/* Copyright (C) 2021 Free Software Foundation, Inc.
Contributed by Oracle.
This file is part of GNU Binutils.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
/*
* Index Map2D implementation.
*
* Index Map2D is dynamic two dimensional array
*/
#ifndef _DBE_INDEXMAP2D_H
#define _DBE_INDEXMAP2D_H
#include <assert.h>
#include <vec.h>
#include <Map2D.h>
template <typename Key1_t, typename Key2_t, typename Value_t>
class IndexMap2D : public Map2D<Key1_t, Key2_t, Value_t>
{
public:
IndexMap2D ();
~IndexMap2D ();
void put (Key1_t key1, Key2_t key2, Value_t val);
Value_t get (Key1_t key1, Key2_t key2);
Value_t get (Key1_t key1, Key2_t key2,
typename Map2D<Key1_t, Key2_t, Value_t>::Relation rel);
Value_t remove (Key1_t key1, Key2_t key2);
private:
Vector<Vector<Value_t>*> *map1;
};
template <typename Key1_t, typename Key2_t, typename Value_t>
IndexMap2D<Key1_t, Key2_t, Value_t>::IndexMap2D ()
{
map1 = new Vector<Vector<Value_t>*>;
}
template <typename Key1_t, typename Key2_t, typename Value_t>
IndexMap2D<Key1_t, Key2_t, Value_t>::~IndexMap2D ()
{
map1->destroy ();
delete map1;
}
template <typename Key1_t, typename Key2_t, typename Value_t>
void
IndexMap2D<Key1_t, Key2_t, Value_t>::put (Key1_t key1, Key2_t key2, Value_t val)
{
if (key1 < 0 || key2 < 0)
return;
Vector<Value_t> *map2 = NULL;
if (key1 < map1->size ())
map2 = map1->fetch ((int) key1);
if (map2 == NULL)
{
map2 = new Vector<Value_t>;
map1->store ((int) key1, map2);
}
map2->store ((int) key2, val);
}
template <typename Key1_t, typename Key2_t, typename Value_t>
Value_t
IndexMap2D<Key1_t, Key2_t, Value_t>::get (Key1_t key1, Key2_t key2)
{
if (key1 < 0 || key1 >= map1->size () || key2 < 0)
return (Value_t) 0;
Vector<Value_t> *map2 = map1->fetch ((int) key1);
if (map2 == NULL || key2 >= map2->size ())
return (Value_t) 0;
return map2->fetch ((int) key2);
}
template <typename Key1_t, typename Key2_t, typename Value_t>
Value_t
IndexMap2D<Key1_t, Key2_t, Value_t>::get (Key1_t key1, Key2_t key2,
typename Map2D<Key1_t, Key2_t, Value_t>::Relation rel)
{
if (rel != Map2D<Key1_t, Key2_t, Value_t>::REL_EQEQ)
return (Value_t) 0;
return get (key1, key2);
}
template <typename Key1_t, typename Key2_t, typename Value_t>
Value_t
IndexMap2D<Key1_t, Key2_t, Value_t>::remove (Key1_t key1, Key2_t key2)
{
if (key1 < 0 || key1 >= map1->size () || key2 < 0)
return (Value_t) 0;
Vector<Value_t> *map2 = map1->fetch ((int) key1);
if (map2 == NULL || key2 >= map2->size ())
return (Value_t) 0;
Value_t res = map2->fetch ((int) key2);
map2->store ((int) key2, (Value_t) 0);
return res;
}
#endif