############################################################################### # strip_string( ) # # A macro to handle stripping the leading and trailing spaces from a string, # uses string(STRIP) if using CMake 2.6.x or better, otherwise uses # string(REGEX REPLACE). ############################################################################### macro(strip_string INPUT_STRING OUTPUT_STRING) if(CMAKE26_OR_BETTER) # For CMake 2.6.x or better, we can just use the STRIP sub-command of string() string(STRIP ${INPUT_STRING} ${OUTPUT_STRING}) else(CMAKE26_OR_BETTER) # For CMake 2.4.x, we will have to use the REGEX REPLACE sub-command of string() instead # First check if the input string is empty or not if (${INPUT_STRING} STREQUAL "") set(${OUTPUT_STRING} "") else(${INPUT_STRING} STREQUAL "") # Determine if the string is entirely empty or not string(REGEX MATCH "^[ \t]*$" EMPTY_STRING "${INPUT_STRING}") if(EMPTY_STRING) set(${OUTPUT_STRING} "") else(EMPTY_STRING) # We detect if there is any leading whitespace and remove any if there is string(SUBSTRING "${INPUT_STRING}" 0 1 FIRST_CHAR) if(FIRST_CHAR STREQUAL " " OR FIRST_CHAR STREQUAL "\t") string(REGEX REPLACE "^[ \t]+" "" TEMP_STRING "${INPUT_STRING}") else(FIRST_CHAR STREQUAL " " OR FIRST_CHAR STREQUAL "\t") set(TEMP_STRING "${INPUT_STRING}") endif(FIRST_CHAR STREQUAL " " OR FIRST_CHAR STREQUAL "\t") # Next we detect if there is any trailing whitespace and remove any if there is string(LENGTH "${TEMP_STRING}" STRING_LEN) math(EXPR STRING_LEN "${STRING_LEN} - 1") string(SUBSTRING "${TEMP_STRING}" ${STRING_LEN} 1 LAST_CHAR) if(LAST_CHAR STREQUAL " " OR LAST_CHAR STREQUAL "\t") string(REGEX REPLACE "[ \t]+$" "" ${OUTPUT_STRING} "${TEMP_STRING}") else(LAST_CHAR STREQUAL " " OR LAST_CHAR STREQUAL "\t") set(${OUTPUT_STRING} "${TEMP_STRING}") endif(LAST_CHAR STREQUAL " " OR LAST_CHAR STREQUAL "\t") endif(EMPTY_STRING) endif(${INPUT_STRING} STREQUAL "") endif(CMAKE26_OR_BETTER) endmacro(strip_string) ############################################################################### # append_to_list( ...) # # A macro to handle appending to lists, uses list(APPEND) if using CMake 2.4.2 # or better, otherwise uses set() instead. ############################################################################### macro(append_to_list LIST) if(CMAKE242_OR_BETTER) # For CMake 2.4.2 or better, we can just use the APPEND sub-command of list() list(APPEND ${LIST} ${ARGN}) else(CMAKE242_OR_BETTER) # For CMake 2.4.x before 2.4.2, we have to do this manually use set() instead set(${LIST} ${${LIST}} ${ARGN}) endif(CMAKE242_OR_BETTER) endmacro(append_to_list) ############################################################################### # find_in_list( ) # # A macro to handle searching within a list, will store the result in the # given , uses list(FIND) if using CMake 2.6.x or better # (or CMake 2.4.8 or better), otherwise it iterates through the list to find # the item. ############################################################################### macro(find_in_list LIST ITEM_TO_FIND FOUND) if(CMAKE248_OR_BETTER) # For CMake 2.4.8 or better, we can use the FIND sub-command of list() list(FIND ${LIST} ${ITEM_TO_FIND} ITEM_FOUND) else(CMAKE248_OR_BETTER) # For CMake 2.4.x before 2.4.8, we have to do this ourselves (NOTE: This is very slow due to a lack of break() as well) # Firstly we set the position to -1 indicating nothing found, we also use a temporary position set(ITEM_FOUND -1) set(POS 0) # Iterate through the list foreach(ITEM ${${LIST}}) # If