Darien Figueroa
repo time
Dependencies: mbed MAX14720 MAX30205 USBDevice
HspGuiSourceV301/HSPGui/MedicalChartHelper.cs
- Committer:
- darienf
- Date:
- 2021-04-06
- Revision:
- 20:6d2af70c92ab
File content as of revision 20:6d2af70c92ab:
//using System;
//using System.Collections;
//using System.Collections.Generic;
//using System.ComponentModel;
//using System.Linq;
//using System.Text;
//using System.Windows.Forms;
//using Microsoft.Win32.SafeHandles;
namespace Maxim.MAX30101
{
#pragma warning disable 1574
/// <summary>
/// MedicalChartHelper class, an invisible "helper" class,
/// helps manage an existing standard chart object.
///
/// Initializes the standard
/// System.Windows.Forms.DataVisualization.Charting.Chart chart
/// with a maximum of 3 chart areas vertically aligned with each other.
///
/// When data is appended to the chart, the chart series data
/// is initially aligned with the left. Once the X axis reaches the
/// right side of the screen, the chart begins scrolling so that
/// newest data is aligned to the right edge.
///
/// </summary>
#pragma warning restore 1574
public class MedicalChartHelper
{
private System.Windows.Forms.DataVisualization.Charting.Chart _chart;
private string _chartArea1Name;
private string _chartArea2Name;
private string _chartArea3Name;
private string _series1Name;
private string _series2Name;
private string _series3Name;
private string _chartArea1AxisYTitle;
private string _chartArea2AxisYTitle;
private string _chartArea3AxisYTitle;
/// <summary>
/// Constructor
/// </summary>
/// <param name="chart"></param>
/// <param name="chartArea1Name"></param>
/// <param name="series1Name"></param>
/// <param name="chartArea1AxisYTitle"></param>
/// <param name="chartArea2Name"></param>
/// <param name="series2Name"></param>
/// <param name="chartArea2AxisYTitle"></param>
/// <param name="chartArea3Name"></param>
/// <param name="series3Name"></param>
/// <param name="chartArea3AxisYTitle"></param>
public MedicalChartHelper(System.Windows.Forms.DataVisualization.Charting.Chart chart,
string chartArea1Name = "ChartArea1Red", string series1Name = "SeriesRed", string chartArea1AxisYTitle = "Red ADC Code",
string chartArea2Name = "ChartArea2IR", string series2Name = "SeriesIR", string chartArea2AxisYTitle = "IR ADC Code",
string chartArea3Name = "ChartArea3Green", string series3Name = "SeriesGreen", string chartArea3AxisYTitle = "Green ADC Code",
DataFormats dataFormat = DataFormats.FormatUnsigned
)
{
// implementation: see InitCharting()
// default X axis length should be 10 seconds of data
_chart = chart;
_chartArea1Name = chartArea1Name;
_chartArea2Name = chartArea2Name;
_chartArea3Name = chartArea3Name;
_series1Name = series1Name;
_series2Name = series2Name;
_series3Name = series3Name;
_chartArea1AxisYTitle = chartArea1AxisYTitle;
_chartArea2AxisYTitle = chartArea2AxisYTitle;
_chartArea3AxisYTitle = chartArea3AxisYTitle;
DataFormat = dataFormat;
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
//_xCount = 0;
_xCount1 = 0;
_xCount2 = 0;
_xCount3 = 0;
_chart.Titles[0].Visible = false;
_chart.ChartAreas[_chartArea2Name].AlignWithChartArea = _chartArea1Name;
_chart.ChartAreas[_chartArea3Name].AlignWithChartArea = _chartArea1Name;
_chart.ChartAreas[_chartArea1Name].AxisY.Title = chartArea1AxisYTitle;
_chart.ChartAreas[_chartArea2Name].AxisY.Title = chartArea2AxisYTitle;
_chart.ChartAreas[_chartArea3Name].AxisY.Title = chartArea3AxisYTitle;
//_chart.ChartAreas[_chartArea1Name].AxisX.LabelStyle.Enabled = !_plotXAxisNoLabels;
//_chart.ChartAreas[_chartArea2Name].AxisX.LabelStyle.Enabled = !_plotXAxisNoLabels;
//_chart.ChartAreas[_chartArea3Name].AxisX.LabelStyle.Enabled = !_plotXAxisNoLabels;
_chart.ChartAreas[_chartArea1Name].Visible = true; // valid_Red;
_chart.ChartAreas[_chartArea2Name].Visible = true; // valid_IR;
_chart.ChartAreas[_chartArea3Name].Visible = true; // valid_Green;
_chart.Series[_series1Name].MarkerSize = 1; // Charting.Series.MarkerSize=0 makes no points visible
