/* * 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.Diagnostics; using System.IO; using System.Text; using System.Web.Script.Serialization; using System.Windows; using System.Windows.Input; using Microsoft.Win32; using Asm65; using CommonUtil; using CommonWPF; using SourceGen.Sandbox; using SourceGen.WpfGui; using System.Windows.Media; namespace SourceGen { /// /// This class manages user interaction. The goal is for this to be relatively /// GUI-toolkit-agnostic, with all the WPF stuff tucked into the code-behind files. An /// instance of this class is created by MainWindow when the app starts. /// /// There is some Windows-specific stuff, like MessageBox and OpenFileDialog. /// public class MainController { private const string SETTINGS_FILE_NAME = "SourceGen-settings"; #region Project state // Currently open project, or null if none. private DisasmProject mProject; // Pathname to 65xx data file. private string mDataPathName; // Pathname of .dis65 file. This will be empty for a new project. private string mProjectPathName; /// /// Data backing the code list. /// public LineListGen CodeLineList { get; private set; } #endregion Project state /// /// Reference back to MainWindow object. /// private MainWindow mMainWin; /// /// Hex dump viewer window. This is used for the currently open project. /// private Tools.WpfGui.HexDumpViewer mHexDumpDialog; // Debug windows. private Tools.WpfGui.ShowText mShowAnalysisTimersDialog; public bool IsDebugAnalysisTimersOpen { get { return mShowAnalysisTimersDialog != null; } } private Tools.WpfGui.ShowText mShowAnalyzerOutputDialog; public bool IsDebugAnalyzerOutputOpen { get { return mShowAnalyzerOutputDialog != null; } } private Tools.WpfGui.ShowText mShowUndoRedoHistoryDialog; public bool IsDebugUndoRedoHistoryOpen { get { return mShowUndoRedoHistoryDialog != null; } } /// /// This holds any un-owned Windows that we don't otherwise track. It's used for /// hex dump windows of arbitrary files. We need to close them when the main window /// is closed. /// private List mUnownedWindows = new List(); /// /// ASCII chart reference window. Not tied to the project. /// private Tools.WpfGui.AsciiChart mAsciiChartDialog; /// /// Returns true if the ASCII chart window is currently open. /// public bool IsAsciiChartOpen { get { return mAsciiChartDialog != null; } } /// /// Instruction chart reference window. Not tied to the project. /// private Tools.WpfGui.InstructionChart mInstructionChartDialog; /// /// Returns true if the instruction chart window is currently open. /// public bool IsInstructionChartOpen { get { return mInstructionChartDialog != null; } } /// /// List of recently-opened projects. /// public List RecentProjectPaths = new List(MAX_RECENT_PROJECTS); public const int MAX_RECENT_PROJECTS = 6; /// /// Analyzed selection state, updated whenever the selection changes. /// public SelectionState SelectionAnalysis { get; set; } /// /// Activity log generated by the code and data analyzers. Displayed in window. /// private DebugLog mGenerationLog; /// /// Timing data generated during analysis. /// TaskTimer mReanalysisTimer = new TaskTimer(); /// /// Stack for navigate forward/backward. /// private NavStack mNavStack = new NavStack(); /// /// Output format configuration. /// private Formatter.FormatConfig mFormatterConfig; /// /// Output format controller. /// /// This is shared with the DisplayList. /// private Formatter mOutputFormatter; /// /// Pseudo-op names. /// /// This is shared with the DisplayList. /// private PseudoOp.PseudoOpNames mPseudoOpNames; /// /// String we most recently searched for. /// private string mFindString = string.Empty; /// /// Initial start point of most recent search. /// private int mFindStartIndex = -1; /// /// True if previous search was backward, so we can tell if we changed direction /// (otherwise we think we immediately wrapped around and the search stops). /// private bool mFindBackward = false; /// /// Used to highlight the line that is the target of the selected line. /// private int mTargetHighlightIndex = -1; /// /// Code list color scheme. /// private MainWindow.ColorScheme mColorScheme = MainWindow.ColorScheme.Light; /// /// CPU definition used when the Formatter was created. If the CPU choice or /// inclusion of undocumented opcodes changes, we need to wipe the formatter. /// private CpuDef mOutputFormatterCpuDef; /// /// Instruction description object. Used for Info window. /// private OpDescription mOpDesc = OpDescription.GetOpDescription(null); /// /// If true, plugins will execute in the main application's AppDomain instead of /// the sandbox. /// private bool mUseMainAppDomainForPlugins = false; /// /// Code list column numbers. /// public enum CodeListColumn { Offset = 0, Address, Bytes, Flags, Attributes, Label, Opcode, Operand, Comment, COUNT // must be last; must equal number of columns } /// /// Clipboard format enumeration. /// public enum ClipLineFormat { Unknown = -1, AssemblerSource = 0, Disassembly = 1, AllColumns = 2 } /// /// True if a project is open and AnalyzeUncategorizedData is enabled. /// public bool IsAnalyzeUncategorizedDataEnabled { get { if (mProject == null) { return false; } return mProject.ProjectProps.AnalysisParams.AnalyzeUncategorizedData; } } #region Init and settings public MainController(MainWindow win) { mMainWin = win; ScriptManager.UseKeepAliveHack = true; } /// /// Early initialization, before the window is visible. Notably, we want to get the /// window placement data, so we can position and size the window before it's first /// drawn (avoids a blink). /// public void WindowSourceInitialized() { // Load the settings from the file. If this fails we have no way to tell the user, // so just keep going. LoadAppSettings(); SetAppWindowLocation(); } /// /// Perform one-time initialization after the Window has finished loading. We defer /// to this point so we can report fatal errors directly to the user. /// public void WindowLoaded() { Debug.Assert(CommonUtil.RangeSet.Test()); Debug.Assert(CommonUtil.TypedRangeSet.Test()); Debug.Assert(CommonUtil.Version.Test()); if (RuntimeDataAccess.GetDirectory() == null) { MessageBox.Show(Res.Strings.RUNTIME_DIR_NOT_FOUND, Res.Strings.RUNTIME_DIR_NOT_FOUND_CAPTION, MessageBoxButton.OK, MessageBoxImage.Error); Application.Current.Shutdown(); return; } try { PluginDllCache.PreparePluginDir(); } catch (Exception ex) { string pluginPath = PluginDllCache.GetPluginDirPath(); if (pluginPath == null) { pluginPath = ""; } string msg = string.Format(Res.Strings.PLUGIN_DIR_FAIL_FMT, pluginPath + ": " + ex.Message); MessageBox.Show(msg, Res.Strings.PLUGIN_DIR_FAIL_CAPTION, MessageBoxButton.OK, MessageBoxImage.Error); Application.Current.Shutdown(); return; } // Place the main window and apply the various settings. ApplyAppSettings(); UpdateTitle(); mMainWin.UpdateRecentLinks(); ProcessCommandLine(); // Create an initial value. SelectionAnalysis = UpdateSelectionState(); } private void ProcessCommandLine() { string[] args = Environment.GetCommandLineArgs(); if (args.Length == 2) { DoOpenFile(Path.GetFullPath(args[1])); } } /// /// Loads settings from the settings file into AppSettings.Global. Does not apply /// them to the ProjectView. /// private void LoadAppSettings() { AppSettings settings = AppSettings.Global; // Set some default settings for first-time use. The general rule is to set // a default value of false, 0, or the empty string, so we only need to set // values here when that isn't the case. The point at which the setting is // actually used is expected to do something reasonable by default. settings.SetBool(AppSettings.SYMWIN_SHOW_USER, true); settings.SetBool(AppSettings.SYMWIN_SHOW_PROJECT, true); settings.SetBool(AppSettings.SYMWIN_SHOW_PLATFORM, false); settings.SetBool(AppSettings.SYMWIN_SHOW_AUTO, false); settings.SetBool(AppSettings.SYMWIN_SHOW_CONST, true); settings.SetBool(AppSettings.SYMWIN_SHOW_ADDR, true); settings.SetBool(AppSettings.SYMWIN_SORT_ASCENDING, true); settings.SetInt(AppSettings.SYMWIN_SORT_COL, (int)Symbol.SymbolSortField.Name); settings.SetBool(AppSettings.FMT_UPPER_OPERAND_A, true); settings.SetBool(AppSettings.FMT_UPPER_OPERAND_S, true); settings.SetBool(AppSettings.FMT_ADD_SPACE_FULL_COMMENT, true); settings.SetBool(AppSettings.FMT_SPACES_BETWEEN_BYTES, true); settings.SetString(AppSettings.FMT_OPCODE_SUFFIX_LONG, "l"); settings.SetString(AppSettings.FMT_OPERAND_PREFIX_ABS, "a:"); settings.SetString(AppSettings.FMT_OPERAND_PREFIX_LONG, "f:"); settings.SetBool(AppSettings.SRCGEN_ADD_IDENT_COMMENT, true); settings.SetBool(AppSettings.SRCGEN_LONG_LABEL_NEW_LINE, true); #if DEBUG settings.SetBool(AppSettings.DEBUG_MENU_ENABLED, true); #else settings.SetBool(AppSettings.DEBUG_MENU_ENABLED, false); #endif // Make sure we have entries for these. settings.SetString(AppSettings.CDLV_FONT_FAMILY, mMainWin.CodeListFontFamily.ToString()); settings.SetInt(AppSettings.CDLV_FONT_SIZE, (int)mMainWin.CodeListFontSize); // Character and string delimiters. Formatter.DelimiterSet chrDel = Formatter.DelimiterSet.GetDefaultCharDelimiters(); string chrSer = chrDel.Serialize(); settings.SetString(AppSettings.FMT_CHAR_DELIM, chrSer); Formatter.DelimiterSet strDel = Formatter.DelimiterSet.GetDefaultStringDelimiters(); string strSer = strDel.Serialize(); settings.SetString(AppSettings.FMT_STRING_DELIM, strSer); // Load the settings file, and merge it into the globals. string runtimeDataDir = RuntimeDataAccess.GetDirectory(); if (runtimeDataDir == null) { Debug.WriteLine("Unable to load settings file"); return; } string settingsDir = Path.GetDirectoryName(runtimeDataDir); string settingsPath = Path.Combine(settingsDir, SETTINGS_FILE_NAME); try { string text = File.ReadAllText(settingsPath); AppSettings fileSettings = AppSettings.Deserialize(text); AppSettings.Global.MergeSettings(fileSettings); Debug.WriteLine("Settings file loaded and merged"); } catch (Exception ex) { Debug.WriteLine("Unable to read settings file: " + ex.Message); } } /// /// Saves AppSettings to a file. /// private void SaveAppSettings() { if (!AppSettings.Global.Dirty) { Debug.WriteLine("Settings not dirty, not saving"); return; } // Main window position and size. AppSettings.Global.SetString(AppSettings.MAIN_WINDOW_PLACEMENT, mMainWin.GetPlacement()); // Horizontal splitters. AppSettings.Global.SetInt(AppSettings.MAIN_LEFT_PANEL_WIDTH, (int)mMainWin.LeftPanelWidth); AppSettings.Global.SetInt(AppSettings.MAIN_RIGHT_PANEL_WIDTH, (int)mMainWin.RightPanelWidth); // Vertical splitters. AppSettings.Global.SetInt(AppSettings.MAIN_REFERENCES_HEIGHT, (int)mMainWin.ReferencesPanelHeight); AppSettings.Global.SetInt(AppSettings.MAIN_SYMBOLS_HEIGHT, (int)mMainWin.SymbolsPanelHeight); mMainWin.CaptureColumnWidths(); string runtimeDataDir = RuntimeDataAccess.GetDirectory(); if (runtimeDataDir == null) { Debug.WriteLine("Unable to save settings file"); return; } string settingsDir = Path.GetDirectoryName(runtimeDataDir); string settingsPath = Path.Combine(settingsDir, SETTINGS_FILE_NAME); try { string cereal = AppSettings.Global.Serialize(); File.WriteAllText(settingsPath, cereal); AppSettings.Global.Dirty = false; Debug.WriteLine("Saved settings (" + settingsPath + ")"); } catch (Exception ex) { Debug.WriteLine("Failed to save settings: " + ex.Message); } } /// /// Replaces the contents of the global settings object with the new settings, /// then applies them to the project. /// /// New settings. public void SetAppSettings(AppSettings settings) { AppSettings.Global.ReplaceSettings(settings); ApplyAppSettings(); // We get called whenever Apply or OK is hit in the settings editor, so it's // a pretty good time to save the settings out. SaveAppSettings(); } /// /// Sets the app window's location and size. This should be called before the window has /// finished initialization. /// private void SetAppWindowLocation() { const int DEFAULT_SPLIT = 250; AppSettings settings = AppSettings.Global; string placement = settings.GetString(AppSettings.MAIN_WINDOW_PLACEMENT, null); if (placement != null) { mMainWin.SetPlacement(placement); } mMainWin.LeftPanelWidth = settings.GetInt(AppSettings.MAIN_LEFT_PANEL_WIDTH, DEFAULT_SPLIT); mMainWin.RightPanelWidth = settings.GetInt(AppSettings.MAIN_RIGHT_PANEL_WIDTH, DEFAULT_SPLIT); mMainWin.ReferencesPanelHeight = settings.GetInt(AppSettings.MAIN_REFERENCES_HEIGHT, 350); mMainWin.SymbolsPanelHeight = settings.GetInt(AppSettings.MAIN_SYMBOLS_HEIGHT, 400); mMainWin.RestoreColumnWidths(); } /// /// Applies "actionable" settings to the ProjectView, pulling them out of the global /// settings object. If a project is open, refreshes the display list and all sub-windows. /// private void ApplyAppSettings() { Debug.WriteLine("ApplyAppSettings..."); AppSettings settings = AppSettings.Global; // Set up the formatter. mFormatterConfig = new Formatter.FormatConfig(); AsmGen.GenCommon.ConfigureFormatterFromSettings(AppSettings.Global, ref mFormatterConfig); mFormatterConfig.mEndOfLineCommentDelimiter = ";"; mFormatterConfig.mFullLineCommentDelimiterBase = ";"; mFormatterConfig.mBoxLineCommentDelimiter = string.Empty; mFormatterConfig.mLocalVariableLablePrefix = settings.GetString(AppSettings.FMT_LOCAL_VARIABLE_PREFIX, string.Empty); string chrDelCereal = settings.GetString(AppSettings.FMT_CHAR_DELIM, null); if (chrDelCereal != null) { mFormatterConfig.mCharDelimiters = Formatter.DelimiterSet.Deserialize(chrDelCereal); } string strDelCereal = settings.GetString(AppSettings.FMT_STRING_DELIM, null); if (strDelCereal != null) { mFormatterConfig.mStringDelimiters = Formatter.DelimiterSet.Deserialize(strDelCereal); } // Update the formatter, and null out mOutputFormatterCpuDef to force a refresh // of related items. mOutputFormatter = new Formatter(mFormatterConfig); mOutputFormatterCpuDef = null; // Set pseudo-op names. Entries aren't allowed to be blank, so we start with the // default values and merge in whatever the user has configured. mPseudoOpNames = PseudoOp.DefaultPseudoOpNames; string pseudoCereal = settings.GetString(AppSettings.FMT_PSEUDO_OP_NAMES, null); if (!string.IsNullOrEmpty(pseudoCereal)) { PseudoOp.PseudoOpNames deser = PseudoOp.PseudoOpNames.Deserialize(pseudoCereal); if (deser != null) { mPseudoOpNames = PseudoOp.PseudoOpNames.Merge(mPseudoOpNames, deser); } } // Configure the Symbols