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-rw-r--r--CMakeLists.txt9
-rwxr-xr-xconfig/cmake/scripts/HDF5options.cmake4
-rw-r--r--fortran/examples/CMakeTests.cmake60
-rw-r--r--fortran/examples/run-fortran-ex.sh.in18
-rw-r--r--fortran/src/CMakeLists.txt6
-rw-r--r--fortran/test/CMakeTests.cmake70
-rw-r--r--java/src/hdf/hdf5lib/H5.java119
7 files changed, 122 insertions, 164 deletions
diff --git a/CMakeLists.txt b/CMakeLists.txt
index 7b1a3ba..81d81b6 100644
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@@ -818,9 +818,6 @@ set (H5_FC_FUNC_ "H5_FC_FUNC_(name,NAME) name ## _")
if (EXISTS "${HDF5_SOURCE_DIR}/fortran" AND IS_DIRECTORY "${HDF5_SOURCE_DIR}/fortran")
option (HDF5_BUILD_FORTRAN "Build FORTRAN support" OFF)
if (HDF5_BUILD_FORTRAN)
-
- option (HDF5_ENABLE_F2003 "Enable FORTRAN 2003 Standard" ON)
-
include (${HDF_RESOURCES_EXT_DIR}/HDFUseFortran.cmake)
message (STATUS "Fortran compiler ID is ${CMAKE_Fortran_COMPILER_ID}")
@@ -833,10 +830,8 @@ if (EXISTS "${HDF5_SOURCE_DIR}/fortran" AND IS_DIRECTORY "${HDF5_SOURCE_DIR}/for
include (${HDF_RESOURCES_DIR}/HDF5UseFortran.cmake)
set (LINK_Fortran_LIBS ${LINK_LIBS})
- if (HDF5_ENABLE_F2003)
- if (NOT FORTRAN_HAVE_ISO_C_BINDING)
- set (HDF5_ENABLE_F2003 OFF)
- endif ()
+ if (NOT FORTRAN_HAVE_ISO_C_BINDING)
+ message (FATAL_ERROR " **** Fortran compiler lacks required Fortran 2003 features; unsupported Fortran 2003 compiler, disable HDF5_BUILD_FORTRAN **** ")
endif ()
# Parallel IO usage requires MPI to be Linked and Included
diff --git a/config/cmake/scripts/HDF5options.cmake b/config/cmake/scripts/HDF5options.cmake
index fb191f3..24eaf78 100755
--- a/config/cmake/scripts/HDF5options.cmake
+++ b/config/cmake/scripts/HDF5options.cmake
@@ -33,12 +33,8 @@
#############################################################################################
#### fortran enabled ####
#set (ADD_BUILD_OPTIONS "${ADD_BUILD_OPTIONS} -DHDF5_BUILD_FORTRAN:BOOL=ON")
- ### enable Fortran 2003 depends on HDF5_BUILD_FORTRAN
-#set (ADD_BUILD_OPTIONS "${ADD_BUILD_OPTIONS} -DHDF5_ENABLE_F2003:BOOL=ON")
#### fortran disabled ####
set (ADD_BUILD_OPTIONS "${ADD_BUILD_OPTIONS} -DHDF5_BUILD_FORTRAN:BOOL=OFF")
- ### enable Fortran 2003 depends on HDF5_BUILD_FORTRAN
-set (ADD_BUILD_OPTIONS "${ADD_BUILD_OPTIONS} -DHDF5_ENABLE_F2003:BOOL=OFF")
#############################################################################################
#### java enabled ####
diff --git a/fortran/examples/CMakeTests.cmake b/fortran/examples/CMakeTests.cmake
index c3d94b4..323cf91 100644
--- a/fortran/examples/CMakeTests.cmake
+++ b/fortran/examples/CMakeTests.cmake