the item we are looking at is the item we are trying to find, set that we've found the item if(${ITEM} STREQUAL ${ITEM_TO_FIND}) set(ITEM_FOUND ${POS}) endif(${ITEM} STREQUAL ${ITEM_TO_FIND}) # Increase the position value by 1 math(EXPR POS "${POS} + 1") endforeach(ITEM) endif(CMAKE248_OR_BETTER) # Set the given FOUND variable to the result set(${FOUND} ${ITEM_FOUND}) endmacro(find_in_list) ############################################################################### # remove_list_duplicates() # # A macro to handle removing duplicates from a list, uses # list(REMOVE_DUPLICATES) if using CMake 2.6.x or better, otherwise it uses # a slower method of creating a temporary list and only adding to it when # a duplicate item hasn't been found. ############################################################################### macro(remove_list_duplicates LIST) if(CMAKE26_OR_BETTER) # For CMake 2.6.x or better, this can be done automatically list(REMOVE_DUPLICATES ${LIST}) else(CMAKE26_OR_BETTER) # For CMake 2.4.x, we have to do this ourselves, firstly we'll clear a temporary list set(NEW_LIST) # Iterate through the old list foreach(ITEM ${${LIST}}) # Check if the item is in the new list find_in_list(NEW_LIST ${ITEM} FOUND_ITEM) if(FOUND_ITEM EQUAL -1) # If the item was not found, append it to the list append_to_list(NEW_LIST ${ITEM}) endif(FOUND_ITEM EQUAL -1) endforeach(ITEM) # Replace the old list with the new list set(${LIST} ${NEW_LIST}) endif(CMAKE26_OR_BETTER) endmacro(remove_list_duplicates) ############################################################################### # remove_item_from_list( ) # # A macro to handle removing a value from a list, uses list(REMOVE_ITEM) in # both cases, but can remove the value itself using CMake 2.4.2 or better, # while older versions use a slower method of iterating the list to find the # index of the value to remove. ############################################################################### macro(remove_item_from_list LIST VALUE) if(CMAKE242_OR_BETTER) # For CMake 2.4.2 or better, this can be done automatically list(REMOVE_ITEM ${LIST} ${VALUE}) else(CMAKE242_OR_BETTER) # For CMake 2.4.x before 2.4.2, we have to do this ourselves, firstly we set the index and a variable to indicate if the item was found set(INDEX 0) set(FOUND FALSE) # Iterate through the old list foreach(ITEM ${${LIST}}) # If the item hasn't been found yet, but the current item is the same, remove it if(NOT FOUND) if(ITEM STREQUAL ${VALUE}) set(FOUND TRUE) list(REMOVE_ITEM ${LIST} ${INDEX}) endif(ITEM STREQUAL ${VALUE}) endif(NOT FOUND) # Increase the index value by 1 math(EXPR INDEX "${INDEX} + 1") endforeach(ITEM) endif(CMAKE242_OR_BETTER) endmacro(remove_item_from_list) ############################################################################### # sort_list() # # A macro to handle sorting a list, uses list(SORT) if using CMake 2.4.4 or # better, otherwise it uses a slower method of creating a temporary list and # adding elements in alphabetical order. ############################################################################### macro(sort_list LIST) if(CMAKE244_OR_BETTER) # For CMake 2.4.4 or better, this can be done automatically list(SORT ${LIST}) else(CMAKE244_OR_BETTER) # For CMake 2.4.x before 2.4.4, we have to do this ourselves, firstly we'll create a temporary list set(NEW_LIST) # Iterate through the old list foreach(ITEM ${${LIST}}) # Temporary index position for the new list, as well as temporary value to store if the item was ever found