Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm hoping someone can help me out here. I'm building a WPF imaging application that takes live images from a camera allowing users to view the image, and subsequently highlight regions of interest (ROI) on that image. Information about the ROIs (width, height, location relative to a point on the image, etc) is then sent back to the camera, in effect telling/training the camera firmware where to look for things like barcodes, text, liquid levels, turns on a screw, etc. on the image). A desired feature is the ability to pan and zoom the image and it's ROIs, as well as scroll when the image is zoomed larger than the viewing area. The StrokeThickness and FontSize of the ROI's need to keep there original scale, but the width and height of the shapes within an ROI need to scale with the image (this is critical to capture exact pixel locations to transmit to the camera). I've got most of this worked out with the exception of scrolling and a few other issues. My two areas of concern are:

  1. When I introduce a ScrollViewer I don't get any scroll behavior. As I understand it I need to introduce a LayoutTransform to get the correct ScrollViewer behavior. However when I do that other areas start to break down (e.g. ROIs don't hold their correct position over the image, or the mouse pointer begins to creep away from the selected point on the image when panning, or the left corner of my image bounces to the current mouse position on MouseDown .)

  2. I can't quite get the scaling of my ROI's the way I need them. I have this working, but it is not ideal. What I have doesn't retain the exact stroke thickness, and I haven't looked into ignoring scale on the textblocks. Hopefully you'll see what I'm doing in the code samples.

I'm sure my issue has something to do with my lack of understanding of Transforms and their relationship to the WPF layout system. Hopefully a rendition of the code that exhibits what I've accomplished so far will help (see below).

FYI, if Adorners are the suggestion, that may not work in my scenario because I could end up with more adorners than are supported (rumor 144 adorners is when things start breaking down).

First off, below is a screenshot showing an image with to ROI's (text and a shape). The rectangle, ellipse and text need to follow the area on the image in scale and rotation, but not they shouldn't scale in thickness or fontsize.

Screen shot showing sample image with ROIs

Here's the XAML that is showing the above image, along with a Slider for zooming (mousewheel zoom will come later)

<Window x:Class="PanZoomStackOverflow.MainWindow"
    xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
    xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
    xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006"
    xmlns:d="http://schemas.microsoft.com/expression/blend/2008"
    mc:Ignorable="d"
    Title="MainWindow" Height="768" Width="1024">

<DockPanel>
  <Slider x:Name="_ImageZoomSlider" DockPanel.Dock="Bottom"
          Value="2"
          HorizontalAlignment="Center" Margin="6,0,0,0" 
          Width="143" Minimum=".5" Maximum="20" SmallChange=".1" 
          LargeChange=".2" TickFrequency="2" 
          TickPlacement="BottomRight" Padding="0" Height="23"/>

  <!-- This resides in a user control in my solution -->
  <Grid x:Name="LayoutRoot">
    <ScrollViewer Name="border" HorizontalScrollBarVisibility="Auto" 
                  VerticalScrollBarVisibility="Auto">
      <Grid x:Name="_ImageDisplayGrid">
        <Image x:Name="_DisplayImage" Margin="2" Stretch="None"
               Source="Untitled.bmp"
               RenderTransformOrigin ="0.5,0.5"
               RenderOptions.BitmapScalingMode="NearestNeighbor"
               MouseLeftButtonDown="ImageScrollArea_MouseLeftButtonDown"
               MouseLeftButtonUp="ImageScrollArea_MouseLeftButtonUp"
               MouseMove="ImageScrollArea_MouseMove">                            
           <Image.LayoutTransform>
             <TransformGroup>
               <ScaleTransform />
               <TranslateTransform />
             </TransformGroup>
           </Image.LayoutTransform>
         </Image>
         <AdornerDecorator> <!-- Using this Adorner Decorator for Move, Resize and Rotation and feedback adornernments -->
           <Canvas x:Name="_ROICollectionCanvas"
                   Width="{Binding ElementName=_DisplayImage, Path=ActualWidth, Mode=OneWay}"
                   Height="{Binding ElementName=_DisplayImage, Path=ActualHeight, Mode=OneWay}"
                   Margin="{Binding ElementName=_DisplayImage, Path=Margin, Mode=OneWay}">

