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725 lines
31 KiB
Fortran
725 lines
31 KiB
Fortran
*> \brief \b CBLAT1
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*
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* =========== DOCUMENTATION ===========
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*
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* Online html documentation available at
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* http://www.netlib.org/lapack/explore-html/
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*
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* Definition:
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* ===========
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*
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* PROGRAM CBLAT1
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*
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*
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*> \par Purpose:
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* =============
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*>
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*> \verbatim
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*>
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*> Test program for the COMPLEX Level 1 BLAS.
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*> Based upon the original BLAS test routine together with:
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*>
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*> F06GAF Example Program Text
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*> \endverbatim
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*
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* Authors:
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* ========
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*
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*> \author Univ. of Tennessee
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*> \author Univ. of California Berkeley
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*> \author Univ. of Colorado Denver
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*> \author NAG Ltd.
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*
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*> \date April 2012
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*
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*> \ingroup complex_blas_testing
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*
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* =====================================================================
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PROGRAM CBLAT1
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*
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* -- Reference BLAS test routine (version 3.4.1) --
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* -- Reference BLAS is a software package provided by Univ. of Tennessee, --
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* -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
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* April 2012
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*
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* =====================================================================
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*
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* .. Parameters ..
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INTEGER NOUT
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PARAMETER (NOUT=6)
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* .. Scalars in Common ..
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INTEGER ICASE, INCX, INCY, MODE, N
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LOGICAL PASS
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* .. Local Scalars ..
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REAL SFAC
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INTEGER IC
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* .. External Subroutines ..
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EXTERNAL CHECK1, CHECK2, HEADER
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* .. Common blocks ..
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COMMON /COMBLA/ICASE, N, INCX, INCY, MODE, PASS
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* .. Data statements ..
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DATA SFAC/9.765625E-4/
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* .. Executable Statements ..
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WRITE (NOUT,99999)
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DO 20 IC = 1, 10
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ICASE = IC
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CALL HEADER
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*
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* Initialize PASS, INCX, INCY, and MODE for a new case.
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* The value 9999 for INCX, INCY or MODE will appear in the
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* detailed output, if any, for cases that do not involve
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* these parameters.
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*
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PASS = .TRUE.
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INCX = 9999
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INCY = 9999
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MODE = 9999
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IF (ICASE.LE.5) THEN
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CALL CHECK2(SFAC)
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ELSE IF (ICASE.GE.6) THEN
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CALL CHECK1(SFAC)
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END IF
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* -- Print
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IF (PASS) WRITE (NOUT,99998)
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20 CONTINUE
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STOP
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*
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99999 FORMAT (' Complex BLAS Test Program Results',/1X)
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99998 FORMAT (' ----- PASS -----')
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END
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SUBROUTINE HEADER
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* .. Parameters ..
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INTEGER NOUT
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PARAMETER (NOUT=6)
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* .. Scalars in Common ..
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INTEGER ICASE, INCX, INCY, MODE, N
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LOGICAL PASS
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* .. Local Arrays ..
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CHARACTER*6 L(10)
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* .. Common blocks ..
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COMMON /COMBLA/ICASE, N, INCX, INCY, MODE, PASS
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* .. Data statements ..
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DATA L(1)/'CDOTC '/
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DATA L(2)/'CDOTU '/
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DATA L(3)/'CAXPY '/
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DATA L(4)/'CCOPY '/
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DATA L(5)/'CSWAP '/
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DATA L(6)/'SCNRM2'/
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DATA L(7)/'SCASUM'/
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DATA L(8)/'CSCAL '/
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DATA L(9)/'CSSCAL'/
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DATA L(10)/'ICAMAX'/
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* .. Executable Statements ..
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WRITE (NOUT,99999) ICASE, L(ICASE)
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RETURN
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*
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99999 FORMAT (/' Test of subprogram number',I3,12X,A6)
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END
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SUBROUTINE CHECK1(SFAC)
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* .. Parameters ..
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INTEGER NOUT
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PARAMETER (NOUT=6)
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* .. Scalar Arguments ..
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REAL SFAC
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* .. Scalars in Common ..
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INTEGER ICASE, INCX, INCY, MODE, N
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LOGICAL PASS
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* .. Local Scalars ..
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COMPLEX CA
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REAL SA
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INTEGER I, J, LEN, NP1
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* .. Local Arrays ..
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COMPLEX CTRUE5(8,5,2), CTRUE6(8,5,2), CV(8,5,2), CX(8),
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+ MWPCS(5), MWPCT(5)
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REAL STRUE2(5), STRUE4(5)
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INTEGER ITRUE3(5)
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* .. External Functions ..
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REAL SCASUM, SCNRM2
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INTEGER ICAMAX
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EXTERNAL SCASUM, SCNRM2, ICAMAX
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* .. External Subroutines ..
