コード例 #1
0
        public MainPage()
        {
            this.InitializeComponent();
            this.Loaded += MainPage_Loaded;

            this.NavigationCacheMode = NavigationCacheMode.Required;

            // Create our LineGraph and hook the up to their respective images
            graphScope1            = new VisualizationTools.LineGraph((int)LineGraphScope1.Width, (int)LineGraphScope1.Height);
            LineGraphScope1.Source = graphScope1;

            // Initialize the helper functions for the scope user interface (UI)
            uihelper = new ScopeUIHelper();
            uihelper.CRTMargin_Vert = 20;
            uihelper.CRTMargin_Horz = 20;
            vcHelper = new VerticalControlHelper();
            hcHelper = new HorizontalControlHelper();
            hcHelper.iDivisionCount = ScopeGrid.ColumnDefinitions.Count;
            tHelper = new TriggerHelper();
            tHelper.fTriggerLevel_V = 1.0f;
            tHelper.bTriggerSet     = false;
            tHelper.bAcquiring      = false;

            // The sampling frequency here must match that configured in the Arduino firmware
            hcHelper.fSamplingFreq_Hz = 625;

            // Initialize the data bus
            mbus = new MinSegBus();

            // Initialize the buffers that recieve the data from the Arduino
            bCollectData        = false;
            iChannelCount       = 2;
            iStreamSampleCount  = 2;
            iShortCount         = iChannelCount * iStreamSampleCount;
            iFrameSize          = mbus.iGetFrameCount_Short(iShortCount);
            idxData             = 0;
            iStreamBuffLength   = 128;
            idxData             = 0;
            idxData_MinCount    = 0;
            idxCharCount        = 0;
            byteAddress         = 0;
            iUnsignedShortArray = new UInt16[iShortCount];

            // Data buffers
            dataScope1 = new float[hcHelper.iScopeDataLength];
            dataScope2 = new float[hcHelper.iScopeDataLength];
            dataNull   = new float[hcHelper.iScopeDataLength];
            for (int idx = 0; idx < hcHelper.iScopeDataLength; idx++)
            {
                dataScope1[idx] = Convert.ToSingle(1.0 + Math.Sin(Convert.ToDouble(idx) * (2.0 * Math.PI / Convert.ToDouble(hcHelper.iGetCRTDataLength()))));
                dataScope2[idx] = Convert.ToSingle(1.0 - Math.Sin(Convert.ToDouble(idx) * (2.0 * Math.PI / Convert.ToDouble(hcHelper.iGetCRTDataLength()))));
                dataNull[idx]   = -100.0f;
            }

            // Scale factors
            fScope1ScaleADC = 5.0f / 1024.0f;
            fScope2ScaleADC = 5.0f / 1024.0f;

            // Default scope parameters
            bTrace1Active = true;
            bTrace2Active = true;

            // Update scope
            UpdateTraces();
            graphScope1.setMarkIndex(Convert.ToInt32(hcHelper.iScopeDataLength / 2));
        }
コード例 #2
0
ファイル: MainPage.xaml.cs プロジェクト: Wam1q/SerialScope
        public MainPage()
        {
            this.InitializeComponent();
            this.Loaded += MainPage_Loaded;

            this.NavigationCacheMode = NavigationCacheMode.Required;

            // Create our LineGraph and hook the up to their respective images
            graphScope1 = new VisualizationTools.LineGraph((int)LineGraphScope1.Width, (int)LineGraphScope1.Height);
            LineGraphScope1.Source = graphScope1;

            // Initialize the helper functions for the scope user interface (UI)
            uihelper = new ScopeUIHelper();
            uihelper.CRTMargin_Vert = 20;
            uihelper.CRTMargin_Horz = 20;
            vcHelper = new VerticalControlHelper();
            hcHelper = new HorizontalControlHelper();
            hcHelper.iDivisionCount = ScopeGrid.ColumnDefinitions.Count;
            tHelper = new TriggerHelper();
            tHelper.fTriggerLevel_V = 1.0f;
            tHelper.bTriggerSet = false;
            tHelper.bAcquiring = false;

            // The sampling frequency here must match that configured in the Arduino firmware
            hcHelper.fSamplingFreq_Hz = 625;

            // Initialize the data bus
            mbus = new MinSegBus();

            // Initialize the buffers that recieve the data from the Arduino
            bCollectData = false;
            iChannelCount = 2;
            iStreamSampleCount = 2;
            iShortCount = iChannelCount * iStreamSampleCount;
            iFrameSize = mbus.iGetFrameCount_Short(iShortCount);
            idxData = 0;
            iStreamBuffLength = 128;
            idxData = 0;
            idxData_MinCount = 0;
            idxCharCount = 0;
            byteAddress = 0;
            iUnsignedShortArray = new UInt16[iShortCount];

            // Data buffers
            dataScope1 = new float[hcHelper.iScopeDataLength];
            dataScope2 = new float[hcHelper.iScopeDataLength];
            dataNull = new float[hcHelper.iScopeDataLength];
            for (int idx = 0; idx < hcHelper.iScopeDataLength; idx++)
            {
                dataScope1[idx] = Convert.ToSingle(1.0 + Math.Sin(Convert.ToDouble(idx) * (2.0 * Math.PI / Convert.ToDouble(hcHelper.iGetCRTDataLength()))));
                dataScope2[idx] = Convert.ToSingle(1.0 - Math.Sin(Convert.ToDouble(idx) * (2.0 * Math.PI / Convert.ToDouble(hcHelper.iGetCRTDataLength()))));
                dataNull[idx] = -100.0f;
            }

            // Scale factors
            fScope1ScaleADC = 5.0f / 1024.0f;
            fScope2ScaleADC = 5.0f / 1024.0f;

            // Default scope parameters
            bTrace1Active = true;
            bTrace2Active = true;

            // Update scope
            UpdateTraces();
            graphScope1.setMarkIndex(Convert.ToInt32(hcHelper.iScopeDataLength / 2));
        }