@@ -109,48 +109,46 @@ foreach (example ${examples})
endif ()
endforeach ()
-if (HDF5_ENABLE_F2003)
- foreach (example ${F2003_examples})
+foreach (example ${F2003_examples})
+ if (HDF5_ENABLE_USING_MEMCHECKER)
+ add_test (NAME f03_ex_${example} COMMAND $<TARGET_FILE:f03_ex_${example}>)
+ else ()
+ add_test (NAME f03_ex_${example} COMMAND "${CMAKE_COMMAND}"
+ -D "TEST_PROGRAM=$<TARGET_FILE:f03_ex_${example}>"
+ -D "TEST_ARGS:STRING="
+ -D "TEST_EXPECT=0"
+ -D "TEST_SKIP_COMPARE=TRUE"
+ -D "TEST_OUTPUT=f03_ex_${example}.txt"
+ #-D "TEST_REFERENCE=f03_ex_${example}.out"
+ -D "TEST_FOLDER=${PROJECT_BINARY_DIR}"
+ -P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
+ )
+ endif ()
+ if (NOT "${last_test}" STREQUAL "")
+ set_tests_properties (f03_ex_${example} PROPERTIES DEPENDS ${last_test})
+ endif ()
+ set (last_test "f03_ex_${example}")
+ if (BUILD_SHARED_LIBS)
if (HDF5_ENABLE_USING_MEMCHECKER)
- add_test (NAME f03_ex_${example} COMMAND $<TARGET_FILE:f03_ex_${example}>)
+ add_test (NAME f03_ex-shared_${example} COMMAND $<TARGET_FILE:f03_ex_${example}-shared>)
else ()
- add_test (NAME f03_ex_${example} COMMAND "${CMAKE_COMMAND}"
- -D "TEST_PROGRAM=$<TARGET_FILE:f03_ex_${example}>"
+ add_test (NAME f03_ex-shared_${example} COMMAND "${CMAKE_COMMAND}"
+ -D "TEST_PROGRAM=$<TARGET_FILE:f03_ex_${example}-shared>"
-D "TEST_ARGS:STRING="
-D "TEST_EXPECT=0"
-D "TEST_SKIP_COMPARE=TRUE"
- -D "TEST_OUTPUT=f03_ex_${example}.txt"
- #-D "TEST_REFERENCE=f03_ex_${example}.out"
+ -D "TEST_OUTPUT=f03_ex_${example}-shared.txt"
+ #-D "TEST_REFERENCE=f03_ex_${example}-shared.out"
-D "TEST_FOLDER=${PROJECT_BINARY_DIR}"
-P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
)
endif ()
if (NOT "${last_test}" STREQUAL "")
- set_tests_properties (f03_ex_${example} PROPERTIES DEPENDS ${last_test})
+ set_tests_properties (f03_ex-shared_${example} PROPERTIES DEPENDS ${last_test})
endif ()
- set (last_test "f03_ex_${example}")
- if (BUILD_SHARED_LIBS)
- if (HDF5_ENABLE_USING_MEMCHECKER)
- add_test (NAME f03_ex-shared_${example} COMMAND $<TARGET_FILE:f03_ex_${example}-shared>)
- else ()
- add_test (NAME f03_ex-shared_${example} COMMAND "${CMAKE_COMMAND}"
- -D "TEST_PROGRAM=$<TARGET_FILE:f03_ex_${example}-shared>"
- -D "TEST_ARGS:STRING="
- -D "TEST_EXPECT=0"
- -D "TEST_SKIP_COMPARE=TRUE"
- -D "TEST_OUTPUT=f03_ex_${example}-shared.txt"
- #-D "TEST_REFERENCE=f03_ex_${example}-shared.out"
- -D "TEST_FOLDER=${PROJECT_BINARY_DIR}"
- -P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
- )
- endif ()
- if (NOT "${last_test}" STREQUAL "")
- set_tests_properties (f03_ex-shared_${example} PROPERTIES DEPENDS ${last_test})
