diff options
Diffstat (limited to 'fortran/test/tH5MISC_1_8.F90')
-rw-r--r-- | fortran/test/tH5MISC_1_8.F90 | 76 |
1 files changed, 38 insertions, 38 deletions
diff --git a/fortran/test/tH5MISC_1_8.F90 b/fortran/test/tH5MISC_1_8.F90 index b8c777c..bad77d0 100644 --- a/fortran/test/tH5MISC_1_8.F90 +++ b/fortran/test/tH5MISC_1_8.F90 @@ -95,18 +95,18 @@ SUBROUTINE test_genprop_basic_class(total_error) IMPLICIT NONE INTEGER, INTENT(INOUT) :: total_error - INTEGER(HID_T) :: cid1 ! Generic Property class ID - INTEGER(HID_T) :: cid2 ! Generic Property class ID + INTEGER(HID_T) :: cid1 ! Generic Property class ID + INTEGER(HID_T) :: cid2 ! Generic Property class ID CHARACTER(LEN=7) :: CLASS1_NAME = "Class 1" - CHARACTER(LEN=7) :: name ! Name of class - CHARACTER(LEN=10) :: name_big ! Name of class bigger buffer + CHARACTER(LEN=7) :: name ! Name of class + CHARACTER(LEN=10) :: name_big ! Name of class bigger buffer CHARACTER(LEN=4) :: name_small ! Name of class smaller buffer INTEGER :: error INTEGER :: size LOGICAL :: flag - ! Output message about test being performed + ! Output message about test being performed !WRITE(*,*) "Testing Basic Generic Property List Class Creation Functionality" @@ -116,11 +116,11 @@ SUBROUTINE test_genprop_basic_class(total_error) CALL H5Pget_class_name_f(cid1, name, size, error) CALL verify("H5Pget_class_name", error, -1, error) - ! Create a new generic class, derived from the root of the class hierarchy + ! Create a new generic class, derived from the root of the class hierarchy CALL H5Pcreate_class_f(H5P_ROOT_F, CLASS1_NAME, cid1, error) CALL check("H5Pcreate_class", error, total_error) - ! Check class name + ! Check class name CALL H5Pget_class_name_f(cid1, name, size, error) CALL check("H5Pget_class_name", error, total_error) CALL verify("H5Pget_class_name", size,7,error) @@ -150,27 +150,27 @@ SUBROUTINE test_genprop_basic_class(total_error) total_error = total_error + 1 ENDIF - ! Check class parent + ! Check class parent CALL H5Pget_class_parent_f(cid1, cid2, error) CALL check("H5Pget_class_parent_f", error, total_error) - ! Verify class parent correct + ! Verify class parent correct CALL H5Pequal_f(cid2, H5P_ROOT_F, flag, error) CALL check("H5Pequal_f", error, total_error) CALL verify("H5Pequal_f", flag, .TRUE., total_error) - ! Make certain false postives aren't being returned + ! Make certain false postives aren't being returned CALL H5Pequal_f(cid2, H5P_FILE_CREATE_F, flag, error) CALL check("H5Pequal_f", error, total_error) CALL verify("H5Pequal_f", flag, .FALSE., total_error) - ! Close parent class + ! Close parent class CALL H5Pclose_class_f(cid2, error) CALL check("H5Pclose_class_f", error, total_error) - ! Close class + ! Close class CALL H5Pclose_class_f(cid1, error) CALL check("H5Pclose_class_f", error, total_error) @@ -187,17 +187,17 @@ SUBROUTINE test_h5s_encode(total_error) IMPLICIT NONE INTEGER, INTENT(INOUT) :: total_error - INTEGER(hid_t) :: sid1, sid3! Dataspace ID + INTEGER(hid_t) :: sid1, sid3! Dataspace ID INTEGER(hid_t) :: decoded_sid1, decoded_sid3 INTEGER(hid_t) :: fapl ! File access property - INTEGER :: rank ! LOGICAL rank of dataspace + INTEGER :: rank ! LOGICAL rank of dataspace INTEGER(size_t) :: new_size = 0, old_size = 0, orig_size=0, scalar_size=0 ! Make sure the size is large CHARACTER(LEN=288) :: sbuf CHARACTER(LEN=288) :: scalar_buf - INTEGER(hsize_t) :: n ! Number of dataspace elements + INTEGER(hsize_t) :: n ! Number of dataspace elements INTEGER(hsize_t), DIMENSION(1:3) :: start = (/0, 0, 0/) INTEGER(hsize_t), DIMENSION(1:3) :: stride = (/2, 5, 3/) @@ -217,7 +217,7 @@ SUBROUTINE test_h5s_encode(total_error) !