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	*> \brief \b DORMQR
	*
	* =========== DOCUMENTATION ===========
	*
	* Online html documentation available at
	* http://www.netlib.org/lapack/explore-html/
	*
	*> \htmlonly
	*> Download DORMQR + dependencies
	*> <a href="http://www.netlib.org/cgi-bin/netlibfiles.tgz?format=tgz&filename=/lapack/lapack_routine/dormqr.f">
	*> [TGZ]</a>
	*> <a href="http://www.netlib.org/cgi-bin/netlibfiles.zip?format=zip&filename=/lapack/lapack_routine/dormqr.f">
	*> [ZIP]</a>
	*> <a href="http://www.netlib.org/cgi-bin/netlibfiles.txt?format=txt&filename=/lapack/lapack_routine/dormqr.f">
	*> [TXT]</a>
	*> \endhtmlonly
	*
	* Definition:
	* ===========
	*
	* SUBROUTINE DORMQR( SIDE, TRANS, M, N, K, A, LDA, TAU, C, LDC,
	* WORK, LWORK, INFO )
	*
	* .. Scalar Arguments ..
	* CHARACTER SIDE, TRANS
	* INTEGER INFO, K, LDA, LDC, LWORK, M, N
	* ..
	* .. Array Arguments ..
	* DOUBLE PRECISION A( LDA, * ), C( LDC, * ), TAU( * ), WORK( * )
	* ..
	*
	*
	*> \par Purpose:
	* =============
	*>
	*> \verbatim
	*>
	*> DORMQR overwrites the general real M-by-N matrix C with
	*>
	*> SIDE = 'L' SIDE = 'R'
	> TRANS = 'N': Q C C * Q
	> TRANS = 'T': QT C C * Q**T
	*>
	*> where Q is a real orthogonal matrix defined as the product of k
	*> elementary reflectors
	*>
	*> Q = H(1) H(2) . . . H(k)
	*>
	*> as returned by DGEQRF. Q is of order M if SIDE = 'L' and of order N
	*> if SIDE = 'R'.
	*> \endverbatim
	*
	* Arguments:
	* ==========
	*
	*> \param[in] SIDE
	*> \verbatim
	> SIDE is CHARACTER1
	> = 'L': apply Q or Q*T from the Left;
	> = 'R': apply Q or Q*T from the Right.
	*> \endverbatim
	*>
	*> \param[in] TRANS
	*> \verbatim
	> TRANS is CHARACTER1
	*> = 'N': No transpose, apply Q;
	> = 'T': Transpose, apply Q*T.
	*> \endverbatim
	*>
	*> \param[in] M
	*> \verbatim
	*> M is INTEGER
	*> The number of rows of the matrix C. M >= 0.
	*> \endverbatim
	*>
	*> \param[in] N
	*> \verbatim
	*> N is INTEGER
	*> The number of columns of the matrix C. N >= 0.
	*> \endverbatim
	*>
	*> \param[in] K
	*> \verbatim
	*> K is INTEGER
	*> The number of elementary reflectors whose product defines
	*> the matrix Q.
	*> If SIDE = 'L', M >= K >= 0;
	*> if SIDE = 'R', N >= K >= 0.
	*> \endverbatim
	*>
	*> \param[in] A
	*> \verbatim
	*> A is DOUBLE PRECISION array, dimension (LDA,K)
	*> The i-th column must contain the vector which defines the
	*> elementary reflector H(i), for i = 1,2,...,k, as returned by
	*> DGEQRF in the first k columns of its array argument A.
	*> \endverbatim
	*>
	*> \param[in] LDA
	*> \verbatim
	*> LDA is INTEGER
	*> The leading dimension of the array A.
	*> If SIDE = 'L', LDA >= max(1,M);
	*> if SIDE = 'R', LDA >= max(1,N).
	*> \endverbatim
	*>
	*> \param[in] TAU
	*> \verbatim
	*> TAU is DOUBLE PRECISION array, dimension (K)
	*> TAU(i) must contain the scalar factor of the elementary
	*> reflector H(i), as returned by DGEQRF.
