Пример #1
0
 /*
  * Updates any 'special' text elements
  */
 public virtual void UpdateText()
 {
     foreach (var textObject in Children.OfType <TextBlock>())
     {
         if (textObject.Name == "_Model")
         {
             textObject.Text = ComponentModel;
         }
         else if (textObject.Name == "_Value")
         {
             textObject.Text = ComponentValue.ToString();
         }
     }
 }
Пример #2
0
 //Populate a TreeViewItem with items following a preferred value series that represent a given component; between the magnitudes specified by magBegin and magEnd
 private void PopulateMenu(TreeViewItem root, double[] series, int magBegin, int magEnd, string suffix, string componentType)
 {
     for (int mag = magBegin; mag <= magEnd; mag++)
     {
         foreach (double seriesValue in series)
         {
             double   val = seriesValue * Math.Pow(10, mag);
             Quantity q   = new Quantity();
             q.Val = val;
             TreeViewItem newItem = new TreeViewItem();
             newItem.Header = new ComponentData(componentType, val, q.ToString() + suffix);
             root.Items.Add(newItem);
         }
     }
 }
Пример #3
0
        public void UpdateGrid()
        {
            GeometryGroup gridLines   = new GeometryGroup();
            double        lineX       = 0;
            Quantity      currentTime = new Quantity();

            currentTime.Val = 0;
            HLabels.Children.Clear();
            while (lineX >= -GraphArea.ActualWidth)
            {
                gridLines.Children.Add(new LineGeometry(new Point(GraphArea.ActualWidth + lineX, 0), new Point(GraphArea.ActualWidth + lineX, GraphArea.ActualHeight)));
                TextBlock label = new TextBlock();
                label.HorizontalAlignment = HorizontalAlignment.Left;

                label.TextAlignment         = TextAlignment.Center;
                label.Text                  = currentTime.ToString();
                label.RenderTransformOrigin = new Point(0.5, 0.5);
                label.RenderTransform       = new TranslateTransform(lineX + GraphArea.ActualWidth + 50, 0);
                HLabels.Children.Add(label);
                lineX -= VerticalGridSpacing;

                currentTime.Val -= SecPerDiv.Val;
            }


            double   lineY         = GraphArea.ActualHeight / 2;
            Quantity currentVoltsA = new Quantity();

            currentVoltsA.Val = -VoltsOffset;
            Quantity currentVoltsB = new Quantity();

            currentVoltsB.Val = -VoltsOffset;

            VLabels.Children.Clear();

            while (lineY > 0)
            {
                gridLines.Children.Add(new LineGeometry(new Point(0, lineY), new Point(GraphArea.ActualWidth, lineY)));

                TextBlock label1 = new TextBlock();
                label1.HorizontalAlignment = HorizontalAlignment.Right;
                label1.Text = currentVoltsA.ToString();
                label1.RenderTransformOrigin = new Point(1, 0.5);
                label1.RenderTransform       = new TranslateTransform(-5, lineY - 10);

                VLabels.Children.Add(label1);

                /* if (lineY != (GraphArea.ActualHeight - lineY))
                 * {*/
                gridLines.Children.Add(new LineGeometry(new Point(0, GraphArea.ActualHeight - lineY), new Point(GraphArea.ActualWidth, GraphArea.ActualHeight - lineY)));

                TextBlock label2 = new TextBlock();
                label2.HorizontalAlignment = HorizontalAlignment.Right;
                label2.Text = currentVoltsB.ToString();
                label2.RenderTransformOrigin = new Point(1, 0.5);
                label2.RenderTransform       = new TranslateTransform(-5, GraphArea.ActualHeight - lineY - 10);

                VLabels.Children.Add(label2);
                //}
                lineY             -= HorizontalGridSpacing;
                currentVoltsA.Val += VoltsPerDiv.Val;
                currentVoltsB.Val -= VoltsPerDiv.Val;
            }
            GraphGrid.Data = gridLines;
        }