- endif ()
- set (last_test "f03_ex-shared_${example}")
- endif ()
- endforeach ()
-endif ()
+ set (last_test "f03_ex-shared_${example}")
+ endif ()
+endforeach ()
if (H5_HAVE_PARALLEL AND MPI_Fortran_FOUND)
add_test (NAME f90_ex_ph5example COMMAND ${MPIEXEC_EXECUTABLE} ${MPIEXEC_NUMPROC_FLAG} ${MPIEXEC_MAX_NUMPROCS} ${MPIEXEC_PREFLAGS} $<TARGET_FILE:f90_ex_ph5example> ${MPIEXEC_POSTFLAGS})
diff --git a/fortran/examples/run-fortran-ex.sh.in b/fortran/examples/run-fortran-ex.sh.in
index da0c357..aa17f89 100644
--- a/fortran/examples/run-fortran-ex.sh.in
+++ b/fortran/examples/run-fortran-ex.sh.in
@@ -61,8 +61,6 @@ RunTest()
./$TEST_EXEC
}
-F2003_ENABLED=@HAVE_FORTRAN_2003@
-
################## MAIN ##################
# Run tests
@@ -97,17 +95,8 @@ then
RunTest mountexample &&\
rm mountexample &&\
RunTest compound &&\
- rm compound); then
- EXIT_VALUE=${EXIT_SUCCESS}
- else
- EXIT_VALUE=${EXIT_FAILURE}
- fi
-fi
-
-if [ $EXIT_VALUE -eq ${EXIT_SUCCESS} -a "$F2003_ENABLED" = "yes" ]
-then
-# Add attention tests for Fortran 2003 features
- if (RunTest rwdset_fortran2003 &&\
+ rm compound &&\
+ RunTest rwdset_fortran2003 &&\
rm rwdset_fortran2003 &&\
RunTest nested_derived_type &&\
rm nested_derived_type &&\
@@ -120,12 +109,11 @@ then
EXIT_VALUE=${EXIT_FAILURE}
fi
fi
-
# Cleanup
rm *.o
rm *.h5
echo
-exit $EXIT_VALUE
+exit $EXIT_VALUE
diff --git a/fortran/src/CMakeLists.txt b/fortran/src/CMakeLists.txt
index 025fab5..f71e820 100644
--- a/fortran/src/CMakeLists.txt
+++ b/fortran/src/CMakeLists.txt
@@ -9,11 +9,7 @@ if (WIN32)
if (NOT H5_HAVE_PARALLEL)
set (H5_NOPAREXP ";")
endif ()
- if (NOT HDF5_ENABLE_F2003)
- set (H5_NOF03EXP ";")
- else ()
- set (H5_F03EXP ";")
- endif ()
+ set (H5_F03EXP ";")
configure_file (${HDF5_F90_SRC_SOURCE_DIR}/hdf5_fortrandll.def.in ${HDF5_F90_SRC_BINARY_DIR}/hdf5_fortrandll.def @ONLY)
endif ()
endif ()
diff --git a/fortran/test/CMakeTests.cmake b/fortran/test/CMakeTests.cmake
index 4d06359..2824ef7 100644
--- a/fortran/test/CMakeTests.cmake
+++ b/fortran/test/CMakeTests.cmake
@@ -103,26 +103,24 @@ endif ()
set_tests_properties (FORTRAN_testhdf5_fortran_1_8 PROPERTIES DEPENDS FORTRAN_testhdf5_fortran)
#-- Adding test for fortranlib_test_F03
-if (HDF5_ENABLE_F2003)
- if (HDF5_ENABLE_USING_MEMCHECKER)
- add_test (NAME FORTRAN_fortranlib_test_F03 COMMAND $<TARGET_FILE:fortranlib_test_F03>)
- else ()
- add_test (NAME FORTRAN_fortranlib_test_F03 COMMAND "${CMAKE_COMMAND}"
- -D "TEST_PROGRAM=$<TARGET_FILE:fortranlib_test_F03>"
- -D "TEST_ARGS:STRING="
- -D "TEST_EXPECT=0"
- -D "TEST_SKIP_COMPARE=TRUE"
- -D "TEST_REGEX= 0 error.s."