             <!-- This is a user control in my solution -->
             <Grid IsHitTestVisible="False" Canvas.Left="138" Canvas.Top="58" Height="25" Width="186">
               <TextBlock Text="Rectangle ROI" HorizontalAlignment="Center" VerticalAlignment="Top" 
                          Foreground="Orange" FontWeight="Bold" Margin="0,-15,0,0"/>
                 <Rectangle StrokeThickness="2" Stroke="Orange"/>
             </Grid>

             <!-- This is a user control in my solution -->
             <Grid IsHitTestVisible="False" Canvas.Left="176" Canvas.Top="154" Height="65" Width="69">
               <TextBlock Text="Ellipse ROI" HorizontalAlignment="Center" VerticalAlignment="Top" 
                          Foreground="Orange" FontWeight="Bold" Margin="0,-15,0,0"/>
               <Ellipse StrokeThickness="2" Stroke="Orange"/>
             </Grid>
           </Canvas>
         </AdornerDecorator>
       </Grid>
     </ScrollViewer>
  </Grid>
</DockPanel>

Here's the C# that manages pan and zoom.

public partial class MainWindow : Window
{
private Point origin;
private Point start;
private Slider _slider;

public MainWindow()
{
    this.InitializeComponent();

    //Setup a transform group that we'll use to manage panning of the image area
    TransformGroup group = new TransformGroup();
    ScaleTransform st = new ScaleTransform();
    group.Children.Add(st);
    TranslateTransform tt = new TranslateTransform();
    group.Children.Add(tt);
    //Wire up the slider to the image for zooming
    _slider = _ImageZoomSlider;
    _slider.ValueChanged += _ImageZoomSlider_ValueChanged;
    st.ScaleX = _slider.Value;
    st.ScaleY = _slider.Value;
    //_ImageScrollArea.RenderTransformOrigin = new Point(0.5, 0.5);
    //_ImageScrollArea.LayoutTransform = group;
    _DisplayImage.RenderTransformOrigin = new Point(0.5, 0.5);
    _DisplayImage.RenderTransform = group;
    _ROICollectionCanvas.RenderTransformOrigin = new Point(0.5, 0.5);
    _ROICollectionCanvas.RenderTransform = group;
}

//Captures the mouse to prepare for panning the scrollable image area
private void ImageScrollArea_MouseLeftButtonUp(object sender, MouseButtonEventArgs e)
{
    _DisplayImage.ReleaseMouseCapture();
}

//Moves/Pans the scrollable image area  assuming mouse is captured.
private void ImageScrollArea_MouseMove(object sender, MouseEventArgs e)
{
    if (!_DisplayImage.IsMouseCaptured) return;

    var tt = (TranslateTransform)((TransformGroup)_DisplayImage.RenderTransform).Children.First(tr => tr is TranslateTransform);

    Vector v = start - e.GetPosition(border);
    tt.X = origin.X - v.X;
    tt.Y = origin.Y - v.Y;
}

//Cleanup for Move/Pan when mouse is released
private void ImageScrollArea_MouseLeftButtonDown(object sender, MouseButtonEventArgs e)
{
    _DisplayImage.CaptureMouse();
    var tt = (TranslateTransform)((TransformGroup)_DisplayImage.RenderTransform).Children.First(tr => tr is TranslateTransform);
    start = e.GetPosition(border);
    origin = new Point(tt.X, tt.Y);
}

//Zoom according to the slider changes
private void _ImageZoomSlider_ValueChanged(object sender, RoutedPropertyChangedEventArgs<double> e)
{
    //Panel panel = _ImageScrollArea;
    Image panel = _DisplayImage;

    //Set the scale coordinates on the ScaleTransform from the slider
    ScaleTransform transform = (ScaleTransform)((TransformGroup)panel.RenderTransform).Children.First(tr => tr is ScaleTransform);
    transform.ScaleX = _slider.Value;
    transform.ScaleY = _slider.Value;


    //Set the zoom (this will affect rotate too) origin to the center of the panel
    panel.RenderTransformOrigin = new Point(0.5, 0.5);

    foreach (UIElement child in _ROICollectionCanvas.Children)
    {
        //Assume all shapes are contained in a panel
        Panel childPanel = child as Panel;

        var x = childPanel.Children;