_chart.Series[_series1Name].BorderWidth = 1; // Charting.Series.BorderWidth is actually the line thickness
_chart.Series[_series1Name].XValueType = System.Windows.Forms.DataVisualization.Charting.ChartValueType.UInt32;
_chart.Series[_series1Name].YValueType = System.Windows.Forms.DataVisualization.Charting.ChartValueType.Int32;
_chart.Series[_series2Name].MarkerSize = 1; // Charting.Series.MarkerSize=0 makes no points visible
_chart.Series[_series2Name].BorderWidth = 1; // Charting.Series.BorderWidth is actually the line thickness
_chart.Series[_series2Name].XValueType = System.Windows.Forms.DataVisualization.Charting.ChartValueType.UInt32;
_chart.Series[_series2Name].YValueType = System.Windows.Forms.DataVisualization.Charting.ChartValueType.Int32;
_chart.Series[_series3Name].MarkerSize = 1; // Charting.Series.MarkerSize=0 makes no points visible
_chart.Series[_series3Name].BorderWidth = 1; // Charting.Series.BorderWidth is actually the line thickness
_chart.Series[_series3Name].XValueType = System.Windows.Forms.DataVisualization.Charting.ChartValueType.UInt32;
_chart.Series[_series3Name].YValueType = System.Windows.Forms.DataVisualization.Charting.ChartValueType.Int32;
}
/// <summary>
/// Clear chart data, reset _xCount, reset _plotPointsToSkip
/// </summary>
public void Clear()
{
_chart.Series[_series1Name].Points.Clear();
_chart.Series[_series2Name].Points.Clear();
_chart.Series[_series3Name].Points.Clear();
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
//_xCount = 0;
_xCount1 = 0;
_xCount2 = 0;
_xCount3 = 0;
_plotPointsToSkip = 0;
// https://jira.maxim-ic.com/browse/OS24EVK-32 replace numPlotTime with menu item Options | Plot Time
_plotPoints = (int)_plotWindowTime * _SampleRate_Hz / SampleAverage_n;
if (_plotPoints > _maxPlotPoints)
{
_plotPointsToSkip = _plotPoints / _maxPlotPoints - 1;
_plotPoints = _maxPlotPoints;
}
}
/// <summary>
/// Replacement for plotXAxisNoLabelsToolStripMenuItem.Checked
/// </summary>
public bool plotXAxisNoLabels {
get { return _plotXAxisNoLabels; }
set
{
_plotXAxisNoLabels = value;
_chart.ChartAreas[_chartArea1Name].AxisX.LabelStyle.Enabled = !_plotXAxisNoLabels;
_chart.ChartAreas[_chartArea2Name].AxisX.LabelStyle.Enabled = !_plotXAxisNoLabels;
_chart.ChartAreas[_chartArea3Name].AxisX.LabelStyle.Enabled = !_plotXAxisNoLabels;
}
}
private bool _plotXAxisNoLabels = true; // VERIFY: default plotXAxisNoLabelsToolStripMenuItem.Checked
/// <summary>
/// Replacement for plotXAxisTimeToolStripMenuItem.Checked
/// </summary>
public bool plotXAxisTime
{
get { return _plotXAxisTime; }
set
{
_plotXAxisTime = value;
}
}
private bool _plotXAxisTime = true; // VERIFY: default plotXAxisTimeToolStripMenuItem.Checked
private int _SampleRate_Hz = 100;
/// <summary>
/// Sample rate. Replacement for int.Parse(cboSampleRate.Text)
/// </summary>
public int SampleRate_Hz
{
get { return _SampleRate_Hz; }
set
{
_SampleRate_Hz = value;
//_AutoScaleEveryNSamples = 4 * _SampleRate_Hz; // 4 seconds assuming sample rate int.Parse(cboSampleRate.Text) == 100 samples per second
// VERIFY: OS24EVK-73 Sample Avg 2 breaks chart scrolling
// update _plotPoints which depends on myMAX30101.SampleAverage_n
_plotPoints = (int)_plotWindowTime * _SampleRate_Hz / SampleAverage_n;
if (_plotPoints > _maxPlotPoints)
{
_plotPointsToSkip = _plotPoints / _maxPlotPoints - 1;
_plotPoints = _maxPlotPoints;
}
}
}
private int _SampleAverage_n = 1;
/// <summary>
/// Replacement for myMAX30101.SampleAverage_n
/// </summary>
public int SampleAverage_n
{
get { return _SampleAverage_n; }
set
{
_SampleAverage_n = value;
// VERIFY: OS24EVK-73 Sample Avg 2 breaks chart scrolling
// update _plotPoints which depends on myMAX30101.SampleAverage_n
_plotPoints = (int)_plotWindowTime * _SampleRate_Hz / SampleAverage_n;
if (_plotPoints > _maxPlotPoints)
{
_plotPointsToSkip = _plotPoints / _maxPlotPoints - 1;
_plotPoints = _maxPlotPoints;
}
}
}
// VERIFY: IMPLEMENT OS24EVK-70 Maxim.MAX30101.MedicalChartHelper._xCount int instead of double?
