panthema / 2006 / SDIOS06 / sdios06 / include / libstdc++ / vector (Download File)
#ifndef VECTOR_
#define VECTOR_

#include <assert.h>
#include <stdlib.h>

#include "new"
#include "helpers/iterator.h"

namespace std {

	/* 
	 * Minimal and incomplete version of STL vector class
	 * Note that the current implementation never shrinks the memory allocation
	 */
	template<typename T>
	class vector
	{
	public:
		typedef size_t size_type;
		typedef private_stuff::iterator_base<T> iterator;
		typedef private_stuff::iterator_base<const T> const_iterator;
		typedef private_stuff::reverse_iterator_base<T> reverse_iterator;
		typedef private_stuff::reverse_iterator_base<const T> const_reverse_iterator;
		
		vector()
		{
			begin_ptr = NULL,
			end_ptr = NULL;
			end_of_storage_ptr = NULL;
		}
		
		vector(const vector& other)
		{
			begin_ptr = NULL;
			end_ptr = NULL;
			end_of_storage_ptr = NULL;

			// crude...
			for(const_iterator i = other.begin(); i != other.end(); ++i)
				push_back(*i);
		}
		
		~vector()
		{
			clear();
			free(begin_ptr);
		}
		
		void push_back(const T& val)
		{
			if(end_ptr == end_of_storage_ptr) {
				size_t current_size = size();
				size_t new_storage_size = current_size > 0 ? current_size * 2 + 1 : 4;
				
				begin_ptr = reinterpret_cast<T*> (realloc(begin_ptr, new_storage_size * sizeof(T)));
				end_ptr = begin_ptr + current_size;
				end_of_storage_ptr = begin_ptr + new_storage_size;
			}
			
			// placement new to construct object
			new(end_ptr) T(val);
			end_ptr++;
		}
		
		iterator erase(iterator pos)
		{	
			assert(!empty());
			
			// destruct object
			pos.p->~T();
			
			size_t move_count = end() - pos;
			assert(move_count <= size());
			memmove(pos.p, pos.p + 1, (move_count - 1) * sizeof(T));
			end_ptr--;
			
			// TODO shrink allocation
			
			return pos;
		}
		
		void pop_back()
		{
			assert(size() > 0);
			--end_ptr;
			// destruct object
			end_ptr->~T();
		}
		
		void clear()
		{
			for(T* p = begin_ptr; p != end_ptr; ++p) {
				p->~T();	
			}
			end_ptr = begin_ptr;
		}

		void resize(size_type newsize, const T& val = T())
		{
			if(newsize < size()) {
				for(T* i = begin_ptr + newsize; i < end_ptr; ++i) {
					i->~T();
				}
				end_ptr = begin_ptr + newsize;
			} else if(newsize > size()) {
				for(size_t t = newsize - size(); t > 0; --t) {
					push_back(val);
				}
			}
		}
		
		T& back()
		{
			return *(end_ptr - 1);
		}
		
		const T& back() const
		{
			return *(end_ptr - 1);
		}
		
		T& front()
		{
			return *begin_ptr;
		}
		
		const T& front() const
		{
			return *begin_ptr;
		}
		
		size_type size() const
		{
			return size_type(end_ptr - begin_ptr);	
		}
		
		size_type capacity() const
		{
			return end_of_storage_ptr - begin_ptr;
		}
		
		bool empty() const
		{
			return begin_ptr == end_ptr;
		}
		
		T& operator[] (size_type idx)
		{
			T* p = begin_ptr + idx;
			assert(p < end_ptr);
			return *p;	
		}
		
		const T& operator[] (size_type idx) const
		{
			T* p = begin_ptr + idx;
			assert(p < end_ptr);
			return *p;	
		}			
		
		iterator begin()
		{
			return iterator(begin_ptr);
		}
		
		const_iterator begin() const
		{
			return const_iterator(begin_ptr);
		}
		
		iterator end()
		{
			return iterator(end_ptr);
		}
		
		const_iterator end() const
		{
			return const_iterator(end_ptr);
		}
		
		reverse_iterator rbegin()
		{
			return reverse_iterator(end_ptr-1);
		}
		
		reverse_iterator rend()
		{
			return reverse_iterator(begin_ptr-1);
		}
		
		const reverse_iterator rbegin() const
		{
			return const_reverse_iterator(end_ptr-1);
		}
		
		const_reverse_iterator rend() const
		{
			return const_reverse_iterator(begin_ptr-1);
		}		
		
	private:
		// copy constructor not supported yet
		void operator=(const vector& other);
	
		T* begin_ptr;
		T* end_ptr;
		T* end_of_storage_ptr;		
	};
}

#endif 
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