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6502bench/SourceGen/WpfGui/EditDataOperand.xaml.cs
Andy McFadden c64f72d147 Move WPF code from SourceGenWPF to SourceGen
2019-07-20 13:28:37 -07:00

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/*
* Copyright 2019 faddenSoft
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Diagnostics;
using System.Runtime.CompilerServices;
using System.Windows;
using System.Windows.Controls;
using CommonUtil;
namespace SourceGen.WpfGui {
/// <summary>
/// Data operand editor.
/// </summary>
public partial class EditDataOperand : Window, INotifyPropertyChanged {
/// <summary>
/// Result set that describes the formatting to perform. Not all regions will have
/// the same format, e.g. the "mixed ASCII" mode will alternate strings and bytes
/// (rather than a dedicated "mixed ASCII" format type).
/// </summary>
public SortedList<int, FormatDescriptor> Results { get; private set; }
/// <summary>
/// Set to true when input is valid. Controls whether the OK button is enabled.
/// </summary>
public bool IsValid {
get { return mIsValid; }
set {
mIsValid = value;
OnPropertyChanged();
}
}
private bool mIsValid;
/// <summary>
/// Selected offsets. An otherwise contiguous range of offsets can be broken up
/// by user-specified labels and address discontinuities, so this needs to be
/// processed by range.
/// </summary>
private TypedRangeSet mSelection;
/// <summary>
/// FormatDescriptor from the first offset. May be null if the offset doesn't
/// have a format descriptor specified. This will be used to configure the
/// dialog controls if the format is suited to the selection. The goal is to
/// make single-item editing work as expected.
/// </summary>
public FormatDescriptor mFirstFormatDescriptor;
/// <summary>
/// Raw file data.
/// </summary>
private byte[] mFileData;
/// <summary>
/// Symbol table to use when resolving symbolic values.
/// </summary>
private SymbolTable mSymbolTable;
/// <summary>
/// Formatter to use when displaying addresses and hex values.
/// </summary>
private Asm65.Formatter mFormatter;
///// <summary>
///// Set this during initial control configuration, so we know to ignore the CheckedChanged
///// events.
///// </summary>
//private bool mIsInitialSetup;
/// <summary>
/// Set to true if, during the initial setup, the format defined by FirstFormatDescriptor
/// was unavailable.
/// </summary>
private bool mPreferredFormatUnavailable;
// INotifyPropertyChanged implementation
public event PropertyChangedEventHandler PropertyChanged;
private void OnPropertyChanged([CallerMemberName] string propertyName = "") {
PropertyChanged?.Invoke(this, new PropertyChangedEventArgs(propertyName));
}
public EditDataOperand(Window owner, byte[] fileData, SymbolTable symbolTable,
Asm65.Formatter formatter, TypedRangeSet trs, FormatDescriptor firstDesc) {
InitializeComponent();
Owner = owner;
DataContext = this;
mFileData = fileData;
mSymbolTable = symbolTable;
mFormatter = formatter;
mSelection = trs;
mFirstFormatDescriptor = firstDesc;
}
private void Window_Loaded(object sender, RoutedEventArgs e) {
DateTime startWhen = DateTime.Now;
// Determine which of the various options is suitable for the selected offsets.
// Disable any radio buttons that won't work.
AnalyzeRanges();
// Configure the dialog from the FormatDescriptor, if one is available.
Debug.WriteLine("First FD: " + mFirstFormatDescriptor);
SetControlsFromDescriptor(mFirstFormatDescriptor);
if (mPreferredFormatUnavailable) {
// This can happen when e.g. a bunch of stuff is formatted as null-terminated
// strings. We don't recognize a lone zero as a string, but we allow it if
// it's next to a bunch of others. If you come back later and try to format
// just that one byte, you end up here.
// TODO(maybe): make it more obvious what's going on?
Debug.WriteLine("NOTE: preferred format unavailable");
}
UpdateControls();
Debug.WriteLine("EditData dialog load time: " +
(DateTime.Now - startWhen).TotalMilliseconds + " ms");
}
private void Window_ContentRendered(object sender, EventArgs e) {
// Start with the focus in the text box if the initial format allows for a
// symbolic reference. This way they can start typing immediately.
if (simpleDisplayAsGroupBox.IsEnabled) {
symbolEntryTextBox.Focus();
}
}
/// <summary>
/// Handles Checked event for all buttons in Main group.
