Create guitar chords editor in WPF (from RichTextBox?)
Main purpose of application I'm working on in WPF is to allow editing and consequently printing of songs lyrics with guitar chords over it.
You have probably seen chords even if you don't play any instrument. To give you an idea it looks like this:
E E6
I know I stand in line until you
E E6 F#m B F#m B
think you have the time to spend an evening with me
But instead of this ugly mono-spaced font I want to have Times New Roman
font with kerning for both lyrics and chords (chords in bold font). And I want user to be able to edit this.
This does not appear to be supported scenario for RichTextBox
. These are some of the problems that I don't know how to solve:
- Chords have their positions fixed over some character in lyrics text (or more generally
TextPointer
of lyrics line). When user edits lyrics I want chord to stay over right character. Example:
.
E E6
I know !!!SOME TEXT REPLACED HERE!!! in line until you
- Line wrapping: 2 lines (1th with chords and 2th with lyrics) are logically one line when it comes to wrapping. When a word wraps to next line all chords that are over it should also wrap. Also when chord wraps the word that it is over it also wrap. Example:
.
E E6
think you have the time to spend an
F#m B F#m B
evening with me
- Chords should stay over right character even when chords are too near to each other. In this case some extra space is automatically inserted in lyrics line. Example:
.
F#m E6
...you have the ti me to spend...
- Say I have lyrics line
Ta VA
and chord overA
. I want the lyrics to look like not like . Second picture is not kerned betweenV
andA
. Orange lines are there only to visualize the effect (but they mark x offsets where chord would be placed). Code used to produce first sample is<TextBlock FontFamily="Times New Roman" FontSize="60">Ta VA</TextBlock>
and for second sample<TextBlock FontFamily="Times New Roman" FontSize="60"><Span>Ta V<Floater />A</Span></TextBlock>
.
Any ideas on how to get RichTextBox
to do this ? Or is there better way to do it in WPF? Will I sub-classing Inline
or Run
help? Any ideas, hacks, TextPointer
magic, code or links to related topics are welcome.
Edit:
I'm exploring 2 major directions to solve this problem but both lead to another problems so I ask new question:
- Trying to turn
RichTextBox
into chords editor - Have a look at How can I create subclass of class Inline?. Build new editor from separate components like
Panel
sTextBox
es etc. as suggested in H.B. answer. This would need a lot of coding and also led to following (unsolved) problems:- Components will change their Width/Height according to they layout position (white space removal at line beginning etc.)
- Kerning will have to be inserted manually at components boundaries.
- How to make RichTextBox look like TextBlock? (not elegant hack/workaround is known)
Edit#2
Markus Hütter's high quality answer has shown me that a lot more can be done with RichTextBox
then I expected when I was trying to tweak it for my needs myself. I've had time to explore the answer in details only now. Markus might be RichTextBox
magician I need to help me with this but there are some unsolved problems with his solution as well:
- This application will be all about "beautifully" printed lyrics. The main goal is that the text looks perfect from the typographic point of view. When chords are too near to each other or even overlapping Markus suggests that I iteratively add addition spaces before its position until their distance is sufficient. There is actually requirement that the user can set minimum distance between 2 chords. That minimum distance should be honored and not exceeded until necessary. Spaces are not granular enough - once I add last space needed I'll probably make the gap wider then necessary - that will make the document look 'bad' I don't think it could be accepted. I'd need to insert space of custom width.
- There could be lines with no chords (only text) or even lines with no text (only chords). When
LineHeight
is set to25
or other fixed value for whole document it will cause lines with no chords to have "empty lines" above them. When there are only chords and no text there will be no space for them.
There are other minor problems but I either think I can 开发者_运维问答solve them or I consider them not important. Anyway I think Markus's answer is really valuable - not only for showing me possible way to go but also as a demonstration of general pattern of using RichTextBox
with adorner.
I cannot give you any concrete help but in terms of architecture you need to change your layout from this
To this
Everything else is a hack. Your unit/glyph must become a word-chord-pair.
Edit: I have been fooling around with a templated ItemsControl and it even works out to some degree, so it might be of interest.
