Commit 07a2eddc authored by Douglas Serson's avatar Douglas Serson
Browse files

Merge branch 'master' into feature/IncNSOpt

parents 71b93b70 2ee42308
......@@ -13,5 +13,4 @@ AllowShortLoopsOnASingleLine: false
IndentCaseLabels: true
Standard: Cpp03
AccessModifierOffset: -4
BinPackParameters: false
BinPackArguments: false
BinPackParameters: true
......@@ -3,22 +3,63 @@ Changelog
v4.4.0
------
**Library:**
**Library**:
- Add support for variable polynomial order for 3D simulations with continuous
Galerkin discretisation (!604)
- Bump version of gsmpi to suppress autotuning output unless `--verbose` is
specified (!652)
- Add support for variable polynomial order with periodic boundary conditions
(!658)
- Statistics are now printed for lowest level of multi-level static condensation
(!656)
- Sped up interpolataion from pts files and fixed parallel pts import (!584)
- Increased required boost version to 1.56.0 (!584)
- New FieldUtils library allows support for most `FieldConvert` post-processing
operations during simulation using a new filter (!589)
- Adjust CMake dependencies to reduce compile time (!671)
- Homogeneous1D dealiasing improvements (!622)
- Add support for HDF5 as an alternative output to XML-based output, including
refactoring of FieldIO, improvements to MPI interface and added communicators
to boundary conditions (!615)
- Allow expansions to be loaded directly from field file (!617)
- New options for load balancing (DOF or BOUNDARY) in mesh partitioner (!617)
- Update Body/Field forces at each timestep (!665)
**ADRSolver:**
- Add a projection equation system for C^0 projections (!675)
**APESolver:**
- Use a continuous basefield projection and revert to constant c formulation (!664)
- Added ability to compute CFL number (!664)
- Output Sourceterm (!664)
- Use the Forcing framework to define source terms (!665)
**IncNavierStokesSolver:**
- Add ability to simulate additional scalar fields (!624)
- Improve performance when using homogeneous dealiasing (!622)
**FieldConvert:**
- Allow equi-spaced output for 1D and 2DH1D fields (!613)
**NekMesh:**
- Modify curve module to allow for spline input (!628)
- Add STL surface writer module (!668)
- New module for inserting an alternate high-order surface into the working
mesh (!669)
- Improvements to mesh linearisation module (!659)
- Add support for Gmsh high-order output (!679)
**FieldConvert:**
- Move all modules to a new library, FieldUtils, to support post-processing
during simulations (!589)
- Add module to stretch homogeneous direction (!609)
- Add module to add composite ID of elements as a field (!674)
v4.3.4
------
**Library:**
- Fix performance issue with `v_ExtractDataToCoeffs` for post-processing of large
simulations (!672)
v4.3.3
------
......
......@@ -97,7 +97,9 @@ MARK_AS_ADVANCED(NEKTAR_BUILD_PACKAGES)
OPTION(NEKTAR_TEST_ALL "Include full set of regression tests to this build." OFF)
# Meshing utilities and library
OPTION(NEKTAR_USE_MESHGEN "Build mesh generation utilities." OFF)
IF (NOT WIN32)
OPTION(NEKTAR_USE_MESHGEN "Build mesh generation utilities." OFF)
ENDIF()
# Build options
OPTION(NEKTAR_FULL_DEBUG "Enable Full Debugging." OFF)
......@@ -176,19 +178,20 @@ ENDIF ()
INCLUDE (ThirdPartyTinyxml)
INCLUDE (ThirdPartyLoki)
INCLUDE (ThirdPartyMetis)
INCLUDE (ThirdPartyHDF5)
INCLUDE (ThirdPartyScotch)
INCLUDE (ThirdPartyZlib)
INCLUDE (ThirdPartyBoost)
INCLUDE (ThirdPartyFFTW)
INCLUDE (ThirdPartyOCC)
INCLUDE (ThirdPartyArpack)
INCLUDE (ThirdPartyMPI)
INCLUDE (ThirdPartyPETSc)
INCLUDE (ThirdPartyVTK)
INCLUDE (ThirdPartyQT4)
INCLUDE (ThirdPartySMV)
INCLUDE (ThirdPartyTriangle)
INCLUDE (ThirdPartyOCC)
INCLUDE (ThirdPartyTetGen)
INCLUDE (ThirdPartyANN)
INCLUDE (ThirdPartyCCM)
INCLUDE (Doxygen)
......@@ -283,7 +286,7 @@ INCLUDE_DIRECTORIES(${CMAKE_SOURCE_DIR})
# Build active components
IF (NEKTAR_BUILD_LIBRARY)
SET(NEKTAR++_LIBRARIES SolverUtils LibUtilities StdRegions SpatialDomains LocalRegions
MultiRegions Collections GlobalMapping NekMeshUtils)
MultiRegions Collections GlobalMapping FieldUtils NekMeshUtils)
INCLUDE_DIRECTORIES(library)
ADD_SUBDIRECTORY(library)
INSTALL(EXPORT Nektar++Libraries DESTINATION ${LIB_DIR}/cmake COMPONENT dev)
......
