diff options
Diffstat (limited to '2.3-1/src/fortran/lapack/dtrexc.f')
-rw-r--r-- | 2.3-1/src/fortran/lapack/dtrexc.f | 345 |
1 files changed, 345 insertions, 0 deletions
diff --git a/2.3-1/src/fortran/lapack/dtrexc.f b/2.3-1/src/fortran/lapack/dtrexc.f new file mode 100644 index 00000000..db9be753 --- /dev/null +++ b/2.3-1/src/fortran/lapack/dtrexc.f @@ -0,0 +1,345 @@ + SUBROUTINE DTREXC( COMPQ, N, T, LDT, Q, LDQ, IFST, ILST, WORK, + $ INFO ) +* +* -- LAPACK routine (version 3.1) -- +* Univ. of Tennessee, Univ. of California Berkeley and NAG Ltd.. +* November 2006 +* +* .. Scalar Arguments .. + CHARACTER COMPQ + INTEGER IFST, ILST, INFO, LDQ, LDT, N +* .. +* .. Array Arguments .. + DOUBLE PRECISION Q( LDQ, * ), T( LDT, * ), WORK( * ) +* .. +* +* Purpose +* ======= +* +* DTREXC reorders the real Schur factorization of a real matrix +* A = Q*T*Q**T, so that the diagonal block of T with row index IFST is +* moved to row ILST. +* +* The real Schur form T is reordered by an orthogonal similarity +* transformation Z**T*T*Z, and optionally the matrix Q of Schur vectors +* is updated by postmultiplying it with Z. +* +* T must be in Schur canonical form (as returned by DHSEQR), that is, +* block upper triangular with 1-by-1 and 2-by-2 diagonal blocks; each +* 2-by-2 diagonal block has its diagonal elements equal and its +* off-diagonal elements of opposite sign. +* +* Arguments +* ========= +* +* COMPQ (input) CHARACTER*1 +* = 'V': update the matrix Q of Schur vectors; +* = 'N': do not update Q. +* +* N (input) INTEGER +* The order of the matrix T. N >= 0. +* +* T (input/output) DOUBLE PRECISION array, dimension (LDT,N) +* On entry, the upper quasi-triangular matrix T, in Schur +* Schur canonical form. +* On exit, the reordered upper quasi-triangular matrix, again +* in Schur canonical form. +* +* LDT (input) INTEGER +* The leading dimension of the array T. LDT >= max(1,N). +* +* Q (input/output) DOUBLE PRECISION array, dimension (LDQ,N) +* On entry, if COMPQ = 'V', the matrix Q of Schur vectors. +* On exit, if COMPQ = 'V', Q has been postmultiplied by the +* orthogonal transformation matrix Z which reorders T. +* If COMPQ = 'N', Q is not referenced. +* +* LDQ (input) INTEGER +* The leading dimension of the array Q. LDQ >= max(1,N). +* +* IFST (input/output) INTEGER +* ILST (input/output) INTEGER +* Specify the reordering of the diagonal blocks of T. +* The block with row index IFST is moved to row ILST, by a +* sequence of transpositions between adjacent blocks. +* On exit, if IFST pointed on entry to the second row of a +* 2-by-2 block, it is changed to point to the first row; ILST +* always points to the first row of the block in its final +* position (which may differ from its input value by +1 or -1). +* 1 <= IFST <= N; 1 <= ILST <= N. +* +* WORK (workspace) DOUBLE PRECISION array, dimension (N) +* +* INFO (output) INTEGER +* = 0: successful exit +* < 0: if INFO = -i, the i-th argument had an illegal value +* = 1: two adjacent blocks were too close to swap (the problem +* is very ill-conditioned); T may have been partially +* reordered, and ILST points to the first row of the +* current position of the block being moved. +* +* ===================================================================== +* +* .. Parameters .. + DOUBLE PRECISION ZERO + PARAMETER ( ZERO = 0.0D+0 ) +* .. +* .. Local Scalars .. + LOGICAL WANTQ + INTEGER HERE, NBF, NBL, NBNEXT +* .. +* .. External Functions .. + LOGICAL LSAME + EXTERNAL LSAME +* .. +* .. External Subroutines .. + EXTERNAL DLAEXC, XERBLA +* .. +* .. Intrinsic Functions .. + INTRINSIC MAX +* .. +* .. Executable Statements .. +* +* Decode and test the input arguments. +* + INFO = 0 + WANTQ = LSAME( COMPQ, 'V' ) + IF( .NOT.WANTQ .AND. .NOT.LSAME( COMPQ, 'N' ) ) THEN + INFO = -1 + ELSE IF( N.LT.0 ) THEN + INFO = -2 + ELSE IF( LDT.LT.MAX( 1, N ) ) THEN + INFO = -4 + ELSE IF( LDQ.LT.1 .OR. ( WANTQ .AND. LDQ.LT.MAX( 1, N ) ) ) THEN + INFO = -6 + ELSE IF( IFST.LT.1 .OR. IFST.GT.N ) THEN + INFO = -7 + ELSE IF( ILST.LT.1 .OR. ILST.GT.N ) THEN + INFO = -8 + END IF + IF( INFO.NE.0 ) THEN + CALL XERBLA( 'DTREXC', -INFO ) + RETURN + END IF +* +* Quick return if possible +* + IF( N.LE.1 ) + $ RETURN +* +* Determine the first row of specified block +* and find out it is 1 by 1 or 2 by 2. +* + IF( IFST.GT.1 ) THEN + IF( T( IFST, IFST-1 ).NE.ZERO ) + $ IFST = IFST - 1 + END IF + NBF = 1 + IF( IFST.LT.N ) THEN + IF( T( IFST+1, IFST ).NE.ZERO ) + $ NBF = 2 + END IF +* +* Determine the first row of the final block +* and find out it is 1 by 1 or 2 by 2. +* + IF( ILST.GT.1 ) THEN + IF( T( ILST, ILST-1 ).NE.ZERO ) + $ ILST = ILST - 1 + END IF + NBL = 1 + IF( ILST.LT.N ) THEN + IF( T( ILST+1, ILST ).NE.ZERO ) + $ NBL = 2 + END IF +* + IF( IFST.EQ.ILST ) + $ RETURN +* + IF( IFST.LT.ILST ) THEN +* +* Update ILST +* + IF( NBF.EQ.2 .AND. NBL.EQ.1 ) + $ ILST = ILST - 1 + IF( NBF.EQ.1 .AND. NBL.EQ.2 ) + $ ILST = ILST + 1 +* + HERE = IFST +* + 10 CONTINUE +* +* Swap block with next one below +* + IF( NBF.EQ.1 .OR. NBF.EQ.2 ) THEN +* +* Current block either 1 by 1 or 2 by 2 +* + NBNEXT = 1 + IF( HERE+NBF+1.LE.N ) THEN + IF( T( HERE+NBF+1, HERE+NBF ).NE.ZERO ) + $ NBNEXT = 2 + END IF + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE, NBF, NBNEXT, + $ WORK, INFO ) + IF( INFO.NE.0 ) THEN + ILST = HERE + RETURN + END IF + HERE = HERE + NBNEXT +* +* Test if 2 by 2 block breaks into two 1 by 1 blocks +* + IF( NBF.EQ.2 ) THEN + IF( T( HERE+1, HERE ).EQ.ZERO ) + $ NBF = 3 + END IF +* + ELSE +* +* Current block consists of two 1 by 1 blocks each of which +* must be swapped individually +* + NBNEXT = 1 + IF( HERE+3.LE.N ) THEN + IF( T( HERE+3, HERE+2 ).NE.ZERO ) + $ NBNEXT = 2 + END IF + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE+1, 1, NBNEXT, + $ WORK, INFO ) + IF( INFO.NE.0 ) THEN + ILST = HERE + RETURN + END IF + IF( NBNEXT.EQ.1 ) THEN +* +* Swap two 1 by 1 blocks, no problems possible +* + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE, 1, NBNEXT, + $ WORK, INFO ) + HERE = HERE + 1 + ELSE +* +* Recompute NBNEXT in case 2 by 2 split +* + IF( T( HERE+2, HERE+1 ).EQ.ZERO ) + $ NBNEXT = 1 + IF( NBNEXT.EQ.2 ) THEN +* +* 2 by 2 Block did not split +* + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE, 1, + $ NBNEXT, WORK, INFO ) + IF( INFO.NE.0 ) THEN + ILST = HERE + RETURN + END IF + HERE = HERE + 2 + ELSE +* +* 2 by 2 Block did split +* + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE, 1, 1, + $ WORK, INFO ) + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE+1, 1, 1, + $ WORK, INFO ) + HERE = HERE + 2 + END IF + END IF + END IF + IF( HERE.LT.ILST ) + $ GO TO 10 +* + ELSE +* + HERE = IFST + 20 CONTINUE +* +* Swap block with next one above +* + IF( NBF.EQ.1 .OR. NBF.EQ.2 ) THEN +* +* Current block either 1 by 1 or 2 by 2 +* + NBNEXT = 1 + IF( HERE.GE.3 ) THEN + IF( T( HERE-1, HERE-2 ).NE.ZERO ) + $ NBNEXT = 2 + END IF + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE-NBNEXT, NBNEXT, + $ NBF, WORK, INFO ) + IF( INFO.NE.0 ) THEN + ILST = HERE + RETURN + END IF + HERE = HERE - NBNEXT +* +* Test if 2 by 2 block breaks into two 1 by 1 blocks +* + IF( NBF.EQ.2 ) THEN + IF( T( HERE+1, HERE ).EQ.ZERO ) + $ NBF = 3 + END IF +* + ELSE +* +* Current block consists of two 1 by 1 blocks each of which +* must be swapped individually +* + NBNEXT = 1 + IF( HERE.GE.3 ) THEN + IF( T( HERE-1, HERE-2 ).NE.ZERO ) + $ NBNEXT = 2 + END IF + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE-NBNEXT, NBNEXT, + $ 1, WORK, INFO ) + IF( INFO.NE.0 ) THEN + ILST = HERE + RETURN + END IF + IF( NBNEXT.EQ.1 ) THEN +* +* Swap two 1 by 1 blocks, no problems possible +* + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE, NBNEXT, 1, + $ WORK, INFO ) + HERE = HERE - 1 + ELSE +* +* Recompute NBNEXT in case 2 by 2 split +* + IF( T( HERE, HERE-1 ).EQ.ZERO ) + $ NBNEXT = 1 + IF( NBNEXT.EQ.2 ) THEN +* +* 2 by 2 Block did not split +* + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE-1, 2, 1, + $ WORK, INFO ) + IF( INFO.NE.0 ) THEN + ILST = HERE + RETURN + END IF + HERE = HERE - 2 + ELSE +* +* 2 by 2 Block did split +* + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE, 1, 1, + $ WORK, INFO ) + CALL DLAEXC( WANTQ, N, T, LDT, Q, LDQ, HERE-1, 1, 1, + $ WORK, INFO ) + HERE = HERE - 2 + END IF + END IF + END IF + IF( HERE.GT.ILST ) + $ GO TO 20 + END IF + ILST = HERE +* + RETURN +* +* End of DTREXC +* + END |