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
//public double _xCount = 0;
public int _xCount1 = 0;
public int _xCount2 = 0;
public int _xCount3 = 0;
/// <summary>
/// The actual number of points on the plot (<= _maxPlotPoints). The actual number of points may be less than _maxPlotPoints in order to maintain ~numPlotTime.Value of plotted data
/// </summary>
public int _plotPoints = 500;
private int _plotWindowTime = 5; // plot window in seconds
public int plotWindowTime
{
get
{
return _plotWindowTime;
}
set
{
_plotWindowTime = value;
_plotPoints = (int)_plotWindowTime * _SampleRate_Hz / SampleAverage_n;
if (_plotPoints > _maxPlotPoints)
{
_plotPointsToSkip = _plotPoints / _maxPlotPoints - 1;
_plotPoints = _maxPlotPoints;
}
}
}
private int _maxPlotPoints = 2000; // maximum allowed number of points that can be plotted per series. Higher Fs will have more than 500 pts for a given numPlotTime.Value, so the number of samples per point will need to be increased accordingly to give maximum _maxPlotPoints
public int _plotPointsToSkip = 0;
// https://jira.maxim-ic.com/browse/OS24EVK-34 Autoscale tuning parameters
// https://jira.maxim-ic.com/browse/OS24EVK-34 Change _AutoScaleTimeInterval to _AutoScaleEveryNSamples and use sampleNumber to measure time
// https://jira.maxim-ic.com/browse/OS24EVK-42 Autoscale tuning (Larry 2014-11-24) _AutoScaleEveryNSamples
// - Slow the Autoscale update rate every 4 seconds
//private int _AutoScaleEveryNSamples = 400; // 4 seconds assuming sample rate int.Parse(cboSampleRate.Text) == 100 samples per second
// private double _AutoScaleMarginXLeft; // ignore old data at left of graph
// private double _AutoScaleMarginXRight; // ignore new data at right of graph? probably 0 by default
/// <summary>
/// chartMax empty area above dataMax
/// </summary>
private static double _AutoScaleMarginYTop = 0.125;
/// <summary>
/// chartMin empty area below dataMin
/// </summary>
private static double _AutoScaleMarginYBottom = 0.125;
/// <summary>
/// Minimum Y span: allow up to 10 counts per division (i.e. 50 LSBs)
///
/// (5 * _AutoScaleYmultiples) minimum allowed span of chartMax-chartMin,
/// to avoid focusing on LSB noise
/// </summary>
private static double _AutoScaleMinSpanY = 500;
/// <summary>
/// Y axis: No decimals. Round to nearest multiple of 100.
/// </summary>
private static double _AutoScaleYmultiples = 100;
// Calculated initial default chart limits _AutoscaleInitialChartMaxY .. _AutoscaleInitialChartMinY
int _AutoscaleInitialChartMaxY =
(
(int)
((_AutoScaleMinSpanY * (1.0 + _AutoScaleMarginYTop + _AutoScaleMarginYBottom)) / _AutoScaleYmultiples)
)
* (int)(_AutoScaleYmultiples);
int _AutoscaleInitialChartMinY = 0;
/// <summary>
/// Append data to chart area 1 series 1 (Optical: Red. Accelerometer: X)
///
/// @post _xCount1 is updated
/// </summary>
/// <param name="rawIntArrayYData"></param>
/// <param name="firstNewXIndex"></param>
/// <param name="lastXIndex"></param>
public void AppendDataChartArea1(int[] rawIntArrayYData, int firstNewXIndex, int lastXIndex)
{
// AppendDataChartArea(_chartArea1Name, _series1Name, rawIntArrayYData, firstNewXIndex, lastXIndex);
string chartAreaName = _chartArea1Name;
string seriesName = _series1Name;
for (int index = firstNewXIndex; index <= lastXIndex; index++)
{
int yData = rawIntArrayYData[index];
// VERIFY: OS24EVK-75 replace AutoScaleEvaluate dataFormatIs16bit2sComplement with if (DataFormat == DataFormats.Format16bit2sComplement)
if (DataFormat == DataFormats.Format16bit2sComplement)
{
// VERIFY: OS24EVK-57 interpret rawX rawY rawZ as 16-bit 2's complement
if (yData > 0x8000)
{
yData = yData - 0x10000;
}
}
int count = _chart.Series[seriesName].Points.Count;
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
double xCoord = _xCount1 * (_plotPointsToSkip + 1) * SampleAverage_n / (plotXAxisTime ? SampleRate_Hz : 1);
//_chart.Series[seriesName].Points.AddXY(xCoord, yData);
_chart.Series[seriesName].Points.AddY(yData);
_chart.ResetAutoValues();
while (count > _plotPoints)
{
_chart.Series[seriesName].Points.RemoveAt(0);
count = _chart.Series[seriesName].Points.Count;
}
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
_xCount1++;
}
//AutoScaleEvaluate(e.rawRedData, e.sampleNumberOffset, numSamples - 1, _chart, chartAreaName);