------------------------------------------------------------------------- ! * Test encoding and decoding of simple dataspace and hyperslab selection. ! *------------------------------------------------------------------------- - ! + ! CALL H5Screate_simple_f(SPACE1_RANK, dims1, sid1, error) CALL check("H5Screate_simple", error, total_error) @@ -227,13 +227,13 @@ SUBROUTINE test_h5s_encode(total_error) CALL check("h5sselect_hyperslab_f", error, total_error) - ! Encode simple data space in a buffer + ! Encode simple data space in a buffer ! Find the buffer size without fapl CALL H5Sencode_f(sid1, sbuf, orig_size, error) CALL check("H5Sencode_f", error, total_error) CALL verify("H5Sencode_f", INT(orig_size), 279, total_error) - + ! Create file access property list CALL h5pcreate_f(H5P_FILE_ACCESS_F, fapl, error) CALL check("h5pcreate_f", error, total_error) @@ -252,7 +252,7 @@ SUBROUTINE test_h5s_encode(total_error) CALL check("H5Sencode_f", error, total_error) CALL verify("H5Sencode_f", INT(new_size), 101, total_error) - ! Try decoding bogus buffer + ! Try decoding bogus buffer CALL H5Sdecode_f(sbuf, decoded_sid1, error) CALL verify("H5Sdecode", error, -1, total_error) @@ -260,12 +260,12 @@ SUBROUTINE test_h5s_encode(total_error) CALL H5Sencode_f(sid1, sbuf, new_size, error, fapl) CALL check("H5Sencode_f", error, total_error) - ! Decode from the dataspace buffer and return an object handle + ! Decode from the dataspace buffer and return an object handle CALL H5Sdecode_f(sbuf, decoded_sid1, error) CALL check("H5Sdecode", error, total_error) - ! Verify the decoded dataspace + ! Verify the decoded dataspace CALL h5sget_simple_extent_npoints_f(decoded_sid1, n, error) CALL check("h5sget_simple_extent_npoints_f", error, total_error) CALL verify("h5sget_simple_extent_npoints_f", INT(n), INT(SPACE1_DIM1 * SPACE1_DIM2 * SPACE1_DIM3), & @@ -283,13 +283,13 @@ SUBROUTINE test_h5s_encode(total_error) ! ------------------------------------------------------------------------- ! * Test encoding and decoding of scalar dataspace. ! *------------------------------------------------------------------------- - ! - ! Create scalar dataspace + ! + ! Create scalar dataspace CALL H5Screate_f(H5S_SCALAR_F, sid3, error) CALL check("H5Screate_f",error, total_error) - ! Encode scalar data space in a buffer + ! Encode scalar data space in a buffer ! First find the buffer size CALL H5Sencode_f(sid3, scalar_buf, scalar_size, error) @@ -301,19 +301,19 @@ SUBROUTINE test_h5s_encode(total_error) CALL check("H5Sencode_f", error, total_error) - ! Decode from the dataspace buffer and return an object handle + ! Decode from the dataspace buffer and return an object handle CALL H5Sdecode_f(scalar_buf, decoded_sid3, error) CALL check("H5Sdecode_f", error, total_error) - ! Verify extent type + ! Verify extent type CALL H5Sget_simple_extent_type_f(decoded_sid3, space_type, error) CALL