std::wstring parameters on SWIG directors were being truncated to a single character due to marshalling inconsistencies.
This patch applies the same MarshalAs(UnmanagedType.LPWStr) attribute to director delegate methods and allows std::wstrings to be successfully received in the C# code via director calls.
Initial contributions for Linux provided in issue #1233, modified to work
on both Windows and Linux. Dual support is possible by detecting
the sizeof wchar_t which is different on each of these systems.
This is necessary for regex-like renames (where you can't use the #define trick
as is done in many of the %keywordwarn directives). It's now unnecessary to print
the "renaming to '`x`'" code explicitly by the kw.swg files.
Add ability to change the modifiers for the C# and Java
interface generated when using the %interface macros.
For C# use the 'csinterfacemodifiers' typemap.
For Java use the 'javainterfacemodifiers' typemap.
For example:
%typemap(csinterfacemodifiers) X "internal interface"
Closes#1874
Notably make them work for primitive types, such as "int".
Doing this requires using "object" instead of the actual C# type of the
variable to store the current value in the iterator, as we don't
currently have a "csnullabletype" typemap that would expand to "T" for
nullable types and "T?" for the other ones. This is a bit ugly, but it
shouldn't matter much for the generated code and is already done in
std::vector<> typemaps.
Also add a simple unit test verifying the basic functionality for such
vectors.
Closes#1568.
This is just a mistake remaining from generalizing the old
string-specific typemap to any type.
Fix it now and update a unit test to test for sets of objects other than
strings.
Default marshalling for bool[] now uses 1-byte entries in the array, to
ensure array contents is as expected in C++.
When running under mono csharp_lib_arrays_bool testcase will fail
due to an apparent bug in mono. Works correctly under Microsoft's
runtime. See https://github.com/mono/mono/issues/15592
Workaround clang++ 9.1.0 error not knowing std::vector<bool>::const_reference
is actually typedef to bool:
li_std_vector_wrap.cxx:1838:40: error: no matching constructor for initialization of 'std::vector<bool>::const_reference'
Workaround is use
const value_type& getitem(int index) throw (std::out_of_range) { ...
// bool specialization:
bool getitem(int index) throw (std::out_of_range) { ...
instead of
const_reference_type getitem(int index) throw (std::out_of_range) { ...
Although the following would be better, it would require a more
complicated implementation:
const_reference_type getitem(int index) throw (std::out_of_range) { ...
// bool specialization:
bool getitem(int index) throw (std::out_of_range) { ...
For users who have typemaps for the parameters in the setitem method.
Correct definitions of const_reference to match the those in the
(C++11) standard.
Fixes two warnings in each wrapper:
warning : CA2002 : Microsoft.Reliability : 'examplePINVOKE.SWIGPendingException.Retrieve()' locks on a reference of type 'Type'. Replace this with a lock against an object with strong-identity.
warning : CA2002 : Microsoft.Reliability : 'examplePINVOKE.SWIGPendingException.Set(Exception)' locks on a reference of type 'Type'. Replace this with a lock against an object with strong-identity.
Use lock statement advice not to use typeof for locks, see
https://docs.microsoft.com/en-us/dotnet/csharp/language-reference/keywords/lock-statement
Previously just the Dispose() method was generated.
Now the Dispose() and Dispose(bool disposing) methods are generated.
Changes are required if custom "csfinalize", "csdestruct" or "csdestruct_derived"
typemaps are being used. Details in #421 on Github. SWIG will error out if one of
the "csfinalize, "csdestruct" or "csdestruct_derived" typemaps are found. Example
error message:
foo.h:60: Error: A deprecated csfinalize typemap was found for Foo, please remove
it and replace all csdestruct, csdestruct_derived and csfinalize typemaps by the
csdispose, csdispose_derived, csdisposing and csdisposing_derived typemaps.
Closes#421
Better to use the actual type rather than void* in the implementaton.
It also mean the %apply that was used in the implementation won't
inadvertently affect users other use of void* types.
Assignable fixes are based on those used by C# std::vector where the
default wrappers work if there is no operator== available in the
template type. Enhanced wrappers are obtained via a macro:
SWIG_STD_LIST_ENHANCED(SomeNamespace::Klass)
%template(ListKlass) std::list<SomeNamespace::Klass>;
Remove bool specialization (left over from the original std::vector
wrappers).
Add in missing typedefs.
These implementations are not optimized, i.e. are done in a naive way in
C#, rather than using C++ functions more efficiently, but are better
than nothing.
Create new Lib/csharp/std_set.i based on the existing std_map.i and run
li_std_set unit test for C# as well.
Notice that the set operations defined by the base ISet<> interface are
not implemented yet.
Tests for std::vector of pointers added which check
std::vector<T*>::const_reference and std::vector<T*>::reference
usage which gave compilation errors in Python and Perl which had
specialized these vectors incorrectly.
