Classify .manifest sources separately, add dependencies on them, and
pass them to the MS manifest tool to merge with linker-generated
manifest files.
Inspired-by: Gilles Khouzam <gillesk@microsoft.com>
Create target property WINDOWS_EXPORT_ALL_SYMBOLS to automatically
generate a module definition file from MS-compatible .obj files and give
it to the linker in order to export all symbols from the .dll part of a
SHARED library.
Compute deterministic GUIDs that are unique to the build tree by
hashing the path to the build tree with the GUID logical name.
Avoid storing them in the cache, but honor any found there.
This will allow project GUIDs to be reproduced in a fresh build
tree so long as its path is the same as the original, which may
be useful for incremental builds.
Refactor the local generator creation API to accept a
cmState::Snapshot. Adjust MakeLocalGenerator to use the 'current'
snapshot in cases where there is no parent. Create the snapshot
for subdirectories in cmMakefile::AddSubdirectory.
This means that snapshots are now created at the point of extending the tree,
as appropriate, and independently of the cmLocalGenerator and cmMakefile they
represent the state for.
Drop the VS >= 7 generator's global Configurations member and instead
lookup configurations using cmMakefile::GetConfigurations where needed.
This avoids accumulating all CMAKE_CONFIGURATION_TYPES values ever
encountered by a project() or enable_language() command and allows
the final value to be used in each directory. We don't officially
support per-directory CMAKE_CONFIGURATION_TYPES values but we certainly
should not generate configurations not in the final value in the top
level directory.
Due to a difference in how AdditionalOptions are implemented in the
Fortran component of VS and the C/C++ component, flags that are not
listed in the flag table are at risk of being overwritten.
Teach cmLocalVisualStudio7Generator to set 'OutputDirectory' using the
same method as is used to set the 'OutputFile' in the generated project
file. Also, OutputDirectory only needs to be set for targets that run the
linker or librarian. These two changes make the VS 7 OutputDirectory
consistent with what cmVisualStudio10TargetGenerator generates for OutDir.
Without this, since the VS Intel Fortran plugin for VS >= 10 still uses
the VS 7 .vfproj file format, when executing test VSGNUFortran using
Intel Fortran Compiler 15.xx, the following warning is issued just
before compilation:
TargetPath(...) does not match the Linker's OutputFile property value (...).
This may cause your project to build incorrectly.
To correct this, please make sure that $(OutDir), $(TargetName) and $(TargetExt)
property values match the value specified in %(Link.OutputFile).
Subsequently, an error is reported during linking.
Inspired-by: Vincent Newsum <vynewsum@gmail.com>
This will allow us to use a value other than just the config name
for the project OutputDirectory setting used for $(OutDir).
Also use $(ConfigurationName) instead of $(OutDir) for the link
directory configuration suffix since that is a hard-coded instance of
a use case for CMAKE_CFG_INTDIR.
This commit fixes a bug where it was impossible to specify
/INCREMENTAL to Fortran projects built with Visual Studio.
The problem was due to the fact that .vfproj files expect
the value of this flag to be "linkIncremental{No,Yes},
whereas .vcproj files expect this value to be 0, 1, or 2.
The implementation of this fix adds a new data structure for
Visual Studio linker flags specific to Fortran. This can
easily be extended in the future if more such discrepencies
between C/C++ and Fortran linking are discovered.
This version of the Intel Fortran plugin to Visual Studio says:
please make sure that $(OutDir), $(TargetName) and $(TargetExt)
property values match the value specified in %(Link.OutputFile)
We must set TargetName and TargetExt in addition to the existing
setting for OutputDirectory. The settings do not appear to hurt
older versions of Intel Fortran, so set them unconditionally.
Extend the FortranOnly test to cover a corresponding use case by
using the OUTPUT_NAME target property.
Inspired-by: Ian Harvey <Ian.Harvey@megms.com.au>
Teach cmVisualStudioGeneratorOptions to encode FlagMap entries
and the FlagString value properly in vcproj/vcxproj XML files.
Update the one existing call site that pre-encoded the value
to not do so.
Ask the global generator during generation instead of trying
to store it up front. Later the global generator may not know
the platform name when it is creating the local generator.
The VS 7-9 IDEs parse .vcproj file boolean values in lower or upper
case. The .NET XML parsing chokes on anything but "true", "false", "0",
"1". Teach our generators to use lower-case names since they will work
for both parsers. Our VS >= 10 flag tables already use lower-case.
Disallow the use of config-specific source files with
the Visual Studio and Xcode generators. They don't have
any way to represent the condition currently.
Use the same common-config API in cmQtAutoGenerators. While
it accepts config-specific files, it doesn't have to support
multiple configurations yet.
Loop over the configs in cmTargetTraceDependencies
and cmGlobalGenerator::WriteSummary and consume all source
files.
Loop over the configs in cmComputeTargetDepends and compute the
object library dependencies for each config.
Remove use of UseObjectLibraries from Makefile and Ninja generators. It
is not needed now because those generators use GetExternalObjects
which already contains the objects from object libraries.
The VS10 generator calls both the UseObjectLibraries and the GetExternalObjects
methods. Ensure that duplicates are not created by skipping objects
from object libraries in handling of GetExternalObjects.
Similarly, fix VS6, VS7 and Xcode object handling by skipping
external objects from OBJECT_LIBRARY usage as appropriate.
The error message in the BadSourceExpression1 test is now reported
by the generator expression evaluator, so it has different text.