//private void onKeyUp(object sender, KeyEventArgs e) { isKeyPressed=false; Print("keyup");}
private void OnMouseDownEvent(object sender, MouseButtonEventArgs e)
{
if (checkForDeregister())
{
return;
}
Point cPos = chartControl.MouseDownPoint;
int posX = (int)ChartingExtensions.ConvertToHorizontalPixels(cPos.X - chartControl.BarWidthArray[0], chartControl.PresentationSource);
int slot = (int)chartControl.GetSlotIndexByX(posX);
//if clicked on visible
if (slot >= chartBars.FromIndex && slot <= chartBars.ToIndex)
{
int clicked_Bar = slot;
if (System.Windows.Forms.Control.ModifierKeys == Keys.Shift) //isKeyPressed
{
//isKeyPressed=false;
destroyForm(false);
createForm();
logForm.Show();
}
if (logForm.Visible)
{
if (indi_or_strat != null)
{
if (indi_or_strat.BarsArray[0] != null)
{
Bars bars = indi_or_strat.BarsArray[0];
int barIdx = indi_or_strat.CurrentBars[0] - clicked_Bar - 1; //indi.CurrentBars[0]
string bn = Library_PuvoxSoftware.Methods.barIdentifier(indi_or_strat, barIdx);
string bn_prev = Library_PuvoxSoftware.Methods.barIdentifier(indi_or_strat, barIdx + 1);
//IBar thebar = GetBarFromX(e.X);
string primary = (primaryDict.ContainsKey(bn) ? primaryDict[bn] : "");
/*
* string secondary= ( secondaryDict.ContainsKey(bn_prev) ? secondaryDict[ bn_prev ] : "" );
* string final_text = (secondary == "" ? "" : secondary + nl + "<<< BarsInProgress: 0 >>>"+ nl) + primary ;
*/
string warning_message = nl + "############ Warning ############" + nl + "The following BIP data is used to form the next Primary BAR." + nl + "To understand DataSeries better, read: - https://goo.gl/ScpDkN" + nl + "##############################" + nl;
string secondary = (secondaryDict.ContainsKey(bn) ? warning_message + secondaryDict[bn] : "");
string final_text = primary + secondary;
textarea.Text = final_text;
DrawVerticalLine(bars.GetTime(clicked_Bar + 1));
}
}
}
}
}
protected override void OnRender(ChartControl chartControl, ChartScale chartScale)
{
// This sample should be used along side the help guide educational resource on this topic:
// http://www.ninjatrader.com/support/helpGuides/nt8/en-us/?using_sharpdx_for_custom_chart_rendering.htm
// Default plotting in base class. Uncomment if indicators holds at least one plot
// in this case we would expect NOT to see the SMA plot we have as well in this sample script
//base.OnRender(chartControl, chartScale);
// 1.1 - SharpDX Vectors and Charting RenderTarget Coordinates
// The SharpDX SDK uses "Vector2" objects to describe a two-dimensional point of a device (X and Y coordinates)
SharpDX.Vector2 startPoint;
SharpDX.Vector2 endPoint;
// For our custom script, we need a way to determine the Chart's RenderTarget coordinates to draw our custom shapes
// This info can be found within the NinjaTrader.Gui.ChartPanel class.
