Yfgggd by md.safari.ci55
836 downloads / 1209 views / Created: 16.01.2024 Average Rating: 0
Indicator Description
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//==============================================================
// Forex Strategy Builder
// Copyright © Miroslav Popov. All rights reserved.
//==============================================================
// THIS CODE IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND,
// EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE.
//==============================================================
using System;
using System.Drawing;
using ForexStrategyBuilder.Infrastructure.Entities;
using ForexStrategyBuilder.Infrastructure.Enums;
using ForexStrategyBuilder.Infrastructure.Interfaces;
namespace ForexStrategyBuilder.Indicators.Store
{
public class RSquared : Indicator
{
public RSquared()
{
// General properties
IndicatorName = "RSquared";
PossibleSlots = SlotTypes.OpenFilter | SlotTypes.CloseFilter;
SeparatedChart = true;
IndicatorAuthor = "Denny Imanuel";
IndicatorVersion = "2.1";
IndicatorDescription = "A custom indicator for FSB and FST.";
}
public override void Initialize(SlotTypes slotType)
{
SlotType = slotType;
IndParam.IndicatorType = TypeOfIndicator.Additional;
// The ComboBox parameters
IndParam.ListParam[0].Caption = "Logic";
IndParam.ListParam[0].ItemList = new string[]
{
"The R-Squared rises",
"The R-Squared falls",
"The R-Squared is higher than the Level line",
"The R-Squared is lower than the Level line",
"The R-Squared crosses the Level line upward",
"The R-Squared crosses the Level line downward",
"The R-Squared changes its direction upward",
"The R-Squared changes its direction downward"
};
IndParam.ListParam[0].Index = 0;
IndParam.ListParam[0].Text = IndParam.ListParam[0].ItemList[IndParam.ListParam[0].Index];
IndParam.ListParam[0].Enabled = true;
IndParam.ListParam[0].ToolTip = "Logic of application of the indicator.";
IndParam.ListParam[1].Caption = "Smoothing method";
IndParam.ListParam[1].ItemList = Enum.GetNames(typeof(MAMethod));
IndParam.ListParam[1].Index = (int)MAMethod.Simple;
IndParam.ListParam[1].Text = IndParam.ListParam[1].ItemList[IndParam.ListParam[1].Index];
IndParam.ListParam[1].Enabled = true;
IndParam.ListParam[1].ToolTip = "The method of Moving Average used for the calculations.";
IndParam.ListParam[2].Caption = "Base price";
IndParam.ListParam[2].ItemList = Enum.GetNames(typeof(BasePrice));
IndParam.ListParam[2].Index = (int)BasePrice.Close;
IndParam.ListParam[2].Text = IndParam.ListParam[2].ItemList[IndParam.ListParam[2].Index];
IndParam.ListParam[2].Enabled = true;
IndParam.ListParam[2].ToolTip = "The price the indicator is based on.";
// The NumericUpDown parameters
IndParam.NumParam[0].Caption = "R-Squared Period";
IndParam.NumParam[0].Value = 30;
IndParam.NumParam[0].Min = 2;
IndParam.NumParam[0].Max = 200;
IndParam.NumParam[0].Enabled = true;
IndParam.NumParam[0].ToolTip = "The period of R-Squared calculation.";
IndParam.NumParam[1].Caption = "Smoothing Period";
IndParam.NumParam[1].Value = 3;
IndParam.NumParam[1].Min = 2;
IndParam.NumParam[1].Max = 200;
IndParam.NumParam[1].Enabled = true;
IndParam.NumParam[1].ToolTip = "The period of Smoothing calculation.";
IndParam.NumParam[2].Caption = "Level";
IndParam.NumParam[2].Value = 0;
IndParam.NumParam[2].Min = 0;
IndParam.NumParam[2].Max = 100;
IndParam.NumParam[2].Point = 4;
IndParam.NumParam[2].Enabled = true;
IndParam.NumParam[2].ToolTip = "A critical level (for the appropriate logic).";
// The CheckBox parameters
IndParam.CheckParam[0].Caption = "Use previous bar value";
IndParam.CheckParam[0].Enabled = true;