/// </summary>
private void MainGroup_CheckedChanged(object sender, EventArgs e) {
// Enable/disable the style group and the low/high/bank radio group.
// Update preview window.
UpdateControls();
}
/// <summary>
/// Handles Checked event for radio buttons in the Display group.
/// group box.
/// </summary>
private void SimpleDisplay_CheckedChanged(object sender, EventArgs e) {
// Enable/disable the low/high/bank radio group.
UpdateControls();
}
private void SymbolEntryTextBox_TextChanged(object sender, TextChangedEventArgs e) {
// Make sure Symbol is checked if they're typing text in.
//Debug.Assert(radioSimpleDataSymbolic.IsEnabled);
radioSimpleDataSymbolic.IsChecked = true;
// Update OK button based on symbol validity.
UpdateControls();
}
private void OkButton_Click(object sender, RoutedEventArgs e) {
CreateDescriptorListFromControls();
FormatDescriptor.DebugDumpSortedList(Results);
DialogResult = true;
}
/// <summary>
/// Updates all of the controls to reflect the current internal state.
/// </summary>
private void UpdateControls() {
if (!IsLoaded) {
return;
}
// Configure the simple data "display as" style box.
bool wantStyle = false;
int simpleWidth = -1;
bool isBigEndian = false;
if (radioSingleBytes.IsChecked == true) {
wantStyle = true;
simpleWidth = 1;
} else if (radio16BitLittle.IsChecked == true) {
wantStyle = true;
simpleWidth = 2;
} else if (radio16BitBig.IsChecked == true) {
wantStyle = true;
simpleWidth = 2;
isBigEndian = true;
} else if (radio24BitLittle.IsChecked == true) {
wantStyle = true;
simpleWidth = 3;
} else if (radio32BitLittle.IsChecked == true) {
wantStyle = true;
simpleWidth = 4;
}
bool focusOnSymbol = !simpleDisplayAsGroupBox.IsEnabled && wantStyle;
simpleDisplayAsGroupBox.IsEnabled = wantStyle;
if (wantStyle) {
radioSimpleDataAscii.IsEnabled = IsRawAsciiCompatible(simpleWidth, isBigEndian);
}
// Enable the symbolic reference entry box if the "display as" group is enabled.
// That way instead of "click 16-bit", "click symbol", "enter symbol", the user
// can skip the second step.
symbolEntryTextBox.IsEnabled = simpleDisplayAsGroupBox.IsEnabled;
// Part panel is enabled when Symbol is checked. (Now handled in XAML.)
//symbolPartPanel.IsEnabled = (radioSimpleDataSymbolic.IsChecked == true);
// If we just enabled the group box, set the focus on the symbol entry box. This
// removes another click from the steps, though it's a bit aggressive if you're
// trying to arrow your way through the items.
if (focusOnSymbol) {
symbolEntryTextBox.Focus();
}
bool isOk = true;
if (radioSimpleDataSymbolic.IsChecked == true) {
// Just check for correct format. References to non-existent labels are allowed.
isOk = Asm65.Label.ValidateLabel(symbolEntryTextBox.Text);
// Actually, let's discourage references to auto-labels.
if (isOk && mSymbolTable.TryGetValue(symbolEntryTextBox.Text, out Symbol sym)) {
isOk = sym.SymbolSource != Symbol.Source.Auto;
}
}
IsValid = isOk;
}
#region Setup
/// <summary>
/// Analyzes the selection to see which data formatting options are suitable.
/// Disables radio buttons and updates labels.
///
/// Call this once, when the dialog is first loaded.
