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1a9f99098a
6502bench/SourceGenWPF/ProjWin/MainWindow.xaml.cs
Andy McFadden 1a9f99098a Wire up undo, redo, and F1 help 
Also, fixed some crashiness in the can-execute tests for hints.
If you crash an a can-execute method you get a really unhelpful
failure message.  Asserts don't work there either.  Yay WPF.
2019-06-11 16:27:15 -07:00

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/*
* 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.Generic;
using System.Collections.ObjectModel;
using System.ComponentModel;
using System.Diagnostics;
using System.Linq;
using System.Reflection;
using System.Runtime.CompilerServices;
using System.Text;
using System.Threading.Tasks;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Data;
using System.Windows.Documents;
using System.Windows.Input;
using System.Windows.Media;
using System.Windows.Media.Imaging;
using System.Windows.Shapes;
using CommonWPF;
namespace SourceGenWPF.ProjWin {
/// <summary>
/// Interaction logic for MainWindow.xaml
/// </summary>
public partial class MainWindow : Window, INotifyPropertyChanged {
/// <summary>
/// Disassembled code display list provided to XAML.
/// </summary>
public DisplayList CodeDisplayList { get; private set; }
/// Version string, for display.
/// </summary>
public string ProgramVersionString {
get { return App.ProgramVersion.ToString(); }
}
/// <summary>
/// Reference to controller object.
/// </summary>
private MainController mMainCtrl;
/// <summary>
/// Analyzed selection state.
/// </summary>
private MainController.SelectionState mSelectionState;
// Handle to protected ListView.SetSelectedItems() method
private MethodInfo listViewSetSelectedItems;
public MainWindow() {
InitializeComponent();
listViewSetSelectedItems = codeListView.GetType().GetMethod("SetSelectedItems",
BindingFlags.NonPublic | BindingFlags.Instance);
Debug.Assert(listViewSetSelectedItems != null);
this.DataContext = this;
CodeDisplayList = new DisplayList();
codeListView.ItemsSource = CodeDisplayList;
mMainCtrl = new MainController(this);
mSelectionState = new MainController.SelectionState();
AddMultiKeyGestures();
//GridView gv = (GridView)codeListView.View;
//gv.Columns[0].Width = 50;
}
private void AddMultiKeyGestures() {
RoutedUICommand ruic;
ruic = (RoutedUICommand)FindResource("HintAsCodeEntryPointCmd");
ruic.InputGestures.Add(
new MultiKeyInputGesture(new KeyGesture[] {
new KeyGesture(Key.H, ModifierKeys.Control, "Ctrl+H"),
new KeyGesture(Key.C, ModifierKeys.Control, "Ctrl+C")
}));
ruic = (RoutedUICommand)FindResource("HintAsDataStartCmd");
ruic.InputGestures.Add(
new MultiKeyInputGesture(new KeyGesture[] {
new KeyGesture(Key.H, ModifierKeys.Control, "Ctrl+H"),
new KeyGesture(Key.D, ModifierKeys.Control, "Ctrl+D")
}));
ruic = (RoutedUICommand)FindResource("HintAsInlineDataCmd");
ruic.InputGestures.Add(
new MultiKeyInputGesture(new KeyGesture[] {
new KeyGesture(Key.H, ModifierKeys.Control, "Ctrl+H"),
new KeyGesture(Key.I, ModifierKeys.Control, "Ctrl+I")
}));
ruic = (RoutedUICommand)FindResource("RemoveHintsCmd");
ruic.InputGestures.Add(
new MultiKeyInputGesture(new KeyGesture[] {
new KeyGesture(Key.H, ModifierKeys.Control, "Ctrl+H"),
new KeyGesture(Key.R, ModifierKeys.Control, "Ctrl+R")
}));
}
private void Window_Loaded(object sender, RoutedEventArgs e) {
mMainCtrl.WindowLoaded();
CreateCodeListContextMenu();
#if DEBUG
// Get more info on CollectionChanged events that do not agree with current
// state of Items collection.
PresentationTraceSources.SetTraceLevel(codeListView.ItemContainerGenerator,
PresentationTraceLevel.High);
#endif
}
private void CreateCodeListContextMenu() {
// Find Actions menu.