#.rst:
# FindHDF5
# --------
#
# Find HDF5, a library for reading and writing self describing array data.
#
#
#
# This module invokes the HDF5 wrapper compiler that should be installed
# alongside HDF5. Depending upon the HDF5 Configuration, the wrapper
# compiler is called either h5cc or h5pcc. If this succeeds, the module
# will then call the compiler with the -show argument to see what flags
# are used when compiling an HDF5 client application.
#
# The module will optionally accept the COMPONENTS argument. If no
# COMPONENTS are specified, then the find module will default to finding
# only the HDF5 C library. If one or more COMPONENTS are specified, the
# module will attempt to find the language bindings for the specified
# components. The only valid components are C, CXX, Fortran, HL, and
# Fortran_HL. If the COMPONENTS argument is not given, the module will
# attempt to find only the C bindings.
#
# On UNIX systems, this module will read the variable
# HDF5_USE_STATIC_LIBRARIES to determine whether or not to prefer a
# static link to a dynamic link for HDF5 and all of it's dependencies.
# To use this feature, make sure that the HDF5_USE_STATIC_LIBRARIES
# variable is set before the call to find_package.
#
# To provide the module with a hint about where to find your HDF5
# installation, you can set the environment variable HDF5_ROOT. The
# Find module will then look in this path when searching for HDF5
# executables, paths, and libraries.
#
# Both the serial and parallel HDF5 wrappers are considered and the first
# directory to contain either one will be used. In the event that both appear
# in the same directory the serial version is preferentially selected. This
# behavior can be reversed by setting the variable HDF5_PREFER_PARALLEL to
# true.
#
# In addition to finding the includes and libraries required to compile
# an HDF5 client application, this module also makes an effort to find
# tools that come with the HDF5 distribution that may be useful for
# regression testing.
#
# This module will define the following variables:
#
# ::
#
# HDF5_INCLUDE_DIRS - Location of the hdf5 includes
# HDF5_INCLUDE_DIR - Location of the hdf5 includes (deprecated)
# HDF5_DEFINITIONS - Required compiler definitions for HDF5
# HDF5_C_LIBRARIES - Required libraries for the HDF5 C bindings.
# HDF5_CXX_LIBRARIES - Required libraries for the HDF5 C++ bindings
# HDF5_Fortran_LIBRARIES - Required libraries for the HDF5 Fortran bindings
# HDF5_HL_LIBRARIES - Required libraries for the HDF5 high level API
# HDF5_Fortran_HL_LIBRARIES - Required libraries for the high level Fortran
# bindings.
# HDF5_LIBRARIES - Required libraries for all requested bindings
# HDF5_FOUND - true if HDF5 was found on the system
# HDF5_VERSION - HDF5 version in format Major.Minor.Release
# HDF5_LIBRARY_DIRS - the full set of library directories
# HDF5_IS_PARALLEL - Whether or not HDF5 was found with parallel IO support
# HDF5_C_COMPILER_EXECUTABLE - the path to the HDF5 C wrapper compiler
# HDF5_CXX_COMPILER_EXECUTABLE - the path to the HDF5 C++ wrapper compiler
# HDF5_Fortran_COMPILER_EXECUTABLE - the path to the HDF5 Fortran wrapper compiler
# HDF5_DIFF_EXECUTABLE - the path to the HDF5 dataset comparison tool
#=============================================================================