// You can also use various chartScale and chartControl members to calculate values relative to time and price
// However, those concepts will not be discussed or used in this sample
// Notes: RenderTarget is always the full ChartPanel, so we need to be mindful which sub-ChartPanel we're dealing with
// Always use ChartPanel X, Y, W, H - as chartScale and chartControl properties WPF units, so they can be drastically different depending on DPI set
startPoint = new SharpDX.Vector2(ChartPanel.X, ChartPanel.Y);
endPoint = new SharpDX.Vector2(ChartPanel.X + ChartPanel.W, ChartPanel.Y + ChartPanel.H);
// These Vector2 objects are equivalent with WPF System.Windows.Point and can be used interchangeably depending on your requirements
// For convenience, NinjaTrader provides a "ToVector2()" extension method to convert from WPF Points to SharpDX.Vector2
SharpDX.Vector2 startPoint1 = new System.Windows.Point(ChartPanel.X, ChartPanel.Y + ChartPanel.H).ToVector2();
SharpDX.Vector2 endPoint1 = new System.Windows.Point(ChartPanel.X + ChartPanel.W, ChartPanel.Y).ToVector2();
// SharpDX.Vector2 objects contain X/Y properties which are helpful to recalculate new properties based on the initial vector
float width = endPoint.X - startPoint.X;
float height = endPoint.Y - startPoint.Y;
// Or you can recalculate a new vector from existing vector objects
SharpDX.Vector2 center = (startPoint + endPoint) / 2;
// Tip: This check is simply added to prevent the Indicator dialog menu from opening as a user clicks on the chart
// The default behavior is to open the Indicator dialog menu if a user double clicks on the indicator
// (i.e, the indicator falls within the RenderTarget "hit testing")
// You can remove this check if you want the default behavior implemented
if (!IsInHitTest)
{
// 1.2 - SharpDX Brush Resources
// RenderTarget commands must use a special brush resource defined in the SharpDX.Direct2D1 namespace
// These resources exist just like you will find in the WPF/Windows.System.Media namespace
// such as SolidColorBrushes, LienarGraidentBrushes, RadialGradientBrushes, etc.
// To begin, we will start with the most basic "Brush" type
// Warning: Brush objects must be disposed of after they have been used
SharpDX.Direct2D1.Brush areaBrushDx;
SharpDX.Direct2D1.Brush smallAreaBrushDx;
SharpDX.Direct2D1.Brush textBrushDx;
// for convenience, you can simply convert a WPF Brush to a DXBrush using the ToDxBrush() extension method provided by NinjaTrader
// This is a common approach if you have a Brush property created e.g., on the UI you wish to use in custom rendering routines
areaBrushDx = areaBrush.ToDxBrush(RenderTarget);
smallAreaBrushDx = smallAreaBrush.ToDxBrush(RenderTarget);
textBrushDx = textBrush.ToDxBrush(RenderTarget);
// However - it should be noted that this conversion process can be rather expensive
// If you have many brushes being created, and are not tied to WPF resources
// You should rather favor creating the SharpDX Brush directly:
// Warning: SolidColorBrush objects must be disposed of after they have been used
SharpDX.Direct2D1.SolidColorBrush customDXBrush = new SharpDX.Direct2D1.SolidColorBrush(RenderTarget,
SharpDX.Color.DodgerBlue);
// 1.3 - Using The RenderTarget
// before executing chart commands, you have the ability to describe how the RenderTarget should render
// for example, we can store the existing RenderTarget AntialiasMode mode
// then update the AntialiasMode to be the quality of non-text primitives are rendered
SharpDX.Direct2D1.AntialiasMode oldAntialiasMode = RenderTarget.AntialiasMode;
RenderTarget.AntialiasMode = SharpDX.Direct2D1.AntialiasMode.Aliased;
// Note: The code above stores the oldAntialiasMode as a best practices
// i.e., if you plan on changing a property of the RenderTarget, you should plan to set it back
// This is to make sure your requirements to no interfere with the function of another script
// Additionally smoothing has some performance impacts
// Once you have defined all the necessary requirements for you object
// You can execute a command on the RenderTarget to draw specific shapes
// e.g., we can now use the RenderTarget's DrawLine() command to render a line
// using the start/end points and areaBrushDx objects defined before
RenderTarget.DrawLine(startPoint, endPoint, areaBrushDx, 4);
// Since rendering occurs in a sequential fashion, after you have executed a command
// you can switch a property of the RenderTarget to meet other requirements
// For example, we can draw a second line now which uses a different AntialiasMode
// and the changes render on the chart for both lines from the time they received commands
RenderTarget.AntialiasMode = SharpDX.Direct2D1.AntialiasMode.PerPrimitive;
RenderTarget.DrawLine(startPoint1, endPoint1, areaBrushDx, 4);
// 1.4 - Rendering Custom Shapes
// SharpDX namespace consists of several shapes you can use to draw objects more complicated than lines
// For example, we can use the RectangleF object to draw a rectangle that covers the entire chart area
SharpDX.RectangleF rect = new SharpDX.RectangleF(startPoint.X, startPoint.Y, width, height);
// The RenderTarget consists of two commands related to Rectangles.
