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6502bench/SourceGenWPF/DisplayList.cs
Andy McFadden 558f1e4350 Wire up selection tracking
Renamed VirtualListViewSelection to DisplayListSelection, because
it's now tied to the DisplayList implementation.  Hooked it up to
handle SelectionChanged events.

Also, tweaked the code list item style to remove the one-pixel gap
between items.  Somehow I manage to click on the dead zone with
surprising regularity.
2019-06-07 17:25:04 -07:00

351 lines
13 KiB
C#

/*
* Copyright 2019 faddenSoft
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.Specialized;
using System.Diagnostics;
using System.ComponentModel;
namespace SourceGenWPF {
/// <summary>
/// List of items formatted for display.
/// </summary>
/// <remarks>
/// This is intended to be useful as an ItemSource for a WPF ListView. We need to implement
/// plain IList to cause ListView to perform data virtualization, and the property/collection
/// changed events so the view will pick up our changes.
///
/// The ItemsControl.ItemsSource property wants an IEnumerable (which IList implements).
/// According to various articles, if the object implements IList, and the UI element
/// is providing *UI* virtualization, you will also get *data* virtualization. This behavior
/// doesn't seem to be documented anywhere, but the consensus is that it's expected to work.
///
/// Implementing generic IList&lt;&gt; doesn't seem necessary for XAML, but may be useful
/// for other consumers of the data.
///
/// The list is initially filled with null references, with FormattedParts instances
/// generated on demand. This is done by requesting individual items from the
/// LineListGen object.
///
/// NOTE: it may or may not be possible to implement this trivially with an
/// ObservedCollection. At an earlier iteration it wasn't, and I'd like to keep this
/// around even if it is now possible, in case the pendulum swings back the other way.
/// </remarks>
public class DisplayList : IList<DisplayList.FormattedParts>, IList,
INotifyCollectionChanged, INotifyPropertyChanged {
/// <summary>
/// List of formatted parts. DO NOT access this directly outside the event-sending
/// method wrappers.
/// </summary>
private List<FormattedParts> mList;
/// <summary>
/// Data generation object.
/// </summary>
/// <remarks>
/// This property is set by the LineListGen constructor.
/// </remarks>
public LineListGen ListGen { get; set; }
/// <summary>
/// Set of selected items, by list index.
/// </summary>
public DisplayListSelection SelectedIndices { get; private set; }
/// <summary>
/// Constructs an empty collection, with the default initial capacity.
/// </summary>
public DisplayList() {
mList = new List<FormattedParts>();
SelectedIndices = new DisplayListSelection();
}
#region Property / Collection Changed
public event NotifyCollectionChangedEventHandler CollectionChanged;
public event PropertyChangedEventHandler PropertyChanged;
// See ObservableCollection class, e.g.
// https://github.com/Microsoft/referencesource/blob/master/System/compmod/system/collections/objectmodel/observablecollection.cs
private const string CountString = "Count";
private const string IndexerName = "Item[]";
protected virtual void OnPropertyChanged(PropertyChangedEventArgs e) {
PropertyChanged?.Invoke(this, e);
}
private void OnPropertyChanged(string propertyName) {
OnPropertyChanged(new PropertyChangedEventArgs(propertyName));
}
protected virtual void OnCollectionChanged(NotifyCollectionChangedEventArgs e) {
CollectionChanged?.Invoke(this, e);
}
private void OnCollectionChanged(NotifyCollectionChangedAction action,
object item, int index) {
OnCollectionChanged(new NotifyCollectionChangedEventArgs(action, item, index));
}
private void OnCollectionChanged(NotifyCollectionChangedAction action,
object item, int index, int oldIndex) {
OnCollectionChanged(new NotifyCollectionChangedEventArgs(action, item, index, oldIndex));
}
private void OnCollectionChanged(NotifyCollectionChangedAction action,
object oldItem, object newItem, int index) {
OnCollectionChanged(new NotifyCollectionChangedEventArgs(action, newItem, oldItem, index));
}
private void OnCollectionReset() {
OnCollectionChanged(new NotifyCollectionChangedEventArgs(NotifyCollectionChangedAction.Reset));
}
#endregion Property / Collection Changed
#region IList / IList<T>
public int Count => ((IList<FormattedParts>)mList).Count;
public bool IsReadOnly => ((IList<FormattedParts>)mList).IsReadOnly;
public bool IsFixedSize => ((IList)mList).IsFixedSize;
public object SyncRoot => ((IList)mList).SyncRoot;
public bool IsSynchronized => ((IList)mList).IsSynchronized;
public void Add(FormattedParts item) {
((IList<FormattedParts>)mList).Add(item);
OnPropertyChanged(CountString);
OnPropertyChanged(IndexerName);
OnCollectionReset();
}
public int Add(object value) {
int posn = ((IList)mList).Add(value);
if (posn >= 0) {
OnPropertyChanged(CountString);
OnPropertyChanged(IndexerName);
OnCollectionChanged(NotifyCollectionChangedAction.Add, value, posn);
}
return posn;
}
public void Clear() {
((IList<FormattedParts>)mList).Clear();
OnPropertyChanged(CountString);
