WPF XAML demo: Difference between revisions
m (Text replacement - "<source" to "<syntaxhighlight") |
m (Change broken links to point to old APL Wiki) |
||
(4 intermediate revisions by 3 users not shown) | |||
Line 42: | Line 42: | ||
</Grid> | </Grid> | ||
</Window> | </Window> | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
Line 50: | Line 50: | ||
win ← FixSimpleXaml sample1 | win ← FixSimpleXaml sample1 | ||
win.Show | win.Show | ||
</ | </syntaxhighlight> | ||
The following window is displayed: | <!-- The following window is displayed: | ||
{{attachment:Sample1.png || width=250}} | {{attachment:Sample1.png || width=250}} --> | ||
<syntaxhighlight lang=apl inline>FixSimpleXaml</ | <syntaxhighlight lang=apl inline>FixSimpleXaml</syntaxhighlight> is a function used to execute the XAML and return the root element as a .Net object. All the other elements that are named in the XAML will be attached to their names to the root object automatically. | ||
For example, the element '''!TextBox''' that is named '''textBox1''' (line 15) and the element '''Button''' that is named '''button1''' (line 22) are attached automatically to the root element by the function <syntaxhighlight lang=apl inline>FixSimpleXaml</ | For example, the element '''!TextBox''' that is named '''textBox1''' (line 15) and the element '''Button''' that is named '''button1''' (line 22) are attached automatically to the root element by the function <syntaxhighlight lang=apl inline>FixSimpleXaml</syntaxhighlight>: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
win.textBox1.Text | win.textBox1.Text | ||
Line 63: | Line 63: | ||
win.button1 | win.button1 | ||
System.Windows.Controls.Button: Click Me ! | System.Windows.Controls.Button: Click Me ! | ||
</ | </syntaxhighlight> | ||
That way you don't need to define a separate variable for each named element. If you install the [[user command]] called <syntaxhighlight lang=apl inline>sfPropGrid</ | That way you don't need to define a separate variable for each named element. If you install the [[user command]] called <syntaxhighlight lang=apl inline>sfPropGrid</syntaxhighlight> you can see all the properties, methods and events of all the named objects by doing (click the combo of NOE to access all the named objects): | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
]noe win ⍝ noe = .Net Object Explorer | ]noe win ⍝ noe = .Net Object Explorer | ||
</ | </syntaxhighlight> | ||
In conclusion <syntaxhighlight lang=apl inline>FixSimpleXaml</ | In conclusion <syntaxhighlight lang=apl inline>FixSimpleXaml</syntaxhighlight> is a simple function to use on simple XAML that does not have events and is properly formed. In production code you may want to do something like this: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
:If ⎕NULL≡myObject ← FixSimpleXaml myXaml | :If ⎕NULL≡myObject ← FixSimpleXaml myXaml | ||
Line 78: | Line 78: | ||
⍝ There is no error. | ⍝ There is no error. | ||
:EndIf | :EndIf | ||
</ | </syntaxhighlight> | ||
=== FixXaml === | === FixXaml === | ||
{{Collapse|For cases where there are events that need to be fixed and have better error handling the function <syntaxhighlight lang=apl inline>FixXaml</ | {{Collapse|For cases where there are events that need to be fixed and have better error handling the function <syntaxhighlight lang=apl inline>FixXaml</syntaxhighlight> is available. It is useful when using XAML taken directly from Visual Studio. For example, with the XAML code in '''sample2''' that has an event on the button (Click<nowiki>=</nowiki>"<syntaxhighlight lang=apl inline>__Button_Click</syntaxhighlight>") at line 24, if you do the following:| | ||
<syntaxhighlight lang=xml> | <syntaxhighlight lang=xml> | ||
<Window | <Window | ||
Line 115: | Line 115: | ||
</Grid> | </Grid> | ||
</Window> | </Window> | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
Line 121: | Line 121: | ||
win.Show | win.Show | ||
</ | </syntaxhighlight> | ||
and then if you click on the button, the value of the '''!TextBox''' will change. The value of the '''!TextBox''' can be retrieved simply by doing: | and then if you click on the button, the value of the '''!TextBox''' will change. The value of the '''!TextBox''' can be retrieved simply by doing: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
win.textBox1.Text | win.textBox1.Text | ||
I Was Clicked ! | I Was Clicked ! | ||
</ | </syntaxhighlight> | ||
The function <syntaxhighlight lang=apl inline>__Button_Click</ | The function <syntaxhighlight lang=apl inline>__Button_Click</syntaxhighlight> is handling the event. The author has taken the convention of naming the callback functions with a double underscore prefix. | ||
The goal is to be able to take the XAML directly from Visual Studio to APL. The single underscore '_' is a valid first character in Visual Studio and APL but is in conflict with the menu object that will accept an underscore as the first character to define a keyboard shortcut. | The goal is to be able to take the XAML directly from Visual Studio to APL. The single underscore '_' is a valid first character in Visual Studio and APL but is in conflict with the menu object that will accept an underscore as the first character to define a keyboard shortcut. | ||
The line 5 of '''sample2''' (x:Class="!WpfApplication3.!MainWindow") that is required by Visual Studio is removed by <syntaxhighlight lang=apl inline>FixXaml</ | The line 5 of '''sample2''' (x:Class="!WpfApplication3.!MainWindow") that is required by Visual Studio is removed by <syntaxhighlight lang=apl inline>FixXaml</syntaxhighlight>. See the comments in the function for more information. | ||
In production code you may want to trap any error by using code like this: | In production code you may want to trap any error by using code like this: | ||
Line 143: | Line 143: | ||
⍝ There is no error. | ⍝ There is no error. | ||
:EndIf | :EndIf | ||
</ | </syntaxhighlight> | ||
=== About ⎕USING === | === About ⎕USING === | ||
In general, when using XAML there is no need to define a <syntaxhighlight lang=apl inline>⎕USING</ | In general, when using XAML there is no need to define a <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> before fixing it except when there is a 3rd party dll involved. For example, the variable <syntaxhighlight lang=apl inline>NewWindow</syntaxhighlight> is defined as: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
<Window | <Window | ||
Line 152: | Line 152: | ||
xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"> | xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"> | ||
</Window> | </Window> | ||
</ | </syntaxhighlight> | ||
and if you do: | and if you do: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
win ← FixSimpleXaml NewWindow | win ← FixSimpleXaml NewWindow | ||
win.Show | win.Show | ||
</ | </syntaxhighlight> | ||
a Window will appear. In procedural code, the following is required for the same result: | a Window will appear. In procedural code, the following is required for the same result: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
Line 163: | Line 163: | ||
win ← ⎕NEW Window | win ← ⎕NEW Window | ||
win.Show | win.Show | ||
</ | </syntaxhighlight> | ||
