CMake 2.6 Notes
Exporting and Importing Targets
Preprocessor Definitions
Linking
CMake 2.6 implements a new approach to generating link lines for targets.
Consider these libraries:
/path/to/libfoo.a /path/to/libfoo.so
Previously if someone wrote
target_link_libraries(myexe /path/to/libfoo.a)
CMake would generate this code to link it:
... -L/path/to -Wl,-Bstatic -lfoo -Wl,-Bdynamic ...
This worked most of the time, but some platforms (such as OS X) do not
support the -Bstatic or equivalent flag. This made it impossible to
link to the static version of a library without creating a symlink in
another directory and using that one instead.
Now CMake will generate this code:
... /path/to/libfoo.a ...
This guarantees that the correct library is chosen. However there are some side-effects.
Missing Linker Search Directories
Projects used to be able to write this (wrong) code and it would work by accident:
add_executable(myexe myexe.c) target_link_libraries(myexe /path/to/libA.so B)
where "B" is meant to link "/path/to/libB.so". This code is incorrect
because it asks CMake to link to B but does not provide the proper
linker search path for it. It used to work by accident because the
-L/path/to would get added as part of the implementation of linking to
A. The correct code would be
link_directories(/path/to) add_executable(myexe myexe.c) target_link_libraries(myexe /path/to/libA.so B)
or even better
add_executable(myexe myexe.c) target_link_libraries(myexe /path/to/libA.so /path/to/libB.so)
In order to support projects that have this bug, we've added a
compatibility feature that adds the "-L/path/to" paths for all libraries
linked with full paths even though the linker will not need those paths
to find the main libraries. The compatibility mode is enabled when a
link line contains a non-full-path library (like B) and either
CMAKE_BACKWARDS_COMPATIBILITY is set to 2.4 or lower or
CMAKE_LINK_OLD_PATHS is set to true.
If you are trying to build a project and run into this problem, a quick-fix is to run
cmake -DCMAKE_LINK_OLD_PATHS:BOOL=ON .
in the top of the build tree.
Linking to System Libraries
System libraries on UNIX-like systems are typically provided in /usr/lib or /lib. These directories are considered implicit linker search paths because linkers automatically search these locations even without a flag like -L/usr/lib. Consider the code
find_library(M_LIB m)
target_link_libraries(myexe ${M_LIB})
Typically the find_library command would find the math library
/usr/lib/libm.so
In CMake 2.4 and lower this value would be assigned directly to M_LIB. Then the link line generation would split off the link directory /usr/lib and the library libm.so and produce the
... -lm ...
Note that the -L/usr/lib option is left out because it is an implicit linker search path. The linker would see -lm and search for the math library. Typically the linker would find /usr/lib/libm.so too. However some platforms provide multiple versions of libraries correesponding to different architectures. For example, on an IRIX machine one might find the libraries
/usr/lib/libm.so (ELF o32) /usr/lib32/libm.so (ELF n32) /usr/lib64/libm.so (ELF 64)
On a Solaris machine one might find
/usr/lib/libm.so (sparcv8 architecture) /usr/lib/sparcv9/libm.so (sparcv9 architecture)
When the linker sees -lm it in fact searches the system path corresponding to the current architecture. Internally it might use -L/usr/lib/sparcv9 instead of -L/usr/lib.
In CMake 2.6 the code
target_link_libraries(myexe /usr/lib/libm.so)
would generate the link line
... /usr/lib/libm.so ...
no matter what architecture is getting linked. This might cause the linker to complain if /usr/lib/libm.so does not match the architecture it wants. This is not a problem with the link line computation. CMake is linking myexe to the library to which it was told to link.
The problem is created because find_library may not know about all the architecture-specific system search paths used by the linker. In fact when it finds /usr/lib/libm.so it may be finding a library of incorrect architecture. The solution is for the command to recognize that when it finds a library in a system search path that it should ask the linker to find the correct version of the library at link time. Consider the original example:
find_library(M_LIB m)
target_link_libraries(myexe ${M_LIB})
In CMake 2.6 the find_library command will set M_LIB to contain just "libm.so" when it finds /usr/lib/libm.so. The link command will then be
target_link_libraries(myexe libm.so)
which will be converted to the link command line
... -lm ...
and the linker will locate the correct version of the library. If find_library does not find the library in an implicit link directory it will report the full path as usual. The user might also edit the cache to set M_LIB to a full path. In both cases the full path given to target_link_libraries will be preserved on the final link line.
