C#|.NET : Size String, Truncate Lines

Swiss Crop Circle 2009 Aerial by Kecko, on Flickr
Swiss Crop Circle 2009 Aerial, a photo by Kecko on Flickr.

I needed to truncate lines from CSV string prepared for export through mail in my app. Windows Phone mail restricts text size to 1MB. In my app’s case some CSV reports could go beyond 1MB. To make sure that the CSV report does not exceed a desired size in bytes, I created this extension method – SizeIt. SizeIt can truncate lines (and characters if required) from a given string from beginning or from end and also inserts information text line (how many lines and characters removed) in the resulting string. Following is the test form created to show what the method does to a string. In this example a 300 byte 10 line string is given as input and asked to reduce it to <200 bytes, first from beginning, and then from end.

SizeTail

SizeFront

Here is the code for the extension method:

    public static class StringBuilderExtensions
    {
        /// <summary>
        /// Sizes StringBuilder to given size
        /// </summary>
        /// <param name="sb">StringBuilder</param>
        /// <param name="bytes">Maximum Size of resultant string. Mostly the size of string will be less than max size</param>
        /// <param name="removeLinesFromBeginning">Pass true, if clipping has to happen in the beginning</param>
        public static void SizeIt(this StringBuilder sb, int bytes, bool removeLinesFromBeginning)
        {
            bool _stringReplacementHappened = false;
            bool _maxBytesAdjusted_for_lines = false;
            bool _maxBytesAdjusted_for_chars = false;
            string _insertThismessage = "";
            int _linesRemoved = 0;
            int _charsRemoved = 0;
            //try removing lines.
            while (System.Text.Encoding.Unicode.GetByteCount(sb.ToString()) > bytes)
            {
                char _alternateNewLine = '\r';
                string _workingString = sb.ToString();
                if (!_workingString.Contains(Environment.NewLine) && !_workingString.Contains(_alternateNewLine))
                {
                    break;
                }
                int _newlinelocation = sb.ToString().IndexOf(Environment.NewLine);
                int _lastNewlinelocation = sb.ToString().LastIndexOf(Environment.NewLine);
                if (_newlinelocation <= 0)
                {
                    _newlinelocation = sb.ToString().IndexOf(_alternateNewLine);
                }
                if (_lastNewlinelocation <= 0)
                {
                    _lastNewlinelocation = sb.ToString().LastIndexOf(_alternateNewLine);
                }

                if (removeLinesFromBeginning)
                {
                    sb = sb.Remove(0, _newlinelocation + 1);
                    _linesRemoved++;
                    _stringReplacementHappened = true;
                    _insertThismessage = string.Format("... {0} lines removed{1}", _linesRemoved, Environment.NewLine);
                }
                else
                {
                    int _lastReturnAt = _lastNewlinelocation;
                    int _charsInLastLine = sb.Length - _lastNewlinelocation;
                    sb = sb.Remove(_lastReturnAt, _charsInLastLine);
                    _linesRemoved++;
                    _stringReplacementHappened = true;
                    _insertThismessage = string.Format("{1}{0} lines removed...", _linesRemoved, Environment.NewLine);
                }
                if (!_maxBytesAdjusted_for_lines)
                {
                    bytes -= 50; //40 extra bytes for information text
                    _maxBytesAdjusted_for_lines = true;
                }
            }
            //if it's still more than the desired size
            if (System.Text.Encoding.Unicode.GetByteCount(sb.ToString()) > bytes)
            {
                int _currentBytes = System.Text.Encoding.Unicode.GetByteCount(sb.ToString());
                if (!_maxBytesAdjusted_for_lines)
                {
                    bytes -= 100;
                    _maxBytesAdjusted_for_lines = true;
                    _maxBytesAdjusted_for_chars = true;
                }
                else if (!_maxBytesAdjusted_for_chars)
                {
                    bytes -= 50;
                    _maxBytesAdjusted_for_chars = true;
                }
                int _removeChars = (_currentBytes - bytes) / 2;
                if (removeLinesFromBeginning)
                {
                    sb = sb.Remove(0, _removeChars);
                    _stringReplacementHappened = true;
                    _insertThismessage = string.Format("... {0} lines and {1} chars removed{2}", _linesRemoved, _removeChars, Environment.NewLine);
                }
                else
                {
                    sb = sb.Remove(sb.Length - _removeChars, _removeChars);
                    _stringReplacementHappened = true;
                    _insertThismessage = string.Format("{2}{0} lines and {1} chars removed...", _linesRemoved, _removeChars, Environment.NewLine);
                }
            }
            if (_stringReplacementHappened)
            {
                if (removeLinesFromBeginning)
                {
                    sb.Insert(0, _insertThismessage);
                }
                else
                {
                    sb.Append(_insertThismessage);
                }
            }
        }
    }

