More elaborate selection of the `compiler` tag in the generated
CodeBlocks project file:
* Fortran language support
* support for several of the predefined compilers recognized by
CodeBlocks (16.01)
CPACK_* variables expect component name in upper case.
CPACK_RPM_* variables expected component name to be
in same case as component name.
This patch adds support for CPACK_RPM_* variables with
upper case component names to match the convention with
CPACK_* variables and also preserves same case component
names for back compatibility.
There's no need to stringify the values, but instead just pass in
strings. The core problem is that the path may have tokens which are
replaced by the preprocessor which causes an invalid path to be used.
The re-implementation in commit v3.5.0-rc1~116^2~1 (CMakeParseArguments:
replace by native cmake_parse_arguments command, 2015-12-05) introduced
a regression when parsing the ARGN arguments with cmake_parse_arguments.
The original implementation used
foreach(currentArg ${ARGN})
to iterate over input arguments. This flattened ;-lists within the
arguments whether they were quoted or not. Fix our new implementation
to preserve this behavior and add a test case to cover it.
Signed-off-by: Dimitar Yordanov <dimitar.yordanov@sap.com>
Signed-off-by: Matthias Maennich <matthias.maennich@sap.com>
Refactoring in commit v3.3.0-rc1~29^2~1 (cmState: Host some state from
the cmGlobalGenerator, 2015-05-24) moved storage of some generator
traits over to cmState. However, it accidentally removed initialization
of the values from the cmGlobalGenerator constructor. This is needed
because generator subclasses update the settings in their constructors.
Since a single cmState instance is shared across multiple build trees by
cmake-gui, initializing the values in its constructor is not enough.
Fix this by restoring the needed initializations to the
cmGlobalGenerator constructor.
We represent target dependency sets as `set<cmTargetDepend>` which
orders by a `cmGeneratorTarget const*` pointer value. Therefore the
order of dependencies encountered in AppendTargetDepends is not
predictable. Sort them by content to make the result deterministic.
The fix in commit v3.5.0-rc1~84^2 (Xcode: Escape all backslashes in
strings, 2015-12-27) is a change in behavior that can break existing
projects that worked around the inconsistency with other generators.
Add a release note to call attention to this change in behavior.
Generate custom command build statements in the order we encounter
source files specifying them. Do not depend on pointer values of
internally allocated structures for ordering.
The specific cause is when e.g.
/Library/Frameworks/GStreamer.framework/Versions/1.0/lib/libgio-2.0.0.dylib
is detected by fixup_bundle. set_bundle_key_values() interprets this as
a framework, thus doing a string replace that creates an embedded_item
that is equal to the original path, i.e. it is not embedded.
Before this change, the variable PROTOBUF_LIBRARIES might get redundant
value for debug and optimized configurations, e.g.
`optimized;/usr/lib/libprotobuf.so;debug;/usr/lib/libprotobuf.so`.
Some projects may want to use the detailed mangling information
directly instead of using the FortranCInterface_HEADER function.
We already provide variables encoding the mangling information,
so just document them as available.
This commit introduces two new options to CTestCoverageCollectGCOV.
When GLOB is set we recursively search in the source & binary
directories for .gcda files. Otherwise the default behavior is to
parse TargetDirectories.txt for a list of locations to search.
When DELETE is set we remove any .gcda file found after it has
been used to generate the corresponding .gcov file. The .gcov
file is also removed after the result tarball has been created.
Together these two new features help support the use case of
computing coverage across subprojects.
This version introduced CURLE_NOT_BUILT_IN which we have used since
commit v3.4.0-rc1~211^2~4 (cmCurl: Tolerate lack of CURLOPT_CAPATH
support, 2015-08-12). For older versions, just define the name to the
then-unused error code so that we can compile.