# Ceres Solver - A fast non-linear least squares minimizer # Copyright 2015 Google Inc. All rights reserved. # http://ceres-solver.org/ # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # # * Redistributions of source code must retain the above copyright notice, # this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above copyright notice, # this list of conditions and the following disclaimer in the documentation # and/or other materials provided with the distribution. # * Neither the name of Google Inc. nor the names of its contributors may be # used to endorse or promote products derived from this software without # specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # # Author: alexs.mac@gmail.com (Alex Stewart) # # FindGflags.cmake - Find Google gflags logging library. # # This module will attempt to find gflags, either via an exported CMake # configuration (generated by gflags >= 2.1 which are built with CMake), or # by performing a standard search for all gflags components. The order of # precedence for these two methods of finding gflags is controlled by: # GFLAGS_PREFER_EXPORTED_GFLAGS_CMAKE_CONFIGURATION. # # This module defines the following variables: # # GFLAGS_FOUND: TRUE iff gflags is found. # GFLAGS_INCLUDE_DIRS: Include directories for gflags. # GFLAGS_LIBRARIES: Libraries required to link gflags. # GFLAGS_NAMESPACE: The namespace in which gflags is defined. In versions of # gflags < 2.1, this was google, for versions >= 2.1 it is # by default gflags, although can be configured when building # gflags to be something else (i.e. google for legacy # compatibility). # # The following variables control the behaviour of this module when an exported # gflags CMake configuration is not found. # # GFLAGS_PREFER_EXPORTED_GFLAGS_CMAKE_CONFIGURATION: TRUE/FALSE, iff TRUE then # then prefer using an exported CMake configuration # generated by gflags >= 2.1 over searching for the # gflags components manually. Otherwise (FALSE) # ignore any exported gflags CMake configurations and # always perform a manual search for the components. # Default: TRUE iff user does not define this variable # before we are called, and does NOT specify either # GFLAGS_INCLUDE_DIR_HINTS or GFLAGS_LIBRARY_DIR_HINTS # otherwise FALSE. # GFLAGS_INCLUDE_DIR_HINTS: List of additional directories in which to # search for gflags includes, e.g: /timbuktu/include. # GFLAGS_LIBRARY_DIR_HINTS: List of additional directories in which to # search for gflags libraries, e.g: /timbuktu/lib. # # The following variables are also defined by this module, but in line with # CMake recommended FindPackage() module style should NOT be referenced directly # by callers (use the plural variables detailed above instead). These variables # do however affect the behaviour of the module via FIND_[PATH/LIBRARY]() which # are NOT re-called (i.e. search for library is not repeated) if these variables # are set with valid values _in the CMake cache_. This means that if these # variables are set directly in the cache, either by the user in the CMake GUI, # or by the user passing -DVAR=VALUE directives to CMake when called (which # explicitly defines a cache variable), then they will be used verbatim, # bypassing the HINTS variables and other hard-coded search locations. # # GFLAGS_INCLUDE_DIR: Include directory for gflags, not including the # include directory of any dependencies. # GFLAGS_LIBRARY: gflags library, not including the libraries of any # dependencies. # Reset CALLERS_CMAKE_FIND_LIBRARY_PREFIXES to its value when FindGflags