/* ----------------------------------------------------------------------------- * std_map.i * * SWIG typemaps for std::map * The Java proxy class extends java.util.AbstractMap. The std::map * container looks and feels much like a java.util.HashMap from Java. * ----------------------------------------------------------------------------- */ %include // ------------------------------------------------------------------------ // std::map // ------------------------------------------------------------------------ %{ #include #include %} %fragment("SWIG_MapSize", "header", fragment="SWIG_JavaIntFromSize_t") { SWIGINTERN jint SWIG_MapSize(size_t size) { jint sz = SWIG_JavaIntFromSize_t(size); if (sz == -1) { throw std::out_of_range("map size is too large to fit into a Java int"); } return sz; } } %javamethodmodifiers std::map::sizeImpl "private"; %javamethodmodifiers std::map::containsImpl "private"; %javamethodmodifiers std::map::putUnchecked "private"; %javamethodmodifiers std::map::removeUnchecked "private"; %javamethodmodifiers std::map::find "private"; %javamethodmodifiers std::map::begin "private"; %javamethodmodifiers std::map::end "private"; %rename(Iterator) std::map::iterator; %nodefaultctor std::map::iterator; %javamethodmodifiers std::map::iterator::getNextUnchecked "private"; %javamethodmodifiers std::map::iterator::isNot "private"; %javamethodmodifiers std::map::iterator::getKey "private"; %javamethodmodifiers std::map::iterator::getValue "private"; %javamethodmodifiers std::map::iterator::setValue "private"; namespace std { template > class map { %typemap(javabase) std::map "java.util.AbstractMap<$typemap(jboxtype, KeyType), $typemap(jboxtype, MappedType)>" %proxycode %{ public int size() { return sizeImpl(); } public boolean containsKey(Object key) { if (!(key instanceof $typemap(jboxtype, KeyType))) { return false; } return containsImpl(($typemap(jboxtype, KeyType))key); } public $typemap(jboxtype, MappedType) get(Object key) { if (!(key instanceof $typemap(jboxtype, KeyType))) { return null; } Iterator itr = find(($typemap(jboxtype, KeyType)) key); if (itr.isNot(end())) { return itr.getValue(); } return null; } public $typemap(jboxtype, MappedType) put($typemap(jboxtype, KeyType) key, $typemap(jboxtype, MappedType) value) { Iterator itr = find(($typemap(jboxtype, KeyType)) key); if (itr.isNot(end())) { $typemap(jboxtype, MappedType) oldValue = itr.getValue(); itr.setValue(value); return oldValue; } else { putUnchecked(key, value); return null; } } public $typemap(jboxtype, MappedType) remove(Object key) { if (!(key instanceof $typemap(jboxtype, KeyType))) { return null; } Iterator itr = find(($typemap(jboxtype, KeyType)) key); if (itr.isNot(end())) { $typemap(jboxtype, MappedType) oldValue = itr.getValue(); removeUnchecked(itr); return oldValue; } else { return null; } } public java.util.Set> entrySet() { java.util.Set> setToReturn = new java.util.HashSet>(); Iterator itr = begin(); final Iterator end = end(); while (itr.isNot(end)) { setToReturn.add(new Entry<$typemap(jboxtype, KeyType), $typemap(jboxtype, MappedType)>() { private Iterator iterator; private Entry<$typemap(jboxtype, KeyType), $typemap(jboxtype, MappedType)> init(Iterator iterator) { this.iterator = iterator; return this; } public $typemap(jboxtype, KeyType) getKey() { return iterator.getKey(); } public $typemap(jboxtype, MappedType) getValue() { return iterator.getValue(); } public $typemap(jboxtype, MappedType) setValue($typemap(jboxtype, MappedType) newValue) { $typemap(jboxtype, MappedType) oldValue = iterator.getValue(); iterator.setValue(newValue); return oldValue; } }.init(itr)); itr = itr.getNextUnchecked(); } return setToReturn; } %} public: typedef size_t size_type; typedef ptrdiff_t difference_type; typedef KeyType key_type; typedef MappedType mapped_type; typedef std::pair< const KeyType, MappedType > value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef value_type& reference; typedef const value_type& const_reference; map(); map(const map& other); struct iterator { %typemap(javaclassmodifiers) iterator "protected class" %extend { std::map::iterator getNextUnchecked() { std::map::iterator copy = (*$self); return ++copy; } bool isNot(iterator other) const { return (*$self != other); } KeyType getKey() const { return (*$self)->first; } MappedType getValue() const { return (*$self)->second; } void setValue(const MappedType& newValue) { (*$self)->second = newValue; } } }; %rename(isEmpty) empty; bool empty() const; void clear(); iterator find(const KeyType& key); iterator begin(); iterator end(); %extend { %fragment("SWIG_MapSize"); jint sizeImpl() const throw (std::out_of_range) { return SWIG_MapSize(self->size()); } bool containsImpl(const KeyType& key) { return (self->count(key) > 0); } void putUnchecked(const KeyType& key, const MappedType& value) { (*self)[key] = value; } void removeUnchecked(const std::map::iterator itr) { self->erase(itr); } } }; // Legacy macros (deprecated) %define specialize_std_map_on_key(K,CHECK,CONVERT_FROM,CONVERT_TO) #warning "specialize_std_map_on_key ignored - macro is deprecated and no longer necessary" %enddef %define specialize_std_map_on_value(T,CHECK,CONVERT_FROM,CONVERT_TO) #warning "specialize_std_map_on_value ignored - macro is deprecated and no longer necessary" %enddef %define specialize_std_map_on_both(K,CHECK_K,CONVERT_K_FROM,CONVERT_K_TO, T,CHECK_T,CONVERT_T_FROM,CONVERT_T_TO) #warning "specialize_std_map_on_both ignored - macro is deprecated and no longer necessary" %enddef }