- -D "TEST_MATCH= 0 error(s)"
- -D "TEST_OUTPUT=fortranlib_test_F03.txt"
- #-D "TEST_REFERENCE=fortranlib_test_F03.out"
- -D "TEST_FOLDER=${PROJECT_BINARY_DIR}"
- -P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
- )
- endif ()
+if (HDF5_ENABLE_USING_MEMCHECKER)
+ add_test (NAME FORTRAN_fortranlib_test_F03 COMMAND $<TARGET_FILE:fortranlib_test_F03>)
+else ()
+ add_test (NAME FORTRAN_fortranlib_test_F03 COMMAND "${CMAKE_COMMAND}"
+ -D "TEST_PROGRAM=$<TARGET_FILE:fortranlib_test_F03>"
+ -D "TEST_ARGS:STRING="
+ -D "TEST_EXPECT=0"
+ -D "TEST_SKIP_COMPARE=TRUE"
+ -D "TEST_REGEX= 0 error.s."
+ -D "TEST_MATCH= 0 error(s)"
+ -D "TEST_OUTPUT=fortranlib_test_F03.txt"
+ #-D "TEST_REFERENCE=fortranlib_test_F03.out"
+ -D "TEST_FOLDER=${PROJECT_BINARY_DIR}"
+ -P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
+ )
+endif ()
# set_tests_properties (FORTRAN_fortranlib_test_F03 PROPERTIES PASS_REGULAR_EXPRESSION "[ ]*0 error.s")
set_tests_properties (FORTRAN_fortranlib_test_F03 PROPERTIES DEPENDS FORTRAN_testhdf5_fortran_1_8)
-endif ()
#-- Adding test for fflush1
add_test (NAME FORTRAN_fflush1 COMMAND $<TARGET_FILE:fflush1>)
@@ -215,26 +213,24 @@ if (BUILD_SHARED_LIBS)
set_tests_properties (FORTRAN_testhdf5_fortran_1_8-shared PROPERTIES DEPENDS FORTRAN_testhdf5_fortran_1_8)
#-- Adding test for fortranlib_test_F03
- if (HDF5_ENABLE_F2003)
- if (HDF5_ENABLE_USING_MEMCHECKER)
- add_test (NAME FORTRAN_fortranlib_test_F03-shared COMMAND $<TARGET_FILE:fortranlib_test_F03-shared>)
- else ()
- add_test (NAME FORTRAN_fortranlib_test_F03-shared COMMAND "${CMAKE_COMMAND}"
- -D "TEST_PROGRAM=$<TARGET_FILE:fortranlib_test_F03-shared>"
- -D "TEST_ARGS:STRING="
- -D "TEST_EXPECT=0"
- -D "TEST_SKIP_COMPARE=TRUE"
- -D "TEST_REGEX= 0 error.s."
- -D "TEST_MATCH= 0 error(s)"
- -D "TEST_OUTPUT=fortranlib_test_F03.txt"
- #-D "TEST_REFERENCE=fortranlib_test_F03.out"
- -D "TEST_FOLDER=${PROJECT_BINARY_DIR}/fshared"
- -P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
- )
- endif ()
-# set_tests_properties (FORTRAN_fortranlib_test_F03-shared PROPERTIES PASS_REGULAR_EXPRESSION "[ ]*0 error.s")
- set_tests_properties (FORTRAN_fortranlib_test_F03-shared PROPERTIES DEPENDS FORTRAN_fortranlib_test_F03)
+ if (HDF5_ENABLE_USING_MEMCHECKER)
+ add_test (NAME FORTRAN_fortranlib_test_F03-shared COMMAND $<TARGET_FILE:fortranlib_test_F03-shared>)
+ else ()
+ add_test (NAME FORTRAN_fortranlib_test_F03-shared COMMAND "${CMAKE_COMMAND}"
+ -D "TEST_PROGRAM=$<TARGET_FILE:fortranlib_test_F03-shared>"
+ -D "TEST_ARGS:STRING="
+ -D "TEST_EXPECT=0"
+ -D "TEST_SKIP_COMPARE=TRUE"
+ -D "TEST_REGEX= 0 error.s."
