philipp/hdf5
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
Files
3c169f947382da170c8589f6c00896a9c4ea8e6c
hdf5/hl/fortran/test/tsttable.F90
M. Scot Breitenfeld 7b056aadff Added SEQUENCE to derived types for NAG: 
Section 81 of the compiler manual, e.g. at

http://www.nag.co.uk/nagware/np/r61_doc/np61_manual.pdf

covers details about the compiler's internal representations, including

"
Fortran derived types are translated into C structs.
If BIND(C) or SEQUENCE is used, the order of the items within
the struct is the same as the order within the derived type definition.
Otherwise, the order of items is permuted to
put larger types at the front of the struct so as to improve alignment
and reduce storage; the C output code can be
inspected to determine the ordering used.
"

Removed INTENT(IN) to fix segfaults in C APIs for TYPE(C_PTR).

Tested: NAG (gnu)
2016-09-23 11:31:43 -05:00

759 lines
24 KiB
Fortran
Raw Blame History

! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
! 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. *
! * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
!
!
! This file contains the FORTRAN90 tests for H5LT
!
#include <H5config_f.inc>
MODULE TSTTABLE
CONTAINS
!-------------------------------------------------------------------------
! test_begin
!-------------------------------------------------------------------------
SUBROUTINE test_begin(string)
CHARACTER(LEN=*), INTENT(IN) :: string
WRITE(*, fmt = '(A)', ADVANCE = 'no') string
END SUBROUTINE test_begin
!-------------------------------------------------------------------------
! passed
!-------------------------------------------------------------------------
SUBROUTINE passed()
WRITE(*, fmt = '(T12,A6)') 'PASSED'
END SUBROUTINE passed
END MODULE TSTTABLE
MODULE TSTTABLE_TESTS
USE TH5_MISC_GEN
IMPLICIT NONE
CONTAINS
!-------------------------------------------------------------------------
! test_table1
!-------------------------------------------------------------------------
SUBROUTINE test_table1()
USE H5TB ! module of H5TB
USE HDF5 ! module of HDF5 library
USE TSTTABLE ! module for testing table support routines
IMPLICIT NONE
CHARACTER(len=8), PARAMETER :: filename = "f1tab.h5" ! File name
CHARACTER(LEN=5), PARAMETER :: dsetname1 = "dset1" ! Dataset name
INTEGER(HID_T) :: file_id ! File identifier
INTEGER(HSIZE_T), PARAMETER :: nfields = 4 ! nfields
INTEGER(HSIZE_T), PARAMETER :: nrecords = 5 ! nrecords
CHARACTER(LEN=9),DIMENSION(1:nfields) :: field_names ! field names
INTEGER(SIZE_T), DIMENSION(1:nfields) :: field_offset ! field offset
INTEGER(HID_T), DIMENSION(1:nfields) :: field_types ! field types
INTEGER(HSIZE_T), PARAMETER :: chunk_size = 5 ! chunk size
INTEGER, PARAMETER :: compress = 0 ! compress
INTEGER :: errcode = 0 ! Error flag
INTEGER :: i ! general purpose integer
INTEGER(SIZE_T) :: type_size ! Size of the datatype
INTEGER(SIZE_T) :: type_sizec ! Size of the character datatype
INTEGER(SIZE_T) :: type_sizei ! Size of the integer datatype
INTEGER(SIZE_T) :: type_sized ! Size of the double precision datatype