was # invoked, necessary for MSVC. macro(GFLAGS_RESET_FIND_LIBRARY_PREFIX) if (MSVC) set(CMAKE_FIND_LIBRARY_PREFIXES "${CALLERS_CMAKE_FIND_LIBRARY_PREFIXES}") endif (MSVC) endmacro(GFLAGS_RESET_FIND_LIBRARY_PREFIX) # Called if we failed to find gflags or any of it's required dependencies, # unsets all public (designed to be used externally) variables and reports # error message at priority depending upon [REQUIRED/QUIET/] argument. macro(GFLAGS_REPORT_NOT_FOUND REASON_MSG) unset(GFLAGS_FOUND) unset(GFLAGS_INCLUDE_DIRS) unset(GFLAGS_LIBRARIES) # Do not use unset, as we want to keep GFLAGS_NAMESPACE in the cache, # but simply clear its value. set(GFLAGS_NAMESPACE "" CACHE STRING "gflags namespace (google or gflags)" FORCE) # Make results of search visible in the CMake GUI if gflags has not # been found so that user does not have to toggle to advanced view. mark_as_advanced(CLEAR GFLAGS_INCLUDE_DIR GFLAGS_LIBRARY GFLAGS_NAMESPACE) gflags_reset_find_library_prefix() # Note _FIND_[REQUIRED/QUIETLY] variables defined by FindPackage() # use the camelcase library name, not uppercase. if (Gflags_FIND_QUIETLY) message(STATUS "Failed to find gflags - " ${REASON_MSG} ${ARGN}) elseif (Gflags_FIND_REQUIRED) message(FATAL_ERROR "Failed to find gflags - " ${REASON_MSG} ${ARGN}) else() # Neither QUIETLY nor REQUIRED, use no priority which emits a message # but continues configuration and allows generation. message("-- Failed to find gflags - " ${REASON_MSG} ${ARGN}) endif () return() endmacro(GFLAGS_REPORT_NOT_FOUND) # Verify that all variable names passed as arguments are defined (can be empty # but must be defined) or raise a fatal error. macro(GFLAGS_CHECK_VARS_DEFINED) foreach(CHECK_VAR ${ARGN}) if (NOT DEFINED ${CHECK_VAR}) if(NOT Gflags_FIND_REQUIRED) gflags_report_not_found("Ceres Bug: ${CHECK_VAR} is not defined.") else() message(FATAL_ERROR "Ceres Bug: ${CHECK_VAR} is not defined.") endif() endif() endforeach() endmacro(GFLAGS_CHECK_VARS_DEFINED) # Use check_cxx_source_compiles() to compile trivial test programs to determine # the gflags namespace. This works on all OSs except Windows. If using Visual # Studio, it fails because msbuild forces check_cxx_source_compiles() to use # CMAKE_BUILD_TYPE=Debug for the test project, which usually breaks detection # because MSVC requires that the test project use the same build type as gflags, # which would normally be built in Release. # # Defines: GFLAGS_NAMESPACE in the caller's scope with the detected namespace, # which is blank (empty string, will test FALSE is CMake conditionals) # if detection failed. function(GFLAGS_CHECK_GFLAGS_NAMESPACE_USING_TRY_COMPILE) # Verify that all required variables are defined. gflags_check_vars_defined( GFLAGS_INCLUDE_DIR GFLAGS_LIBRARY) # Ensure that GFLAGS_NAMESPACE is always unset on completion unless # we explicitly set if after having the correct namespace. set(GFLAGS_NAMESPACE "" PARENT_SCOPE) include(CheckCXXSourceCompiles) # Setup include path & link library for gflags for CHECK_CXX_SOURCE_COMPILES. set(CMAKE_REQUIRED_INCLUDES ${GFLAGS_INCLUDE_DIR}) set(CMAKE_REQUIRED_LIBRARIES ${GFLAGS_LIBRARY} ${GFLAGS_LINK_LIBRARIES}) # First try the (older) google namespace. Note that the output variable # MUST be unique to the build type as otherwise the test is not repeated as # it is assumed to have already been performed. check_cxx_source_compiles( "#include int main(int argc, char * argv[]) { google::ParseCommandLineFlags(&argc, &argv, true); return 0; }" GFLAGS_IN_GOOGLE_NAMESPACE) if (GFLAGS_IN_GOOGLE_NAMESPACE) set(GFLAGS_NAMESPACE