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EXTERNAL CSCAL, CSSCAL, CTEST, ITEST1, STEST1
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* .. Intrinsic Functions ..
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INTRINSIC MAX
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* .. Common blocks ..
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COMMON /COMBLA/ICASE, N, INCX, INCY, MODE, PASS
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* .. Data statements ..
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DATA SA, CA/0.3E0, (0.4E0,-0.7E0)/
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DATA ((CV(I,J,1),I=1,8),J=1,5)/(0.1E0,0.1E0),
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+ (1.0E0,2.0E0), (1.0E0,2.0E0), (1.0E0,2.0E0),
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+ (1.0E0,2.0E0), (1.0E0,2.0E0), (1.0E0,2.0E0),
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+ (1.0E0,2.0E0), (0.3E0,-0.4E0), (3.0E0,4.0E0),
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+ (3.0E0,4.0E0), (3.0E0,4.0E0), (3.0E0,4.0E0),
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+ (3.0E0,4.0E0), (3.0E0,4.0E0), (3.0E0,4.0E0),
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+ (0.1E0,-0.3E0), (0.5E0,-0.1E0), (5.0E0,6.0E0),
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+ (5.0E0,6.0E0), (5.0E0,6.0E0), (5.0E0,6.0E0),
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+ (5.0E0,6.0E0), (5.0E0,6.0E0), (0.1E0,0.1E0),
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+ (-0.6E0,0.1E0), (0.1E0,-0.3E0), (7.0E0,8.0E0),
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+ (7.0E0,8.0E0), (7.0E0,8.0E0), (7.0E0,8.0E0),
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+ (7.0E0,8.0E0), (0.3E0,0.1E0), (0.5E0,0.0E0),
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+ (0.0E0,0.5E0), (0.0E0,0.2E0), (2.0E0,3.0E0),
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+ (2.0E0,3.0E0), (2.0E0,3.0E0), (2.0E0,3.0E0)/
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DATA ((CV(I,J,2),I=1,8),J=1,5)/(0.1E0,0.1E0),
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+ (4.0E0,5.0E0), (4.0E0,5.0E0), (4.0E0,5.0E0),
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+ (4.0E0,5.0E0), (4.0E0,5.0E0), (4.0E0,5.0E0),
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+ (4.0E0,5.0E0), (0.3E0,-0.4E0), (6.0E0,7.0E0),
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+ (6.0E0,7.0E0), (6.0E0,7.0E0), (6.0E0,7.0E0),
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+ (6.0E0,7.0E0), (6.0E0,7.0E0), (6.0E0,7.0E0),
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+ (0.1E0,-0.3E0), (8.0E0,9.0E0), (0.5E0,-0.1E0),
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+ (2.0E0,5.0E0), (2.0E0,5.0E0), (2.0E0,5.0E0),
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+ (2.0E0,5.0E0), (2.0E0,5.0E0), (0.1E0,0.1E0),
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+ (3.0E0,6.0E0), (-0.6E0,0.1E0), (4.0E0,7.0E0),
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+ (0.1E0,-0.3E0), (7.0E0,2.0E0), (7.0E0,2.0E0),
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+ (7.0E0,2.0E0), (0.3E0,0.1E0), (5.0E0,8.0E0),
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+ (0.5E0,0.0E0), (6.0E0,9.0E0), (0.0E0,0.5E0),
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+ (8.0E0,3.0E0), (0.0E0,0.2E0), (9.0E0,4.0E0)/
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DATA STRUE2/0.0E0, 0.5E0, 0.6E0, 0.7E0, 0.8E0/
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DATA STRUE4/0.0E0, 0.7E0, 1.0E0, 1.3E0, 1.6E0/
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DATA ((CTRUE5(I,J,1),I=1,8),J=1,5)/(0.1E0,0.1E0),
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+ (1.0E0,2.0E0), (1.0E0,2.0E0), (1.0E0,2.0E0),
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+ (1.0E0,2.0E0), (1.0E0,2.0E0), (1.0E0,2.0E0),
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+ (1.0E0,2.0E0), (-0.16E0,-0.37E0), (3.0E0,4.0E0),
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+ (3.0E0,4.0E0), (3.0E0,4.0E0), (3.0E0,4.0E0),
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+ (3.0E0,4.0E0), (3.0E0,4.0E0), (3.0E0,4.0E0),
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+ (-0.17E0,-0.19E0), (0.13E0,-0.39E0),
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+ (5.0E0,6.0E0), (5.0E0,6.0E0), (5.0E0,6.0E0),
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+ (5.0E0,6.0E0), (5.0E0,6.0E0), (5.0E0,6.0E0),
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+ (0.11E0,-0.03E0), (-0.17E0,0.46E0),
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+ (-0.17E0,-0.19E0), (7.0E0,8.0E0), (7.0E0,8.0E0),
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+ (7.0E0,8.0E0), (7.0E0,8.0E0), (7.0E0,8.0E0),
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+ (0.19E0,-0.17E0), (0.20E0,-0.35E0),