// The FillRectangle() method is used to "Paint" the area of a Rectangle
RenderTarget.FillRectangle(rect, areaBrushDx);
// and DrawRectangle() is used to "Paint" the outline of a Rectangle
RenderTarget.DrawRectangle(rect, customDXBrush, 2);
// Another example is an ellipse which can be used to draw circles
// The ellipse center point can be used from the Vectors calculated earlier
// The width and height an absolute 100 device pixels
// To ensure that pixel coordinates work across all DPI devices, we use the NinjaTrader ChartingExteions methods
// Which will convert the "100" value from WPF pixels to Device Pixels both vertically and horizontally
int ellipseRadiusY = ChartingExtensions.ConvertToVerticalPixels(100, ChartControl.PresentationSource);
int ellipseRadiusX = ChartingExtensions.ConvertToHorizontalPixels(100, ChartControl.PresentationSource);
SharpDX.Direct2D1.Ellipse ellipse = new SharpDX.Direct2D1.Ellipse(center, ellipseRadiusX, ellipseRadiusY);
// 1.5 - Complex Brush Types and Shapes
// For this ellipse, we can use one of the more complex brush types "RadialGradientBrush"
// Warning: RadialGradientBrush objects must be disposed of after they have been used
SharpDX.Direct2D1.RadialGradientBrush radialGradientBrush;
// However creating a RadialGradientBrush requires a few more properties than SolidColorBrush
// First, you need to define the array gradient stops the brush will eventually use
SharpDX.Direct2D1.GradientStop[] gradientStops = new SharpDX.Direct2D1.GradientStop[2];
// With the gradientStops array, we can describe the color and position of the individual gradients
gradientStops[0].Color = SharpDX.Color.Goldenrod;
gradientStops[0].Position = 0.0f;
gradientStops[1].Color = SharpDX.Color.SeaGreen;
gradientStops[1].Position = 1.0f;
// then declare a GradientStopCollection from our render target that uses the gradientStops array defined just before
// Warning: GradientStopCollection objects must be disposed of after they have been used
SharpDX.Direct2D1.GradientStopCollection gradientStopCollection =
new SharpDX.Direct2D1.GradientStopCollection(RenderTarget, gradientStops);
// we also need to tell our RadialGradientBrush to match the size and shape of the ellipse that we will be drawing
// for convenience, SharpDX provides a RadialGradientBrushProperties structure to help define these properties
SharpDX.Direct2D1.RadialGradientBrushProperties radialGradientBrushProperties =
new SharpDX.Direct2D1.RadialGradientBrushProperties
{
GradientOriginOffset = new SharpDX.Vector2(0, 0),
Center = ellipse.Point,
RadiusX = ellipse.RadiusY,
RadiusY = ellipse.RadiusY
};
// we now have everything we need to create a radial gradient brush
radialGradientBrush = new SharpDX.Direct2D1.RadialGradientBrush(RenderTarget, radialGradientBrushProperties,
gradientStopCollection);
// Finally, we can use this radialGradientBrush to "Paint" the area of the ellipse
RenderTarget.FillEllipse(ellipse, radialGradientBrush);
// 1.6 - Simple Text Rendering
// For rendering custom text to the Chart, there are a few ways you can approach depending on your requirements
// The most straight forward way is to "borrow" the existing chartControl font provided as a "SimpleFont" class
// Using the chartControl LabelFont, your custom object will also change to the user defined properties allowing
// your object to match different fonts if defined by user.