The first element of XAML must contain the '''xmlns=''' and the '''xmlns:x=''' declarations. This is instructing the parser (in our case '''System.Windows.Markup.!XamlReader''' in the function <syntaxhighlight lang=apl inline>FixSimpleXaml</ | The first element of XAML must contain the '''xmlns=''' and the '''xmlns:x=''' declarations. This is instructing the parser (in our case '''System.Windows.Markup.!XamlReader''' in the function <syntaxhighlight lang=apl inline>FixSimpleXaml</syntaxhighlight> and <syntaxhighlight lang=apl inline>FixXaml</syntaxhighlight>) to load a series of .NET namespaces required to parse the XAML. This is just a convention, there is actually no such web site. | ||
=== 3rd Party Dll === | === 3rd Party Dll === | ||
Line 173: | Line 173: | ||
or | or | ||
xmlns:myname="http://schemas.somewebsite.com/xaml" ⍝ A website name given by the 3rd party dll (may not exists) | xmlns:myname="http://schemas.somewebsite.com/xaml" ⍝ A website name given by the 3rd party dll (may not exists) | ||
</ | </syntaxhighlight> | ||
The method on the first line is recommended. Here is an example with the Syncfusion !PropertyGrid: | The method on the first line is recommended. Here is an example with the Syncfusion !PropertyGrid: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
xmlns:sf="clr-namespace:Syncfusion.Windows.PropertyGrid;assembly=Syncfusion.PropertyGrid.Wpf" ⍝ Notice no .dll at the end | xmlns:sf="clr-namespace:Syncfusion.Windows.PropertyGrid;assembly=Syncfusion.PropertyGrid.Wpf" ⍝ Notice no .dll at the end | ||
</ | </syntaxhighlight> | ||
and the XAML will look like this: | and the XAML will look like this: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
<sf:PropertyGrid x:Name="PGrid"/> ⍝ Notice the prefix 'sf' is the same on both lines (you choose the prefix). | <sf:PropertyGrid x:Name="PGrid"/> ⍝ Notice the prefix 'sf' is the same on both lines (you choose the prefix). | ||
</ | </syntaxhighlight> | ||
but this is not enough, <syntaxhighlight lang=apl inline>⎕USING</ | but this is not enough, <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> must be set up correctly before fixing the XAML for 3rd party dlls in order for the parser to find the assembly. Here is an example for the Syncfusion !PropertyGrid ('''Syncfusion/4.5/''' is the Dyalog sub-directory where the assemblies live): | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
⎕USING ← 'Syncfusion.Windows.PropertyGrid,Syncfusion/4.5/Syncfusion.PropertyGrid.Wpf.dll' ⍝ The .dll is required | ⎕USING ← 'Syncfusion.Windows.PropertyGrid,Syncfusion/4.5/Syncfusion.PropertyGrid.Wpf.dll' ⍝ The .dll is required | ||
Line 191: | Line 191: | ||
⎕USING ← 'MyNamespace,SubDirectoryOfDyalogFolder/MyDllName.dll' ⍝ If the dll is in a sub-directory of dyalog.exe | ⎕USING ← 'MyNamespace,SubDirectoryOfDyalogFolder/MyDllName.dll' ⍝ If the dll is in a sub-directory of dyalog.exe | ||
⎕USING ← 'MyNamespace,MyDllName.dll' ⍝ If the dll is in the same directory as dyalog.exe | ⎕USING ← 'MyNamespace,MyDllName.dll' ⍝ If the dll is in the same directory as dyalog.exe | ||
</ | </syntaxhighlight> | ||
Another thing with the value of <syntaxhighlight lang=apl inline>⎕USING</ | Another thing with the value of <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> for 3rd party dll is that it must be set in the __same namespace__ as where <syntaxhighlight lang=apl inline>FixXaml</syntaxhighlight> or <syntaxhighlight lang=apl inline>FixSimpleXaml</syntaxhighlight> is located (because <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> is Namespace scope). Alternatively, if you setup your <syntaxhighlight lang=apl inline>dyalog.exe.config</syntaxhighlight> file that is in the same directory as the <syntaxhighlight lang=apl inline>dyalog.exe</syntaxhighlight> file with a directive to look in the <syntaxhighlight lang=apl inline>Syncfusion/4.5</syntaxhighlight> directory you will not need to set up <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> and you don't need to worry about loading it into memory. | ||
Typically the file will look like this: | Typically the file will look like this: | ||
Line 210: | Line 210: | ||
</runtime> | </runtime> | ||
</configuration> | </configuration> | ||
</ | </syntaxhighlight> | ||
When using procedural code instead of XAML you may want to define a one time <syntaxhighlight lang=apl inline>⎕USING</ | When using procedural code instead of XAML you may want to define a one time <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> like this: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
⎕USING←Using | ⎕USING←Using | ||
</ | </syntaxhighlight> | ||
{{Collapse|A typical definition of the function <syntaxhighlight lang=apl inline>Using</ | {{Collapse|A typical definition of the function <syntaxhighlight lang=apl inline>Using</syntaxhighlight> is like this (contributed by Dyalog and Michael J. Hughes):| | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
use←Using | use←Using | ||
Line 255: | Line 255: | ||
use,←⊂'System.Objects' | use,←⊂'System.Objects' | ||
use,←⊂'System.Globalization' | use,←⊂'System.Globalization' | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
To add a new definition to an existing <syntaxhighlight lang=apl inline>⎕USING</ | To add a new definition to an existing <syntaxhighlight lang=apl inline>⎕USING</syntaxhighlight> and to prevent duplicate entries the 'Union' operator is used like this: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
⎕USING∪←⊂'System.Windows.Controls,PresentationFramework.dll' | ⎕USING∪←⊂'System.Windows.Controls,PresentationFramework.dll' | ||
</ | </syntaxhighlight> | ||
=== Fixing Images === | === Fixing Images === | ||
In XAML you declare an Image object that is on disk the following way: | In XAML you declare an Image object that is on disk the following way: | ||
Line 268: | Line 268: | ||
Width="24" | Width="24" | ||
Height="24"/> | Height="24"/> | ||
</ | </syntaxhighlight> | ||
When you want to keep the Image definition in the APL workspace (because it is easier that way to distribute the workspace or the namespace) one way of doing it is by keeping a [[wikipedia:Base64|Base64]] definition of the Image. Base64 encoding is using a set of 64 visible characters to encode binary data. | When you want to keep the Image definition in the APL workspace (because it is easier that way to distribute the workspace or the namespace) one way of doing it is by keeping a [[wikipedia:Base64|Base64]] definition of the Image. Base64 encoding is using a set of 64 visible characters to encode binary data. | ||
Line 281: | Line 281: | ||
Copy_b64 ← FileToBase64String 'D:\Copy.png' | Copy_b64 ← FileToBase64String 'D:\Copy.png' | ||
Cut_b64 ← FileToBase64String 'D:\Cut.png' | Cut_b64 ← FileToBase64String 'D:\Cut.png' | ||
</ | </syntaxhighlight> | ||
The variable <syntaxhighlight lang=apl inline>Copy_b64</ | The variable <syntaxhighlight lang=apl inline>Copy_b64</syntaxhighlight> in the attached namespace looks like this: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
Copy_b64 | Copy_b64 | ||
iVBORw0KGgoAAAANSUhEUgAAABgAAAAYCAMAAADXqc3KAAAAaVBMVEX///8AAAC2tra2tra2tra2trb////+/v62trb9/f309PT7+/vExMSurq6Hh4f4+Pj8/Pz5+fnMzMyenp6/zduoqKilpaXNzc2xsbHu7u6Li4vk5OTa2tro6Oj6+vrm5uaMjIympqby8vJPA9lJAAAABnRSTlMAAM8Q7zCjkYU+AAAAiklEQVR4XoXM2Q7CMAxE0bqAk+7s+/7/H4mJMGNXQdzXo5mCiKK2X01nlCpSkbXdspxk4VCLOHBvDvwbYPSWgxu/JQMn5rotMzA8L+d24wAFB+tvzEeFIGDr/0LlrjwEE2D+CxoZ4aoCLASQgau8mQAsb7hqFLp7L28mBSKKPJgS0AdcgO6xtQm8AN3LEZUq6MiXAAAAAElFTkSuQmCC | iVBORw0KGgoAAAANSUhEUgAAABgAAAAYCAMAAADXqc3KAAAAaVBMVEX///8AAAC2tra2tra2tra2trb////+/v62trb9/f309PT7+/vExMSurq6Hh4f4+Pj8/Pz5+fnMzMyenp6/zduoqKilpaXNzc2xsbHu7u6Li4vk5OTa2tro6Oj6+vrm5uaMjIympqby8vJPA9lJAAAABnRSTlMAAM8Q7zCjkYU+AAAAiklEQVR4XoXM2Q7CMAxE0bqAk+7s+/7/H4mJMGNXQdzXo5mCiKK2X01nlCpSkbXdspxk4VCLOHBvDvwbYPSWgxu/JQMn5rotMzA8L+d24wAFB+tvzEeFIGDr/0LlrjwEE2D+CxoZ4aoCLASQgau8mQAsb7hqFLp7L28mBSKKPJgS0AdcgO6xtQm8AN3LEZUq6MiXAAAAAElFTkSuQmCC | ||
