CGAL 5.1.3 - Manual
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This page lists CMake variables which you can use to help CMake find missing dependencies while using the command line. We however recommend using the graphical interface (cmake-gui
).
Most configuration variables are not environment variables but CMake variables. They are given in the command line to CMake via the -D
option, or passed from the interactive interface of cmake-gui
. Unless indicated differently, all the variables summarized below are CMake variables.
The following boolean variables indicate which CGAL components to configure and build. Their values can be ON or OFF.
Variable | Default Value |
---|---|
WITH_examples | OFF |
WITH_demos | OFF |
WITH_CGAL_Core | ON |
WITH_CGAL_Qt5 | ON |
WITH_CGAL_ImageIO | ON |
The following variables specify compiler and linker flags. Each variable holds a space-separated list of command-line switches for the compiler and linker and their default values are automatically defined by CMake based on the target platform.
Have in mind that these variables specify a list of flags, not just one single flag. If you provide your own definition for a variable, you will entirely override the list of flags chosen by CMake for that particular variable.
The variables that correspond to both debug and release builds are always used in conjunction with those for the specific build type.
Program | Both Debug and Release | Release Only | Debug Only |
---|---|---|---|
C++ Compiler | CMAKE_CXX_FLAGS | CMAKE_CXX_FLAGS_RELEASE | CMAKE_CXX_FLAGS_DEBUG |
Linker (shared libs) | CMAKE_SHARED_LINKER_FLAGS | CMAKE_SHARED_LINKER_FLAGS_RELEASE | CMAKE_SHARED_LINKER_FLAGS_DEBUG |
Linker (static libs) | CMAKE_MODULE_LINKER_FLAGS | CMAKE_MODULE_LINKER_FLAGS_RELEASE | CMAKE_MODULE_LINKER_FLAGS_DEBUG |
Linker (programs) | CMAKE_EXE_LINKER_FLAGS | CMAKE_EXE_LINKER_FLAGS_RELEASE | CMAKE_EXE_LINKER_FLAGS_DEBUG |
The following variables can be used to add flags without overriding the ones defined by cmake.
Program | Both Debug and Release | Release Only | Debug Only |
---|---|---|---|
C++ Compiler | CGAL_CXX_FLAGS | CGAL_CXX_FLAGS_RELEASE | CGAL_CXX_FLAGS_DEBUG |
Linker (shared libs) | CGAL_SHARED_LINKER_FLAGS | CGAL_SHARED_LINKER_FLAGS_RELEASE | CGAL_SHARED_LINKER_FLAGS_DEBUG |
Linker (static libs) | CGAL_MODULE_LINKER_FLAGS | CGAL_MODULE_LINKER_FLAGS_RELEASE | CGAL_MODULE_LINKER_FLAGS_DEBUG |
Linker (programs) | CGAL_EXE_LINKER_FLAGS | CGAL_EXE_LINKER_FLAGS_RELEASE | CGAL_EXE_LINKER_FLAGS_DEBUG |
Note that the default build type is Debug
, which should only be used to debug and will serverly limit performances.
Variable | Description | Type | Default Value |
---|---|---|---|
CMAKE_BUILD_TYPE | Indicates type of build. Possible values are 'Debug' or 'Release' | CMake | |
CMAKE_INSTALL_PREFIX | Installation directory path | CMake | Debug |
CMAKE_C_COMPILER | Full-path to the executable corresponding to the C compiler to use. | CMake | platform-dependent |
CMAKE_CXX_COMPILER | Full-path to the executable corresponding to the C++ compiler to use. | CMake | platform-dependent |
CXX | Idem | Environment | Idem |
BUILD_SHARED_LIBS | Whether to build shared or static libraries. | CMake | TRUE |
Variable | Description | Type | Default Value |
---|---|---|---|
CGAL_DIR | Full-path to the binary directory where CGAL was configured | Either CMake or Environment | none |
Qt5_DIR | Full-path to the Qt cmake directory | CMake | platform-dependent |
The following variables provide information about the availability and location of the 3rd party libraries used by CGAL. CMake automatically searches for dependencies so you need to specify these variables if CMake was unable to locate something. This is indicated by a value ending in NOTFOUND
.
Since 3rd-party libraries are system wide, many of the CMake variables listed below can alternatively be given as similarly-named environment variables instead. Keep in mind that you must provide one or the other but never both.
