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DictBase.mqh
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DictBase.mqh
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//+------------------------------------------------------------------+
//| EA31337 framework |
//| Copyright 2016-2023, EA31337 Ltd |
//| https://github.com/EA31337 |
//+------------------------------------------------------------------+
/*
* This file 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 of the License, 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, see <http://www.gnu.org/licenses/>.
*
*/
// Prevents processing this includes file for the second time.
#ifndef DICT_BASE_MQH
#define DICT_BASE_MQH
// Includes.
#include "Convert.mqh"
#include "Dict.enum.h"
#include "DictIteratorBase.mqh"
#include "DictSlot.mqh"
#include "Serializer.mqh"
/**
* Dictionary overflow listener. arguments are:
* - ENUM_DICT_OVERFLOW_REASON overflow_reason
* - int current_dict_size
* - int number_of_conflicts
*/
typedef bool (*DictOverflowListener)(ENUM_DICT_OVERFLOW_REASON, int, int);
/**
* Hash-table based dictionary.
*/
template <typename K, typename V>
class DictBase {
protected:
int _hash;
// Incremental id used by Push() method.
unsigned int _current_id;
// Whether Dict operates in yet uknown mode, as dict or as list.
DictMode _mode;
// Dictionary flags.
int _flags;
public:
DictBase() {
_hash = rand();
_current_id = 0;
_mode = DictModeUnknown;
_flags = 0;
}
/**
* Destructor.
*/
~DictBase() {}
DictIteratorBase<K, V> Begin() {
// Searching for first item index.
for (unsigned int i = 0; i < (unsigned int)ArraySize(_DictSlots_ref.DictSlots); ++i) {
if (_DictSlots_ref.DictSlots[i].IsValid() && _DictSlots_ref.DictSlots[i].IsUsed()) {
DictIteratorBase<K, V> iter(this, i);
return iter;
}
}
// No items found.
DictIteratorBase<K, V> invalid;
return invalid;
}
const unsigned int GetSlotCount() const { return ArraySize(_DictSlots_ref.DictSlots); }
/**
* Adds flags to dict.
*/
void AddFlags(int flags) { _flags |= flags; }
/**
* Checks whether dict have all given flags.
*/
bool HasFlags(int flags) { return (_flags & flags) == flags; }
DictSlot<K, V>* GetSlot(const unsigned int index) {
if (index >= GetSlotCount()) {
// Index of out bounds.
return NULL;
}
return &_DictSlots_ref.DictSlots[index];
}
/**
* Returns slot by key.
*/
DictSlot<K, V>* GetSlotByKey(DictSlotsRef<K, V>& dictSlotsRef, const K _key, unsigned int& position) {
unsigned int numSlots = ArraySize(dictSlotsRef.DictSlots);
if (numSlots == 0) return NULL;
position = Hash(_key) % numSlots;
unsigned int tries_left = numSlots;
while (tries_left-- > 0) {
if (dictSlotsRef.DictSlots[position].WasUsed() == false) {
// We stop searching now.
return NULL;
}
if (dictSlotsRef.DictSlots[position].IsUsed() && dictSlotsRef.DictSlots[position].HasKey() &&
dictSlotsRef.DictSlots[position].key == _key) {
// _key matches, returing value from the DictSlot.
return &dictSlotsRef.DictSlots[position];
}
// Position may overflow, so we will start from the beginning.
position = (position + 1) % ArraySize(dictSlotsRef.DictSlots);
}
return NULL;
}
/**
* Returns slot by position.
*/
DictSlot<K, V>* GetSlotByPos(DictSlotsRef<K, V>& dictSlotsRef, const unsigned int position) {
return dictSlotsRef.DictSlots[position].IsUsed() ? &dictSlotsRef.DictSlots[position] : NULL;
}
/**
* Returns hash currently used by Dict. It is used to invalidate iterators after Resize().
*/
int GetHash() { return _hash; }
int GetMode() { return _mode; }
/**
* Removes value from the dictionary by the given iterator. Could be used to remove value on Dict with
* DICT_FLAG_FILL_HOLES_UNSORTED flag.
*/
void Unset(DictIteratorBase<K, V>& iter) {
InternalUnset(iter.Key());
if (HasFlags(DICT_FLAG_FILL_HOLES_UNSORTED)) {
// After incrementing, iterator will use moved slot.
iter.ShiftPosition(-1, true);
}
}
/**
* Removes value from the dictionary by the given key (if exists).
*/
void Unset(const K key) {
if (HasFlags(DICT_FLAG_FILL_HOLES_UNSORTED)) {
Print(
"Unset on Dict with DICT_FLAG_FILL_HOLES_UNSORTED flag must be called by passing the iterator, instead of "
"the key. Thus way iterator will continue with proper value after incrementation.");
DebugBreak();
return;
}
InternalUnset(key);
}
/**
* Removes value from the dictionary by the given key (if exists).