</ | </syntaxhighlight> | ||
This format is perfect for scripted namespaces; compare this to storing the image with the original file values that would have some non-visual characters. | This format is perfect for scripted namespaces; compare this to storing the image with the original file values that would have some non-visual characters. | ||
==== Step 2: Set the .Source of each Image with the function ImageFromBase64String ==== | ==== Step 2: Set the .Source of each Image with the function ImageFromBase64String ==== | ||
At run time, after obtaining the root object set the <syntaxhighlight lang=apl inline>.Source</ | At run time, after obtaining the root object set the <syntaxhighlight lang=apl inline>.Source</syntaxhighlight> of each Image from the previously saved APL variable. | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
win ← FixSimpleXaml sample3 | win ← FixSimpleXaml sample3 | ||
Line 297: | Line 297: | ||
win.Copy_b64.Source ← ImageFromBase64String Copy_b64 | win.Copy_b64.Source ← ImageFromBase64String Copy_b64 | ||
win.Cut_b64.Source ← ImageFromBase64String Cut_b64 | win.Cut_b64.Source ← ImageFromBase64String Cut_b64 | ||
</ | </syntaxhighlight> | ||
If there are many images in the XAML, the following lines of code can automate the process at run time: | If there are many images in the XAML, the following lines of code can automate the process at run time: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
Line 306: | Line 306: | ||
⍝ Base64 variable ending with '_b64' in the APL workspace. | ⍝ Base64 variable ending with '_b64' in the APL workspace. | ||
win {(⍺.⍎⍵).Source←ImageFromBase64String⍎⍵}¨ imgNames | win {(⍺.⍎⍵).Source←ImageFromBase64String⍎⍵}¨ imgNames | ||
</ | </syntaxhighlight> | ||
The icon and the cursor of the main window can be fixed manually by doing the following: | The icon and the cursor of the main window can be fixed manually by doing the following: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
Line 314: | Line 314: | ||
⍝ Fix manually the Cursor of the main window. | ⍝ Fix manually the Cursor of the main window. | ||
win.Cursor ← CursorFromBase64String HandCursor_b64 | win.Cursor ← CursorFromBase64String HandCursor_b64 | ||
</ | </syntaxhighlight> | ||
=== Routed Events === | === Routed Events === | ||
In WPF it is possible to set a single function that will receive all the Click events on the window (in this example it is <syntaxhighlight lang=apl inline>__EventHandler</ | In WPF it is possible to set a single function that will receive all the Click events on the window (in this example it is <syntaxhighlight lang=apl inline>__EventHandler</syntaxhighlight>) by doing: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
⍝ Set Routed Events on the whole Window for ClickEvent when a MenuItem or a Button are clicked. | ⍝ Set Routed Events on the whole Window for ClickEvent when a MenuItem or a Button are clicked. | ||
Line 323: | Line 323: | ||
win.AddHandler(Controls.MenuItem.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) | win.AddHandler(Controls.MenuItem.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) | ||
win.AddHandler(ButtonBase.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) | win.AddHandler(ButtonBase.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) | ||
</ | </syntaxhighlight> | ||
This is useful because that way you don't need to define individual click events for each control. | This is useful because that way you don't need to define individual click events for each control. | ||
{{Collapse|The function <syntaxhighlight lang=apl inline>__EventHandler</ | {{Collapse|The function <syntaxhighlight lang=apl inline>__EventHandler</syntaxhighlight> will handle all the click events on the window code (the double underscore prefix is not necessary but is kept for naming consistency)| | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
__EventHandler(sender event);name | __EventHandler(sender event);name | ||
Line 360: | Line 360: | ||
'Error: Unknow Name' | 'Error: Unknow Name' | ||
:EndSelect | :EndSelect | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
Line 366: | Line 366: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
win.Show | win.Show | ||
</ | </syntaxhighlight> | ||
{{Collapse|The function <syntaxhighlight lang=apl inline>DemoSample3</ | {{Collapse|The function <syntaxhighlight lang=apl inline>DemoSample3</syntaxhighlight> contains all the code related to '''sample3'''| | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
∇ DemoSample3;imgNames | ∇ DemoSample3;imgNames | ||
Line 394: | Line 394: | ||
win.Show | win.Show | ||
∇ | ∇ | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
{{Collapse|The function <syntaxhighlight lang=apl inline>ScrubAndFix</ | {{Collapse|The function <syntaxhighlight lang=apl inline>ScrubAndFix</syntaxhighlight> will remove all the events from the XAML by looping on a <syntaxhighlight lang=apl inline>XamlXmlReader</syntaxhighlight> object. It is slower than <syntaxhighlight lang=apl inline>FixXaml</syntaxhighlight> but the events don't need to have a specific prefix. Perfect for experimenting with the XAML taken directly from the Web. All the named objects are attached to the root object| | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
∇ rootObj←ScrubAndFix xamlString;err;names;nodeNumber;reader;stringReader;writer;⎕USING | ∇ rootObj←ScrubAndFix xamlString;err;names;nodeNumber;reader;stringReader;writer;⎕USING | ||
Line 494: | Line 494: | ||
:EndTrap | :EndTrap | ||
∇ | ∇ | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
The User Command [ | The User Command [https://old.aplwiki.com/wpfXamlEditor wpfXamlEditor] is designed to edit the XAML saved in the workspace and on disk. | ||
=== Inserting WPF Controls into Traditional Dyalog Windows === | === Inserting WPF Controls into Traditional Dyalog Windows === | ||
You can insert a WPF control into an already existing application developed with <syntaxhighlight lang=apl inline>⎕WC</ | You can insert a WPF control into an already existing application developed with <syntaxhighlight lang=apl inline>⎕WC</syntaxhighlight> by using an [https://msdn.microsoft.com/en-us/library/system.windows.forms.integration.elementhost(v=vs.110).aspx ElementHost] and a Dyalog's <syntaxhighlight lang=apl inline>NetControl</syntaxhighlight>. Here is an example of how to insert a WPF Button: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
⎕USING∪←⊂'System.Windows.Forms.Integration,WPF/WindowsFormsIntegration.dll' ⍝ Location of 'ElementHost' | ⎕USING∪←⊂'System.Windows.Forms.Integration,WPF/WindowsFormsIntegration.dll' ⍝ Location of 'ElementHost' | ||
Line 513: | Line 513: | ||
bn.onClick ← '__Button_Click' | bn.onClick ← '__Button_Click' | ||
F.eh.Child ← bn | F.eh.Child ← bn | ||
</ | </syntaxhighlight> | ||
Instead of a Button, you could use some complex XAML developed with Visual Studio. You just need to fix the XAML with <syntaxhighlight lang=apl inline>FixXaml</ | Instead of a Button, you could use some complex XAML developed with Visual Studio. You just need to fix the XAML with <syntaxhighlight lang=apl inline>FixXaml</syntaxhighlight> and make it the child of the <syntaxhighlight lang=apl inline>ElementHost</syntaxhighlight> element. | ||
=== How to Access the UI Thread from Another Thread === | === How to Access the UI Thread from Another Thread === | ||
