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[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [testsuite/] [gfortran.fortran-torture/] [execute/] [equiv_5.f] - Rev 867

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C  This testcase was miscompiled on i?86/x86_64, the scheduler
C  swapped write to DMACH(1) with following read from SMALL(1),
C  at -O2+, as the front-end didn't signal in any way this kind
C  of type punning is ok.
C  The testcase is from blas, http://www.netlib.org/blas/d1mach.f
 
      DOUBLE PRECISION FUNCTION D1MACH(I)
      INTEGER I
C
C  DOUBLE-PRECISION MACHINE CONSTANTS
C  D1MACH( 1) = B**(EMIN-1), THE SMALLEST POSITIVE MAGNITUDE.
C  D1MACH( 2) = B**EMAX*(1 - B**(-T)), THE LARGEST MAGNITUDE.
C  D1MACH( 3) = B**(-T), THE SMALLEST RELATIVE SPACING.
C  D1MACH( 4) = B**(1-T), THE LARGEST RELATIVE SPACING.
C  D1MACH( 5) = LOG10(B)
C
      INTEGER SMALL(2)
      INTEGER LARGE(2)
      INTEGER RIGHT(2)
      INTEGER DIVER(2)
      INTEGER LOG10(2)
      INTEGER SC, CRAY1(38), J
      COMMON /D9MACH/ CRAY1
      SAVE SMALL, LARGE, RIGHT, DIVER, LOG10, SC
      DOUBLE PRECISION DMACH(5)
      EQUIVALENCE (DMACH(1),SMALL(1))
      EQUIVALENCE (DMACH(2),LARGE(1))
      EQUIVALENCE (DMACH(3),RIGHT(1))
      EQUIVALENCE (DMACH(4),DIVER(1))
      EQUIVALENCE (DMACH(5),LOG10(1))
C  THIS VERSION ADAPTS AUTOMATICALLY TO MOST CURRENT MACHINES.
C  R1MACH CAN HANDLE AUTO-DOUBLE COMPILING, BUT THIS VERSION OF
C  D1MACH DOES NOT, BECAUSE WE DO NOT HAVE QUAD CONSTANTS FOR
C  MANY MACHINES YET.
C  TO COMPILE ON OLDER MACHINES, ADD A C IN COLUMN 1
C  ON THE NEXT LINE
      DATA SC/0/
C  AND REMOVE THE C FROM COLUMN 1 IN ONE OF THE SECTIONS BELOW.
C  CONSTANTS FOR EVEN OLDER MACHINES CAN BE OBTAINED BY
C          mail netlib@research.bell-labs.com
C          send old1mach from blas
C  PLEASE SEND CORRECTIONS TO dmg OR ehg@bell-labs.com.
C
C     MACHINE CONSTANTS FOR THE HONEYWELL DPS 8/70 SERIES.
C      DATA SMALL(1),SMALL(2) / O402400000000, O000000000000 /
C      DATA LARGE(1),LARGE(2) / O376777777777, O777777777777 /
C      DATA RIGHT(1),RIGHT(2) / O604400000000, O000000000000 /
C      DATA DIVER(1),DIVER(2) / O606400000000, O000000000000 /
C      DATA LOG10(1),LOG10(2) / O776464202324, O117571775714 /, SC/987/
C
C     MACHINE CONSTANTS FOR PDP-11 FORTRANS SUPPORTING
C     32-BIT INTEGERS.
C      DATA SMALL(1),SMALL(2) /    8388608,           0 /
C      DATA LARGE(1),LARGE(2) / 2147483647,          -1 /
C      DATA RIGHT(1),RIGHT(2) /  612368384,           0 /
C      DATA DIVER(1),DIVER(2) /  620756992,           0 /
C      DATA LOG10(1),LOG10(2) / 1067065498, -2063872008 /, SC/987/
C
C     MACHINE CONSTANTS FOR THE UNIVAC 1100 SERIES.
C      DATA SMALL(1),SMALL(2) / O000040000000, O000000000000 /
C      DATA LARGE(1),LARGE(2) / O377777777777, O777777777777 /
C      DATA RIGHT(1),RIGHT(2) / O170540000000, O000000000000 /
C      DATA DIVER(1),DIVER(2) / O170640000000, O000000000000 /
C      DATA LOG10(1),LOG10(2) / O177746420232, O411757177572 /, SC/987/
C
C     ON FIRST CALL, IF NO DATA UNCOMMENTED, TEST MACHINE TYPES.
      IF (SC .NE. 987) THEN
         DMACH(1) = 1.D13
         IF (      SMALL(1) .EQ. 1117925532
     *       .AND. SMALL(2) .EQ. -448790528) THEN
*           *** IEEE BIG ENDIAN ***
            SMALL(1) = 1048576
            SMALL(2) = 0
            LARGE(1) = 2146435071
            LARGE(2) = -1
            RIGHT(1) = 1017118720
            RIGHT(2) = 0
            DIVER(1) = 1018167296
            DIVER(2) = 0
            LOG10(1) = 1070810131
            LOG10(2) = 1352628735
         ELSE IF ( SMALL(2) .EQ. 1117925532
     *       .AND. SMALL(1) .EQ. -448790528) THEN
*           *** IEEE LITTLE ENDIAN ***
            SMALL(2) = 1048576
            SMALL(1) = 0
            LARGE(2) = 2146435071
            LARGE(1) = -1
            RIGHT(2) = 1017118720
            RIGHT(1) = 0
            DIVER(2) = 1018167296
            DIVER(1) = 0
            LOG10(2) = 1070810131
            LOG10(1) = 1352628735
         ELSE IF ( SMALL(1) .EQ. -2065213935
     *       .AND. SMALL(2) .EQ. 10752) THEN
*               *** VAX WITH D_FLOATING ***