ItemCollection mainItems = this.appMenu.Items;
MenuItem actionsMenu = null;
foreach (object obj in mainItems) {
if (!(obj is MenuItem)) {
continue;
}
MenuItem mi = (MenuItem)obj;
if (mi.Name.Equals("ActionsMenu")) {
actionsMenu = mi;
break;
}
}
Debug.Assert(actionsMenu != null);
// Clone the Actions menu into the codeListView context menu.
ContextMenu ctxt = this.codeListView.ContextMenu;
foreach (object item in actionsMenu.Items) {
if (item is MenuItem) {
MenuItem oldItem = (MenuItem)item;
MenuItem newItem = new MenuItem();
// I don't see a "clone" method, so just copy the fields we think we care about
newItem.Name = oldItem.Name;
newItem.Header = oldItem.Header;
newItem.Icon = oldItem.Icon;
newItem.InputGestureText = oldItem.InputGestureText;
newItem.Command = oldItem.Command;
ctxt.Items.Add(newItem);
} else if (item is Separator) {
ctxt.Items.Add(new Separator());
} else {
Debug.Assert(false, "Found weird thing in menu: " + item);
}
}
}
/// <summary>
/// INotifyPropertyChanged event
/// </summary>
public event PropertyChangedEventHandler PropertyChanged;
/// <summary>
/// Call this when a notification-worthy property changes value.
///
/// The CallerMemberName attribute puts the calling property's name in the first arg.
/// </summary>
/// <param name="propertyName">Name of property that changed.</param>
private void OnPropertyChanged([CallerMemberName] string propertyName = "") {
PropertyChanged?.Invoke(this, new PropertyChangedEventArgs(propertyName));
}
private bool mShowCodeListView;
/// <summary>
/// Which panel are we showing, launchPanel or codeListView?
/// </summary>
public bool ShowCodeListView {
get {
return mShowCodeListView;
}
set {
mShowCodeListView = value;
OnPropertyChanged("LaunchPanelVisibility");
OnPropertyChanged("CodeListVisibility");
}
}
/// <summary>
/// Returns the visibility status of the launch panel.
/// (Intended for use from XAML.)
/// </summary>
public Visibility LaunchPanelVisibility {
get { return mShowCodeListView ? Visibility.Hidden : Visibility.Visible; }
}
/// <summary>
/// Returns the visibility status of the code ListView.
/// (Intended for use from XAML.)
/// </summary>
public Visibility CodeListVisibility {
get { return mShowCodeListView ? Visibility.Visible : Visibility.Hidden; }
}
#region Selection management
private void CodeListView_SelectionChanged(object sender, SelectionChangedEventArgs e) {
//DateTime startWhen = DateTime.Now;
// Update the selected-item bitmap.
CodeDisplayList.SelectedIndices.SelectionChanged(e);
// Notify MainController that the selection has changed. This hands back an updated
// selection summary, which is used for "can execute" methods.
mMainCtrl.SelectionChanged(out mSelectionState);
Debug.Assert(CodeDisplayList.SelectedIndices.DebugValidateSelectionCount(
codeListView.SelectedItems.Count));
//Debug.WriteLine("SelectionChanged took " +
// (DateTime.Now - startWhen).TotalMilliseconds + " ms");
}
/// <summary>
/// Returns the number of selected items.
/// </summary>
/// <returns>
/// The SelectedItems list appears to hold the full set, so we can just return the count.
/// </returns>
public int GetSelectionCount() {
return codeListView.SelectedItems.Count;
}
/// <summary>
/// Returns the index of the first selected item, or -1 if nothing is selected.
/// </summary>
/// <remarks>
/// The ListView.SelectedIndex property returns the index of a selected item, but
/// doesn't make guarantees about first or last.
///
/// This would be easier if the ListView kept SelectedItems in sorted order. However,
/// if you ctrl+click around you can get to a point where entry[0] is not the first
/// and entry[count-1] is not the last selected item.
///
/// So we either have to walk the SelectedItems list or the DisplayListSelection array.
/// For short selections the former will be faster than the later. I'm assuming the
/// common cases will be short selections and select-all, so this should handle both
/// efficiently.