Since Net 2.0 Microsoft does not allow writing on the UI thread from another thread for security and stability reasons. Consequently, if you are executing a long calculation on another thread and you want to show the results by accessing directly the UI thread it is not possible. | Since Net 2.0 Microsoft does not allow writing on the UI thread from another thread for security and stability reasons. Consequently, if you are executing a long calculation on another thread and you want to show the results by accessing directly the UI thread it is not possible. | ||
==== With a Delegate ==== | ==== With a Delegate ==== | ||
{{Collapse|You need to use a little function with the code to be executed that will be put in queue to be executed on the UI thread. This is called a 'Delegate' by Microsoft. The function <syntaxhighlight lang=apl inline>DispatchDelegate</ | {{Collapse|You need to use a little function with the code to be executed that will be put in queue to be executed on the UI thread. This is called a 'Delegate' by Microsoft. The function <syntaxhighlight lang=apl inline>DispatchDelegate</syntaxhighlight> is an example of how to do this| | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
obj DispatchDelegate action;delegate;⎕USING | obj DispatchDelegate action;delegate;⎕USING | ||
Line 550: | Line 550: | ||
:EndIf | :EndIf | ||
:End | :End | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
Here is an example of how to use that function: | Here is an example of how to use that function: | ||
Line 560: | Line 560: | ||
win DispatchDelegate& 'win.Title←''MyDelegateTitle''' ⍝ The .Title property is changed from another thread | win DispatchDelegate& 'win.Title←''MyDelegateTitle''' ⍝ The .Title property is changed from another thread | ||
</ | </syntaxhighlight> | ||
{{Collapse|If you have many lines that need to be executed in the UI thread the function <syntaxhighlight lang=apl inline>ScriptFollowsDispatchDelegate</ | {{Collapse|If you have many lines that need to be executed in the UI thread the function <syntaxhighlight lang=apl inline>ScriptFollowsDispatchDelegate</syntaxhighlight> can be used like this| | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
ScriptFollowsDispatchDelegate obj;actions;delegate;dtlb;⎕IO;⎕ML;⎕USING | ScriptFollowsDispatchDelegate obj;actions;delegate;dtlb;⎕IO;⎕ML;⎕USING | ||
Line 599: | Line 599: | ||
:EndIf | :EndIf | ||
:End | :End | ||
</ | </syntaxhighlight> | ||
}} | }} | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
Line 610: | Line 610: | ||
[9] ⍝∇ line 3 to by executed in the UI thread | [9] ⍝∇ line 3 to by executed in the UI thread | ||
[10] ⍝∇ line 4 to by executed in the UI thread | [10] ⍝∇ line 4 to by executed in the UI thread | ||
</ | </syntaxhighlight> | ||
The author has taken the prefix '⍝∇' instead of '⍝' because in production code you will probably want to erase all the comments in your runtime WS because they are useless and it is helping to obfuscate the code while taking less space. | The author has taken the prefix '⍝∇' instead of '⍝' because in production code you will probably want to erase all the comments in your runtime WS because they are useless and it is helping to obfuscate the code while taking less space. | ||
==== With a DispatcherTimer ==== | ==== With a DispatcherTimer ==== | ||
Line 620: | Line 620: | ||
tm1_obj.onTick ← '#.MyFunction' ⍝ Function to be executed every 1 second on the Dispatcher of the object 'myObj' | tm1_obj.onTick ← '#.MyFunction' ⍝ Function to be executed every 1 second on the Dispatcher of the object 'myObj' | ||
tm1_obj.Start | tm1_obj.Start | ||
</ | </syntaxhighlight> | ||
Note that since the <syntaxhighlight lang=apl inline>DispatcherTimer</ | Note that since the <syntaxhighlight lang=apl inline>DispatcherTimer</syntaxhighlight> is executed on the UI thread you cannot have a long callback because it will freeze the UI during its execution. | ||
==== With a BackgroundWorker ==== | ==== With a BackgroundWorker ==== | ||
The .NET framework provides a simple way to get started in threading with the [https://msdn.microsoft.com/fr-fr/library/cc221403(v=vs.95).aspx BackgroundWorker] component. This wraps much of the complexity and makes spawning a background thread relatively safe. It offers several features which include spawning a background thread, the ability to cancel the background process before it has completed, and the chance to report the progress back to your UI. The <syntaxhighlight lang=apl inline>BackgroundWorker</ | The .NET framework provides a simple way to get started in threading with the [https://msdn.microsoft.com/fr-fr/library/cc221403(v=vs.95).aspx BackgroundWorker] component. This wraps much of the complexity and makes spawning a background thread relatively safe. It offers several features which include spawning a background thread, the ability to cancel the background process before it has completed, and the chance to report the progress back to your UI. The <syntaxhighlight lang=apl inline>BackgroundWorker</syntaxhighlight> is an excellent tool when you want multithreading in your application with access to the UI thread, mainly because it's so easy to use. | ||
An example is included in this namespace. It is inspired by [http://www.wpf-tutorial.com/misc/multi-threading-with-the-backgroundworker/ this article]. You start the example by doing: | An example is included in this namespace. It is inspired by [http://www.wpf-tutorial.com/misc/multi-threading-with-the-backgroundworker/ this article]. You start the example by doing: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
BackgroundWorkerSample& 1000 | BackgroundWorkerSample& 1000 | ||
</ | </syntaxhighlight> | ||
A window will appear and if you click on the 'Start' button, the UI will be refreshed with the multiple of 42 between 1 and 1000 while simulating a long calculation. Check the comments of this function with the links for more details. | A window will appear and if you click on the 'Start' button, the UI will be refreshed with the multiple of 42 between 1 and 1000 while simulating a long calculation. Check the comments of this function with the links for more details. | ||
=== How to install wpfXamlDemo in your workspace === | === How to install wpfXamlDemo in your workspace === | ||
# Download [ | # Download [https://old.aplwiki.com/wpfXamlDemo?action=AttachFile&do=view&target=wpfXamlDemo.v1.6.txt wpfXamlDemo.v1.6.txt] | ||
# Do a Select all (Ctrl+A) and a copy (Ctrl+C). | # Do a Select all (Ctrl+A) and a copy (Ctrl+C). | ||
# In your workspace execute <syntaxhighlight lang=apl inline>)ed ⍟ wpfXamlDemo </ | # In your workspace execute <syntaxhighlight lang=apl inline>)ed ⍟ wpfXamlDemo </syntaxhighlight> | ||
# Paste (Ctrl+V) the text into the Dyalog editor | # Paste (Ctrl+V) the text into the Dyalog editor | ||
# Press Escape and ')save' your workspace | # Press Escape and ')save' your workspace | ||
Line 642: | Line 642: | ||
<syntaxhighlight lang=apl> | <syntaxhighlight lang=apl> | ||
#.wpfXamlDemo←{('n' ⎕NS ⍵)⊢n←⎕NS ''}#.wpfXamlDemo | #.wpfXamlDemo←{('n' ⎕NS ⍵)⊢n←⎕NS ''}#.wpfXamlDemo | ||
</ | </syntaxhighlight> | ||
[[Category:Tutorials]][[Category:Dyalog APL examples]][[Category:.NET]] | [[Category:Tutorials]][[Category:Dyalog APL examples]][[Category:.NET]] |
Latest revision as of 13:13, 4 March 2024
This page gives a Dyalog APL demonstratration of WPF XAMPL with some utility functions, delivered in the form of a namespace.
