/* ----------------------------------------------------------------------------- * _std_deque.i * * This file contains a generic definition of std::deque along with * some helper functions. Specific language modules should include * this file to generate wrappers. * ----------------------------------------------------------------------------- */ %include <std_except.i> %{ #include <deque> #include <stdexcept> %} /* This macro defines all of the standard methods for a deque. This is defined as a macro to simplify the task of specialization. For example, template<> class deque<int> { public: %std_deque_methods(int); }; */ %define %std_deque_methods_noempty(T) typedef size_t size_type; typedef ptrdiff_t difference_type; typedef T value_type; typedef value_type* pointer; typedef const value_type* const_pointer; typedef value_type& reference; typedef const value_type& const_reference; deque(); deque(unsigned int size, const T& value=T()); deque(const deque<T> &); ~deque(); void assign(unsigned int n, const T& value); void swap(deque<T> &x); unsigned int size() const; unsigned int max_size() const; void resize(unsigned int n, T c = T()); const_reference front(); const_reference back(); void push_front(const T& x); void push_back(const T& x); void pop_front(); void pop_back(); void clear(); /* Some useful extensions */ %extend { const_reference getitem(int i) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i += size; if (i>=0 && i<size) return (*self)[i]; else throw std::out_of_range("deque index out of range"); } void setitem(int i, const T& x) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i+= size; if (i>=0 && i<size) (*self)[i] = x; else throw std::out_of_range("deque index out of range"); } void delitem(int i) throw (std::out_of_range) { int size = int(self->size()); if (i<0) i+= size; if (i>=0 && i<size) { self->erase(self->begin()+i); } else { throw std::out_of_range("deque index out of range"); } } std::deque<T> getslice(int i, int j) { int size = int(self->size()); if (i<0) i = size+i; if (j<0) j = size+j; if (i<0) i = 0; if (j>size) j = size; std::deque<T > tmp(j-i); std::copy(self->begin()+i,self->begin()+j,tmp.begin()); return tmp; } void setslice(int i, int j, const std::deque<T>& v) { int size = int(self->size()); if (i<0) i = size+i; if (j<0) j = size+j; if (i<0) i = 0; if (j>size) j = size; if (int(v.size()) == j-i) { std::copy(v.begin(),v.end(),self->begin()+i); } else { self->erase(self->begin()+i,self->begin()+j); if (i+1 <= size) self->insert(self->begin()+i+1,v.begin(),v.end()); else self->insert(self->end(),v.begin(),v.end()); } } void delslice(int i, int j) { int size = int(self->size()); if (i<0) i = size+i; if (j<0) j = size+j; if (i<0) i = 0; if (j>size) j = size; self->erase(self->begin()+i,self->begin()+j); } }; %enddef #ifdef SWIGPHP %define %std_deque_methods(T) %extend { bool is_empty() const { return self->empty(); } }; %std_deque_methods_noempty(T) %enddef #else %define %std_deque_methods(T) bool empty() const; %std_deque_methods_noempty(T) %enddef #endif namespace std { template<class T> class deque { public: %std_deque_methods(T); }; }