/// </summary>
private void AnalyzeRanges() {
Debug.Assert(mSelection.Count != 0);
string fmt, infoStr;
if (mSelection.RangeCount == 1 && mSelection.Count == 1) {
infoStr = (string)FindResource("str_SingleByte");
} else if (mSelection.RangeCount == 1) {
fmt = (string)FindResource("str_SingleGroup");
infoStr = string.Format(fmt, mSelection.Count);
} else {
fmt = (string)FindResource("str_MultiGroup");
infoStr = string.Format(fmt, mSelection.Count, mSelection.RangeCount);
}
selectFormatLabel.Text = infoStr;
IEnumerator<TypedRangeSet.TypedRange> iter = mSelection.RangeListIterator;
int mixedAsciiOkCount = 0;
int mixedAsciiNotCount = 0;
int nullTermStringCount = 0;
int len8StringCount = 0;
int len16StringCount = 0;
int dciStringCount = 0;
// For each range, check to see if the data within qualifies for the various
// options. If any of them fail to meet the criteria, the option is disabled
// for all ranges.
while (iter.MoveNext()) {
TypedRangeSet.TypedRange rng = iter.Current;
Debug.WriteLine("Testing [" + rng.Low + ", " + rng.High + "]");
// Start with the easy ones. Single-byte and dense are always enabled.
int count = rng.High - rng.Low + 1;
Debug.Assert(count > 0);
if ((count & 0x01) != 0) {
// not divisible by 2, disallow 16-bit entries
radio16BitLittle.IsEnabled = false;
radio16BitBig.IsEnabled = false;
}
if ((count & 0x03) != 0) {
// not divisible by 4, disallow 32-bit entries
radio32BitLittle.IsEnabled = false;
}
if ((count / 3) * 3 != count) {
// not divisible by 3, disallow 24-bit entries
radio24BitLittle.IsEnabled = false;
}
// Check for run of bytes (2 or more of the same thing). Remember that
// we check this one region at a time, and each region could have different
// bytes, but so long as the bytes are all the same within a region we're good.
if (radioFill.IsEnabled && count > 1 &&
DataAnalysis.RecognizeRun(mFileData, rng.Low, rng.High) == count) {
// LGTM
} else {
radioFill.IsEnabled = false;
}
// See if there's enough string data to make it worthwhile. We use an
// arbitrary threshold of 2+ ASCII characters, and require twice as many
// ASCII as non-ASCII. We arbitrarily require the strings to be either
// high or low ASCII, and treat the other as non-ASCII. (We could relax
// this -- we generate separate items for each string and non-ASCII chunk --
// but I'm trying to hide the option when the buffer doesn't really seem
// to be holding strings. Could replace with some sort of minimum string
// length requirement?)
if (radioStringMixed.IsEnabled) {
int asciiCount;
DataAnalysis.CountAsciiBytes(mFileData, rng.Low, rng.High,
out int lowAscii, out int highAscii, out int nonAscii);
if (highAscii > lowAscii) {
asciiCount = highAscii;
nonAscii += lowAscii;
} else {
asciiCount = lowAscii;
nonAscii += highAscii;
}
if (asciiCount >= 2 && asciiCount >= nonAscii * 2) {
// Looks good
mixedAsciiOkCount += asciiCount;
mixedAsciiNotCount += nonAscii;
} else {
// Fail
radioStringMixed.IsEnabled = false;
radioStringMixedReverse.IsEnabled = false;
mixedAsciiOkCount = mixedAsciiNotCount = -1;
}
}
// Check for null-terminated strings. Zero-length strings are allowed, but
// not counted -- we want to have some actual character data. Individual
// strings need to be entirely high-ASCII or low-ASCII, but not all strings
// in a region have to be the same.
if (radioStringNullTerm.IsEnabled) {
int strCount = DataAnalysis.RecognizeNullTerminatedStrings(mFileData,
rng.Low, rng.High);
if (strCount > 0) {
nullTermStringCount += strCount;
} else {
radioStringNullTerm.IsEnabled = false;
nullTermStringCount = -1;
}
}
// Check for strings prefixed with an 8-bit length.
if (radioStringLen8.IsEnabled) {
int strCount = DataAnalysis.RecognizeLen8Strings(mFileData, rng.Low, rng.High);
if (strCount > 0) {
len8StringCount += strCount;
} else {
radioStringLen8.IsEnabled = false;
len8StringCount = -1;
}
}
// Check for strings prefixed with a 16-bit length.
