📄 cmakelists.txt
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# vxl/vnl/algo/CMakeLists.txt
INCLUDE( ${MODULE_PATH}/FindNetlib.cmake )
# most of vnl_algo is simply a wrapper around netlib, so we must have netlib.
IF(NETLIB_FOUND)
# Direct netlib dependencies are:
# vnl_chi_squared dchscdf_
# vnl_cholesky dpoco_ dpodi_ dpofa_ dposl_
# vnl_ldl_cholesky dpoco_ dpodi_ dpofa_ dposl_
# vnl_complex_eigensystem zgeev_
# vnl_conjugate_gradient cg_
# vnl_fft dgpfa_ dsetgpfa_ gpfa_ setgpfa_
# vnl_generalized_eigensystem rsg_
# vnl_generalized_schur dgges_
# vnl_lbfgs lbfgs_ lb3_
# vnl_lbfgsb setulb_
# vnl_levenberg_marquardt lmder1_ lmdif_
# vnl_lsqr lsqr_
# vnl_qr cqrdc_ cqrsl_ dqrdc_ dqrsl_ sqrdc_ sqrsl_ zqrdc_ zqrsl_
# vnl_real_eigensystem rg_
# vnl_rpoly_roots rpoly_
# vnl_sparse_symmetric_eigensystem dnlaso_
# vnl_svd csvdc_ dsvdc_ ssvdc_ zsvdc_
# vnl_svd_economy csvdc_ dsvdc_ ssvdc_ zsvdc_
# vnl_symmetric_eigensystem rs_
INCLUDE_DIRECTORIES( ${NETLIB_INCLUDE_DIR} )
SET( vnl_algo_sources
vnl_algo_fwd.h
vnl_netlib.h
# matrix decompositions
vnl_svd.txx vnl_svd.h
vnl_svd_economy.txx vnl_svd_economy.h
vnl_matrix_inverse.txx vnl_matrix_inverse.h
vnl_qr.txx vnl_qr.h
vnl_scatter_3x3.txx vnl_scatter_3x3.h
vnl_cholesky.cxx vnl_cholesky.h
vnl_ldl_cholesky.cxx vnl_ldl_cholesky.h
vnl_sparse_lu.cxx vnl_sparse_lu.h
vnl_real_eigensystem.cxx vnl_real_eigensystem.h
vnl_complex_eigensystem.cxx vnl_complex_eigensystem.h
vnl_symmetric_eigensystem.cxx vnl_symmetric_eigensystem.h
vnl_generalized_eigensystem.cxx vnl_generalized_eigensystem.h
vnl_sparse_symmetric_eigensystem.cxx vnl_sparse_symmetric_eigensystem.h
vnl_generalized_schur.cxx vnl_generalized_schur.h
# optimisation
vnl_discrete_diff.cxx vnl_discrete_diff.h
vnl_levenberg_marquardt.cxx vnl_levenberg_marquardt.h
vnl_conjugate_gradient.cxx vnl_conjugate_gradient.h
vnl_lbfgs.cxx vnl_lbfgs.h
vnl_lbfgsb.cxx vnl_lbfgsb.h
vnl_amoeba.cxx vnl_amoeba.h
vnl_powell.cxx vnl_powell.h
vnl_brent.cxx vnl_brent.h
vnl_lsqr.cxx vnl_lsqr.h
vnl_solve_qp.cxx vnl_solve_qp.h
vnl_bracket_minimum.cxx vnl_bracket_minimum.h
vnl_brent_minimizer.cxx vnl_brent_minimizer.h
# equation solvers
vnl_rpoly_roots.cxx vnl_rpoly_roots.h
vnl_cpoly_roots.cxx vnl_cpoly_roots.h
vnl_rnpoly_solve.cxx vnl_rnpoly_solve.h
vnl_fit_parabola.h
# fft
vnl_fft.cxx vnl_fft.h
vnl_fft_base.txx vnl_fft_base.h
vnl_fft_1d.txx vnl_fft_1d.h
vnl_fft_2d.txx vnl_fft_2d.h
vnl_fft_prime_factors.txx vnl_fft_prime_factors.h
# stuff
vnl_convolve.txx vnl_convolve.h
vnl_determinant.cxx vnl_determinant.txx vnl_determinant.h
vnl_chi_squared.cxx vnl_chi_squared.h
vnl_gaussian_kernel_1d.cxx vnl_gaussian_kernel_1d.h
vnl_adjugate.txx vnl_adjugate.h
vnl_orthogonal_complement.txx vnl_orthogonal_complement.h
vnl_matrix_update.h
# integral
vnl_simpson_integral.cxx vnl_simpson_integral.h
vnl_adaptsimpson_integral.cxx vnl_adaptsimpson_integral.h
)
AUX_SOURCE_DIRECTORY(Templates vnl_algo_sources)
ADD_LIBRARY( itkvnl_algo ${vnl_algo_sources})
TARGET_LINK_LIBRARIES( itkvnl_algo ${NETLIB_LIBRARIES} itkvnl )
IF(ITK_LIBRARY_PROPERTIES)
SET_TARGET_PROPERTIES(itkvnl_algo PROPERTIES ${ITK_LIBRARY_PROPERTIES})
ENDIF(ITK_LIBRARY_PROPERTIES)
IF(NOT VXL_INSTALL_NO_LIBRARIES)
INSTALL(TARGETS itkvnl_algo
RUNTIME DESTINATION ${VXL_INSTALL_BIN_DIR_CM24} COMPONENT RuntimeLibraries
LIBRARY DESTINATION ${VXL_INSTALL_LIB_DIR_CM24} COMPONENT RuntimeLibraries
ARCHIVE DESTINATION ${VXL_INSTALL_LIB_DIR_CM24} COMPONENT Development)
ENDIF(NOT VXL_INSTALL_NO_LIBRARIES)
IF(NOT VXL_INSTALL_NO_DEVELOPMENT)
INSTALL_NOBASE_HEADER_FILES(${VXL_INSTALL_ROOT}/core/vnl/algo ${vnl_algo_sources})
ENDIF(NOT VXL_INSTALL_NO_DEVELOPMENT)
IF( BUILD_TESTING )
SUBDIRS(tests)
ENDIF( BUILD_TESTING )
ENDIF(NETLIB_FOUND)
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