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+ (0.35E0,0.20E0), (0.14E0,0.08E0),
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+ (2.0E0,3.0E0), (2.0E0,3.0E0), (2.0E0,3.0E0),
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+ (2.0E0,3.0E0)/
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DATA ((CTRUE5(I,J,2),I=1,8),J=1,5)/(0.1E0,0.1E0),
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+ (4.0E0,5.0E0), (4.0E0,5.0E0), (4.0E0,5.0E0),
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+ (4.0E0,5.0E0), (4.0E0,5.0E0), (4.0E0,5.0E0),
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+ (4.0E0,5.0E0), (-0.16E0,-0.37E0), (6.0E0,7.0E0),
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+ (6.0E0,7.0E0), (6.0E0,7.0E0), (6.0E0,7.0E0),
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+ (6.0E0,7.0E0), (6.0E0,7.0E0), (6.0E0,7.0E0),
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+ (-0.17E0,-0.19E0), (8.0E0,9.0E0),
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+ (0.13E0,-0.39E0), (2.0E0,5.0E0), (2.0E0,5.0E0),
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+ (2.0E0,5.0E0), (2.0E0,5.0E0), (2.0E0,5.0E0),
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+ (0.11E0,-0.03E0), (3.0E0,6.0E0),
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+ (-0.17E0,0.46E0), (4.0E0,7.0E0),
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+ (-0.17E0,-0.19E0), (7.0E0,2.0E0), (7.0E0,2.0E0),
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+ (7.0E0,2.0E0), (0.19E0,-0.17E0), (5.0E0,8.0E0),
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+ (0.20E0,-0.35E0), (6.0E0,9.0E0),
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+ (0.35E0,0.20E0), (8.0E0,3.0E0),
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+ (0.14E0,0.08E0), (9.0E0,4.0E0)/
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DATA ((CTRUE6(I,J,1),I=1,8),J=1,5)/(0.1E0,0.1E0),
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+ (1.0E0,2.0E0), (1.0E0,2.0E0), (1.0E0,2.0E0),
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+ (1.0E0,2.0E0), (1.0E0,2.0E0), (1.0E0,2.0E0),
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+ (1.0E0,2.0E0), (0.09E0,-0.12E0), (3.0E0,4.0E0),
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+ (3.0E0,4.0E0), (3.0E0,4.0E0), (3.0E0,4.0E0),
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+ (3.0E0,4.0E0), (3.0E0,4.0E0), (3.0E0,4.0E0),
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+ (0.03E0,-0.09E0), (0.15E0,-0.03E0),
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+ (5.0E0,6.0E0), (5.0E0,6.0E0), (5.0E0,6.0E0),
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+ (5.0E0,6.0E0), (5.0E0,6.0E0), (5.0E0,6.0E0),
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+ (0.03E0,0.03E0), (-0.18E0,0.03E0),
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+ (0.03E0,-0.09E0), (7.0E0,8.0E0), (7.0E0,8.0E0),
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+ (7.0E0,8.0E0), (7.0E0,8.0E0), (7.0E0,8.0E0),
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+ (0.09E0,0.03E0), (0.15E0,0.00E0),
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+ (0.00E0,0.15E0), (0.00E0,0.06E0), (2.0E0,3.0E0),
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+ (2.0E0,3.0E0), (2.0E0,3.0E0), (2.0E0,3.0E0)/
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DATA ((CTRUE6(I,J,2),I=1,8),J=1,5)/(0.1E0,0.1E0),
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+ (4.0E0,5.0E0), (4.0E0,5.0E0), (4.0E0,5.0E0),
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+ (4.0E0,5.0E0), (4.0E0,5.0E0), (4.0E0,5.0E0),
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+ (4.0E0,5.0E0), (0.09E0,-0.12E0), (6.0E0,7.0E0),
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+ (6.0E0,7.0E0), (6.0E0,7.0E0), (6.0E0,7.0E0),
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+ (6.0E0,7.0E0), (6.0E0,7.0E0), (6.0E0,7.0E0),
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+ (0.03E0,-0.09E0), (8.0E0,9.0E0),
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+ (0.15E0,-0.03E0), (2.0E0,5.0E0), (2.0E0,5.0E0),
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+ (2.0E0,5.0E0), (2.0E0,5.0E0), (2.0E0,5.0E0),
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+ (0.03E0,0.03E0), (3.0E0,6.0E0),
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+ (-0.18E0,0.03E0), (4.0E0,7.0E0),
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+ (0.03E0,-0.09E0), (7.0E0,2.0E0), (7.0E0,2.0E0),
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+ (7.0E0,2.0E0), (0.09E0,0.03E0), (5.0E0,8.0E0),
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+ (0.15E0,0.00E0), (6.0E0,9.0E0), (0.00E0,0.15E0),
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+ (8.0E0,3.0E0), (0.00E0,0.06E0), (9.0E0,4.0E0)/
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DATA ITRUE3/0, 1, 2, 2, 2/
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* .. Executable Statements ..