You may extend SizeIt to make it even smarter because it has following shortcomings in current version:

  • Does not truncate very closely to Max size. Will always be less than 50 bytes from max.
  • If there are only two lines and line of truncating side is huge, even a slight reduction in size will remove the complete content of the huge line, meaning loosing most of the text. This could be taken care of by firsts analyzing the string and then truncating line/character, as required
  • The logic inherently tries to remove lines first, should intelligently decide whether to remove line or chars.
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Navigation Hierarchy

Avirall Time Suite is an extensive app with 60,000+ working LOC in .cs files. I have not calculated the lines of code in XAML because a major portion of them are auto-generated. Still, there is about same number of lines in XAML files, as well. Avirall has 15 pages and 3 of them have about 5 types, so in all about 30 pages show up in Avirall. During documentation I created a high level diagram of navigation hierarchy in the app. I think it gives a bird’s eye view of how the app’s control flow, kind of circulatory system. This is how it looks like :

MTTHNavigation

UI | UX By & For Dev : User Focus

UI | UX By & For Dev : User Focus

As a developer, if I need to pick a concept which I find most important in deciding the placement of information, then it is the user focus areas on screen. You want your users to find more important information swiftly so you keep those elements in the areas of the screen which get more focus and keep less important elements in areas which are less intrusive during user scanning the page. Have a look at following imaginary compartmentalization of screen areas:

Sufrace Pro 3 Screen Elements Placement UX UI

Green dots represent user focus. So, 1,2 and 5 are the areas which are going to get most focus of user. Then come 3, 6, and 9. And the least focus grabbing areas are 4, 7 and 8. The arrows show the shifting of user gaze while they are scanning your app’s page. This shifting of gaze is closely related to the focus areas. User’s focus shifts in this sequence (not very strictly but generally)
1 > 2 > 5 > 3 > 6 > 9 > 4 > 8 > 7.

This can be a great guide to plan control/element placement in your app.

Microsoft Visual Layout Guide

C# Extension: Random Pastel Colors

C# Extension: Random Pastel Colors

In last post we wrote extension method to get complementary color of a given color. In this post we will write some more extension methods to get colors. Co-incidentally India is totally covered in colors because this is the Holi week.
If you want to have a dynamic feel to your app (or some part of your app) you could fill it with random colors. Let’s write following extension methods which return random color with parameterized control over what type of color output you need:

  • Color.GetRandom – This method returns a random color.
  • Color.GetRandom(Brightness Control) – This method returns a random color between given brightness.
  • Color.GetRandomShade – This returns a random color of the Color’s shade.
  • Color.GetRandomShade(Brightness Control) – It returns a random color of given color between given brightness.
  • Color.GetPastelShade() – Returns a pastel shade of given color.

