project (ndhc) cmake_minimum_required (VERSION 2.6) #################################### # Computes the realtionship between two version strings. A version # string is a number delineated by '.'s such as 1.3.2 and 0.99.9.1. # You can feed version strings with different number of dot versions, # and the shorter version number will be padded with zeros: 9.2 < # 9.2.1 will actually compare 9.2.0 < 9.2.1. # # Input: a_in - value, not variable # b_in - value, not variable # result_out - variable with value: # -1 : a_in < b_in # 0 : a_in == b_in # 1 : a_in > b_in # # Written by James Bigler. MACRO(COMPARE_VERSION_STRINGS a_in b_in result_out) # Since SEPARATE_ARGUMENTS using ' ' as the separation token, # replace '.' with ' ' to allow easy tokenization of the string. STRING(REPLACE "." " " a ${a_in}) STRING(REPLACE "." " " b ${b_in}) SEPARATE_ARGUMENTS(a) SEPARATE_ARGUMENTS(b) # Check the size of each list to see if they are equal. LIST(LENGTH a a_length) LIST(LENGTH b b_length) # Pad the shorter list with zeros. # Note that range needs to be one less than the length as the for # loop is inclusive (silly CMake). IF(a_length LESS b_length) # a is shorter SET(shorter a) MATH(EXPR range "${b_length} - 1") MATH(EXPR pad_range "${b_length} - ${a_length} - 1") ELSE(a_length LESS b_length) # b is shorter SET(shorter b) MATH(EXPR range "${a_length} - 1") MATH(EXPR pad_range "${a_length} - ${b_length} - 1") ENDIF(a_length LESS b_length) # PAD out if we need to IF(NOT pad_range LESS 0) FOREACH(pad RANGE ${pad_range}) # Since shorter is an alias for b, we need to get to it by by dereferencing shorter. LIST(APPEND ${shorter} 0) ENDFOREACH(pad RANGE ${pad_range}) ENDIF(NOT pad_range LESS 0) SET(result 0) FOREACH(index RANGE ${range}) IF(result EQUAL 0) # Only continue to compare things as long as they are equal LIST(GET a ${index} a_version) LIST(GET b ${index} b_version) # LESS IF(a_version LESS b_version) SET(result -1) ENDIF(a_version LESS b_version) # GREATER IF(a_version GREATER b_version) SET(result 1) ENDIF(a_version GREATER b_version) ENDIF(result EQUAL 0) ENDFOREACH(index) # Copy out the return result SET(${result_out} ${result}) ENDMACRO(COMPARE_VERSION_STRINGS) #################################### set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -std=gnu99 -fno-strict-overflow -pedantic -Wall -Wextra -Wimplicit-fallthrough=0 -Wformat=2 -Wformat-nonliteral -Wformat-security -Wshadow -Wpointer-arith -Wmissing-prototypes -Wunused-const-variable=0 -Wsign-conversion -D_GNU_SOURCE -DNK_USE_CAPABILITY") set(CMAKE_CXX_FLAGS "${CMAKE_C_FLAGS} -std=gnu99 -fno-strict-overflow -pedantic -Wall -Wextra -Wimplicit-fallthrough=0 -Wformat-security -Wshadow -Wpointer-arith -Wmissing-prototypes -Wunused-const-variable=0 -Wsign-conversion -D_GNU_SOURCE -DNK_USE_CAPABILITY") if (WIN32) set(OSNAME "Win32") else() execute_process( COMMAND uname COMMAND tr "\n" " " COMMAND sed "s/ //" OUTPUT_VARIABLE OSNAME ) endif() if (NOT (${OSNAME} STREQUAL "Linux")) message("ndhc requires Linux. Patches are welcome. Consult README.") return() endif() if (NOT CMAKE_CROSSCOMPILING) set(GLIBC_DETECT_TEST_C " #include int main(int argc, char *argv[]) { printf(\"%d.%d\", __GLIBC__, __GLIBC_MINOR__); return 0; } ") file(WRITE ${CMAKE_CURRENT_BINARY_DIR}/detect/glibc.c "${GLIBC_DETECT_TEST_C}\n") try_run(GLIBC_DETECTION GLIBC_COMPILE ${CMAKE_CURRENT_BINARY_DIR}/detect ${CMAKE_CURRENT_BINARY_DIR}/detect/glibc.c RUN_OUTPUT_VARIABLE GLIBC_VERSION) if (GLIBC_VERSION AND GLIBC_COMPILE) message("glibc version detected as ${GLIBC_VERSION}") COMPARE_VERSION_STRINGS(${GLIBC_VERSION} "2.17" GLIBC_MUST_LINK_RT) if (${GLIBC_MUST_LINK_RT} LESS 0) message("glibc <2.17 detected; linking against librt.") set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -lrt") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -lrt") endif() else() message("Could not detect glibc version.") endif() endif() if ("$ENV{CROSSCOMPILE_MACHINENAME}" STREQUAL "") execute_process( COMMAND uname -m COMMAND tr "\n" " " COMMAND sed "s/ //" OUTPUT_VARIABLE MACHINENAME ) else() message("skipped machine detection; MACHINENAME is '$ENV{CROSSCOMPILE_MACHINENAME}'") set(MACHINENAME $ENV{CROSSCOMPILE_MACHINENAME}) endif() include_directories("${PROJECT_SOURCE_DIR}/ncmlib") add_subdirectory(ncmlib) add_subdirectory(src)