IndParam.CheckParam[0].ToolTip = "Use the indicator value from the previous bar.";
}
public override void Calculate(IDataSet dataSet)
{
DataSet = dataSet;
// Reading the parameters
MAMethod maMethod = (MAMethod)IndParam.ListParam[1].Index;
BasePrice basePrice = (BasePrice)IndParam.ListParam[2].Index;
int iRSPeriod = (int)IndParam.NumParam[0].Value;
int iMAPeriod = (int)IndParam.NumParam[1].Value;
double dLevel = IndParam.NumParam[2].Value;
int iPrvs = IndParam.CheckParam[0].Checked ? 1 : 0;
// Calculation
double[] adPrice = Price(basePrice);
double[] adR = RCoefficient(adPrice, iRSPeriod);
double[] adRR = new double[Bars];
double[] adAvgRR = new double[Bars];
int iFirstBar = iRSPeriod + iMAPeriod + 1;
for (int iBar=iFirstBar; iBar< Bars; iBar++)
{
adRR[iBar] = Math.Pow(adR[iBar],2);
}
adAvgRR = MovingAverage(iMAPeriod, 0, maMethod, adRR);;
// Saving the components
Component = new IndicatorComp[3];
Component[0] = new IndicatorComp();
Component[0].CompName = "R-Squared";
Component[0].DataType = IndComponentType.IndicatorValue;
Component[0].ChartType = IndChartType.Line;
Component[0].ChartColor = Color.Blue;
Component[0].FirstBar = iFirstBar;
Component[0].Value = adAvgRR;
Component[1] = new IndicatorComp();
Component[1].ChartType = IndChartType.NoChart;
Component[1].FirstBar = iFirstBar;
Component[1].Value = new double[Bars];
Component[2] = new IndicatorComp();
Component[2].ChartType = IndChartType.NoChart;
Component[2].FirstBar = iFirstBar;
Component[2].Value = new double[Bars];
// Sets the Component's type
if (SlotType == SlotTypes.OpenFilter)
{
Component[1].DataType = IndComponentType.AllowOpenLong;
Component[1].CompName = "Is long entry allowed";
Component[2].DataType = IndComponentType.AllowOpenShort;
Component[2].CompName = "Is short entry allowed";
}
else if (SlotType == SlotTypes.CloseFilter)
{
Component[1].DataType = IndComponentType.ForceCloseLong;
Component[1].CompName = "Close out long position";
Component[2].DataType = IndComponentType.ForceCloseShort;
Component[2].CompName = "Close out short position";
}
// Calculation of the logic
IndicatorLogic indLogic = IndicatorLogic.It_does_not_act_as_a_filter;
switch (IndParam.ListParam[0].Text)
{
case "The R-Squared rises":
indLogic = IndicatorLogic.The_indicator_rises;
break;
case "The R-Squared falls":
indLogic = IndicatorLogic.The_indicator_falls;
break;
case "The R-Squared is higher than the Level line":
indLogic = IndicatorLogic.The_indicator_is_higher_than_the_level_line;
SpecialValues = new double[1] { dLevel };
break;
case "The R-Squared is lower than the Level line":
indLogic = IndicatorLogic.The_indicator_is_lower_than_the_level_line;
SpecialValues = new double[1] { dLevel };
break;
case "The R-Squared crosses the Level line upward":
indLogic = IndicatorLogic.The_indicator_crosses_the_level_line_upward;
SpecialValues = new double[1] { dLevel };
break;
case "The R-Squared crosses the Level line downward":
indLogic = IndicatorLogic.The_indicator_crosses_the_level_line_downward;
SpecialValues = new double[1] { dLevel };
break;
case "The R-Squared changes its direction upward":
indLogic = IndicatorLogic.The_indicator_changes_its_direction_upward;
break;
case "The R-Squared changes its direction downward":
indLogic = IndicatorLogic.The_indicator_changes_its_direction_downward;
break;
default:
break;
}
NoDirectionOscillatorLogic(iFirstBar, iPrvs, adAvgRR, dLevel, ref Component[1], indLogic);
Component[2].Value = Component[1].Value;
}
public override void SetDescription()
{
string sLevelLong = IndParam.NumParam[1].ValueToString;
string sLevelShort = sLevelLong;
