github.com/gonum/lapack@v0.0.0-20181123203213-e4cdc5a0bff9/internal/testdata/dlasqtest/lsame.f (about)

     1  *> \brief \b LSAME
     2  *
     3  *  =========== DOCUMENTATION ===========
     4  *
     5  * Online html documentation available at 
     6  *            http://www.netlib.org/lapack/explore-html/ 
     7  *
     8  *  Definition:
     9  *  ===========
    10  *
    11  *      LOGICAL FUNCTION LSAME( CA, CB )
    12  *
    13  *     .. Scalar Arguments ..
    14  *      CHARACTER          CA, CB
    15  *     ..
    16  *  
    17  *
    18  *> \par Purpose:
    19  *  =============
    20  *>
    21  *> \verbatim
    22  *>
    23  *> LSAME returns .TRUE. if CA is the same letter as CB regardless of
    24  *> case.
    25  *> \endverbatim
    26  *
    27  *  Arguments:
    28  *  ==========
    29  *
    30  *> \param[in] CA
    31  *> \verbatim
    32  *> \endverbatim
    33  *>
    34  *> \param[in] CB
    35  *> \verbatim
    36  *>          CA and CB specify the single characters to be compared.
    37  *> \endverbatim
    38  *
    39  *  Authors:
    40  *  ========
    41  *
    42  *> \author Univ. of Tennessee 
    43  *> \author Univ. of California Berkeley 
    44  *> \author Univ. of Colorado Denver 
    45  *> \author NAG Ltd. 
    46  *
    47  *> \date November 2011
    48  *
    49  *> \ingroup auxOTHERauxiliary
    50  *
    51  *  =====================================================================
    52        LOGICAL FUNCTION LSAME( CA, CB )
    53  *
    54  *  -- LAPACK auxiliary routine (version 3.4.0) --
    55  *  -- LAPACK is a software package provided by Univ. of Tennessee,    --
    56  *  -- Univ. of California Berkeley, Univ. of Colorado Denver and NAG Ltd..--
    57  *     November 2011
    58  *
    59  *     .. Scalar Arguments ..
    60        CHARACTER          CA, CB
    61  *     ..
    62  *
    63  * =====================================================================
    64  *
    65  *     .. Intrinsic Functions ..
    66        INTRINSIC          ICHAR
    67  *     ..
    68  *     .. Local Scalars ..
    69        INTEGER            INTA, INTB, ZCODE
    70  *     ..
    71  *     .. Executable Statements ..
    72  *
    73  *     Test if the characters are equal
    74  *
    75        LSAME = CA.EQ.CB
    76        IF( LSAME )
    77       $   RETURN
    78  *
    79  *     Now test for equivalence if both characters are alphabetic.
    80  *
    81        ZCODE = ICHAR( 'Z' )
    82  *
    83  *     Use 'Z' rather than 'A' so that ASCII can be detected on Prime
    84  *     machines, on which ICHAR returns a value with bit 8 set.
    85  *     ICHAR('A') on Prime machines returns 193 which is the same as
    86  *     ICHAR('A') on an EBCDIC machine.
    87  *
    88        INTA = ICHAR( CA )
    89        INTB = ICHAR( CB )
    90  *
    91        IF( ZCODE.EQ.90 .OR. ZCODE.EQ.122 ) THEN
    92  *
    93  *        ASCII is assumed - ZCODE is the ASCII code of either lower or
    94  *        upper case 'Z'.
    95  *
    96           IF( INTA.GE.97 .AND. INTA.LE.122 ) INTA = INTA - 32
    97           IF( INTB.GE.97 .AND. INTB.LE.122 ) INTB = INTB - 32
    98  *
    99        ELSE IF( ZCODE.EQ.233 .OR. ZCODE.EQ.169 ) THEN
   100  *
   101  *        EBCDIC is assumed - ZCODE is the EBCDIC code of either lower or
   102  *        upper case 'Z'.
   103  *
   104           IF( INTA.GE.129 .AND. INTA.LE.137 .OR.
   105       $       INTA.GE.145 .AND. INTA.LE.153 .OR.
   106       $       INTA.GE.162 .AND. INTA.LE.169 ) INTA = INTA + 64
   107           IF( INTB.GE.129 .AND. INTB.LE.137 .OR.
   108       $       INTB.GE.145 .AND. INTB.LE.153 .OR.
   109       $       INTB.GE.162 .AND. INTB.LE.169 ) INTB = INTB + 64
   110  *
   111        ELSE IF( ZCODE.EQ.218 .OR. ZCODE.EQ.250 ) THEN
   112  *
   113  *        ASCII is assumed, on Prime machines - ZCODE is the ASCII code
   114  *        plus 128 of either lower or upper case 'Z'.
   115  *
   116           IF( INTA.GE.225 .AND. INTA.LE.250 ) INTA = INTA - 32
   117           IF( INTB.GE.225 .AND. INTB.LE.250 ) INTB = INTB - 32
   118        END IF
   119        LSAME = INTA.EQ.INTB
   120  *
   121  *     RETURN
   122  *
   123  *     End of LSAME
   124  *
   125        END