	*> \endverbatim
	*>
	*> \param[in,out] C
	*> \verbatim
	*> C is DOUBLE PRECISION array, dimension (LDC,N)
	*> On entry, the M-by-N matrix C.
	> On exit, C is overwritten by QC or Q*TC or CQT or CQ.
	*> \endverbatim
	*>
	*> \param[in] LDC
	*> \verbatim
	*> LDC is INTEGER
	*> The leading dimension of the array C. LDC >= max(1,M).
	*> \endverbatim
	*>
	*> \param[out] WORK
	*> \verbatim
	*> WORK is DOUBLE PRECISION array, dimension (MAX(1,LWORK))
	*> On exit, if INFO = 0, WORK(1) returns the optimal LWORK.
	*> \endverbatim
	*>
	*> \param[in] LWORK
	*> \verbatim
	*> LWORK is INTEGER
	*> The dimension of the array WORK.
	*> If SIDE = 'L', LWORK >= max(1,N);
	*> if SIDE = 'R', LWORK >= max(1,M).
	> For optimum performance LWORK >= NNB if SIDE = 'L', and
	> LWORK >= MNB if SIDE = 'R', where NB is the optimal
	*> blocksize.
	*>
	*> If LWORK = -1, then a workspace query is assumed; the routine
	*> only calculates the optimal size of the WORK array, returns
	*> this value as the first entry of the WORK array, and no error
	*> message related to LWORK is issued by XERBLA.
	*> \endverbatim
	*>
	*> \param[out] INFO
	*> \verbatim
	*> INFO is INTEGER
	*> = 0: successful exit
	*> < 0: if INFO = -i, the i-th argument had an illegal value
	*> \endverbatim
	*
	* Authors:
	* ========
	*
	*> \author Univ. of Tennessee
	*> \author Univ. of California Berkeley
	*> \author Univ. of Colorado Denver
	*> \author NAG Ltd.
	*
	*> \date November 2011
	*
	*> \ingroup doubleOTHERcomputational
	*
	* =====================================================================
	SUBROUTINE DORMQR( SIDE, TRANS, M, N, K, A, LDA, TAU, C, LDC,
	$ WORK, LWORK, INFO )
	*
	* -- LAPACK computational routine (version 3.4.0) --
	* -- LAPACK is a software package provided by Univ. of Tennessee, --
	* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
	* November 2011
	*
	* .. Scalar Arguments ..
	CHARACTER SIDE, TRANS
	INTEGER INFO, K, LDA, LDC, LWORK, M, N
	* ..
	* .. Array Arguments ..
	DOUBLE PRECISION A( LDA, * ), C( LDC, * ), TAU( * ), WORK( * )
	* ..
	*
	* =====================================================================
	*
	* .. Parameters ..
	INTEGER NBMAX, LDT
	PARAMETER ( NBMAX = 64, LDT = NBMAX+1 )
	* ..
	* .. Local Scalars ..
	LOGICAL LEFT, LQUERY, NOTRAN
	INTEGER I, I1, I2, I3, IB, IC, IINFO, IWS, JC, LDWORK,
	$ LWKOPT, MI, NB, NBMIN, NI, NQ, NW
	* ..
	* .. Local Arrays ..
	DOUBLE PRECISION T( LDT, NBMAX )
	* ..
	* .. External Functions ..
	LOGICAL LSAME
	INTEGER ILAENV
	EXTERNAL LSAME, ILAENV
	* ..
	* .. External Subroutines ..
	EXTERNAL DLARFB, DLARFT, DORM2R, XERBLA
	* ..
	* .. Intrinsic Functions ..
	INTRINSIC MAX, MIN
	* ..
	* .. Executable Statements ..