In most cases, if Boost is not automatically found, setting the BOOST_ROOT
variable is enough. If it is not, you can specify the header and library directories individually. You can also provide the full pathname to a specific compiled library if it cannot be found in the library directory or its name is non-standard.
By default, when Boost binary libraries are needed, the shared versions are used if present. You can set the variable CGAL_Boost_USE_STATIC_LIBS
to ON
if you want to link with static versions explicitly.
On Windows, if you link with Boost shared libraries, you must ensure that the .dll
files are found by the dynamic linker, at run time. For example, you can add the path to the Boost .dll
to the PATH
environment variable.
Variable | Description | Type |
---|---|---|
BOOST_ROOT The environment variable can be spelled either BOOST_ROOT or BOOSTROOT | Root directory of your Boost installation | Either CMake or Environment |
Boost_INCLUDE_DIR | Directory containing the boost/version.hpp file | CMake |
BOOST_INCLUDEDIR | Idem | Environment |
Boost_LIBRARY_DIRS | Directory containing the compiled Boost libraries | CMake |
BOOST_LIBRARYDIR | Idem | Environment |
Boost_(xyz)_LIBRARY_RELEASE | Full pathname to a release build of the compiled 'xyz' Boost library | CMake |
Boost_(xyz)_LIBRARY_DEBUG | Full pathname to a debug build of the compiled 'xyz' Boost library | CMake |
Under Windows, auto-linking is used, so only the directory containing the libraries is needed and you would specify GMP|MPFR_LIBRARY_DIR
rather than GMP|MPFR_LIBRARIES
. On the other hand, under Linux the actual library filename is needed. Thus you would specify GMP|MPFR_LIBRARIES
. In no case you need to specify both.
CGAL uses both Gmp and Mpfr so both need to be supported. If either of them is unavailable the usage of Gmp and of Mpfr will be disabled.
Variable | Description | Type |
---|---|---|
CGAL_DISABLE_GMP | Indicates whether to search and use Gmp/Mpfr or not | CMake |
GMP_DIR | Directory of Gmp default installation | Environment |
GMP_INCLUDE_DIR | Directory containing the gmp.h file | CMake |
GMP_INC_DIR | Idem | Environment |
GMP_LIBRARIES_DIR | Directory containing the compiled Gmp library | CMake |
GMP_LIB_DIR | Idem | Environment |
GMP_LIBRARIES | Full pathname of the compiled Gmp library | CMake |
MPFR_INCLUDE_DIR | Directory containing the mpfr.h file | CMake |
MPFR_INC_DIR | Idem | Environment |
MPFR_LIBRARIES_DIR | Directory containing the compiled Mpfr library | CMake |
MPFR_LIB_DIR | Idem | Environment |
MPFR_LIBRARIES | Full pathname of the compiled Mpfr library | CMake |
Under Linux, the Gmpxx is also searched for, and you may specify the following variables:
Variable | Description | Type |
---|---|---|
GMPXX_DIR | Directory of gmpxx default installation | Environment |
GMPXX_INCLUDE_DIR | Directory containing the gmpxx.h file | CMake |
GMPXX_LIBRARIES | Full pathname of the compiled Gmpxx library | CMake |
You must set the cmake or environment variable Qt5_DIR
to point to the path to the directory containing the file Qt5Config.cmake
created by your Qt5 installation. If you are using the open source edition it should be <path>/qt-everywhere-opensource-src-<version>/qtbase/lib/cmake/Qt5
.
When the LEDA libraries are not automatically found, yet they are installed on the system with base names 'leda' and 'ledaD' (for the release and debug versions resp.), it might be sufficient to just indicate the library directory via the LEDA_LIBRARY_DIRS
variable. If that doesn't work because, for example, the names are different, you can provide the full pathnames of each variant via LEDA_LIBRARY_RELEASE
and LEDA_LIBRARY_DEBUG
.
The variables specifying definitions and flags can be left undefined if they are not needed by LEDA.