*/
void InternalUnset(const K key) {
if (ArraySize(_DictSlots_ref.DictSlots) == 0) {
// Nothing to unset.
return;
}
unsigned int position;
if (GetMode() == DictModeList) {
// In list mode value index is the slot index.
position = (int)key;
} else {
position = Hash(key) % ArraySize(_DictSlots_ref.DictSlots);
}
unsigned int tries_left = ArraySize(_DictSlots_ref.DictSlots);
while (tries_left-- > 0) {
if (_DictSlots_ref.DictSlots[position].WasUsed() == false) {
// We stop searching now.
return;
}
bool _should_be_removed = false;
if (_DictSlots_ref.DictSlots[position].IsUsed()) {
if (GetMode() == DictModeList) {
_should_be_removed = position == (unsigned int)key;
} else {
_should_be_removed =
_DictSlots_ref.DictSlots[position].HasKey() && _DictSlots_ref.DictSlots[position].key == key;
}
}
if (_should_be_removed) {
// Key/index perfectly matches, it indicates key/index exists in the dictionary.
_DictSlots_ref.DictSlots[position].RemoveFlags(DICT_SLOT_IS_USED);
if (GetMode() == DictModeDict) {
// In List mode we don't decrement number of used elements.
--_DictSlots_ref._num_used;
} else if (HasFlags(DICT_FLAG_FILL_HOLES_UNSORTED)) {
// This is List mode and we need to fill this hole.
FillHoleUnsorted(position);
}
return;
} else if (GetMode() == DictModeList) {
Print("Internal error. Slot should have been removed!");
DebugBreak();
return;
}
// Position may overflow, so we will start from the beginning.
position = (position + 1) % ArraySize(_DictSlots_ref.DictSlots);
}
// No key found.
}
/**
* Checks whether overflow listener allows dict to grow up.
*/
bool IsGrowUpAllowed() {
if (overflow_listener == NULL) {
return true;
}
// Checking if overflow listener allows resize from current to higher number of slots.
return overflow_listener(DICT_OVERFLOW_REASON_FULL, Size(), 0);
}
/**
* Moves last slot to given one to fill the hole after removing the value.
*/
void FillHoleUnsorted(int _hole_slot_idx) {
// After moving last element to fill the hole we
if ((unsigned int)_hole_slot_idx == Size() - 1) {
// We've just removed last element, thus don't need to do anything.
} else {
// Moving last slot into given one.
_DictSlots_ref.DictSlots[_hole_slot_idx] = _DictSlots_ref.DictSlots[Size() - 1];
// Marking last slot as unused.
_DictSlots_ref.DictSlots[Size() - 1].RemoveFlags(DICT_SLOT_IS_USED);
}
// One element less in the List-based Dict.
--_DictSlots_ref._num_used;
}
/**
* Returns number of used DictSlots.
*/
const unsigned int Size() { return _DictSlots_ref._num_used; }
/**
* Returns number of all (reserved) DictSlots.
*/
const unsigned int ReservedSize() { return ArraySize(_DictSlots_ref.DictSlots); }
/**
* Checks whether given key exists in the dictionary.
*/
bool KeyExists(const K key, unsigned int& position) {
int numSlots = ArraySize(_DictSlots_ref.DictSlots);
if (numSlots == 0) return false;
position = Hash(key) % numSlots;
unsigned int tries_left = numSlots;
while (tries_left-- > 0) {
if (_DictSlots_ref.DictSlots[position].WasUsed() == false) {
// We stop searching now.
return false;
}
if (_DictSlots_ref.DictSlots[position].IsUsed() && _DictSlots_ref.DictSlots[position].HasKey() &&
_DictSlots_ref.DictSlots[position].key == key) {
// Key perfectly matches, it indicates key exists in the dictionary.
return true;
}
// Position may overflow, so we will start from the beginning.
position = (position + 1) % numSlots;
}
// No key found.
return false;
}
bool KeyExists(const K key) {
unsigned int position;
return KeyExists(key, position);
}
/**
* Sets dictionary overflow listener and, optionally, maximum number of conflicts which will cause overflow and
* eventually a slot reuse.
*/
void SetOverflowListener(DictOverflowListener _listener, int _num_max_conflicts = -1) {
overflow_listener = _listener;
if (_num_max_conflicts != -1) {
SetMaxConflicts(_num_max_conflicts);
}
}
/**
* Sets maximum number of conflicts which will cause overflow and a slot reuse if no overflow listener was set.
*/
void SetMaxConflicts(int _num_max_conflicts = 0) { overflow_listener_max_conflicts = _num_max_conflicts; }
protected:
/**
* Array of DictSlots.
*/
DictSlotsRef<K, V> _DictSlots_ref;
DictOverflowListener overflow_listener;
unsigned int overflow_listener_max_conflicts;
/* Hash methods */
/**
* Specialization of hashing function.
*/
template <typename X>
unsigned int Hash(X x) {
return (int)x;
}
/**
* Specialization of hashing function.
*/
unsigned int Hash(datetime x) { return (int)x; }
/**
* Specialization of hashing function.
*/
unsigned int Hash(const string& x) {
ARRAY(unsigned char, c);
unsigned int h = 0;
if (!IsNull(x)) {
h = 5381;
int n = StringToCharArray(x, c);
for (int i = 0; i < n; i++) {
h = ((h << 5) + h) + c[i];
}
}
return h;
}
/**
* Specialization of hashing function.
*/
unsigned int Hash(unsigned int x) { return x; }
/**
* Specialization of hashing function.
*/
unsigned int Hash(int x) { return (unsigned int)x; }
/**
* Specialization of hashing function.
*/
unsigned int Hash(float x) { return (unsigned int)((unsigned long)x * 10000 % 10000); }
};
#endif