INTEGER(SIZE_T) :: type_sizer ! Size of the real datatype
INTEGER(HID_T) :: type_id_c ! Memory datatype identifier (for character field)
INTEGER(SIZE_T) :: offset ! Member's offset
INTEGER(HSIZE_T) :: start = 0 ! start record
INTEGER, DIMENSION(nrecords) :: bufi ! Data buffer
INTEGER, DIMENSION(nrecords) :: bufir ! Data buffer
REAL, DIMENSION(nrecords) :: bufr ! Data buffer
REAL, DIMENSION(nrecords) :: bufrr ! Data buffer
DOUBLE PRECISION, DIMENSION(nrecords) :: bufd ! Data buffer
DOUBLE PRECISION, DIMENSION(nrecords) :: bufdr ! Data buffer
CHARACTER(LEN=2), DIMENSION(nrecords), PARAMETER :: bufs = (/"AB","CD","EF","GH","IJ"/) ! Data buffer
CHARACTER(LEN=2), DIMENSION(nrecords) :: bufsr ! Data buffer
INTEGER(HSIZE_T) :: nfieldsr ! nfields
INTEGER(HSIZE_T) :: nrecordsr ! nrecords
CHARACTER(LEN=9), DIMENSION(1:nfields) :: field_namesr ! field names
INTEGER(SIZE_T), DIMENSION(1:nfields) :: field_offsetr ! field offset
INTEGER(SIZE_T), DIMENSION(1:nfields) :: field_sizesr ! field sizes
INTEGER(SIZE_T) :: type_sizeout = 0 ! size of the datatype
INTEGER :: maxlen = 0 ! max chararter length of a field name
INTEGER :: Cs_sizeof_double = H5_SIZEOF_DOUBLE ! C's sizeof double
INTEGER :: SIZEOF_X
LOGICAL :: Exclude_double
CHARACTER(LEN=62) :: test_txt
! Find size of DOUBLE PRECISION
#ifdef H5_FORTRAN_HAVE_STORAGE_SIZE
SIZEOF_X = storage_size(bufd(1))/storage_size(c_char_'a')
#else
SIZEOF_X = SIZEOF(bufd(1))
#endif
! If Fortran DOUBLE PRECISION and C DOUBLE sizeofs don't match then disable
! creating a DOUBLE RECISION field, and instead create a REAL field. This
! is needed to handle when DOUBLE PRECISION is promoted via a compiler flag.
Exclude_double = .FALSE.
IF(Cs_sizeof_double.NE.SIZEOF_X)THEN
Exclude_double = .TRUE.
ENDIF
!
! Initialize the data arrays.
!
DO i = 1, nrecords
bufi(i) = i
bufr(i) = i
bufd(i) = i
END DO
!
! Create a new file using default properties.
!
CALL h5fcreate_f(filename, H5F_ACC_TRUNC_F, file_id, errcode)
!-------------------------------------------------------------------------
! make table
! initialize the table parameters
!-------------------------------------------------------------------------
field_names(1) = "field1"
field_names(2) = "field2a"
field_names(3) = "field3ab"
field_names(4) = "field4abc"
!
! calculate total size by calculating sizes of each member
!
CALL h5tcopy_f(H5T_NATIVE_CHARACTER, type_id_c, errcode)
type_size = 2
CALL h5tset_size_f(type_id_c, type_size, errcode)
CALL h5tget_size_f(type_id_c, type_sizec, errcode)
CALL h5tget_size_f(H5T_NATIVE_INTEGER, type_sizei, errcode)
IF(exclude_double)THEN
CALL h5tget_size_f(H5T_NATIVE_REAL, type_sized, errcode)
ELSE
CALL h5tget_size_f(H5T_NATIVE_DOUBLE, type_sized, errcode)
ENDIF
CALL h5tget_size_f(H5T_NATIVE_REAL, type_sizer, errcode)
type_size = type_sizec + type_sizei + type_sized + type_sizer
!
! type ID's
!
field_types(1) = type_id_c
field_types(2) = H5T_NATIVE_INTEGER
IF(exclude_double)THEN
field_types(3) = H5T_NATIVE_REAL
ELSE
field_types(3) = H5T_NATIVE_DOUBLE
ENDIF
field_types(4) = H5T_NATIVE_REAL
!
! offsets
!