EntryFilterLongDescription = "the " + ToString() + " ";
EntryFilterShortDescription = "the " + ToString() + " ";
ExitFilterLongDescription = "the " + ToString() + " ";
ExitFilterShortDescription = "the " + ToString() + " ";
switch (IndParam.ListParam[0].Text)
{
case "The R-Squared rises":
EntryFilterLongDescription += "rises";
EntryFilterShortDescription += "rises";
ExitFilterLongDescription += "rises";
ExitFilterShortDescription += "rises";
break;
case "The R-Squared falls":
EntryFilterLongDescription += "falls";
EntryFilterShortDescription += "falls";
ExitFilterLongDescription += "falls";
ExitFilterShortDescription += "falls";
break;
case "The R-Squared is higher than the Level line":
EntryFilterLongDescription += "is higher than the Level " + sLevelLong;
EntryFilterShortDescription += "is higher than the Level " + sLevelShort;
ExitFilterLongDescription += "is higher than the Level " + sLevelLong;
ExitFilterShortDescription += "is higher than the Level " + sLevelShort;
break;
case "The R-Squared is lower than the Level line":
EntryFilterLongDescription += "is lower than the Level " + sLevelLong;
EntryFilterShortDescription += "is lower than the Level " + sLevelShort;
ExitFilterLongDescription += "is lower than the Level " + sLevelLong;
ExitFilterShortDescription += "is lower than the Level " + sLevelShort;
break;
case "The R-Squared crosses the Level line upward":
EntryFilterLongDescription += "crosses the Level " + sLevelLong + " upward";
EntryFilterShortDescription += "crosses the Level " + sLevelShort + " upward";
ExitFilterLongDescription += "crosses the Level " + sLevelLong + " upward";
ExitFilterShortDescription += "crosses the Level " + sLevelShort + " upward";
break;
case "The R-Squared crosses the Level line downward":
EntryFilterLongDescription += "crosses the Level " + sLevelLong + " downward";
EntryFilterShortDescription += "crosses the Level " + sLevelShort + " downward";
ExitFilterLongDescription += "crosses the Level " + sLevelLong + " downward";
ExitFilterShortDescription += "crosses the Level " + sLevelShort + " downward";
break;
case "The R-Squared changes its direction upward":
EntryFilterLongDescription += "changes its direction upward";
EntryFilterShortDescription += "changes its direction upward";
ExitFilterLongDescription += "changes its direction upward";
ExitFilterShortDescription += "changes its direction upward";
break;
case "The R-Squared changes its direction downward":
EntryFilterLongDescription += "changes its direction downward";
EntryFilterShortDescription += "changes its direction downward";
ExitFilterLongDescription += "changes its direction downward";
ExitFilterShortDescription += "changes its direction downward";
break;
}
}
public override string ToString()
{
return IndicatorName +
(IndParam.CheckParam[0].Checked ? "* (" : " (") +
IndParam.ListParam[1].Text + ", " + // Smoothing method
IndParam.ListParam[2].Text + ", " + // Base price
IndParam.NumParam[0].ValueToString + ")"; // Period
}
protected double[] RCoefficient(double[] adPrice, int iLength)
{
double[] RCoeff = new double[Bars];
double[] X = new double[Bars];
double[] Y = new double[Bars];
double AvgX;
double AvgP;
double SumXP;
double SumXX;
double SumPP;
double LowerEQ1;
double LowerEQ2;
double UpperEQ;
double LowerEQ;
for (int iBar=iLength; iBar
Risk warning: Forex, spread bets and CFD are leveraged products. They may not be suitable for you as they carry a high degree of risk to your capital and you can lose more than your initial investment. You should ensure you understand all of the risks.
Copyright © 2006 - 2024, Forex Software Ltd.;
Copyright © 2006 - 2024, Forex Software Ltd.;