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DO 60 INCX = 1, 2
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DO 40 NP1 = 1, 5
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N = NP1 - 1
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LEN = 2*MAX(N,1)
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* .. Set vector arguments ..
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DO 20 I = 1, LEN
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CX(I) = CV(I,NP1,INCX)
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20 CONTINUE
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IF (ICASE.EQ.6) THEN
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* .. SCNRM2 ..
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CALL STEST1(SCNRM2(N,CX,INCX),STRUE2(NP1),STRUE2(NP1),
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+ SFAC)
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ELSE IF (ICASE.EQ.7) THEN
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* .. SCASUM ..
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CALL STEST1(SCASUM(N,CX,INCX),STRUE4(NP1),STRUE4(NP1),
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+ SFAC)
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ELSE IF (ICASE.EQ.8) THEN
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* .. CSCAL ..
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CALL CSCAL(N,CA,CX,INCX)
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CALL CTEST(LEN,CX,CTRUE5(1,NP1,INCX),CTRUE5(1,NP1,INCX),
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+ SFAC)
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ELSE IF (ICASE.EQ.9) THEN
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* .. CSSCAL ..
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CALL CSSCAL(N,SA,CX,INCX)
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CALL CTEST(LEN,CX,CTRUE6(1,NP1,INCX),CTRUE6(1,NP1,INCX),
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+ SFAC)
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ELSE IF (ICASE.EQ.10) THEN
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* .. ICAMAX ..
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CALL ITEST1(ICAMAX(N,CX,INCX),ITRUE3(NP1))
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ELSE
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WRITE (NOUT,*) ' Shouldn''t be here in CHECK1'
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STOP
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END IF
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*
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40 CONTINUE
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60 CONTINUE
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*
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INCX = 1
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IF (ICASE.EQ.8) THEN
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* CSCAL
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* Add a test for alpha equal to zero.
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CA = (0.0E0,0.0E0)
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DO 80 I = 1, 5
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MWPCT(I) = (0.0E0,0.0E0)
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MWPCS(I) = (1.0E0,1.0E0)
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80 CONTINUE
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CALL CSCAL(5,CA,CX,INCX)
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CALL CTEST(5,CX,MWPCT,MWPCS,SFAC)
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ELSE IF (ICASE.EQ.9) THEN
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* CSSCAL
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* Add a test for alpha equal to zero.
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SA = 0.0E0
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DO 100 I = 1, 5
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MWPCT(I) = (0.0E0,0.0E0)
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MWPCS(I) = (1.0E0,1.0E0)
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100 CONTINUE
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CALL CSSCAL(5,SA,CX,INCX)
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CALL CTEST(5,CX,MWPCT,MWPCS,SFAC)
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* Add a test for alpha equal to one.
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SA = 1.0E0
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DO 120 I = 1, 5
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MWPCT(I) = CX(I)
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MWPCS(I) = CX(I)
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120 CONTINUE
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CALL CSSCAL(5,SA,CX,INCX)
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CALL CTEST(5,CX,MWPCT,MWPCS,SFAC)
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* Add a test for alpha equal to minus one.
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SA = -1.0E0
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DO 140 I = 1, 5
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MWPCT(I) = -CX(I)
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MWPCS(I) = -CX(I)
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140 CONTINUE
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CALL CSSCAL(5,SA,CX,INCX)
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CALL CTEST(5,CX,MWPCT,MWPCS,SFAC)
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END IF
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RETURN
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END
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SUBROUTINE CHECK2(SFAC)
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* .. Parameters ..
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INTEGER NOUT
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PARAMETER (NOUT=6)
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* .. Scalar Arguments ..
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REAL SFAC
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* .. Scalars in Common ..
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INTEGER ICASE, INCX, INCY, MODE, N
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LOGICAL PASS
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* .. Local Scalars ..
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COMPLEX CA
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INTEGER I, J, KI, KN, KSIZE, LENX, LENY, MX, MY
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* .. Local Arrays ..
