cmake_minimum_required (VERSION 2.8) project(FortranOnly Fortran) message("CTEST_FULL_OUTPUT ") # create a library with hello and world functions add_library(FortranOnlylib hello.f world.f) set_property(TARGET FortranOnlylib PROPERTY Fortran_FORMAT FIXED) set_property(SOURCE world.f PROPERTY Fortran_FORMAT FREE) # create an executable that calls hello and world add_executable(FortranOnly1 testf.f) set_property(TARGET FortranOnly1 PROPERTY OUTPUT_NAME FortranOnly) target_link_libraries(FortranOnly1 FortranOnlylib) # create a custom command that runs FortranOnly1 and puts # the output into the file testfhello.txt add_custom_command(OUTPUT ${FortranOnly_BINARY_DIR}/testfhello.txt COMMAND FortranOnly1 > testfhello.txt) # create a second executable FortranOnly2 that has # testfhello.txt has an source file so that it will # run the above custom command. add_executable(FortranOnly2 testfhello.txt testf.f) target_link_libraries(FortranOnly2 FortranOnlylib) # create a custom target to check the content of testfhello.txt # by running the cmake script checktestf2.cmake add_custom_target(checktestf2 ALL COMMAND ${CMAKE_COMMAND} -P ${FortranOnly_SOURCE_DIR}/checktestf2.cmake) # create a custom target that runs FortranOnly1 exectuable and creates # a file out.txt that should have hello world in it. add_custom_target(sayhello ALL COMMAND FortranOnly1 > out.txt ) # make sure stuff is built in the right order add_dependencies(checktestf2 FortranOnly2) add_dependencies(sayhello FortranOnly1) add_dependencies(FortranOnly2 FortranOnly1) # add a custom target that checkes that out.txt has the correct # content add_custom_target(checksayhello ALL COMMAND ${CMAKE_COMMAND} -P ${FortranOnly_SOURCE_DIR}/checksayhello.cmake ) add_dependencies(checksayhello sayhello) # Exclude this test on IBM XL for now because the check strangely # fails with 'ld: 0706-029 Use a number with the -H flag'. if(NOT CMAKE_Fortran_COMPILER_ID STREQUAL XL) set(err_log ${CMAKE_BINARY_DIR}/CMakeFiles/CMakeError.log) file(REMOVE "${err_log}") include(CheckFortranSourceCompiles) unset(HAVE_PRINT CACHE) CHECK_Fortran_SOURCE_COMPILES([[ PROGRAM TEST_HAVE_PRINT PRINT *, 'Hello' END ]] HAVE_PRINT) if(NOT HAVE_PRINT) if(EXISTS "${err_log}") file(READ "${err_log}" err) endif() string(REPLACE "\n" "\n " err " ${err}") message(SEND_ERROR "CHECK_Fortran_SOURCE_COMPILES for HAVE_PRINT failed:\n" "${err}") endif() unset(Fortran_BOGUS_FLAG CACHE) include(CheckFortranCompilerFlag) CHECK_Fortran_COMPILER_FLAG(-_this_is_not_a_flag_ Fortran_BOGUS_FLAG) if (Fortran_BOGUS_FLAG) message (SEND_ERROR "CHECK_Fortran_COMPILER_FLAG() succeeded, but should have failed") endif () endif() # Test generation of preprocessed sources. if("${CMAKE_GENERATOR}" MATCHES "Makefile" AND CMAKE_MAKE_PROGRAM) if(CMAKE_Fortran_CREATE_PREPROCESSED_SOURCE) # Skip running this part of the test on certain platforms # until they are fixed. set(MAYBE_ALL ALL) list(LENGTH CMAKE_OSX_ARCHITECTURES ARCH_COUNT) if(ARCH_COUNT GREATER 1) # OSX does not support preprocessing more than one architecture. set(MAYBE_ALL) endif() add_executable(preprocess preprocess.F) # Custom target to try preprocessing invocation. add_custom_target(test_preprocess ${MAYBE_ALL} COMMAND ${CMAKE_COMMAND} -E remove CMakeFiles/preprocess.dir/preprocess.F.i COMMAND ${CMAKE_MAKE_PROGRAM} preprocess.i COMMAND ${CMAKE_COMMAND} -P ${CMAKE_CURRENT_SOURCE_DIR}/test_preprocess.cmake # Remove bogus file some compilers leave behind. COMMAND ${CMAKE_COMMAND} -E remove ${CMAKE_CURRENT_SOURCE_DIR}/preprocess.s WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR} ) endif() endif()