        //Shape width and heigh should scale, but not StrokeThickness
        foreach (var shape in childPanel.Children.OfType<Shape>())
        {
            if (shape.Tag == null)
            {
                //Hack: This is be a property on a usercontrol in my solution
                shape.Tag = shape.StrokeThickness;
            }
            double orignalStrokeThickness = (double)shape.Tag;

            //Attempt to keep the underlying shape border/stroke from thickening as well
            double newThickness = shape.StrokeThickness - (orignalStrokeThickness / transform.ScaleX);

            shape.StrokeThickness -= newThickness;
        }
    }
}
}

The code should work in a .NET 4.0 or 4.5 project and solution, assuming no cut/paste errors.

Any thoughts? Suggestions are welcome.

share|improve this question
    
Applying RenderTransforms only affects rendering. It does not affect Layout, that's why you're not getting any scrollbars. –  HighCore Jun 5 '13 at 1:53
    
Ok, I did a complete refactor of your sample in an MVVM fashion (which is the RIGHT way to do WPF). I'll post it tomorrow. I'm going to sleep right now. –  HighCore Jun 5 '13 at 4:27
    
HighCore, yes I realize the reason I am not seeing scrollbars is because I'm not applying a LayoutTransform. As I stated in my original post, when I introduce that into the mix the pieces that are working (Pan, Zoom, ROI positioning) start to exhibit strange behavior. I've tried putting both my Scale and Translate transforms into a LayoutTransform, and I've tried separating the Scale into a RenderTransform and the Translate into a LayoutTransform. Each time things start to break down pretty quickly. I'm interested in a code sample if you ideas. –  KyleLib Jun 5 '13 at 12:10
add comment

2 Answers

up vote 4 down vote accepted

Ok. This is my take on what you described.

It looks like this:

enter image description here

  • Since I'm not applying any RenderTransforms, I get the desired Scrollbar / ScrollViewer functionality.
  • MVVM, which is THE way to go in WPF. UI and data are independent thus the DataItems only have double and int properties for X,Y, Width,Height, etc that you can use for whatever purposes or even store them in a Database.
  • I added the whole stuff inside a Thumb to handle the panning. You will still need to do something about the Panning that occurs when you are dragging / resizing a ROI via the ResizerControl. I guess you can check for Mouse.DirectlyOver or something.
  • I actually used a ListBox to handle the ROIs so that you may have 1 selected ROI at any given time. This toggles the Resizing Functionality. So that if you click on a ROI, you will get the resizer visible.
  • The Scaling is handled at the ViewModel level, thus eliminating the need for custom Panels or stuff like that (though @Clemens' solution is nice as well)
  • I'm using an Enum and some DataTriggers to define the Shapes. See the DataTemplate DataType={x:Type local:ROI} part.
  • WPF Rocks. Just Copy and paste my code in a File -> New Project -> WPF Application and see the results for yourself.

    <Window x:Class="MiscSamples.PanZoomStackOverflow_MVVM"
            xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
            xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
            xmlns:local="clr-namespace:MiscSamples"
            Title="PanZoomStackOverflow_MVVM" Height="300" Width="300">
       <Window.Resources>
        <DataTemplate DataType="{x:Type local:ROI}">
            <Grid Background="#01FFFFFF">
                <Path x:Name="Path" StrokeThickness="2" Stroke="Black"
                      Stretch="Fill"/>
                <local:ResizerControl Visibility="Collapsed" Background="#30FFFFFF"
                                      X="{Binding X}" Y="{Binding Y}"
                                      ItemWidth="{Binding Width}"
                                      ItemHeight="{Binding Height}"
                                      x:Name="Resizer"/>
            </Grid>
            <DataTemplate.Triggers>
                <DataTrigger Binding="{Binding IsSelected, RelativeSource={RelativeSource AncestorType=ListBoxItem}}" Value="True">
                    <Setter TargetName="Resizer" Property="Visibility" Value="Visible"/>
                </DataTrigger>
                <DataTrigger Binding="{Binding Shape}" Value="{x:Static local:Shapes.Square}">
                    <Setter TargetName="Path" Property="Data">
                        <Setter.Value>
                            <RectangleGeometry Rect="0,0,10,10"/>
                        </Setter.Value>
                    </Setter>
                </DataTrigger>
    