Let’s code.
We will utilize the same code from our last post and extend the ColorExtensions class. To implement aforesaid methods, add following code to the said class

        static Random randomizer = new Random();
        /// <summary>
        /// Returns a pastel shade of the color
        /// </summary>
        /// <param name="source">Source  color</param>
        /// <returns></returns>
        public static Color GetPastelShade(this Color source)
        {
            return (generateColor(source, true, new HSB { H = 0, S = 0.2d, B = 255 }, new HSB { H = 360, S = 0.5d, B = 255 }));
        }
        /// <summary>
        /// Returns a random color
        /// </summary>
        /// <param name="source">Ignored(Use RandomShade to get a shade of given color)</param>
        /// <returns></returns>
        public static Color GetRandom(this Color source)
        {
            return (generateColor(source, false, new HSB { H = 0, S = 0, B = 0 }, new HSB { H = 360, S = 1, B = 255 }));
        }
        /// <summary>
        /// Returns a random color within a brightness boundry
        /// </summary>
        /// <param name="source">Ignored (Use GetRandomShade to get a random shade of the color)</param>
        /// <param name="minBrightness">A valued from 0.0 to 1.0, 0 is darkest and 1 is lightest</param>
        /// <param name="minBrightness">A valued from 0.0 to 1.0</param>
        /// <returns></returns>
        public static Color GetRandom(this Color source, double minBrightness, double maxBrightness)
        {
            if (minBrightness >= 0 && maxBrightness <= 1)
            {
                return (generateColor(source, false, new HSB { H = 0, S = 1 * minBrightness, B = 255 }, new HSB { H = 360, S = 1 * maxBrightness, B = 255 }));
            }
            else
            {
                throw new ArgumentOutOfRangeException();
            }
        }
        /// <summary>
        /// Returns a random shade of the color
        /// </summary>
        /// <param name="source">Base color for the returned shade</param>
        /// <returns></returns>
        public static Color GetRandomShade(this Color source)
        {
            return (generateColor(source, true, new HSB { H = 0, S = 1, B = 0 }, new HSB { H = 360, S = 1, B = 255 }));
        }
        /// <summary>
        /// Returns a random color within a brightness boundry
        /// </summary>
        /// <param name="source">Base color for the returned shade</param>
        /// <param name="minBrightness">A valued from 0.0 to 1.0, 0 is brightest and 1 is lightest</param>
        /// <param name="minBrightness">A valued from 0.0 to 1.0</param>
        /// <returns></returns>
        public static Color GetRandomShade(this Color source, double minBrightness, double maxBrightness)
        {
            if (minBrightness >= 0 && maxBrightness <= 1)
            {
            return (generateColor(source, true, new HSB { H = 0, S = 1 * minBrightness, B = 255 }, new HSB { H = 360, S = 1 * maxBrightness, B = 255 }));
            }
            else
            {
                throw new ArgumentOutOfRangeException();
            }
        }
        /// <summary>
        /// Process parameters and returns a color
        /// </summary>
        /// <param name="source">Color source</param>
        /// <param name="isaShadeOfSource">Should source be used to generate the new color</param>
        /// <param name="min">Minimum range for HSB</param>
        /// <param name="max">Maximum range for HSB</param>
        /// <returns></returns>
        private static Color generateColor(Color source, bool isaShadeOfSource, HSB min, HSB max)
        {
            HSB hsbValues = ConvertToHSB(new RGB { R = source.R, G = source.G, B = source.B });
            double h_double = randomizer.NextDouble();
            double s_double = randomizer.NextDouble();
            double b_double = randomizer.NextDouble();
            if (max.B - min.B == 0) b_double = 0; //do not change Brightness
            if(isaShadeOfSource)
            {
                min.H = hsbValues.H;
                max.H = hsbValues.H;
                h_double = 0;
            }
            hsbValues = new HSB
            {
                H = Convert.ToDouble(randomizer.Next(Convert.ToInt32(min.H), Convert.ToInt32(max.H))) + h_double,
                S = Convert.ToDouble((randomizer.Next(Convert.ToInt32(min.S * 100), Convert.ToInt32(max.S * 100)))/100d),
                B = Convert.ToDouble(randomizer.Next(Convert.ToInt32(min.B), Convert.ToInt32(max.B))) + b_double
            };
            Debug.WriteLine("H:{0} | S:{1} | B:{2} [Min_S:{3} | Max_S{4}]", hsbValues.H,_hsbValues.S,_hsbValues.B, min.S, max.S) ;
            RGB rgbvalues = ConvertToRGB(_hsbValues);
            return new Color { A = source.A, R = (byte)_rgbvalues.R, G = (byte)_rgbvalues.G, B = (byte)_rgbvalues.B };
        }

You could call these methods like so:

Color randomPurplishPastel = Colors.Purple.GetPastelShade();

Here is an example :

My app uses random colors pretty extensively:

Avirall Time Suite | Nokia Lumia 1520

Holi hai!!!