google PARENT_SCOPE) return() endif() # Try (newer) gflags namespace instead. Note that the output variable # MUST be unique to the build type as otherwise the test is not repeated as # it is assumed to have already been performed. set(CMAKE_REQUIRED_INCLUDES ${GFLAGS_INCLUDE_DIR}) set(CMAKE_REQUIRED_LIBRARIES ${GFLAGS_LIBRARY} ${GFLAGS_LINK_LIBRARIES}) check_cxx_source_compiles( "#include int main(int argc, char * argv[]) { gflags::ParseCommandLineFlags(&argc, &argv, true); return 0; }" GFLAGS_IN_GFLAGS_NAMESPACE) if (GFLAGS_IN_GFLAGS_NAMESPACE) set(GFLAGS_NAMESPACE gflags PARENT_SCOPE) return() endif (GFLAGS_IN_GFLAGS_NAMESPACE) endfunction(GFLAGS_CHECK_GFLAGS_NAMESPACE_USING_TRY_COMPILE) # Use regex on the gflags headers to attempt to determine the gflags namespace. # Checks both gflags.h (contained namespace on versions < 2.1.2) and # gflags_declare.h, which contains the namespace on versions >= 2.1.2. # In general, this method should only be used when # GFLAGS_CHECK_GFLAGS_NAMESPACE_USING_TRY_COMPILE() cannot be used, or has # failed. # # Defines: GFLAGS_NAMESPACE in the caller's scope with the detected namespace, # which is blank (empty string, will test FALSE is CMake conditionals) # if detection failed. function(GFLAGS_CHECK_GFLAGS_NAMESPACE_USING_REGEX) # Verify that all required variables are defined. gflags_check_vars_defined(GFLAGS_INCLUDE_DIR) # Ensure that GFLAGS_NAMESPACE is always undefined on completion unless # we explicitly set if after having the correct namespace. set(GFLAGS_NAMESPACE "" PARENT_SCOPE) # Scan gflags.h to identify what namespace gflags was built with. On # versions of gflags < 2.1.2, gflags.h was configured with the namespace # directly, on >= 2.1.2, gflags.h uses the GFLAGS_NAMESPACE #define which # is defined in gflags_declare.h, we try each location in turn. set(GFLAGS_HEADER_FILE ${GFLAGS_INCLUDE_DIR}/gflags/gflags.h) if (NOT EXISTS ${GFLAGS_HEADER_FILE}) gflags_report_not_found( "Could not find file: ${GFLAGS_HEADER_FILE} " "containing namespace information in gflags install located at: " "${GFLAGS_INCLUDE_DIR}.") endif() file(READ ${GFLAGS_HEADER_FILE} GFLAGS_HEADER_FILE_CONTENTS) string(REGEX MATCH "namespace [A-Za-z]+" GFLAGS_NAMESPACE "${GFLAGS_HEADER_FILE_CONTENTS}") string(REGEX REPLACE "namespace ([A-Za-z]+)" "\\1" GFLAGS_NAMESPACE "${GFLAGS_NAMESPACE}") if (NOT GFLAGS_NAMESPACE) gflags_report_not_found( "Failed to extract gflags namespace from header file: " "${GFLAGS_HEADER_FILE}.") endif (NOT GFLAGS_NAMESPACE) if (GFLAGS_NAMESPACE STREQUAL "google" OR GFLAGS_NAMESPACE STREQUAL "gflags") # Found valid gflags namespace from gflags.h. set(GFLAGS_NAMESPACE "${GFLAGS_NAMESPACE}" PARENT_SCOPE) return() endif() # Failed to find gflags namespace from gflags.h, gflags is likely a new # version, check gflags_declare.h, which in newer versions (>= 2.1.2) contains # the GFLAGS_NAMESPACE #define, which is then referenced in gflags.h. set(GFLAGS_DECLARE_FILE ${GFLAGS_INCLUDE_DIR}/gflags/gflags_declare.h) if (NOT EXISTS ${GFLAGS_DECLARE_FILE}) gflags_report_not_found( "Could not find file: ${GFLAGS_DECLARE_FILE} " "containing namespace information in gflags install located at: " "${GFLAGS_INCLUDE_DIR}.") endif() file(READ ${GFLAGS_DECLARE_FILE} GFLAGS_DECLARE_FILE_CONTENTS) string(REGEX MATCH "#define GFLAGS_NAMESPACE [A-Za-z]+" GFLAGS_NAMESPACE "${GFLAGS_DECLARE_FILE_CONTENTS}") string(REGEX REPLACE "#define GFLAGS_NAMESPACE ([A-Za-z]+)" "\\1" GFLAGS_NAMESPACE "${GFLAGS_NAMESPACE}") if (NOT GFLAGS_NAMESPACE) gflags_report_not_found( "Failed