/// </remarks>
public int GetFirstSelectedIndex() {
int count = codeListView.SelectedItems.Count;
if (count == 0) {
return -1;
} else if (count < 500) {
int min = CodeDisplayList.Count;
foreach (DisplayList.FormattedParts parts in codeListView.SelectedItems) {
if (min > parts.ListIndex) {
min = parts.ListIndex;
}
}
Debug.Assert(min < CodeDisplayList.Count);
return min;
} else {
return CodeDisplayList.SelectedIndices.GetFirstSelectedIndex();
}
}
/// <summary>
/// Returns the index of the last selected item, or -1 if nothing is selected.
/// </summary>
/// <remarks>
/// Again, the ListView does not provide what we need.
/// </remarks>
public int GetLastSelectedIndex() {
int count = codeListView.SelectedItems.Count;
if (count == 0) {
return -1;
} else if (count < 500) {
int max = -1;
foreach (DisplayList.FormattedParts parts in codeListView.SelectedItems) {
if (max < parts.ListIndex) {
max = parts.ListIndex;
}
}
Debug.Assert(max >= 0);
return max;
} else {
return CodeDisplayList.SelectedIndices.GetLastSelectedIndex();
}
}
/// <summary>
/// Sets the code list selection.
/// </summary>
/// <param name="sel">Selection bitmap.</param>
public void SetSelection(DisplayListSelection sel) {
const int MAX_SEL_COUNT = 2000;
if (sel.IsAllSelected()) {
Debug.WriteLine("SetSelection: re-selecting all items");
codeListView.SelectAll();
return;
}
Debug.Assert(codeListView.SelectedItems.Count == 0); // expected
codeListView.SelectedItems.Clear(); // just in case
if (sel.Count > MAX_SEL_COUNT) {
// Too much for WPF -- only restore the first item.
Debug.WriteLine("SetSelection: not restoring (" + sel.Count + " items)");
codeListView.SelectedItems.Add(CodeDisplayList[sel.GetFirstSelectedIndex()]);
return;
}
//DateTime startWhen = DateTime.Now;
DisplayList.FormattedParts[] tmpArray = new DisplayList.FormattedParts[sel.Count];
int ai = 0;
foreach (int listIndex in sel) {
tmpArray[ai++] = CodeDisplayList[listIndex];
}
// Use a reflection call to provide the full set. This is much faster than
// adding the items one at a time to SelectedItems. (For one thing, it only
// invokes the SelectionChanged method once.)
listViewSetSelectedItems.Invoke(codeListView, new object[] { tmpArray });
//Debug.WriteLine("SetSelection on " + sel.Count + " items took " +
// (DateTime.Now - startWhen).TotalMilliseconds + " ms");
}
public int GetCodeListTopIndex() {
return codeListView.GetTopItemIndex();
}
public void SetCodeListTopIndex(int index) {
// ScrollIntoView does the least amount of scrolling required. This extension
// method scrolls to the bottom, then scrolls back up to the top item.
//
// NOTE: it looks like scroll-to-bottom (which is done directly on the
// ScrollViewer) happens immediately, whiel scroll-to-item (which is done via the
// ListView) kicks in later. So don't try to check the topmost item immediately.
codeListView.ScrollToTopItem(CodeDisplayList[index]);
}
#endregion Selection management
#region Can-execute handlers
/// <summary>
/// Returns true if the project is open. Intended for use in XAML CommandBindings.