C# Extension: Complementary Color

C# Extension: Complementary Color

In the image above blue & orange are complementary colors, green and red are complementary colors, purple and yellow are complementary colors, etc. The formula is; two colors, placed exactly opposite to each other on color wheel are complementary. You use complementary color combination to highlight a particular item in your design. For example, if most part of your screen has blue color, for important elements on the screen you would choose orange color. Photographers and painters know about importance of complementary color in making their paintings and photographs beautiful:

Complementary Colors by OneEighteen, on Flickr
Complementary Colors, a photo by OneEighteen on Flickr.

In case your app design is dynamic which gives control to the user to choose a dominant color in your app, e.g. background color, you would want to know the contrast color of the chosen color on-the-fly. Particularly in Windows Phone apps, if you incorporate user selected accent color in app design, for some important elements you might need contrast color. For example, in following screenshot of my app, the accent color on the phone is magenta and the color of the hands, auto generated in code, is green.

QSQIn1020Small

This extension method of Color class returns the contrast color:
(HSB and RGB conversion code courtesy, Yi-Lun Luo)

namespace MyCompany.AwesomeExtensions.MediaHelpers
{
    public static class ColorExtensions
    {
        static Random randomizer = new Random();
        public static Color GetContrast(this Color source, bool preserveOpacity)
        {
            Color inputColor = source;
            //if RGB values are close to each other by a diff less than 10%, then if RGB values are lighter side, decrease the blue by 50% (eventually it will increase in conversion below), if RBB values are on darker side, decrease yellow by about 50% (it will increase in conversion)
            byte avgColorValue = (byte)((source.R + source.G + source.B) / 3);
            int diff_r = Math.Abs(source.R - avgColorValue);
            int diff_g = Math.Abs(source.G - avgColorValue);
            int diff_b = Math.Abs(source.B - avgColorValue);
            if (diff_r < 20 && diff_g < 20 && diff_b < 20) //The color is a shade of gray
            {
                if (avgColorValue < 123) //color is dark
                {
                    inputColor.B = 220;
                    inputColor.G = 230;
                    inputColor.R = 50;
                }
                else
                {
                    inputColor.R = 255;
                    inputColor.G = 255;
                    inputColor.B = 50;
                }
            }
            byte sourceAlphaValue = source.A;
            if (!preserveOpacity)
            {
                sourceAlphaValue = Math.Max(source.A, (byte)127); //We don't want contrast color to be more than 50% transparent ever.
            }
            RGB rgb = new RGB { R = inputColor.R, G = inputColor.G, B = inputColor.B };
            HSB hsb = ConvertToHSB(_rgb);
            hsb.H = hsb.H < 180 ! hsb.H + 180 : hsb.H - 180;
            //hsb.B = isColorDark ? 240 : 50; //Added to create dark on light, and light on dark
            rgb = ConvertToRGB(_hsb);
            return new Color { A = sourceAlphaValue, R = rgb.R, G = (byte)rgb.G, B = (byte)rgb.B };
        }
        internal static RGB ConvertToRGB(HSB hsb)
        {
            // By: <a href="http://blogs.msdn.com/b/codefx/archive/2012/02/09/create-a-color-picker-for-windows-phone.aspx" title="MSDN" target="_blank">Yi-Lun Luo</a>
            double chroma = hsb.S * hsb.B;
            double hue2 = hsb.H / 60;
            double x = chroma * (1 - Math.Abs(hue2 % 2 - 1));
            double r1 = 0d;
            double g1 = 0d;
            double b1 = 0d;
            if (hue2 >= 0 && hue2 < 1)
            {
                r1 = chroma;
                g1 = x;
            }
            else if (hue2 >= 1 && hue2 < 2)
            {
                r1 = x;
                g1 = chroma;
            }
            else if (hue2 >= 2 && hue2 < 3)
            {
                g1 = chroma;
                b1 = x;
            }
            else if (hue2 >= 3 && hue2 < 4)
            {
                g1 = x;
                b1 = chroma;
            }
            else if (hue2 >= 4 && hue2 < 5)
            {
                r1 = x;
                b1 = chroma;
            }
            else if (hue2 >= 5 && hue2 <= 6)
            {
                r1 = chroma;
                b1 = x;
            }
            double m = hsb.B - chroma;
            return new RGB()
            {
                R = r1 + m,
                G = g1 + m,
                B = b1 + m
            };
        }
        internal static HSB ConvertToHSB(RGB rgb)
        {
           // By: <a href="http://blogs.msdn.com/b/codefx/archive/2012/02/09/create-a-color-picker-for-windows-phone.aspx" title="MSDN" target="_blank">Yi-Lun Luo</a>
            double r = rgb.R;
            double g = rgb.G;
            double b = rgb.B;