# Copyright 2015 Axel Huebl, Helmholtz-Zentrum Dresden - Rossendorf
# Copyright 2009 Kitware, Inc.
#
# Distributed under the OSI-approved BSD License (the "License");
# see accompanying file Copyright.txt for details.
#
# This software is distributed WITHOUT ANY WARRANTY; without even the
# implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the License for more information.
#=============================================================================
# (To distribute this file outside of CMake, substitute the full
# License text for the above reference.)
# This module is maintained by Will Dicharry <wdicharry@stellarscience.com>.
include(SelectLibraryConfigurations)
include(FindPackageHandleStandardArgs)
# List of the valid HDF5 components
set( HDF5_VALID_COMPONENTS
C
CXX
Fortran
HL
Fortran_HL
)
# Validate the list of find components.
if( NOT HDF5_FIND_COMPONENTS )
set( HDF5_LANGUAGE_BINDINGS "C" )
else()
# add the extra specified components, ensuring that they are valid.
foreach( component ${HDF5_FIND_COMPONENTS} )
list( FIND HDF5_VALID_COMPONENTS ${component} component_location )
if( ${component_location} EQUAL -1 )
message( FATAL_ERROR
"\"${component}\" is not a valid HDF5 component." )
else()
list( APPEND HDF5_LANGUAGE_BINDINGS ${component} )
endif()
endforeach()
endif()
# Determine whether to search for serial or parallel executable first
if(HDF5_PREFER_PARALLEL)
set(HDF5_C_COMPILER_NAMES h5pcc h5cc)
set(HDF5_CXX_COMPILER_NAMES h5pc++ h5c++)
set(HDF5_Fortran_COMPILER_NAMES h5pfc h5fc)
else()
set(HDF5_C_COMPILER_NAMES h5cc h5pcc)
set(HDF5_CXX_COMPILER_NAMES h5c++ h5pc++)
set(HDF5_Fortran_COMPILER_NAMES h5fc h5pfc)
endif()
# try to find the HDF5 wrapper compilers
find_program( HDF5_C_COMPILER_EXECUTABLE
NAMES ${HDF5_C_COMPILER_NAMES}
HINTS ENV HDF5_ROOT
PATH_SUFFIXES bin Bin
DOC "HDF5 Wrapper compiler. Used only to detect HDF5 compile flags." )
mark_as_advanced( HDF5_C_COMPILER_EXECUTABLE )
find_program( HDF5_CXX_COMPILER_EXECUTABLE
NAMES ${HDF5_CXX_COMPILER_NAMES}
HINTS ENV HDF5_ROOT
PATH_SUFFIXES bin Bin
DOC "HDF5 C++ Wrapper compiler. Used only to detect HDF5 compile flags." )
mark_as_advanced( HDF5_CXX_COMPILER_EXECUTABLE )
find_program( HDF5_Fortran_COMPILER_EXECUTABLE
NAMES ${HDF5_Fortran_COMPILER_NAMES}
HINTS ENV HDF5_ROOT
PATH_SUFFIXES bin Bin
DOC "HDF5 Fortran Wrapper compiler. Used only to detect HDF5 compile flags." )
mark_as_advanced( HDF5_Fortran_COMPILER_EXECUTABLE )
unset(HDF5_C_COMPILER_NAMES)
unset(HDF5_CXX_COMPILER_NAMES)
unset(HDF5_Fortran_COMPILER_NAMES)
find_program( HDF5_DIFF_EXECUTABLE
NAMES h5diff
HINTS ENV HDF5_ROOT
PATH_SUFFIXES bin Bin
DOC "HDF5 file differencing tool." )
mark_as_advanced( HDF5_DIFF_EXECUTABLE )
