/* (c) Magnus Auvinen. See licence.txt in the root of the distribution for more information. */ /* If you are missing that file, acquire a complete release at teeworlds.com. */ #ifndef BASE_TL_ARRAY_H #define BASE_TL_ARRAY_H #include "range.h" #include "allocator.h" /* Class: array Normal dynamic array class Remarks: - Grows 50% each time it needs to fit new items - Use set_size() if you know how many elements - Use optimize() to reduce the needed space. */ template > class array : private ALLOCATOR { void init() { list = 0x0; clear(); } public: typedef plain_range range; /* Function: array constructor */ array() { init(); } /* Function: array copy constructor */ array(const array &other) { init(); set_size(other.size()); for(int i = 0; i < size(); i++) (*this)[i] = other[i]; } /* Function: array destructor */ ~array() { ALLOCATOR::free_array(list); list = 0x0; } /* Function: delete_all Remarks: - Invalidates ranges */ void delete_all() { for(int i = 0; i < size(); i++) delete list[i]; clear(); } /* Function: clear Remarks: - Invalidates ranges */ void clear() { ALLOCATOR::free_array(list); list_size = 1; list = ALLOCATOR::alloc_array(list_size); num_elements = 0; } /* Function: size */ int size() const { return num_elements; } /* Function: remove_index_fast Remarks: - Invalidates ranges */ void remove_index_fast(int index) { list[index] = list[num_elements-1]; set_size(size()-1); } /* Function: remove_fast Remarks: - Invalidates ranges */ void remove_fast(const T& item) { for(int i = 0; i < size(); i++) if(list[i] == item) { remove_index_fast(i); return; } } /* Function: remove_index Remarks: - Invalidates ranges */ void remove_index(int index) { for(int i = index+1; i < num_elements; i++) list[i-1] = list[i]; set_size(size()-1); } /* Function: remove Remarks: - Invalidates ranges */ bool remove(const T& item) { for(int i = 0; i < size(); i++) if(list[i] == item) { remove_index(i); return true; } return false; } /* Function: add Adds an item to the array. Arguments: item - Item to add. Remarks: - Invalidates ranges - See remarks about how the array grows. */ int add(const T& item) { incsize(); set_size(size()+1); list[num_elements-1] = item; return num_elements-1; } /* Function: insert Inserts an item into the array at a specified location. Arguments: item - Item to insert. r - Range where to insert the item Remarks: - Invalidates ranges - See remarks about how the array grows. */ int insert(const T& item, range r) { if(r.empty()) return add(item); int index = (int)(&r.front()-list); incsize(); set_size(size()+1); for(int i = num_elements-1; i > index; i--) list[i] = list[i-1]; list[index] = item; return num_elements-1; } /* Function: operator[] */ T& operator[] (int index) { return list[index]; } /* Function: const operator[] */ const T& operator[] (int index) const { return list[index]; } /* Function: base_ptr */ T *base_ptr() { return list; } /* Function: base_ptr */ const T *base_ptr() const { return list; } /* Function: set_size Resizes the array to the specified size. Arguments: new_size - The new size for the array. */ void set_size(int new_size) { if(list_size < new_size) alloc(new_size); num_elements = new_size; } /* Function: hint_size Allocates the number of elements wanted but does not increase the list size. Arguments: hint - Size to allocate. Remarks: - If the hint is smaller then the number of elements, nothing will be done. - Invalidates ranges */ void hint_size(int hint) { if(num_elements < hint) alloc(hint); } /* Function: optimize Removes unnessasary data, returns how many bytes was earned. Remarks: - Invalidates ranges */ int optimize() { int before = memusage(); alloc(num_elements); return before - memusage(); } /* Function: memusage Returns how much memory this dynamic array is using */ int memusage() { return sizeof(array) + sizeof(T)*list_size; } /* Function: operator=(array) Remarks: - Invalidates ranges */ array &operator = (const array &other) { set_size(other.size()); for(int i = 0; i < size(); i++) (*this)[i] = other[i]; return *this; } /* Function: all Returns a range that contains the whole array. */ range all() { return range(list, list+num_elements); } protected: void incsize() { if(num_elements == list_size) { if(list_size < 2) alloc(list_size+1); else alloc(list_size+list_size/2); } } void alloc(int new_len) { list_size = new_len; T *new_list = ALLOCATOR::alloc_array(list_size); int end = num_elements < list_size ? num_elements : list_size; for(int i = 0; i < end; i++) new_list[i] = list[i]; ALLOCATOR::free_array(list); num_elements = num_elements < list_size ? num_elements : list_size; list = new_list; } T *list; int list_size; int num_elements; }; #endif // TL_FILE_ARRAY_HPP