Please read the Dyalog tutorials for a more detailed explanation. Part of the code was taken from CodeProject: A Beginner's Guide.
What is XAML?
XAML stands for Extensible Application Markup Language (and pronounced "Zammel"). It's a simple language based on wikipedia:XML to create and initialize .NET objects with hierarchical relations.
All you can do in XAML can also be done in code. XAML is just another way to create and initialize objects.
You can use WPF without using XAML. It's up to you whether you want to declare it in XAML or write it as code. There is a XAML Overview from Microsoft.
<Window xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation" xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006" xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml" Height="200" Width="250" Title="MainWindow" WindowStartupLocation="CenterScreen"> <Grid> <Grid.RowDefinitions> <RowDefinition Height="0.5*"/> <RowDefinition Height="0.5*"/> </Grid.RowDefinitions> <TextBox x:Name="textBox1" Width="130" HorizontalAlignment="Center" VerticalAlignment="Center" Text="TextBox" TextAlignment="Center"/> <Button x:Name="button1" Height="40" Width="120" Grid.Row="1" HorizontalAlignment="Center" VerticalAlignment="Center" Content="Click Me !"/> </Grid> </Window>
FixSimpleXaml
If you install the attached namespace and execute the following 2 lines in your workspace:
win ← FixSimpleXaml sample1 win.Show
FixSimpleXaml
is a function used to execute the XAML and return the root element as a .Net object. All the other elements that are named in the XAML will be attached to their names to the root object automatically.
For example, the element !TextBox that is named textBox1 (line 15) and the element Button that is named button1 (line 22) are attached automatically to the root element by the function FixSimpleXaml
:
win.textBox1.Text Textbox win.button1 System.Windows.Controls.Button: Click Me !
That way you don't need to define a separate variable for each named element. If you install the user command called sfPropGrid
you can see all the properties, methods and events of all the named objects by doing (click the combo of NOE to access all the named objects):
]noe win ⍝ noe = .Net Object Explorer
In conclusion FixSimpleXaml
is a simple function to use on simple XAML that does not have events and is properly formed. In production code you may want to do something like this:
:If ⎕NULL≡myObject ← FixSimpleXaml myXaml ⍝ Fixing the XAML did not work. Show an error and exit. ⎕ ← 'Error Fixing XAML' →0 :Else ⍝ There is no error. :EndIf
FixXaml
FixXaml
is available. It is useful when using XAML taken directly from Visual Studio. For example, with the XAML code in sample2 that has an event on the button (Click="__Button_Click
") at line 24, if you do the following:<Window xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation" xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006" xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml" x:Class="WpfApplication3.MainWindow" Height="200" Width="250" Title="MainWindow" WindowStartupLocation="CenterScreen"> <Grid> <Grid.RowDefinitions> <RowDefinition Height="0.5*"/> <RowDefinition Height="0.5*"/> </Grid.RowDefinitions> <TextBox x:Name="textBox1" Width="130" HorizontalAlignment="Center" VerticalAlignment="Center" Text="TextBox" TextAlignment="Center"/> <Button x:Name="button1" Click="__Button_Click" Height="40" Width="120" Grid.Row="1" HorizontalAlignment="Center" VerticalAlignment="Center" Content="Click Me !"/> </Grid> </Window>
win ← FixXaml sample2 win.Show
and then if you click on the button, the value of the !TextBox will change. The value of the !TextBox can be retrieved simply by doing:
win.textBox1.Text I Was Clicked !
The function __Button_Click
is handling the event. The author has taken the convention of naming the callback functions with a double underscore prefix.
The goal is to be able to take the XAML directly from Visual Studio to APL. The single underscore '_' is a valid first character in Visual Studio and APL but is in conflict with the menu object that will accept an underscore as the first character to define a keyboard shortcut.
The line 5 of sample2 (x:Class="!WpfApplication3.!MainWindow") that is required by Visual Studio is removed by FixXaml
. See the comments in the function for more information.
In production code you may want to trap any error by using code like this:
:If ⎕NULL≡↑myObject ← FixXaml myXaml ⍝ Fixing the XAML did not work. Show an error and exit. ⎕ ← 2⊃myObject →0 :Else ⍝ There is no error. :EndIf
About ⎕USING
In general, when using XAML there is no need to define a ⎕USING
before fixing it except when there is a 3rd party dll involved. For example, the variable NewWindow
is defined as:
<Window xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation" xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"> </Window>
and if you do:
win ← FixSimpleXaml NewWindow win.Show
a Window will appear. In procedural code, the following is required for the same result:
⎕USING←'System.Windows,WPF/PresentationFramework.dll' win ← ⎕NEW Window win.Show
The first element of XAML must contain the xmlns= and the xmlns:x= declarations. This is instructing the parser (in our case System.Windows.Markup.!XamlReader in the function FixSimpleXaml
and FixXaml
) to load a series of .NET namespaces required to parse the XAML. This is just a convention, there is actually no such web site.