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COMPLEX CDOT(1), CSIZE1(4), CSIZE2(7,2), CSIZE3(14),
|
|
+ CT10X(7,4,4), CT10Y(7,4,4), CT6(4,4), CT7(4,4),
|
|
+ CT8(7,4,4), CX(7), CX1(7), CY(7), CY1(7)
|
|
INTEGER INCXS(4), INCYS(4), LENS(4,2), NS(4)
|
|
* .. External Functions ..
|
|
COMPLEX CDOTC, CDOTU
|
|
EXTERNAL CDOTC, CDOTU
|
|
* .. External Subroutines ..
|
|
EXTERNAL CAXPY, CCOPY, CSWAP, CTEST
|
|
* .. Intrinsic Functions ..
|
|
INTRINSIC ABS, MIN
|
|
* .. Common blocks ..
|
|
COMMON /COMBLA/ICASE, N, INCX, INCY, MODE, PASS
|
|
* .. Data statements ..
|
|
DATA CA/(0.4E0,-0.7E0)/
|
|
DATA INCXS/1, 2, -2, -1/
|
|
DATA INCYS/1, -2, 1, -2/
|
|
DATA LENS/1, 1, 2, 4, 1, 1, 3, 7/
|
|
DATA NS/0, 1, 2, 4/
|
|
DATA CX1/(0.7E0,-0.8E0), (-0.4E0,-0.7E0),
|
|
+ (-0.1E0,-0.9E0), (0.2E0,-0.8E0),
|
|
+ (-0.9E0,-0.4E0), (0.1E0,0.4E0), (-0.6E0,0.6E0)/
|
|
DATA CY1/(0.6E0,-0.6E0), (-0.9E0,0.5E0),
|
|
+ (0.7E0,-0.6E0), (0.1E0,-0.5E0), (-0.1E0,-0.2E0),
|
|
+ (-0.5E0,-0.3E0), (0.8E0,-0.7E0)/
|
|
DATA ((CT8(I,J,1),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.32E0,-1.41E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.32E0,-1.41E0),
|
|
+ (-1.55E0,0.5E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.32E0,-1.41E0), (-1.55E0,0.5E0),
|
|
+ (0.03E0,-0.89E0), (-0.38E0,-0.96E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0)/
|
|
DATA ((CT8(I,J,2),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.32E0,-1.41E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (-0.07E0,-0.89E0),
|
|
+ (-0.9E0,0.5E0), (0.42E0,-1.41E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.78E0,0.06E0), (-0.9E0,0.5E0),
|
|
+ (0.06E0,-0.13E0), (0.1E0,-0.5E0),
|
|
+ (-0.77E0,-0.49E0), (-0.5E0,-0.3E0),
|
|
+ (0.52E0,-1.51E0)/
|
|
DATA ((CT8(I,J,3),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.32E0,-1.41E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (-0.07E0,-0.89E0),
|
|
+ (-1.18E0,-0.31E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.78E0,0.06E0), (-1.54E0,0.97E0),
|
|
+ (0.03E0,-0.89E0), (-0.18E0,-1.31E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0)/
|
|
DATA ((CT8(I,J,4),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.32E0,-1.41E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.32E0,-1.41E0), (-0.9E0,0.5E0),
|
|
+ (0.05E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.32E0,-1.41E0),
|
|
+ (-0.9E0,0.5E0), (0.05E0,-0.6E0), (0.1E0,-0.5E0),
|
|
+ (-0.77E0,-0.49E0), (-0.5E0,-0.3E0),
|
|
+ (0.32E0,-1.16E0)/
|
|
DATA CT7/(0.0E0,0.0E0), (-0.06E0,-0.90E0),
|
|
+ (0.65E0,-0.47E0), (-0.34E0,-1.22E0),
|
|
+ (0.0E0,0.0E0), (-0.06E0,-0.90E0),
|
|
+ (-0.59E0,-1.46E0), (-1.04E0,-0.04E0),
|
|
+ (0.0E0,0.0E0), (-0.06E0,-0.90E0),
|
|
+ (-0.83E0,0.59E0), (0.07E0,-0.37E0),
|
|
+ (0.0E0,0.0E0), (-0.06E0,-0.90E0),
|
|
+ (-0.76E0,-1.15E0), (-1.33E0,-1.82E0)/
|
|
DATA CT6/(0.0E0,0.0E0), (0.90E0,0.06E0),
|
|
+ (0.91E0,-0.77E0), (1.80E0,-0.10E0),
|
|
+ (0.0E0,0.0E0), (0.90E0,0.06E0), (1.45E0,0.74E0),
|
|
+ (0.20E0,0.90E0), (0.0E0,0.0E0), (0.90E0,0.06E0),
|
|
+ (-0.55E0,0.23E0), (0.83E0,-0.39E0),
|
|
+ (0.0E0,0.0E0), (0.90E0,0.06E0), (1.04E0,0.79E0),
|
|
+ (1.95E0,1.22E0)/
|
|
DATA ((CT10X(I,J,1),I=1,7),J=1,4)/(0.7E0,-0.8E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.6E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.6E0,-0.6E0), (-0.9E0,0.5E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.6E0,-0.6E0),
|
|
+ (-0.9E0,0.5E0), (0.7E0,-0.6E0), (0.1E0,-0.5E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0)/
|
|