                <DataTrigger Binding="{Binding Shape}" Value="{x:Static local:Shapes.Round}">
                    <Setter TargetName="Path" Property="Data">
                        <Setter.Value>
                            <EllipseGeometry RadiusX="10" RadiusY="10"/>
                        </Setter.Value>
                    </Setter>
                </DataTrigger>
            </DataTemplate.Triggers>
        </DataTemplate>
    
        <Style TargetType="ListBox" x:Key="ROIListBoxStyle">
            <Setter Property="ItemsPanel">
                <Setter.Value>
                    <ItemsPanelTemplate>
                        <Canvas/>
                    </ItemsPanelTemplate>
                </Setter.Value>
            </Setter>
            <Setter Property="Template">
                <Setter.Value>
                    <ControlTemplate>
                        <ItemsPresenter/>
                    </ControlTemplate>
                </Setter.Value>
            </Setter>
        </Style>
        <Style TargetType="ListBoxItem" x:Key="ROIItemStyle">
            <Setter Property="Canvas.Left" Value="{Binding ActualX}"/>
            <Setter Property="Canvas.Top" Value="{Binding ActualY}"/>
            <Setter Property="Height" Value="{Binding ActualHeight}"/>
            <Setter Property="Width" Value="{Binding ActualWidth}"/>
    
            <Setter Property="Template">
                <Setter.Value>
                    <ControlTemplate TargetType="ListBoxItem">
                        <ContentPresenter ContentSource="Content"/>
                    </ControlTemplate>
                </Setter.Value>
            </Setter>
        </Style>
    
    </Window.Resources>
    
    <DockPanel>
        <Slider VerticalAlignment="Center" 
                Maximum="2" Minimum="0" Value="{Binding ScaleFactor}" SmallChange=".1"
                DockPanel.Dock="Bottom"/>
    
        <ScrollViewer VerticalScrollBarVisibility="Visible"
                      HorizontalScrollBarVisibility="Visible" x:Name="scr"
                      ScrollChanged="ScrollChanged">
            <Thumb DragDelta="Thumb_DragDelta">
                <Thumb.Template>
                    <ControlTemplate>
                        <Grid>
                            <Image Source="/Images/Homer.jpg" Stretch="None" x:Name="Img"
                                    VerticalAlignment="Top" HorizontalAlignment="Left">
                                <Image.LayoutTransform>
                                    <TransformGroup>
                                        <ScaleTransform ScaleX="{Binding ScaleFactor}" ScaleY="{Binding ScaleFactor}"/>
                                    </TransformGroup>
                                </Image.LayoutTransform>
                            </Image>
    
                            <ListBox ItemsSource="{Binding ROIs}"
                                     Width="{Binding ActualWidth, ElementName=Img}"
                                     Height="{Binding ActualHeight,ElementName=Img}"
                                     VerticalAlignment="Top" HorizontalAlignment="Left"
                                     Style="{StaticResource ROIListBoxStyle}"
                                     ItemContainerStyle="{StaticResource ROIItemStyle}"/>
                        </Grid>
                    </ControlTemplate>
                </Thumb.Template>
            </Thumb>
        </ScrollViewer>
    </DockPanel>
    

Code Behind:

public partial class PanZoomStackOverflow_MVVM : Window
    {
        public PanZoomViewModel ViewModel { get; set; }

        public PanZoomStackOverflow_MVVM()
        {
            InitializeComponent();
            DataContext = ViewModel = new PanZoomViewModel();

            ViewModel.ROIs.Add(new ROI() {ScaleFactor = ViewModel.ScaleFactor, X = 150, Y = 150, Height = 200, Width = 200, Shape = Shapes.Square});

            ViewModel.ROIs.Add(new ROI() { ScaleFactor = ViewModel.ScaleFactor, X = 50, Y = 230, Height = 102, Width = 300, Shape = Shapes.Round });
        }

        private void Thumb_DragDelta(object sender, DragDeltaEventArgs e)
        {
            //TODO: Detect whether a ROI is being resized / dragged and prevent Panning if so.
            IsPanning = true;
            ViewModel.OffsetX = (ViewModel.OffsetX + (((e.HorizontalChange/10) * -1) * ViewModel.ScaleFactor));
            ViewModel.OffsetY = (ViewModel.OffsetY + (((e.VerticalChange/10) * -1) * ViewModel.ScaleFactor));

            scr.ScrollToVerticalOffset(ViewModel.OffsetY);
            scr.ScrollToHorizontalOffset(ViewModel.OffsetX);