if (radioStringLen16.IsEnabled) {
int strCount = DataAnalysis.RecognizeLen16Strings(mFileData, rng.Low, rng.High);
if (strCount > 0) {
len16StringCount += strCount;
} else {
radioStringLen16.IsEnabled = false;
len16StringCount = -1;
}
}
// Check for DCI strings. All strings within a single range must have the
// same "polarity", e.g. low ASCII terminated by high ASCII.
if (radioStringDci.IsEnabled) {
int strCount = DataAnalysis.RecognizeDciStrings(mFileData, rng.Low, rng.High);
if (strCount > 0) {
dciStringCount += strCount;
} else {
radioStringDci.IsEnabled = false;
dciStringCount = -1;
}
}
}
// Update the dialog with string and character counts, summed across all regions.
const string UNSUP_STR = "xx";
fmt = (string)FindResource("str_StringMixed");
string revfmt = (string)FindResource("str_StringMixedReverse");
if (mixedAsciiOkCount > 0) {
Debug.Assert(radioStringMixed.IsEnabled);
radioStringMixed.Content = string.Format(fmt,
mixedAsciiOkCount, mixedAsciiNotCount);
radioStringMixedReverse.Content = string.Format(revfmt,
mixedAsciiOkCount, mixedAsciiNotCount);
} else {
Debug.Assert(!radioStringMixed.IsEnabled);
radioStringMixed.Content = string.Format(fmt, UNSUP_STR, UNSUP_STR);
radioStringMixedReverse.Content = string.Format(revfmt, UNSUP_STR, UNSUP_STR);
}
fmt = (string)FindResource("str_StringNullTerm");
if (nullTermStringCount > 0) {
Debug.Assert(radioStringNullTerm.IsEnabled);
radioStringNullTerm.Content = string.Format(fmt, nullTermStringCount);
} else {
Debug.Assert(!radioStringNullTerm.IsEnabled);
radioStringNullTerm.Content = string.Format(fmt, UNSUP_STR);
}
fmt = (string)FindResource("str_StringLen8");
if (len8StringCount > 0) {
Debug.Assert(radioStringLen8.IsEnabled);
radioStringLen8.Content = string.Format(fmt, len8StringCount);
} else {
Debug.Assert(!radioStringLen8.IsEnabled);
radioStringLen8.Content = string.Format(fmt, UNSUP_STR);
}
fmt = (string)FindResource("str_StringLen16");
if (len16StringCount > 0) {
Debug.Assert(radioStringLen16.IsEnabled);
radioStringLen16.Content = string.Format(fmt, len16StringCount);
} else {
Debug.Assert(!radioStringLen16.IsEnabled);
radioStringLen16.Content = string.Format(fmt, UNSUP_STR);
}
fmt = (string)FindResource("str_StringDci");
if (dciStringCount > 0) {
Debug.Assert(radioStringDci.IsEnabled);
radioStringDci.Content = string.Format(fmt, dciStringCount);
} else {
Debug.Assert(!radioStringDci.IsEnabled);
radioStringDci.Content = string.Format(fmt, UNSUP_STR);
}
}
/// <summary>
/// Determines whether the data in the buffer can be represented as ASCII values.
/// Using ".DD1 'A'" for 0x41 is obvious, but we also allow ".DD2 'A'" for
/// 0x41 0x00. 16-bit character constants are more likely as intermediate
/// operands, but could be found in data areas.
///
/// High and low ASCII are allowed, and may be freely mixed.
///
/// Testing explicitly is probably excessive, and possibly counter-productive if
/// the user is trying to flag an area that is a mix of ASCII and non-ASCII and
/// just wants hex for the rest, but we'll give it a try.
/// </summary>
/// <param name="wordWidth">Number of bytes per character.</param>
/// <param name="isBigEndian">Word endian-ness.</param>
/// <returns>True if data in all regions can be represented as high or low ASCII.</returns>
private bool IsRawAsciiCompatible(int wordWidth, bool isBigEndian) {
IEnumerator<TypedRangeSet.TypedRange> iter = mSelection.RangeListIterator;
while (iter.MoveNext()) {
TypedRangeSet.TypedRange rng = iter.Current;
Debug.Assert(((rng.High - rng.Low + 1) / wordWidth) * wordWidth ==
rng.High - rng.Low + 1);
for (int i = rng.Low; i <= rng.High; i += wordWidth) {
int val = RawData.GetWord(mFileData, rng.Low, wordWidth, isBigEndian);
if (val < 0x20 || (val >= 0x7f && val < 0xa0) || val >= 0xff) {
// bad value, fail
return false;
}
}
}
return true;
}
/// <summary>
/// Configures the dialog controls based on the provided format descriptor. If
/// the desired options are unavailable, a suitable default is selected instead.