            double max = Max(r, g, b);
            double min = Min(r, g, b);
            double chroma = max - min;
            double hue2 = 0d;
            if (chroma != 0)
            {
                if (max == r)
                {
                    hue2 = (g - b) / chroma;
                }
                else if (max == g)
                {
                    hue2 = (b - r) / chroma + 2;
                }
                else
                {
                    hue2 = (r - g) / chroma + 4;
                }
            }
            double hue = hue2 * 60;
            if (hue < 0)
            {
                hue += 360;
            }
            double brightness = max;
            double saturation = 0;
            if (chroma != 0)
            {
                saturation = chroma / brightness;
            }
            return new HSB()
            {
                H = hue,
                S = saturation,
                B = brightness
            };
        }
        private static double Max(double d1, double d2, double d3)
        {
            if (d1 > d2)
            {
                return Math.Max(d1, d3);
            }
            return Math.Max(d2, d3);
        }
        private static double Min(double d1, double d2, double d3)
        {
            if (d1 < d2)
            {
                return Math.Min(d1, d3);
            }
            return Math.Min(d2, d3);
        }
        internal struct RGB
        {
            internal double R;
            internal double G;
            internal double B;
        }
        internal struct HSB
        {
            internal double H;
            internal double S;
            internal double B;
        }
    }
}

Get working code from my GitHub repository (POCs).

XAML|C# Step By Step : UserControl – Wait Spinner

Waiting by moonux, on Flickr
Waiting, a photo by moonux on Flickr.

Something is cooking in the background? Do not forget to inform your user. A modern, flat, light weight, wait spinner is an animated and prominent way to inform user about running background processes (you would not have long running processes on the UI thread, right? See how to effectively free up UI). You would choose to show this control in that area of the screen to which the information, related to which the BG work is taking place – loading/processing etc, belongs. You may have multiple information points on screen for which background work is running.

For this step-by-step we will create this example:

A practical example of implementation of this spinner is this panorama app there are two wait spinners being used, one in Quick Stopwatch pano, and other in Recent pano. When data related to Quick stopwatch is loading, the wait spinner shows beside the title “Quick”, and when data related to Recent is loading, the wait spinner shows near the pano title “Recent”. This way user is informed about which section of the app is doing something in the background.

WaitSpinnerExample

Don’t have this app on your Windows Phone? Visit here

Let’s go through step-by-step of creating a WaitSpinner UserControl and using it in a page.

Step 1 : Create Solution and Project

  1. Create a project in VS with the name “WaitSpinner”. The solution gets created automatically.
  2. Right click on the solution in Solution Explorer, and choose “Add”>”New Project”.
  3. Select Class Library type project and name it “XAMLControls”.

Step 2 : Create UserControl

  1. Right click on XAMLControls and select “Add”>”New item”.
  2. Choose User Control and name it “UCWaitSpinner”.
  3. A new UCWaitSpinner.xaml and its code behind is created.