            IsPanning = false;
        }

        private bool IsPanning { get; set; }

        private void ScrollChanged(object sender, ScrollChangedEventArgs e)
        {
            if (!IsPanning)
            {
                ViewModel.OffsetX = e.HorizontalOffset;
                ViewModel.OffsetY = e.VerticalOffset;
            }
        }
    }

Main ViewModel:

public class PanZoomViewModel:PropertyChangedBase
{
    private double _offsetX;
    public double OffsetX
    {
        get { return _offsetX; }
        set
        {
            _offsetX = value;
            OnPropertyChanged("OffsetX");
        }
    }

    private double _offsetY;
    public double OffsetY
    {
        get { return _offsetY; }
        set
        {
            _offsetY = value;
            OnPropertyChanged("OffsetY");
        }
    }

    private double _scaleFactor = 1;
    public double ScaleFactor
    {
        get { return _scaleFactor; }
        set
        {
            _scaleFactor = value;
            OnPropertyChanged("ScaleFactor");
            ROIs.ToList().ForEach(x => x.ScaleFactor = value);
        }
    }

    private ObservableCollection<ROI> _rois;
    public ObservableCollection<ROI> ROIs
    {
        get { return _rois ?? (_rois = new ObservableCollection<ROI>()); }
    }
}

ROI ViewModel:

public class ROI:PropertyChangedBase
{
    private Shapes _shape;
    public Shapes Shape
    {
        get { return _shape; }
        set
        {
            _shape = value;
            OnPropertyChanged("Shape");
        }
    }

    private double _scaleFactor;
    public double ScaleFactor
    {
        get { return _scaleFactor; }
        set
        {
            _scaleFactor = value;
            OnPropertyChanged("ScaleFactor");
            OnPropertyChanged("ActualX");
            OnPropertyChanged("ActualY");
            OnPropertyChanged("ActualHeight");
            OnPropertyChanged("ActualWidth");
        }
    }

    private double _x;
    public double X
    {
        get { return _x; }
        set
        {
            _x = value;
            OnPropertyChanged("X");
            OnPropertyChanged("ActualX");
        }
    }

    private double _y;
    public double Y
    {
        get { return _y; }
        set
        {
            _y = value;
            OnPropertyChanged("Y");
            OnPropertyChanged("ActualY");
        }
    }

    private double _height;
    public double Height
    {
        get { return _height; }
        set
        {
            _height = value;
            OnPropertyChanged("Height");
            OnPropertyChanged("ActualHeight");
        }
    }

    private double _width;
    public double Width
    {
        get { return _width; }
        set
        {
            _width = value;
            OnPropertyChanged("Width");
            OnPropertyChanged("ActualWidth");
        }
    }

    public double ActualX { get { return X*ScaleFactor; }}
    public double ActualY { get { return Y*ScaleFactor; }}
    public double ActualWidth { get { return Width*ScaleFactor; }}
    public double ActualHeight { get { return Height * ScaleFactor; } }
}

Shapes Enum:

public enum Shapes
{
    Round = 1,
    Square = 2,
    AnyOther
}

PropertyChangedBase (MVVM Helper class):

    public class PropertyChangedBase:INotifyPropertyChanged
    {
        public event PropertyChangedEventHandler PropertyChanged;

        protected virtual void OnPropertyChanged(string propertyName)
        {
            Application.Current.Dispatcher.BeginInvoke((Action) (() =>
                                                                     {
                                                                         PropertyChangedEventHandler handler = PropertyChanged;
                                                                         if (handler != null) handler(this, new PropertyChangedEventArgs(propertyName));
                                                                     }));
        }
    }

Resizer Control:

