-# A HashCollection is an array of HashNode[K] indexed by the K hash value
-private class HashCollection[K: Object, N: HashNode[K], E: Object]
-special Collection[E]
-special ArrayCapable[N]
- attr _array: NativeArray[N] = null # Used to store items
- attr _capacity: Int = 0 # Size of _array
- redef readable attr _length: Int = 0 # Number of items in the map
-
- readable attr _first_item: N = null # First added item (used to visit items in nice order)
- attr _last_item: N = null # Last added item (same)
-
- # The last index accessed
- attr _last_accessed_index: Int = -1
-
- # The last key accessed
- attr _last_accessed_key: K = null
-
- # Return the index of the k element
- meth index_at(k: K): Int
- do
- var arr = _array
- assert k != null
-
- # Fisrt step: look in the last indexed elt
- if k == _last_accessed_key then return _last_accessed_index
-
- # Compute the base position of the key
- var base = k.hash % _capacity
- if base < 0 then base = - base
-
- # Look for the key in the array
- var cur = base
- while true do
- var c = arr[cur]
- if c == null or c.key == k then # REAL equals
- _last_accessed_index = cur
- _last_accessed_key = k
- return cur
- end
- cur -= 1
- if cur < 0 then cur = _capacity - 1
- assert no_loop: cur != base
- end
- abort
- end
-
- # Add a new node (should be free)
- meth store(index: Int, node: N)
- do
- # Store the item in the list
- if _first_item == null then
- _first_item = node
- else
- _last_item.next_item = node
- end
- node.prev_item = _last_item
- node.next_item = null
- _last_item = node
- # Then store it in the array
- assert _array[index] == null
- _array[index] = node
- var l = _length
- _length = l + 1
- l = (l + 5) * 150 / 100
- if l >= _capacity then
- enlarge(l * 2)
- end
- end
-
- meth remove_index(i: Int)
- do
- assert correct_index: i >= 0 and i < _capacity
- var node = _array[i]
- assert has_couple: node != null
- # Remove the item in the list
- var prev = node.prev_item
- var next = node.next_item
- if prev != null then
- prev.next_item = next
- else
- _first_item = next
- end
- if next != null then
- next.prev_item = prev
- else
- _last_item = prev
- end
- # Remove the item in the array
- _array[i] = null
- _length -= 1
- # Now replaces things before if needed
- while true do
- i -= 1
- if i < 0 then
- i = _capacity - 1
- end
- var n = _array[i]
- if n == null then
- return
- end
- var i2 = index_at(n.key)
- if i != i2 then
- _array[i] = null
- assert _array[i2] == null
- _array[i2] = n
- end
- end
- end
-
- meth raz
- do
- var i = _capacity - 1
- while i >= 0 do
- _array[i] = null
- i -= 1
- end
- _length = 0
- _first_item = null
- _last_item = null
- _last_accessed_key = null
- end
-
- meth enlarge(cap: Int)
- do
- var old_cap = _capacity
- # get a new capacity
- # cap = cap * 130 / 100 + 5 + 1000 # /
- if cap < _length + 1 then cap = _length + 1
- if cap <= _capacity then return
- _capacity = cap
- _last_accessed_key = null
-
- # get a new array
- var new_array = calloc_array(cap)
- _array = new_array
-
- # clean the new array
- var i = cap - 1
- while i >=0 do
- new_array[i] = null
- i -= 1
- end
-
- if _capacity <= old_cap then return
-
- var new_array = _array
- # Reput items in the array
- var node = _first_item
- while node != null do
- var ind = index_at(node.key)
- assert new_array[ind] == null
- new_array[ind] = node
- node = node.next_item
- end
- _last_accessed_key = null
- end
-end
-
-private class HashNode[K]
- meth key: K is abstract
- type N: HashNode[K]
- readable writable attr _next_item: N = null