window. mMainWin.SymFilterUserLabels = settings.GetBool(AppSettings.SYMWIN_SHOW_USER, false); mMainWin.SymFilterAutoLabels = settings.GetBool(AppSettings.SYMWIN_SHOW_AUTO, false); mMainWin.SymFilterProjectSymbols = settings.GetBool(AppSettings.SYMWIN_SHOW_PROJECT, false); mMainWin.SymFilterPlatformSymbols = settings.GetBool(AppSettings.SYMWIN_SHOW_PLATFORM, false); mMainWin.SymFilterConstants = settings.GetBool(AppSettings.SYMWIN_SHOW_CONST, false); mMainWin.SymFilterAddresses = settings.GetBool(AppSettings.SYMWIN_SHOW_ADDR, false); // Get the configured font info. If nothing is configured, use whatever the // code list happens to be using now. string fontFamilyName = settings.GetString(AppSettings.CDLV_FONT_FAMILY, null); if (fontFamilyName == null) { fontFamilyName = mMainWin.CodeListFontFamily.ToString(); } int size = settings.GetInt(AppSettings.CDLV_FONT_SIZE, -1); if (size <= 0) { size = (int)mMainWin.CodeListFontSize; } mMainWin.SetCodeListFont(fontFamilyName, size); // Update the column widths. This was done earlier during init, but may need to be // repeated if the show/hide buttons were used in Settings. mMainWin.RestoreColumnWidths(); // Unpack the recent-project list. UnpackRecentProjectList(); // Set the color scheme. bool useDark = settings.GetBool(AppSettings.SKIN_DARK_COLOR_SCHEME, false); if (useDark) { mColorScheme = MainWindow.ColorScheme.Dark; } else { mColorScheme = MainWindow.ColorScheme.Light; } mMainWin.SetColorScheme(mColorScheme); if (CodeLineList != null) { SetCodeLineListColorMultiplier(); } // Enable the DEBUG menu if configured. mMainWin.ShowDebugMenu = AppSettings.Global.GetBool(AppSettings.DEBUG_MENU_ENABLED, false); // Finally, update the display list generator with all the fancy settings. if (CodeLineList != null) { // Regenerate the display list with the latest formatter config and // pseudo-op definition. (These are set as part of the refresh.) UndoableChange uc = UndoableChange.CreateDummyChange(UndoableChange.ReanalysisScope.DisplayOnly); ApplyChanges(new ChangeSet(uc), false); } } private void SetCodeLineListColorMultiplier() { if (mColorScheme == MainWindow.ColorScheme.Dark) { CodeLineList.NoteColorMultiplier = 0.6f; } else { CodeLineList.NoteColorMultiplier = 1.0f; } } private void UnpackRecentProjectList() { RecentProjectPaths.Clear(); string cereal = AppSettings.Global.GetString( AppSettings.PRVW_RECENT_PROJECT_LIST, null); if (string.IsNullOrEmpty(cereal)) { return; } try { JavaScriptSerializer ser = new JavaScriptSerializer(); RecentProjectPaths = ser.Deserialize>(cereal); } catch (Exception ex) { Debug.WriteLine("Failed deserializing recent projects: " + ex.Message); return; } } /// /// Ensures that the named project is at the top of the list. If it's elsewhere /// in the list, move it to the top. Excess items are removed. /// /// private void UpdateRecentProjectList(string projectPath) { if (string.IsNullOrEmpty(projectPath)) { // This can happen if you create a new project, then close the window // without having saved it. return; } int index = RecentProjectPaths.IndexOf(projectPath); if (index == 0) { // Already in the list, nothing changes. No need to update anything else. return; } if (index > 0) { RecentProjectPaths.RemoveAt(index); } RecentProjectPaths.Insert(0, projectPath); // Trim the list to the max allowed. while (RecentProjectPaths.Count > MAX_RECENT_PROJECTS) { Debug.WriteLine("Recent projects: dropping " + RecentProjectPaths[MAX_RECENT_PROJECTS]); RecentProjectPaths.RemoveAt(MAX_RECENT_PROJECTS); } // Store updated list in app settings. JSON-in-JSON is ugly and inefficient, // but it'll do for now. JavaScriptSerializer ser = new JavaScriptSerializer(); string cereal = ser.Serialize(RecentProjectPaths); AppSettings.Global.SetString(AppSettings.PRVW_RECENT_PROJECT_LIST, cereal); mMainWin.UpdateRecentLinks(); } /// /// Updates the main form title to show project name and modification status. /// private void UpdateTitle() { // Update main window title. StringBuilder sb = new StringBuilder(); if (mProject != null) { if (string.IsNullOrEmpty(mProjectPathName)) { sb.Append(Res.Strings.TITLE_NEW_PROJECT); } else { sb.Append(Path.GetFileName(mProjectPathName)); } if (mProject.IsDirty) { sb.Append(" "); sb.Append(Res.Strings.TITLE_MODIFIED); } if (mProject.IsReadOnly) { sb.Append(" "); sb.Append(Res.Strings.TITLE_READ_ONLY); } sb.Append(" - "); } sb.Append(Res.Strings.TITLE_BASE); mMainWin.Title = sb.ToString(); } #endregion Init and settings #region Project management private bool PrepareNewProject(string dataPathName, SystemDef sysDef) { DisasmProject proj = new DisasmProject(); mDataPathName = dataPathName; mProjectPathName = string.Empty; byte[] fileData = null; try { fileData = LoadDataFile(dataPathName); } catch (Exception ex) { Debug.WriteLine("PrepareNewProject exception: " + ex); string message = Res.Strings.OPEN_DATA_FAIL_CAPTION; string caption = Res.Strings.OPEN_DATA_FAIL_MESSAGE + ": " + ex.Message; MessageBox.Show(caption, message, MessageBoxButton.OK, MessageBoxImage.Error); return false; } proj.UseMainAppDomainForPlugins = mUseMainAppDomainForPlugins; proj.Initialize(fileData.Length); proj.PrepForNew(fileData, Path.GetFileName(dataPathName)); // Initial header comment is the program name and version. string cmt = string.Format(Res.Strings.DEFAULT_HEADER_COMMENT_FMT, App.ProgramVersion); proj.LongComments.Add(LineListGen.Line.HEADER_COMMENT_OFFSET, new MultiLineComment(cmt)); // The system definition provides a set of defaults that can be overridden. // We pull everything of interest out and then discard the object. proj.ApplySystemDef(sysDef); mProject = proj; return true; } #if false private class FinishPrepProgress : WorkProgress.IWorker { public string ExtMessages { get; private set; } private MainController mMainCtrl; public FinishPrepProgress(MainController mainCtrl) { mMainCtrl = mainCtrl; } public object DoWork(BackgroundWorker worker) { string messages = mMainCtrl.mProject.LoadExternalFiles(); mMainCtrl.DoRefreshProject(UndoableChange.ReanalysisScope.CodeAndData); return messages; } public void RunWorkerCompleted(object results) { ExtMessages = (string)results; } } #endif private void FinishPrep() { CodeLineList = new LineListGen(mProject, mMainWin.CodeDisplayList, mOutputFormatter, mPseudoOpNames); SetCodeLineListColorMultiplier(); string messages = mProject.LoadExternalFiles(); if (messages.Length != 0) { // ProjectLoadIssues isn't quite the right dialog, but it'll do. This is // purely informative; no decision needs to be made. ProjectLoadIssues dlg = new ProjectLoadIssues(mMainWin, messages, ProjectLoadIssues.Buttons.Continue); dlg.ShowDialog(); } // Ideally we'd call DoRefreshProject (and LoadExternalFiles) from a progress // dialog, but we're not allowed to update the DisplayList from a different thread. RefreshProject(UndoableChange.ReanalysisScope.CodeAndData); // Populate the Symbols list. PopulateSymbolsList(); // Load initial contents of Notes panel. PopulateNotesList(); mMainWin.ShowCodeListView = true; mNavStack.Clear(); UpdateRecentProjectList(mProjectPathName); UpdateTitle(); } /// /// Loads the data file, reading it entirely into memory. /// /// All errors are reported as exceptions. /// /// Full pathname. /// Data file contents. private byte[] LoadDataFile(string dataFileName) { byte[] fileData; using (FileStream fs = File.Open(dataFileName, FileMode.Open, FileAccess.Read)) { // Check length; should have been caught earlier. if (fs.Length > DisasmProject.MAX_DATA_FILE_SIZE) { throw new InvalidDataException( string.Format(Res.Strings.OPEN_DATA_TOO_LARGE_FMT, fs.Length / 1024, DisasmProject.MAX_DATA_FILE_SIZE / 1024)); } else if (fs.Length == 0) { throw new InvalidDataException(Res.Strings.OPEN_DATA_EMPTY); } fileData = new byte[fs.Length]; int actual = fs.Read(fileData, 0, (int)fs.Length); if (actual != fs.Length) { // Not expected -- should be able to read the entire file in one shot. throw new Exception(Res.Strings.OPEN_DATA_PARTIAL_READ); } } return fileData; } /// /// Applies the changes to the project, adds them to the undo stack, and updates /// the display. /// /// Set of changes to apply. private void ApplyUndoableChanges(ChangeSet cs) { if (cs.Count == 0) { Debug.WriteLine("ApplyUndoableChanges: change set is empty"); } ApplyChanges(cs, false); mProject.PushChangeSet(cs); UpdateTitle(); // If the debug dialog is visible, update it. if (mShowUndoRedoHistoryDialog != null) { mShowUndoRedoHistoryDialog.DisplayText = mProject.DebugGetUndoRedoHistory(); } } /// /// Applies the changes to the project, and updates the display. /// /// This is called by the undo/redo commands. Don't call this directly from the /// various UI-driven functions, as this does not add the change to the undo stack. /// /// Set of changes to apply. /// If set, undo the changes instead. private void ApplyChanges(ChangeSet cs, bool backward) { mReanalysisTimer.Clear(); mReanalysisTimer.StartTask("ProjectView.ApplyChanges()"); mReanalysisTimer.StartTask("Save selection"); mMainWin.CodeListView_DebugValidateSelectionCount(); int topItemIndex = mMainWin.CodeListView_GetTopIndex(); LineListGen.SavedSelection savedSel = LineListGen.SavedSelection.Generate( CodeLineList, mMainWin.CodeDisplayList.SelectedIndices, topItemIndex); //savedSel.DebugDump(); // Clear this so we don't try to fiddle with it later. mTargetHighlightIndex = -1; mReanalysisTimer.EndTask("Save selection"); mReanalysisTimer.StartTask("Apply changes"); UndoableChange.ReanalysisScope needReanalysis = mProject.ApplyChanges(cs, backward, out RangeSet affectedOffsets); mReanalysisTimer.EndTask("Apply changes"); string refreshTaskStr = "Refresh w/reanalysis=" + needReanalysis; mReanalysisTimer.StartTask(refreshTaskStr); if (needReanalysis != UndoableChange.ReanalysisScope.None) { Debug.WriteLine("Refreshing project (" + needReanalysis + ")"); RefreshProject(needReanalysis); } else { Debug.WriteLine("Refreshing " + affectedOffsets.Count + " offsets"); RefreshCodeListViewEntries(affectedOffsets); mProject.Validate(); // shouldn't matter w/o reanalysis, but do it anyway } mReanalysisTimer.EndTask(refreshTaskStr); DisplayListSelection newSel = savedSel.Restore(CodeLineList, out topItemIndex); //newSel.DebugDump(); // Restore the selection. The selection-changed event will cause updates to the // references, notes, and info panels. mReanalysisTimer.StartTask("Restore selection and top position"); mMainWin.CodeListView_SetSelection(newSel); mMainWin.CodeListView_SetTopIndex(topItemIndex); mReanalysisTimer.EndTask("Restore selection and top position"); // Update the Notes and Symbols windows. References should refresh automatically // when the selection is restored. PopulateNotesList(); PopulateSymbolsList(); mReanalysisTimer.EndTask("ProjectView.ApplyChanges()"); //mReanalysisTimer.DumpTimes("ProjectView timers:", mGenerationLog); if (mShowAnalysisTimersDialog != null) { string timerStr = mReanalysisTimer.DumpToString("ProjectView timers:"); mShowAnalysisTimersDialog.DisplayText = timerStr; } // Lines may have moved around. Update the selection highlight. It's important // we do it here, and not down in DoRefreshProject(), because at that point the // ListView's selection index could be referencing a line off the end. // (This may not be necessary with WPF, because the way highlights work changed.) UpdateSelectionHighlight(); } /// /// Updates all of the specified ListView entries. This is called after minor changes, /// such as editing a comment or renaming a label, that can be handled by regenerating /// selected parts of the DisplayList. /// /// private void RefreshCodeListViewEntries(RangeSet offsetSet) { IEnumerator iter = offsetSet.RangeListIterator; while (iter.MoveNext()) { RangeSet.Range range = iter.Current; CodeLineList.GenerateRange(range.Low, range.High); } } /// /// Refreshes the project after something of substance has changed. Some /// re-analysis will be done, followed by a complete rebuild of the DisplayList. /// /// Indicates whether reanalysis is required, and /// what level. private void RefreshProject(UndoableChange.ReanalysisScope reanalysisRequired) { Debug.Assert(reanalysisRequired != UndoableChange.ReanalysisScope.None); // NOTE: my goal is to arrange things so that reanalysis (data-only, and ideally // code+data) takes less than 100ms. With that response time there's no need for // background processing and progress bars. Since we need to do data-only // reanalysis after many common operations, the program becomes unpleasant to // use if we miss this goal, and progress bars won't make it less so. if (mProject.FileDataLength > 65536) { try { Mouse.OverrideCursor = Cursors.Wait; DoRefreshProject(reanalysisRequired); } finally { Mouse.OverrideCursor = null; } } else { DoRefreshProject(reanalysisRequired); } if (mGenerationLog != null) { //mReanalysisTimer.StartTask("Save _log"); //mGenerationLog.WriteToFile(@"C:\Src\WorkBench\SourceGen\TestData\_log.txt"); //mReanalysisTimer.EndTask("Save _log"); if (mShowAnalyzerOutputDialog != null) { mShowAnalyzerOutputDialog.DisplayText = mGenerationLog.WriteToString(); } } if (FormatDescriptor.DebugCreateCount != 0) { Debug.WriteLine("FormatDescriptor total=" + FormatDescriptor.DebugCreateCount + " prefab=" + FormatDescriptor.DebugPrefabCount + " (" + (FormatDescriptor.DebugPrefabCount * 100) / FormatDescriptor.DebugCreateCount + "%)"); } } /// /// Refreshes the project after something of substance has changed. /// /// /// Ideally from this point on we can run on a background thread. The tricky part /// is the close relationship between LineListGen and DisplayList -- we can't update /// DisplayList from a background thread. Until that's fixed, putting up a "working..." /// dialog or other UI will be awkward. /// /// Indicates whether reanalysis is required, and /// what level. private void DoRefreshProject(UndoableChange.ReanalysisScope reanalysisRequired) { // Changing the CPU type or whether undocumented instructions are supported // invalidates the Formatter's mnemonic cache. We can change these values // through undo/redo, so we need to check it here. if (mOutputFormatterCpuDef != mProject.CpuDef) { // reference equality is fine Debug.WriteLine("CpuDef has changed, resetting formatter (now " + mProject.CpuDef + ")"); mOutputFormatter = new