+ -D "TEST_MATCH= 0 error(s)"
+ -D "TEST_OUTPUT=fortranlib_test_F03.txt"
+ #-D "TEST_REFERENCE=fortranlib_test_F03.out"
+ -D "TEST_FOLDER=${PROJECT_BINARY_DIR}/fshared"
+ -P "${HDF_RESOURCES_EXT_DIR}/runTest.cmake"
+ )
endif ()
+# set_tests_properties (FORTRAN_fortranlib_test_F03-shared PROPERTIES PASS_REGULAR_EXPRESSION "[ ]*0 error.s")
+ set_tests_properties (FORTRAN_fortranlib_test_F03-shared PROPERTIES DEPENDS FORTRAN_fortranlib_test_F03)
#-- Adding test for fflush1
add_test (NAME FORTRAN_fflush1-shared COMMAND $<TARGET_FILE:fflush1-shared>)
diff --git a/java/src/hdf/hdf5lib/H5.java b/java/src/hdf/hdf5lib/H5.java
index 03266e6..255a8ec 100644
--- a/java/src/hdf/hdf5lib/H5.java
+++ b/java/src/hdf/hdf5lib/H5.java
@@ -57,19 +57,18 @@ import hdf.hdf5lib.structs.H5O_info_t;
/**
* This class is the Java interface for the HDF5 library.
* <p>
- * This code is the called by Java programs to access the entry points of the HDF5 library. Each
- * routine wraps a single HDF5 entry point, generally with the arguments and return codes analogous
- * to the C interface.
+ * This code is the called by Java programs to access the entry points of the HDF5 library. Each routine wraps a single
+ * HDF5 entry point, generally with the arguments and return codes analogous to the C interface.
* <p>
- * For details of the HDF5 library, see the HDF5 Documentation at:
- * <a href="http://hdfgroup.org/HDF5/">http://hdfgroup.org/HDF5/</a>
+ * For details of the HDF5 library, see the HDF5 Documentation at: <a
+ * href="http://hdfgroup.org/HDF5/">http://hdfgroup.org/HDF5/</a>
* <hr>
* <p>
* <b>Mapping of arguments for Java</b>
*
* <p>
- * In general, arguments to the HDF Java API are straightforward translations from the 'C' API
- * described in the HDF Reference Manual.
+ * In general, arguments to the HDF Java API are straightforward translations from the 'C' API described in the HDF
+ * Reference Manual.
*
* <table border=1>
* <caption><b>HDF-5 C types to Java types</b> </caption>
@@ -109,19 +108,17 @@ import hdf.hdf5lib.structs.H5O_info_t;
* </table>
* <b>General Rules for Passing Arguments and Results</b>
* <p>
- * In general, arguments passed <b>IN</b> to Java are the analogous basic types, as above. The
- * exception is for arrays, which are discussed below.
+ * In general, arguments passed <b>IN</b> to Java are the analogous basic types, as above. The exception is for arrays,
+ * which are discussed below.
* <p>
- * The <i>return value</i> of Java methods is also the analogous type, as above. A major exception
- * to that rule is that all HDF functions that return SUCCEED/FAIL are declared <i>boolean</i> in
- * the Java version, rather than <i>int</i> as in the C. Functions that return a value or else FAIL
- * are declared the equivalent to the C function. However, in most cases the Java method will raise
- * an exception instead of returning an error code. See <a href="#ERRORS">Errors and Exceptions</a>
- * below.
+ * The <i>return value</i> of Java methods is also the analogous type, as above. A major exception to that rule is that
+ * all HDF functions that return SUCCEED/FAIL are declared <i>boolean</i> in the Java version, rather than <i>int</i> as
+ * in the C. Functions that return a value or else FAIL are declared the equivalent to the C function. However, in most
+ * cases the Java method will raise an exception instead of returning an error code. See <a href="#ERRORS">Errors and
+ * Exceptions</a> below.
* <p>
- * Java does not support pass by reference of arguments, so arguments that are returned through
- * <b>OUT</b> parameters must be wrapped in an object or array. The Java API for HDF consistently
- * wraps arguments in arrays.
+ * Java does not support pass by reference of arguments, so arguments that are returned through <b>OUT</b> parameters
+ * must be wrapped in an object or array. The Java API for HDF consistently wraps arguments in arrays.
* <p>
* For instance, a function that returns two integers is declared:
*
@@ -142,14 +139,12 @@ import hdf.hdf5lib.structs.H5O_info_t;
* </pre>
*
* <p>
- * All the routines where this convention is used will have specific documentation of the details,
- * given below.