// The code below will use the chartControl Properties Label Font if it exists,
// or fall back to a default property if it cannot obtain that value
NinjaTrader.Gui.Tools.SimpleFont simpleFont = chartControl.Properties.LabelFont ?? new NinjaTrader.Gui.Tools.SimpleFont("Arial", 12);
// the advantage of using a SimpleFont is they are not only very easy to describe
// but there is also a convenience method which can be used to convert the SimpleFont to a SharpDX.DirectWrite.TextFormat used to render to the chart
// Warning: TextFormat objects must be disposed of after they have been used
SharpDX.DirectWrite.TextFormat textFormat1 = simpleFont.ToDirectWriteTextFormat();
// Once you have the format of the font, you need to describe how the font needs to be laid out
// Here we will create a new Vector2() which draws the font according to the to top left corner of the chart (offset by a few pixels)
SharpDX.Vector2 upperTextPoint = new SharpDX.Vector2(ChartPanel.X + 10, ChartPanel.Y + 20);
// Warning: TextLayout objects must be disposed of after they have been used
SharpDX.DirectWrite.TextLayout textLayout1 =
new SharpDX.DirectWrite.TextLayout(NinjaTrader.Core.Globals.DirectWriteFactory,
NinjaTrader.Custom.Resource.SampleCustomPlotUpperLeftCorner, textFormat1, ChartPanel.X + ChartPanel.W,
textFormat1.FontSize);
// With the format and layout of the text completed, we can now render the font to the chart
RenderTarget.DrawTextLayout(upperTextPoint, textLayout1, textBrushDx,
SharpDX.Direct2D1.DrawTextOptions.NoSnap);
// 1.7 - Advanced Text Rendering
// Font formatting and text layouts can get as complex as you need them to be
// This example shows how to use a complete custom font unrelated to the existing user-defined chart control settings
// Warning: TextLayout and TextFormat objects must be disposed of after they have been used
SharpDX.DirectWrite.TextFormat textFormat2 =
new SharpDX.DirectWrite.TextFormat(NinjaTrader.Core.Globals.DirectWriteFactory, "Century Gothic", FontWeight.Bold,
FontStyle.Italic, 32f);
SharpDX.DirectWrite.TextLayout textLayout2 =
new SharpDX.DirectWrite.TextLayout(NinjaTrader.Core.Globals.DirectWriteFactory,
NinjaTrader.Custom.Resource.SampleCustomPlotLowerRightCorner, textFormat2, 400, textFormat1.FontSize);
// the textLayout object provides a way to measure the described font through a "Metrics" object
// This allows you to create new vectors on the chart which are entirely dependent on the "text" that is being rendered
// For example, we can create a rectangle that surrounds our font based off the textLayout which would dynamically change if the text used in the layout changed dynamically
SharpDX.Vector2 lowerTextPoint = new SharpDX.Vector2(ChartPanel.W - textLayout2.Metrics.Width - 5,
ChartPanel.Y + (ChartPanel.H - textLayout2.Metrics.Height));
SharpDX.RectangleF rect1 = new SharpDX.RectangleF(lowerTextPoint.X, lowerTextPoint.Y, textLayout2.Metrics.Width,
textLayout2.Metrics.Height);
// We can draw the Rectangle based on the TextLayout used above
RenderTarget.FillRectangle(rect1, smallAreaBrushDx);
RenderTarget.DrawRectangle(rect1, smallAreaBrushDx, 2);
// And render the advanced text layout using the DrawTextLayout() method
// Note: When drawing the same text repeatedly, using the DrawTextLayout() method is more efficient than using the DrawText()
// because the text doesn't need to be formatted and the layout processed with each call
RenderTarget.DrawTextLayout(lowerTextPoint, textLayout2, textBrushDx, SharpDX.Direct2D1.DrawTextOptions.NoSnap);
// 1.8 - Cleanup
// This concludes all of the rendering concepts used in the sample
// However - there are some final clean up processes we should always provided before we are done
// If changed, do not forget to set the AntialiasMode back to the default value as described above as a best practice
RenderTarget.AntialiasMode = oldAntialiasMode;