Formatter(mFormatterConfig); CodeLineList.SetFormatter(mOutputFormatter); CodeLineList.SetPseudoOpNames(mPseudoOpNames); mOutputFormatterCpuDef = mProject.CpuDef; } if (reanalysisRequired != UndoableChange.ReanalysisScope.DisplayOnly) { mGenerationLog = new CommonUtil.DebugLog(); mGenerationLog.SetMinPriority(CommonUtil.DebugLog.Priority.Debug); mGenerationLog.SetShowRelTime(true); mReanalysisTimer.StartTask("Call DisasmProject.Analyze()"); mProject.Analyze(reanalysisRequired, mGenerationLog, mReanalysisTimer); mReanalysisTimer.EndTask("Call DisasmProject.Analyze()"); mReanalysisTimer.StartTask("Update message list"); mMainWin.UpdateMessageList(mProject.Messages, mOutputFormatter); mReanalysisTimer.EndTask("Update message list"); } mReanalysisTimer.StartTask("Generate DisplayList"); CodeLineList.GenerateAll(); mReanalysisTimer.EndTask("Generate DisplayList"); } #endregion Project management #region Main window UI event handlers public void NewProject() { if (!CloseProject()) { return; } string sysDefsPath = RuntimeDataAccess.GetPathName("SystemDefs.json"); if (sysDefsPath == null) { MessageBox.Show(Res.Strings.ERR_LOAD_CONFIG_FILE, Res.Strings.OPERATION_FAILED, MessageBoxButton.OK, MessageBoxImage.Error); return; } SystemDefSet sds = null; try { sds = SystemDefSet.ReadFile(sysDefsPath); } catch (Exception ex) { Debug.WriteLine("Failed loading system def set: " + ex); MessageBox.Show(Res.Strings.ERR_LOAD_CONFIG_FILE, Res.Strings.OPERATION_FAILED, MessageBoxButton.OK, MessageBoxImage.Error); return; } NewProject dlg = new NewProject(mMainWin, sds); if (dlg.ShowDialog() != true) { return; } bool ok = PrepareNewProject(Path.GetFullPath(dlg.DataFileName), dlg.SystemDef); if (ok) { FinishPrep(); } } public void OpenRecentProject(int projIndex) { if (!CloseProject()) { return; } DoOpenFile(RecentProjectPaths[projIndex]); } /// /// Handles opening an existing project by letting the user select the project file. /// public void OpenProject() { if (!CloseProject()) { return; } OpenFileDialog fileDlg = new OpenFileDialog() { Filter = ProjectFile.FILENAME_FILTER + "|" + Res.Strings.FILE_FILTER_ALL, FilterIndex = 1 }; if (fileDlg.ShowDialog() != true) { return; } string projPathName = Path.GetFullPath(fileDlg.FileName); DoOpenFile(projPathName); } /// /// Handles opening an existing project, given a full pathname to the project file. /// private void DoOpenFile(string projPathName) { Debug.WriteLine("DoOpenFile: " + projPathName); Debug.Assert(mProject == null); if (!File.Exists(projPathName)) { // Should only happen for projects in "recents". string msg = string.Format(Res.Strings.ERR_FILE_NOT_FOUND_FMT, projPathName); MessageBox.Show(msg, Res.Strings.ERR_FILE_GENERIC_CAPTION, MessageBoxButton.OK, MessageBoxImage.Error); return; } DisasmProject newProject = new DisasmProject(); newProject.UseMainAppDomainForPlugins = mUseMainAppDomainForPlugins; // Deserialize the project file. I want to do this before loading the data file // in case we decide to store the data file name in the project (e.g. the data // file is a disk image or zip archive, and we need to know which part(s) to // extract). if (!ProjectFile.DeserializeFromFile(projPathName, newProject, out FileLoadReport report)) { // Should probably use a less-busy dialog for something simple like // "permission denied", but the open file dialog handles most simple // stuff directly. ProjectLoadIssues dlg = new ProjectLoadIssues(mMainWin, report.Format(), ProjectLoadIssues.Buttons.Cancel); dlg.ShowDialog(); // ignore dlg.DialogResult return; } // Now open the data file, generating the pathname by stripping off the ".dis65" // extension. If we can't find the file, show a message box and offer the option to // locate it manually, repeating the process until successful or canceled. const string UNKNOWN_FILE = "UNKNOWN"; string dataPathName; if (projPathName.Length <= ProjectFile.FILENAME_EXT.Length) { dataPathName = UNKNOWN_FILE; } else { dataPathName = projPathName.Substring(0, projPathName.Length - ProjectFile.FILENAME_EXT.Length); } byte[] fileData; while ((fileData = FindValidDataFile(ref dataPathName, newProject, out bool cancel)) == null) { if (cancel) { // give up Debug.WriteLine("Abandoning attempt to open project"); return; } } newProject.SetFileData(fileData, Path.GetFileName(dataPathName), ref report); // If there were warnings, notify the user and give the a chance to cancel. if (report.Count != 0) { ProjectLoadIssues dlg = new ProjectLoadIssues(mMainWin, report.Format(), ProjectLoadIssues.Buttons.ContinueOrCancel); bool? ok = dlg.ShowDialog(); if (ok != true) { return; } newProject.IsReadOnly = dlg.WantReadOnly; } mProject = newProject; mProjectPathName = mProject.ProjectPathName = projPathName; FinishPrep(); } /// /// Finds and loads the specified data file. The file's length and CRC must match /// the project's expectations. /// /// Full path to file. /// Project object. /// Returns true if we want to cancel the attempt. /// private byte[] FindValidDataFile(ref string dataPathName, DisasmProject proj, out bool cancel) { FileInfo fi = new FileInfo(dataPathName); if (!fi.Exists) { Debug.WriteLine("File '" + dataPathName + "' doesn't exist"); dataPathName = ChooseDataFile(dataPathName, Res.Strings.OPEN_DATA_DOESNT_EXIST); cancel = (dataPathName == null); return null; } if (fi.Length != proj.FileDataLength) { Debug.WriteLine("File '" + dataPathName + "' has length=" + fi.Length + ", expected " + proj.FileDataLength); dataPathName = ChooseDataFile(dataPathName, string.Format(Res.Strings.OPEN_DATA_WRONG_LENGTH_FMT, fi.Length, proj.FileDataLength)); cancel = (dataPathName == null); return null; } byte[] fileData = null; try { fileData = LoadDataFile(dataPathName); } catch (Exception ex) { Debug.WriteLine("File '" + dataPathName + "' failed to load: " + ex.Message); dataPathName = ChooseDataFile(dataPathName, string.Format(Res.Strings.OPEN_DATA_LOAD_FAILED_FMT, ex.Message)); cancel = (dataPathName == null); return null; } uint crc = CRC32.OnWholeBuffer(0, fileData); if (crc != proj.FileDataCrc32) { Debug.WriteLine("File '" + dataPathName + "' has CRC32=" + crc + ", expected " + proj.FileDataCrc32); // Format the CRC as signed decimal, so that interested parties can // easily replace the value in the .dis65 file. dataPathName = ChooseDataFile(dataPathName, string.Format(Res.Strings.OPEN_DATA_WRONG_CRC_FMT, (int)crc, (int)proj.FileDataCrc32)); cancel = (dataPathName == null); return null; } cancel = false; return fileData; } /// /// Displays a "do you want to pick a different file" message, then (on OK) allows the /// user to select a file. /// /// Pathname of original file. /// Message to display in the message box. /// Full path of file to open. private string ChooseDataFile(string origPath, string errorMsg) { DataFileLoadIssue dlg = new DataFileLoadIssue(mMainWin, origPath, errorMsg); bool? ok = dlg.ShowDialog(); if (ok != true) { return null; } OpenFileDialog fileDlg = new OpenFileDialog() { FileName = Path.GetFileName(origPath), Filter = Res.Strings.FILE_FILTER_ALL }; if (fileDlg.ShowDialog() != true) { return null; } string newPath = Path.GetFullPath(fileDlg.FileName); Debug.WriteLine("User selected data file " + newPath); return newPath; } /// /// Saves the project, querying for the filename. /// /// True on success, false if the save attempt failed or was canceled. public bool SaveProjectAs() { Debug.Assert(!mProject.IsReadOnly); SaveFileDialog fileDlg = new SaveFileDialog() { Filter = ProjectFile.FILENAME_FILTER + "|" + Res.Strings.FILE_FILTER_ALL, FilterIndex = 1, ValidateNames = true, AddExtension = true, FileName = Path.GetFileName(mDataPathName) + ProjectFile.FILENAME_EXT }; if (fileDlg.ShowDialog() != true) { Debug.WriteLine("SaveAs canceled by user"); return false; } string pathName = Path.GetFullPath(fileDlg.FileName); Debug.WriteLine("Project save path: " + pathName); if (!DoSave(pathName)) { return false; } // Success, record the path name. mProjectPathName = mProject.ProjectPathName = pathName; // add it to the title bar UpdateTitle(); return true; } /// /// Saves the project. If it hasn't been saved before, use save-as behavior instead. /// /// True on success, false if the save attempt failed. public bool SaveProject() { Debug.Assert(!mProject.IsReadOnly); if (string.IsNullOrEmpty(mProjectPathName)) { return SaveProjectAs(); } return DoSave(mProjectPathName); } private bool DoSave(string pathName) { Debug.WriteLine("SAVING " + pathName); if (!ProjectFile.SerializeToFile(mProject, pathName, out string errorMessage)) { MessageBox.Show(Res.Strings.ERR_PROJECT_SAVE_FAIL + ": " + errorMessage, Res.Strings.OPERATION_FAILED, MessageBoxButton.OK, MessageBoxImage.Error); return false; } mProject.ResetDirtyFlag(); // If the debug dialog is visible, update it. if (mShowUndoRedoHistoryDialog != null) { mShowUndoRedoHistoryDialog.DisplayText = mProject.DebugGetUndoRedoHistory(); } UpdateTitle(); // Update this, in case this was a new project. UpdateRecentProjectList(pathName); // Seems like a good time to save this off too. SaveAppSettings(); return true; } /// /// Handles main window closing. /// /// True if it's okay for the window to close, false to cancel it. public bool WindowClosing() { SaveAppSettings(); if (!CloseProject()) { return false; } // WPF won't exit until all windows are closed, so any unowned windows need // to be cleaned up here. mAsciiChartDialog?.Close(); mInstructionChartDialog?.Close(); mHexDumpDialog?.Close(); mShowAnalysisTimersDialog?.Close(); mShowAnalyzerOutputDialog?.Close(); mShowUndoRedoHistoryDialog?.Close(); while (mUnownedWindows.Count > 0) { int count = mUnownedWindows.Count; mUnownedWindows[0].Close(); if (count == mUnownedWindows.Count) { // Window failed to remove itself; this will cause an infinite loop. // The user will have to close them manually. Debug.Assert(false, "Failed to close window " + mUnownedWindows[0]); break; } } return true; } /// /// Closes the project and associated modeless dialogs. Unsaved changes will be /// lost, so if the project has outstanding changes the user will be given the /// opportunity to cancel. /// /// True if the project was closed, false if the user chose to cancel. public bool CloseProject() { Debug.WriteLine("CloseProject() - dirty=" + (mProject == null ? "N/A" : mProject.IsDirty.ToString())); if (mProject != null && mProject.IsDirty) { DiscardChanges dlg = new DiscardChanges(mMainWin); bool? ok = dlg.ShowDialog(); if (ok != true) { return false; } else if (dlg.UserChoice == DiscardChanges.Choice.SaveAndContinue) { if (!SaveProject()) { return false; } } } // Close modeless dialogs that depend on project. mHexDumpDialog?.Close(); mShowAnalysisTimersDialog?.Close(); mShowAnalyzerOutputDialog?.Close(); mShowUndoRedoHistoryDialog?.Close(); // Discard all project state. if (mProject != null) { mProject.Cleanup(); mProject = null; } mDataPathName = null; mProjectPathName = null; mTargetHighlightIndex = -1; mMainWin.ShowCodeListView = false; mMainWin.ProjectClosing(); mGenerationLog = null; // Not necessary, but it lets us check the memory monitor to see if we got // rid of everything. GC.Collect(); return true; } public bool IsProjectOpen { get { return mProject != null; } } public bool IsProjectReadOnly { get { return mProject != null && mProject.IsReadOnly; } } public void AssembleProject() { if (string.IsNullOrEmpty(mProjectPathName)) { // We need a project pathname so we know where to write the assembler // source files, and what to call the output files. We could just pop up the // Save As dialog, but that seems confusing unless we do a custom dialog with // an explanation, or have some annoying click-through. // // This only appears for never-saved projects, not projects with unsaved data. MessageBox.Show(Res.Strings.SAVE_BEFORE_ASM, Res.Strings.SAVE_BEFORE_ASM_CAPTION, MessageBoxButton.OK, MessageBoxImage.Information); return; } AsmGen.WpfGui.GenAndAsm dlg = new AsmGen.WpfGui.GenAndAsm(mMainWin, this, mProject, mProjectPathName); dlg.ShowDialog(); } /// /// Copies the selection to the clipboard as formatted text. /// public void CopyToClipboard() { DisplayListSelection selection = mMainWin.CodeDisplayList.SelectedIndices; if (selection.Count == 0) { Debug.WriteLine("Selection is empty!"); return; } ClipLineFormat format = (ClipLineFormat)AppSettings.Global.GetEnum( AppSettings.CLIP_LINE_FORMAT, typeof(ClipLineFormat), (int)ClipLineFormat.AssemblerSource); int[] rightWidths = new int[] { 9, 8, 11, 100 }; Exporter.ActiveColumnFlags colFlags = Exporter.ActiveColumnFlags.None; if (format == ClipLineFormat.Disassembly) { colFlags |= Exporter.ActiveColumnFlags.Address | Exporter.ActiveColumnFlags.Bytes; } else if (format == ClipLineFormat.AllColumns) { colFlags = Exporter.ActiveColumnFlags.ALL; } Exporter eport = new Exporter(mProject, CodeLineList, mOutputFormatter, colFlags, rightWidths); eport.Selection = selection; // Might want to set Mouse.OverrideCursor if the selection exceeds a few // hundred thousand lines. eport.SelectionToString(true, out string fullText, out string csvText); DataObject dataObject = new DataObject(); dataObject.SetText(fullText.ToString()); // We want to have both plain text and CSV data on the clipboard. To add both // formats we need to stream it to a DataObject. Complicating matters is Excel's // entirely reasonable desire to have data in UTF-8 rather than UTF-16. // // (I'm not sure pasting assembly bits into Excel is actually useful, so this // should probably be optional.) // // https://stackoverflow.com/a/369219/294248 const bool addCsv = true; if (addCsv) { byte[] csvData = Encoding.UTF8.GetBytes(csvText.ToString()); MemoryStream stream = new MemoryStream(csvData); dataObject.SetData(DataFormats.CommaSeparatedValue, stream); } Clipboard.SetDataObject(dataObject, true); } /// /// Opens the application settings dialog. All changes to settings are made directly /// to the AppSettings.Global object. /// public void EditAppSettings() { ShowAppSettings(mMainWin, WpfGui.EditAppSettings.Tab.Unknown, AsmGen.AssemblerInfo.Id.Unknown); } public void ShowAppSettings(Window owner, EditAppSettings.Tab initialTab, AsmGen.AssemblerInfo.Id initialAsmId) { EditAppSettings dlg = new EditAppSettings(owner, mMainWin, this, initialTab, initialAsmId); dlg.ShowDialog(); // The settings code calls SetAppSettings() directly