///
/// Call from the Loaded event.
/// </summary>
/// <param name="dfd">FormatDescriptor to use.</param>
private void SetControlsFromDescriptor(FormatDescriptor dfd) {
radioSimpleDataHex.IsChecked = true;
radioSymbolPartLow.IsChecked = true;
if (dfd == null) {
radioDefaultFormat.IsChecked = true;
return;
}
RadioButton preferredFormat;
switch (dfd.FormatType) {
case FormatDescriptor.Type.NumericLE:
case FormatDescriptor.Type.NumericBE:
switch (dfd.Length) {
case 1:
preferredFormat = radioSingleBytes;
break;
case 2:
preferredFormat =
(dfd.FormatType == FormatDescriptor.Type.NumericLE ?
radio16BitLittle : radio16BitBig);
break;
case 3:
preferredFormat = radio24BitLittle;
break;
case 4:
preferredFormat = radio32BitLittle;
break;
default:
Debug.Assert(false);
preferredFormat = radioDefaultFormat;
break;
}
if (preferredFormat.IsEnabled) {
switch (dfd.FormatSubType) {
case FormatDescriptor.SubType.None:
case FormatDescriptor.SubType.Hex:
radioSimpleDataHex.IsChecked = true;
break;
case FormatDescriptor.SubType.Decimal:
radioSimpleDataDecimal.IsChecked = true;
break;
case FormatDescriptor.SubType.Binary:
radioSimpleDataBinary.IsChecked = true;
break;
case FormatDescriptor.SubType.Ascii:
radioSimpleDataAscii.IsChecked = true;
break;
case FormatDescriptor.SubType.Address:
radioSimpleDataAddress.IsChecked = true;
break;
case FormatDescriptor.SubType.Symbol:
radioSimpleDataSymbolic.IsChecked = true;
switch (dfd.SymbolRef.ValuePart) {
case WeakSymbolRef.Part.Low:
radioSymbolPartLow.IsChecked = true;
break;
case WeakSymbolRef.Part.High:
radioSymbolPartHigh.IsChecked = true;
break;
case WeakSymbolRef.Part.Bank:
radioSymbolPartBank.IsChecked = true;
break;
default:
Debug.Assert(false);
break;
}
Debug.Assert(dfd.HasSymbol);
symbolEntryTextBox.Text = dfd.SymbolRef.Label;
break;
default:
Debug.Assert(false);
break;
}
} else {
// preferred format not enabled; leave Hex/Low checked
}
break;
case FormatDescriptor.Type.String:
switch (dfd.FormatSubType) {
case FormatDescriptor.SubType.None:
preferredFormat = radioStringMixed;
break;
case FormatDescriptor.SubType.Reverse:
preferredFormat = radioStringMixedReverse;
break;
case FormatDescriptor.SubType.CString:
preferredFormat = radioStringNullTerm;
break;
case FormatDescriptor.SubType.L8String:
preferredFormat = radioStringLen8;
break;
case FormatDescriptor.SubType.L16String:
preferredFormat = radioStringLen16;
break;
case FormatDescriptor.SubType.Dci:
preferredFormat = radioStringDci;
break;
case FormatDescriptor.SubType.DciReverse:
preferredFormat = radioDefaultFormat;
break;
default:
Debug.Assert(false);
preferredFormat = radioDefaultFormat;
break;
}
break;
case FormatDescriptor.Type.Dense:
preferredFormat = radioDenseHex;
break;
case FormatDescriptor.Type.Fill:
preferredFormat = radioFill;
break;
default:
// Should not be here.
Debug.Assert(false);
preferredFormat = radioDefaultFormat;
break;
}
if (preferredFormat.IsEnabled) {
preferredFormat.IsChecked = true;
} else {
mPreferredFormatUnavailable = true;
radioDefaultFormat.IsChecked = true;
}
}
#endregion Setup
#region FormatDescriptor creation
/// <summary>
/// Creates a list of FormatDescriptors, based on the current control configuration.