to extract gflags namespace from declare file: " "${GFLAGS_DECLARE_FILE}.") endif (NOT GFLAGS_NAMESPACE) if (GFLAGS_NAMESPACE STREQUAL "google" OR GFLAGS_NAMESPACE STREQUAL "gflags") # Found valid gflags namespace from gflags.h. set(GFLAGS_NAMESPACE "${GFLAGS_NAMESPACE}" PARENT_SCOPE) return() endif() endfunction(GFLAGS_CHECK_GFLAGS_NAMESPACE_USING_REGEX) # ----------------------------------------------------------------- # By default, if the user has expressed no preference for using an exported # gflags CMake configuration over performing a search for the installed # components, and has not specified any hints for the search locations, then # prefer a gflags exported configuration if available. if (NOT DEFINED GFLAGS_PREFER_EXPORTED_GFLAGS_CMAKE_CONFIGURATION AND NOT GFLAGS_INCLUDE_DIR_HINTS AND NOT GFLAGS_LIBRARY_DIR_HINTS) message(STATUS "No preference for use of exported gflags CMake configuration " "set, and no hints for include/library directories provided. " "Defaulting to preferring an installed/exported gflags CMake configuration " "if available.") set(GFLAGS_PREFER_EXPORTED_GFLAGS_CMAKE_CONFIGURATION TRUE) endif() # Wrap into function because gflags_report_not_found() uses "return" statement function(__find_exported_gflags) # Try to find an exported CMake configuration for gflags, as generated by # gflags versions >= 2.1. # # We search twice, s/t we can invert the ordering of precedence used by # find_package() for exported package build directories, and installed # packages (found via CMAKE_SYSTEM_PREFIX_PATH), listed as items 6) and 7) # respectively in [1]. # # By default, exported build directories are (in theory) detected first, and # this is usually the case on Windows. However, on OS X & Linux, the install # path (/usr/local) is typically present in the PATH environment variable # which is checked in item 4) in [1] (i.e. before both of the above, unless # NO_SYSTEM_ENVIRONMENT_PATH is passed). As such on those OSs installed # packages are usually detected in preference to exported package build # directories. # # To ensure a more consistent response across all OSs, and as users usually # want to prefer an installed version of a package over a locally built one # where both exist (esp. as the exported build directory might be removed # after installation), we first search with NO_CMAKE_PACKAGE_REGISTRY which # means any build directories exported by the user are ignored, and thus # installed directories are preferred. If this fails to find the package # we then research again, but without NO_CMAKE_PACKAGE_REGISTRY, so any # exported build directories will now be detected. # # To prevent confusion on Windows, we also pass NO_CMAKE_BUILDS_PATH (which # is item 5) in [1]), to not preferentially use projects that were built # recently with the CMake GUI to ensure that we always prefer an installed # version if available. # # [1] http://www.cmake.org/cmake/help/v2.8.11/cmake.html#command:find_package find_package(gflags QUIET NO_MODULE NO_CMAKE_PACKAGE_REGISTRY NO_CMAKE_BUILDS_PATH) if (gflags_FOUND) message(STATUS "Found installed version of gflags: ${gflags_DIR}") else(gflags_FOUND) # Failed to find an installed version of gflags, repeat search allowing # exported build directories. message(STATUS "Failed to find installed gflags CMake configuration, " "searching for gflags build directories exported with CMake.") # Again pass NO_CMAKE_BUILDS_PATH, as we know that gflags is exported and # do not want to treat projects built with the CMake GUI preferentially. find_package(gflags