3rd Party Dll
When using 3rd party dll, they must be added to the declaration in the first element of XAML. There are 2 choices on how to do it:
xmlns:myname="clr‑namespace:MyNamespace;assembly=MyDllName" ⍝ Notice that there is no '.dll' after MyDllName or xmlns:myname="http://schemas.somewebsite.com/xaml" ⍝ A website name given by the 3rd party dll (may not exists)
The method on the first line is recommended. Here is an example with the Syncfusion !PropertyGrid:
xmlns:sf="clr-namespace:Syncfusion.Windows.PropertyGrid;assembly=Syncfusion.PropertyGrid.Wpf" ⍝ Notice no .dll at the end
and the XAML will look like this:
<sf:PropertyGrid x:Name="PGrid"/> ⍝ Notice the prefix 'sf' is the same on both lines (you choose the prefix).
but this is not enough, ⎕USING
must be set up correctly before fixing the XAML for 3rd party dlls in order for the parser to find the assembly. Here is an example for the Syncfusion !PropertyGrid (Syncfusion/4.5/ is the Dyalog sub-directory where the assemblies live):
⎕USING ← 'Syncfusion.Windows.PropertyGrid,Syncfusion/4.5/Syncfusion.PropertyGrid.Wpf.dll' ⍝ The .dll is required or more general ⎕USING ← 'MyNamespace,FullPathOfAssembly/MyDllName.dll' ⍝ If the dll is outside of the dyalog.exe folder ⎕USING ← 'MyNamespace,SubDirectoryOfDyalogFolder/MyDllName.dll' ⍝ If the dll is in a sub-directory of dyalog.exe ⎕USING ← 'MyNamespace,MyDllName.dll' ⍝ If the dll is in the same directory as dyalog.exe
Another thing with the value of ⎕USING
for 3rd party dll is that it must be set in the __same namespace__ as where FixXaml
or FixSimpleXaml
is located (because ⎕USING
is Namespace scope). Alternatively, if you setup your dyalog.exe.config
file that is in the same directory as the dyalog.exe
file with a directive to look in the Syncfusion/4.5
directory you will not need to set up ⎕USING
and you don't need to worry about loading it into memory.
Typically the file will look like this:
<configuration> <startup useLegacyV2RuntimeActivationPolicy="true"> <supportedRuntime version="v4.0"> </supportedRuntime> </startup> <runtime> <assemblyBinding xmlns="urn:schemas-microsoft-com:asm.v1"> <probing privatePath="MJHSoftware;Syncfusion/4.5"> </probing> </assemblyBinding> <!-- <NetFx40_LegacySecurityPolicy enabled="true"/> --> <loadFromRemoteSources enabled="true"/> </runtime> </configuration>
When using procedural code instead of XAML you may want to define a one time ⎕USING
like this:
⎕USING←Using
Using
is like this (contributed by Dyalog and Michael J. Hughes):use←Using ⍝ Full ⎕Using used by system. use←'' 'System,System.dll' use,←⊂'System.Windows,WPF/PresentationFramework.dll' use,←⊂'System.Windows,WPF/PresentationCore.dll' use,←⊂'System.Windows.Input,WPF/PresentationCore.dll' use,←⊂'System.Windows.Shapes' use,←⊂'System.Windows.MessageBox' use,←⊂'Microsoft.Win32,WPF/PresentationFramework.dll' use,←⊂'System.Windows.Controls' use,←⊂'System.Windows.Markup' use,←⊂'System.Windows.Navigation' use,←⊂'System.Windows.Media' use,←⊂'System.Windows.Media.Imaging' use,←⊂'System.Windows.Documents' use,←⊂'System.Drawing.Bitmap' use,←⊂'System.Windows.Controls.Primitives' use,←⊂'System.Windows.Data' use,←⊂'System.Data,system.data.dll' use,←⊂'System.Xml,system.xml.dll' use,←⊂'System.Windows.Automation.Peers' use,←⊂'System.Windows.Automation.Provider,WPF/UIAutomationProvider.dll' use,←⊂'System.Windows,WPF/WindowsBase.dll' use,←⊂'System.ComponentModel,System.dll' use,←⊂'System.Windows.Media.Animation,WPF/PresentationFramework.dll' use,←⊂'System.Windows.Media.Animation,WPF/PresentationCore.dll' use,←⊂'System.Printing,WPF/ReachFramework.dll' use,←⊂'System.Windows.Threading' use,←⊂'System.Threading' use,←⊂'System.IO' use,←⊂'System.Windows.SystemParameters' use,←⊂'System.Collections' use,←⊂'System.Collections.Generic' use,←⊂'System.Collections.ObjectModel' use,←⊂'System.Objects' use,←⊂'System.Globalization'
To add a new definition to an existing ⎕USING
and to prevent duplicate entries the 'Union' operator is used like this:
⎕USING∪←⊂'System.Windows.Controls,PresentationFramework.dll'
Fixing Images
In XAML you declare an Image object that is on disk the following way:
<Image x:Name="MyImageName" Source="PathOfMyImage\MyImage.png" ⍝ PathOfMyImage can be tricky to declare sometimes and is not discussed here. Width="24" Height="24"/>
When you want to keep the Image definition in the APL workspace (because it is easier that way to distribute the workspace or the namespace) one way of doing it is by keeping a Base64 definition of the Image. Base64 encoding is using a set of 64 visible characters to encode binary data.
It is widely used on the internet, for example in emails for images and binary attachments.
Here are the steps to use this technique with APL:
Step 1: Save all the images in the workspace with the function FileToBase64String
At design time, save the images in the workspace. The APL variable name of any image must be the original name of the image name in the XAML with the added suffix _b64 (naming convention only).
Paste_b64 ← FileToBase64String 'D:\Paste.png' Copy_b64 ← FileToBase64String 'D:\Copy.png' Cut_b64 ← FileToBase64String 'D:\Cut.png'
The variable Copy_b64
in the attached namespace looks like this:
Copy_b64 iVBORw0KGgoAAAANSUhEUgAAABgAAAAYCAMAAADXqc3KAAAAaVBMVEX///8AAAC2tra2tra2tra2trb////+/v62trb9/f309PT7+/vExMSurq6Hh4f4+Pj8/Pz5+fnMzMyenp6/zduoqKilpaXNzc2xsbHu7u6Li4vk5OTa2tro6Oj6+vrm5uaMjIympqby8vJPA9lJAAAABnRSTlMAAM8Q7zCjkYU+AAAAiklEQVR4XoXM2Q7CMAxE0bqAk+7s+/7/H4mJMGNXQdzXo5mCiKK2X01nlCpSkbXdspxk4VCLOHBvDvwbYPSWgxu/JQMn5rotMzA8L+d24wAFB+tvzEeFIGDr/0LlrjwEE2D+CxoZ4aoCLASQgau8mQAsb7hqFLp7L28mBSKKPJgS0AdcgO6xtQm8AN3LEZUq6MiXAAAAAElFTkSuQmCC
This format is perfect for scripted namespaces; compare this to storing the image with the original file values that would have some non-visual characters.