# Invoke the HDF5 wrapper compiler. The compiler return value is stored to the
# return_value argument, the text output is stored to the output variable.
macro( _HDF5_invoke_compiler language output return_value )
if( HDF5_${language}_COMPILER_EXECUTABLE )
exec_program( ${HDF5_${language}_COMPILER_EXECUTABLE}
ARGS -show
OUTPUT_VARIABLE ${output}
RETURN_VALUE ${return_value}
)
if( ${${return_value}} EQUAL 0 )
# do nothing
else()
message( STATUS
"Unable to determine HDF5 ${language} flags from HDF5 wrapper." )
endif()
endif()
endmacro()
# Parse a compile line for definitions, includes, library paths, and libraries.
macro( _HDF5_parse_compile_line
compile_line_var
include_paths
definitions
library_paths
libraries )
# See if we are running using an MPI wrapper. If we are, then try to also
# add include directories from here as well.
string( REGEX MATCH "^mpi[^ ]+" mpi_wrapper "${${compile_line_var}}")
if (mpi_wrapper)
# Invoke MPI wrapper to search for additional include directories
exec_program(${mpi_wrapper}
ARGS -show
OUTPUT_VARIABLE mpi_wrapper_output
RETURN_VALUE mpi_wrapper_return)
if (${mpi_wrapper_return} EQUAL 0)
string( REGEX MATCHALL "-I([^\" ]+)" include_path_flags
"${mpi_wrapper_output}")
foreach( IPATH ${include_path_flags} )
string( REGEX REPLACE "^-I" "" IPATH ${IPATH} )
string( REPLACE "//" "/" IPATH ${IPATH} )
list( APPEND ${include_paths} ${IPATH} )
endforeach()
endif()
endif()
# Match the include paths
string( REGEX MATCHALL "-I([^\" ]+)" include_path_flags
"${${compile_line_var}}"
)
foreach( IPATH ${include_path_flags} )
string( REGEX REPLACE "^-I" "" IPATH ${IPATH} )
string( REPLACE "//" "/" IPATH ${IPATH} )
list( APPEND ${include_paths} ${IPATH} )
endforeach()
# Match the definitions
string( REGEX MATCHALL "-D[^ ]*" definition_flags "${${compile_line_var}}" )
foreach( DEF ${definition_flags} )
list( APPEND ${definitions} ${DEF} )
endforeach()
# Match the library paths
string( REGEX MATCHALL "-L([^\" ]+|\"[^\"]+\")" library_path_flags
"${${compile_line_var}}"
)
foreach( LPATH ${library_path_flags} )
string( REGEX REPLACE "^-L" "" LPATH ${LPATH} )
string( REPLACE "//" "/" LPATH ${LPATH} )
list( APPEND ${library_paths} ${LPATH} )
endforeach()
# now search for the library names specified in the compile line (match -l...)
# match only -l's preceded by a space or comma
# this is to exclude directory names like xxx-linux/
string( REGEX MATCHALL "[, ]-l([^\", ]+)" library_name_flags
"${${compile_line_var}}" )
# strip the -l from all of the library flags and add to the search list
foreach( LIB ${library_name_flags} )
string( REGEX REPLACE "^[, ]-l" "" LIB ${LIB} )
list( APPEND ${libraries} ${LIB} )
endforeach()
endmacro()
# Try to find HDF5 using an installed hdf5-config.cmake
if( NOT HDF5_FOUND )
find_package( HDF5 QUIET NO_MODULE )