DATA ((CT10X(I,J,2),I=1,7),J=1,4)/(0.7E0,-0.8E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.6E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.7E0,-0.6E0), (-0.4E0,-0.7E0),
|
|
+ (0.6E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.8E0,-0.7E0),
|
|
+ (-0.4E0,-0.7E0), (-0.1E0,-0.2E0),
|
|
+ (0.2E0,-0.8E0), (0.7E0,-0.6E0), (0.1E0,0.4E0),
|
|
+ (0.6E0,-0.6E0)/
|
|
DATA ((CT10X(I,J,3),I=1,7),J=1,4)/(0.7E0,-0.8E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.6E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (-0.9E0,0.5E0), (-0.4E0,-0.7E0),
|
|
+ (0.6E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.1E0,-0.5E0),
|
|
+ (-0.4E0,-0.7E0), (0.7E0,-0.6E0), (0.2E0,-0.8E0),
|
|
+ (-0.9E0,0.5E0), (0.1E0,0.4E0), (0.6E0,-0.6E0)/
|
|
DATA ((CT10X(I,J,4),I=1,7),J=1,4)/(0.7E0,-0.8E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.6E0,-0.6E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.6E0,-0.6E0), (0.7E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.6E0,-0.6E0),
|
|
+ (0.7E0,-0.6E0), (-0.1E0,-0.2E0), (0.8E0,-0.7E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0)/
|
|
DATA ((CT10Y(I,J,1),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.7E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.7E0,-0.8E0), (-0.4E0,-0.7E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.7E0,-0.8E0),
|
|
+ (-0.4E0,-0.7E0), (-0.1E0,-0.9E0),
|
|
+ (0.2E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0)/
|
|
DATA ((CT10Y(I,J,2),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.7E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (-0.1E0,-0.9E0), (-0.9E0,0.5E0),
|
|
+ (0.7E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (-0.6E0,0.6E0),
|
|
+ (-0.9E0,0.5E0), (-0.9E0,-0.4E0), (0.1E0,-0.5E0),
|
|
+ (-0.1E0,-0.9E0), (-0.5E0,-0.3E0),
|
|
+ (0.7E0,-0.8E0)/
|
|
DATA ((CT10Y(I,J,3),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.7E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (-0.1E0,-0.9E0), (0.7E0,-0.8E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (-0.6E0,0.6E0),
|
|
+ (-0.9E0,-0.4E0), (-0.1E0,-0.9E0),
|
|
+ (0.7E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0)/
|
|
DATA ((CT10Y(I,J,4),I=1,7),J=1,4)/(0.6E0,-0.6E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.7E0,-0.8E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.7E0,-0.8E0), (-0.9E0,0.5E0),
|
|
+ (-0.4E0,-0.7E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.7E0,-0.8E0),
|
|
+ (-0.9E0,0.5E0), (-0.4E0,-0.7E0), (0.1E0,-0.5E0),
|
|
+ (-0.1E0,-0.9E0), (-0.5E0,-0.3E0),
|
|
+ (0.2E0,-0.8E0)/
|
|
DATA CSIZE1/(0.0E0,0.0E0), (0.9E0,0.9E0),
|
|
+ (1.63E0,1.73E0), (2.90E0,2.78E0)/
|
|
DATA CSIZE3/(0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (1.17E0,1.17E0),
|
|
+ (1.17E0,1.17E0), (1.17E0,1.17E0),
|
|
+ (1.17E0,1.17E0), (1.17E0,1.17E0),
|
|
+ (1.17E0,1.17E0), (1.17E0,1.17E0)/
|
|
DATA CSIZE2/(0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (0.0E0,0.0E0),
|
|
+ (0.0E0,0.0E0), (0.0E0,0.0E0), (1.54E0,1.54E0),
|
|
+ (1.54E0,1.54E0), (1.54E0,1.54E0),
|
|
+ (1.54E0,1.54E0), (1.54E0,1.54E0),
|
|
+ (1.54E0,1.54E0), (1.54E0,1.54E0)/
|
|
* .. Executable Statements ..
|
|
DO 60 KI = 1, 4
|
|
INCX = INCXS(KI)
|
|
INCY = INCYS(KI)
|
|
MX = ABS(INCX)
|
|
MY = ABS(INCY)
|
|
*
|
|
DO 40 KN = 1, 4
|
|
N = NS(KN)
|
|
KSIZE = MIN(2,KN)
|
|
LENX = LENS(KN,MX)
|
|
LENY = LENS(KN,MY)
|
|
* .. initialize all argument arrays ..
|
|
DO 20 I = 1, 7
|
|
CX(I) = CX1(I)
|
|
CY(I) = CY1(I)
|
|
20 CONTINUE
|
|
IF (ICASE.EQ.1) THEN
|
|
* .. CDOTC ..
|
|
CDOT(1) = CDOTC(N,CX,INCX,CY,INCY)
|
|
CALL CTEST(1,CDOT,CT6(KN,KI),CSIZE1(KN),SFAC)
|
|
ELSE IF (ICASE.EQ.2) THEN
|
|
* .. CDOTU ..