Step 2: Set the .Source of each Image with the function ImageFromBase64String
At run time, after obtaining the root object set the .Source
of each Image from the previously saved APL variable.
win ← FixSimpleXaml sample3 win.Paste_b64.Source ← ImageFromBase64String Paste_b64 win.Copy_b64.Source ← ImageFromBase64String Copy_b64 win.Cut_b64.Source ← ImageFromBase64String Cut_b64
If there are many images in the XAML, the following lines of code can automate the process at run time:
⍝ Get the names of all the 'Image' object that has been fixed in the root object imgNames ← {((⊂'Image')≡¨(⍵.⍎¨(⍵.⎕NL-9)).GetType.Name)/(⍵.⎕NL-9)} win ⍝ Set the Source of all the 'Image'. Each 'Image' names must have an equivalent ⍝ Base64 variable ending with '_b64' in the APL workspace. win {(⍺.⍎⍵).Source←ImageFromBase64String⍎⍵}¨ imgNames
The icon and the cursor of the main window can be fixed manually by doing the following:
⍝ Fix manually the Icon of the main window. win.Icon ← ImageFromBase64String Settings_b64 ⍝ Fix manually the Cursor of the main window. win.Cursor ← CursorFromBase64String HandCursor_b64
Routed Events
In WPF it is possible to set a single function that will receive all the Click events on the window (in this example it is __EventHandler
) by doing:
⍝ Set Routed Events on the whole Window for ClickEvent when a MenuItem or a Button are clicked. ⎕USING←'System.Windows,WPF/PresentationCore.dll' 'System.Windows.Controls.Primitives,WPF/PresentationFramework.dll' win.AddHandler(Controls.MenuItem.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) win.AddHandler(ButtonBase.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler'))
This is useful because that way you don't need to define individual click events for each control.
__EventHandler
will handle all the click events on the window code (the double underscore prefix is not necessary but is kept for naming consistency)__EventHandler(sender event);name ⍝ Single Event Handler for the Window ⍝ Get name of the control that was clicked name←event.Source.Name ⍝ sender is the Root Object in this case because ⍝ the routed event was attached to it. sender.lStatusBar.Content←'I Was Clicked: ',name ⍝ Select the code to be executed: :Select name :Case 'mnuCut' :Case 'mnuCopy' :Case 'mnuPaste' :Case 'mnuPrint' :Case 'mnuQuit' :Case 'mnuAbout' :Case 'btnButton1' :Case 'btnButton2' :Case 'btnButton3' :Else 'Error: Unknow Name' :EndSelect
When all this is done the window can be shown:
win.Show
DemoSample3
contains all the code related to sample3∇ DemoSample3;imgNames ⍝ Parse the xaml of the variable sample3 win←FixSimpleXaml sample3 ⍝ Get the names of all the 'Image' object that has been fixed in rootObj imgNames←{((⊂'Image')≡¨(⍵.⍎¨(⍵.⎕NL-9)).GetType.Name)/(⍵.⎕NL-9)}win ⍝ Set the Source of all the 'Image'. Each 'Image' must have a Base64 variable of the same name. win{(⍺.⍎⍵).Source←ImageFromBase64String⍎⍵}¨imgNames ⍝ Fix manually the Icon of the main window. win.Icon←ImageFromBase64String Settings_b64 ⍝ Fix manually the Cursor of the main window. win.Cursor←CursorFromBase64String HandCursor_b64 ⍝ Set Routed Events on the whole Window for ClickEvent when a MenuItem or a Button are clicked. ⎕USING←'System.Windows,WPF/PresentationCore.dll' 'System.Windows.Controls.Primitives,WPF/PresentationFramework.dll' win.AddHandler(Controls.MenuItem.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) win.AddHandler(ButtonBase.ClickEvent)(⎕NEW RoutedEventHandler(⎕OR'__EventHandler')) ⍝ Show the window. win.Show ∇
ScrubAndFix
will remove all the events from the XAML by looping on a XamlXmlReader
object. It is slower than FixXaml
but the events don't need to have a specific prefix. Perfect for experimenting with the XAML taken directly from the Web. All the named objects are attached to the root object∇ rootObj←ScrubAndFix xamlString;err;names;nodeNumber;reader;stringReader;writer;⎕USING ⍝ Function to remove the Class and Events elements of XAML and fix the resulting XAML. ⍝ Each named element(s) object will be attached to rootObject. ⍝ Root element name is removed in all cases. Use the rootObj directly to access its properties/methods. ⍝ This function is most usefull when experimenting with XAML taken directly from the Web but is slower than FixXaml. ⍝ Inspired from the code of XAMLPAD2009. ⍝ ⍝ XamlString = Vector of Characters representing a XAML string ⍝ rootObj = WPF Root Element Object if no error ⍝ = ⎕NULL (explanation of error) if error :Trap 0 ⎕USING,←'System.IO' 'System.Windows.Markup,WPF/PresentationFramework.dll' 'System.XAML,System.XAML.dll' stringReader←⎕NEW StringReader(⊂xamlString) reader←⎕NEW XamlXmlReader(stringReader XamlReader.GetWpfSchemaContext) writer←⎕NEW XamlObjectWriter(reader.SchemaContext) ⎕USING←0⍴⊂'' names←'' ⍝ Initial value of the names to fix. nodeNumber←0 ⍝ Initial value of the node number. :While reader.Read :If 'StartObject'≡⍕reader.NodeType ⍝ Will increment of 1 each time a new node (with a new object) begins. nodeNumber+←1 :End :If 'StartMember'≡⍕reader.NodeType :AndIf reader.Member.Name≡'Class' {}reader.Read {}reader.Read :ElseIf 'StartMember'≡⍕reader.NodeType :AndIf reader.Member.IsEvent {}reader.Read {}reader.Read :ElseIf 'StartMember'≡⍕reader.NodeType :AndIf reader.Member.Name≡'Name' writer.WriteNode(reader) {}reader.Read writer.WriteNode(reader) ⍝ Check if reader is on first node :If 1≠nodeNumber ⍝ reader is not on first node. Keep the name. names,←⊂reader.Value :Else ⍝ reader is on first node. Don't keep the name. :End {}reader.Read writer.WriteNode(reader) :Else writer.WriteNode(reader) :End :EndWhile rootObj←writer.Result ⍝ Assign the value of each names found to the root object: :If 0≠⍴names rootObj{⍎'⍺.',⍵,'←⍺.FindName(⊂,⍵)'}¨names :Else ⍝ Do nothing, there is no names. :End :Else ⍝ Build the Error Message :If 90≠⎕EN ⍝ APL Error err←(1⊃⎕DM),': ',{(' '=1↑⍵)↓((1↓a,0)∨a←' '≠⍵)/⍵}(2⊃⎕DM),(⎕UCS 13) :Else ⍝ .Net Error :Trap 0 ⍝ Show the value of ⎕EXCEPTION.Message if not ⎕NULL. err←('EXCEPTION: ',⎕EXCEPTION.Message),(⎕UCS 13) :Else ⍝ Sometimes ⎕EXCEPTION is (NULL) and will bug here. err←'Exception (NULL): Unknown error',(⎕UCS 13) :EndTrap :End rootObj←⎕NULL err :EndTrap ∇
The User Command wpfXamlEditor is designed to edit the XAML saved in the workspace and on disk.