Variable | Description | Type |
---|---|---|
WITH_LEDA | Indicates whether to search and use LEDA or not | CMake |
LEDA_DIR | Directory of LEDA default installation | Environment |
LEDA_INCLUDE_DIR | Directory containing the file LEDA/system/basic.h | CMake |
LEDA_LIBRARIES | Directory containing the compiled LEDA libraries | CMake |
LEDA_INC_DIR | Directory containing the file LEDA/system/basic.h | Environment |
LEDA_LIB_DIR | Directory containing the compiled LEDA libraries | Environment |
LEDA_LIBRARY_RELEASE | Full pathname to a release build of the LEDA library | CMake |
LEDA_LIBRARY_DEBUG | Full pathname to a debug build of the LEDA library | CMake |
LEDA_DEFINITIONS | Preprocessor definitions | CMake |
LEDA_CXX_FLAGS | Compiler flags | CMake |
LEDA_LINKER_FLAGS | Linker flags | CMake |
CGAL provides a number type based on this library, but the CGAL library itself does not depend on Mpfi. This means that this library must be configured when compiling an application that uses the above number type.
When Mpfi files are not on the standard path, the locations of the headers and library files must be specified by using environment variables.
Variable | Description | Type |
---|---|---|
MPFI_DIR | Directory of MPFI default installation | Environment |
MPFI_INCLUDE_DIR | Directory containing the mpfi.h file | CMake |
MPFI_INC_DIR | Idem | Environment |
MPFI_LIBRARIES_DIR | Directory containing the compiled Mpfi library | CMake |
MPFI_LIB_DIR | Idem | Environment |
MPFI_LIBRARIES | Full pathname of the compiled Mpfi library | CMake |
As said before, only the CGAL univariate algebraic kernel depends on the library Rs. As the algebraic kernel is not compiled as a part of the CGAL library, this library is not detected nor configured at installation time.
CMake will try to find Rs in the standard header and library directories. When it is not automatically detected, the locations of the headers and library files must be specified using environment variables.
Rs needs Gmp 4.2 or later and Mpfi 1.3.4 or later. The variables related to the latter library may also need to be defined.
Variable | Description | Type |
---|---|---|
RS_DIR | Directory of Rs default installation | Environment |
RS_INCLUDE_DIR | Directory containing the rs_exports.h file | CMake |
RS_INC_DIR | Idem | Environment |
RS_LIBRARIES_DIR | Directory containing the compiled Rs library | CMake |
RS_LIB_DIR | Idem | Environment |
RS_LIBRARIES | Full pathname of the compiled Rs library | CMake |
Similar variables exist for Rs3.
Variable | Description | Type |
---|---|---|
RS3_DIR | Directory of Rs3 default installation | Environment |
RS3_INCLUDE_DIR | Directory containing the file rs3_fncts.h file | CMake |
RS3_INC_DIR | Idem | Environment |
RS3_LIBRARIES_DIR | Directory containing the compiled Rs3 library | CMake |
RS3_LIB_DIR | Idem | Environment |
RS3_LIBRARIES | Full pathname of the compiled Rs3 library | CMake |
Some polynomial computations in CGAL's algebraic kernel are speed up when Ntl is available. As the algebraic kernel is not compiled as a part of the CGAL library, this library is not detected nor configured at installation time.
CMake will try to find Ntl in the standard header and library directories. When it is not automatically detected, the locations of the headers and library files must be specified using environment variables.
Variable | Description | Type |
---|---|---|
NTL_DIR | Directory of NTL default installation | Environment |
NTL_INCLUDE_DIR | Directory containing the NTL/ZZX.h file | CMake |
NTL_INC_DIR | Idem | Environment |
NTL_LIBRARIES_DIR | Directory containing the compiled Ntl library | CMake |
NTL_LIB_DIR | Idem | Environment |
NTL_LIBRARIES | Full pathname of the compiled Ntl library | CMake |
Eigen is a header-only template library. Only the directory containing the header files of Eigen 3.1 (or greater) is needed.
Variable | Description | Type |
---|---|---|
EIGEN3_INCLUDE_DIR | Directory containing the file signature_of_eigen3_matrix_library | CMake |
EIGEN3_INC_DIR | Idem | Environment |
One skin surface example requires the Esbtl library in order to read Pdb files.
If Esbtl is not automatically found, setting the ESBTL_INC_DIR
environment variable is sufficient.
Variable | Description | Type |
---|---|---|
ESBTL_DIR | Directory of ESBTL default installation | Environment |
ESBTL_INC_DIR | Directory containing the ESBTL/default.h file | Environment |
ESBTL_INCLUDE_DIR | Directory containing the ESBTL/default.h file | CMake |
Some BGL examples require the Metis library in order to partition Metis meshes.