}
/// <summary>
/// Append data to chart area 2 series 2 (Optical: IR. Accelerometer: Y)
///
/// @post _xCount2 is updated
/// </summary>
/// <param name="rawIntArrayYData"></param>
/// <param name="firstNewXIndex"></param>
/// <param name="lastXIndex"></param>
public void AppendDataChartArea2(int[] rawIntArrayYData, int firstNewXIndex, int lastXIndex)
{
// AppendDataChartArea(_chartArea2Name, _series2Name, rawIntArrayYData, firstNewXIndex, lastXIndex);
string chartAreaName = _chartArea2Name;
string seriesName = _series2Name;
for (int index = firstNewXIndex; index <= lastXIndex; index++)
{
int yData = rawIntArrayYData[index];
// VERIFY: OS24EVK-75 replace AutoScaleEvaluate dataFormatIs16bit2sComplement with if (DataFormat == DataFormats.Format16bit2sComplement)
if (DataFormat == DataFormats.Format16bit2sComplement)
{
// VERIFY: OS24EVK-57 interpret rawX rawY rawZ as 16-bit 2's complement
if (yData > 0x8000)
{
yData = yData - 0x10000;
}
}
int count = _chart.Series[seriesName].Points.Count;
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
double xCoord = _xCount2 * (_plotPointsToSkip + 1) * SampleAverage_n / (plotXAxisTime ? SampleRate_Hz : 1);
_chart.Series[seriesName].Points.AddXY(xCoord, yData);
_chart.ResetAutoValues();
while (count > _plotPoints)
{
_chart.Series[seriesName].Points.RemoveAt(0);
count = _chart.Series[seriesName].Points.Count;
}
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
_xCount2++;
}
//AutoScaleEvaluate(e.rawRedData, e.sampleNumberOffset, numSamples - 1, _chart, chartAreaName);
}
/// <summary>
/// Append data to chart area 3 series 3 (Optical: Green. Accelerometer: Z)
///
/// @post _xCount3 is updated
/// </summary>
/// <param name="rawIntArrayYData"></param>
/// <param name="firstNewXIndex"></param>
/// <param name="lastXIndex"></param>
public void AppendDataChartArea3(int[] rawIntArrayYData, int firstNewXIndex, int lastXIndex)
{
// AppendDataChartArea(_chartArea3Name, _series3Name, rawIntArrayYData, firstNewXIndex, lastXIndex);
string chartAreaName = _chartArea3Name;
string seriesName = _series3Name;
for (int index = firstNewXIndex; index <= lastXIndex; index++)
{
int yData = rawIntArrayYData[index];
// VERIFY: OS24EVK-75 replace AutoScaleEvaluate dataFormatIs16bit2sComplement with if (DataFormat == DataFormats.Format16bit2sComplement)
if (DataFormat == DataFormats.Format16bit2sComplement)
{
// VERIFY: OS24EVK-57 interpret rawX rawY rawZ as 16-bit 2's complement
if (yData > 0x8000)
{
yData = yData - 0x10000;
}
}
int count = _chart.Series[seriesName].Points.Count;
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
double xCoord = _xCount3 * (_plotPointsToSkip + 1) * SampleAverage_n / (plotXAxisTime ? SampleRate_Hz : 1);
_chart.Series[seriesName].Points.AddXY(xCoord, yData);
_chart.ResetAutoValues();
while (count > _plotPoints)
{
_chart.Series[seriesName].Points.RemoveAt(0);
count = _chart.Series[seriesName].Points.Count;
}
// VERIFY: OS24EVK-75 replace _xCount with _xCount1, _xCount2, _xCount3
_xCount3++;
}
//AutoScaleEvaluate(e.rawRedData, e.sampleNumberOffset, numSamples - 1, _chart, chartAreaName);
}
#if PROFILER
//// TODO1: OS24EVK-54 profiling: capture max interval, number of intervals, cumulative interval
System.Diagnostics.Stopwatch _profilingStopwatchAutoScaleEvaluate = new System.Diagnostics.Stopwatch(); // cumulative timing
int _profilingStopwatchAutoScaleEvaluate_NumIntervals;
#endif // PROFILER
public void AutoScaleEvaluate1(int[] rawIntArrayYData, int firstNewXIndex, int lastXIndex)
{
AutoScaleEvaluate(rawIntArrayYData, firstNewXIndex, lastXIndex, _chartArea1Name);
}
public void AutoScaleEvaluate2(int[] rawIntArrayYData, int firstNewXIndex, int lastXIndex)
{
AutoScaleEvaluate(rawIntArrayYData, firstNewXIndex, lastXIndex, _chartArea2Name);
}
public void AutoScaleEvaluate3(int[] rawIntArrayYData, int firstNewXIndex, int lastXIndex)
{
AutoScaleEvaluate(rawIntArrayYData, firstNewXIndex, lastXIndex, _chartArea3Name);
}
// TODO1: OS24EVK-57 OS24EVK-54 AutoScaleEvaluate(int[] rawIntArrayYData,...) Calculate autoscale min/max/SampleVariance from the raw integer data. This should be much faster as it doesn't involve arbitrarily converting into floating-point numbers or excessive indexing.