<ItemsControl Grid.IsSharedSizeScope="True" ItemsSource="{Binding SheetData}"
Name="_chordEditor">
<ItemsControl.ItemsPanel>
<ItemsPanelTemplate>
<WrapPanel/>
</ItemsPanelTemplate>
</ItemsControl.ItemsPanel>
<ItemsControl.ItemTemplate>
<DataTemplate>
<Grid>
<Grid.RowDefinitions>
<RowDefinition SharedSizeGroup="A" Height="Auto"/>
<RowDefinition SharedSizeGroup="B" Height="Auto"/>
</Grid.RowDefinitions>
<Grid.Children>
<TextBox Name="chordTB" Grid.Row="0" Text="{Binding Chord}"/>
<TextBox Name="wordTB" Grid.Row="1" Text="{Binding Word}"
PreviewKeyDown="Glyph_Word_KeyDown" TextChanged="Glyph_Word_TextChanged"/>
</Grid.Children>
</Grid>
</DataTemplate>
</ItemsControl.ItemTemplate>
</ItemsControl>
private readonly ObservableCollection<ChordWordPair> _sheetData = new ObservableCollection<ChordWordPair>();
public ObservableCollection<ChordWordPair> SheetData
{
get { return _sheetData; }
}
public class ChordWordPair: INotifyPropertyChanged
{
private string _chord = String.Empty;
public string Chord
{
get { return _chord; }
set
{
if (_chord != value)
{
_chord = value;
// This uses some reflection extension method,
// a normal event raising method would do just fine.
PropertyChanged.Notify(() => this.Chord);
}
}
}
private string _word = String.Empty;
public string Word
{
get { return _word; }
set
{
if (_word != value)
{
_word = value;
PropertyChanged.Notify(() => this.Word);
}
}
}
public ChordWordPair() { }
public ChordWordPair(string word, string chord)
{
Word = word;
Chord = chord;
}
public event PropertyChangedEventHandler PropertyChanged;
}
private void AddNewGlyph(string text, int index)
{
var glyph = new ChordWordPair(text, String.Empty);
SheetData.Insert(index, glyph);
FocusGlyphTextBox(glyph, false);
}
private void FocusGlyphTextBox(ChordWordPair glyph, bool moveCaretToEnd)
{
var cp = _chordEditor.ItemContainerGenerator.ContainerFromItem(glyph) as ContentPresenter;
Action focusAction = () =>
{
var grid = VisualTreeHelper.GetChild(cp, 0) as Grid;
var wordTB = grid.Children[1] as TextBox;
Keyboard.Focus(wordTB);
if (moveCaretToEnd)
{
wordTB.CaretIndex = int.MaxValue;
}
};
if (!cp.IsLoaded)
{
cp.Loaded += (s, e) => focusAction.Invoke();
}
else
{
focusAction.Invoke();
}
}
private void Glyph_Word_TextChanged(object sender, TextChangedEventArgs e)
{
var glyph = (sender as FrameworkElement).DataContext as ChordWordPair;
var tb = sender as TextBox;
string[] glyphs = tb.Text.Split(' ');
if (glyphs.Length > 1)
{
glyph.Word = glyphs[0];
for (int i = 1; i < glyphs.Length; i++)
{
AddNewGlyph(glyphs[i], SheetData.IndexOf(glyph) + i);
}
}
}
private void Glyph_Word_KeyDown(object sender, KeyEventArgs e)
{
var tb = sender as TextBox;
var glyph = (sender as FrameworkElement).DataContext as ChordWordPair;
if (e.Key == Key.Left && tb.CaretIndex == 0 || e.Key == Key.Back && tb.Text == String.Empty)
{
int i = SheetData.IndexOf(glyph);
if (i > 0)
{
var leftGlyph = SheetData[i - 1];
FocusGlyphTextBox(leftGlyph, true);
e.Handled = true;
if (e.Key == Key.Back) SheetData.Remove(glyph);
}
}
if (e.Key == Key.Right && tb.CaretIndex == tb.Text.Length)
{
int i = SheetData.IndexOf(glyph);
if (i < SheetData.Count - 1)
{
var rightGlyph = SheetData[i + 1];
FocusGlyphTextBox(rightGlyph, false);
e.Handled = true;
}
}
}
Initially some glyph should be added to the collection, otherwise there will be no input field (this can be avoided with further templating, e.g. by using a datatrigger that shows a field if the collection is empty).
Perfecting this would require a lot of additional work like styling the TextBoxes, adding written line breaks (right now it only breaks when the wrap panel makes it), supporting selection accross multiple textboxes, etc.
Soooo, I had a little fun here. This is how it looks like:
The lyrics is fully editable, the chords are currently not (but this would be an easy extension).
this is the xaml:
<Window ...>
<AdornerDecorator>
<!-- setting the LineHeight enables us to position the Adorner on top of the text -->
<RichTextBox TextBlock.LineHeight="25" Padding="0,25,0,0" Name="RTB"/>
</AdornerDecorator>
</Window>
and this is the code:
public partial class MainWindow
{
public MainWindow()
{
InitializeComponent();
const string input = "E E6\nI know I stand in line until you\nE E6 F#m B F#m B\nthink you have the time to spend an evening with me ";
var lines = input.Split('\n');
var paragraph = new Paragraph{Margin = new Thickness(0),Padding = new Thickness(0)}; // Paragraph sets default margins, don't want those
RTB.Document = new FlowDocument(paragraph);
// this is getting the AdornerLayer, we explicitly included in the xaml.