offset = 0
field_offset(1) = offset
offset = offset + type_sizec ! Offset of the second memeber is 2
field_offset(2) = offset
offset = offset + type_sizei ! Offset of the second memeber is 6
field_offset(3) = offset
offset = offset + type_sized ! Offset of the second memeber is 14
field_offset(4) = offset
!-------------------------------------------------------------------------
! make table
!-------------------------------------------------------------------------
test_txt = "Make table"
CALL test_begin(test_txt)
CALL h5tbmake_table_f(dsetname1,&
file_id,&
dsetname1,&
nfields,&
nrecords,&
type_size,&
field_names,&
field_offset,&
field_types,&
chunk_size,&
compress,&
errcode )
CALL passed()
!-------------------------------------------------------------------------
! write field
!-------------------------------------------------------------------------
test_txt = "Read/Write field by name"
CALL test_begin(test_txt)
CALL h5tbwrite_field_name_f(file_id,dsetname1,field_names(1),start,nrecords,type_sizec,&
bufs,errcode)
CALL h5tbwrite_field_name_f(file_id,dsetname1,field_names(2),start,nrecords,type_sizei,&
bufi,errcode)
IF(exclude_double)THEN
CALL h5tbwrite_field_name_f(file_id,dsetname1,field_names(3),start,nrecords,type_sized,&
bufr,errcode)
ELSE
CALL h5tbwrite_field_name_f(file_id,dsetname1,field_names(3),start,nrecords,type_sized,&
bufd,errcode)
ENDIF
CALL h5tbwrite_field_name_f(file_id,dsetname1,field_names(4),start,nrecords,type_sizer,&
bufr,errcode)
!-------------------------------------------------------------------------
! read field
!-------------------------------------------------------------------------
! Read an invalid field, should fail
CALL h5tbread_field_name_f(file_id,dsetname1,'DoesNotExist',start,nrecords,type_sizec,&
bufsr,errcode)
IF(errcode.GE.0)THEN
PRINT *, 'error in h5tbread_field_name_f'
CALL h5fclose_f(file_id, errcode)
CALL h5close_f(errcode)
STOP
ENDIF
! Read a valid field, should pass
CALL h5tbread_field_name_f(file_id,dsetname1,field_names(1),start,nrecords,type_sizec,&
bufsr,errcode)
IF(errcode.LT.0)THEN
PRINT *, 'error in h5tbread_field_name_f'
CALL h5fclose_f(file_id, errcode)
CALL h5close_f(errcode)
STOP
ENDIF
!
! compare read and write buffers.
!
DO i = 1, nrecords
IF ( bufsr(i) .NE. bufs(i) ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufsr(i), ' and ', bufs(i)
STOP
ENDIF
END DO
CALL h5tbread_field_name_f(file_id,dsetname1,field_names(2),start,nrecords,type_sizei,&
bufir,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
IF ( bufir(i) .NE. bufi(i) ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufir(i), ' and ', bufi(i)
STOP
ENDIF
END DO
IF(exclude_double)THEN
CALL h5tbread_field_name_f(file_id,dsetname1,field_names(3),start,nrecords,type_sized,&
bufrr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_name_f", bufrr(i), bufr(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufrr(i), ' and ', bufr(i)
STOP
ENDIF
END DO
ELSE
CALL h5tbread_field_name_f(file_id,dsetname1,field_names(3),start,nrecords,type_sized,&
bufdr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_name_f", bufdr(i), bufd(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufdr(i), ' and ', bufd(i)
STOP
ENDIF
END DO
ENDIF
CALL h5tbread_field_name_f(file_id,dsetname1,field_names(4),start,nrecords,type_sizer,&
bufrr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_name_f", bufrr(i), bufr(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufrr(i), ' and ', bufr(i)
STOP
ENDIF
END DO
CALL passed()
!-------------------------------------------------------------------------
! write field
!-------------------------------------------------------------------------
test_txt = "Read/Write field by index"
CALL test_begin(test_txt)
CALL h5tbwrite_field_index_f(file_id,dsetname1,1,start,nrecords,type_sizec,&
bufs,errcode)
CALL h5tbwrite_field_index_f(file_id,dsetname1,2,start,nrecords,type_sizei,&
bufi,errcode)
IF(exclude_double)THEN
CALL h5tbwrite_field_index_f(file_id,dsetname1,3,start,nrecords,type_sized,&
bufr,errcode)
ELSE
CALL h5tbwrite_field_index_f(file_id,dsetname1,3,start,nrecords,type_sized,&
bufd,errcode)
ENDIF
CALL h5tbwrite_field_index_f(file_id,dsetname1,4,start,nrecords,type_sizer,&
bufr,errcode)
!-------------------------------------------------------------------------
! read field
!-------------------------------------------------------------------------
CALL h5tbread_field_index_f(file_id,dsetname1,1,start,nrecords,type_sizec,&
bufsr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_index_f", bufsr(i), bufs(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufsr(i), ' and ', bufs(i)
STOP
ENDIF
END DO
CALL h5tbread_field_index_f(file_id,dsetname1,2,start,nrecords,type_sizei,&
bufir,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_index_f", bufir(i), bufi(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufir(i), ' and ', bufi(i)
STOP
ENDIF
END DO
IF(exclude_double)THEN
CALL h5tbread_field_index_f(file_id,dsetname1,3,start,nrecords,type_sized,&
bufrr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_index_f", bufrr(i), bufr(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufrr(i), ' and ', bufr(i)
STOP
ENDIF
END DO
ELSE
CALL h5tbread_field_index_f(file_id,dsetname1,3,start,nrecords,type_sized,&
bufdr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_index_f", bufdr(i), bufd(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufdr(i), ' and ', bufd(i)
STOP
ENDIF
END DO
ENDIF
CALL h5tbread_field_index_f(file_id,dsetname1,4,start,nrecords,type_sizer,&
bufrr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_index_f", bufrr(i), bufr(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufrr(i), ' and ', bufr(i)
STOP
ENDIF
END DO
CALL passed()
!-------------------------------------------------------------------------
! Insert field
! we insert a field callsed "field5" with the same type and buffer as field 4 (Real)
!-------------------------------------------------------------------------
test_txt = "Insert field"
CALL test_begin(test_txt)
CALL h5tbinsert_field_f(file_id,dsetname1,"field5",field_types(4),4,bufr,errcode)
CALL h5tbread_field_index_f(file_id,dsetname1,5,start,nrecords,type_sizer,&
bufrr,errcode)
!