+ * All the routines where this convention is used will have specific documentation of the details, given below.
* <p>
* <b>Arrays</b>
* <p>
- * HDF5 needs to read and write multi-dimensional arrays of any number type (and records). The HDF5
- * API describes the layout of the source and destination, and the data for the array passed as a
- * block of bytes, for instance,
+ * HDF5 needs to read and write multi-dimensional arrays of any number type (and records). The HDF5 API describes the
+ * layout of the source and destination, and the data for the array passed as a block of bytes, for instance,
*
* <pre>
* herr_t H5Dread(long fid, long filetype, long memtype, long memspace,
@@ -157,45 +152,40 @@ import hdf.hdf5lib.structs.H5O_info_t;
* </pre>
*
* <p>
- * where ``void *'' means that the data may be any valid numeric type, and is a contiguous block of
- * bytes that is the data for a multi-dimensional array. The other parameters describe the
- * dimensions, rank, and datatype of the array on disk (source) and in memory (destination).
+ * where ``void *'' means that the data may be any valid numeric type, and is a contiguous block of bytes that is the
+ * data for a multi-dimensional array. The other parameters describe the dimensions, rank, and datatype of the array on
+ * disk (source) and in memory (destination).
* <p>
- * For Java, this ``ANY'' is a problem, as the type of data must always be declared. Furthermore,
- * multidimensional arrays are definitely <i>not</i> layed out contiguously in memory. It would be
- * infeasible to declare a separate routine for every combination of number type and dimensionality.
- * For that reason, the <a href="./hdf.hdf5lib.HDFArray.html"><b>HDFArray</b></a> class is used to
- * discover the type, shape, and size of the data array at run time, and to convert to and from a
- * contiguous array of bytes in synchronized static native C order.
+ * For Java, this ``ANY'' is a problem, as the type of data must always be declared. Furthermore, multidimensional
+ * arrays are definitely <i>not</i> layed out contiguously in memory. It would be infeasible to declare a separate
+ * routine for every combination of number type and dimensionality. For that reason, the <a
+ * href="./hdf.hdf5lib.HDFArray.html"><b>HDFArray</b></a> class is used to discover the type, shape, and size of the
+ * data array at run time, and to convert to and from a contiguous array of bytes in synchronized static native C order.
* <p>
- * The upshot is that any Java array of numbers (either primitive or sub-classes of type
- * <b>Number</b>) can be passed as an ``Object'', and the Java API will translate to and from the
- * appropriate packed array of bytes needed by the C library. So the function above would be
- * declared:
+ * The upshot is that any Java array of numbers (either primitive or sub-classes of type <b>Number</b>) can be passed as
+ * an ``Object'', and the Java API will translate to and from the appropriate packed array of bytes needed by the C
+ * library. So the function above would be declared:
*
* <pre>
* public synchronized static native int H5Dread(long fid, long filetype, long memtype, long memspace, Object data);
* </pre>
- *
- * OPEN_IDS.addElement(id);
- *
- * and the parameter <i>data</i> can be any multi-dimensional array of numbers, such as float[][],
- * or int[][][], or Double[][].
+ * OPEN_IDS.addElement(id);
+
+ * and the parameter <i>data</i> can be any multi-dimensional array of numbers, such as float[][], or int[][][], or
+ * Double[][].
* <p>
* <b>HDF-5 Constants</b>
* <p>
- * The HDF-5 API defines a set of constants and enumerated values. Most of these values are
- * available to Java programs via the class <a href="./hdf.hdf5lib.HDF5Constants.html">
- * <b>HDF5Constants</b></a>. For example, the parameters for the h5open() call include two numeric
- * values, <b><i>HDFConstants.H5F_ACC_RDWR</i></b> and <b><i>HDF5Constants.H5P_DEFAULT</i></b>. As
- * would be expected, these numbers correspond to the C constants <b><i>H5F_ACC_RDWR</i></b> and
- * <b><i>H5P_DEFAULT</i></b>.