set(INDEX 0) set(FOUND FALSE) # Iterate through the new list foreach(NEW_ITEM ${NEW_LIST}) # Compare the items, only if nothing was found before if(NOT FOUND) if(NEW_ITEM STRGREATER "${ITEM}") set(FOUND TRUE) list(INSERT NEW_LIST ${INDEX} ${ITEM}) endif(NEW_ITEM STRGREATER "${ITEM}") endif(NOT FOUND) # Increase the index value by 1 math(EXPR INDEX "${INDEX} + 1") endforeach(NEW_ITEM) # If the item was never found, just append it to the end if(NOT FOUND) append_to_list(NEW_LIST ${ITEM}) endif(NOT FOUND) endforeach(ITEM) # Replace the old list with the new list set(${LIST} ${NEW_LIST}) endif(CMAKE244_OR_BETTER) endmacro(sort_list) ############################################################################### # read_from_file( ) # # A macro to handle reading specific lines from a file, uses file(STRINGS) if # using CMake 2.6.x or better, otherwise we read in the entire file and # perform a string(REGEX MATCH) on each line of the file instead. This # macro can also be used to read in all the lines of a file if REGEX is set # to "". ############################################################################### macro(read_from_file FILE REGEX STRINGS) if(CMAKE26_OR_BETTER) # For CMake 2.6.x or better, we can just use the STRINGS sub-command to get the lines that match the given regular expression (if one is given, otherwise get all lines) if(REGEX STREQUAL "") file(STRINGS ${FILE} RESULT) else(REGEX STREQUAL "") file(STRINGS ${FILE} RESULT REGEX ${REGEX}) endif(REGEX STREQUAL "") else(CMAKE26_OR_BETTER) # For CMake 2.4.x, we need to do this manually, firstly we read the file in execute_process(COMMAND ${CMAKE_COMMAND} -DFILE:STRING=${FILE} -P ${Anope_SOURCE_DIR}/cmake/ReadFile.cmake ERROR_VARIABLE ALL_STRINGS) # Next we replace all newlines with semicolons string(REGEX REPLACE "\n" ";" ALL_STRINGS ${ALL_STRINGS}) if(REGEX STREQUAL "") # For no regular expression, just set the result to all the lines set(RESULT ${ALL_STRINGS}) else(REGEX STREQUAL "") # Clear the result list set(RESULT) # Iterate through all the lines of the file foreach(STRING ${ALL_STRINGS}) # Check for a match against the given regular expression string(REGEX MATCH ${REGEX} STRING_MATCH ${STRING}) # If we had a match, append the match to the list if(STRING_MATCH) append_to_list(RESULT ${STRING}) endif(STRING_MATCH) endforeach(STRING) endif(REGEX STREQUAL "") endif(CMAKE26_OR_BETTER) # Set the given STRINGS variable to the result set(${STRINGS} ${RESULT}) endmacro(read_from_file) ############################################################################### # extract_include_filename( []) # # This macro will take a #include line and extract the filename. ############################################################################### macro(extract_include_filename INCLUDE FILENAME) # Strip the leading and trailing spaces from the include line strip_string(${INCLUDE} INCLUDE_STRIPPED) # Make sure to only do the following if there is a string if(INCLUDE_STRIPPED STREQUAL "") set(FILE "") else(INCLUDE_STRIPPED STREQUAL "") # Extract the filename including the quotes or angle brackets string(REGEX REPLACE "^.*([\"<].*[\">]).*$" "\\1" FILE "${INCLUDE_STRIPPED}") # If an optional 3rd argument is given, we'll store if the quote style was quoted or angle bracketed if(${ARGC} GREATER 2) string(SUBSTRING ${FILE} 0 1 QUOTE) if(QUOTE STREQUAL "<") set(${ARGV2} "angle brackets") else(QUOTE STREQUAL "<") set(${ARGV2} "quotes") endif(QUOTE STREQUAL "<") endif(${ARGC} GREATER 2) # Now remove the quotes or angle brackets string(REGEX REPLACE "^[\"<](.