/dports/math/xlife++/xlifepp-sources-v2.0.1-2018-05-09/ext/LAPACKBLAS/SRC/ |
H A D | cgesvxx.f | 581 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 609 COLEQU = .FALSE. 612 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 638 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 656 IF( COLEQU .AND. INFO.EQ.0 ) THEN 698 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 708 IF ( .NOT.COLEQU ) THEN 720 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 762 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | zgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL ZLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 581 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 609 COLEQU = .FALSE. 612 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 638 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 656 IF( COLEQU .AND. INFO.EQ.0 ) THEN 698 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 708 IF ( .NOT.COLEQU ) THEN 720 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 762 IF ( COLEQU .AND. NOTRAN ) THEN
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/dports/math/xlapack/lapack-3.10.0/SRC/ |
H A D | dgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL DLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | zgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL ZLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | cgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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/dports/math/blas/lapack-3.10.0/SRC/ |
H A D | dgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL DLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | zgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL ZLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | cgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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/dports/math/lapack/lapack-3.10.0/SRC/ |
H A D | zgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL ZLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | cgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | dgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL DLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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/dports/math/lapacke/lapack-3.10.0/SRC/ |
H A D | dgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL DLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | cgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | zgesvxx.f | 575 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 603 COLEQU = .FALSE. 606 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 632 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 650 IF( COLEQU .AND. INFO.EQ.0 ) THEN 692 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 702 IF ( .NOT.COLEQU ) THEN 714 IF( COLEQU ) CALL ZLASCL2( N, NRHS, C, B, LDB ) 756 IF ( COLEQU .AND. NOTRAN ) THEN
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/dports/math/openblas/OpenBLAS-0.3.18/lapack-netlib/SRC/ |
H A D | cgesvxx.f | 581 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU local 609 COLEQU = .FALSE. 612 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 638 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 656 IF( COLEQU .AND. INFO.EQ.0 ) THEN 698 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 708 IF ( .NOT.COLEQU ) THEN 720 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 762 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | dgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU local 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL DLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 581 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU local 609 COLEQU = .FALSE. 612 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 638 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 656 IF( COLEQU .AND. INFO.EQ.0 ) THEN 698 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 708 IF ( .NOT.COLEQU ) THEN 720 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 762 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | zgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU local 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL ZLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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/dports/math/cblas/lapack-3.10.0/SRC/ |
H A D | cgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL CLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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H A D | sgesvxx.f | 578 LOGICAL COLEQU, EQUIL, NOFACT, NOTRAN, ROWEQU 606 COLEQU = .FALSE. 609 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 635 $ ( ROWEQU .OR. COLEQU .OR. LSAME( EQUED, 'N' ) ) ) THEN 653 IF( COLEQU .AND. INFO.EQ.0 ) THEN 695 COLEQU = LSAME( EQUED, 'C' ) .OR. LSAME( EQUED, 'B' ) 705 IF ( .NOT.COLEQU ) THEN 717 IF( COLEQU ) CALL SLASCL2( N, NRHS, C, B, LDB ) 759 IF ( COLEQU .AND. NOTRAN ) THEN
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