// We also need to make sure to dispose of every device dependent resource on each render pass
// Failure to dispose of these resources will eventually result in unnecessary amounts of memory being used on the chart
// Although the effects might not be obvious as first, if you see issues related to memory increasing over time
// Objects such as these should be inspected first
areaBrushDx.Dispose();
customDXBrush.Dispose();
gradientStopCollection.Dispose();
radialGradientBrush.Dispose();
smallAreaBrushDx.Dispose();
textBrushDx.Dispose();
textFormat1.Dispose();
textFormat2.Dispose();
textLayout1.Dispose();
textLayout2.Dispose();
}
}
protected override void OnStateChange()
{
if (State == State.SetDefaults)
{
Description = @"IchimokuCloud Kinko Hyo - \Equilibrium Chart at a Glance\ - For a FULL description of this indicator and how to use it, please see: http://www.forexabode.com/technical-analysis/ichimoku-cloud";
Name = "IchimokuCloud";
Calculate = Calculate.OnBarClose;
IsOverlay = true;
DisplayInDataBox = true;
DrawOnPricePanel = true;
DrawHorizontalGridLines = true;
DrawVerticalGridLines = true;
PaintPriceMarkers = true;
ScaleJustification = NinjaTrader.Gui.Chart.ScaleJustification.Right;
//Disable this property if your indicator requires custom values that cumulate with each new market data event.
//See Help Guide for additional information.
IsSuspendedWhileInactive = false;
// Create default brushes
dxmBrushes = new Dictionary <string, DXMediaMap>();
foreach (string brushName in new string[] { "CloudAreaColorUp", "CloudAreaColorDown" })
{
dxmBrushes.Add(brushName, new DXMediaMap());
}
DisplayCloudOnly = true;
AdjustBarMargins = false;
PeriodFast = 9;
PeriodMedium = 26;
PeriodSlow = 52;
CloudColorOpacity = 40;
CloudAreaColorUp = Brushes.Green;
CloudAreaColorDown = Brushes.Red;
CloudDisplacement = 26;
AddPlot(Brushes.Red, "TenkanSen");
AddPlot(Brushes.Purple, "KijunSen");
AddPlot(Brushes.MediumBlue, "ChikouSpan");
AddPlot(Brushes.Green, "SenkouSpanA");
AddPlot(Brushes.Red, "SenkouSpanB");
}
else if (State == State.DataLoaded)
{
if (ChartControl != null)
{
// Adjust margins
tmpMargin = ChartControl.Properties.BarMarginRight;
if (AdjustBarMargins)
{
ChartControl.Properties.BarMarginRight = ChartingExtensions.ConvertToHorizontalPixels(ChartControl.BarWidth * (CloudDisplacement + 2) * 2, ChartControl.PresentationSource);
}
}
}
else if (State == State.Terminated)
{
//Reset Chart Margins
if (ChartControl != null && tmpMargin != 0)
{
ChartControl.Properties.BarMarginRight = tmpMargin;
}
}
}
//private void onKeyUp(object sender, KeyEventArgs e) { isKeyPressed=false; Print("keyup");}
private void OnMouseDownEvent(object sender, MouseButtonEventArgs e)
{
log("OnMouseDownEvent1");
if (checkForDeregister())
{
return;
}
if (indi_or_strat != null)
{
log("OnMouseDownEvent1-A");
Point cPos = chartControl.MouseDownPoint;
// Coefficient between Bar and it's margin space is 0.65
int posX = (int)ChartingExtensions.ConvertToHorizontalPixels(cPos.X + chartControl.BarWidthArray[0] * 1.65, chartControl.PresentationSource);
int slot = (int)chartControl.GetSlotIndexByX(posX);
//IBar thebar = GetBarFromX(e.X);
//if clicked on visible
if (slot >= chartBars.FromIndex && slot <= chartBars.ToIndex)
{
log("OnMouseDownEvent1-B");
int clicked_Bar = slot;
// If Shift + Click , then open form
if (System.Windows.Forms.Control.ModifierKeys == Keys.Shift) //isKeyPressed
{
//isKeyPressed=false;
if (logForm == null || logForm.IsDisposed)
{
createForm();
}
if (!logForm.Visible)
{
logForm.Show();
}
}
log("OnMouseDownEvent1-C");
// If By this moment, form is/was open, show values
if (logForm != null && logForm.Visible)
{
logForm.BringToFront();
log("OnMouseDownEvent1-D");
if (indi_or_strat.BarsArray[0] != null)
{
log("OnMouseDownEvent1-E");
Bars bars = indi_or_strat.BarsArray[0];
int barsAgo = indi_or_strat.CurrentBars[0] - clicked_Bar;
if (clicked_Bar <= 0)
{
return;
}