<UserControl x:Class="MiscSamples.ResizerControl"
             xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
             xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
             xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006" 
             xmlns:d="http://schemas.microsoft.com/expression/blend/2008" 
             mc:Ignorable="d" 
             d:DesignHeight="300" d:DesignWidth="300">
    <Grid>
        <Thumb DragDelta="Center_DragDelta" Height="10" Width="10"
               VerticalAlignment="Center" HorizontalAlignment="Center"/>

        <Thumb DragDelta="UpperLeft_DragDelta" Height="10" Width="10"
               VerticalAlignment="Top" HorizontalAlignment="Left"/>

        <Thumb DragDelta="UpperRight_DragDelta" Height="10" Width="10"
               VerticalAlignment="Top" HorizontalAlignment="Right"/>

        <Thumb DragDelta="LowerLeft_DragDelta" Height="10" Width="10"
               VerticalAlignment="Bottom" HorizontalAlignment="Left"/>

        <Thumb DragDelta="LowerRight_DragDelta" Height="10" Width="10"
               VerticalAlignment="Bottom" HorizontalAlignment="Right"/>

    </Grid>
</UserControl>

Code Behind:

 public partial class ResizerControl : UserControl
    {
        public static readonly DependencyProperty XProperty = DependencyProperty.Register("X", typeof(double), typeof(ResizerControl), new FrameworkPropertyMetadata(0d,FrameworkPropertyMetadataOptions.BindsTwoWayByDefault));
        public static readonly DependencyProperty YProperty = DependencyProperty.Register("Y", typeof(double), typeof(ResizerControl), new FrameworkPropertyMetadata(0d, FrameworkPropertyMetadataOptions.BindsTwoWayByDefault));
        public static readonly DependencyProperty ItemWidthProperty = DependencyProperty.Register("ItemWidth", typeof(double), typeof(ResizerControl), new FrameworkPropertyMetadata(0d, FrameworkPropertyMetadataOptions.BindsTwoWayByDefault));
        public static readonly DependencyProperty ItemHeightProperty = DependencyProperty.Register("ItemHeight", typeof(double), typeof(ResizerControl), new FrameworkPropertyMetadata(0d, FrameworkPropertyMetadataOptions.BindsTwoWayByDefault));

        public double X
        {
            get { return (double) GetValue(XProperty); }
            set { SetValue(XProperty, value); }
        }

        public double Y
        {
            get { return (double)GetValue(YProperty); }
            set { SetValue(YProperty, value); }
        }

        public double ItemHeight
        {
            get { return (double) GetValue(ItemHeightProperty); }
            set { SetValue(ItemHeightProperty, value); }
        }

        public double ItemWidth
        {
            get { return (double) GetValue(ItemWidthProperty); }
            set { SetValue(ItemWidthProperty, value); }
        }

        public ResizerControl()
        {
            InitializeComponent();
        }

        private void UpperLeft_DragDelta(object sender, DragDeltaEventArgs e)
        {
            X = X + e.HorizontalChange;
            Y = Y + e.VerticalChange;

            ItemHeight = ItemHeight + e.VerticalChange * -1;
            ItemWidth = ItemWidth + e.HorizontalChange * -1;
        }

        private void UpperRight_DragDelta(object sender, DragDeltaEventArgs e)
        {
            Y = Y + e.VerticalChange;

            ItemHeight = ItemHeight + e.VerticalChange * -1;
            ItemWidth = ItemWidth + e.HorizontalChange;
        }

        private void LowerLeft_DragDelta(object sender, DragDeltaEventArgs e)
        {
            X = X + e.HorizontalChange;

            ItemHeight = ItemHeight + e.VerticalChange;
            ItemWidth = ItemWidth + e.HorizontalChange * -1;
        }

        private void LowerRight_DragDelta(object sender, DragDeltaEventArgs e)
        {
            ItemHeight = ItemHeight + e.VerticalChange;
            ItemWidth = ItemWidth + e.HorizontalChange;
        }

        private void Center_DragDelta(object sender, DragDeltaEventArgs e)
        {
            X = X + e.HorizontalChange;
            Y = Y + e.VerticalChange;
        }
    }
share|improve this answer
    