public void AutoScaleEvaluate(int[] rawIntArrayYData,
int firstNewXIndex,
int lastXIndex,
/*Chart chart,*/ string chartAreaName
// TODO1: OS24EVK-75 replace AutoScaleEvaluate dataFormatIs16bit2sComplement with if (DataFormat == DataFormats.Format16bit2sComplement)
//bool dataFormatIs16bit2sComplement = false
//string seriesName,
//int sampleNumber,
//ref int sampleNumberPreviousAutoscale
)
{
#if PROFILER
// TODO1: OS24EVK-54 profiling: capture max interval, number of intervals, cumulative interval
_profilingStopwatchAutoScaleEvaluate.Start();
_profilingStopwatchAutoScaleEvaluate_NumIntervals = _profilingStopwatchAutoScaleEvaluate_NumIntervals + 1;
#endif // PROFILER
// TODO1: OS24EVK-57 OS24EVK-54 Calculate autoscale min/max/SampleVariance from the raw integer data. This should be much faster as it doesn't involve arbitrarily converting into floating-point numbers or excessive indexing.
// https://jira.maxim-ic.com/browse/OS24EVK-34 AutoScaleEvaluate() use _AutoScaleMarginXLeft; // ignore old data at left of graph
// https://jira.maxim-ic.com/browse/OS24EVK-34 AutoScaleEvaluate() use _AutoScaleMarginXRight; // ignore new data at right of graph? probably 0 by default
//const int firstPointIndex = 0;
// advance the left and right X limits
// https://jira.maxim-ic.com/browse/OS24EVK-48 Graph X axis - Replace hidden chkPlotTime with a menu option plotXAxisTimeToolStripMenuItem.Checked
// https://jira.maxim-ic.com/browse/OS24EVK-47 Graph scrolling needs to be smooth progression like a paper tape chart even when (plotXAxisTimeToolStripMenuItem.Checked is true)
// per Larry Skrenes 2014-11-24: graph scrolling needs to be smooth progression like a paper tape chart.
// When (plotXAxisTimeToolStripMenuItem.Checked is false) graph scrolling is already smooth.
// When (plotXAxisTimeToolStripMenuItem.Checked is true) graph scrolling moves in staccato 1-second steps. Larry hates this.
int xWidth = _plotPoints * (_plotPointsToSkip + 1) * SampleAverage_n / (plotXAxisTime ? SampleRate_Hz : 1);
// VERIFY: OS24EVK-73 Sample Avg 2 breaks chart scrolling -- xLastXIndex = lastXIndex * myMAX30101.SampleAverage_n
int xLastXIndex = lastXIndex * SampleAverage_n / (plotXAxisTime ? SampleRate_Hz : 1);
//int xWidth = _plotPoints * (_plotPointsToSkip + 1) * _cboSampleAvg / (false ? int.Parse(cboSampleRate.Text) : 1);
//int xWidth = _plotPoints * (_plotPointsToSkip + 1) * _cboSampleAvg / (1);
//int xWidth = _plotPoints * (_plotPointsToSkip + 1) * _cboSampleAvg;
// https://jira.maxim-ic.com/browse/OS24EVK-15 Fix plot X axis jumping around (_plotWindowTime)
// 0.0 --> 0 1 2 3 4 5
// 0.0 --> 0_ 1 2 3 4 5
// 0.0 --> 0__1 2 3 4 5
// 0.0 --> 0__1_ 2 3 4 5
// 0.0 --> 0__1__2 3 4 5
// 0.0 --> 0__1__2_ 3 4 5
// 0.0 --> 0__1__2__3 4 5
// 0.0 --> 0__1__2__3_ 4 5
// 0.0 --> 0__1__2__3__4 5
// 0.0 --> 0__1__2__3__4_ 5
// 0.0 --> 0__1__2__3__4__5
// 0.5 --> 1__2__3__4__5_ 6
// 1.0 --> 1__2__3__4__5__6
// 1.5 --> 2__3__4__5__6_ 7
// 2.0 --> 2__3__4__5__6__7
// https://jira.maxim-ic.com/browse/OS24EVK-47 Graph scrolling needs to be smooth progression like a paper tape chart even when (plotXAxisTimeToolStripMenuItem.Checked is true)
// per Larry Skrenes 2014-11-24: graph scrolling needs to be smooth progression like a paper tape chart.