            SMALL(1) = 128
            SMALL(2) = 0
            LARGE(1) = -32769
            LARGE(2) = -1
            RIGHT(1) = 9344
            RIGHT(2) = 0
            DIVER(1) = 9472
            DIVER(2) = 0
            LOG10(1) = 546979738
            LOG10(2) = -805796613
         ELSE IF ( SMALL(1) .EQ. 1267827943
     *       .AND. SMALL(2) .EQ. 704643072) THEN
*               *** IBM MAINFRAME ***
            SMALL(1) = 1048576
            SMALL(2) = 0
            LARGE(1) = 2147483647
            LARGE(2) = -1
            RIGHT(1) = 856686592
            RIGHT(2) = 0
            DIVER(1) = 873463808
            DIVER(2) = 0
            LOG10(1) = 1091781651
            LOG10(2) = 1352628735
         ELSE IF ( SMALL(1) .EQ. 1120022684
     *       .AND. SMALL(2) .EQ. -448790528) THEN
*           *** CONVEX C-1 ***
            SMALL(1) = 1048576
            SMALL(2) = 0
            LARGE(1) = 2147483647
            LARGE(2) = -1
            RIGHT(1) = 1019215872
            RIGHT(2) = 0
            DIVER(1) = 1020264448
            DIVER(2) = 0
            LOG10(1) = 1072907283
            LOG10(2) = 1352628735
         ELSE IF ( SMALL(1) .EQ. 815547074
     *       .AND. SMALL(2) .EQ. 58688) THEN
*           *** VAX G-FLOATING ***
            SMALL(1) = 16
            SMALL(2) = 0
            LARGE(1) = -32769
            LARGE(2) = -1
            RIGHT(1) = 15552
            RIGHT(2) = 0
            DIVER(1) = 15568
            DIVER(2) = 0
            LOG10(1) = 1142112243
            LOG10(2) = 2046775455
         ELSE
            DMACH(2) = 1.D27 + 1
            DMACH(3) = 1.D27
            LARGE(2) = LARGE(2) - RIGHT(2)
            IF (LARGE(2) .EQ. 64 .AND. SMALL(2) .EQ. 0) THEN
               CRAY1(1) = 67291416
               DO 10 J = 1, 20
                  CRAY1(J+1) = CRAY1(J) + CRAY1(J)
 10               CONTINUE
               CRAY1(22) = CRAY1(21) + 321322
               DO 20 J = 22, 37
                  CRAY1(J+1) = CRAY1(J) + CRAY1(J)
 20               CONTINUE
               IF (CRAY1(38) .EQ. SMALL(1)) THEN
*                  *** CRAY ***
                  CALL I1MCRY(SMALL(1), J, 8285, 8388608, 0)
                  SMALL(2) = 0
                  CALL I1MCRY(LARGE(1), J, 24574, 16777215, 16777215)
                  CALL I1MCRY(LARGE(2), J, 0, 16777215, 16777214)
                  CALL I1MCRY(RIGHT(1), J, 16291, 8388608, 0)
                  RIGHT(2) = 0
                  CALL I1MCRY(DIVER(1), J, 16292, 8388608, 0)
                  DIVER(2) = 0
                  CALL I1MCRY(LOG10(1), J, 16383, 10100890, 8715215)
                  CALL I1MCRY(LOG10(2), J, 0, 16226447, 9001388)
               ELSE
                  WRITE(*,9000)
                  STOP 779
                  END IF
            ELSE
               WRITE(*,9000)
               STOP 779
               END IF
            END IF
         SC = 987
         END IF
*    SANITY CHECK
      IF (DMACH(4) .GE. 1.0D0) STOP 778
      IF (I .LT. 1 .OR. I .GT. 5) THEN
         WRITE(*,*) 'D1MACH(I): I =',I,' is out of bounds.'
         STOP
         END IF
      D1MACH = DMACH(I)
      RETURN
 9000 FORMAT(/' Adjust D1MACH by uncommenting data statements'/
     *' appropriate for your machine.')
* /* Standard C source for D1MACH -- remove the * in column 1 */
*#include <stdio.h>
*#include <float.h>
*#include <math.h>
*double d1mach_(long *i)
*{
*	switch(*i){
*	  case 1: return DBL_MIN;
*	  case 2: return DBL_MAX;
*	  case 3: return DBL_EPSILON/FLT_RADIX;
*	  case 4: return DBL_EPSILON;
*	  case 5: return log10((double)FLT_RADIX);
*	  }
*	fprintf(stderr, "invalid argument: d1mach(%ld)\n", *i);
*	exit(1); return 0; /* some compilers demand return values */
*}
      END
      SUBROUTINE I1MCRY(A, A1, B, C, D)
**** SPECIAL COMPUTATION FOR OLD CRAY MACHINES ****
      INTEGER A, A1, B, C, D
      A1 = 16777216*B + C
      A = 16777216*A1 + D
      END
 
      PROGRAM MAIN
      DOUBLE PRECISION D1MACH
      EXTERNAL D1MACH
      PRINT *,D1MACH(1)
      PRINT *,D1MACH(2)
      PRINT *,D1MACH(3)
      PRINT *,D1MACH(4)
      PRINT *,D1MACH(5)
      END
 

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