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|
!****p* Program/H5test_kind
!
! NAME
! Executable: H5test_kind
!
! FILE
! fortran/src/H5test_kind.f90
!
! PURPOSE
! This stand alone program is used at build time to generate the program
! H5fortran_detect.f90. It cycles through all the available KIND parameters for
! integers and reals. The appropriate program and subroutines are then generated
! depending on which of the KIND values are found.
!
! NOTES
! This program is depreciated in favor of H5test_kind_SIZEOF.f90 and is only
! used when the Fortran intrinsic function SIZEOF is not available. It generates
! code that does not make use of SIZEOF in H5fortran_detect.f90 which is less
! portable in comparison to using SIZEOF.
!
! The availability of SIZEOF is checked at configure time and the TRUE/FALSE
! condition is set in the configure variable "FORTRAN_HAVE_SIZEOF".
!
! COPYRIGHT
! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
! Copyright by The HDF Group. *
! Copyright by the Board of Trustees of the University of Illinois. *
! All rights reserved. *
! *
! This file is part of HDF5. The full HDF5 copyright notice, including *
! terms governing use, modification, and redistribution, is contained in *
! the files COPYING and Copyright.html. COPYING can be found at the root *
! of the source code distribution tree; Copyright.html can be found at the *
! root level of an installed copy of the electronic HDF5 document set and *
! is linked from the top-level documents page. It can also be found at *
! http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
! access to either file, you may request a copy from help@hdfgroup.org. *
! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
!
! AUTHOR
! Elena Pourma
!
!*****
PROGRAM test_kind
IMPLICIT NONE
INTEGER :: i, j, ii, ir, last, ikind_numbers(10), rkind_numbers(10)
INTEGER :: ji, jr, jd
last = -1
ii = 0
j = SELECTED_INT_KIND(18)
DO i = 1,100
j = SELECTED_INT_KIND(i)
IF(j .NE. last) THEN
IF(last .NE. -1) THEN
ii = ii + 1
ikind_numbers(ii) = last
ENDIF
last = j
IF(j .EQ. -1) EXIT
ENDIF
ENDDO
last = -1
ir = 0
DO i = 1,100
j = SELECTED_REAL_KIND(i)
IF(j .NE. last) THEN
IF(last .NE. -1) THEN
ir = ir + 1
rkind_numbers(ir) = last
ENDIF
last = j
IF(j .EQ. -1) EXIT
ENDIF
ENDDO
! Generate program information:
WRITE(*,'(40(A,/))') &
'!****h* ROBODoc/H5fortran_detect.f90',&
'!',&
'! NAME',&
'! H5fortran_detect',&
'! ',&
'! PURPOSE',&
'! This stand alone program is used at build time to generate the header file',&
'! H5fort_type_defines.h. The source code itself was automatically generated by',&
'! the program H5test_kind.f90',&
'!',&
'! NOTES',&
'! This source code does not make use of the Fortran intrinsic function SIZEOF because',&
'! the availability of the intrinsic function was determined to be not available at',&
'! configure time',&
'!',&
'! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *',&
'! Copyright by The HDF Group. *',&
'! Copyright by the Board of Trustees of the University of Illinois. *',&
'! All rights reserved. *',&
'! *',&
'! This file is part of HDF5. The full HDF5 copyright notice, including *',&
'! terms governing use, modification, and redistribution, is contained in *',&
'! the files COPYING and Copyright.html. COPYING can be found at the root *',&
'! of the source code distribution tree; Copyright.html can be found at the *',&
'! root level of an installed copy of the electronic HDF5 document set and *',&
'! is linked from the top-level documents page. It can also be found at *',&
'! http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *',&
'! access to either file, you may request a copy from help@hdfgroup.org. *',&
'! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *',&
'!',&
'! AUTHOR',&
'! H5test_kind.f90',&
'!',&
'!*****'
! Generate a program
WRITE(*,*) "PROGRAM int_kind"
WRITE(*,*) "WRITE(*,*) "" /*generating header file*/ """
ji = 0
WRITE(*, "("" CALL i"", i2.2,""()"")") ji
jr = 0
WRITE(*, "("" CALL r"", i2.2,""()"")") jr
jd = 0
WRITE(*, "("" CALL d"", i2.2,""()"")") jd
DO i = 1, ii
j = ikind_numbers(i)
WRITE(*, "("" CALL i"", i2.2,""()"")") j
ENDDO
DO i = 1, ir
j = rkind_numbers(i)
WRITE(*, "("" CALL r"", i2.2,""()"")") j
ENDDO
WRITE(*,*) "END PROGRAM int_kind"
j = 0
ji = KIND(1)
WRITE(*, "("" SUBROUTINE i"", i2.2,""()"")") j
WRITE(*,*)" IMPLICIT NONE"
WRITE(*,*)" INTEGER :: a = 0"
WRITE(*,*)" INTEGER :: a_size"
WRITE(*,*)" CHARACTER(LEN=2) :: jchr2"
WRITE(*,*)" a_size = BIT_SIZE(a)"
WRITE(*,*)" IF (a_size .EQ. 8) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",ji
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_NATIVE_1_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" endif"