Step 3 : Open in Blend

Right click on UCWaitSpinner.xaml and choose to open in Blend. Depending on the version of Visual Studio the view you get might be a little different, but most of the UI will be similar. You will get something like this:
01_OpenUCInBlend

Step 4 : Change the type of Layout control

Change the type of Layout from Grid to ViewBox.
02_ChangeLayoutType

Step 5 : Add a new Grid to Layout ViewBox

  1. Choose Grid from control and right click and drag in XAML design view area.
  2. Update Layout properties; Height and Width to 50, HorizontalAlignment and VerticalAlignment to Stretch.

03_AddGridToLayoutRoot

Step 6 : Add Outer border

  1. Choose Ellipse tool from Toolbox and create a circle in the design area. Don’t worry about size and fill at this point.
  2. Make sure Ellipse is selected.
  3. In Properties.Brushes;
    • Set Fill to “No Brush”.
    • Set Stroke to “PhoneForegroundBrush”.
  4. In Layout section;
    • Set HorizontalAlignment to stretch.
    • Set VerticalAlignment to stretch.
    • Set all margins to 0.

04_CreateACircle

Step 7 : Add axis for hands

  1. Choose Ellipse tool from Toolbox again and create a circle in the middle of XAML design. Don’t bother about size at this point.
  2. Make sure this ellipse is selected.
  3. In Properties.Brushes;
    • Set Fill to “PhoneForegroundBrush”.
    • Set Stroke to “No Brush”.
  4. In Layout section;
    • Set Width and Height to 5.
    • Set HorizontalAlignment to center.
    • Set VerticalAlignment to center.
    • Set all margins to 0.

05_CreateAxisForHands

Step 8 : Add minute and hour hands

  1. Choose Rectangle tool from Toolbox and create a rectangle in the design area. Don’t worry about size and placement at this point.
  2. Rename the [Rectangle] to “MinuteHand”.
  3. Make sure you have MinuteHand selected.
  4. In Properties.Brushes;
    • Set Fill to “PhoneForegroundBrush”.
    • Set Stroke to “No Brush”.
  5. In Layout section;
    • Set Width to 2 and Height to 20.
    • Set HorizontalAlignment to Center.
    • Set VerticalAlignment to Bottom.
    • Set Bottom margin to 25 and all others to 0.
  6. In Properties.Transform;
    • Select Center Point tab.
    • Set X to 0.5.
    • Set Y to 1.
  7. Copy and paste “MinuteHand” control and name it “HourHand”. Keep everything same and change only the Properties.Layout.Height to 13.

06_CreateMinuteHand

Step 9 : Create Storyboard for moving hands

  1. In Objects and Timeline, click on “+” sign to add a new storyboard.
  2. Name the storyboard as “MoveHands”.

07_CreateStoryBoard

Step 10 : Create animation for minute hand

  1. In timeline window slide the marker to 3 second.
  2. Select MinuteHand control.
  3. In Properties.Transform select Rotate tab and set Angle property to 1440.

07b_CreateStoryBoard

Step 11 : Create animation for hour hand

  1. Select HourHand control.
  2. In Properties.Transform select Rotate tab and set Angle property to 360.
  3. c. In timeline windows click on play button to see hands are rotating properly (Hour hand completes 1 rotation and minute hand completes 4 rotations in 3 seconds).

07c_CreateStoryBoard

Step 11B : Follow me on Twitter 😀

Step 12 : Review XAML code

Close Blend and go back to XAML view of UCWaitSpinner in VS. You should see following XAML code:

<UserControl x:Class="XAMLControls.UCWaitSpinner"
    xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
    xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
    xmlns:d="http://schemas.microsoft.com/expression/blend/2008"
    xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006"
    mc:Ignorable="d"
    FontFamily="{StaticResource PhoneFontFamilyNormal}"
    FontSize="{StaticResource PhoneFontSizeNormal}"
    Foreground="{StaticResource PhoneForegroundBrush}"
    d:DesignHeight="480" d:DesignWidth="480">
	<UserControl.Resources>
		<Storyboard x:Name="MoveHands">
			<DoubleAnimation Duration="0:0:3" To="360" Storyboard.TargetProperty="(UIElement.RenderTransform).(CompositeTransform.Rotation)" Storyboard.TargetName="HourHand" d:IsOptimized="True"/>
			<DoubleAnimation Duration="0:0:3" To="1440" Storyboard.TargetProperty="(UIElement.RenderTransform).(CompositeTransform.Rotation)" Storyboard.TargetName="MinuteHand" d:IsOptimized="True"/>
		</Storyboard>
    </UserControl.Resources>