QUIET NO_MODULE NO_CMAKE_BUILDS_PATH) if (gflags_FOUND) message(STATUS "Found exported gflags build directory: ${gflags_DIR}") endif(gflags_FOUND) endif(gflags_FOUND) set(FOUND_INSTALLED_GFLAGS_CMAKE_CONFIGURATION ${gflags_FOUND}) # gflags v2.1 - 2.1.2 shipped with a bug in their gflags-config.cmake [1] # whereby gflags_LIBRARIES = "gflags", but there was no imported target # called "gflags", they were called: gflags[_nothreads]-[static/shared]. # As this causes linker errors when gflags is not installed in a location # on the current library paths, detect if this problem is present and # fix it. # # [1] https://github.com/gflags/gflags/issues/110 if (gflags_FOUND) # NOTE: This is not written as additional conditions in the outer # if (gflags_FOUND) as the NOT TARGET "${gflags_LIBRARIES}" # condition causes problems if gflags is not found. if (${gflags_VERSION} VERSION_LESS 2.1.3 AND NOT TARGET "${gflags_LIBRARIES}") message(STATUS "Detected broken gflags install in: ${gflags_DIR}, " "version: ${gflags_VERSION} <= 2.1.2 which defines gflags_LIBRARIES = " "${gflags_LIBRARIES} which is not an imported CMake target, see: " "https://github.com/gflags/gflags/issues/110. Attempting to fix by " "detecting correct gflags target.") # Ordering here expresses preference for detection, specifically we do not # want to use the _nothreads variants if the full library is available. list(APPEND CHECK_GFLAGS_IMPORTED_TARGET_NAMES gflags-shared gflags-static gflags_nothreads-shared gflags_nothreads-static) foreach(CHECK_GFLAGS_TARGET ${CHECK_GFLAGS_IMPORTED_TARGET_NAMES}) if (TARGET ${CHECK_GFLAGS_TARGET}) message(STATUS "Found valid gflags target: ${CHECK_GFLAGS_TARGET}, " "updating gflags_LIBRARIES.") set(gflags_LIBRARIES ${CHECK_GFLAGS_TARGET}) break() endif() endforeach() if (NOT TARGET ${gflags_LIBRARIES}) message(STATUS "Failed to fix detected broken gflags install in: " "${gflags_DIR}, version: ${gflags_VERSION} <= 2.1.2, none of the " "imported targets for gflags: ${CHECK_GFLAGS_IMPORTED_TARGET_NAMES} " "are defined. Will continue with a manual search for gflags " "components. We recommend you build/install a version of gflags > " "2.1.2 (or master).") set(FOUND_INSTALLED_GFLAGS_CMAKE_CONFIGURATION FALSE) endif() endif() endif() if (FOUND_INSTALLED_GFLAGS_CMAKE_CONFIGURATION) message(STATUS "Detected gflags version: ${gflags_VERSION}") if(NOT DEFINED GFLAGS_FOUND AND DEFINED gflags_FOUND) set(GFLAGS_FOUND ${gflags_FOUND}) endif() if(NOT DEFINED GFLAGS_INCLUDE_DIR AND DEFINED gflags_INCLUDE_DIR) set(GFLAGS_INCLUDE_DIR ${gflags_INCLUDE_DIR}) endif() if(NOT DEFINED GFLAGS_LIBRARY AND DEFINED gflags_LIBRARIES) set(GFLAGS_LIBRARY ${gflags_LIBRARIES}) endif() if(NOT DEFINED GFLAGS_INCLUDE_DIR) gflags_report_not_found("GFLAGS_INCLUDE_DIR is missing") endif() # gflags does not export the namespace in their CMake configuration, so # use our function to determine what it should be, as it can be either # gflags or google dependent upon version & configuration. # # NOTE: We use the regex method to determine the namespace here, as # check_cxx_source_compiles() will not use imported targets, which # is what gflags will be in this case. gflags_check_gflags_namespace_using_regex() if (NOT GFLAGS_NAMESPACE) gflags_report_not_found( "Failed to determine gflags namespace using regex for gflags " "version: ${gflags_VERSION} exported here: ${gflags_DIR} using CMake.") endif (NOT GFLAGS_NAMESPACE) else (FOUND_INSTALLED_GFLAGS_CMAKE_CONFIGURATION) gflags_report_not_found("Failed to find an installed/exported CMake