check("H5Sget_simple_extent_type_f", error, total_error) CALL verify("H5Sget_simple_extent_type_f", space_type, H5S_SCALAR_F, total_error) - ! Verify decoded dataspace + ! Verify decoded dataspace CALL h5sget_simple_extent_npoints_f(decoded_sid3, n, error) CALL check("h5sget_simple_extent_npoints_f", error, total_error) CALL verify("h5sget_simple_extent_npoints_f", INT(n), 1, total_error) @@ -359,7 +359,7 @@ SUBROUTINE test_scaleoffset(cleanup, total_error ) INTEGER(hsize_t), DIMENSION(1:2) :: chunk_dim = (/2, 5/) INTEGER, DIMENSION(1:2,1:5) :: orig_data INTEGER, DIMENSION(1:2,1:5) :: new_data - INTEGER(hsize_t), DIMENSION(1:2) :: start ! Start of hyperslab + INTEGER(hsize_t), DIMENSION(1:2) :: start ! Start of hyperslab INTEGER(hsize_t), DIMENSION(1:2) :: stride ! Stride of hyperslab INTEGER(hsize_t), DIMENSION(1:2) :: count ! BLOCK count INTEGER(hsize_t), DIMENSION(1:2) :: BLOCK ! BLOCK sizes @@ -390,11 +390,11 @@ SUBROUTINE test_scaleoffset(cleanup, total_error ) CALL H5Screate_simple_f(2, dims, space, error) CALL CHECK(" H5Screate_simple_f", error, total_error) - ! Create the dataset property list + ! Create the dataset property list CALL H5Pcreate_f(H5P_DATASET_CREATE_F, dc, error) CALL CHECK(" H5Pcreate_f", error, total_error) - ! Set fill value + ! Set fill value fillval = 10000 CALL H5Pset_fill_value_f(dc, H5T_NATIVE_INTEGER, fillval, error) CALL CHECK(" H5Pset_fill_value_f", error, total_error) @@ -402,10 +402,10 @@ SUBROUTINE test_scaleoffset(cleanup, total_error ) ! Set up to use scaleoffset filter, let library calculate minbits CALL H5Pset_chunk_f(dc, 2, chunk_dim, error) CALL CHECK(" H5Pset_chunk_f", error, total_error) - + CALL H5Pset_scaleoffset_f(dc, H5Z_SO_INT_F, H5Z_SO_INT_MINBITS_DEFAULT_F, error) CALL CHECK(" H5Pset_scaleoffset_f", error, total_error) - + ! Create the dataset CALL H5Dcreate_f(file, "scaleoffset_int", datatype, & space, dataset, error, dc) @@ -417,7 +417,7 @@ SUBROUTINE test_scaleoffset(cleanup, total_error ) ! Select hyperslab for data to write, using 1x5 blocks, ! (1,1) stride and (1,1) count starting at the position (0,0) - + start(1:2) = (/0,0/) stride(1:2) = (/1,1/) COUNT(1:2) = (/1,1/) @@ -441,21 +441,21 @@ SUBROUTINE test_scaleoffset(cleanup, total_error ) ! STEP 1: Test scaleoffset by setting up a chunked dataset and writing ! to it. !---------------------------------------------------------------------- - - ! Only data in the hyperslab will be written, other value should be fill value + + ! Only data in the hyperslab will be written, other value should be fill value CALL H5Dwrite_f(dataset, H5T_NATIVE_INTEGER, orig_data, dims, error, mspace, mspace, H5P_DEFAULT_F) CALL CHECK(" H5Dwrite_f", error, total_error) !---------------------------------------------------------------------- ! STEP 2: Try to read the data we just wrote. !---------------------------------------------------------------------- - + ! Read the dataset back - + CALL H5Dread_f(dataset, H5T_NATIVE_INTEGER, new_data, dims, error, mspace, mspace, H5P_DEFAULT_F) CALL CHECK(" H5Dread_f", error, total_error) - ! Check that the values read are the same as the values written + ! Check that the values read are the same as the values written DO j = 1, INT(dims(2)) IF(new_data(1,j) .NE. orig_data(1,j))THEN total_error = total_error + 1 |