whenever "Apply" is hit. } public void HandleCodeListDoubleClick(int row, int col) { //Debug.WriteLine("DCLICK: row=" + row + " col=" + col); mMainWin.CodeListView_DebugValidateSelectionCount(); // Clicking on some types of lines, such as ORG directives, results in // specific behavior regardless of which column you click in. We're just // checking the clicked-on line to decide what action to take. If it doesn't // make sense to do for a multi-line selection, the action will have been // disabled. LineListGen.Line line = CodeLineList[row]; switch (line.LineType) { case LineListGen.Line.Type.EquDirective: // Currently only does something for project symbols; platform symbols // do nothing. if (CanEditProjectSymbol()) { EditProjectSymbol(); } break; case LineListGen.Line.Type.OrgDirective: if (CanEditAddress()) { EditAddress(); } break; case LineListGen.Line.Type.RegWidthDirective: if (CanEditStatusFlags()) { EditStatusFlags(); } break; case LineListGen.Line.Type.LongComment: if (CanEditLongComment()) { EditLongComment(); } break; case LineListGen.Line.Type.Note: if (CanEditNote()) { EditNote(); } break; case LineListGen.Line.Type.LocalVariableTable: if (CanEditLocalVariableTable()) { EditLocalVariableTable(); } break; case LineListGen.Line.Type.Code: case LineListGen.Line.Type.Data: // For code and data, we have to break it down by column. switch ((CodeListColumn)col) { case CodeListColumn.Offset: // does nothing break; case CodeListColumn.Address: // edit address if (CanEditAddress()) { EditAddress(); } break; case CodeListColumn.Bytes: ShowHexDump(); break; case CodeListColumn.Flags: if (CanEditStatusFlags()) { EditStatusFlags(); } break; case CodeListColumn.Attributes: // does nothing break; case CodeListColumn.Label: if (CanEditLabel()) { EditLabel(); } break; case CodeListColumn.Opcode: HandleDoubleClickOnOpcode(line); break; case CodeListColumn.Operand: if (CanEditOperand()) { EditOperand(); } break; case CodeListColumn.Comment: if (CanEditComment()) { EditComment(); } break; } break; default: Debug.WriteLine("Double-click: unhandled line type " + line.LineType); break; } } private void HandleDoubleClickOnOpcode(LineListGen.Line line) { if (line.FileOffset < 0) { // Double-click on project symbol EQUs and the file header comment are handled // elsewhere. return; } Anattrib attr = mProject.GetAnattrib(line.FileOffset); FormatDescriptor dfd = attr.DataDescriptor; // Does this have an operand with an in-file target offset? // (Resolve it as a numeric reference.) if (attr.OperandOffset >= 0) { // Yup, find the line for that offset and jump to it. GoToLocation(new NavStack.Location(attr.OperandOffset, 0, false), GoToMode.JumpToCodeData, true); } else if (dfd != null && dfd.HasSymbol) { // Operand has a symbol, do a symbol lookup. if (dfd.SymbolRef.IsVariable) { GoToVarDefinition(line.FileOffset, dfd.SymbolRef, true); } else { if (mProject.SymbolTable.TryGetValue(dfd.SymbolRef.Label, out Symbol sym)) { if (sym.SymbolSource == Symbol.Source.User || sym.SymbolSource == Symbol.Source.Auto) { int labelOffset = mProject.FindLabelOffsetByName(dfd.SymbolRef.Label); if (labelOffset >= 0) { GoToLocation(new NavStack.Location(labelOffset, 0, false), GoToMode.JumpToCodeData, true); } } else if (sym.SymbolSource == Symbol.Source.Platform || sym.SymbolSource == Symbol.Source.Project) { // find entry for (int i = 0; i < mProject.ActiveDefSymbolList.Count; i++) { if (mProject.ActiveDefSymbolList[i] == sym) { int offset = LineListGen.DefSymOffsetFromIndex(i); GoToLocation(new NavStack.Location(offset, 0, false), GoToMode.JumpToCodeData, true); break; } } } else { Debug.Assert(false); } } else { // must be a broken weak symbol ref Debug.WriteLine("Operand symbol not found: " + dfd.SymbolRef.Label); } } } else if (attr.IsDataStart || attr.IsInlineDataStart) { // If it's an Address or Symbol, we can try to resolve // the value. (Symbols should have been resolved by the // previous clause, but Address entries would not have been.) int operandOffset = DataAnalysis.GetDataOperandOffset(mProject, line.FileOffset); if (operandOffset >= 0) { GoToLocation(new NavStack.Location(operandOffset, 0, false), GoToMode.JumpToCodeData, true); } } } public bool CanDeleteMlc() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } return (SelectionAnalysis.mLineType == LineListGen.Line.Type.LongComment || SelectionAnalysis.mLineType == LineListGen.Line.Type.Note); } // Delete multi-line comment (Note or LongComment) public void DeleteMlc() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); LineListGen.Line line = CodeLineList[selIndex]; int offset = line.FileOffset; UndoableChange uc; if (line.LineType == LineListGen.Line.Type.Note) { if (!mProject.Notes.TryGetValue(offset, out MultiLineComment oldNote)) { Debug.Assert(false); return; } uc = UndoableChange.CreateNoteChange(offset, oldNote, null); } else if (line.LineType == LineListGen.Line.Type.LongComment) { if (!mProject.LongComments.TryGetValue(offset, out MultiLineComment oldComment)) { Debug.Assert(false); return; } uc = UndoableChange.CreateLongCommentChange(offset, oldComment, null); } else { Debug.Assert(false); return; } ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } public bool CanEditAddress() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } EntityCounts counts = SelectionAnalysis.mEntityCounts; // Line must be code, data, or an ORG directive. return (counts.mDataLines > 0 || counts.mCodeLines > 0) || (SelectionAnalysis.mLineType == LineListGen.Line.Type.OrgDirective); } public void EditAddress() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; Anattrib attr = mProject.GetAnattrib(offset); // Compute load address, i.e. where the byte would have been placed if the entire // file were loaded at the address of the first address map entry. We assume // offsets wrap at the bank boundary. int firstAddr = mProject.AddrMap.OffsetToAddress(0); int loadAddr = ((firstAddr + offset) & 0xffff) | (firstAddr & 0xff0000); EditAddress dlg = new EditAddress(mMainWin, attr.Address, loadAddr, mProject.CpuDef.MaxAddressValue, mOutputFormatter); if (dlg.ShowDialog() != true) { return; } if (offset == 0 && dlg.Address < 0) { // Not allowed. The AddressMap will just put it back, which confuses // the undo operation. Debug.WriteLine("EditAddress: not allowed to remove address at offset +000000"); } else if (attr.Address != dlg.Address) { Debug.WriteLine("EditAddress: changing addr at offset +" + offset.ToString("x6") + " to " + dlg.Address); AddressMap addrMap = mProject.AddrMap; // Get the previous address map entry for this exact offset, if one // exists. This may be different from the value used as the default // (attr.Address), which is the address assigned to the offset, in // the case where no previous mapping existed. int prevAddress = addrMap.Get(offset); UndoableChange uc = UndoableChange.CreateAddressChange(offset, prevAddress, dlg.Address); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } else { Debug.WriteLine("EditAddress: no change"); } } public bool CanEditComment() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } // Line must be code or data. return (SelectionAnalysis.mLineType == LineListGen.Line.Type.Code || SelectionAnalysis.mLineType == LineListGen.Line.Type.Data); } public void EditComment() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; string oldComment = mProject.Comments[offset]; EditComment dlg = new EditComment(mMainWin, oldComment); if (dlg.ShowDialog() == true) { if (!oldComment.Equals(dlg.CommentText)) { Debug.WriteLine("Changing comment at +" + offset.ToString("x6")); UndoableChange uc = UndoableChange.CreateCommentChange(offset, oldComment, dlg.CommentText); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } } } public void EditHeaderComment() { EditLongComment(LineListGen.Line.HEADER_COMMENT_OFFSET); } public bool CanEditLabel() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } EntityCounts counts = SelectionAnalysis.mEntityCounts; // Single line, code or data. return (counts.mDataLines > 0 || counts.mCodeLines > 0); } public void EditLabel() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; Anattrib attr = mProject.GetAnattrib(offset); EditLabel dlg = new EditLabel(mMainWin, attr.Symbol, attr.Address, mProject.SymbolTable); if (dlg.ShowDialog() != true) { return; } // NOTE: if label matching is case-insensitive, we want to allow a situation // where a label is being renamed from "FOO" to "Foo". (We should be able to // test for object equality on the Symbol.) if (attr.Symbol != dlg.LabelSym) { Debug.WriteLine("Changing label at offset +" + offset.ToString("x6")); // For undo/redo, we want to update the UserLabels value. This may // be different from the Anattrib symbol, which can have an auto-generated // value. Symbol oldUserValue = null; if (mProject.UserLabels.ContainsKey(offset)) { oldUserValue = mProject.UserLabels[offset]; } if (oldUserValue == dlg.LabelSym) { // Only expected when attr.Symbol is Auto Debug.Assert(attr.Symbol.SymbolSource == Symbol.Source.Auto); Debug.Assert(oldUserValue == null); Debug.WriteLine("Ignoring attempt to delete an auto label"); } else { UndoableChange uc = UndoableChange.CreateLabelChange(offset, oldUserValue, dlg.LabelSym); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } } } public bool CanCreateLocalVariableTable() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } // Only allow on code lines. This is somewhat arbitrary; data would work fine. int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); if (CodeLineList[selIndex].LineType != LineListGen.Line.Type.Code) { return false; } int offset = CodeLineList[selIndex].FileOffset; // Don't allow creation if a table already exists. return !mProject.LvTables.ContainsKey(offset); } public void CreateLocalVariableTable() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; Debug.Assert(!mProject.LvTables.ContainsKey(offset)); CreateOrEditLocalVariableTable(offset); } public bool CanEditLocalVariableTable() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } // Check to see if the offset of the first-defined table is less than or equal to // the offset of the selected line. If so, we know there's a table, though we // don't know which one. int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; return mProject.LvTables.Count > 0 && mProject.LvTables.Keys[0] <= offset; } public void EditLocalVariableTable() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; // Find the offset of the nearest table that's earlier in the file. int bestOffset = -1; foreach (KeyValuePair kvp in mProject.LvTables) { if (kvp.Key > offset) { break; // too far } bestOffset = kvp.Key; } Debug.Assert(bestOffset >= 0); CreateOrEditLocalVariableTable(bestOffset); } private void CreateOrEditLocalVariableTable(int offset) { // Get existing table, if any. mProject.LvTables.TryGetValue(offset, out LocalVariableTable oldLvt); EditLocalVariableTable dlg = new EditLocalVariableTable(mMainWin, mProject, mOutputFormatter, oldLvt, offset); if (dlg.ShowDialog() != true) { return; } if (offset != dlg.NewOffset) { // Table moved. We create two changes, one to delete the current table, one // to create a new table. Debug.Assert(!mProject.LvTables.TryGetValue(dlg.NewOffset, out LocalVariableTable unused)); UndoableChange rem = UndoableChange.CreateLocalVariableTableChange(offset, oldLvt, null); UndoableChange add = UndoableChange.CreateLocalVariableTableChange(dlg.NewOffset, null, dlg.NewTable); ChangeSet cs = new ChangeSet(2); cs.Add(rem); cs.Add(add); ApplyUndoableChanges(cs); } else if (oldLvt != dlg.NewTable) { // New table, edited in place, or deleted. UndoableChange uc = UndoableChange.CreateLocalVariableTableChange(offset, oldLvt, dlg.NewTable); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } else { Debug.WriteLine("LvTable unchanged"); } } public bool CanEditLongComment() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } EntityCounts counts = SelectionAnalysis.mEntityCounts; // Single line, code or data, or a long comment. return (counts.mDataLines > 0 || counts.mCodeLines > 0 || SelectionAnalysis.mLineType == LineListGen.Line.Type.LongComment); } public void EditLongComment() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; EditLongComment(offset); } private void EditLongComment(int offset) { EditLongComment dlg = new EditLongComment(mMainWin, mOutputFormatter); if (mProject.LongComments.TryGetValue(offset, out MultiLineComment oldComment)) { dlg.LongComment = oldComment; } if (dlg.ShowDialog() != true) { return; } MultiLineComment newComment = dlg.LongComment; if (oldComment != newComment) { Debug.WriteLine("Changing long comment at +" + offset.ToString("x6")); UndoableChange uc = UndoableChange.CreateLongCommentChange(offset, oldComment, newComment); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } } public bool CanEditNote() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } EntityCounts counts = SelectionAnalysis.mEntityCounts; // Single line, code or data, or a note. return (counts.mDataLines > 0 || counts.mCodeLines > 0 || SelectionAnalysis.mLineType == LineListGen.Line.Type.Note); } public void EditNote() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; MultiLineComment oldNote; if (!mProject.Notes.TryGetValue(offset, out oldNote)) { oldNote = null; } EditNote dlg = new EditNote(mMainWin, oldNote); dlg.ShowDialog(); if (dlg.DialogResult != true) { return; } MultiLineComment newNote = dlg.Note; if (oldNote != newNote) { Debug.WriteLine("Changing note at +" + offset.ToString("x6")); UndoableChange uc = UndoableChange.CreateNoteChange(offset, oldNote, newNote); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } } public bool CanEditOperand() { if (SelectionAnalysis.mNumItemsSelected == 0) { return false; } else if (SelectionAnalysis.mNumItemsSelected == 1) { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int selOffset = CodeLineList[selIndex].FileOffset; bool editInstr = (CodeLineList[selIndex].LineType == LineListGen.Line.Type.Code && mProject.GetAnattrib(selOffset).IsInstructionWithOperand); bool editData = (CodeLineList[selIndex].LineType == LineListGen.Line.Type.Data); return editInstr || editData; } else { // Data operands are one of the few things we can edit in bulk. It's okay // if meta-data like ORGs and Notes are selected, but we