WRITE(*,*)" IF (a_size .EQ. 16) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",ji
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_NATIVE_2_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" endif"
WRITE(*,*)" IF (a_size .EQ. 32) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",ji
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_NATIVE_4_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (a_size .EQ. 64) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",ji
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_NATIVE_8_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (a_size .EQ. 128) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",ji
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_NATIVE_16_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" RETURN"
WRITE(*,*)"END SUBROUTINE"
jr = KIND(1.0)
WRITE(*, "("" SUBROUTINE r"", i2.2,""()"")") j
WRITE(*,*)" IMPLICIT NONE"
WRITE(*,*)" REAL :: b(32)"
WRITE(*,*)" INTEGER :: a(1)"
WRITE(*,*)" INTEGER :: a_size"
WRITE(*,*)" INTEGER :: real_size"
WRITE(*,*)" CHARACTER(LEN=2) :: jchr2"
WRITE(*,*)" a_size = BIT_SIZE(a(1)) ! Size in bits for integer"
WRITE(*,*)" real_size = (SIZE(TRANSFER(b,a))*a_size)/SIZE(b)"
WRITE(*,*)" IF (real_size .EQ. 32) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",jr
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_REAL_NATIVE_4_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (real_size .EQ. 64) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",jr
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_REAL_NATIVE_8_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (real_size .EQ. 128) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",jr
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_REAL_NATIVE_16_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" RETURN"
WRITE(*,*)"END SUBROUTINE"
jd = KIND(1.d0)
WRITE(*, "("" SUBROUTINE d"", i2.2,""()"")") j
WRITE(*,*)" IMPLICIT NONE"
WRITE(*,*)" DOUBLE PRECISION :: b=0"
WRITE(*,*)" INTEGER :: a(8)=0"
WRITE(*,*)" INTEGER :: a_size"
WRITE(*,*)" INTEGER :: b_size"
WRITE(*,*)" CHARACTER(LEN=2) :: jchr2"
WRITE(*,*)" a_size = BIT_SIZE(a(1))"
WRITE(*,*)" b_size = SIZE(transfer(b,a))*a_size"
WRITE(*,*)" IF (b_size .EQ. 64) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",jd
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_DOUBLE_NATIVE_8_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (b_size .EQ. 128) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",jd
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_DOUBLE_NATIVE_16_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" RETURN"
WRITE(*,*)"END SUBROUTINE"
DO i = 1, ii
j = ikind_numbers(i)
WRITE(*, "("" SUBROUTINE i"", i2.2,""()"")") j
WRITE(*,*)" IMPLICIT NONE"
WRITE(*,*)" INTEGER(",j,") :: a = 0"
WRITE(*,*)" INTEGER :: a_size"
WRITE(*,*)" CHARACTER(LEN=2) :: jchr2"
WRITE(*,*)" a_size = BIT_SIZE(a)"
WRITE(*,*)" IF (a_size .EQ. 8) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_INTEGER_1_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (a_size .EQ. 16) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_INTEGER_2_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (a_size .EQ. 32) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_INTEGER_4_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (a_size .EQ. 64) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_INTEGER_8_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (a_size .EQ. 128) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_INTEGER_16_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" RETURN"
WRITE(*,*)" END SUBROUTINE"
ENDDO
DO i = 1, ir
j = rkind_numbers(i)
WRITE(*, "("" SUBROUTINE r"", i2.2,""()"")") j
WRITE(*,*)" IMPLICIT NONE"
WRITE(*,*)" REAL(KIND=",j,") :: b(32)"
WRITE(*,*)" INTEGER :: a(1)"
WRITE(*,*)" INTEGER :: a_size"
WRITE(*,*)" INTEGER :: real_size"
WRITE(*,*)" CHARACTER(LEN=2) :: jchr2"
WRITE(*,*)" a_size = BIT_SIZE(a(1)) ! Size in bits for integer"
WRITE(*,*)" real_size = (SIZE(TRANSFER(b,a))*a_size)/SIZE(b)"
WRITE(*,*)" IF (real_size .EQ. 32) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_REAL_4_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" IF (real_size .EQ. 64) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,*)' WRITE(*,*) "#define H5_FORTRAN_HAS_REAL_8_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" endif"
WRITE(*,*)" IF (real_size .EQ. 128) THEN"
WRITE(*,*)" WRITE(jchr2,'(I2)')",j
WRITE(*,'(A)')' WRITE(*,*) "#define H5_FORTRAN_HAS_REAL_16_KIND "'//"//ADJUSTL(jchr2)"
WRITE(*,*)" ENDIF"
WRITE(*,*)" RETURN"
WRITE(*,*)" END SUBROUTINE"
ENDDO
END PROGRAM test_kind
|