*)[\">]$" "\\1" FILE "${FILE}") endif(INCLUDE_STRIPPED STREQUAL "") # Set the filename to the the given variable set(${FILENAME} "${FILE}") endmacro(extract_include_filename) ############################################################################### # find_includes( ) # # This macro will search through a file for #include lines, regardless of # whitespace, but only returns the lines that are valid for the current # platform CMake is running on. ############################################################################### macro(find_includes SRC INCLUDES) # Read all lines from the file that start with #, regardless of whitespace before the # read_from_file(${SRC} "^[ \t]*#.*$" LINES) # Set that any #include lines found are valid, and create temporary variables for the last found #ifdef/#ifndef set(VALID_LINE TRUE) set(LAST_DEF) set(LAST_CHECK) # Create an empty include list set(INCLUDES_LIST) # Iterate through all the # lines foreach(LINE ${LINES}) # Search for #ifdef, #ifndef, #else, #endif, and #include string(REGEX MATCH "^[ \t]*#[ \t]*ifdef[ \t]*.*$" FOUND_IFDEF ${LINE}) string(REGEX MATCH "^[ \t]*#[ \t]*ifndef[ \t]*.*$" FOUND_IFNDEF ${LINE}) string(REGEX MATCH "^[ \t]*#[ \t]*else.*$" FOUND_ELSE ${LINE}) string(REGEX MATCH "^[ \t]*#[ \t]*endif.*$" FOUND_ENDIF ${LINE}) string(REGEX MATCH "^[ \t]*#[ \t]*include[ \t]*[\"<].*[\">][\ t]*.*$" FOUND_INCLUDE ${LINE}) # If we found a #ifdef on the line, extract the data after the #ifdef and set if the lines after it are valid based on the variables in CMake if(FOUND_IFDEF) # Extract the define string(REGEX REPLACE "^[ \t]*#[ \t]*ifdef[ \t]*(.*)$" "\\1" DEFINE ${LINE}) # Replace _WIN32 with WIN32, so we can check if the WIN32 variable of CMake is set instead of _WIN32 if(DEFINE STREQUAL "_WIN32") set(DEFINE WIN32) endif(DEFINE STREQUAL "_WIN32") # Set the last define to this one, and set the last check to true, so when #else is encountered, we can do an opposing check set(LAST_DEF ${DEFINE}) set(LAST_CHECK TRUE) # If the define is true (it either exists or is a non-false result), the lines following will be checked, otherwise they will be skipped if(${DEFINE}) set(VALID_LINE TRUE) else(${DEFINE}) set(VALID_LINE FALSE) endif(${DEFINE}) else(FOUND_IFDEF) # If we found a #ifndef on the line, the same thing as #ifdef is done, except with the checks in the opposite direction if(FOUND_IFNDEF) # Extract the define string(REGEX REPLACE "^[ \t]*#[ \t]*ifndef[ \t]*(.*)$" "\\1" DEFINE ${LINE}) # Replace _WIN32 with WIN32, so we can check if the WIN32 variable of CMake is set instead of _WIN32 if(DEFINE STREQUAL "_WIN32") set(DEFINE WIN32) endif(DEFINE STREQUAL "_WIN32") # Set the last define to this one, and set the last check to false, so when #else is encountered, we can do an opposing check set(LAST_DEF ${DEFINE}) set(LAST_CHECK FALSE) # If the define is not true (it either doesn't exists or is a false result), the lines following will be checked, otherwise they will be skipped if(${DEFINE}) set(VALID_LINE FALSE) else(${DEFINE}) set(VALUE_LINE TRUE) endif(${DEFINE}) else(FOUND_IFNDEF) # If we found a #else on the line, we check the last define in the opposite direction if(FOUND_ELSE) # When LAST_CHECK is true, we were inside a #ifdef, now act as if we are entering a #ifndef section by doing an opposing check if(LAST_CHECK) if(${LAST_DEF}) set(VALID_LINE FALSE) else(${LAST_DEF}) set(VALID_LINE TRUE) endif(${LAST_DEF}) # When LAST_CHECK is false, we were inside a #ifndef, now act as if we are entering a #ifdef section by doing an opposing check else(LAST_CHECK) if(${LAST_DEF}) set(VALID_LINE TRUE) else(${LAST_DEF}) set(VALID_LINE FALSE) endif(${LAST_DEF}) endif(LAST_CHECK) else(FOUND_ELSE) # If we found a #endif on the line, we'll assume everything following the line is valid until we meet another one of the above lines if(FOUND_ENDIF) set(VALID_LINE TRUE) else(FOUND_ENDIF) # If we found a #include on the line, add the entire line to the list of includes unless the line isn't valid if(FOUND_INCLUDE) if(VALID_LINE) append_to_list(INCLUDES_LIST "${LINE}") endif(VALID_LINE) endif(FOUND_INCLUDE) endif(FOUND_ENDIF) endif(FOUND_ELSE) endif(FOUND_IFNDEF) endif(FOUND_IFDEF) endforeach(LINE) set(${INCLUDES} ${INCLUDES_LIST}) endmacro(find_includes) ############################################################################### # calculate_depends( []) # # This macro is used in most of the src (sub)directories to calculate the # header file dependencies for the given source file. ############################################################################### macro(calculate_depends SRC) # Temporarily set that we didn't get a 3rd argument before we actually check if we did get one or not set(CHECK_ANGLE_INCLUDES FALSE) # Check for a third argument if(${ARGC} GREATER 1) set(CHECK_ANGLE_INCLUDES TRUE) endif(${ARGC} GREATER 1) # Find all the lines in the given source file that have any form of #include on them, regardless of whitespace, but only if they are valid for the platform we are on find_includes(${SRC} INCLUDES) # Reset the list of headers to empty set(HEADERS) # Iterate through the strings containing #include (if any) foreach(INCLUDE ${INCLUDES}) # Extract the filename from the #include line extract_include_filename(${INCLUDE} FILENAME QUOTE_TYPE) if(QUOTE_TYPE STREQUAL "angle brackets") # The following checks will only be done if there was a request for angle includes to be checked if(CHECK_ANGLE_INCLUDES) # Find the path of the include file if(DEFAULT_INCLUDE_DIRS OR WSDK_PATH OR DEFINED $ENV{VCINSTALLDIR}) find_path(FOUND_${FILENAME}_INCLUDE NAMES ${FILENAME} PATHS ${DEFAULT_INCLUDE_DIRS} ${WSDK_PATH}/include $ENV{VCINSTALLDIR}/include ${EXTRA_INCLUDE}) else(DEFAULT_INCLUDE_DIRS OR WSDK_PATH OR DEFINED $ENV{VCINSTALLDIR}) find_path(FOUND_${FILENAME}_INCLUDE NAMES ${FILENAME} ${EXTRA_INCLUDE}) endif(DEFAULT_INCLUDE_DIRS OR WSDK_PATH OR DEFINED $ENV{VCINSTALLDIR}) # If the include file was found, add it's path to the list of include paths, but only if it doesn't already exist and isn't in the defaults for the compiler if(FOUND_${FILENAME}_INCLUDE) # This used to be find_in_list, but it was changed to this loop to do a find on each default include directory, this fixes Mac OS X trying to get it's framework directories in here set(FOUND_IN_DEFAULTS -1) foreach(DEFAULT_INCLUDE_DIR ${DEFAULT_INCLUDE_DIRS}) string(REGEX REPLACE "\\+" "\\\\+" DEFAULT_INCLUDE_DIR ${DEFAULT_INCLUDE_DIR}) string(REGEX MATCH ${DEFAULT_INCLUDE_DIR} FOUND_DEFAULT ${FOUND_${FILENAME}_INCLUDE}) if(FOUND_DEFAULT) set(FOUND_IN_DEFAULTS 0) endif(FOUND_DEFAULT) endforeach(DEFAULT_INCLUDE_DIR) if(FOUND_IN_DEFAULTS EQUAL -1) find_in_list(${ARGV1} "${FOUND_${FILENAME}_INCLUDE}" FOUND_IN_INCLUDES) if(FOUND_IN_INCLUDES EQUAL -1) append_to_list(${ARGV1} "${FOUND_${FILENAME}_INCLUDE}") endif(FOUND_IN_INCLUDES EQUAL -1) endif(FOUND_IN_DEFAULTS EQUAL -1) else(FOUND_${FILENAME}_INCLUDE) # XXX if(NOT ${FILENAME} STREQUAL "libintl.h") message(FATAL_ERROR "${SRC} needs header file ${FILENAME} but we were unable to