53d02ea FindPythonLibs: stop scanning when libraries are found
91d5a2a FindPythonLibs: put debug libraries into PYTHON_LIBRARIES
c9c1a17 FindPythonLibs: get the exact version of the found library (#3080)
f772378 FindPythonLibs: make the version selection work as for PythonInterp
bbddaee FindPython{Interp,Libs}: document Python_ADDITIONAL_VERSIONS as input
There are versions out there that neither understand --version nor -V. Try a
completely different approach: execute a small python script that prints the
version number (and only that) in an easily reusable way using
sys.version_info. This is documented to work since Python 2.0. Use sys.version
for older versions, which is documented to exist since 1.5. If even that
doesn't work then simply assume we are on 1.4.0.
This concerns all variables common to all CPack generators.
Variables mainly used and/or set in CPack.cmake are documented
therein. C++ built-in variables are documented in
cmCPackDocumentVariables.cxx.
Use CMAKE_<LANG>_COMPILER_VERSION instead of calling the compiler. This macro
predates those useful variables. This also fixes the issue that g++ version
detection was not working if C language was not enabled.
35c48e1 Check*.cmake: Expand imported targets in CMAKE_REQUIRED_LIBRARIES
61cb4ea bootstrap: move while() and endwhile() into the bootstrap build
c9f2886 -don't pull in CheckTypeSize.cmake from the cmake which is being built
628f365 -remove trailing whitespace
Add the function cmake_expand_imported_targets() to expand imported
targets in a list of libraries into their on-disk file names for a
particular configuration. Adapt the implementation from KDE's
HANDLE_IMPORTED_TARGETS_IN_CMAKE_REQUIRED_LIBRARIES which has been in
use for over 2 years. Call the function from all the Check*.cmake
macros to handle imported targets named in CMAKE_REQUIRED_LIBRARIES.
Alex
A lot of the libraries won't be found by default so will spit out
all sorts of errors. Don't kill QT_LIBRARIES_PLUGINS altogether as
it is sometimes useful.
The Borland compiler was re-branded as CodeGear during 2007-2009 and
since 2009 is the Embarcadero compiler. They offer predefined macros:
http://docwiki.embarcadero.com/RADStudio/en/Predefined_Macros
and distinguish themselves by __CODEGEARC__ and __CODEGEARC_VERSION__.
Version 6.30 (C++Builder XE) changed the meaning of some flags:
http://docwiki.embarcadero.com/RADStudio/en/C%2B%2B_Compiler_Option_Changes_for_XE
Teach Embarcadero compiler information files to generate build rules
with flags matching the compiler version. Leave the flags unchanged
for old Borland versions. Always set the BORLAND toolchain indicator
for compatibility with existing projects that test it. Also set the
EMBARCADERO indicator for newer toolchains.
The GenerateExportHeaders test was failing on one machine, the version
could not be determined there, so the _gcc_version was empty,
so the first argument to if() was empty, so it complained:
http://open.cdash.org/testDetails.php?test=135623436&build=2016288
Use double quotes to turn the non-existant first argument into an empty
string.
Alex
Since we know which compiler we have we can test those OpenMP flags first that
are likely to be correct. This doesn't make any difference for GNU compilers,
but it should avoid useless try_compiles and output cluttering for all others.
The Borland compiler is now the Embarcadero compiler. Rename the shared
platform information file to reflect this. This does not change the
interface, as old versions are still "Borland", but will allow new
versions released by Embarcadero to be supported cleanly.
Newer Ruby versions (from 1.9 onward) seem to warn if you query Config::CONFIG
and print a warning to use RbConfig instead. RbConfig seems to also work in
older versions, at least in 1.8. Use a macro to query RbConfig first and only
if that doesn't give anything fall back to Config.
This contains a change, which changes the behaviour a bit:
now X11_xf86vmode_FOUND is only set to TRUE and the include directory
is added to X11_INCLUDE_DIR, if additionally to X11_xf86vmode_INCLUDE_PATH
also X11_Xxf86vm_LIB has been found.
I hope this doesn't cause regressions somewhere.
Alex
Configure the build_mingw.cmake.in config_mingw.cmake.in files
into the binary directory of the directory being built, not the
top level binary directory for the project.
This also cleans up a bunch of things on the way:
-when perl was queried for paths they were not converted to CMake style on
Windows.
-the result when perl was queried for the perl library name was ignored since
it was expanded with the possible paths, which is not a valid input for
find_library(). If perl returns a library name we now will look only for this
name and not for the default names and use the default names only when the
executable does not give us a hint.
-get rid of 2 variables that were only used at one place and directly put the
values in the call to find_library() and find_path().
Inspired by Jeff Trull
1e16406 CMakeAddFortranSubdirectory: Add NO_EXTERNAL_INSTALL option
6f6891b CMakeAddFortranSubdirectory: Always parse arguments
48a09f8 CMakeAddFortranSubdirectory: Make IMPORTED targets GLOBAL
067c1f4 VSGNUFortran: Disable test in special cases
bd69e1c VSGNUFortran: Add special case for SunPro Fortran runtime library
414a780 CMakeAddFortranSubdirectory: Validate gfortran architecture
7e0d9f1 CMakeAddFortranSubdirectory: Find gfortran in PATH
d6b0312 CMakeAddFortranSubdirectory: Fix documentation format and typos
e4ae038 CMakeAddFortranSubdirectory: Allow full paths to directories
538c345 Add CMakeAddFortranSubdirectory to use MinGW gfortran in VS
3c6af5f Merge branch 'add-CheckLanguage-module' into CMakeAddFortranSubdirectory