// in it's visual tree the RTB actually has an AdornerLayer, that would rather
// be the AdornerLayer we want to get
// for that you will either want to subclass RichTextBox to expose the Child of
// GetTemplateChild("ContentElement") (which supposedly is the ScrollViewer
// that hosts the FlowDocument as of http://msdn.microsoft.com/en-us/library/ff457769(v=vs.95).aspx
// , I hope this holds true for WPF as well, I rather remember this being something
// called "PART_ScrollSomething", but I'm sure you will find that out)
//
// another option would be to not subclass from RTB and just traverse the VisualTree
// with the VisualTreeHelper to find the UIElement that you can use for GetAdornerLayer
var adornerLayer = AdornerLayer.GetAdornerLayer(RTB);
for (var i = 1; i < lines.Length; i += 2)
{
var run = new Run(lines[i]);
paragraph.Inlines.Add(run);
paragraph.Inlines.Add(new LineBreak());
var chordpos = lines[i - 1].Split(' ');
var pos = 0;
foreach (string t in chordpos)
{
if (!string.IsNullOrEmpty(t))
{
var position = run.ContentStart.GetPositionAtOffset(pos);
adornerLayer.Add(new ChordAdorner(RTB,t,position));
}
pos += t.Length + 1;
}
}
}
}
using this Adorner:
public class ChordAdorner : Adorner
{
private readonly TextPointer _position;
private static readonly PropertyInfo TextViewProperty = typeof(TextSelection).GetProperty("TextView", BindingFlags.Instance | BindingFlags.NonPublic);
private static readonly EventInfo TextViewUpdateEvent = TextViewProperty.PropertyType.GetEvent("Updated");
private readonly FormattedText _formattedText;
public ChordAdorner(RichTextBox adornedElement, string chord, TextPointer position) : base(adornedElement)
{
_position = position;
// I'm in no way associated with the font used, nor recommend it, it's just the first example I found of FormattedText
_formattedText = new FormattedText(chord, CultureInfo.GetCultureInfo("en-us"),FlowDirection.LeftToRight,new Typeface(new FontFamily("Arial").ToString()),12,Brushes.Black);
// this is where the magic starts
// you would otherwise not know when to actually reposition the drawn Chords
// you could otherwise only subscribe to TextChanged and schedule a Dispatcher
// call to update this Adorner, which either fires too often or not often enough
// that's why you're using the RichTextBox.Selection.TextView.Updated event
// (you're then basically updating the same time that the Caret-Adorner
// updates it's position)
Dispatcher.CurrentDispatcher.BeginInvoke(DispatcherPriority.Loaded, new Action(() =>
{
object textView = TextViewProperty.GetValue(adornedElement.Selection, null);
TextViewUpdateEvent.AddEventHandler(textView, Delegate.CreateDelegate(TextViewUpdateEvent.EventHandlerType, ((Action<object, EventArgs>)TextViewUpdated).Target, ((Action<object, EventArgs>)TextViewUpdated).Method));
InvalidateVisual(); //call here an event that triggers the update, if
//you later decide you want to include a whole VisualTree
//you will have to change this as well as this ----------.
})); // |
} // |
// |
public void TextViewUpdated(object sender, EventArgs e) // |
{ // V
Dispatcher.CurrentDispatcher.BeginInvoke(DispatcherPriority.Loaded, new Action(InvalidateVisual));
}
protected override void OnRender(DrawingContext drawingContext)
{
if(!_position.HasValidLayout) return; // with the current setup this *should* always be true. check anyway
var pos = _position.GetCharacterRect(LogicalDirection.Forward).TopLeft;
pos += new Vector(0, -10); //reposition so it's on top of the line
drawingContext.DrawText(_formattedText,pos);
}
}
this is using an adorner like david suggested, but I know it is hard to find a how to out there. That's probably because there is none. I had spent hours before in reflector trying to find that exact event that signals that the layout of the flowdocument has been figured out.
I'm not sure if that dispatcher call in the constructor is actually needed, but I left it in for being bulletproof. (I needed this because in my setup the RichTextBox had not been shown yet).
Obviously this needs a lot more coding, but this will give you a start. You will want to play around with positioning and such.
For getting the positioning right if two adorners are too close and are overlapping I'd suggest you somehow keep track of which adorner comes before and see if the current one would overlap. then you can for example iteratively insert a space before the _position
-TextPointer.
If you later decide, you want the chords editable too, you can instead of just drawing the text in OnRender have a whole VisualTree under the adorner. (here is an example of an adorner with a ContentControl underneath). Beware though that you have to handle the ArrangeOveride then to correctly position the Adorner by the _position
CharacterRect.
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