don't allow it if // any code is selected. EntityCounts counts = SelectionAnalysis.mEntityCounts; return (counts.mDataLines > 0 && counts.mCodeLines == 0); } } public void EditOperand() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int selOffset = CodeLineList[selIndex].FileOffset; if (CodeLineList[selIndex].LineType == LineListGen.Line.Type.Code) { EditInstructionOperand(selOffset); } else { // We allow the selection to include meta-data like .org and Notes. //Debug.Assert(CodeLineList[selIndex].LineType == LineListGen.Line.Type.Data); EditDataOperand(selOffset); } } private void EditInstructionOperand(int offset) { EditInstructionOperand dlg = new EditInstructionOperand(mMainWin, mProject, offset, mOutputFormatter); if (dlg.ShowDialog() != true) { return; } ChangeSet cs = new ChangeSet(1); mProject.OperandFormats.TryGetValue(offset, out FormatDescriptor dfd); if (dlg.FormatDescriptorResult != dfd) { UndoableChange uc = UndoableChange.CreateOperandFormatChange(offset, dfd, dlg.FormatDescriptorResult); cs.Add(uc); } else { Debug.WriteLine("No change to operand format"); } // Check for changes to a local variable table. The edit dialog can't delete an // entire table, so a null value here means no changes were made. if (dlg.LocalVariableResult != null) { int tableOffset = dlg.LocalVariableTableOffsetResult; LocalVariableTable lvt = mProject.LvTables[tableOffset]; Debug.Assert(lvt != null); // cannot create a table either UndoableChange uc = UndoableChange.CreateLocalVariableTableChange(tableOffset, lvt, dlg.LocalVariableResult); cs.Add(uc); } else { Debug.WriteLine("No change to LvTable"); } // Check for changes to label at operand target address. Labels can be created, // modified, or deleted. if (dlg.SymbolEditOffsetResult >= 0) { mProject.UserLabels.TryGetValue(dlg.SymbolEditOffsetResult, out Symbol oldLabel); UndoableChange uc = UndoableChange.CreateLabelChange(dlg.SymbolEditOffsetResult, oldLabel, dlg.SymbolEditResult); cs.Add(uc); } else { Debug.WriteLine("No change to label"); } // Check for changes to a project property. The dialog can create a new entry or // modify an existing entry. if (dlg.ProjectPropertyResult != null) { DefSymbol oldSym = dlg.PrevProjectPropertyResult; DefSymbol newSym = dlg.ProjectPropertyResult; ProjectProperties newProps = new ProjectProperties(mProject.ProjectProps); // Add new entry, or replace existing entry. if (oldSym != null) { newProps.ProjectSyms.Remove(oldSym.Label); } newProps.ProjectSyms.Add(newSym.Label, newSym); UndoableChange uc = UndoableChange.CreateProjectPropertiesChange( mProject.ProjectProps, newProps); cs.Add(uc); } else { Debug.WriteLine("No change to project property"); } Debug.WriteLine("EditInstructionOperand: " + cs.Count + " changes"); if (cs.Count != 0) { ApplyUndoableChanges(cs); } } private void EditDataOperand(int offset) { Debug.Assert(mMainWin.CodeListView_GetSelectionCount() > 0); TypedRangeSet trs = GroupedOffsetSetFromSelected(); if (trs.Count == 0) { Debug.Assert(false, "EditDataOperand found nothing to edit"); // shouldn't happen return; } // If the first offset has a FormatDescriptor, pass that in as a recommendation // for the default value in the dialog. This allows single-item editing to work // as expected. If the format can't be applied to the full selection (which // would disable that radio button), the dialog will have to pick something // that does work. // // We could pull this out of Anattribs, which would let the dialog reflect the // auto-format that the user was just looking at. However, I think it's better // if the dialog shows what's actually there, i.e. no formatting at all. IEnumerator iter = (IEnumerator)trs.GetEnumerator(); iter.MoveNext(); TypedRangeSet.Tuple firstOffset = iter.Current; mProject.OperandFormats.TryGetValue(firstOffset.Value, out FormatDescriptor dfd); EditDataOperand dlg = new EditDataOperand(mMainWin, mProject, mOutputFormatter, trs, dfd); if (dlg.ShowDialog() == true) { // Merge the changes into the OperandFormats list. We need to remove all // FormatDescriptors that overlap the selected region. We don't need to // pass the selection set in, because the dlg.Results list spans the exact // set of ranges. // // If nothing actually changed, don't generate an undo record. ChangeSet cs = mProject.GenerateFormatMergeSet(dlg.Results); if (cs.Count != 0) { ApplyUndoableChanges(cs); } else { Debug.WriteLine("No change to data formats"); } } } public bool CanEditProjectSymbol() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } if (SelectionAnalysis.mLineType != LineListGen.Line.Type.EquDirective) { return false; } int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int symIndex = LineListGen.DefSymIndexFromOffset(CodeLineList[selIndex].FileOffset); DefSymbol defSym = mProject.ActiveDefSymbolList[symIndex]; return (defSym.SymbolSource == Symbol.Source.Project); } public void EditProjectSymbol() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int symIndex = LineListGen.DefSymIndexFromOffset(CodeLineList[selIndex].FileOffset); DefSymbol origDefSym = mProject.ActiveDefSymbolList[symIndex]; Debug.Assert(origDefSym.SymbolSource == Symbol.Source.Project); EditDefSymbol dlg = new EditDefSymbol(mMainWin, mOutputFormatter, mProject.ProjectProps.ProjectSyms, origDefSym, null); if (dlg.ShowDialog() == true) { ProjectProperties newProps = new ProjectProperties(mProject.ProjectProps); newProps.ProjectSyms.Remove(origDefSym.Label); newProps.ProjectSyms[dlg.NewSym.Label] = dlg.NewSym; UndoableChange uc = UndoableChange.CreateProjectPropertiesChange( mProject.ProjectProps, newProps); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } } public bool CanEditStatusFlags() { if (SelectionAnalysis.mNumItemsSelected != 1) { return false; } EntityCounts counts = SelectionAnalysis.mEntityCounts; // Single line, must be code or a RegWidth directive. return (SelectionAnalysis.mLineType == LineListGen.Line.Type.Code || SelectionAnalysis.mLineType == LineListGen.Line.Type.RegWidthDirective); } public void EditStatusFlags() { int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int offset = CodeLineList[selIndex].FileOffset; EditStatusFlags dlg = new EditStatusFlags(mMainWin, mProject.StatusFlagOverrides[offset], mProject.CpuDef.HasEmuFlag); if (dlg.ShowDialog() != true) { return; } if (dlg.FlagValue != mProject.StatusFlagOverrides[offset]) { UndoableChange uc = UndoableChange.CreateStatusFlagChange(offset, mProject.StatusFlagOverrides[offset], dlg.FlagValue); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } } public void EditProjectProperties() { string projectDir = string.Empty; if (!string.IsNullOrEmpty(mProjectPathName)) { projectDir = Path.GetDirectoryName(mProjectPathName); } EditProjectProperties dlg = new EditProjectProperties(mMainWin, mProject.ProjectProps, projectDir, mOutputFormatter); dlg.ShowDialog(); ProjectProperties newProps = dlg.NewProps; // The dialog result doesn't matter, because the user might have hit "apply" // before hitting "cancel". if (newProps != null) { UndoableChange uc = UndoableChange.CreateProjectPropertiesChange( mProject.ProjectProps, newProps); ApplyUndoableChanges(new ChangeSet(uc)); } } public void Export() { string outName; if (string.IsNullOrEmpty(mProjectPathName)) { outName = Path.GetFileName(mDataPathName); } else { outName = Path.GetFileName(mProjectPathName); } Export dlg = new Export(mMainWin, outName); if (dlg.ShowDialog() == false) { return; } int[] rightWidths = new int[] { dlg.AsmLabelColWidth, dlg.AsmOpcodeColWidth, dlg.AsmOperandColWidth, dlg.AsmCommentColWidth }; Exporter eport = new Exporter(mProject, CodeLineList, mOutputFormatter, dlg.ColFlags, rightWidths); eport.IncludeNotes = dlg.IncludeNotes; eport.LongLabelNewLine = dlg.LongLabelNewLine; if (dlg.SelectionOnly) { DisplayListSelection selection = mMainWin.CodeDisplayList.SelectedIndices; if (selection.Count == 0) { // no selection == select all selection = null; } eport.Selection = selection; } // This is generally fast enough that I don't feel the need to create a // progress window. try { Mouse.OverrideCursor = Cursors.Wait; if (dlg.GenType == WpfGui.Export.GenerateFileType.Html) { eport.OutputToHtml(dlg.PathName, dlg.OverwriteCss); } else { eport.OutputToText(dlg.PathName, dlg.TextModeCsv); } } finally { Mouse.OverrideCursor = null; } } public void Find() { FindBox dlg = new FindBox(mMainWin, mFindString); if (dlg.ShowDialog() == true) { mFindString = dlg.TextToFind; mFindStartIndex = -1; FindText(dlg.IsBackward); } } public void FindNext() { FindText(false); } public void FindPrevious() { FindText(true); } private void FindText(bool goBackward) { if (string.IsNullOrEmpty(mFindString)) { return; } int incr = goBackward ? -1 : 1; // If we reversed direction, reset the "start index" so we don't tell the user // we've wrapped around. if (mFindBackward != goBackward) { mFindStartIndex = -1; mFindBackward = goBackward; } // Start from the topmost selected line, or the start of the file if nothing // is selected. // TODO(maybe): if multiple lines are selected, search only within the selected set. int index = mMainWin.CodeListView_GetFirstSelectedIndex(); if (index < 0) { index = 0; } // Start one past the selected item. index += incr; if (index == CodeLineList.Count) { index = 0; } else if (index == -1) { index = CodeLineList.Count - 1; } //Debug.WriteLine("FindText index=" + index + " start=" + mFindStartIndex + // " str=" + mFindString); while (index != mFindStartIndex) { if (mFindStartIndex < 0) { // need to latch this inside the loop so the initial test doesn't fail mFindStartIndex = index; } string searchStr = CodeLineList.GetSearchString(index); int matchPos = searchStr.IndexOf(mFindString, StringComparison.InvariantCultureIgnoreCase); if (matchPos >= 0) { //Debug.WriteLine("Match " + index + ": " + searchStr); mMainWin.CodeListView_EnsureVisible(index); mMainWin.CodeListView_SelectRange(index, 1); return; } index += incr; if (index == CodeLineList.Count) { index = 0; } else if (index == -1) { index = CodeLineList.Count - 1; } } // Announce that we've wrapped around, then clear the start index. MessageBox.Show(Res.Strings.FIND_REACHED_START, Res.Strings.FIND_REACHED_START_CAPTION, MessageBoxButton.OK, MessageBoxImage.Information); mFindStartIndex = -1; mMainWin.CodeListView_Focus(); } public bool CanFormatAsWord() { EntityCounts counts = SelectionAnalysis.mEntityCounts; // This is insufficient -- we need to know how many bytes are selected, and // whether they're already formatted as multi-byte items. Too expensive to // deal with here, so we'll need to show failure dialogs instead (ugh). return (counts.mDataLines > 0 && counts.mCodeLines == 0); } public void FormatAsWord() { TypedRangeSet trs = GroupedOffsetSetFromSelected(); if (trs.Count == 0) { Debug.Assert(false, "nothing to edit"); // shouldn't happen return; } // If the user has only selected a single byte, we want to add the following byte // to the selection, then proceed as usual. We can't simply modify the ListView // selection because the following item might be an auto-detected string or fill, // and we'd be adding multiple bytes. We have to be careful when grabbing the byte // in case there's a region-split at that point (e.g. user label or .ORG). // // We could expand this to allow multiple regions, each of which is a single byte, // but we'd need to deal with the case where the user selects two adjacent bytes that // cross a region boundary. if (trs.RangeCount == 1) { // Exactly one range entry. Check its size. IEnumerator checkIter = trs.RangeListIterator; checkIter.MoveNext(); TypedRangeSet.TypedRange rng = checkIter.Current; if (rng.Low == rng.High && rng.Low < mProject.FileDataLength - 1) { // Single byte selected. Check to see if it's okay to grab the next byte. Anattrib thisAttr = mProject.GetAnattrib(rng.Low); Debug.Assert(thisAttr.DataDescriptor.Length == 1); int nextOffset = rng.Low + 1; Anattrib nextAttr = mProject.GetAnattrib(nextOffset); // This must match what GroupedOffsetSetFromSelected() does. if (!mProject.UserLabels.ContainsKey(nextOffset) && !mProject.HasCommentOrNote(nextOffset) && thisAttr.Address == nextAttr.Address - 1) { // Good to go. Debug.WriteLine("Grabbing second byte from +" + nextOffset.ToString("x6")); trs.Add(nextOffset, rng.Type); } } } // Confirm that every selected byte is a single-byte data item (either set by // the user or as part of the uncategorized data scan). foreach (TypedRangeSet.Tuple tup in trs) { FormatDescriptor dfd = mProject.GetAnattrib(tup.Value).DataDescriptor; if (dfd != null && dfd.Length != 1) { Debug.WriteLine("Can't format as word: offset +" + tup.Value.ToString("x6") + " has len=" + dfd.Length + " (must be 1)"); MessageBox.Show(Res.Strings.INVALID_FORMAT_WORD_SEL_NON1, Res.Strings.INVALID_FORMAT_WORD_SEL_CAPTION, MessageBoxButton.OK, MessageBoxImage.Error); return; } } // Confirm that, in each region, an even number of bytes are selected. IEnumerator rngIter = trs.RangeListIterator; while (rngIter.MoveNext()) { TypedRangeSet.TypedRange rng = rngIter.Current; int rangeLen = rng.High - rng.Low + 1; if ((rangeLen & 0x01) != 0) { string msg = string.Format(Res.Strings.INVALID_FORMAT_WORD_SEL_UNEVEN_FMT, trs.RangeCount); MessageBox.Show(msg, Res.Strings.INVALID_FORMAT_WORD_SEL_CAPTION, MessageBoxButton.OK, MessageBoxImage.Error); return; } } // Selection is good, generate changes. SortedList newFmts = new SortedList(); rngIter.Reset(); FormatDescriptor newDfd = FormatDescriptor.Create(2, FormatDescriptor.Type.NumericLE, FormatDescriptor.SubType.None); while (rngIter.MoveNext()) { TypedRangeSet.TypedRange rng = rngIter.Current; for (int i = rng.Low; i <= rng.High; i += 2) { newFmts.Add(i, newDfd); } } ChangeSet cs = mProject.GenerateFormatMergeSet(newFmts); if (cs.Count != 0) { ApplyUndoableChanges(cs); } } public bool CanFormatAddressTable() { EntityCounts counts = SelectionAnalysis.mEntityCounts; // Must be at least one line of data, and no code. Note this is lines, not bytes, // so we can't screen out single-byte lines without additional work. return (counts.mDataLines > 0 && counts.mCodeLines == 0); } public void FormatAddressTable() { TypedRangeSet trs = GroupedOffsetSetFromSelected(); if (trs.Count == 0) { // shouldn't happen Debug.Assert(false, "FormatSplitAddressTable found nothing to