locate that header file! Check that the header file is within the search path of your OS.") endif(NOT ${FILENAME} STREQUAL "libintl.h") endif(FOUND_${FILENAME}_INCLUDE) endif(CHECK_ANGLE_INCLUDES) endif(QUOTE_TYPE STREQUAL "angle brackets") endforeach(INCLUDE) endmacro(calculate_depends) ############################################################################### # calculate_libraries( ) # # This macro is used in most of the module (sub)directories to calculate the # library dependencies for the given source file. ############################################################################### macro(calculate_libraries SRC SRC_LDFLAGS EXTRA_DEPENDS) # Set up a temporary LDFLAGS for this file set(THIS_LDFLAGS "${LDFLAGS}") # Reset extra dependencies set(EXTRA_DEPENDENCIES) # Reset library paths set(LIBRARY_PATHS) # Reset libraries set(LIBRARIES) # Check to see if there are any lines matching: /* RequiredLibraries: [something] */ if(WIN32) read_from_file(${SRC} "/\\\\*[ \t]*RequiredWindowsLibraries:[ \t]*.*[ \t]*\\\\*/" REQUIRED_LIBRARIES) else(WIN32) read_from_file(${SRC} "/\\\\*[ \t]*RequiredLibraries:[ \t]*.*[ \t]*\\\\*/" REQUIRED_LIBRARIES) endif(WIN32) # Iterate through those lines foreach(REQUIRED_LIBRARY ${REQUIRED_LIBRARIES}) # Strip off the /* RequiredLibraries: and */ from the line string(REGEX REPLACE "/\\*[ \t]*Required.*Libraries:[ \t]*([^ \t]*)[ \t]*\\*/" "\\1" REQUIRED_LIBRARY ${REQUIRED_LIBRARY}) # Replace all commas with semicolons string(REGEX REPLACE "," ";" REQUIRED_LIBRARY ${REQUIRED_LIBRARY}) # Iterate through the libraries given foreach(LIBRARY ${REQUIRED_LIBRARY}) # If the library has multiple names extract the alternate. unset(LIBRARY_ALT) if (${LIBRARY} MATCHES "^.+\\|.+$") string(REGEX REPLACE ".+\\|(.*)" "\\1" LIBRARY_ALT ${LIBRARY}) string(REGEX REPLACE "(.+)\\|.*" "\\1" LIBRARY ${LIBRARY}) endif(${LIBRARY} MATCHES "^.+\\|.+$") # Locate the library to see if it exists if(DEFAULT_LIBRARY_DIRS OR WSDK_PATH OR DEFINED $ENV{VCINSTALLDIR}) find_library(FOUND_${LIBRARY}_LIBRARY NAMES ${LIBRARY} ${LIBRARY_ALT} PATHS ${DEFAULT_LIBRARY_DIRS} ${WSDK_PATH}/lib $ENV{VCINSTALLDIR}/lib ${EXTRA_INCLUDE} ${EXTRA_LIBS}) else(DEFAULT_LIBRARY_DIRS OR WSDK_PATH OR DEFINED $ENV{VCINSTALLDIR}) find_library(FOUND_${LIBRARY}_LIBRARY NAMES ${LIBRARY} ${LIBRARY_ALT} PATHS ${EXTRA_INCLUDE} ${EXTRA_LIBS} NO_DEFAULT_PATH) find_library(FOUND_${LIBRARY}_LIBRARY NAMES ${LIBRARY} ${LIBRARY_ALT} PATHS ${EXTRA_INCLUDE} ${EXTRA_LIBS}) endif(DEFAULT_LIBRARY_DIRS OR WSDK_PATH OR DEFINED $ENV{VCINSTALLDIR}) # If the library was found, we will add it to the linker flags if(FOUND_${LIBRARY}_LIBRARY) if(MSVC) # For Visual Studio, instead of editing the linker flags, we'll add the library to a separate list of extra dependencies append_to_list(EXTRA_DEPENDENCIES "${FOUND_${LIBRARY}_LIBRARY}") else(MSVC) # Get the path only of the library, to add it to library paths. get_filename_component(LIBRARY_PATH ${FOUND_${LIBRARY}_LIBRARY} PATH) append_to_list(LIBRARY_PATHS "${LIBRARY_PATH}") # Extract the library short name, add it to the library path get_filename_component(LIBRARY_NAME ${FOUND_${LIBRARY}_LIBRARY} NAME_WE) string(REGEX REPLACE "^lib" "" LIBRARY_NAME ${LIBRARY_NAME}) append_to_list(LIBRARIES ${LIBRARY_NAME}) endif(MSVC) else(FOUND_${LIBRARY}_LIBRARY) # In the case of the library not being found, we fatally error so CMake stops trying to generate message(FATAL_ERROR "${SRC} needs library ${LIBRARY} but we were unable to locate that library! Check that the library is within the