// When (plotXAxisTimeToolStripMenuItem.Checked is false) graph scrolling is already smooth.
// When (plotXAxisTimeToolStripMenuItem.Checked is true) graph scrolling moves in staccato 1-second steps. Larry hates this.
// VERIFY: OS24EVK-76 Autoscale delay time is affected by Sample Average - firstVisiblePointIndex
//int firstVisiblePointIndex = lastXIndex - (_plotPoints * (_plotPointsToSkip + 1) * SampleAverage_n);
int firstVisiblePointIndex = lastXIndex - (_plotPoints * (_plotPointsToSkip + 1));
if (firstVisiblePointIndex < 0) { firstVisiblePointIndex = 0; }
//
// VERIFY: OS24EVK-73 Sample Avg 2 breaks chart scrolling -- xLastXIndex instead of lastXIndex
int firstVisiblePointX = xLastXIndex - xWidth; // (int)chart.Series[0].Points[firstPointIndex].XValue;
if (firstVisiblePointX < 0) { firstVisiblePointX = 0; }
//int firstPointX = (int)System.Math.Ceiling(chart.Series[seriesName].Points[firstPointIndex].XValue);
//if ((chart.Series[seriesName].Points[firstPointIndex].XValue) < 0.1)
//{
// firstPointX = (int)System.Math.Floor(chart.Series[seriesName].Points[firstPointIndex].XValue);
//}
_chart.ChartAreas[chartAreaName].AxisX.Minimum = firstVisiblePointX;
// https://jira.maxim-ic.com/browse/OS24EVK-47 Graph scrolling needs to be smooth progression like a paper tape chart even when (plotXAxisTimeToolStripMenuItem.Checked is true)
//chart.ChartAreas[0].AxisX.Maximum = (int)System.Math.Ceiling((double)firstPointX + xWidth);
_chart.ChartAreas[chartAreaName].AxisX.Maximum = firstVisiblePointX + xWidth;
if (lastXIndex /* chart.Series[seriesName].Points.Count */ < 1)
{
//int iMaxY_chart_default = (_AutoScaleMinSpanY * (1.0 + _AutoScaleMarginYTop + _AutoScaleMarginYBottom)) / _AutoScaleYmultiples;
//int _AutoscaleInitialChartMaxY = iMaxY_chart_default * _AutoScaleYmultiples;
//int _AutoscaleInitialChartMaxY =
// (
// (int)
// ((_AutoScaleMinSpanY * (1.0 + _AutoScaleMarginYTop + _AutoScaleMarginYBottom)) / _AutoScaleYmultiples)
// )
// * (int)(_AutoScaleYmultiples);
//int _AutoscaleInitialChartMinY = 0;
_chart.ChartAreas[chartAreaName].AxisY.Maximum = _AutoscaleInitialChartMaxY;
_chart.ChartAreas[chartAreaName].AxisY.Minimum = _AutoscaleInitialChartMinY;
#if PROFILER
// TODO1: OS24EVK-54 profiling: capture max interval, number of intervals, cumulative interval
_profilingStopwatchAutoScaleEvaluate.Stop();
#endif // PROFILER
return;
}
// // TODO1: OS24EVK-57 OS24EVK-54 scan new data rawIntArrayYData[firstNewIndex .. lastIndex]. As is this code only triggers if the last point is extreme.
// int newestPointIndex = lastXIndex; // chart.Series[seriesName].Points.Count - 1;
// int newestPointY = rawIntArrayYData[lastXIndex]; // (int)chart.Series[seriesName].Points[newestPointIndex].YValues[0];
// if ((newestPointY < chart.ChartAreas[chartAreaName].AxisY.Maximum)
// && (newestPointY > chart.ChartAreas[chartAreaName].AxisY.Minimum)
// )
// {
// // https://jira.maxim-ic.com/browse/OS24EVK-34 always re-evaluate chart when new data exceeds Minimum or Maximum
// // But if we just return at this point, then autoscale will never contract to fit smaller data series.