edit"); return; } FormatAddressTable dlg = new FormatAddressTable(mMainWin, mProject, trs, mOutputFormatter); dlg.ShowDialog(); if (dlg.DialogResult != true) { return; } // Start with the format descriptors. ChangeSet cs = mProject.GenerateFormatMergeSet(dlg.NewFormatDescriptors); // Add in the user labels. foreach (KeyValuePair kvp in dlg.NewUserLabels) { Symbol oldUserValue = null; if (mProject.UserLabels.ContainsKey(kvp.Key)) { Debug.Assert(false, "should not be replacing label"); oldUserValue = mProject.UserLabels[kvp.Key]; } UndoableChange uc = UndoableChange.CreateLabelChange(kvp.Key, oldUserValue, kvp.Value); cs.Add(uc); } // Apply code hints. if (dlg.WantCodeHints) { TypedRangeSet newSet = new TypedRangeSet(); TypedRangeSet undoSet = new TypedRangeSet(); foreach (int offset in dlg.AllTargetOffsets) { if (!mProject.GetAnattrib(offset).IsInstruction) { CodeAnalysis.TypeHint oldType = mProject.TypeHints[offset]; if (oldType == CodeAnalysis.TypeHint.Code) { continue; // already set } undoSet.Add(offset, (int)oldType); newSet.Add(offset, (int)CodeAnalysis.TypeHint.Code); } } if (newSet.Count != 0) { cs.Add(UndoableChange.CreateTypeHintChange(undoSet, newSet)); } } // Finally, apply the change. if (cs.Count != 0) { ApplyUndoableChanges(cs); } else { Debug.WriteLine("No changes found"); } } public void Goto() { GotoBox dlg = new GotoBox(mMainWin, mProject, mOutputFormatter); if (dlg.ShowDialog() == true) { GoToLocation(new NavStack.Location(dlg.TargetOffset, 0, false), GoToMode.JumpToCodeData, true); mMainWin.CodeListView_Focus(); } } public enum GoToMode { Unknown = 0, JumpToCodeData, JumpToNote, JumpToAdjIndex }; /// /// Moves the view and selection to the specified offset. We want to select stuff /// differently if we're jumping to a note vs. jumping to an instruction. /// /// Offset to jump to. /// If set, push new offset onto navigation stack. public void GoToLocation(NavStack.Location loc, GoToMode mode, bool doPush) { NavStack.Location prevLoc = GetCurrentlySelectedLocation(); //Debug.WriteLine("GoToLocation: " + loc + " mode=" + mode + " doPush=" + doPush + // " (curLoc=" + prevLoc + ")"); // Avoid pushing multiple copies of the same address on. This doesn't quite work // because we can't compare the LineDelta without figuring out JumpToCodeData first. // If we're sitting in a long comment or LvTable and the user double-clicks on the // entry in the symbol table for the current offset, we want to move the selection, // so we don't want to bail out if the offset matches. Easiest thing to do is to // do the move but not push it. bool jumpToNote = (mode == GoToMode.JumpToNote); if (loc.Offset == prevLoc.Offset && jumpToNote == prevLoc.IsNote) { // we're jumping to ourselves? if (doPush) { Debug.WriteLine("Ignoring push for goto to current offset"); doPush = false; } } int topLineIndex = CodeLineList.FindLineIndexByOffset(loc.Offset); if (topLineIndex < 0) { Debug.Assert(false, "failed goto offset +" + loc.Offset.ToString("x6")); return; } int lastLineIndex; if (mode == GoToMode.JumpToNote) { // Select all note lines, disregard the rest. while (CodeLineList[topLineIndex].LineType != LineListGen.Line.Type.Note) { topLineIndex++; Debug.Assert(CodeLineList[topLineIndex].FileOffset == loc.Offset); } lastLineIndex = topLineIndex + 1; while (lastLineIndex < CodeLineList.Count && CodeLineList[lastLineIndex].LineType == LineListGen.Line.Type.Note) { lastLineIndex++; } } else if (loc.Offset < 0) { // This is the offset of the header comment or a .EQ directive. Don't mess with it. lastLineIndex = topLineIndex + 1; } else if (mode == GoToMode.JumpToCodeData) { // Advance to the code or data line. while (CodeLineList[topLineIndex].LineType != LineListGen.Line.Type.Code && CodeLineList[topLineIndex].LineType != LineListGen.Line.Type.Data) { topLineIndex++; } lastLineIndex = topLineIndex + 1; } else if (mode == GoToMode.JumpToAdjIndex) { // Adjust the line position by the line delta. If the adjustment moves us to // a different element, ignore the adjustment. if (CodeLineList[topLineIndex].FileOffset == CodeLineList[topLineIndex + loc.LineDelta].FileOffset) { topLineIndex += loc.LineDelta; } lastLineIndex = topLineIndex + 1; } else { Debug.Assert(false); lastLineIndex = topLineIndex + 1; } // Make sure the item is visible. For notes, this can span multiple lines. mMainWin.CodeListView_EnsureVisible(lastLineIndex - 1); mMainWin.CodeListView_EnsureVisible(topLineIndex); // Update the selection. mMainWin.CodeListView_SelectRange(topLineIndex, lastLineIndex - topLineIndex); if (doPush) { // Update the back stack and associated controls. mNavStack.Push(prevLoc); } } /// /// Moves the view and selection to the definition of a local variable. /// /// Offset at which the variable was referenced. /// Reference to variable. public void GoToVarDefinition(int offset, WeakSymbolRef symRef, bool doPush) { Debug.Assert(offset >= 0); Debug.Assert(symRef.IsVariable); LocalVariableLookup lvLookup = new LocalVariableLookup(mProject.LvTables, mProject, false); int varOffset = lvLookup.GetDefiningTableOffset(offset, symRef); if (varOffset <= 0) { Debug.WriteLine("Local variable not found; offset=" + offset + " ref=" + symRef); return; } // We have the offset to which the local variable table is bound. We need to // walk down until we find the variable definitions, and find the line with the // matching symbol. // // We're comparing to the formatted strings -- safer than trying to find the symbol // in the table and then guess at how the table arranges itself for display -- so we // need to compare the formatted form of the label. string cmpStr = mOutputFormatter.FormatVariableLabel(symRef.Label); int lineIndex = CodeLineList.FindLineIndexByOffset(varOffset); while (lineIndex < mProject.FileDataLength) { LineListGen.Line line = CodeLineList[lineIndex]; if (line.FileOffset != varOffset) { // we've gone too far Debug.WriteLine("ran out of LV table"); return; } if (line.LineType == LineListGen.Line.Type.LocalVariableTable) { DisplayList.FormattedParts parts = CodeLineList.GetFormattedParts(lineIndex); if (cmpStr.Equals(parts.Label)) { // Eureka NavStack.Location prevLoc = GetCurrentlySelectedLocation(); mMainWin.CodeListView_EnsureVisible(lineIndex); // Update the selection. mMainWin.CodeListView_SelectRange(lineIndex, 1); if (doPush) { // Update the back stack and associated controls. mNavStack.Push(prevLoc); } return; } else { //Debug.WriteLine("Var: '" + cmpStr + "' != '" + parts.Label + "'"); } } lineIndex++; } } /// /// Calculates the currently-selected location. /// /// /// This is done whenever we jump somewhere else. For the most part we'll be in a /// line of code, jumping when an operand or reference is double-clicked, but we might /// be in the middle of a long comment when a symbol is double-clicked or the /// nav-forward arrow is clicked. The most interesting case is when a reference for /// a local variable table entry is double-clicked, since we want to be sure that we /// return to the correct entry in the LvTable (assuming it still exists). /// /// Returns the location. private NavStack.Location GetCurrentlySelectedLocation() { int index = mMainWin.CodeListView_GetFirstSelectedIndex(); if (index < 0) { // nothing selected, use top instead index = mMainWin.CodeListView_GetTopIndex(); } int offset = CodeLineList[index].FileOffset; int lineDelta = index - CodeLineList.FindLineIndexByOffset(offset); bool isNote = (CodeLineList[index].LineType == LineListGen.Line.Type.Note); return new NavStack.Location(offset, lineDelta, isNote); } public bool CanNavigateBackward() { return mNavStack.HasBackward; } public void NavigateBackward() { Debug.Assert(mNavStack.HasBackward); NavStack.Location backLoc = mNavStack.MoveBackward(GetCurrentlySelectedLocation()); GoToLocation(backLoc, backLoc.IsNote ? GoToMode.JumpToNote : GoToMode.JumpToAdjIndex, false); } public bool CanNavigateForward() { return mNavStack.HasForward; } public void NavigateForward() { Debug.Assert(mNavStack.HasForward); NavStack.Location fwdLoc = mNavStack.MoveForward(GetCurrentlySelectedLocation()); GoToLocation(fwdLoc, fwdLoc.IsNote ? GoToMode.JumpToNote : GoToMode.JumpToAdjIndex, false); } /// /// Scrolls the code list so that the specified label is shown. /// /// Label symbol. public void GoToLabel(Symbol sym) { if (sym.IsInternalLabel) { int offset = mProject.FindLabelOffsetByName(sym.Label); if (offset >= 0) { GoToLocation(new NavStack.Location(offset, 0, false), GoToMode.JumpToCodeData, true); } else { Debug.WriteLine("DClick symbol: " + sym + ": label not found"); } } else { Debug.WriteLine("DClick symbol: " + sym + ": not label"); } } public void SelectionChanged() { SelectionAnalysis = UpdateSelectionState(); UpdateReferencesPanel(); UpdateInfoPanel(); UpdateSelectionHighlight(); } /// /// Gathered facts about the current selection. Recalculated whenever the selection /// changes. /// public class SelectionState { // Number of selected items or lines, reduced. This will be: // 0 if no lines are selected // 1 if a single *item* is selected (regardless of number of lines) // >1 if more than one item is selected (exact value not specified) public int mNumItemsSelected; // Single selection: the type of line selected. (Multi-sel: Unclassified) public LineListGen.Line.Type mLineType; // Single selection: is line an instruction with an operand. (Multi-sel: False) public bool mIsInstructionWithOperand; // Single selection: is line an EQU directive for a project symbol. (Multi-sel: False) public bool mIsProjectSymbolEqu; // Some totals. public EntityCounts mEntityCounts; public SelectionState() { mLineType = LineListGen.Line.Type.Unclassified; mEntityCounts = new EntityCounts(); } } /// /// Updates Actions menu enable states when the selection changes. /// /// is selected. public SelectionState UpdateSelectionState() { int selCount = mMainWin.CodeListView_GetSelectionCount(); //Debug.WriteLine("UpdateSelectionState: selCount=" + selCount); SelectionState state = new SelectionState(); // Use IsSingleItemSelected(), rather than just checking sel.Count, because we // want the user to be able to e.g. EditData on a multi-line string even if all // lines in the string are selected. if (selCount < 0) { // nothing selected, leave everything set to false / 0 state.mEntityCounts = new EntityCounts(); } else if (IsSingleItemSelected()) { int firstIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); state.mNumItemsSelected = 1; state.mEntityCounts = GatherEntityCounts(firstIndex); LineListGen.Line line = CodeLineList[firstIndex]; state.mLineType = line.LineType; state.mIsInstructionWithOperand = (line.LineType == LineListGen.Line.Type.Code && mProject.GetAnattrib(line.FileOffset).IsInstructionWithOperand); if (line.LineType == LineListGen.Line.Type.EquDirective) { // See if this EQU directive is for a project symbol. int symIndex = LineListGen.DefSymIndexFromOffset(line.FileOffset); DefSymbol defSym = mProject.ActiveDefSymbolList[symIndex]; state.mIsProjectSymbolEqu = (defSym.SymbolSource == Symbol.Source.Project); } } else { state.mNumItemsSelected = 2; state.mEntityCounts = GatherEntityCounts(-1); } return state; } /// /// Entity count collection, for GatherEntityCounts. /// public class EntityCounts { public int mCodeLines; public int mDataLines; public int mBlankLines; public int mControlLines; public int mCodeHints; public int mDataHints; public int mInlineDataHints; public int mNoHints; }; /// /// Gathers a count of different line types and hints that are currently selected. /// /// If a single line is selected, pass the index in. /// Otherwise, pass -1 to traverse the entire line list. /// Object with computed totals. private EntityCounts GatherEntityCounts(int singleLineIndex) { //DateTime startWhen = DateTime.Now; int codeLines, dataLines, blankLines, controlLines; int codeHints, dataHints, inlineDataHints, noHints; codeLines = dataLines = blankLines = controlLines = 0; codeHints = dataHints = inlineDataHints = noHints = 0; int startIndex, endIndex; if (singleLineIndex < 0) { startIndex = 0; endIndex = mMainWin.CodeDisplayList.Count - 1; } else { startIndex = endIndex = singleLineIndex; } for (int i = startIndex; i <= endIndex; i++) { if (!mMainWin.CodeDisplayList.SelectedIndices[i]) { // not selected, ignore continue; } LineListGen.Line line = CodeLineList[i]; switch (line.LineType) { case LineListGen.Line.Type.Code: codeLines++; break; case LineListGen.Line.Type.Data: dataLines++; break; case LineListGen.Line.Type.Blank: // Don't generally care how many blank lines there are, but we do want // to exclude them from the other categories: if we have nothing but // blank lines, there's nothing to do. blankLines++; break; default: // These are only editable as single-line items. We do allow mass // code hint selection to include them (they will be ignored). // org, equ, rwid, long comment... controlLines++; break; } // A single line can span multiple offsets, each of which could have a // different hint. Note the code/data hints are only applied to the first // byte of each selected line, so we're not quite in sync with that. // // For multi-line items, the OffsetSpan of the first item covers the entire // item (it's the same for all Line instances), so we only want to do this for // the first entry. if (line.SubLineIndex == 0) { for (int offset = line.FileOffset; offset < line.FileOffset + line.OffsetSpan; offset++) { switch (mProject.TypeHints[offset]) { case CodeAnalysis.TypeHint.Code: codeHints++; break; case CodeAnalysis.TypeHint.Data: dataHints++; break; case CodeAnalysis.TypeHint.InlineData: inlineDataHints++; break; case CodeAnalysis.TypeHint.NoHint: noHints++; break; default: Debug.Assert(false); break; } } } } //Debug.WriteLine("GatherEntityCounts (start=" + startIndex + " end=" + endIndex + // " len=" + mMainWin.CodeDisplayList.Count + // ") took " + (DateTime.Now - startWhen).TotalMilliseconds + " ms"); return new EntityCounts() { mCodeLines = codeLines, mDataLines = dataLines, mBlankLines = blankLines, mControlLines = controlLines, mCodeHints = codeHints, mDataHints = dataHints, mInlineDataHints = inlineDataHints, mNoHints = noHints }; } /// /// Determines whether the current selection spans a single item. This could be a /// single-line item or a multi-line item. /// private bool IsSingleItemSelected() { int firstIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); if (firstIndex < 0) { // empty selection return false; } int lastIndex = mMainWin.CodeListView_GetLastSelectedIndex(); if (lastIndex == firstIndex) { // only one line is selected return true; } // Just check the first and last entries to see if they're the same. LineListGen.Line firstItem = CodeLineList[firstIndex]; LineListGen.Line lastItem = CodeLineList[lastIndex]; if (firstItem.FileOffset == lastItem.FileOffset && firstItem.LineType == lastItem.LineType) { return true; } return false; } private bool mUpdatingSelectionHighlight; // recursion guard /// /// Updates the selection highlight. When a code item with an operand offset is /// selected, such as a branch, we want to highlight the address and label of the /// target. /// private void UpdateSelectionHighlight() { int targetIndex = FindSelectionHighlight(); if (mTargetHighlightIndex != targetIndex && !mUpdatingSelectionHighlight) { Debug.WriteLine("Target highlight moving from " + mTargetHighlightIndex + " to " + targetIndex); // The highlight is currently implemented by modifying the item in the // display list. Because those items are immutable, we have to remove the // old and add a new. The WPF ListView maintains its selection by object // reference, so replacing an item requires removing the old item from the // selection set and adding it to the new. // // So if a line references itself (like the ZipGS cache conditioner loop does), // it will be the selected line while we're doing this little dance. When the // calls below update the selection, this method will be called again. This // turns into infinite recursion. mUpdatingSelectionHighlight = true; mMainWin.CodeListView_RemoveSelectionHighlight(mTargetHighlightIndex); mMainWin.CodeListView_AddSelectionHighlight(targetIndex); mUpdatingSelectionHighlight = false; mTargetHighlightIndex = targetIndex; } } private int FindSelectionHighlight() { if (mMainWin.CodeListView_GetSelectionCount() != 1) { return -1; } int selIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); LineListGen.Line line = CodeLineList[selIndex]; if (!line.IsCodeOrData) { return -1; } Debug.Assert(line.FileOffset >= 0); // Does this have an operand with an in-file target offset? Anattrib attr = mProject.GetAnattrib(line.FileOffset); if (attr.OperandOffset >= 0) { return CodeLineList.FindCodeDataIndexByOffset(attr.OperandOffset); } else if (attr.IsDataStart || attr.IsInlineDataStart) { // If it's an Address or Symbol, we can try to resolve // the value. int operandOffset = DataAnalysis.GetDataOperandOffset(mProject, line.FileOffset); if (operandOffset >= 0) { return CodeLineList.FindCodeDataIndexByOffset(operandOffset); } } return -1; } public void ShowFileHexDump() { OpenFileDialog fileDlg = new OpenFileDialog() { Filter = Res.Strings.FILE_FILTER_ALL, FilterIndex = 1 }; if (fileDlg.ShowDialog() != true) { return; } string fileName = fileDlg.FileName; FileInfo fi = new FileInfo(fileName); if (fi.Length > Tools.WpfGui.HexDumpViewer.MAX_LENGTH) { string msg = string.Format(Res.Strings.OPEN_DATA_TOO_LARGE_FMT, fi.Length / 1024, Tools.WpfGui.HexDumpViewer.MAX_LENGTH / 1024); MessageBox.Show(msg, Res.Strings.OPEN_DATA_FAIL_CAPTION, MessageBoxButton.OK, MessageBoxImage.Error); return; } byte[] data; try { data = File.ReadAllBytes(fileName); } catch (Exception ex) { // not expecting this to happen MessageBox.Show(ex.Message); return; } // Create the dialog without an owner, and add it to the "unowned" list. Tools.WpfGui.HexDumpViewer dlg = new Tools.WpfGui.HexDumpViewer(null, data, mOutputFormatter); dlg.SetFileName(Path.GetFileName(fileName)); dlg.Closing += (sender, e) => { Debug.WriteLine("Window " + dlg + " closed, removing from unowned list"); mUnownedWindows.Remove(dlg); }; mUnownedWindows.Add(dlg); dlg.Show(); } public void ShowHexDump() { if (mHexDumpDialog == null) { // Create and show modeless dialog. This one is "always on top" by default, // to allow the user to click around to various points. Note that "on top" // means on top of *everything*. We create this without an owner so that, // when it's not on top, it can sit behind the main app window until you // double-click something else. mHexDumpDialog = new Tools.WpfGui.HexDumpViewer(null, mProject.FileData, mOutputFormatter); mHexDumpDialog.Closing += (sender, e) => { Debug.WriteLine("Hex dump dialog closed"); //showHexDumpToolStripMenuItem.Checked = false; mHexDumpDialog = null; }; mHexDumpDialog.Topmost = true; mHexDumpDialog.Show(); } // Bring it to the front of the window stack. This also transfers focus to the // window. mHexDumpDialog.Activate(); // Set the dialog's position. if (mMainWin.CodeListView_GetSelectionCount() > 0) { int firstIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); int lastIndex = mMainWin.CodeListView_GetLastSelectedIndex(); // offsets can be < 0 if they've selected EQU statements int firstOffset = Math.Max(0, CodeLineList[firstIndex].FileOffset); int lastOffset = Math.Max(firstOffset, CodeLineList[lastIndex].FileOffset + CodeLineList[lastIndex].OffsetSpan - 1); mHexDumpDialog.ShowOffsetRange(firstOffset, lastOffset); } } /// /// Handles the four Actions - edit hint commands. /// /// Type of hint to apply. /// If set, only the first byte on each line is hinted. public void MarkAsType(CodeAnalysis.TypeHint hint, bool firstByteOnly) { RangeSet sel; if (firstByteOnly) { sel = new RangeSet(); foreach (int index in mMainWin.CodeDisplayList.SelectedIndices) { int offset = CodeLineList[index].FileOffset; if (offset >= 0) { // Not interested in the header stuff for hinting. sel.Add(offset); } } } else { sel = OffsetSetFromSelected(); } TypedRangeSet newSet = new TypedRangeSet(); TypedRangeSet undoSet = new TypedRangeSet(); foreach (int offset in sel) { if (offset < 0) { // header comment continue; } CodeAnalysis.TypeHint oldType = mProject.TypeHints[offset]; if (oldType == hint) { // no change, don't add to set continue; } undoSet.Add(offset, (int)oldType); newSet.Add(offset, (int)hint); } if (newSet.Count == 0) { Debug.WriteLine("No changes found (" + hint + ", " + sel.Count + " offsets)"); return; } UndoableChange uc = UndoableChange.CreateTypeHintChange(undoSet, newSet); ChangeSet cs = new ChangeSet(uc); ApplyUndoableChanges(cs); } /// /// Converts the set of selected items into a set of offsets. If a line /// spans multiple offsets (e.g. a 3-byte instruction), offsets for every /// byte are included. /// /// Boundaries such as labels and address changes are ignored. /// /// RangeSet with all offsets. private RangeSet OffsetSetFromSelected() { RangeSet rs = new RangeSet(); foreach (int index in mMainWin.CodeDisplayList.SelectedIndices) { int offset = CodeLineList[index].FileOffset; // Mark every byte of an instruction or multi-byte data item -- // everything that is represented by the line the user selected. int len; if (offset >= 0) { len = mProject.GetAnattrib(offset).Length; } else { // header area len = 1; } Debug.Assert(len > 0); for (int i = offset; i < offset + len; i++) { rs.Add(i); } } return rs; } /// /// Handles Help - Help /// public void ShowHelp() { HelpAccess.ShowHelp(HelpAccess.Topic.Contents); } /// /// Handles Help - About /// public void ShowAboutBox() { AboutBox dlg = new AboutBox(mMainWin); dlg.ShowDialog(); } public void ToggleAsciiChart() { if (mAsciiChartDialog == null) { // Create without owner so it doesn't have to be in front of main window. mAsciiChartDialog = new Tools.WpfGui.AsciiChart(null); mAsciiChartDialog.Closing += (sender, e) => { Debug.WriteLine("ASCII chart closed"); mAsciiChartDialog = null; }; mAsciiChartDialog.Show(); } else { mAsciiChartDialog.Close(); } } public void ToggleInstructionChart() { if (mInstructionChartDialog == null) { // Create without owner so it doesn't have to be in front of main window. mInstructionChartDialog = new Tools.WpfGui.InstructionChart(null,mOutputFormatter); mInstructionChartDialog.Closing += (sender, e) => { Debug.WriteLine("Instruction chart closed"); mInstructionChartDialog = null; }; mInstructionChartDialog.Show(); } else { mInstructionChartDialog.Close(); } } public void ToggleDataScan() { ProjectProperties oldProps = mProject.ProjectProps; ProjectProperties newProps = new ProjectProperties(oldProps); newProps.AnalysisParams.AnalyzeUncategorizedData = !newProps.AnalysisParams.AnalyzeUncategorizedData; UndoableChange uc = UndoableChange.CreateProjectPropertiesChange(oldProps, newProps); ApplyUndoableChanges(new ChangeSet(uc)); } public bool CanToggleSingleByteFormat() { EntityCounts counts = SelectionAnalysis.mEntityCounts; return (counts.mDataLines > 0 && counts.mCodeLines == 0); } public void ToggleSingleByteFormat() { TypedRangeSet trs = GroupedOffsetSetFromSelected(); if (trs.Count == 0) { Debug.Assert(false, "nothing to edit"); // shouldn't happen return; } // Check the format descriptor of the first selected offset. int firstOffset = -1; foreach (TypedRangeSet.Tuple tup in trs) { firstOffset = tup.Value; break; } Debug.Assert(mProject.GetAnattrib(firstOffset).IsDataStart || mProject.GetAnattrib(firstOffset).IsInlineDataStart); bool toDefault = false; if (mProject.OperandFormats.TryGetValue(firstOffset, out FormatDescriptor curDfd)) { if (curDfd.FormatType == FormatDescriptor.Type.NumericLE && curDfd.FormatSubType == FormatDescriptor.SubType.None && curDfd.Length == 1) { // Currently single-byte, toggle to default. toDefault = true; } } // Iterate through the selected regions. SortedList newFmts = new SortedList(); IEnumerator rngIter = trs.RangeListIterator; while (rngIter.MoveNext()) { TypedRangeSet.TypedRange rng = rngIter.Current; if (toDefault) { // Create a single REMOVE descriptor that covers the full span. FormatDescriptor newDfd = FormatDescriptor.Create(rng.High - rng.Low + 1, FormatDescriptor.Type.REMOVE, FormatDescriptor.SubType.None); newFmts.Add(rng.Low, newDfd); } else { // Add individual single-byte format descriptors for everything. FormatDescriptor newDfd = FormatDescriptor.Create(1, FormatDescriptor.Type.NumericLE, FormatDescriptor.SubType.None); for (int i = rng.Low; i <= rng.High; i++) { newFmts.Add(i, newDfd); } } } ChangeSet cs = mProject.GenerateFormatMergeSet(newFmts); if (cs.Count != 0) { ApplyUndoableChanges(cs); } } /// /// Converts the ListView's selected items into a set of offsets. If a line /// spans multiple offsets (e.g. a 3-byte instruction), offsets for every /// byte are included. /// /// Contiguous regions with user labels or address changes are split into /// independent regions by using a serial number for the range type. Same for /// long comments and notes. /// /// We don't split based on existing data format items. That would make it impossible /// to convert from (say) a collection of single bytes to a collection of double bytes /// or a string. It should not be possible to select part of a formatted section, /// unless the user has been playing weird games with type hints to get overlapping /// format descriptors. /// /// TypedRangeSet with all offsets. private TypedRangeSet GroupedOffsetSetFromSelected() { TypedRangeSet rs = new TypedRangeSet(); int groupNum = 0; int expectedAddr = -1; DateTime startWhen = DateTime.Now; int prevOffset = -1; foreach (int index in mMainWin.CodeDisplayList.SelectedIndices) { // Don't add an offset to the set if the only part of it that is selected // is a directive or blank line. We only care about file offsets, so skip // anything that isn't code or data. if (!CodeLineList[index].IsCodeOrData) { continue; } int offset = CodeLineList[index].FileOffset; if (offset == prevOffset) { // This is a continuation of a multi-line item like a string. We've // already accounted for all bytes associated with this offset. continue; } Anattrib attr = mProject.GetAnattrib(offset); if (expectedAddr == -1) { expectedAddr = attr.Address; } // Check for user labels. if (mProject.UserLabels.ContainsKey(offset)) { //if (mProject.GetAnattrib(offset).Symbol != null) { // We consider auto labels when splitting regions for the data analysis, // but I don't think we want to take them into account here. The specific // example that threw me was loading a 16-bit value from an address table. // The code does "LDA table,X / STA / LDA table+1,X / STA", which puts auto // labels at the first two addresses -- splitting the region. That's good // for the uncategorized data analyzer, but very annoying if you want to // slap a 16-bit numeric format on all entries in a table. groupNum++; } else if (mProject.HasCommentOrNote(offset)) { // Don't carry across a long comment or note. groupNum++; } else if (attr.Address != expectedAddr) { // For a contiguous selection, this should only happen if there's a .ORG // address change. For non-contiguous selection this is expected. In the // latter case, incrementing the group number is unnecessary but harmless. Debug.WriteLine("Address break: " + attr.Address + " vs. " + expectedAddr); //Debug.Assert(mProject.AddrMap.Get(offset) >= 0); expectedAddr = attr.Address; groupNum++; } // Mark every byte of an instruction or multi-byte data item -- // everything that is represented by the line the user selected. Control // statements and blank lines aren't relevant here, as we only care about // file offsets. int len = CodeLineList[index].OffsetSpan; // attr.Length; Debug.Assert(len > 0); for (int i = offset; i < offset + len; i++) { rs.Add(i, groupNum); } // Advance the address. expectedAddr += len; prevOffset = offset; } Debug.WriteLine("Offset selection conv took " + (DateTime.Now - startWhen).TotalMilliseconds + " ms"); return rs; } #endregion Main window UI event handlers #region References panel /// /// Updates the "references" panel to reflect the current selection. /// /// The number of references to any given address should be relatively small, and /// won't change without a data refresh, so recreating the list every time shouldn't /// be a problem. /// private void UpdateReferencesPanel() { mMainWin.ReferencesList.Clear(); if (mMainWin.CodeListView_GetSelectionCount() != 1) { // Nothing selected, or multiple lines selected. return; } int lineIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); LineListGen.Line.Type type = CodeLineList[lineIndex].LineType; if (type != LineListGen.Line.Type.Code && type != LineListGen.Line.Type.Data && type != LineListGen.Line.Type.EquDirective && type != LineListGen.Line.Type.LocalVariableTable) { // Code, data, and platform symbol EQUs have xrefs. return; } XrefSet xrefs; // Find the appropriate xref set. if (type == LineListGen.Line.Type.LocalVariableTable) { DefSymbol defSym = CodeLineList.GetLocalVariableFromLine(lineIndex); xrefs = (defSym == null) ? null : defSym.Xrefs; } else { int offset = CodeLineList[lineIndex].FileOffset; if (offset < 0) { // EQU in header int index = LineListGen.DefSymIndexFromOffset(offset); DefSymbol defSym = mProject.ActiveDefSymbolList[index]; xrefs = defSym.Xrefs; } else { xrefs = mProject.GetXrefSet(offset); } } if (xrefs == null || xrefs.Count == 0) { return; } // TODO(someday): localization Asm65.Formatter formatter = mOutputFormatter; bool showBank = !mProject.CpuDef.HasAddr16; for (int i = 0; i < xrefs.Count; i++) { XrefSet.Xref xr = xrefs[i]; string typeStr; switch (xr.Type) { case XrefSet.XrefType.SubCallOp: typeStr = "call "; break; case XrefSet.XrefType.BranchOp: typeStr = "branch "; break; case XrefSet.XrefType.RefFromData: typeStr = "data "; break; case XrefSet.XrefType.MemAccessOp: switch (xr.AccType) { case OpDef.MemoryEffect.Read: typeStr = "read "; break; case OpDef.MemoryEffect.Write: typeStr = "write "; break; case OpDef.MemoryEffect.ReadModifyWrite: typeStr = "rmw "; break; case OpDef.MemoryEffect.None: // e.g. LDA # /// Handles Edit - Undo. /// public void UndoChanges() { if (!mProject.CanUndo) { Debug.Assert(false, "Nothing to undo"); return; } ChangeSet cs = mProject.PopUndoSet(); ApplyChanges(cs, true); UpdateTitle(); // If the debug dialog is visible, update it. if (mShowUndoRedoHistoryDialog != null) { mShowUndoRedoHistoryDialog.DisplayText = mProject.DebugGetUndoRedoHistory(); } } public bool CanRedo() { return (mProject != null && mProject.CanRedo); } /// /// Handles Edit - Redo. /// public void RedoChanges() { if (!mProject.CanRedo) { Debug.Assert(false, "Nothing to redo"); return; } ChangeSet cs = mProject.PopRedoSet(); ApplyChanges(cs, false); UpdateTitle(); // If the debug dialog is visible, update it. if (mShowUndoRedoHistoryDialog != null) { mShowUndoRedoHistoryDialog.DisplayText = mProject.DebugGetUndoRedoHistory(); } } #endregion References panel #region Notes panel private void PopulateNotesList() { mMainWin.NotesList.Clear(); foreach (KeyValuePair kvp in mProject.Notes) { int offset = kvp.Key; MultiLineComment mlc = kvp.Value; // Replace line break with bullet. If there's a single CRLF at the end, strip it. string nocrlfStr; if (mlc.Text.EndsWith("\r\n")) { nocrlfStr = mlc.Text.Substring(0, mlc.Text.Length - 2).Replace("\r\n", " \u2022 "); } else { nocrlfStr = mlc.Text.Replace("\r\n", " \u2022 "); } MainWindow.NotesListItem nli = new MainWindow.NotesListItem(offset, mOutputFormatter.FormatOffset24(offset), nocrlfStr, mlc.BackgroundColor); mMainWin.NotesList.Add(nli); } } #endregion Notes panel #region Symbols panel private void PopulateSymbolsList() { mMainWin.SymbolsList.Clear(); foreach (Symbol sym in mProject.SymbolTable) { string valueStr = mOutputFormatter.FormatHexValue(sym.Value, 0); string sourceTypeStr = sym.SourceTypeString; if (sym is DefSymbol) { DefSymbol defSym = (DefSymbol)sym; if (defSym.MultiMask != null) { valueStr += " & " + mOutputFormatter.FormatHexValue(defSym.MultiMask.AddressMask, 4); } if (defSym.Direction == DefSymbol.DirectionFlags.Read) { sourceTypeStr += '<'; } else if (defSym.Direction == DefSymbol.DirectionFlags.Write) { sourceTypeStr += '>'; } } MainWindow.SymbolsListItem sli = new MainWindow.SymbolsListItem(sym, sourceTypeStr, valueStr, sym.Label); mMainWin.SymbolsList.Add(sli); } } #endregion Symbols panel #region Info panel private void UpdateInfoPanel() { mMainWin.ClearInfoPanel(); if (mMainWin.CodeListView_GetSelectionCount() != 1) { // Nothing selected, or multiple lines selected. return; } int lineIndex = mMainWin.CodeListView_GetFirstSelectedIndex(); LineListGen.Line line = CodeLineList[lineIndex]; // TODO(someday): this should be made easier to localize string lineTypeStr = null; bool isSimple = true; DefSymbol defSym = null; switch (line.LineType) { case LineListGen.Line.Type.LongComment: lineTypeStr = "comment"; break; case LineListGen.Line.Type.Note: lineTypeStr = "note"; break; case LineListGen.Line.Type.Blank: lineTypeStr = "blank line"; break; case LineListGen.Line.Type.OrgDirective: lineTypeStr = "address directive"; break; case LineListGen.Line.Type.RegWidthDirective: lineTypeStr = "register width directive"; break; case LineListGen.Line.Type.LocalVariableTable: isSimple = false; lineTypeStr = "variable table"; break; case LineListGen.Line.Type.Code: isSimple = false; lineTypeStr = "code"; break; case LineListGen.Line.Type.Data: isSimple = false; if (mProject.GetAnattrib(line.FileOffset).IsInlineData) { lineTypeStr = "inline data"; } else { lineTypeStr = "data"; } break; case LineListGen.Line.Type.EquDirective: isSimple = false; int defSymIndex = LineListGen.DefSymIndexFromOffset(line.FileOffset); defSym = mProject.ActiveDefSymbolList[defSymIndex]; if (defSym.SymbolSource == Symbol.Source.Project) { lineTypeStr = "project symbol equate"; } else if (defSym.SymbolSource == Symbol.Source.Platform) { lineTypeStr = "platform symbol equate"; } else { lineTypeStr = "???"; } break; default: lineTypeStr = "???"; break; } if (line.IsCodeOrData) { // Show number of bytes of code/data. if (line.OffsetSpan == 1) { mMainWin.InfoLineDescrText = string.Format(Res.Strings.INFO_LINE_SUM_SINGULAR_FMT, lineIndex, line.OffsetSpan, lineTypeStr); } else { mMainWin.InfoLineDescrText = string.Format(Res.Strings.INFO_LINE_SUM_PLURAL_FMT, lineIndex, line.OffsetSpan, lineTypeStr); } } else { mMainWin.InfoLineDescrText = string.Format(Res.Strings.INFO_LINE_SUM_NON_FMT, lineIndex, lineTypeStr); } #if DEBUG mMainWin.InfoOffsetText = ("[offset=+" + line.FileOffset.ToString("x6") + "]"); #endif if (isSimple) { return; } if (line.LineType == LineListGen.Line.Type.LocalVariableTable) { string str = string.Empty; if (mProject.LvTables.TryGetValue(line.FileOffset, out LocalVariableTable lvt)) { str = lvt.Count + " entries"; if (lvt.ClearPrevious) { str += "; clear previous"; } } mMainWin.InfoPanelDetail1 = str; return; } if (line.LineType == LineListGen.Line.Type.EquDirective) { StringBuilder esb = new StringBuilder(); //esb.Append("\u25b6 "); esb.Append("\u2022 "); if (defSym.IsConstant) { esb.Append("Constant"); } else { esb.Append("External address"); if (defSym.HasWidth) { esb.Append(", width="); esb.Append(defSym.DataDescriptor.Length); } } if (defSym.Direction != DefSymbol.DirectionFlags.ReadWrite) { esb.Append("\r\nI/O direction: "); esb.Append(defSym.Direction); } if (defSym.MultiMask != null) { esb.Append("\r\nMulti-mask:"); int i = 23; if ((defSym.MultiMask.AddressMask | defSym.MultiMask.CompareMask | defSym.MultiMask.CompareValue) < 0x10000) { i = 15; } for ( ; i >= 0; i--) { if ((i & 3) == 3) { esb.Append(' '); } int bit = 1 << i; if ((defSym.MultiMask.AddressMask & bit) != 0) { esb.Append('x'); } else if ((defSym.MultiMask.CompareMask & bit) != 0) { if ((defSym.MultiMask.CompareValue & bit) != 0) { esb.Append('1'); } else { esb.Append('0'); } } else { esb.Append('?'); } } } if (defSym.SymbolSource == Symbol.Source.Platform) { esb.Append("\r\n\r\nSource file # "); esb.Append(defSym.LoadOrdinal); esb.Append(": "); esb.Append(defSym.FileIdentifier); if (!string.IsNullOrEmpty(defSym.Tag)) { esb.Append(", tag="); esb.Append(defSym.Tag); } } mMainWin.InfoPanelDetail1 = esb.ToString(); return; } // // Handle code/data items. In particular, the format descriptor. // Debug.Assert(line.IsCodeOrData); bool isCode = (line.LineType == LineListGen.Line.Type.Code); StringBuilder sb = new StringBuilder(250); Anattrib attr = mProject.GetAnattrib(line.FileOffset); if (!mProject.OperandFormats.TryGetValue(line.FileOffset, out FormatDescriptor dfd)) { // No user-specified format, but there may be a generated format. mMainWin.InfoFormatBoxBrush = Brushes.Blue; if (attr.DataDescriptor != null) { mMainWin.InfoFormatShowSolid = true; sb.Append(Res.Strings.INFO_AUTO_FORMAT); sb.Append(' '); sb.Append(attr.DataDescriptor.ToUiString(!isCode)); } else { mMainWin.InfoFormatShowDashes = true; sb.AppendFormat(Res.Strings.INFO_DEFAULT_FORMAT); } } else { // User-specified operand format. mMainWin.InfoFormatBoxBrush = Brushes.Green; mMainWin.InfoFormatShowSolid = true; sb.Append(Res.Strings.INFO_CUSTOM_FORMAT); sb.Append(' '); sb.Append(dfd.ToUiString(!isCode)); } mMainWin.InfoFormatText = sb.ToString(); sb.Clear(); // Debug only //sb.Append("DEBUG: opAddr=" + attr.OperandAddress.ToString("x4") + // " opOff=" + attr.OperandOffset.ToString("x4") + "\r\n"); if (attr.IsHinted) { sb.Append("\u2022 Hints: "); for (int i = 0; i < line.OffsetSpan; i++) { switch (mProject.TypeHints[line.FileOffset + i]) { case CodeAnalysis.TypeHint.Code: sb.Append("C"); break; case CodeAnalysis.TypeHint.Data: sb.Append("D"); break; case CodeAnalysis.TypeHint.InlineData: sb.Append("I"); break; default: break; } if (i > 8) { sb.Append("..."); break; } } sb.Append("\r\n"); } if (attr.IsInstruction) { sb.Append("\r\n"); Asm65.OpDef op = mProject.CpuDef.GetOpDef(mProject.FileData[line.FileOffset]); string shortDesc = mOpDesc.GetShortDescription(op.Mnemonic); if (!string.IsNullOrEmpty(shortDesc)) { if (op.IsUndocumented) { sb.Append("\u25b6[*] "); } else { sb.Append("\u25b6 "); } sb.Append(shortDesc); string addrStr = mOpDesc.GetAddressModeDescription(op.AddrMode); if (!string.IsNullOrEmpty(addrStr)) { sb.Append(", "); sb.Append(addrStr); } sb.Append("\r\n"); } sb.Append("\u2022Cycles: "); int cycles = op.Cycles; sb.Append(cycles.ToString()); OpDef.CycleMod allMods = op.CycleMods; OpDef.CycleMod nowMods = mProject.CpuDef.GetOpCycleMod(mProject.FileData[line.FileOffset]); if (allMods != 0) { StringBuilder nowSb = new StringBuilder(); StringBuilder otherSb = new StringBuilder(); int workBits = (int)allMods; while (workBits != 0) { // Isolate rightmost bit. int firstBit = (~workBits + 1) & workBits; string desc = mOpDesc.GetCycleModDescription((OpDef.CycleMod)firstBit); if (((int)nowMods & firstBit) != 0) { if (nowSb.Length != 0) { nowSb.Append(", "); } nowSb.Append(desc); } else { if (otherSb.Length != 0) { otherSb.Append(", "); } otherSb.Append(desc); } // Remove from set. workBits &= ~firstBit; } if (nowSb.Length != 0) { sb.Append(" ("); sb.Append(nowSb); sb.Append(")"); } if (otherSb.Length != 0) { sb.Append(" ["); sb.Append(otherSb); sb.Append("]"); } } sb.Append("\r\n"); const string FLAGS = "NVMXDIZC"; sb.Append("\u2022Flags affected: "); Asm65.StatusFlags affectedFlags = op.FlagsAffected; for (int i = 0; i < 8; i++) { if (affectedFlags.GetBit((StatusFlags.FlagBits)(7 - i)) >= 0) { sb.Append(' '); sb.Append(FLAGS[i]); } else { sb.Append(" -"); } } sb.Append("\r\n"); string longDesc = mOpDesc.GetLongDescription(op.Mnemonic); if (!string.IsNullOrEmpty(longDesc)) { sb.Append("\r\n"); sb.Append(longDesc); } } // Publish mMainWin.InfoPanelDetail1 = sb.ToString(); } #endregion Info panel #region Debug features public void Debug_ExtensionScriptInfo() { string info = mProject.DebugGetLoadedScriptInfo(); Tools.WpfGui.ShowText dlg = new Tools.WpfGui.ShowText(mMainWin, info); dlg.Title = "Loaded Extension Script Info"; dlg.ShowDialog(); } public void Debug_ShowAnalysisTimers() { if (mShowAnalysisTimersDialog == null) { Tools.WpfGui.ShowText dlg = new Tools.WpfGui.ShowText(null, "(no data yet)"); dlg.Title = "Analysis Timers"; dlg.Closing += (sender, e) => { Debug.WriteLine("Analysis timers dialog closed"); mShowAnalysisTimersDialog = null; }; dlg.Show(); mShowAnalysisTimersDialog = dlg; } else { // Ask the dialog to close. Do the cleanup in the event. mShowAnalysisTimersDialog.Close(); } } public void Debug_ShowAnalyzerOutput() { if (mShowAnalyzerOutputDialog == null) { Tools.WpfGui.ShowText dlg = new Tools.WpfGui.ShowText(null, "(no data yet)"); dlg.Title = "Analyzer Output"; dlg.Closing += (sender, e) => { Debug.WriteLine("Analyzer output dialog closed"); mShowAnalyzerOutputDialog = null; }; dlg.Show(); mShowAnalyzerOutputDialog = dlg; } else { // Ask the dialog to close. Do the cleanup in the event. mShowAnalyzerOutputDialog.Close(); } } public void Debug_ShowUndoRedoHistory() { if (mShowUndoRedoHistoryDialog == null) { Tools.WpfGui.ShowText dlg = new Tools.WpfGui.ShowText(null, mProject.DebugGetUndoRedoHistory()); dlg.Title = "Undo/Redo History"; dlg.Closing += (sender, e) => { Debug.WriteLine("Undo/redo history dialog closed"); mShowUndoRedoHistoryDialog = null; }; dlg.Show(); mShowUndoRedoHistoryDialog = dlg; } else { // Ask the dialog to close. Do the cleanup in the event. mShowUndoRedoHistoryDialog.Close(); } } public void Debug_RunSourceGenerationTests() { Tests.WpfGui.GenTestRunner dlg = new Tests.WpfGui.GenTestRunner(mMainWin); dlg.ShowDialog(); } public void Debug_Refresh() { Debug.WriteLine("Reanalyzing..."); // Call through ApplyChanges so we update the timer task output. UndoableChange uc = UndoableChange.CreateDummyChange(UndoableChange.ReanalysisScope.CodeAndData); ApplyChanges(new ChangeSet(uc), false); UpdateTitle(); // in case something changed } public void Debug_ToggleCommentRulers() { MultiLineComment.DebugShowRuler = !MultiLineComment.DebugShowRuler; // Don't need to repeat the analysis, but we do want to save/restore the // selection and top position when the comment fields change size. UndoableChange uc = UndoableChange.CreateDummyChange(UndoableChange.ReanalysisScope.DataOnly); ApplyChanges(new ChangeSet(uc), false); } public void Debug_ToggleKeepAliveHack() { ScriptManager.UseKeepAliveHack = !ScriptManager.UseKeepAliveHack; } public void Debug_ApplesoftToHtml() { OpenFileDialog fileDlg = new OpenFileDialog() { Filter = Res.Strings.FILE_FILTER_ALL, FilterIndex = 1 }; if (fileDlg.ShowDialog() != true) { return; } byte[] data; string basPathName = Path.GetFullPath(fileDlg.FileName); try { data = File.ReadAllBytes(basPathName); } catch (Exception ex) { // not expecting this to happen MessageBox.Show(ex.Message); return; } Tools.ApplesoftToHtml conv = new Tools.ApplesoftToHtml(); string html = conv.Convert(data); Tools.WpfGui.ShowText showTextDlg = new Tools.WpfGui.ShowText(mMainWin, html); showTextDlg.Title = "Applesoft to HTML"; showTextDlg.ShowDialog(); } #endregion Debug features } }