string bn = Puvox_Library.Methods.barIdentifier(indi_or_strat, barsAgo);
string primary = (primaryDict.ContainsKey(bn) ? primaryDict[bn] : "");
/*
* string bn_prev = clicked_Bar <= 0 ? "" : Puvox_Library.Methods.barIdentifier( indi_or_strat, barsAgo+1 );
* string secondary=clicked_Bar <= 0 ? "" : ( secondaryDict.ContainsKey(bn_prev) ? secondaryDict[ bn_prev ] : "" );
*/
string warning_message = nl + "############ Warning ############" + nl + "Typically, additional (granular) BIP data (except the first one) is used to form the next Primary BAR." + nl + "To understand DataSeries better, must read: - https://goo.gl/ScpDkN" + nl + "##############################" + nl;
string secondary = (secondaryDict.ContainsKey(bn) ? warning_message + secondaryDict[bn] : "");
string final_text = primary + secondary;
textarea.Text = final_text;
Puvox_Library.Methods.DrawVerticalLineBlinking(indi_or_strat, barsAgo);
log("OnMouseDownEvent1-F");
}
}
}
}
log("OnMouseDownEvent2");
}
protected void MouseClicked(object sender, MouseButtonEventArgs e)
{
clickPoint.X = ChartingExtensions.ConvertToHorizontalPixels(e.GetPosition(ChartControl as IInputElement).X, ChartControl.PresentationSource);
clickPoint.Y = ChartingExtensions.ConvertToVerticalPixels(e.GetPosition(ChartControl as IInputElement).Y, ChartControl.PresentationSource);
convertedPrice = Instrument.MasterInstrument.RoundToTickSize(chartScale.GetValueByY((float)clickPoint.Y));
convertedTime = ChartControl.GetTimeBySlotIndex((int)ChartControl.GetSlotIndexByX((int)clickPoint.X));
if (counter == 0)
{
++counter;
++patterncount;
sw = File.AppendText(path); // Open the path for writing
sw.Write("New Pattern,");
Draw.TextFixed(this, "priceTime", "Click to Start", TextPosition.BottomLeft, ChartControl.Properties.ChartText,
ChartControl.Properties.LabelFont, Brushes.LimeGreen, Brushes.Transparent, 0);
sw.Close(); // Close the file to allow future calls to access the file again.
Print("NEW PATTERN");
}
else if (counter == 1)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedPrice)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on X Point"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 2)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedPrice)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on A Point"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 3)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedPrice)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on C Point"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 4)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedPrice)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on D/ENTRY Point"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 5)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedTime)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on D/ENTRY Date"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 6)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedPrice)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on TARGET 1"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 7)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedPrice)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on MAE"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 8)
{
++counter;
sw = File.AppendText(path); // Open the path for writing
sw.Write(string.Format("{0},", convertedTime)); // Append a new line to the file
Draw.TextFixed(this, "priceTime", string.Format("Click on Close Date/Time"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print(string.Format("{0},", convertedPrice));
}
else if (counter == 9)
{
counter = 0;
sw = File.AppendText(path); // Open the path for writing
sw.WriteLine("");
Draw.TextFixed(this, "priceTime", string.Format("Pattern Complete"), TextPosition.BottomLeft);
sw.Close(); // Close the file to allow future calls to access the file again.
Print("PATTERN COMPLETE");
}
ForceRefresh();
}