	*
	* Test the input arguments
	*
	INFO = 0
	LEFT = LSAME( SIDE, 'L' )
	NOTRAN = LSAME( TRANS, 'N' )
	LQUERY = ( LWORK.EQ.-1 )
	*
	* NQ is the order of Q and NW is the minimum dimension of WORK
	*
	IF( LEFT ) THEN
	NQ = M
	NW = N
	ELSE
	NQ = N
	NW = M
	END IF
	IF( .NOT.LEFT .AND. .NOT.LSAME( SIDE, 'R' ) ) THEN
	INFO = -1
	ELSE IF( .NOT.NOTRAN .AND. .NOT.LSAME( TRANS, 'T' ) ) THEN
	INFO = -2
	ELSE IF( M.LT.0 ) THEN
	INFO = -3
	ELSE IF( N.LT.0 ) THEN
	INFO = -4
	ELSE IF( K.LT.0 .OR. K.GT.NQ ) THEN
	INFO = -5
	ELSE IF( LDA.LT.MAX( 1, NQ ) ) THEN
	INFO = -7
	ELSE IF( LDC.LT.MAX( 1, M ) ) THEN
	INFO = -10
	ELSE IF( LWORK.LT.MAX( 1, NW ) .AND. .NOT.LQUERY ) THEN
	INFO = -12
	END IF
	*
	IF( INFO.EQ.0 ) THEN
	*
	* Determine the block size. NB may be at most NBMAX, where NBMAX
	* is used to define the local array T.
	*
	NB = MIN( NBMAX, ILAENV( 1, 'DORMQR', SIDE // TRANS, M, N, K,
	$ -1 ) )
	LWKOPT = MAX( 1, NW )*NB
	WORK( 1 ) = LWKOPT
	END IF
	*
	IF( INFO.NE.0 ) THEN
	CALL XERBLA( 'DORMQR', -INFO )
	RETURN
	ELSE IF( LQUERY ) THEN
	RETURN
	END IF
	*
	* Quick return if possible
	*
	IF( M.EQ.0 .OR. N.EQ.0 .OR. K.EQ.0 ) THEN
	WORK( 1 ) = 1
	RETURN
	END IF
	*
	NBMIN = 2
	LDWORK = NW
	IF( NB.GT.1 .AND. NB.LT.K ) THEN
	IWS = NW*NB
	IF( LWORK.LT.IWS ) THEN
	NB = LWORK / LDWORK
	NBMIN = MAX( 2, ILAENV( 2, 'DORMQR', SIDE // TRANS, M, N, K,
	$ -1 ) )
	END IF
	ELSE
	IWS = NW
	END IF
	*
	IF( NB.LT.NBMIN .OR. NB.GE.K ) THEN
	*
	* Use unblocked code
	*
	CALL DORM2R( SIDE, TRANS, M, N, K, A, LDA, TAU, C, LDC, WORK,
	$ IINFO )
	ELSE
	*
	* Use blocked code
	*
	IF( ( LEFT .AND. .NOT.NOTRAN ) .OR.
	$ ( .NOT.LEFT .AND. NOTRAN ) ) THEN
	I1 = 1
	I2 = K
	I3 = NB
	ELSE
	I1 = ( ( K-1 ) / NB )*NB + 1
	I2 = 1
	I3 = -NB
	END IF
	*
	IF( LEFT ) THEN
	NI = N
	JC = 1
	ELSE
	MI = M
	IC = 1
	END IF
	*
	DO 10 I = I1, I2, I3
	IB = MIN( NB, K-I+1 )
	*
	* Form the triangular factor of the block reflector
	* H = H(i) H(i+1) . . . H(i+ib-1)
	*
	CALL DLARFT( 'Forward', 'Columnwise', NQ-I+1, IB, A( I, I ),
	$ LDA, TAU( I ), T, LDT )
	IF( LEFT ) THEN
	*
	* H or H**T is applied to C(i:m,1:n)
	*
	MI = M - I + 1
	IC = I
	ELSE
	*
	* H or H**T is applied to C(1:m,i:n)
	*
	NI = N - I + 1
	JC = I
	END IF
	*
	* Apply H or H**T
	*
	CALL DLARFB( SIDE, TRANS, 'Forward', 'Columnwise', MI, NI,
	$ IB, A( I, I ), LDA, T, LDT, C( IC, JC ), LDC,
	$ WORK, LDWORK )
	10 CONTINUE
	END IF
	WORK( 1 ) = LWKOPT
	RETURN
	*
	* End of DORMQR
	*
	END

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