Inserting WPF Controls into Traditional Dyalog Windows
You can insert a WPF control into an already existing application developed with ⎕WC
by using an ElementHost and a Dyalog's NetControl
. Here is an example of how to insert a WPF Button:
⎕USING∪←⊂'System.Windows.Forms.Integration,WPF/WindowsFormsIntegration.dll' ⍝ Location of 'ElementHost' ⎕USING∪←⊂'System.Windows.Controls,WPF/PresentationFramework.dll' ⍝ Location of WPF Button 'F' ⎕WC 'Form' ('Caption' 'My WPF Button')('Posn' (10 10))('Size'(10 20)) ⍝ Create a Form 'F.eh' ⎕WC 'NetControl' 'ElementHost' ('Posn'(10 10))('Size'(15 20)) ⍝ Add 'ElementHost' ⍝ Prepare the WPF Button, and make it the 'child' property of the 'ElementHost' control bn ← ⎕NEW Button bn.Content ← 'Click Me' bn.onClick ← '__Button_Click' F.eh.Child ← bn
Instead of a Button, you could use some complex XAML developed with Visual Studio. You just need to fix the XAML with FixXaml
and make it the child of the ElementHost
element.
How to Access the UI Thread from Another Thread
Since Net 2.0 Microsoft does not allow writing on the UI thread from another thread for security and stability reasons. Consequently, if you are executing a long calculation on another thread and you want to show the results by accessing directly the UI thread it is not possible.
With a Delegate
DispatchDelegate
is an example of how to do thisobj DispatchDelegate action;delegate;⎕USING ⍝ Function to write asynchronously to the UI thread from another thread. ⍝ The calling thread does not wait for the operation to finish. ⍝ obj = UI Object that you want to write to from another thread ⍝ action = Line to execute in the UI thread. Use '⋄' to write multiple lines. :Trap 0 ⎕USING←'System,System.dll' 'System.Windows.Threading,WPF/WindowsBase.dll' ⍝ Create a function (⍙Delegate) with the 'action' to execute in the UI thread. ⍝ The function will be executed where 'DispatchDelegate' is called and not where ⍝ 'DispatchDelegate' is located. delegate←(⎕IO⊃⎕RSI).⎕OR(⎕IO⊃⎕RSI).⎕FX'⍙Delegate'action'⎕EX ''⍙Delegate''' ⍝ Get a 'Dispatcher' from the UI object. That way we are sure to have the right UI thread. ⍝ Use the method '.Invoke' instead of '.BeginInvoke' for synchronous call. {}obj.Dispatcher.BeginInvoke(DispatcherPriority.Normal(⎕NEW Action delegate)) :Else ⎕←'Error DispatchDelegate: ',action ⍝ Returns the Last Error :If 90=⎕EN ⎕←'EXCEPTION: ',⎕EXCEPTION.Message :Else ⎕←(1⊃⎕DM),': ',(2⊃⎕DM) :EndIf :End
Here is an example of how to use that function:
⎕USING←'System.Windows,WPF/PresentationFramework.dll' win ← ⎕NEW Window win.Show win.Title ← 'MyTitle' win DispatchDelegate& 'win.Title←''MyDelegateTitle''' ⍝ The .Title property is changed from another thread
ScriptFollowsDispatchDelegate
can be used like thisScriptFollowsDispatchDelegate obj;actions;delegate;dtlb;⎕IO;⎕ML;⎕USING ⍝ Function to write asynchronously to the UI thread from another thread. ⍝ The calling thread does not wait for the operation to finish. ⍝ Treat following commented lines in caller as a script. ⍝ Lines beginning with ⍝∇ are kept ⍝ Lines beginning with ⍝∇⍝ are stripped out (comments) ⍝ obj = UI Object that you want to write to from another thread ⍝ actions = Lines to execute in the UI thread. (⎕IO ⎕ML)←1 3 :Trap 0 ⎕USING←'System,System.dll' 'System.Windows.Threading,WPF/WindowsBase.dll' ⍝ Create a function (⍙Delegate) with the 'action' to execute in the UI thread. ⍝ The function will be executed where 'DispatchDelegate' is called and not where ⍝ 'DispatchDelegate' is located. dtlb←{⍵{((∨\⍵)∧⌽∨\⌽⍵)/⍺}' '≠⍵} actions←{{'⍝'=↑⍵:'' ⋄ ' ',dtlb ⍵}¨2↓¨⍵/⍨∧\(⊂'⍝∇')≡¨2↑¨⍵}dtlb¨(1+2⊃⎕LC)↓⎕NR 2⊃⎕XSI delegate←(⎕IO⊃⎕RSI).⎕OR(⎕IO⊃⎕RSI).⎕FX(⊂'⍙Delegate'),actions,(⊂'⎕EX ''⍙Delegate''') ⍝ Get a 'Dispatcher' from the UI object. That way we are sure to have the right UI thread. ⍝ Use the method '.Invoke' instead of '.BeginInvoke' for synchronous call. {}obj.Dispatcher.BeginInvoke(DispatcherPriority.Normal(⎕NEW Action delegate)) :Else ⎕←'Error ScriptFollowsDispatchDelegate: ',actions ⍝ Returns the Last Error :If 90=⎕EN ⎕←'EXCEPTION: ',⎕EXCEPTION.Message :Else ⎕←(1⊃⎕DM),': ',(2⊃⎕DM) :EndIf :End
[3] [4] ⍝ ... long running process on another thread ... [5] [6] ScriptFollowsDispatchDelegate myObj [7] ⍝∇ line 1 to by executed in the UI thread [8] ⍝∇ line 2 to by executed in the UI thread [9] ⍝∇ line 3 to by executed in the UI thread [10] ⍝∇ line 4 to by executed in the UI thread
The author has taken the prefix '⍝∇' instead of '⍝' because in production code you will probably want to erase all the comments in your runtime WS because they are useless and it is helping to obfuscate the code while taking less space.
With a DispatcherTimer
If you have a repetitive task to be executed on the UI thread then you can use a DispatcherTimer like this:
⎕USING∪←'System.Windows,WPF/WindowsBase.dll' 'System,mscorlib.dll' tm1_obj ← ⎕NEW Threading.DispatcherTimer(Threading.DispatcherPriority.Normal myObj.Dispatcher) tm1_obj.Interval ← TimeSpan.FromSeconds 1 tm1_obj.onTick ← '#.MyFunction' ⍝ Function to be executed every 1 second on the Dispatcher of the object 'myObj' tm1_obj.Start
Note that since the DispatcherTimer
is executed on the UI thread you cannot have a long callback because it will freeze the UI during its execution.
With a BackgroundWorker
The .NET framework provides a simple way to get started in threading with the BackgroundWorker component. This wraps much of the complexity and makes spawning a background thread relatively safe. It offers several features which include spawning a background thread, the ability to cancel the background process before it has completed, and the chance to report the progress back to your UI. The BackgroundWorker
is an excellent tool when you want multithreading in your application with access to the UI thread, mainly because it's so easy to use.
An example is included in this namespace. It is inspired by this article. You start the example by doing:
BackgroundWorkerSample& 1000
A window will appear and if you click on the 'Start' button, the UI will be refreshed with the multiple of 42 between 1 and 1000 while simulating a long calculation. Check the comments of this function with the links for more details.
How to install wpfXamlDemo in your workspace
- Download wpfXamlDemo.v1.6.txt
- Do a Select all (Ctrl+A) and a copy (Ctrl+C).
- In your workspace execute
)ed ⍟ wpfXamlDemo
- Paste (Ctrl+V) the text into the Dyalog editor
- Press Escape and ')save' your workspace
Optionally to de-script the namespace you can do:
#.wpfXamlDemo←{('n' ⎕NS ⍵)⊢n←⎕NS ''}#.wpfXamlDemo