///
/// The entries in the list are guaranteed to be sorted by start address and not
/// overlap.
///
/// We assume that whatever the control gives us is correct, e.g. it's not going
/// to tell us to put a buffer full of zeroes into a DCI string.
/// </summary>
/// <returns>Result list.</returns>
private void CreateDescriptorListFromControls() {
FormatDescriptor.Type type = FormatDescriptor.Type.Default;
FormatDescriptor.SubType subType = FormatDescriptor.SubType.None;
WeakSymbolRef symbolRef = null;
int chunkLength = -1;
// Decode the "display as" panel, if it's relevant.
if (radioSimpleDataHex.IsEnabled) {
if (radioSimpleDataHex.IsChecked == true) {
subType = FormatDescriptor.SubType.Hex;
} else if (radioSimpleDataDecimal.IsChecked == true) {
subType = FormatDescriptor.SubType.Decimal;
} else if (radioSimpleDataBinary.IsChecked == true) {
subType = FormatDescriptor.SubType.Binary;
} else if (radioSimpleDataAscii.IsChecked == true) {
subType = FormatDescriptor.SubType.Ascii;
} else if (radioSimpleDataAddress.IsChecked == true) {
subType = FormatDescriptor.SubType.Address;
} else if (radioSimpleDataSymbolic.IsChecked == true) {
WeakSymbolRef.Part part;
if (radioSymbolPartLow.IsChecked == true) {
part = WeakSymbolRef.Part.Low;
} else if (radioSymbolPartHigh.IsChecked == true) {
part = WeakSymbolRef.Part.High;
} else if (radioSymbolPartBank.IsChecked == true) {
part = WeakSymbolRef.Part.Bank;
} else {
Debug.Assert(false);
part = WeakSymbolRef.Part.Low;
}
subType = FormatDescriptor.SubType.Symbol;
symbolRef = new WeakSymbolRef(symbolEntryTextBox.Text, part);
} else {
Debug.Assert(false);
}
} else {
subType = 0; // set later, or doesn't matter
}
// Decode the main format.
if (radioDefaultFormat.IsChecked == true) {
// Default/None; note this would create a multi-byte Default format, which isn't
// really allowed. What we actually want to do is remove the explicit formatting
// from all spanned offsets, so we use a dedicated type for that.
type = FormatDescriptor.Type.REMOVE;
} else if (radioSingleBytes.IsChecked == true) {
type = FormatDescriptor.Type.NumericLE;
chunkLength = 1;
} else if (radio16BitLittle.IsChecked == true) {
type = FormatDescriptor.Type.NumericLE;
chunkLength = 2;
} else if (radio16BitBig.IsChecked == true) {
type = FormatDescriptor.Type.NumericBE;
chunkLength = 2;
} else if (radio24BitLittle.IsChecked == true) {
type = FormatDescriptor.Type.NumericLE;
chunkLength = 3;
} else if (radio32BitLittle.IsChecked == true) {
type = FormatDescriptor.Type.NumericLE;
chunkLength = 4;
} else if (radioDenseHex.IsChecked == true) {
type = FormatDescriptor.Type.Dense;
} else if (radioFill.IsChecked == true) {
type = FormatDescriptor.Type.Fill;
} else if (radioStringMixed.IsChecked == true) {
type = FormatDescriptor.Type.String;
} else if (radioStringMixedReverse.IsChecked == true) {
type = FormatDescriptor.Type.String;
subType = FormatDescriptor.SubType.Reverse;
} else if (radioStringNullTerm.IsChecked == true) {
type = FormatDescriptor.Type.String;
subType = FormatDescriptor.SubType.CString;
} else if (radioStringLen8.IsChecked == true) {
type = FormatDescriptor.Type.String;
subType = FormatDescriptor.SubType.L8String;
} else if (radioStringLen16.IsChecked == true) {
type = FormatDescriptor.Type.String;
subType = FormatDescriptor.SubType.L16String;
} else if (radioStringDci.IsChecked == true) {
type = FormatDescriptor.Type.String;
subType = FormatDescriptor.SubType.Dci;
//} else if (radioStringDciReverse.Checked) {
// type = FormatDescriptor.Type.String;
// subType = FormatDescriptor.SubType.DciReverse;
} else {
Debug.Assert(false);
// default/none
}
Results = new SortedList<int, FormatDescriptor>();
IEnumerator<TypedRangeSet.TypedRange> iter = mSelection.RangeListIterator;
while (iter.MoveNext()) {
TypedRangeSet.TypedRange rng = iter.Current;
if (type == FormatDescriptor.Type.String) {
// We want to create one FormatDescriptor object per string. That way
// each string gets its own line.