|
|
CDOT(1) = CDOTU(N,CX,INCX,CY,INCY)
|
|
CALL CTEST(1,CDOT,CT7(KN,KI),CSIZE1(KN),SFAC)
|
|
ELSE IF (ICASE.EQ.3) THEN
|
|
* .. CAXPY ..
|
|
CALL CAXPY(N,CA,CX,INCX,CY,INCY)
|
|
CALL CTEST(LENY,CY,CT8(1,KN,KI),CSIZE2(1,KSIZE),SFAC)
|
|
ELSE IF (ICASE.EQ.4) THEN
|
|
* .. CCOPY ..
|
|
CALL CCOPY(N,CX,INCX,CY,INCY)
|
|
CALL CTEST(LENY,CY,CT10Y(1,KN,KI),CSIZE3,1.0E0)
|
|
ELSE IF (ICASE.EQ.5) THEN
|
|
* .. CSWAP ..
|
|
CALL CSWAP(N,CX,INCX,CY,INCY)
|
|
CALL CTEST(LENX,CX,CT10X(1,KN,KI),CSIZE3,1.0E0)
|
|
CALL CTEST(LENY,CY,CT10Y(1,KN,KI),CSIZE3,1.0E0)
|
|
ELSE
|
|
WRITE (NOUT,*) ' Shouldn''t be here in CHECK2'
|
|
STOP
|
|
END IF
|
|
*
|
|
40 CONTINUE
|
|
60 CONTINUE
|
|
RETURN
|
|
END
|
|
SUBROUTINE STEST(LEN,SCOMP,STRUE,SSIZE,SFAC)
|
|
* ********************************* STEST **************************
|
|
*
|
|
* THIS SUBR COMPARES ARRAYS SCOMP() AND STRUE() OF LENGTH LEN TO
|
|
* SEE IF THE TERM BY TERM DIFFERENCES, MULTIPLIED BY SFAC, ARE
|
|
* NEGLIGIBLE.
|
|
*
|
|
* C. L. LAWSON, JPL, 1974 DEC 10
|
|
*
|
|
* .. Parameters ..
|
|
INTEGER NOUT
|
|
REAL ZERO
|
|
PARAMETER (NOUT=6, ZERO=0.0E0)
|
|
* .. Scalar Arguments ..
|
|
REAL SFAC
|
|
INTEGER LEN
|
|
* .. Array Arguments ..
|
|
REAL SCOMP(LEN), SSIZE(LEN), STRUE(LEN)
|
|
* .. Scalars in Common ..
|
|
INTEGER ICASE, INCX, INCY, MODE, N
|
|
LOGICAL PASS
|
|
* .. Local Scalars ..
|
|
REAL SD
|
|
INTEGER I
|
|
* .. External Functions ..
|
|
REAL SDIFF
|
|
EXTERNAL SDIFF
|
|
* .. Intrinsic Functions ..
|
|
INTRINSIC ABS
|
|
* .. Common blocks ..
|
|
COMMON /COMBLA/ICASE, N, INCX, INCY, MODE, PASS
|
|
* .. Executable Statements ..
|
|
*
|
|
DO 40 I = 1, LEN
|
|
SD = SCOMP(I) - STRUE(I)
|
|
IF (ABS(SFAC*SD) .LE. ABS(SSIZE(I))*EPSILON(ZERO))
|
|
+ GO TO 40
|
|
*
|
|
* HERE SCOMP(I) IS NOT CLOSE TO STRUE(I).
|
|
*
|
|
IF ( .NOT. PASS) GO TO 20
|
|
* PRINT FAIL MESSAGE AND HEADER.
|
|
PASS = .FALSE.
|
|
WRITE (NOUT,99999)
|
|
WRITE (NOUT,99998)
|
|
20 WRITE (NOUT,99997) ICASE, N, INCX, INCY, MODE, I, SCOMP(I),
|
|
+ STRUE(I), SD, SSIZE(I)
|
|
40 CONTINUE
|
|
RETURN
|
|
*
|
|
99999 FORMAT (' FAIL')
|
|
99998 FORMAT (/' CASE N INCX INCY MODE I ',
|
|
+ ' COMP(I) TRUE(I) DIFFERENCE',
|
|
+ ' SIZE(I)',/1X)
|
|
99997 FORMAT (1X,I4,I3,3I5,I3,2E36.8,2E12.4)
|
|
END
|
|
SUBROUTINE STEST1(SCOMP1,STRUE1,SSIZE,SFAC)
|
|
* ************************* STEST1 *****************************
|
|
*
|
|
* THIS IS AN INTERFACE SUBROUTINE TO ACCOMMODATE THE FORTRAN
|
|
* REQUIREMENT THAT WHEN A DUMMY ARGUMENT IS AN ARRAY, THE
|
|
* ACTUAL ARGUMENT MUST ALSO BE AN ARRAY OR AN ARRAY ELEMENT.