! compare read and write buffers.
!
DO i = 1, nrecords
CALL VERIFY("h5tbread_field_index_f", bufrr(i), bufr(i), errcode)
IF (errcode .NE.0 ) THEN
PRINT *, 'read buffer differs from write buffer'
PRINT *, bufrr(i), ' and ', bufr(i)
STOP
ENDIF
END DO
CALL passed()
!-------------------------------------------------------------------------
! Delete field
!-------------------------------------------------------------------------
test_txt = "Delete field"
CALL test_begin(test_txt)
CALL h5tbdelete_field_f(file_id,dsetname1,"field4abc",errcode)
CALL passed()
!-------------------------------------------------------------------------
! Gets the number of records and fields
!-------------------------------------------------------------------------
test_txt = "Get table info"
CALL test_begin(test_txt)
CALL h5tbget_table_info_f(file_id,dsetname1,nfieldsr,nrecordsr,errcode )
IF ( nfieldsr .NE. nfields .AND. nrecordsr .NE. nrecords ) THEN
PRINT *, 'h5tbget_table_info_f return error'
STOP
ENDIF
CALL passed()
!-------------------------------------------------------------------------
! Get information about fields
!-------------------------------------------------------------------------
test_txt = "Get fields info"
CALL test_begin(test_txt)
CALL h5tbget_field_info_f(file_id, dsetname1, nfields, field_namesr, field_sizesr,&
field_offsetr, type_sizeout, errcode, maxlen )
IF ( errcode.NE.0 ) THEN
WRITE(*,'(/,5X,"H5TBGET_FIELD_INFO_F: RETURN ERROR")')
STOP
ENDIF
! "field4abc" was deleted and "field5" was added.
field_names(4) = "field5"
IF ( maxlen .NE. 8 ) THEN
WRITE(*,'(/,5X,"H5TBGET_FIELD_INFO_F: INCORRECT MAXIMUM CHARACTER LENGTH OF THE FIELD NAMES")')
WRITE(*,'(5X,"RETURNED VALUE = ", I0, ", CORRECT VALUE = ", I0)') maxlen, 8
STOP
ENDIF
DO i = 1, nfields
IF ( field_namesr(i) .NE. field_names(i)) THEN
WRITE(*,'(/,5X,"H5TBGET_FIELD_INFO_F: READ/WRITE FIELD NAMES DIFFER")')
WRITE(*,'(27X,A," AND ",A)') TRIM(field_namesr(i)), TRIM(field_names(i))
STOP
ENDIF
END DO
CALL passed()
!-------------------------------------------------------------------------
! end
!-------------------------------------------------------------------------
!
! Close the file.
!
CALL h5fclose_f(file_id, errcode)
!
! end function.
!
