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Bar.struct.h
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Bar.struct.h
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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/>.
*
*/
/**
* @file
* Includes Bar's structs.
*/
#ifndef __MQL__
// Allows the preprocessor to include a header file when it is needed.
#pragma once
#endif
// Forward class declaration.
class Serializer;
// Includes.
#include "Bar.enum.h"
#include "Chart.enum.h"
#include "ISerializable.h"
#include "Serializer.enum.h"
#include "SerializerNode.enum.h"
#include "Std.h"
/* Struct for storing OHLC values. */
struct BarOHLC
#ifndef __MQL__
: public ISerializable
#endif
{
datetime time;
float open, high, low, close;
// Struct constructor.
BarOHLC() : open(0), high(0), low(0), close(0), time(0){};
BarOHLC(float _open, float _high, float _low, float _close, datetime _time = 0)
: time(_time), open(_open), high(_high), low(_low), close(_close) {
if (_time == 0) {
_time = TimeCurrent();
}
}
BarOHLC(ARRAY_REF(float, _prices), datetime _time = 0) : time(_time) {
_time = _time == 0 ? TimeCurrent() : _time;
int _size = ArraySize(_prices);
close = _prices[0];
open = _prices[_size - 1];
high = fmax(close, open);
low = fmin(close, open);
for (int i = 0; i < _size; i++) {
high = fmax(high, _prices[i]);
low = fmin(low, _prices[i]);
}
}
// Struct methods.
// Getters
bool GetPivots(ENUM_PP_TYPE _type, float &_pp, float &_r1, float &_r2, float &_r3, float &_r4, float &_s1, float &_s2,
float &_s3, float &_s4) {
float _range = GetRange();
switch (_type) {
case PP_CAMARILLA:
// A set of eight very probable levels which resemble support and resistance values for a current trend.
_pp = GetPivot();
_r1 = (float)(close + _range * 1.1 / 12);
_r2 = (float)(close + _range * 1.1 / 6);
_r3 = (float)(close + _range * 1.1 / 4);
_r4 = (float)(close + _range * 1.1 / 2);
_s1 = (float)(close - _range * 1.1 / 12);
_s2 = (float)(close - _range * 1.1 / 6);
_s3 = (float)(close - _range * 1.1 / 4);
_s4 = (float)(close - _range * 1.1 / 2);
break;
case PP_CLASSIC:
_pp = GetPivot();
_r1 = (2 * _pp) - low; // R1 = (H - L) * 1.1 / 12 + C (1.0833)
_r2 = _pp + _range; // R2 = (H - L) * 1.1 / 6 + C (1.1666)
_r3 = _pp + _range * 2; // R3 = (H - L) * 1.1 / 4 + C (1.25)
_r4 = _pp + _range * 3; // R4 = (H - L) * 1.1 / 2 + C (1.5)
_s1 = (2 * _pp) - high; // S1 = C - (H - L) * 1.1 / 12 (1.0833)
_s2 = _pp - _range; // S2 = C - (H - L) * 1.1 / 6 (1.1666)
_s3 = _pp - _range * 2; // S3 = C - (H - L) * 1.1 / 4 (1.25)
_s4 = _pp - _range * 3; // S4 = C - (H - L) * 1.1 / 2 (1.5)
break;
case PP_FIBONACCI:
_pp = GetPivot();
_r1 = (float)(_pp + 0.382 * _range);
_r2 = (float)(_pp + 0.618 * _range);
_r3 = _pp + _range;
_r4 = _r1 + _range; // ?
_s1 = (float)(_pp - 0.382 * _range);
_s2 = (float)(_pp - 0.618 * _range);
_s3 = _pp - _range;
_s4 = _s1 - _range; // ?
break;
case PP_FLOOR:
// Most basic and popular type of pivots used in Forex trading technical analysis.
_pp = GetPivot(); // Pivot (P) = (H + L + C) / 3
_r1 = (2 * _pp) - low; // Resistance (R1) = (2 * P) - L
_r2 = _pp + _range; // R2 = P + H - L
_r3 = high + 2 * (_pp - low); // R3 = H + 2 * (P - L)
_r4 = _r3;
_s1 = (2 * _pp) - high; // Support (S1) = (2 * P) - H
_s2 = _pp - _range; // S2 = P - H + L
_s3 = low - 2 * (high - _pp); // S3 = L - 2 * (H - P)
_s4 = _s3; // ?
break;
case PP_TOM_DEMARK:
// Tom DeMark's pivot point (predicted lows and highs of the period).
_pp = GetPivotDeMark();
_r1 = (2 * _pp) - low; // New High = X / 2 - L.
_r2 = _pp + _range;
_r3 = _r1 + _range;
_r4 = _r2 + _range; // ?
_s1 = (2 * _pp) - high; // New Low = X / 2 - H.
_s2 = _pp - _range;
_s3 = _s1 - _range;
_s4 = _s2 - _range; // ?
break;
case PP_WOODIE:
// Woodie's pivot point are giving more weight to the Close price of the previous period.
// They are similar to floor pivot points, but are calculated in a somewhat different way.
_pp = GetWeighted(); // Pivot (P) = (H + L + 2 * C) / 4
_r1 = (2 * _pp) - low; // Resistance (R1) = (2 * P) - L
_r2 = _pp + _range; // R2 = P + H - L
_r3 = _r1 + _range;
_r4 = _r2 + _range; // ?