- readable writable attr _prev_item: N = null
-end
-
-class HashMap[K, V]
-special CoupleMap[K, V]
-special HashCollection[K, HashMapNode[K, V], V]
-
- redef meth iterator: HashMapIterator[K, V] do return new HashMapIterator[K,V](self)
-
- redef meth first
- do
- assert _length > 0
- return _first_item.second
- end
-
- redef meth is_empty do return _length == 0
-
- redef meth count(item)
- do
- var nb = 0
- var i = 0
- while i < _capacity do
- var c = _array[i]
- if c != null and c.second == item then nb += 1
- i += 1
- end
- return nb
- end
-
- redef meth has(item)
- do
- var i = 0
- while i < _capacity do
- var c = _array[i]
- if c != null and c.second == item then return true
- i += 1
- end
- return false
- end
-
- redef meth has_only(item)
- do
- var i = 0
- while i < _capacity do
- var c = _array[i]
- if c != null and c.second != item then return false
- i += 1
- end
- return true
- end
-
- redef meth []=(key, v)
- do
- assert key != null
- var i = index_at(key)
- var c = _array[i]
- if c != null then
- c.first = key
- c.second = v
- else
- store(i, new HashMapNode[K, V](key, v))
- end
- end
-
- redef meth remove(item)
- do
- var i = 0
- while i < _capacity do
- var c = _array[i]
- if c != null and c.second == item then
- remove_index(i)
- return
- end
- i += 1
- end
- end
-
- redef meth remove_at(key) do remove_index(index_at(key))
-
- redef meth clear do raz
-
- redef meth couple_at(key) do return _array[index_at(key)]
-
- init
- do
- _capacity = 0
- _length = 0
- enlarge(0)
- end
-end
-
-class HashMapNode[K, V]
-special Couple[K, V]
-special HashNode[K]
- redef meth key do return first
- redef type N: HashMapNode[K, V]
-
- init(k: K, v: V)
- do
- first = k
- second = v
- end
-end
-
-class HashMapIterator[K, V]
-special MapIterator[K, V]
- redef meth is_ok do return _node != null
-
- redef meth item
- do
- assert is_ok
- return _node.second
- end
-
- redef meth item=(value)
- do
- assert is_ok
- _node.second = value
- end
-
- redef meth key
- do
- assert is_ok
- return _node.first
- end
-
- redef meth next
- do
- assert is_ok
- _node = _node.next_item
- end
-
- # The map to iterate on
- attr _map: HashMap[K, V]
-
- # The current node
- attr _node: HashMapNode[K, V]
-
- init(map: HashMap[K, V])
- do
- _map = map
- _node = map.first_item
- end
-end
-
-class HashSet[E]
-special Set[E]
-special HashCollection[E, HashSetNode[E], E]
-
- redef meth is_empty do return _length == 0
-
- redef meth first
- do
- assert _length > 0
- return _first_item.key
- end
-
- redef meth has(item)
- do
- return _array[index_at(item)] != null
- end
-
- redef meth add(item)
- do
- var i = index_at(item)
- var c = _array[i]
- if c != null then
- c.key = item
- else
- store(i,new HashSetNode[E](item))
- end
- end
-
- redef meth remove(item) do remove_index(index_at(item))
-
- redef meth clear do raz
-
- redef meth iterator do return new HashSetIterator[E](self)
-
- init
- do
- _capacity = 0
- _length = 0
- enlarge(0)
- end
-end
-
-class HashSetNode[E]
-special HashNode[E]
- redef type N: HashSetNode[E]
-
- redef readable writable attr _key: E
-
- init(e: E)
- do
- _key = e
- end
-end
-
-class HashSetIterator[E]
-special Iterator[E]
- redef meth is_ok do return _node != null
-
- redef meth item
- do
- assert is_ok
- return _node.key
- end
-
- redef meth next
- do
- assert is_ok
- _node = _node.next_item
- end
-
- # The set to iterate on
- attr _set: HashSet[E]
-
- # The position in the internal map storage
- attr _node: HashSetNode[E]
-
- init(set: HashSet[E])
- do
- _set = set
- _node = set.first_item
- end
-end
-