END SUBROUTINE test_table1
!-------------------------------------------------------------------------
! test_table2
! Tests F2003 versions of H5TBread_table_f and H5TBmake_table_f
!-------------------------------------------------------------------------
SUBROUTINE test_table2()
USE H5TB ! module of H5TB
USE HDF5 ! module of HDF5 library
USE TSTTABLE ! module for testing table support routines
IMPLICIT NONE
INTEGER, PARAMETER :: i8 = SELECTED_INT_KIND(9) !should map to INTEGER*4 on most modern processors
INTEGER, PARAMETER :: i16 = SELECTED_INT_KIND(9) ! (18) !should map to INTEGER*8 on most modern processors
INTEGER, PARAMETER :: sp = SELECTED_REAL_KIND(5) ! This should map to REAL*4 on most modern processors
INTEGER, PARAMETER :: dp = SELECTED_REAL_KIND(10) ! This should map to REAL*8 on most modern processors
TYPE particle_t
SEQUENCE
CHARACTER(LEN=11) :: name
INTEGER(KIND=i8) :: lati
INTEGER(KIND=i16) :: long
REAL(KIND=sp) :: pressure
REAL(KIND=dp) :: temperature
END TYPE particle_t
INTEGER(HSIZE_T), PARAMETER :: nfields = 5 ! nfields
INTEGER(HSIZE_T), PARAMETER :: nrecords = 8 ! nrecords
CHARACTER(len=8), PARAMETER :: filename = "f2tab.h5" ! File name
CHARACTER(LEN=5), PARAMETER :: table_name = "tabel" ! table name
CHARACTER(LEN=10), PARAMETER :: table_name_fill = "tabel_fill" ! table name
! Define field information
CHARACTER(LEN=11), DIMENSION(1:NFIELDS), PARAMETER :: field_names = (/&
"Name ", &
"Latitude ", &
"Longitude ", &
"Pressure ", &
"Temperature" &
/)
INTEGER(hid_t), DIMENSION(1:nfields) :: field_type
INTEGER(hid_t) :: string_type
INTEGER(hid_t) :: file_id
INTEGER(hsize_t), PARAMETER :: chunk_size = 10
TYPE(particle_t), DIMENSION(1:nrecords), TARGET :: fill_data
INTEGER :: compress
INTEGER :: i
INTEGER(SIZE_T) :: dst_size
TYPE(particle_t), DIMENSION(1:nrecords), TARGET :: dst_buf
INTEGER(SIZE_T), DIMENSION(1:nfields) :: dst_offset
INTEGER(SIZE_T), DIMENSION(1:nfields) :: dst_sizes
TYPE(particle_t), DIMENSION(1:nrecords), TARGET :: p_data
TYPE(particle_t), DIMENSION(1:nrecords), TARGET :: r_data
TYPE(C_PTR) :: f_ptr1, f_ptr2, f_ptr3
INTEGER :: errcode
CHARACTER(LEN=62) :: test_txt
test_txt = "Testing H5TBread_table_f and H5TBmake_table_f (F2003)"
CALL test_begin(test_txt)
! Define an array of Particles
p_data(1:nrecords) = (/ &
particle_t("zero ",0_i8,0_i16,0.0_sp,0.0_dp), &
particle_t("one ",10_i8,10_i16,10.0_sp,10.0_dp), &
particle_t("two ",20_i8,20_i16,20.0_sp,20.0_dp), &
particle_t("three ",30_i8,30_i16,30.0_sp,30.0_dp),&
particle_t("four ",40_i8,40_i16,40.0_sp,40.0_dp), &
particle_t("five ",50_i8,50_i16,50.0_sp,50.0_dp), &
particle_t("six ",60_i8,60_i16,60.0_sp,60.0_dp), &
particle_t("seven ",70_i8,70_i16,70.0_sp,70.0_dp) &
/)
fill_data(1:nrecords) = particle_t("no data",-1_i8, -2_i16, -99.0_sp, -100.0_dp)
compress = 0
dst_size = H5OFFSETOF(C_LOC(dst_buf(1)), C_LOC(dst_buf(2)))
#ifdef H5_FORTRAN_HAVE_STORAGE_SIZE
dst_sizes(1:nfields) = (/ &
storage_size(dst_buf(1)%name)/storage_size(c_char_'a'), &
storage_size(dst_buf(1)%lati)/storage_size(c_char_'a'), &
storage_size(dst_buf(1)%long)/storage_size(c_char_'a'), &
storage_size(dst_buf(1)%pressure)/storage_size(c_char_'a'), &
storage_size(dst_buf(1)%temperature)/storage_size(c_char_'a') &
/)
#else
dst_sizes(1:nfields) = (/ &
sizeof(dst_buf(1)%name), &
sizeof(dst_buf(1)%lati), &
sizeof(dst_buf(1)%long), &
sizeof(dst_buf(1)%pressure), &
sizeof(dst_buf(1)%temperature) &
/)
#endif
dst_offset(1:nfields) = (/ &
H5OFFSETOF(C_LOC(dst_buf(1)), C_LOC(dst_buf(1)%name(1:1))), &
H5OFFSETOF(C_LOC(dst_buf(1)), C_LOC(dst_buf(1)%lati)), &
H5OFFSETOF(C_LOC(dst_buf(1)), C_LOC(dst_buf(1)%long)), &
H5OFFSETOF(C_LOC(dst_buf(1)), C_LOC(dst_buf(1)%pressure)), &
H5OFFSETOF(C_LOC(dst_buf(1)), C_LOC(dst_buf(1)%temperature)) &
/)
! Initialize field_type
CALL H5Tcopy_f(H5T_FORTRAN_S1, string_type, errcode)
CALL H5Tset_size_f(string_type, INT(11,size_t), errcode)
field_type(1:5) = (/ &
string_type,&
h5kind_to_type(KIND(dst_buf(1)%lati), H5_INTEGER_KIND),&
h5kind_to_type(KIND(dst_buf(1)%long), H5_INTEGER_KIND),&
h5kind_to_type(KIND(dst_buf(1)%pressure), H5_REAL_KIND),&
h5kind_to_type(KIND(dst_buf(1)%temperature), H5_REAL_KIND) &
/)
!