If Metis is not automatically found, setting the METIS_INCLUDE_DIR
and METIS_LIBRARY
cmake variables is necessary.
Variable | Description | Type |
---|---|---|
METIS_INCLUDE_DIR | Directory of Metis default installation | CMAKE |
METIS_LIBRARY | Directory containing the libmetis.so or .lib file | CMAKE |
If Tbb is not automatically found, the user must set the TBB_ROOT
environment variable. The environment variable TBB_ARCH_PLATFORM=<arch>/<compiler>
must be set. <arch>
is ia32
or intel64
. <compiler>
describes the Linux kernel, gcc version or Visual Studio version used. It should be set to what is used in $TBB_ROOT/lib/<arch>
.
For windows users, the folder TBB_ROOT/bin/<arch>/<compiler>
should be added to the PATH
variable.
Note that the variables in the table below are being used.
Variable | Description | Type |
---|---|---|
TBB_ROOT | Directory of Tbb default installation | Environment |
TBB_INCLUDE_DIRS | Directory containing the tbb/tbb.h file | CMake |
TBB_LIBRARY_DIRS | Directory(ies) containing the compiled TBB libraries | CMake |
TBB_LIBRARIES | Full pathnames of the compiled TBB libraries (both release and debug versions, using "optimized" and "debug" CMake keywords). Note that if the debug versions are not found, the release versions will be used instead for the debug mode. | CMake |
TBB_RELEASE_LIBRARY | Full pathname of the compiled TBB release library | CMake |
TBB_MALLOC_RELEASE_LIBRARY | Full pathname of the compiled TBB release malloc library | CMake |
TBB_DEBUG_LIBRARY | Full pathname of the compiled TBB debug library | CMake |
TBB_MALLOC_DEBUG_LIBRARY | Full pathname of the compiled TBB debug malloc library | CMake |
TBB_MALLOCPROXY_DEBUG_LIBRARY | Full pathname of the compiled TBB debug malloc_proxy library (optional) | CMake |
TBB_MALLOCPROXY_RELEASE_LIBRARY | Full pathname of the compiled TBB release malloc_proxy library (optional) | CMake |
If LASLIB is not automatically found, the following variables must be set:
Variable | Description | Type |
---|---|---|
LASLIB_INCLUDE_DIR | Directory containing the file lasreader.hpp | CMake |
LASZIP_INCLUDE_DIR | Directory containing the file mydefs.hpp | CMake |
LASLIB_LIBRARIES | Full pathname of the compiled LASLIB library | CMake |
The environment variable OPENCV_DIR
should be set to the directory containing the file OpenCVConfig.cmake
provided by OpenCV.
If TensorFlow is not automatically found, the following variables must be set:
Variable | Description | Type |
---|---|---|
TensorFlow_INCLUDE_DIR | Directory containing the directories tensorflow/core , tensorflow/cc , etc. | CMake |
TensorFlow_LIBRARY | Full pathname of the compiled TensorFlow C++ library | CMake |
The environment variable SCIP_DIR
should be set to the directory containing the file scip-config.cmake
provided by SCIP.
If GLPK is not automatically found, the following variables must be set:
Variable | Description | Type |
---|---|---|
GLPK_INCLUDE_DIR | Directory containing the file glpk.h | CMake |
GLPK_LIBRARIES | Full pathname of the compiled GLPK library | CMake |
A number of boolean flags are used to workaround compiler bugs and limitations. They all start with the prefix CGAL_CFG
. These flags are used to work around compiler bugs and limitations. For example, the flag CGAL_CFG_NO_CPP0X_LONG_LONG
denotes that the compiler does not know the type long long
.
For each installation a file <CGAL/compiler_config.h>
is defined, with the correct settings of all flags. This file is generated automatically by CMake, and it is located in the include
directory of where you run CMake. For an in-source configuration this means CGAL-5.1.3
/include
.
The test programs used to generate the compiler_config.h
file can be found in config/testfiles
. Both compiler_config.h
and the test programs contain a short description of the problem. In case of trouble with one of the CGAL_CFG
flags, it is a good idea to take a look at it.
The file CGAL/compiler_config.h
is included from <CGAL/config.h>
. which is included by all CGAL header files.