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//// Maps//%fragment("StdMapTraits","header",fragment="StdSequenceTraits"){ namespace swig { template <class RubySeq, class K, class T > inline void assign(const RubySeq& rubyseq, std::map<K,T > *map) { typedef typename std::map<K,T>::value_type value_type; typename RubySeq::const_iterator it = rubyseq.begin(); for (;it != rubyseq.end(); ++it) { map->insert(value_type(it->first, it->second)); } }
template <class K, class T> struct traits_asptr<std::map<K,T> > { typedef std::map<K,T> map_type; static int asptr(VALUE obj, map_type **val) { int res = SWIG_ERROR; if ( TYPE(obj) == T_HASH ) { static ID id_to_a = rb_intern("to_a"); VALUE items = rb_funcall(obj, id_to_a, 0); res = traits_asptr_stdseq<std::map<K,T>, std::pair<K, T> >::asptr(items, val); } else { map_type *p; res = SWIG_ConvertPtr(obj,(void**)&p,swig::type_info<map_type>(),0); if (SWIG_IsOK(res) && val) *val = p; } return res; } }; template <class K, class T > struct traits_from<std::map<K,T> > { typedef std::map<K,T> map_type; typedef typename map_type::const_iterator const_iterator; typedef typename map_type::size_type size_type; static VALUE from(const map_type& map) { swig_type_info *desc = swig::type_info<map_type>(); if (desc && desc->clientdata) { return SWIG_NewPointerObj(new map_type(map), desc, SWIG_POINTER_OWN); } else { size_type size = map.size(); int rubysize = (size <= (size_type) INT_MAX) ? (int) size : -1; if (rubysize < 0) { SWIG_RUBY_THREAD_BEGIN_BLOCK; rb_raise( rb_eRuntimeError, "map size not valid in Ruby"); SWIG_RUBY_THREAD_END_BLOCK; return Qnil; } VALUE obj = rb_hash_new(); for (const_iterator i= map.begin(); i!= map.end(); ++i) { VALUE key = swig::from(i->first); VALUE val = swig::from(i->second); rb_hash_aset(obj, key, val); } return obj; } } };
template <class ValueType> struct from_key_oper { typedef const ValueType& argument_type; typedef VALUE result_type; result_type operator()(argument_type v) const { return swig::from(v.first); } };
template <class ValueType> struct from_value_oper { typedef const ValueType& argument_type; typedef VALUE result_type; result_type operator()(argument_type v) const { return swig::from(v.second); } };
template<class OutIterator, class FromOper, class ValueType = typename OutIterator::value_type> struct MapIterator_T : ConstIteratorClosed_T<OutIterator, ValueType, FromOper> { MapIterator_T(OutIterator curr, OutIterator first, OutIterator last, VALUE seq) : ConstIteratorClosed_T<OutIterator,ValueType,FromOper>(curr, first, last, seq) { } };
template<class OutIterator, class FromOper = from_key_oper<typename OutIterator::value_type> > struct MapKeyIterator_T : MapIterator_T<OutIterator, FromOper> { MapKeyIterator_T(OutIterator curr, OutIterator first, OutIterator last, VALUE seq) : MapIterator_T<OutIterator, FromOper>(curr, first, last, seq) { } };
template<typename OutIter> inline ConstIterator* make_output_key_iterator(const OutIter& current, const OutIter& begin, const OutIter& end, VALUE seq = 0) { return new MapKeyIterator_T<OutIter>(current, begin, end, seq); }
template<class OutIterator, class FromOper = from_value_oper<typename OutIterator::value_type> > struct MapValueIterator_T : MapIterator_T<OutIterator, FromOper> { MapValueIterator_T(OutIterator curr, OutIterator first, OutIterator last, VALUE seq) : MapIterator_T<OutIterator, FromOper>(curr, first, last, seq) { } };
template<typename OutIter> inline ConstIterator* make_output_value_iterator(const OutIter& current, const OutIter& begin, const OutIter& end, VALUE seq = 0) { return new MapValueIterator_T<OutIter>(current, begin, end, seq); } }}
%define %swig_map_common(Map...) %swig_container_methods(%arg(Map)); // %swig_sequence_iterator(%arg(Map));
%extend { VALUE __delete__(const key_type& key) { Map::iterator i = self->find(key); if (i != self->end()) { self->erase(i); return swig::from( key ); } else { return Qnil; } } bool has_key(const key_type& key) const { Map::const_iterator i = self->find(key); return i != self->end(); } VALUE keys() { Map::size_type size = self->size(); int rubysize = (size <= (Map::size_type) INT_MAX) ? (int) size : -1; if (rubysize < 0) { SWIG_RUBY_THREAD_BEGIN_BLOCK; rb_raise(rb_eRuntimeError, "map size not valid in Ruby"); SWIG_RUBY_THREAD_END_BLOCK; return Qnil; } VALUE ary = rb_ary_new2(rubysize); Map::const_iterator i = self->begin(); Map::const_iterator e = self->end(); for ( ; i != e; ++i ) { rb_ary_push( ary, swig::from(i->first) ); } return ary; }
Map* each() { if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given");
VALUE k, v; Map::iterator i = self->begin(); Map::iterator e = self->end(); for ( ; i != e; ++i ) { const Map::key_type& key = i->first; const Map::mapped_type& val = i->second;
k = swig::from<Map::key_type>(key); v = swig::from<Map::mapped_type>(val); rb_yield_values(2, k, v); } return self; }