This looks interesting, I'm going to give it a try. Just an FYI, the middle image showing Homer's eye with an ROI over it. When I zoom, pan, or rotate the image I want that rectangle to remain over his eye. Think of a quality control situation where the camera is snapping pictures of Homer posters going by on a conveyor. The camera will examine the pixels within that ROI ensuring that the eye is drawn in correct size, color, etc. If anomalies are detected the UI gets signaled so we can alert someone to reject that poster, or to shut down the line and correct the problem. –  KyleLib Jun 5 '13 at 19:03
1  
Oh, and yes we intend to use MVVM. We're in early proof of concept stages right now. As for MVVM being the only way to do WPF, you might stir up a religious discussion with some folks with that statement. I agree it's an awesome pattern for WPF. –  KyleLib Jun 5 '13 at 19:08
    
FYI, It looks like your ROI template/style example (the first XAML snippet) isn't complete. Looks like a cut/paste error at the beginning of the XAML. –  KyleLib Jun 5 '13 at 19:16
    
@kylelib You're right! correcting that right now. –  HighCore Jun 5 '13 at 19:19
1  
I was able to overcome the scale issues by factoring the ScaleFactor out of the Horizontal and Vertical change for all move and resize events. Essentially I added a ScaleFactor DP to ResizerControl and then added the following code: e.HorizontalChange / (ScaleFactor == 0 ? 1 : ScaleFactor) and e.VerticalChange / (ScaleFactor == 0 ? 1 : ScaleFactor) everywhere they were used. –  KyleLib Jul 24 '13 at 12:54
show 16 more comments

In order to transform shapes without changing their stroke thickness, you may use Path objects with transformed geometries.

The following XAML puts an Image and two Paths on a Canvas. The Image is scaled and translated by a RenderTransform. The same transform is also used for the Transform property of the geometries of the two Paths.

<Canvas>
    <Image Source="C:\Users\Public\Pictures\Sample Pictures\Desert.jpg">
        <Image.RenderTransform>
            <TransformGroup x:Name="transform">
                <ScaleTransform ScaleX="0.5" ScaleY="0.5"/>
                <TranslateTransform X="100" Y="50"/>
            </TransformGroup>
        </Image.RenderTransform>
    </Image>
    <Path Stroke="Orange" StrokeThickness="2">
        <Path.Data>
            <RectangleGeometry Rect="50,100,100,50"
                               Transform="{Binding ElementName=transform}"/>
        </Path.Data>
    </Path>
    <Path Stroke="Orange" StrokeThickness="2">
        <Path.Data>
            <EllipseGeometry Center="250,100" RadiusX="50" RadiusY="50"
                             Transform="{Binding ElementName=transform}"/>
        </Path.Data>
    </Path>
</Canvas>

Your application may now simply change the transform object in response to input events like MouseMove or MouseWheel.

Things get a little bit trickier when it comes to also transforming TextBlocks or other element that should not be scaled, but only be moved to a proper location.

You may create a specialized Panel which is able to apply this kind of transform to its child elements. Such a Panel would define an attached property that controls the position of a child element, and would apply the transform to this position instead of the RenderTransform or LayoutTransform of the child.

This may give you an idea of how such a Panel could be implemented:

public class TransformPanel : Panel
{
    public static readonly DependencyProperty TransformProperty =
        DependencyProperty.Register(
            "Transform", typeof(Transform), typeof(TransformPanel),
            new FrameworkPropertyMetadata(Transform.Identity,
                FrameworkPropertyMetadataOptions.AffectsArrange));

    public static readonly DependencyProperty PositionProperty =
        DependencyProperty.RegisterAttached(
            "Position", typeof(Point?), typeof(TransformPanel),
            new PropertyMetadata(PositionPropertyChanged));

    public Transform Transform
    {
        get { return (Transform)GetValue(TransformProperty); }
        set { SetValue(TransformProperty, value); }
    }

    public static Point? GetPosition(UIElement element)
    {
        return (Point?)element.GetValue(PositionProperty);
    }

    public static void SetPosition(UIElement element, Point? value)
    {
        element.SetValue(PositionProperty, value);
    }

    protected override Size MeasureOverride(Size availableSize)
    {
        var infiniteSize = new Size(double.PositiveInfinity,
                                    double.PositiveInfinity);

        foreach (UIElement element in InternalChildren)
        {
            element.Measure(infiniteSize);
        }

