template class mrpt::containers::map_as_vector¶
A STL-like container which looks and behaves (almost exactly) like a std::map<> but is implemented as a linear std::vector<> indexed by KEY.
Note that KEY must be integer types only (size_t, uint32_t, etc.) This implementation is much more efficient than std::map<> when the most common operation is accessing elements by KEY with find() or [], and the range of KEY values starts at 0 (or a reasonable low number).
This container is internally implemented as a linear array (std::vector) of the same fundamental type than the equivalent std::map<K,V>, that is, elements are std::pair<K,V>
(note that K is NOT const as in std::map). I know, I know… this implementation wastes a lot of useless key elements in the pair.first when indices are already implicit in the std::vector<> order… but I promise I’ll pay a beer to whoever show me an efficient alternative. If failed, update this comment: COUNTER OF WASTED HOURS WITH THIS: 3h
Note that there is one fundamental difference wrt std::map<>: if you start with an empty map_as_vector<> and insert one element at the i’th position (with either [] or insert), the elements [0,i-1] will also exist then, but both their first & second entries (for the corresponding std::pair) will be undefined. This was intentional in order to gain efficiency (in particular, each std::pair<> doesn’t have a constructor when resizing the underlying std::vector).
The default underlying non-associative container is a “memory-aligned std::vector<>”, but it can be changed to a standard vector<> or to a deque<> (to avoid memory reallocations) by changing the template parameter VECTOR_T.
Defined in #include <mrpt/containers/map_as_vector.h
>
#include <mrpt/containers/map_as_vector.h> template < typename KEY, typename VALUE, typename VECTOR_T = typename std::vector<std::pair<KEY, VALUE>> > class map_as_vector { public: // typedefs typedef KEY key_type; typedef std::pair<KEY, VALUE> value_type; typedef VECTOR_T vec_t; typedef typename vec_t::size_type size_type; typedef typename vec_t::iterator iterator; typedef typename vec_t::const_iterator const_iterator; typedef std::reverse_iterator<iterator> reverse_iterator; typedef std::reverse_iterator<const_iterator> const_reverse_iterator; // methods iterator begin(); iterator end(); const_iterator begin() const; const_iterator end() const; reverse_iterator rbegin(); const_reverse_iterator rbegin() const; reverse_iterator rend(); const_reverse_iterator rend() const; size_t size() const; bool empty() const; size_type count(const key_type i) const; size_type max_size() const; const vec_t& getVector() const; void clear(); void swap(map_as_vector<KEY, VALUE>& o); VALUE& operator [] (const size_t i); const VALUE& at(const size_t i) const; VALUE& at(const size_t i); void insert(const iterator& guess_point, const value_type& keyvalpair); void insert(const value_type& keyvalpair); iterator find(const size_t i); const_iterator find(const size_t i) const; };
Methods¶
size_t size() const
Copy constructor & operator= -> default.
size_type count(const key_type i) const
Count how many entries have a given key value - unlike std::map<K,V>, recall that this class will say an element i<N-1 exists just due to an insertion of element at N.
size_type max_size() const
Maximum size due to system limits.
const vec_t& getVector() const
Return a read-only reference to the internal vector.
void clear()
Clear the contents of this container.
void swap(map_as_vector<KEY, VALUE>& o)
Efficient swap with another object.
VALUE& operator [] (const size_t i)
Write/read via [i] operator, that creates all elements up to (and including) the i’th if they didn’t exist already.
const VALUE& at(const size_t i) const
Read-only operator, throws exception if the given key index does not exist.
VALUE& at(const size_t i)
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
void insert(const iterator& guess_point, const value_type& keyvalpair)
Insert pair<key,val>, as in std::map (guess_point is actually ignored in this class)
void insert(const value_type& keyvalpair)
Insert pair<key,val>, as in std::map.
iterator find(const size_t i)
Constant-time find, returning an iterator to the <key,val> pair or to end() if not found (that is, if it’s above the maximum index in the vector)
const_iterator find(const size_t i) const
Constant-time find, returning an iterator to the <key,val> pair or to end() if not found (that is, if it’s above the maximum index in the vector)