%newobject select; Map* select() { if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given" );
Map* r = new Map; Map::iterator i = $self->begin(); Map::iterator e = $self->end(); for ( ; i != e; ++i ) { VALUE k = swig::from<Map::key_type>(i->first); VALUE v = swig::from<Map::mapped_type>(i->second); if ( RTEST( rb_yield_values(2, k, v) ) ) $self->insert(r->end(), *i); } return r; }
%typemap(in) (int argc, VALUE* argv) { $1 = argc; $2 = argv; }
VALUE values_at(int argc, VALUE* argv, ...) { VALUE r = rb_ary_new(); ID id = rb_intern("[]"); swig_type_info* type = swig::type_info< Map >(); VALUE me = SWIG_NewPointerObj( $self, type, 0 ); for ( int i = 0; i < argc; ++i ) { VALUE key = argv[i]; VALUE tmp = rb_funcall( me, id, 1, key ); rb_ary_push( r, tmp ); } return r; }
Map* each_key() { if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given");
VALUE r; Map::iterator i = self->begin(); Map::iterator e = self->end(); for ( ; i != e; ++i ) { r = swig::from( i->first ); rb_yield(r); } return self; } VALUE values() { Map::size_type size = self->size(); int rubysize = (size <= (Map::size_type) INT_MAX) ? (int) size : -1; if (rubysize < 0) { SWIG_RUBY_THREAD_BEGIN_BLOCK; rb_raise(rb_eRuntimeError, "map size not valid in Ruby"); SWIG_RUBY_THREAD_END_BLOCK; return Qnil; } VALUE ary = rb_ary_new2(rubysize); Map::const_iterator i = self->begin(); Map::const_iterator e = self->end(); for ( ; i != e; ++i ) { rb_ary_push( ary, swig::from(i->second) ); } return ary; } Map* each_value() { if ( !rb_block_given_p() ) rb_raise( rb_eArgError, "no block given");
VALUE r; Map::iterator i = self->begin(); Map::iterator e = self->end(); for ( ; i != e; ++i ) { r = swig::from( i->second ); rb_yield(r); } return self; }
VALUE entries() { Map::size_type size = self->size(); int rubysize = (size <= (Map::size_type) INT_MAX) ? (int) size : -1; if (rubysize < 0) { SWIG_RUBY_THREAD_BEGIN_BLOCK; rb_raise(rb_eRuntimeError, "map size not valid in Ruby"); SWIG_RUBY_THREAD_END_BLOCK; return Qnil; } VALUE ary = rb_ary_new2(rubysize); Map::const_iterator i = self->begin(); Map::const_iterator e = self->end(); for ( ; i != e; ++i ) { rb_ary_push( ary, swig::from<std::pair<Map::key_type, Map::mapped_type> >(*i) ); } return ary; } bool __contains__(const key_type& key) { return self->find(key) != self->end(); }
%newobject key_iterator(VALUE *RUBY_SELF); swig::ConstIterator* key_iterator(VALUE *RUBY_SELF) { return swig::make_output_key_iterator($self->begin(), $self->begin(), $self->end(), *RUBY_SELF); }
%newobject value_iterator(VALUE *RUBY_SELF); swig::ConstIterator* value_iterator(VALUE *RUBY_SELF) { return swig::make_output_value_iterator($self->begin(), $self->begin(), $self->end(), *RUBY_SELF); }
}%enddef
%define %swig_map_methods(Map...) %swig_map_common(Map) %extend { VALUE __getitem__(const key_type& key) const { Map::const_iterator i = self->find(key); if ( i != self->end() ) return swig::from<Map::mapped_type>( i->second ); else return Qnil; }
void __setitem__(const key_type& key, const mapped_type& x) throw (std::out_of_range) { (*self)[key] = x; }
VALUE inspect() { Map::const_iterator i = $self->begin(); Map::const_iterator e = $self->end(); VALUE str = rb_str_new2( swig::type_name< Map >() ); str = rb_str_cat2( str, " {" ); bool comma = false; VALUE tmp; for ( ; i != e; ++i, comma = true ) { if (comma) str = rb_str_cat2( str, "," ); tmp = swig::from< Map::key_type >( i->first ); tmp = rb_inspect( tmp ); str = rb_str_buf_append( str, tmp ); str = rb_str_cat2( str, "=>" ); tmp = swig::from< Map::mapped_type >( i->second ); tmp = rb_inspect( tmp ); str = rb_str_buf_append( str, tmp ); } str = rb_str_cat2( str, "}" ); return str; }
VALUE to_a() { Map::const_iterator i = $self->begin(); Map::const_iterator e = $self->end(); VALUE ary = rb_ary_new2( std::distance( i, e ) ); VALUE tmp; for ( ; i != e; ++i ) { // @todo: improve -- this should just be swig::from(*i) tmp = swig::from< std::pair<Map::key_type, Map::mapped_type> >( *i ); rb_ary_push( ary, tmp ); } return ary; }
VALUE to_s() { Map::iterator i = $self->begin(); Map::iterator e = $self->end(); VALUE str = rb_str_new2( "" ); VALUE tmp; for ( ; i != e; ++i ) { // @todo: improve -- this should just be swig::from(*i) tmp = swig::from< std::pair<Map::key_type, Map::mapped_type> >( *i ); tmp = rb_obj_as_string( tmp ); str = rb_str_buf_append( str, tmp ); } return str; }
}%enddef
%mixin std::map "Enumerable";
%rename("delete") std::map::__delete__;%rename("reject!") std::map::reject_bang;%rename("map!") std::map::map_bang;%rename("empty?") std::map::empty;%rename("include?" ) std::map::__contains__ const;%rename("has_key?" ) std::map::has_key const;
%alias std::map::push "<<";
%include <std/std_map.i>
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