|
|
*
|
|
* C.L. LAWSON, JPL, 1978 DEC 6
|
|
*
|
|
* .. Scalar Arguments ..
|
|
REAL SCOMP1, SFAC, STRUE1
|
|
* .. Array Arguments ..
|
|
REAL SSIZE(*)
|
|
* .. Local Arrays ..
|
|
REAL SCOMP(1), STRUE(1)
|
|
* .. External Subroutines ..
|
|
EXTERNAL STEST
|
|
* .. Executable Statements ..
|
|
*
|
|
SCOMP(1) = SCOMP1
|
|
STRUE(1) = STRUE1
|
|
CALL STEST(1,SCOMP,STRUE,SSIZE,SFAC)
|
|
*
|
|
RETURN
|
|
END
|
|
REAL FUNCTION SDIFF(SA,SB)
|
|
* ********************************* SDIFF **************************
|
|
* COMPUTES DIFFERENCE OF TWO NUMBERS. C. L. LAWSON, JPL 1974 FEB 15
|
|
*
|
|
* .. Scalar Arguments ..
|
|
REAL SA, SB
|
|
* .. Executable Statements ..
|
|
SDIFF = SA - SB
|
|
RETURN
|
|
END
|
|
SUBROUTINE CTEST(LEN,CCOMP,CTRUE,CSIZE,SFAC)
|
|
* **************************** CTEST *****************************
|
|
*
|
|
* C.L. LAWSON, JPL, 1978 DEC 6
|
|
*
|
|
* .. Scalar Arguments ..
|
|
REAL SFAC
|
|
INTEGER LEN
|
|
* .. Array Arguments ..
|
|
COMPLEX CCOMP(LEN), CSIZE(LEN), CTRUE(LEN)
|
|
* .. Local Scalars ..
|
|
INTEGER I
|
|
* .. Local Arrays ..
|
|
REAL SCOMP(20), SSIZE(20), STRUE(20)
|
|
* .. External Subroutines ..
|
|
EXTERNAL STEST
|
|
* .. Intrinsic Functions ..
|
|
INTRINSIC AIMAG, REAL
|
|
* .. Executable Statements ..
|
|
DO 20 I = 1, LEN
|
|
SCOMP(2*I-1) = REAL(CCOMP(I))
|
|
SCOMP(2*I) = AIMAG(CCOMP(I))
|
|
STRUE(2*I-1) = REAL(CTRUE(I))
|
|
STRUE(2*I) = AIMAG(CTRUE(I))
|
|
SSIZE(2*I-1) = REAL(CSIZE(I))
|
|
SSIZE(2*I) = AIMAG(CSIZE(I))
|
|
20 CONTINUE
|
|
*
|
|
CALL STEST(2*LEN,SCOMP,STRUE,SSIZE,SFAC)
|
|
RETURN
|
|
END
|
|
SUBROUTINE ITEST1(ICOMP,ITRUE)
|
|
* ********************************* ITEST1 *************************
|
|
*
|
|
* THIS SUBROUTINE COMPARES THE VARIABLES ICOMP AND ITRUE FOR
|
|
* EQUALITY.
|
|
* C. L. LAWSON, JPL, 1974 DEC 10
|
|
*
|
|
* .. Parameters ..
|
|
INTEGER NOUT
|
|
PARAMETER (NOUT=6)
|
|
* .. Scalar Arguments ..
|
|
INTEGER ICOMP, ITRUE
|
|
* .. Scalars in Common ..
|
|
INTEGER ICASE, INCX, INCY, MODE, N
|
|
LOGICAL PASS
|
|
* .. Local Scalars ..
|
|
INTEGER ID
|
|
* .. Common blocks ..
|
|
COMMON /COMBLA/ICASE, N, INCX, INCY, MODE, PASS
|
|
* .. Executable Statements ..
|
|
IF (ICOMP.EQ.ITRUE) GO TO 40
|
|
*
|
|
* HERE ICOMP IS NOT EQUAL TO ITRUE.
|
|
*
|
|
IF ( .NOT. PASS) GO TO 20
|
|
* PRINT FAIL MESSAGE AND HEADER.
|
|
PASS = .FALSE.
|
|
WRITE (NOUT,99999)
|
|
WRITE (NOUT,99998)
|
|
20 ID = ICOMP - ITRUE
|
|
WRITE (NOUT,99997) ICASE, N, INCX, INCY, MODE, ICOMP, ITRUE, ID
|
|
40 CONTINUE
|
|
RETURN
|
|
*
|
|
99999 FORMAT (' FAIL')
|
|
99998 FORMAT (/' CASE N INCX INCY MODE ',
|
|
+ ' COMP TRUE DIFFERENCE',
|
|
+ /1X)
|
|
99997 FORMAT (1X,I4,I3,3I5,2I36,I12)
|
|
END
|