if ((subType == FormatDescriptor.SubType.None ||
subType == FormatDescriptor.SubType.Reverse)) {
CreateMixedStringEntries(rng.Low, rng.High, subType);
} else if (subType == FormatDescriptor.SubType.CString) {
CreateCStringEntries(rng.Low, rng.High, subType);
} else if (subType == FormatDescriptor.SubType.L8String ||
subType == FormatDescriptor.SubType.L16String) {
CreateLengthStringEntries(rng.Low, rng.High, subType);
} else if (subType == FormatDescriptor.SubType.Dci ||
subType == FormatDescriptor.SubType.DciReverse) {
CreateDciStringEntries(rng.Low, rng.High, subType);
} else {
Debug.Assert(false);
CreateMixedStringEntries(rng.Low, rng.High, subType); // shrug
}
} else {
CreateSimpleEntries(type, subType, chunkLength, symbolRef, rng.Low, rng.High);
}
}
}
/// <summary>
/// Creates one or more FormatDescriptor entries for the specified range, adding them
/// to the Results list.
///
/// This will either create one entry that spans the entire range (for e.g. strings
/// and bulk data), or create equal-sized chunks.
/// </summary>
/// <param name="type">Region data type.</param>
/// <param name="subType">Region data sub-type.</param>
/// <param name="chunkLength">Length of a chunk, or -1 for full buffer.</param>
/// <param name="symbolRef">Symbol reference, or null if not applicable.</param>
/// <param name="low">Offset of first byte in range.</param>
/// <param name="high">Offset of last byte in range.</param>
private void CreateSimpleEntries(FormatDescriptor.Type type,
FormatDescriptor.SubType subType, int chunkLength,
WeakSymbolRef symbolRef, int low, int high) {
if (chunkLength == -1) {
chunkLength = (high - low) + 1;
}
Debug.Assert(((high - low + 1) / chunkLength) * chunkLength == high - low + 1);
// Either we have one chunk, or we have multiple chunks with the same type and
// length. Either way, we only need to create the descriptor once. (This is
// safe because FormatDescriptor instances are immutable.)
//
// Because certain details, like the fill byte and high-vs-low ASCII, are pulled
// out of the data stream at format time, we don't have to dig for them now.
FormatDescriptor dfd;
if (subType == FormatDescriptor.SubType.Symbol) {
dfd = FormatDescriptor.Create(chunkLength, symbolRef,
type == FormatDescriptor.Type.NumericBE);
} else {
dfd = FormatDescriptor.Create(chunkLength, type, subType);
}
while (low <= high) {
Results.Add(low, dfd);
low += chunkLength;
}
}
/// <summary>
/// Creates one or more FormatDescriptor entries for the specified range, adding them
/// to the Results list.
/// </summary>
/// <param name="low">Offset of first byte in range.</param>
/// <param name="high">Offset of last byte in range.</param>
/// <param name="subType">String sub-type.</param>
private void CreateMixedStringEntries(int low, int high,
FormatDescriptor.SubType subType) {
int stringStart = -1;
int highBit = 0;
int cur;
for (cur = low; cur <= high; cur++) {
byte val = mFileData[cur];
if (CommonUtil.TextUtil.IsHiLoAscii(val)) {
// is ASCII
if (stringStart >= 0) {
// was in a string
if (highBit != (val & 0x80)) {
// end of string due to high bit flip, output
CreateStringOrByte(stringStart, cur - stringStart, subType);
// start a new string
stringStart = cur;
} else {
// still in string, keep going
}
} else {
// wasn't in a string, start one
stringStart = cur;
}
highBit = val & 0x80;
} else {
// not ASCII
if (stringStart >= 0) {
// was in a string, output it
CreateStringOrByte(stringStart, cur - stringStart, subType);
stringStart = -1;
}
// output as single byte
CreateByteFD(cur, FormatDescriptor.SubType.Hex);
}
}
if (stringStart >= 0) {
// close out the string
CreateStringOrByte(stringStart, cur - stringStart, subType);
}
}
/// <summary>
/// Creates a format descriptor for ASCII data. If the data is only one byte long,
/// a single-byte ASCII char item is emitted instead.