! Create a new file using default properties.
!
CALL h5fcreate_f(filename, H5F_ACC_TRUNC_F, file_id, errcode)
! Check setting the fill values
f_ptr1 = C_NULL_PTR
f_ptr2 = C_LOC(fill_data(1)%name(1:1))
CALL h5tbmake_table_f("Table Title Fill", file_id, table_name_fill, nfields, nrecords, &
dst_size, field_names, dst_offset, field_type, &
chunk_size, f_ptr2, compress, f_ptr1, errcode )
f_ptr3 = C_LOC(r_data(1)%name(1:1))
CALL h5tbread_table_f(file_id, table_name_fill, nfields, dst_size, dst_offset, dst_sizes, f_ptr3, errcode)
DO i = 1, nfields
CALL VERIFY("h5tbread_table_f", r_data(i)%name, fill_data(i)%name, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%lati, fill_data(i)%lati, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%long, fill_data(i)%long, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%pressure, fill_data(i)%pressure, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%temperature, fill_data(i)%temperature, errcode)
IF (errcode .NE.0 ) THEN
PRINT*,'H5TBmake/read_table_f --filled-- FAILED'
STOP
ENDIF
ENDDO
! Check setting the table values
f_ptr1 = C_LOC(p_data(1)%name(1:1))
f_ptr2 = C_NULL_PTR
CALL h5tbmake_table_f("Table Title",file_id, table_name, nfields, nrecords, &
dst_size, field_names, dst_offset, field_type, &
chunk_size, f_ptr2, compress, f_ptr1, errcode )
f_ptr3 = C_LOC(r_data(1)%name(1:1))
CALL h5tbread_table_f(file_id, table_name, nfields, dst_size, dst_offset, dst_sizes, f_ptr3, errcode)
DO i = 1, nfields
CALL VERIFY("h5tbread_table_f", r_data(i)%name, p_data(i)%name, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%lati, p_data(i)%lati, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%long, p_data(i)%long, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%pressure, p_data(i)%pressure, errcode)
CALL VERIFY("h5tbread_table_f", r_data(i)%temperature, p_data(i)%temperature, errcode)
IF (errcode .NE.0 ) THEN
PRINT*,'H5TBmake/read_table_f FAILED'
STOP
ENDIF
ENDDO
CALL passed()
!-------------------------------------------------------------------------
! end
!-------------------------------------------------------------------------
!
! Close the file.
!
CALL h5fclose_f(file_id, errcode)
END SUBROUTINE test_table2
END MODULE TSTTABLE_TESTS
PROGRAM table_test
USE H5TB ! module of H5TB
USE HDF5 ! module of HDF5 library
USE TSTTABLE_TESTS ! module for testing table routines
IMPLICIT NONE
INTEGER :: errcode = 0
!
! Initialize FORTRAN predefined datatypes.
!
CALL h5open_f(errcode)
CALL test_table1()
CALL test_table2()
!
! Close FORTRAN predefined datatypes.
!
CALL h5close_f(errcode)
END PROGRAM table_test
Reference in New Issue View Git Blame Copy Permalink