OnPropertyChanged(IndexerName);
OnCollectionReset();
}
public bool Contains(FormattedParts item) {
return ((IList<FormattedParts>)mList).Contains(item);
}
bool IList.Contains(object value) {
return Contains((FormattedParts)value);
}
public void CopyTo(FormattedParts[] array, int arrayIndex) {
((IList<FormattedParts>)mList).CopyTo(array, arrayIndex);
}
public void CopyTo(Array array, int index) {
((IList)mList).CopyTo(array, index);
}
public IEnumerator<FormattedParts> GetEnumerator() {
// Use the indexer, rather than mList's enumerator, to get on-demand string gen.
for (int i = 0; i < Count; i++) {
yield return this[i];
}
}
IEnumerator IEnumerable.GetEnumerator() {
return GetEnumerator();
}
public int IndexOf(FormattedParts item) {
return ((IList<FormattedParts>)mList).IndexOf(item);
}
int IList.IndexOf(object value) {
return IndexOf((FormattedParts)value);
}
public void Insert(int index, FormattedParts item) {
((IList<FormattedParts>)mList).Insert(index, item);
OnPropertyChanged(CountString);
OnPropertyChanged(IndexerName);
OnCollectionChanged(NotifyCollectionChangedAction.Add, item, index);
}
void IList.Insert(int index, object value) {
Insert(index, (FormattedParts)value);
}
public void RemoveAt(int index) {
FormattedParts removed = mList[index];
((IList<FormattedParts>)mList).RemoveAt(index);
OnPropertyChanged(CountString);
OnPropertyChanged(IndexerName);
OnCollectionChanged(NotifyCollectionChangedAction.Remove, removed, index);
}
public bool Remove(FormattedParts item) {
// NotifyCollectionChangedAction.Remove wants an index. We can find the index
// of the first matching item and then do a RemoveAt, but this call just isn't
// all that interesting for us, so it's easier to ignore it.
//return ((IList<FormattedParts>)mList).Remove(item);
throw new NotSupportedException();
}
void IList.Remove(object value) {
//Remove((FormattedParts)value);
throw new NotSupportedException();
}
object IList.this[int index] {
// forward to generic impl
get { return this[index]; }
set { this[index] = (FormattedParts)value; }
}
// For IList<T>.
public FormattedParts this[int index] {
get {
FormattedParts parts = mList[index];
if (parts == null) {
parts = mList[index] = GetEntry(index);
}
return parts;
}
set {
FormattedParts orig = mList[index];
mList[index] = value;
OnPropertyChanged(IndexerName);
OnCollectionChanged(NotifyCollectionChangedAction.Replace, orig, value, index);
}
}
#endregion IList / IList<T>
/// <summary>
/// Retrieves the Nth element.
/// </summary>
private FormattedParts GetEntry(int index) {
FormattedParts parts = mList[index];
if (parts == null) {
parts = mList[index] = ListGen.GetFormattedParts(index);
parts.ListIndex = index;
}
return parts;
}
/// <summary>
/// Resets the list, filling it with empty elements. Also resets the selected indices.
/// </summary>
/// <param name="size">New size of the list.</param>
public void ResetList(int size) {
// TODO: can we recycle existing elements and just add/trim as needed?
Clear();
mList.Capacity = size;
for (int i = 0; i < size; i++) {
// add directly to list so we don't send events
mList.Add(null);
}
// send one big notification at the end; "reset" means "forget everything you knew"
OnPropertyChanged(CountString);
OnPropertyChanged(IndexerName);
OnCollectionReset();
SelectedIndices = new DisplayListSelection(size);
}
public class FormattedParts {
public string Offset { get; private set; }
public string Addr { get; private set; }
public string Bytes { get; private set; }
public string Flags { get; private set; }
public string Attr { get; private set; }
public string Label { get; private set; }
public string Opcode { get; private set; }
public string Operand { get; private set; }
public string Comment { get; private set; }
public bool IsLongComment { get; private set; }
public int ListIndex { get; set; } = -1;
// Private constructor -- create instances with factory methods.
private FormattedParts() { }
public static FormattedParts Create(string offset, string addr, string bytes,
string flags, string attr, string label, string opcode, string operand,
string comment) {
FormattedParts parts = new FormattedParts();
parts.Offset = offset;
parts.Addr = addr;
parts.Bytes = bytes;
parts.Flags = flags;
parts.Attr = attr;
parts.Label = label;
parts.Opcode = opcode;
parts.Operand = operand;
parts.Comment = comment;
parts.IsLongComment = false;
return parts;
}
public static FormattedParts CreateBlankLine() {
FormattedParts parts = new FormattedParts();
return parts;
}
public static FormattedParts CreateLongComment(string comment) {
FormattedParts parts = new FormattedParts();
parts.Comment = comment;
parts.IsLongComment = true;
return parts;
}
public static FormattedParts CreateDirective(string opstr, string addrStr) {
FormattedParts parts = new FormattedParts();
parts.Opcode = opstr;
parts.Operand = addrStr;
return parts;
}
public static FormattedParts CreateEquDirective(string label, string opstr,
string addrStr, string comment) {
FormattedParts parts = new FormattedParts();
parts.Label = label;
parts.Opcode = opstr;
parts.Operand = addrStr;
parts.Comment = comment;
return parts;
}
}
}
}