the interchanges
* in columns 1:k-1
*
J = K - 1
120 CONTINUE
JJ = J
JP = IPIV( J )
IF( JP.LT.0 ) THEN
JP = -JP
J = J - 1
END IF
J = J - 1
IF( JP.NE.JJ .AND. J.GE.1 )
$ CALL SSWAP( J, A( JP, 1 ), LDA, A( JJ, 1 ), LDA )
IF( J.GE.1 )
$ GO TO 120
*
* Set KB to the number of columns factorized
*
KB = K - 1
*
END IF
RETURN
*
* End of SLASYF
*
END
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