if( HDF5_FOUND )
set( HDF5_INCLUDE_DIRS ${HDF5_INCLUDE_DIR} )
set( HDF5_LIBRARIES )
set( HDF5_C_TARGET hdf5 )
set( HDF5_CXX_TARGET hdf5_cpp )
set( HDF5_HL_TARGET hdf5_hl )
set( HDF5_Fortran_TARGET hdf5_fortran )
set( HDF5_Fortran_HL_TARGET hdf5_hl_fortran )
foreach( _component ${HDF5_LANGUAGE_BINDINGS} )
list( FIND HDF5_VALID_COMPONENTS ${_component} _component_location )
get_target_property( _comp_location ${HDF5_${_component}_TARGET} LOCATION )
if( _comp_location )
set( HDF5_${_component}_LIBRARY ${_comp_location} CACHE PATH
"HDF5 ${_component} library" )
mark_as_advanced( HDF5_${_component}_LIBRARY )
list( APPEND HDF5_LIBRARIES ${HDF5_${_component}_LIBRARY} )
endif()
endforeach()
endif()
endif()
if( NOT HDF5_FOUND )
_HDF5_invoke_compiler( C HDF5_C_COMPILE_LINE HDF5_C_RETURN_VALUE )
_HDF5_invoke_compiler( CXX HDF5_CXX_COMPILE_LINE HDF5_CXX_RETURN_VALUE )
_HDF5_invoke_compiler( Fortran HDF5_Fortran_COMPILE_LINE HDF5_Fortran_RETURN_VALUE )
set(HDF5_HL_COMPILE_LINE ${HDF5_C_COMPILE_LINE})
set(HDF5_Fortran_HL_COMPILE_LINE ${HDF5_Fortran_COMPILE_LINE})
# seed the initial lists of libraries to find with items we know we need
set( HDF5_C_LIBRARY_NAMES_INIT hdf5 )
set( HDF5_HL_LIBRARY_NAMES_INIT hdf5_hl ${HDF5_C_LIBRARY_NAMES_INIT} )
set( HDF5_CXX_LIBRARY_NAMES_INIT hdf5_cpp ${HDF5_C_LIBRARY_NAMES_INIT} )
set( HDF5_Fortran_LIBRARY_NAMES_INIT hdf5_fortran
${HDF5_C_LIBRARY_NAMES_INIT} )
set( HDF5_Fortran_HL_LIBRARY_NAMES_INIT hdf5hl_fortran hdf5_hl
${HDF5_Fortran_LIBRARY_NAMES_INIT} )
foreach( LANGUAGE ${HDF5_LANGUAGE_BINDINGS} )
if( HDF5_${LANGUAGE}_COMPILE_LINE )
_HDF5_parse_compile_line( HDF5_${LANGUAGE}_COMPILE_LINE
HDF5_${LANGUAGE}_INCLUDE_FLAGS
HDF5_${LANGUAGE}_DEFINITIONS
HDF5_${LANGUAGE}_LIBRARY_DIRS
HDF5_${LANGUAGE}_LIBRARY_NAMES
)
# take a guess that the includes may be in the 'include' sibling
# directory of a library directory.
foreach( dir ${HDF5_${LANGUAGE}_LIBRARY_DIRS} )
list( APPEND HDF5_${LANGUAGE}_INCLUDE_FLAGS ${dir}/../include )
endforeach()
endif()
# set the definitions for the language bindings.
list( APPEND HDF5_DEFINITIONS ${HDF5_${LANGUAGE}_DEFINITIONS} )
# find the HDF5 include directories
if(${LANGUAGE} MATCHES "Fortran")
set(HDF5_INCLUDE_FILENAME hdf5.mod)
else()
set(HDF5_INCLUDE_FILENAME hdf5.h)
endif()
find_path( HDF5_${LANGUAGE}_INCLUDE_DIR ${HDF5_INCLUDE_FILENAME}
HINTS
${HDF5_${LANGUAGE}_INCLUDE_FLAGS}
ENV
HDF5_ROOT
PATHS
$ENV{HOME}/.local/include
PATH_SUFFIXES
include
Include
)
mark_as_advanced( HDF5_${LANGUAGE}_INCLUDE_DIR )
list( APPEND HDF5_INCLUDE_DIRS ${HDF5_${LANGUAGE}_INCLUDE_DIR} )
set( HDF5_${LANGUAGE}_LIBRARY_NAMES
${HDF5_${LANGUAGE}_LIBRARY_NAMES_INIT}
${HDF5_${LANGUAGE}_LIBRARY_NAMES} )
# find the HDF5 libraries
foreach( LIB ${HDF5_${LANGUAGE}_LIBRARY_NAMES} )
if( UNIX AND HDF5_USE_STATIC_LIBRARIES )