configuration " "for gflags, will perform search for installed gflags components.") endif (FOUND_INSTALLED_GFLAGS_CMAKE_CONFIGURATION) set(GFLAGS_FOUND "${GFLAGS_FOUND}" PARENT_SCOPE) set(GFLAGS_INCLUDE_DIR "${GFLAGS_INCLUDE_DIR}" PARENT_SCOPE) set(GFLAGS_LIBRARY "${GFLAGS_LIBRARY}" PARENT_SCOPE) set(GFLAGS_NAMESPACE "${GFLAGS_NAMESPACE}" PARENT_SCOPE) endfunction() if (GFLAGS_PREFER_EXPORTED_GFLAGS_CMAKE_CONFIGURATION) __find_exported_gflags() endif(GFLAGS_PREFER_EXPORTED_GFLAGS_CMAKE_CONFIGURATION) if (NOT GFLAGS_FOUND) # Either failed to find an exported gflags CMake configuration, or user # told us not to use one. Perform a manual search for all gflags components. # Handle possible presence of lib prefix for libraries on MSVC, see # also GFLAGS_RESET_FIND_LIBRARY_PREFIX(). if (MSVC) # Preserve the caller's original values for CMAKE_FIND_LIBRARY_PREFIXES # s/t we can set it back before returning. set(CALLERS_CMAKE_FIND_LIBRARY_PREFIXES "${CMAKE_FIND_LIBRARY_PREFIXES}") # The empty string in this list is important, it represents the case when # the libraries have no prefix (shared libraries / DLLs). set(CMAKE_FIND_LIBRARY_PREFIXES "lib" "" "${CMAKE_FIND_LIBRARY_PREFIXES}") endif (MSVC) # Search user-installed locations first, so that we prefer user installs # to system installs where both exist. list(APPEND GFLAGS_CHECK_INCLUDE_DIRS /usr/local/include /usr/local/homebrew/include # Mac OS X /opt/local/var/macports/software # Mac OS X. /opt/local/include /usr/include) list(APPEND GFLAGS_CHECK_PATH_SUFFIXES gflags/include # Windows (for C:/Program Files prefix). gflags/Include ) # Windows (for C:/Program Files prefix). list(APPEND GFLAGS_CHECK_LIBRARY_DIRS /usr/local/lib /usr/local/homebrew/lib # Mac OS X. /opt/local/lib /usr/lib) list(APPEND GFLAGS_CHECK_LIBRARY_SUFFIXES gflags/lib # Windows (for C:/Program Files prefix). gflags/Lib ) # Windows (for C:/Program Files prefix). # Search supplied hint directories first if supplied. find_path(GFLAGS_INCLUDE_DIR NAMES gflags/gflags.h PATHS ${GFLAGS_INCLUDE_DIR_HINTS} ${GFLAGS_CHECK_INCLUDE_DIRS} PATH_SUFFIXES ${GFLAGS_CHECK_PATH_SUFFIXES}) if (NOT GFLAGS_INCLUDE_DIR OR NOT EXISTS ${GFLAGS_INCLUDE_DIR}) gflags_report_not_found( "Could not find gflags include directory, set GFLAGS_INCLUDE_DIR " "to directory containing gflags/gflags.h") endif (NOT GFLAGS_INCLUDE_DIR OR NOT EXISTS ${GFLAGS_INCLUDE_DIR}) find_library(GFLAGS_LIBRARY NAMES gflags gflags_debug gflags_nothreads gflags_nothreads_debug PATHS ${GFLAGS_LIBRARY_DIR_HINTS} ${GFLAGS_CHECK_LIBRARY_DIRS} PATH_SUFFIXES ${GFLAGS_CHECK_LIBRARY_SUFFIXES}) if (NOT GFLAGS_LIBRARY OR NOT EXISTS ${GFLAGS_LIBRARY}) gflags_report_not_found( "Could not find gflags library, set GFLAGS_LIBRARY " "to full path to libgflags.") endif (NOT GFLAGS_LIBRARY OR NOT EXISTS ${GFLAGS_LIBRARY}) # gflags typically requires a threading library (which is OS dependent), note # that this defines the CMAKE_THREAD_LIBS_INIT variable. If we are able to # detect threads, we assume that gflags requires it. find_package(Threads QUIET) set(GFLAGS_LINK_LIBRARIES ${CMAKE_THREAD_LIBS_INIT}) # On Windows (including MinGW), the Shlwapi library is used by gflags if # available. if (WIN32) include(CheckIncludeFileCXX) check_include_file_cxx("shlwapi.h" HAVE_SHLWAPI) if (HAVE_SHLWAPI) list(APPEND GFLAGS_LINK_LIBRARIES shlwapi.lib) endif(HAVE_SHLWAPI) endif (WIN32) # Mark internally as found, then verify. GFLAGS_REPORT_NOT_FOUND() unsets # if called. set(GFLAGS_FOUND TRUE) # Identify what namespace gflags was built with. if (GFLAGS_INCLUDE_DIR