_s1 = (2 * _pp) - high; // Support (S1) = (2 * P) - H
_s2 = _pp - _range; // S2 = P - H + L
_s3 = _s1 - _range;
_s4 = _s2 - _range; // ?
break;
default:
break;
}
return _r4 > _r3 && _r3 > _r2 && _r2 > _r1 && _r1 > _pp && _pp > _s1 && _s1 > _s2 && _s2 > _s3 && _s3 > _s4;
}
datetime GetTime() { return time; }
float GetAppliedPrice(ENUM_APPLIED_PRICE _ap) const { return BarOHLC::GetAppliedPrice(_ap, open, high, low, close); }
float GetBody() const { return close - open; }
float GetBodyAbs() const { return fabs(close - open); }
float GetBodyInPct(int _hundreds = 100) const { return GetRange() > 0 ? _hundreds / GetRange() * GetBodyAbs() : 0; }
float GetChangeInPct(int _hundreds = 100) const { return (close - open) / open * _hundreds; }
float GetClose() const { return close; }
float GetHigh() const { return high; }
float GetLow() const { return low; }
float GetMaxOC() const { return fmax(open, close); }
float GetMedian() const { return (high + low) / 2; }
float GetMinOC() const { return fmin(open, close); }
float GetOpen() const { return open; }
float GetPivot() const { return GetTypical(); }
float GetPivotDeMark() const {
// If Close < Open Then X = H + 2 * L + C
// If Close > Open Then X = 2 * H + L + C
// If Close = Open Then X = H + L + 2 * C
float _pp = open > close ? (high + (2 * low) + close) / 4 : ((2 * high) + low + close) / 4;
return open == close ? (high + low + (2 * close)) / 4 : _pp;
}
float GetPivotWithOpen() const { return (open + high + low + close) / 4; }
float GetPivotWithOpen(float _open) const { return (_open + high + low + close) / 4; }
float GetRange() const { return high - low; }
float GetRangeChangeInPct(int _hundreds = 100) const {
return _hundreds - (_hundreds / open * fabs(open - GetRange()));
}
float GetRangeInPips(float _ppp) const { return GetRange() / _ppp; }
float GetTypical() const { return (high + low + close) / 3; }
float GetWeighted() const { return (high + low + close + close) / 4; }
float GetWickMin() const { return fmin(GetWickLower(), GetWickUpper()); }
float GetWickLower() const { return GetMinOC() - low; }
float GetWickLowerInPct() const { return GetRange() > 0 ? 100 / GetRange() * GetWickLower() : 0; }
float GetWickMax() const { return fmax(GetWickLower(), GetWickUpper()); }
float GetWickSum() const { return GetWickLower() + GetWickUpper(); }
float GetWickUpper() const { return high - GetMaxOC(); }
float GetWickUpperInPct() const { return GetRange() > 0 ? 100 / GetRange() * GetWickUpper() : 0; }
short GetType() const { return IsBull() ? 1 : (IsBear() ? -1 : 0); }
void GetValues(ARRAY_REF(float, _out)) {
ArrayResize(_out, 4);
int _index = ArraySize(_out) - 4;
_out[_index++] = open;
_out[_index++] = high;
_out[_index++] = low;
_out[_index++] = close;
}
template <typename T>
static T GetAppliedPrice(ENUM_APPLIED_PRICE _ap, T _o, T _h, T _l, T _c) {
switch (_ap) {
case PRICE_CLOSE:
return _c;
case PRICE_OPEN:
return _o;
case PRICE_HIGH:
return _h;
case PRICE_LOW:
return _l;
case PRICE_MEDIAN:
return (_h + _l) / 2;
case PRICE_TYPICAL:
return (_h + _l + _c) / 3;
case PRICE_WEIGHTED:
return (_h + _l + _c + _c) / 4;
default:
return _o;
}
}
// State checkers.
bool IsBear() const { return open > close; }
bool IsBull() const { return open < close; }
bool IsValid() const { return high >= low && fmin(open, close) > 0; }
// Serializers.
SerializerNodeType Serialize(Serializer &s);
// Converters.
string ToCSV() { return StringFormat("%d,%g,%g,%g,%g", time, open, high, low, close); }
};
#include "Serializer.mqh"
/* Method to serialize BarOHLC structure. */
SerializerNodeType BarOHLC::Serialize(Serializer &s) {
// s.Pass(THIS_REF, "time", TimeToString(time));
s.Pass(THIS_REF, "open", open, SERIALIZER_FIELD_FLAG_DYNAMIC);
s.Pass(THIS_REF, "high", high, SERIALIZER_FIELD_FLAG_DYNAMIC);
s.Pass(THIS_REF, "low", low, SERIALIZER_FIELD_FLAG_DYNAMIC);
s.Pass(THIS_REF, "close", close, SERIALIZER_FIELD_FLAG_DYNAMIC);
return SerializerNodeObject;
}
/* Defines struct to store bar entries. */
struct BarEntry {
BarOHLC ohlc;
BarEntry() {}
BarEntry(const BarOHLC &_ohlc) { ohlc = _ohlc; }
// Struct getters
BarOHLC GetOHLC() const { return ohlc; }
// Serializers.
void SerializeStub(int _n1 = 1, int _n2 = 1, int _n3 = 1, int _n4 = 1, int _n5 = 1) {}
SerializerNodeType Serialize(Serializer &s) {
s.PassStruct(THIS_REF, "ohlc", ohlc, SERIALIZER_FIELD_FLAG_DYNAMIC);
return SerializerNodeObject;
}
string ToCSV() { return StringFormat("%s", ohlc.ToCSV()); }
};