search path of your OS.") endif(FOUND_${LIBRARY}_LIBRARY) endforeach(LIBRARY) endforeach(REQUIRED_LIBRARY) # Remove duplicates from the library paths if(LIBRARY_PATHS) remove_list_duplicates(LIBRARY_PATHS) endif(LIBRARY_PATHS) # Remove diplicates from the libraries if(LIBRARIES) remove_list_duplicates(LIBRARIES) endif(LIBRARIES) # Iterate through library paths and add them to the linker flags foreach(LIBRARY_PATH ${LIBRARY_PATHS}) find_in_list(DEFAULT_LIBRARY_DIRS "${LIBRARY_PATH}" FOUND_IN_DEFAULTS) if(FOUND_IN_DEFAULTS EQUAL -1) set(THIS_LDFLAGS "${THIS_LDFLAGS} -L${LIBRARY_PATH}") endif(FOUND_IN_DEFAULTS EQUAL -1) endforeach(LIBRARY_PATH) # Iterate through libraries and add them to the linker flags foreach(LIBRARY ${LIBRARIES}) append_to_list(EXTRA_DEPENDENCIES "${LIBRARY}") endforeach(LIBRARY) set(${SRC_LDFLAGS} "${THIS_LDFLAGS}") set(${EXTRA_DEPENDS} "${EXTRA_DEPENDENCIES}") endmacro(calculate_libraries) ############################################################################### # check_functions( ) # # This macro is used in most of the module (sub)directories to calculate the # function dependencies for the given source file. ############################################################################### macro(check_functions SRC SUCCESS) # Default to true set(${SUCCESS} TRUE) # Check to see if there are any lines matching: /* RequiredFunctions: [something] */ read_from_file(${SRC} "/\\\\*[ \t]*RequiredFunctions:[ \t]*.*[ \t]*\\\\*/" REQUIRED_FUNCTIONS) # Iterate through those lines foreach(REQUIRED_FUNCTION ${REQUIRED_FUNCTIONS}) # Strip off the /* RequiredFunctions: and */ from the line string(REGEX REPLACE "/\\*[ \t]*RequiredFunctions:[ \t]*([^ \t]*)[ \t]*\\*/" "\\1" REQUIRED_FUNCTION ${REQUIRED_FUNCTION}) # Replace all commas with semicolons string(REGEX REPLACE "," ";" REQUIRED_FUNCTION ${REQUIRED_FUNCTION}) # Iterate through the functions given foreach(FUNCTION ${REQUIRED_FUNCTION}) # Check if the function exists check_function_exists(${REQUIRED_FUNCTION} HAVE_${REQUIRED_FUNCTION}) # If we don't have the function warn the user and set SUCCESS to FALSE if(NOT HAVE_${REQUIRED_FUNCTION}) message("${SRC} needs function ${REQUIRED_FUNCTION} but we were unable to locate that function!") set(${SUCCESS} FALSE) endif(NOT HAVE_${REQUIRED_FUNCTION}) endforeach(FUNCTION) endforeach(REQUIRED_FUNCTION) endmacro(check_functions) ############################################################################### # add_to_cpack_ignored_files( [TRUE]) # # A macro to update the environment variable CPACK_IGNORED_FILES which # contains a list of files for CPack to ignore. If the optional 2nd argument # of TRUE is given, periods will be converted to \\. for CPack. ############################################################################### macro(add_to_cpack_ignored_files ITEM) # Temporary copy of the orignal item set(REAL_ITEM "${ITEM}") # If we have 2+ arguments, assume that the second one was something like TRUE (doesn't matter really) and convert periods so they will be \\. for CPack if(${ARGC} GREATER 1) string(REPLACE "." "\\\\." REAL_ITEM ${REAL_ITEM}) endif(${ARGC} GREATER 1) # If the environment variable is already defined, just tack the item to the end if(DEFINED ENV{CPACK_IGNORED_FILES}) set(ENV{CPACK_IGNORED_FILES} "$ENV{CPACK_IGNORED_FILES};${REAL_ITEM}") # Otherwise set the environment variable to the item else(DEFINED ENV{CPACK_IGNORED_FILES}) set(ENV{CPACK_IGNORED_FILES} "${REAL_ITEM}") endif(DEFINED ENV{CPACK_IGNORED_FILES}) endmacro(add_to_cpack_ignored_files)