// //
// // https://jira.maxim-ic.com/browse/OS24EVK-34 Change _AutoScaleTimeInterval to _AutoScaleEveryNSamples and use sampleNumber to measure time
// // https://jira.maxim-ic.com/browse/OS24EVK-34 AutoScaleEvaluate() after every _AutoScaleEveryNSamples, re-scan data and fit chart to data
// // if ( interval has been less than _AutoScaleEveryNSamples ) { return; }
// if ((sampleNumber - sampleNumberPreviousAutoscale) < _AutoScaleEveryNSamples)
// {
//#if PROFILER
// // TODO1: OS24EVK-54 profiling: capture max interval, number of intervals, cumulative interval
// _profilingStopwatchAutoScaleEvaluate.Stop();
//#endif // PROFILER
// return;
// }
// }
int chartMinYValue = (int)_chart.ChartAreas[chartAreaName].AxisY.Minimum; // rawIntArrayYData[firstVisiblePointX] - 1;
int chartMaxYValue = (int)_chart.ChartAreas[chartAreaName].AxisY.Maximum; // rawIntArrayYData[firstVisiblePointX] + 1;
// VERIFY: OS24EVK-73 Sample Avg 2 breaks chart scrolling - firstVisiblePointIndex instead of firstVisiblePointX
int dataMinYValue = rawIntArrayYData[firstVisiblePointIndex] - 1;
int dataMaxYValue = rawIntArrayYData[firstVisiblePointIndex] + 1;
for (int index = firstVisiblePointIndex; index <= lastXIndex; index++)
{
int Y = rawIntArrayYData[index];
// VERIFY: OS24EVK-57 OS24EVK-54 improve chart throughput: AutoScaleEvaluate() dataFormatIs16bit2sComplement=true for Accelerometer X Y Z data
// VERIFY: OS24EVK-75 replace AutoScaleEvaluate dataFormatIs16bit2sComplement with if (DataFormat == DataFormats.Format16bit2sComplement)
if (DataFormat == DataFormats.Format16bit2sComplement)
{
// VERIFY: OS24EVK-57 interpret rawX rawY rawZ as 16-bit 2's complement
if (Y > 0x8000)
{
Y = Y - 0x10000;
}
}
//else
//{
// Y = Y + 0; // debug breakpoint for code path verification
//}
if (dataMinYValue > Y)
{
dataMinYValue = Y;
}
if (dataMaxYValue < Y)
{
dataMaxYValue = Y;
}
}
// rawIntArrayYData[firstIndex..lastIndex] spans the range from dataMinYValue .. dataMaxYValue
double dataSpanY = (dataMaxYValue - dataMinYValue);
double dataCenterY = (dataMaxYValue + dataMinYValue) / 2;
bool isAllDataVisible = (
(chartMinYValue < dataMaxYValue) && (dataMaxYValue < chartMaxYValue)
&&
(chartMinYValue < dataMinYValue) && (dataMinYValue < chartMaxYValue)
);
if (isAllDataVisible)
{
// all data is within the chart limits, but is the chart sufficiently zoomed in?
double relativeDataSpan = (double)dataSpanY / (chartMaxYValue - chartMinYValue);
if (relativeDataSpan > 0.65)
{
// the current chart scale is good enough, do not update
#if PROFILER
// TODO1: OS24EVK-54 profiling: capture max interval, number of intervals, cumulative interval
_profilingStopwatchAutoScaleEvaluate.Stop();
#endif // PROFILER
return;
}
}
// https://jira.maxim-ic.com/browse/OS24EVK-34 AutoScaleEvaluate() use _AutoScaleMinSpanY; // minimum allowed span of chartMax-chartMin, to avoid focusing on LSB noise
if (dataSpanY < _AutoScaleMinSpanY)
{
// https://jira.maxim-ic.com/browse/OS24EVK-34 Autoscale - Minimum span (in case dataMax-dataMin is too small) to avoid focusing on LSB noise
dataSpanY = _AutoScaleMinSpanY;
}
else
{
// https://jira.maxim-ic.com/browse/OS24EVK-34 Autoscale - Apply a Top margin - Bottom margin = 12% .. 88% when mapping Chart max-min to Data max-min
// https://jira.maxim-ic.com/browse/OS24EVK-34 AutoScaleEvaluate() use _AutoScaleMarginYTop; // chartMax empty area above dataMax
// https://jira.maxim-ic.com/browse/OS24EVK-34 AutoScaleEvaluate() use _AutoScaleMarginYBottom; // chartMin empty area below dataMin
// dataSpanY = dataSpanY * 1.25;
// dataSpanY = dataSpanY * (1.0 + 0.125 + 0.125);
dataSpanY = dataSpanY * (1.0 + _AutoScaleMarginYTop + _AutoScaleMarginYBottom);
// https://jira.maxim-ic.com/browse/OS24EVK-42 Autoscale tuning (Larry 2014-11-24) Round to nearest multiple of 100.
// - Y axis: No decimals. Round to nearest multiple of 100.