        return new Size();
    }

    protected override Size ArrangeOverride(Size finalSize)
    {
        foreach (UIElement element in InternalChildren)
        {
            ArrangeElement(element, GetPosition(element));
        }

        return finalSize;
    }

    private void ArrangeElement(UIElement element, Point? position)
    {
        var arrangeRect = new Rect(element.DesiredSize);

        if (position.HasValue && Transform != null)
        {
            arrangeRect.Location = Transform.Transform(position.Value);
        }

        element.Arrange(arrangeRect);
    }

    private static void PositionPropertyChanged(
        DependencyObject obj, DependencyPropertyChangedEventArgs e)
    {
        var element = (UIElement)obj;
        var panel = VisualTreeHelper.GetParent(element) as TransformPanel;

        if (panel != null)
        {
            panel.ArrangeElement(element, (Point?)e.NewValue);
        }
    }
}

It would be used in XAML like this:

<local:TransformPanel>
    <local:TransformPanel.Transform>
        <TransformGroup>
            <ScaleTransform ScaleX="0.5" ScaleY="0.5" x:Name="scale"/>
            <TranslateTransform X="100"/>
        </TransformGroup>
    </local:TransformPanel.Transform>
    <Image Source="C:\Users\Public\Pictures\Sample Pictures\Desert.jpg"
           RenderTransform="{Binding Transform, RelativeSource={RelativeSource Mode=FindAncestor, AncestorType=local:TransformPanel}}"/>
    <Path Stroke="Orange" StrokeThickness="2">
        <Path.Data>
            <RectangleGeometry Rect="50,100,100,50"
                               Transform="{Binding Transform, RelativeSource={RelativeSource Mode=FindAncestor, AncestorType=local:TransformPanel}}"/>
        </Path.Data>
    </Path>
    <Path Stroke="Orange" StrokeThickness="2">
        <Path.Data>
            <EllipseGeometry Center="250,100" RadiusX="50" RadiusY="50"
                             Transform="{Binding Transform, RelativeSource={RelativeSource Mode=FindAncestor, AncestorType=local:TransformPanel}}"/>
        </Path.Data>
    </Path>
    <TextBlock Text="Rectangle" local:TransformPanel.Position="50,150"/>
    <TextBlock Text="Ellipse" local:TransformPanel.Position="200,150"/>
</local:TransformPanel>
share|improve this answer
    
Clemens, thanks for the ideas. I tried your Path suggestions and was able to see the correct behavior. Though ultimately I need the shapes to be part of a custom control with properties, methods, events and other controls, plus adorners and thumbs for resize, move and rotate. Once I start wrapping my Path elements in some Panel the strokes will scale again. I'm not sure if implementing a custom Path is the correct way to go. –  KyleLib Jun 5 '13 at 13:33
    
Your Panel must not scale the Path object by either RenderTransform or LayoutTransform, or by settings like HorizontalAlignment or VerticalAlignment. The transform must only be applied to the Geometry.Transform property. –  Clemens Jun 5 '13 at 13:36
    
Clemens, Are you saying that I can be selective about which transform to apply to which elements? Is there a way to selectively apply, or for that matter, ignore a transform. I need all layers to act as if they are one image with the exception that Path thickness and Text do not scale, plus I need to be able to move, resize, rotate, select each Path over the image. I have all of this working today. It's the scrollviewer and stroke thickness eluding me. I'll try your custom Panel idea to see if something stands out and report back. –  KyleLib Jun 5 '13 at 14:09
    
Yes of course. When you look at my example XAML with the local:TransformPanel you'll see that each Path's geometry transform is bound to the Transform property of the Panel. That transform is not applied to the Panel itself, but only to selected children. –  Clemens Jun 5 '13 at 14:21
    
Yes, I did see that in your TransformPanel example, and the resize behavior on the geometries is exactly what I'm looking for. Now I need to figure out how to get them to stick with the pixels that they surround on the image when zoom and pan occur. In the screenshot above, if I pan or zoom the image I need the rectangle to follow and size with the word "Appointment" as if it were part of the image, yet still be able to manipulate the rectangle independent of the image. The ultimate goal is to tell the camera where to look for the word "Appointment". BTW, Thanks for sticking with me on this. –  KyleLib Jun 5 '13 at 15:13
show 3 more comments

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.