- import arrays in extensions (mako file).
- put import_arrays in converter,
along the lines of our own objects (numpy and triqs uses
the same capsule technique, i.e. the standard technique from python
doc.)
- clean the c_name.
- add more refined signature (with c_name optionally in it).
- add some autodoc.
- clean code : move class in nested, remove useless dict call, etc...
- operator2 : move unary - and unit in algebra in general wrapper.
- various name change to make private function start with _, for
autodoc.
- Add to the wrapper generator (add_method) the release_GIL_and_enable_signal option which :
- release the GIL
- save the python signal handler
- enable the C++ triqs signal handler instead.
- undo all of this after the code runs, or in a case of exception.
- used python include, ceval.h, line 72 comments and below.
- reworked the triqs::signal_handler.
simple C like function, no object (no need).
start, stop, received, cf header file.
- clean the call_back.cpp : only place using the signal directly
(qmc uses the callback).
in particular, remove the old BOOST CHRONO, since
the std::chrono works fine on platforms we use now.
- change the constructor wrapper.
- in the new method, leave the pointer _c to NULL.
- in the init, allocate it.
- It seems ok to leave the object in this non initialized state,
but that is not so clear from the doc.
Added check for this pointer == NULL in converters.
- new parameter class :
parameters are viewed as form, built in C++, and filled in C++/python.
Each field of the form as a precise C++ type (erased using standard techniques).
First tests ok, to be reread/checked.
TODO : serialization is commented. Lead to long compilation time & large code
due to boost::serialization. Use h5 when possible.
- wrapper :
- separated the converters of the wrapped type in the TRIQS library
- necessary for parameters (it used outside an .so) and potentially
other codes, outside an .so module