// private double _AutoScaleYmultiples = 100;
//int tempdataSpanY = (int)(dataSpanY / _AutoScaleYmultiples);
//dataSpanY = tempdataSpanY * _AutoScaleYmultiples;
//dataSpanY = (double)((int)dataSpanY / _AutoScaleYmultiples) * _AutoScaleYmultiples;
//dataCenterY = (double)((int)dataCenterY / _AutoScaleYmultiples) * _AutoScaleYmultiples;
}
// https://jira.maxim-ic.com/browse/OS24EVK-34 Autoscale - There are 5 vertical divisions; keep the minor axis tick values integer
//int YaxisDivisions = (int)System.Math.Ceiling(dataSpanY / 6.0);
//dataSpanY = YaxisDivisions * 6;
// https://jira.maxim-ic.com/browse/OS24EVK-42 Autoscale tuning (Larry 2014-11-24) Round to nearest multiple of 100.
// - Y axis: No decimals. Round to nearest multiple of 100.
// private double _AutoScaleYmultiples = 100;
//int tempdataCenterY = (int)(dataCenterY / (_AutoScaleYmultiples*2));
//dataCenterY = tempdataCenterY * (_AutoScaleYmultiples*2);
// chart.ChartAreas[0].AxisY.Maximum = dataMaxYValue;
// chart.ChartAreas[0].AxisY.Minimum = dataMinYValue;
//chart.ChartAreas[0].AxisY.Maximum = System.Math.Ceiling(dataCenterY + (dataSpanY / 2)); // dataMaxYValue;
//chart.ChartAreas[0].AxisY.Minimum = System.Math.Floor(dataCenterY - (dataSpanY / 2)); // dataMinYValue;
// https://jira.maxim-ic.com/browse/OS24EVK-42 Autoscale tuning (Larry 2014-11-24) Round to nearest multiple of 100.
// - Y axis: No decimals. Round to nearest multiple of 100.
// private double _AutoScaleYmultiples = 100;
int iMaxY_target = (int)((dataCenterY + (dataSpanY / 2)) / _AutoScaleYmultiples);
int iMinY_target = (int)((dataCenterY - (dataSpanY / 2)) / _AutoScaleYmultiples);
double dampingConstantK = 0.2;
int iMaxY_damped = iMaxY_target;
int iMinY_damped = iMinY_target;
if (double.IsNaN(_chart.ChartAreas[chartAreaName].AxisY.Maximum) == false)
{
int iMaxY_chart = (int)(_chart.ChartAreas[chartAreaName].AxisY.Maximum / _AutoScaleYmultiples);
int iMinY_chart = (int)(_chart.ChartAreas[chartAreaName].AxisY.Minimum / _AutoScaleYmultiples);
iMaxY_damped = (int)((dampingConstantK * (double)iMaxY_target) + ((1 - dampingConstantK) * (double)iMaxY_chart) + 0.5);
iMinY_damped = (int)((dampingConstantK * (double)iMinY_target) + ((1 - dampingConstantK) * (double)iMinY_chart));
}
double maxY = iMaxY_target * _AutoScaleYmultiples;
double minY = iMinY_target * _AutoScaleYmultiples;
_chart.ChartAreas[chartAreaName].AxisY.Maximum = maxY;
_chart.ChartAreas[chartAreaName].AxisY.Minimum = minY;
// if chart.ChartAreas[chartAreaName].AxisY.Maximum is NaN then just assign maxY
//if (double.IsNaN(chart.ChartAreas[chartAreaName].AxisY.Maximum))
//{
// chart.ChartAreas[chartAreaName].AxisY.Maximum = maxY;
// chart.ChartAreas[chartAreaName].AxisY.Minimum = minY;
//}
//else
//{
// chart.ChartAreas[chartAreaName].AxisY.Maximum = (dampingConstantK * maxY) + ((1 - dampingConstantK) * chart.ChartAreas[chartAreaName].AxisY.Maximum);
// chart.ChartAreas[chartAreaName].AxisY.Minimum = (dampingConstantK * minY) + ((1 - dampingConstantK) * chart.ChartAreas[chartAreaName].AxisY.Minimum);
//}
#if PROFILER
// TODO1: OS24EVK-54 profiling: capture max interval, number of intervals, cumulative interval
_profilingStopwatchAutoScaleEvaluate.Stop();
#endif // PROFILER
}
/// <summary>
/// Raw data format
/// </summary>
public DataFormats DataFormat = DataFormats.FormatUnsigned;
public enum DataFormats
{
/// <summary>
/// Interpret raw data as unsigned values
/// </summary>
FormatUnsigned,
/// <summary>
/// Interpret raw data as 16-bit, signed 2's complement values
/// </summary>
Format16bit2sComplement,
}
} // public class MedicalChartHelper
} // namespace Maxim.MAX30101