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baldurk
768e812e45
* On windows it's strongly desired to be able to compile straight out of a clean checkout or source download. This means anyone can download the source and investigate something quickly, without having to worry about the hassle of figuring out how the project downloads 3rd party dependencies, fetching them, getting them registered in the right place. * This can't be put in a submodule as git submodules don't get downloaded by default so people new to git will get confusing compilation messages, and someone downloading the source from github directly without cloning via git won't get submodules included. * It does add some extra size to a fresh download/checkout which is unfortunate, but absolutely worth the cost. Shallow checkouts still aren't unfeasibly large, and it's only a one-off cost at clone time.
226 lines
6.0 KiB
OpenEdge ABL
226 lines
6.0 KiB
OpenEdge ABL
//
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// std::vector
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//
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%include <std_container.i>
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// Vector
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%define %std_vector_methods(vector...)
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%std_sequence_methods(vector)
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void reserve(size_type n);
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size_type capacity() const;
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%enddef
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%define %std_vector_methods_val(vector...)
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%std_sequence_methods_val(vector)
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void reserve(size_type n);
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size_type capacity() const;
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%enddef
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// ------------------------------------------------------------------------
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// std::vector
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//
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// The aim of all that follows would be to integrate std::vector with
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// as much as possible, namely, to allow the user to pass and
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// be returned tuples or lists.
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// const declarations are used to guess the intent of the function being
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// exported; therefore, the following rationale is applied:
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//
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// -- f(std::vector<T>), f(const std::vector<T>&):
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// the parameter being read-only, either a sequence or a
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// previously wrapped std::vector<T> can be passed.
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// -- f(std::vector<T>&), f(std::vector<T>*):
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// the parameter may be modified; therefore, only a wrapped std::vector
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// can be passed.
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// -- std::vector<T> f(), const std::vector<T>& f():
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// the vector is returned by copy; therefore, a sequence of T:s
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// is returned which is most easily used in other functions
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// -- std::vector<T>& f(), std::vector<T>* f():
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// the vector is returned by reference; therefore, a wrapped std::vector
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// is returned
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// -- const std::vector<T>* f(), f(const std::vector<T>*):
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// for consistency, they expect and return a plain vector pointer.
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// ------------------------------------------------------------------------
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%{
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#include <vector>
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%}
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// exported classes
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namespace std {
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template<class _Tp, class _Alloc = allocator< _Tp > >
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class vector {
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public:
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typedef size_t size_type;
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typedef ptrdiff_t difference_type;
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typedef _Tp value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef _Tp& reference;
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typedef const _Tp& const_reference;
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typedef _Alloc allocator_type;
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%traits_swigtype(_Tp);
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%traits_enum(_Tp);
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%fragment(SWIG_Traits_frag(std::vector< _Tp, _Alloc >), "header",
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fragment=SWIG_Traits_frag(_Tp),
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fragment="StdVectorTraits") {
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namespace swig {
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template <> struct traits<std::vector< _Tp, _Alloc > > {
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typedef pointer_category category;
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static const char* type_name() {
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return "std::vector<" #_Tp "," #_Alloc " >";
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}
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};
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}
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}
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%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector< _Tp, _Alloc >);
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#ifdef %swig_vector_methods
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// Add swig/language extra methods
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%swig_vector_methods(std::vector< _Tp, _Alloc >);
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#endif
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%std_vector_methods(vector);
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};
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// ***
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// This specialization should disappear or get simplified when
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// a 'const SWIGTYPE*&' can be defined
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// ***
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template<class _Tp, class _Alloc >
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class vector< _Tp*, _Alloc > {
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public:
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typedef size_t size_type;
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typedef ptrdiff_t difference_type;
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typedef _Tp* value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef value_type reference;
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typedef value_type const_reference;
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typedef _Alloc allocator_type;
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%traits_swigtype(_Tp);
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%fragment(SWIG_Traits_frag(std::vector< _Tp*, _Alloc >), "header",
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fragment=SWIG_Traits_frag(_Tp),
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fragment="StdVectorTraits") {
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namespace swig {
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template <> struct traits<std::vector< _Tp*, _Alloc > > {
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typedef value_category category;
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static const char* type_name() {
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return "std::vector<" #_Tp " *," #_Alloc " >";
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}
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};
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}
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}
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%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector< _Tp*, _Alloc >);
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#ifdef %swig_vector_methods_val
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// Add swig/language extra methods
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%swig_vector_methods_val(std::vector< _Tp*, _Alloc >);
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#endif
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%std_vector_methods_val(vector);
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};
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// ***
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// const pointer specialization
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// ***
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template<class _Tp, class _Alloc >
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class vector< _Tp const *, _Alloc > {
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public:
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typedef size_t size_type;
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typedef ptrdiff_t difference_type;
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typedef _Tp const * value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef value_type reference;
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typedef value_type const_reference;
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typedef _Alloc allocator_type;
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%traits_swigtype(_Tp);
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%fragment(SWIG_Traits_frag(std::vector< _Tp const*, _Alloc >), "header",
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fragment=SWIG_Traits_frag(_Tp),
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fragment="StdVectorTraits") {
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namespace swig {
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template <> struct traits<std::vector< _Tp const*, _Alloc > > {
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typedef value_category category;
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static const char* type_name() {
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return "std::vector<" #_Tp " const*," #_Alloc " >";
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}
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};
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}
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}
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%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector< _Tp const*, _Alloc >);
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#ifdef %swig_vector_methods_val
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// Add swig/language extra methods
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%swig_vector_methods_val(std::vector< _Tp const*, _Alloc >);
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#endif
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%std_vector_methods_val(vector);
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};
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// ***
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// bool specialization
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// ***
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template<class _Alloc >
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class vector<bool,_Alloc > {
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public:
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typedef size_t size_type;
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typedef ptrdiff_t difference_type;
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typedef bool value_type;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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typedef value_type reference;
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typedef value_type const_reference;
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typedef _Alloc allocator_type;
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%traits_swigtype(bool);
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%fragment(SWIG_Traits_frag(std::vector<bool, _Alloc >), "header",
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fragment=SWIG_Traits_frag(bool),
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fragment="StdVectorTraits") {
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namespace swig {
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template <> struct traits<std::vector<bool, _Alloc > > {
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typedef value_category category;
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static const char* type_name() {
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return "std::vector<bool, _Alloc >";
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}
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};
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}
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}
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%typemap_traits_ptr(SWIG_TYPECHECK_VECTOR, std::vector<bool, _Alloc >);
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#ifdef %swig_vector_methods_val
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// Add swig/language extra methods
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%swig_vector_methods_val(std::vector<bool, _Alloc >);
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#endif
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%std_vector_methods_val(vector);
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#if defined(SWIG_STD_MODERN_STL) && !defined(SWIG_STD_NOMODERN_STL)
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void flip();
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#endif
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};
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}
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