# According to bug 1643 on the CMake bug tracker, this is the
# preferred method for searching for a static library.
# See https://cmake.org/Bug/view.php?id=1643. We search
# first for the full static library name, but fall back to a
# generic search on the name if the static search fails.
set( THIS_LIBRARY_SEARCH_DEBUG lib${LIB}d.a ${LIB}d )
set( THIS_LIBRARY_SEARCH_RELEASE lib${LIB}.a ${LIB} )
else()
set( THIS_LIBRARY_SEARCH_DEBUG ${LIB}d )
set( THIS_LIBRARY_SEARCH_RELEASE ${LIB} )
endif()
find_library( HDF5_${LIB}_LIBRARY_DEBUG
NAMES ${THIS_LIBRARY_SEARCH_DEBUG}
HINTS ${HDF5_${LANGUAGE}_LIBRARY_DIRS}
ENV HDF5_ROOT
PATH_SUFFIXES lib Lib )
find_library( HDF5_${LIB}_LIBRARY_RELEASE
NAMES ${THIS_LIBRARY_SEARCH_RELEASE}
HINTS ${HDF5_${LANGUAGE}_LIBRARY_DIRS}
ENV HDF5_ROOT
PATH_SUFFIXES lib Lib )
select_library_configurations( HDF5_${LIB} )
list(APPEND HDF5_${LANGUAGE}_LIBRARIES ${HDF5_${LIB}_LIBRARY})
endforeach()
list( APPEND HDF5_LIBRARY_DIRS ${HDF5_${LANGUAGE}_LIBRARY_DIRS} )
# Append the libraries for this language binding to the list of all
# required libraries.
list(APPEND HDF5_LIBRARIES ${HDF5_${LANGUAGE}_LIBRARIES})
endforeach()
# We may have picked up some duplicates in various lists during the above
# process for the language bindings (both the C and C++ bindings depend on
# libz for example). Remove the duplicates. It appears that the default
# CMake behavior is to remove duplicates from the end of a list. However,
# for link lines, this is incorrect since unresolved symbols are searched
# for down the link line. Therefore, we reverse the list, remove the
# duplicates, and then reverse it again to get the duplicates removed from
# the beginning.
macro( _remove_duplicates_from_beginning _list_name )
list( REVERSE ${_list_name} )
list( REMOVE_DUPLICATES ${_list_name} )
list( REVERSE ${_list_name} )
endmacro()
if( HDF5_INCLUDE_DIRS )
_remove_duplicates_from_beginning( HDF5_INCLUDE_DIRS )
endif()
if( HDF5_LIBRARY_DIRS )
_remove_duplicates_from_beginning( HDF5_LIBRARY_DIRS )
endif()
# If the HDF5 include directory was found, open H5pubconf.h to determine if
# HDF5 was compiled with parallel IO support
set( HDF5_IS_PARALLEL FALSE )
set( HDF5_VERSION "" )
foreach( _dir IN LISTS HDF5_INCLUDE_DIRS )
foreach(_hdr "${_dir}/H5pubconf.h" "${_dir}/H5pubconf-64.h" "${_dir}/H5pubconf-32.h")
if( EXISTS "${_hdr}" )
file( STRINGS "${_hdr}"
HDF5_HAVE_PARALLEL_DEFINE
REGEX "HAVE_PARALLEL 1" )
if( HDF5_HAVE_PARALLEL_DEFINE )
set( HDF5_IS_PARALLEL TRUE )
endif()
unset(HDF5_HAVE_PARALLEL_DEFINE)
file( STRINGS "${_hdr}"
HDF5_VERSION_DEFINE
REGEX "^[ \t]*#[ \t]*define[ \t]+H5_VERSION[ \t]+" )
if( "${HDF5_VERSION_DEFINE}" MATCHES
"H5_VERSION[ \t]+\"([0-9]+\\.[0-9]+\\.[0-9]+).*\"" )
set( HDF5_VERSION "${CMAKE_MATCH_1}" )
endif()
unset(HDF5_VERSION_DEFINE)
endif()
endforeach()
endforeach()
set( HDF5_IS_PARALLEL ${HDF5_IS_PARALLEL} CACHE BOOL