/// </summary>
private void IsProjectOpen(object sender, CanExecuteRoutedEventArgs e) {
e.CanExecute = mMainCtrl.IsProjectOpen();
}
private void CanHintAsCodeEntryPoint(object sender, CanExecuteRoutedEventArgs e) {
if (!mMainCtrl.IsProjectOpen()) {
e.CanExecute = false;
return;
}
MainController.EntityCounts counts = mSelectionState.mEntityCounts;
e.CanExecute = (counts.mDataLines > 0 || counts.mCodeLines > 0) &&
(counts.mDataHints != 0 || counts.mInlineDataHints != 0 || counts.mNoHints != 0);
}
private void CanHintAsDataStart(object sender, CanExecuteRoutedEventArgs e) {
if (!mMainCtrl.IsProjectOpen()) {
e.CanExecute = false;
return;
}
MainController.EntityCounts counts = mSelectionState.mEntityCounts;
e.CanExecute = (counts.mDataLines > 0 || counts.mCodeLines > 0) &&
(counts.mCodeHints != 0 || counts.mInlineDataHints != 0 || counts.mNoHints != 0);
}
private void CanHintAsInlineData(object sender, CanExecuteRoutedEventArgs e) {
if (!mMainCtrl.IsProjectOpen()) {
e.CanExecute = false;
return;
}
MainController.EntityCounts counts = mSelectionState.mEntityCounts;
e.CanExecute = (counts.mDataLines > 0 || counts.mCodeLines > 0) &&
(counts.mCodeHints != 0 || counts.mDataHints != 0 || counts.mNoHints != 0);
}
private void CanRemoveHints(object sender, CanExecuteRoutedEventArgs e) {
if (!mMainCtrl.IsProjectOpen()) {
e.CanExecute = false;
return;
}
MainController.EntityCounts counts = mSelectionState.mEntityCounts;
e.CanExecute = (counts.mDataLines > 0 || counts.mCodeLines > 0) &&
(counts.mCodeHints != 0 || counts.mDataHints != 0 || counts.mInlineDataHints != 0);
}
private void CanRedo(object sender, CanExecuteRoutedEventArgs e) {
e.CanExecute = mMainCtrl.CanRedo();
}
private void CanUndo(object sender, CanExecuteRoutedEventArgs e) {
e.CanExecute = mMainCtrl.CanUndo();
}
#endregion Can-execute handlers
#region Command handlers
private void AssembleCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
// test
Debug.WriteLine("assembling");
}
private void CloseCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
if (!mMainCtrl.CloseProject()) {
Debug.WriteLine("Close canceled");
}
}
private void HelpCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
mMainCtrl.ShowHelp();
}
private void HintAsCodeEntryPointCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
Debug.WriteLine("hint as code entry point");
mMainCtrl.MarkAsType(CodeAnalysis.TypeHint.Code, true);
}
private void HintAsDataStartCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
Debug.WriteLine("hint as data start");
mMainCtrl.MarkAsType(CodeAnalysis.TypeHint.Data, true);
}
private void HintAsInlineDataCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
Debug.WriteLine("hint as inline data");
mMainCtrl.MarkAsType(CodeAnalysis.TypeHint.InlineData, false);
}
private void RemoveHintsCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
Debug.WriteLine("remove hints");
mMainCtrl.MarkAsType(CodeAnalysis.TypeHint.NoHint, false);
}
private void RedoCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
mMainCtrl.RedoChanges();
}
private void SelectAllCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
DateTime start = DateTime.Now;
codeListView.SelectAll();
//codeListView.SelectedItems.Clear();
//foreach (var item in codeListView.Items) {
// codeListView.SelectedItems.Add(item);
//}
// This seems to be faster than setting items individually (10x), but is still O(n^2)
// or worse, and hence unsuitable for very large lists.
//codeListView.SelectedItems.Clear();
//listViewSetSelectedItems.Invoke(codeListView, new object[] { codeListView.Items });
Debug.WriteLine("Select All cmd: " + (DateTime.Now - start).TotalMilliseconds + " ms");
}
private void RecentProjectCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
if (!int.TryParse((string)e.Parameter, out int recentIndex) ||
recentIndex < 0 || recentIndex >= MainController.MAX_RECENT_PROJECTS) {
throw new Exception("Bad parameter: " + e.Parameter);
}
Debug.WriteLine("Recent project #" + recentIndex);
mMainCtrl.OpenRecentProject(recentIndex);
}
private void UndoCmd_Executed(object sender, ExecutedRoutedEventArgs e) {
mMainCtrl.UndoChanges();
}
#endregion Command handlers
#region Info panel
/// <summary>
/// Text to display in the Info panel. This is a simple TextBox.
/// </summary>
public string InfoPanelContents {
get {
return mInfoBoxContents;
}
set {
mInfoBoxContents = value;
OnPropertyChanged();
}
}
private string mInfoBoxContents;
#endregion Info panel
#region References panel
public class ReferencesListItem {
public string Offset { get; private set; }
public string Addr { get; private set; }
public string Type { get; private set; }
public ReferencesListItem(string offset, string addr, string type) {
Offset = offset;
Addr = addr;
Type = type;
}
public override string ToString() {
return "[ReferencesListItem: off=" + Offset + " addr=" + Addr + " type=" +
Type + "]";
}
}
public ObservableCollection<ReferencesListItem> ReferencesList { get; private set; } =
new ObservableCollection<ReferencesListItem>();
#endregion References panel
}
}
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