+ * The HDF-5 API defines a set of constants and enumerated values. Most of these values are available to Java programs
+ * via the class <a href="./hdf.hdf5lib.HDF5Constants.html"> <b>HDF5Constants</b></a>. For example, the parameters for
+ * the h5open() call include two numeric values, <b><i>HDFConstants.H5F_ACC_RDWR</i></b> and
+ * <b><i>HDF5Constants.H5P_DEFAULT</i></b>. As would be expected, these numbers correspond to the C constants
+ * <b><i>H5F_ACC_RDWR</i></b> and <b><i>H5P_DEFAULT</i></b>.
* <p>
- * The HDF-5 API defines a set of values that describe number types and sizes, such as
- * "H5T_NATIVE_INT" and "hsize_t". These values are determined at run time by the HDF-5 C library.
- * To support these parameters, the Java class <a href="./hdf.hdf5lib.HDF5CDataTypes.html">
- * <b>HDF5CDataTypes</b></a> looks up the values when initiated. The values can be accessed as
- * public variables of the Java class, such as:
+ * The HDF-5 API defines a set of values that describe number types and sizes, such as "H5T_NATIVE_INT" and "hsize_t".
+ * These values are determined at run time by the HDF-5 C library. To support these parameters, the Java class <a
+ * href="./hdf.hdf5lib.HDF5CDataTypes.html"> <b>HDF5CDataTypes</b></a> looks up the values when initiated. The values
+ * can be accessed as public variables of the Java class, such as:
*
* <pre>
* long data_type = HDF5CDataTypes.JH5T_NATIVE_INT;
@@ -206,21 +196,20 @@ import hdf.hdf5lib.structs.H5O_info_t;
* <p>
* <b>Error handling and Exceptions</b>
* <p>
- * The HDF5 error API (H5E) manages the behavior of the error stack in the HDF-5 library. This API
- * is omitted from the JHI5. Errors are converted into Java exceptions. This is totally different
- * from the C interface, but is very natural for Java programming.
+ * The HDF5 error API (H5E) manages the behavior of the error stack in the HDF-5 library. This API is omitted from the
+ * JHI5. Errors are converted into Java exceptions. This is totally different from the C interface, but is very natural
+ * for Java programming.
* <p>
- * The exceptions of the JHI5 are organized as sub-classes of the class
- * <a href="./hdf.hdf5lib.exceptions.HDF5Exception.html"> <b>HDF5Exception</b></a>. There are two
- * subclasses of <b>HDF5Exception</b>, <a href="./hdf.hdf5lib.exceptions.HDF5LibraryException.html">
- * <b>HDF5LibraryException</b></a> and <a href="./hdf.hdf5lib.exceptions.HDF5JavaException.html">
- * <b>HDF5JavaException</b></a>. The sub-classes of the former represent errors from the HDF-5 C
- * library, while sub-classes of the latter represent errors in the JHI5 wrapper and support code.
+ * The exceptions of the JHI5 are organized as sub-classes of the class <a
+ * href="./hdf.hdf5lib.exceptions.HDF5Exception.html"> <b>HDF5Exception</b></a>. There are two subclasses of
+ * <b>HDF5Exception</b>, <a href="./hdf.hdf5lib.exceptions.HDF5LibraryException.html"> <b>HDF5LibraryException</b></a>
+ * and <a href="./hdf.hdf5lib.exceptions.HDF5JavaException.html"> <b>HDF5JavaException</b></a>. The sub-classes of the
+ * former represent errors from the HDF-5 C library, while sub-classes of the latter represent errors in the JHI5
+ * wrapper and support code.
* <p>
- * The super-class <b><i>HDF5LibraryException</i></b> implements the method
- * '<b><i>printStackTrace()</i></b>', which prints out the HDF-5 error stack, as described in the
- * HDF-5 C API <i><b>H5Eprint()</b>.</i> This may be used by Java exception handlers to print out
- * the HDF-5 error stack.
+ * The super-class <b><i>HDF5LibraryException</i></b> implements the method '<b><i>printStackTrace()</i></b>', which
+ * prints out the HDF-5 error stack, as described in the HDF-5 C API <i><b>H5Eprint()</b>.</i> This may be used by Java
+ * exception handlers to print out the HDF-5 error stack.
* <hr>
*
* @version HDF5 1.10.5 <BR>