"HDF5 library compiled with parallel IO support" )
mark_as_advanced( HDF5_IS_PARALLEL )
# For backwards compatibility we set HDF5_INCLUDE_DIR to the value of
# HDF5_INCLUDE_DIRS
if( HDF5_INCLUDE_DIRS )
set( HDF5_INCLUDE_DIR "${HDF5_INCLUDE_DIRS}" )
endif()
endif()
find_package_handle_standard_args( HDF5
REQUIRED_VARS HDF5_LIBRARIES HDF5_INCLUDE_DIRS
VERSION_VAR HDF5_VERSION
)
# Try to find OCE / OCC
# Once done this will define
#
# OCC_FOUND - system has OCC - OpenCASCADE
# OCC_INCLUDE_DIR - where the OCC include directory can be found
# OCC_LIBRARY_DIR - where the OCC library directory can be found
# OCC_LIBRARIES - Link this to use OCC
# OCC_OCAF_LIBRARIES - Link this to use OCC OCAF framework
#
# Adapted from FreeCAD: http://free-cad.sf.net
set(TEST_ENV $ENV{OCE_ROOT})
if(NOT DEFINED OCE_DIR AND DEFINED TEST_ENV)
file(GLOB OCE_DIR $ENV{OCE_ROOT}/lib/oce-*)
endif()
# First try to find OpenCASCADE Community Edition
if(NOT DEFINED OCE_DIR)
# Check for OSX needs to come first because UNIX evaluates to true on OSX
if(${CMAKE_SYSTEM_NAME} MATCHES "Darwin")
if(DEFINED MACPORTS_PREFIX)
find_package(OCE HINTS ${MACPORTS_PREFIX}/Library/Frameworks)
elseif(DEFINED HOMEBREW_PREFIX)
find_package(OCE HINTS ${HOMEBREW_PREFIX}/Cellar/oce/*)
endif()
elseif(UNIX)
set(OCE_DIR "/usr/local/share/cmake/")
elseif(WIN32)
set(OCE_DIR "c:/OCE-0.4.0/share/cmake")
endif()
endif()
find_package(OCE QUIET)
if(OCE_FOUND)
message(STATUS "-- OpenCASCADE Community Edition has been found.")
# Disable this define. For more details see bug #0001872
#add_definitions (-DHAVE_CONFIG_H)
set(OCC_INCLUDE_DIR ${OCE_INCLUDE_DIRS})
#set(OCC_LIBRARY_DIR ${OCE_LIBRARY_DIR})
else(OCE_FOUND) #look for OpenCASCADE
if(WIN32)
if(CYGWIN OR MINGW)
FIND_PATH(OCC_INCLUDE_DIR Standard_Version.hxx
/usr/include/opencascade
/usr/local/include/opencascade
/usr/local/opt/opencascade/include
/opt/opencascade/include
/opt/opencascade/inc
)
FIND_LIBRARY(OCC_LIBRARY TKernel
/usr/lib
/usr/local/lib
/usr/local/opt/opencascade/lib
/opt/opencascade/lib
)
else(CYGWIN OR MINGW)
FIND_PATH(OCC_INCLUDE_DIR Standard_Version.hxx
"[HKEY_LOCAL_MACHINE\\SOFTWARE\\SIM\\OCC\\2;Installation Path]/include"
)
FIND_LIBRARY(OCC_LIBRARY TKernel
"[HKEY_LOCAL_MACHINE\\SOFTWARE\\SIM\\OCC\\2;Installation Path]/lib"
)
endif(CYGWIN OR MINGW)
else(WIN32)
FIND_PATH(OCC_INCLUDE_DIR Standard_Version.hxx
/usr/include/opencascade
/usr/local/include/opencascade
/usr/local/opt/opencascade/include
/opt/opencascade/include
/opt/opencascade/inc
/opt/local/include/oce
)
FIND_LIBRARY(OCC_LIBRARY TKernel
/usr/lib
/usr/local/lib
/usr/local/opt/opencascade/lib
/opt/opencascade/lib
opt/local/lib
)
endif(WIN32)
if(OCC_LIBRARY)
GET_FILENAME_COMPONENT(OCC_LIBRARY_DIR ${OCC_LIBRARY} PATH)
IF(NOT OCC_INCLUDE_DIR)
FIND_PATH(OCC_INCLUDE_DIR Standard_Version.hxx
${OCC_LIBRARY_DIR}/../inc
)
ENDIF()
endif(OCC_LIBRARY)
endif(OCE_FOUND)
if(OCC_INCLUDE_DIR)