    <Viewbox x:Name="LayoutRoot">
    	<Grid Width="50" Height="50">
    		<Ellipse Margin="0">
    			<Ellipse.Stroke>
    				<SolidColorBrush Color="{StaticResource PhoneForegroundColor}"/>
    			</Ellipse.Stroke>
    		</Ellipse>
    		<Ellipse Margin="0" Width="4" Height="4" HorizontalAlignment="Center" VerticalAlignment="Center">
    			<Ellipse.Fill>
    				<SolidColorBrush Color="{StaticResource PhoneForegroundColor}"/>
    			</Ellipse.Fill>
    		</Ellipse>
    		<Rectangle x:Name="MinuteHand" Height="20" Margin="0,0,0,25" Width="2" StrokeThickness="0" HorizontalAlignment="Center" VerticalAlignment="Bottom" RenderTransformOrigin="0.5,1">
    			<Rectangle.RenderTransform>
    				<CompositeTransform/>
    			</Rectangle.RenderTransform>
    			<Rectangle.Fill>
    				<SolidColorBrush Color="{StaticResource PhoneContrastBackgroundColor}"/>
    			</Rectangle.Fill>
    		</Rectangle>
    		<Rectangle x:Name="HourHand" Height="13" Margin="0,0,0,25" Width="2" StrokeThickness="0" HorizontalAlignment="Center" VerticalAlignment="Bottom" RenderTransformOrigin="0.5,1">
    			<Rectangle.RenderTransform>
    				<CompositeTransform/>
    			</Rectangle.RenderTransform>
    			<Rectangle.Fill>
    				<SolidColorBrush Color="{StaticResource PhoneContrastBackgroundColor}"/>
    			</Rectangle.Fill>
    		</Rectangle>
    	</Grid>
    </Viewbox>
</UserControl>

Step 13 : Add appear disappear animations

Add AppearClock and DisappearClock animations just below MoveHands inside UserControl.Resource, like so:

        <Storyboard x:Name="AppearClock">
            <DoubleAnimation Duration="0:0:0.3" To="1" Storyboard.TargetProperty="Opacity" Storyboard.TargetName="LayoutRoot" d:IsOptimized="True"/>
        </Storyboard>
        <Storyboard x:Name="DisappearClock">
            <DoubleAnimation Duration="0:0:2" To="0" Storyboard.TargetProperty="Opacity" Storyboard.TargetName="LayoutRoot" d:IsOptimized="True"/>
        </Storyboard>

Step 14 : Update code behind

Open code behind UCWaitSpinner.xaml.cs and add following lines to its constructor:

        public UCWaitSpinner()
        {
            InitializeComponent();
            MoveHands.RepeatBehavior = RepeatBehavior.Forever;
            LayoutRoot.Opacity = 0d;
            DisappearClock.Completed += (object sender, EventArgs e) => { MoveHands.Stop(); };
        }

Step 15 : Add start functionality

Add a public Start method to the class:

        public void Start()
        {
            MoveHands.Stop();
            AppearClock.Begin();
            MoveHands.Begin();
        }

Step 16 : Add stop functionality

Add a public Stop methods to the class:

        public void Stop()
        {
            DisappearClock.Begin();
        }

Step 17 : Build

Build XAMLControls project. If your project builds properly you should see UCWaitSpinner listed in your Toolbox in XAML Controls.