AND NOT GFLAGS_NAMESPACE) # To handle Windows peculiarities / CMake bugs on MSVC we try two approaches # to detect the gflags namespace: # # 1) Try to use check_cxx_source_compiles() to compile a trivial program # with the two choices for the gflags namespace. # # 2) [In the event 1) fails] Use regex on the gflags headers to try to # determine the gflags namespace. Whilst this is less robust than 1), # it does avoid any interaction with msbuild. gflags_check_gflags_namespace_using_try_compile() if (NOT GFLAGS_NAMESPACE) # Failed to determine gflags namespace using check_cxx_source_compiles() # method, try and obtain it using regex on the gflags headers instead. message(STATUS "Failed to find gflags namespace using using " "check_cxx_source_compiles(), trying namespace regex instead, " "this is expected on Windows.") gflags_check_gflags_namespace_using_regex() if (NOT GFLAGS_NAMESPACE) gflags_report_not_found( "Failed to determine gflags namespace either by " "check_cxx_source_compiles(), or namespace regex.") endif (NOT GFLAGS_NAMESPACE) endif (NOT GFLAGS_NAMESPACE) endif (GFLAGS_INCLUDE_DIR AND NOT GFLAGS_NAMESPACE) # Make the GFLAGS_NAMESPACE a cache variable s/t the user can view it, and could # overwrite it in the CMake GUI. set(GFLAGS_NAMESPACE "${GFLAGS_NAMESPACE}" CACHE STRING "gflags namespace (google or gflags)" FORCE) # gflags does not seem to provide any record of the version in its # source tree, thus cannot extract version. # Catch case when caller has set GFLAGS_NAMESPACE in the cache / GUI # with an invalid value. if (GFLAGS_NAMESPACE AND NOT GFLAGS_NAMESPACE STREQUAL "google" AND NOT GFLAGS_NAMESPACE STREQUAL "gflags") gflags_report_not_found( "Caller defined GFLAGS_NAMESPACE:" " ${GFLAGS_NAMESPACE} is not valid, not google or gflags.") endif () # Catch case when caller has set GFLAGS_INCLUDE_DIR in the cache / GUI and # thus FIND_[PATH/LIBRARY] are not called, but specified locations are # invalid, otherwise we would report the library as found. if (GFLAGS_INCLUDE_DIR AND NOT EXISTS ${GFLAGS_INCLUDE_DIR}/gflags/gflags.h) gflags_report_not_found( "Caller defined GFLAGS_INCLUDE_DIR:" " ${GFLAGS_INCLUDE_DIR} does not contain gflags/gflags.h header.") endif (GFLAGS_INCLUDE_DIR AND NOT EXISTS ${GFLAGS_INCLUDE_DIR}/gflags/gflags.h) # TODO: This regex for gflags library is pretty primitive, we use lowercase # for comparison to handle Windows using CamelCase library names, could # this check be better? string(TOLOWER "${GFLAGS_LIBRARY}" LOWERCASE_GFLAGS_LIBRARY) if (GFLAGS_LIBRARY AND NOT "${LOWERCASE_GFLAGS_LIBRARY}" MATCHES ".*gflags[^/]*") gflags_report_not_found( "Caller defined GFLAGS_LIBRARY: " "${GFLAGS_LIBRARY} does not match gflags.") endif (GFLAGS_LIBRARY AND NOT "${LOWERCASE_GFLAGS_LIBRARY}" MATCHES ".*gflags[^/]*") gflags_reset_find_library_prefix() endif(NOT GFLAGS_FOUND) # Set standard CMake FindPackage variables if found. if (GFLAGS_FOUND) set(GFLAGS_INCLUDE_DIRS ${GFLAGS_INCLUDE_DIR}) set(GFLAGS_LIBRARIES ${GFLAGS_LIBRARY} ${GFLAGS_LINK_LIBRARIES}) endif (GFLAGS_FOUND) # Handle REQUIRED / QUIET optional arguments. include(FindPackageHandleStandardArgs) find_package_handle_standard_args(Gflags DEFAULT_MSG GFLAGS_INCLUDE_DIRS GFLAGS_LIBRARIES GFLAGS_NAMESPACE) # Only mark internal variables as advanced if we found gflags, otherwise # leave them visible in the standard GUI for the user to set manually. if (GFLAGS_FOUND) mark_as_advanced(FORCE GFLAGS_INCLUDE_DIR GFLAGS_LIBRARY GFLAGS_NAMESPACE gflags_DIR) # Autogenerated by find_package(gflags) endif (GFLAGS_FOUND)