Step 18 : Add spinner to form

Open MainPage.xaml from the main project WaitSpinner and drag UCWaitSpinner from the Toolbox to the page. Open MainPage.xaml in code view and your will find the newly added control in ContentPanel:

        <Grid x:Name="ContentPanel" Grid.Row="1" Margin="12,0,12,0">
                <my:UCWaitSpinner/>
        </Grid>

Step 19 : Edit control properties

In MainPage.xaml name UCWaitSpinner control as “waitSpinner”, add Height and Width properties with a value of 120 in both, and wrap the control in a StackPanel:

        <Grid x:Name="ContentPanel" Grid.Row="1" Margin="12,0,12,0">
            <StackPanel>
                <my:UCWaitSpinner x:Name="waitSpinner" Height="120" Width="120" />
            </StackPanel>
        </Grid>

Step 20 : Add buttons to control test

Add two buttons, just below WaitSpinner, Start and Stop with Click handlers to control WaitSpinner:

        <my:UCWaitSpinner x:Name="waitSpinner" Height="120" Width="120" />
        <Button x:Name="buttonStart" Content="Start" Click="buttonStart_Click"/>
        <Button x:Name="buttonStop" Content="Stop"  Click="buttonStop_Click"/>

Step 21 : Write code in click handlers

Open MainPage.xaml.cs and call Start and Stop of WaitSpinner in buttons’ click handlers:

        private void buttonStart_Click(object sender, RoutedEventArgs e)
        {
            waitSpinner.Start();
        }

        private void buttonStop_Click(object sender, RoutedEventArgs e)
        {
            waitSpinner.Stop();
        }

You can run your code and click on Start button to start spinner. Click on Stop button and spinner will slowly fade out.

Let’s see the example code to integrate the control with background processes.

Make following changes to MainPage.xaml’s ContentPanel control:

        <Grid x:Name="ContentPanel" Grid.Row="1" Margin="12,0,12,0">
            <StackPanel>
                <Grid>
                    <Grid.ColumnDefinitions>
                        <ColumnDefinition/>
                        <ColumnDefinition/>
                    </Grid.ColumnDefinitions>
                    <TextBlock Grid.Column="0" x:Name="textBlockSeconds" Text="..."/>
                    <my:UCWaitSpinner Grid.Column="1" x:Name="waitSpinner2" Height="90" Width="90" />
                </Grid>
                <my:UCWaitSpinner x:Name="waitSpinner" Height="120" Width="120" />
                <Button x:Name="buttonStart" Content="Start" Click="buttonStart_Click"/>
                <Button x:Name="buttonStop" Content="Stop"  Click="buttonStop_Click"/>
                <Button x:Name="buttonBackground" Content="Background" Click="buttonBackground_Click"/>
            </StackPanel>
        </Grid>

And add following code to the code behind MainPage.xaml.cs:

    public partial class MainPage : PhoneApplicationPage
    {
        // Constructor
        Thread bgThread;
        public MainPage()
        {
            InitializeComponent();
            bgThread = new Thread(new ThreadStart(() => 
            {
                Dispatcher.BeginInvoke(new Action(() => { waitSpinner2.Start(); }));
                for (int cnt = 0; cnt < 5; cnt++)
                {
                    Dispatcher.BeginInvoke(new Action(() => { textBlockSeconds.Text = string.Format("Step - {0}/4", cnt); }));
                    Thread.CurrentThread.Join(2000);
                }
                Dispatcher.BeginInvoke(new Action(() => { waitSpinner2.Stop(); }));
            }));
        }

        private void buttonStart_Click(object sender, RoutedEventArgs e)
        {
            waitSpinner.Start();
        }

        private void buttonStop_Click(object sender, RoutedEventArgs e)
        {
            waitSpinner.Stop();
        }

        private void buttonBackground_Click(object sender, RoutedEventArgs e)
        {
            buttonBackground.IsEnabled = false;
            bgThread.Start();
        }
    }

F5. You should see something like this:

Download entire code here.

C# | .NET Extension Methods

Here are some extension methods in, C# | .NET,  I shared on this blog overtime:

Deep Copy: JSON Route

Smart Duration Class

Safe Substring

Get Children

Scale With Aspect Ratio

UpdateSource

Start Date of The Week

End Date of The Week

Start Date of The Month

End Date of The Month

Hope you find them useful.