/// </summary>
/// <param name="offset">Offset of first byte.</param>
/// <param name="length">Length of string.</param>
/// <param name="subType">String sub-type.</param>
private void CreateStringOrByte(int offset, int length,
FormatDescriptor.SubType subType) {
Debug.Assert(length > 0);
if (length == 1) {
// single byte, output as single ASCII char rather than 1-byte string
CreateByteFD(offset, FormatDescriptor.SubType.Ascii);
} else {
FormatDescriptor dfd;
dfd = FormatDescriptor.Create(length,
FormatDescriptor.Type.String, subType);
Results.Add(offset, dfd);
}
}
/// <summary>
/// Creates a format descriptor for a single-byte numeric value.
/// </summary>
/// <param name="offset">File offset.</param>
/// <param name="subType">How to format the item.</param>
private void CreateByteFD(int offset, FormatDescriptor.SubType subType) {
FormatDescriptor dfd = FormatDescriptor.Create(1,
FormatDescriptor.Type.NumericLE, subType);
Results.Add(offset, dfd);
}
/// <summary>
/// Creates one or more FormatDescriptor entries for the specified range, adding them
/// to the Results list.
/// </summary>
/// <param name="low">Offset of first byte in range.</param>
/// <param name="high">Offset of last byte in range.</param>
/// <param name="subType">String sub-type.</param>
private void CreateCStringEntries(int low, int high,
FormatDescriptor.SubType subType) {
int startOffset = low;
for (int i = low; i <= high; i++) {
if (mFileData[i] == 0x00) {
// End of string. Zero-length strings are allowed.
FormatDescriptor dfd = FormatDescriptor.Create(
i - startOffset + 1, FormatDescriptor.Type.String, subType);
Results.Add(startOffset, dfd);
startOffset = i + 1;
} else {
// keep going
}
}
// Earlier analysis guaranteed that the last byte in the buffer is 0x00.
Debug.Assert(startOffset == high + 1);
}
/// <summary>
/// Creates one or more FormatDescriptor entries for the specified range, adding them
/// to the Results list.
/// </summary>
/// <param name="low">Offset of first byte in range.</param>
/// <param name="high">Offset of last byte in range.</param>
/// <param name="subType">String sub-type.</param>
private void CreateLengthStringEntries(int low, int high,
FormatDescriptor.SubType subType) {
int i;
for (i = low; i <= high;) {
int length = mFileData[i];
if (subType == FormatDescriptor.SubType.L16String) {
length |= mFileData[i + 1] << 8;
length += 2;
} else {
length++;
}
// Zero-length strings are allowed.
FormatDescriptor dfd = FormatDescriptor.Create(length,
FormatDescriptor.Type.String, subType);
Results.Add(i, dfd);
i += length;
}
Debug.Assert(i == high + 1);
}
/// <summary>
/// Creates one or more FormatDescriptor entries for the specified range, adding them
/// to the Results list.
/// </summary>
/// <param name="low">Offset of first byte in range.</param>
/// <param name="high">Offset of last byte in range.</param>
/// <param name="subType">String sub-type.</param>
private void CreateDciStringEntries(int low, int high,
FormatDescriptor.SubType subType) {
int start, end, adj, endMask;
if (subType == FormatDescriptor.SubType.Dci) {
start = low;
end = high + 1;
adj = 1;
} else if (subType == FormatDescriptor.SubType.DciReverse) {
start = high;
end = low - 1;
adj = -1;
} else {
Debug.Assert(false);
return;
}
// Zero-length strings aren't a thing for DCI. The analyzer requires that all
// strings in a region have the same polarity, so just grab the last byte.
endMask = mFileData[end - 1] & 0x80;
int stringStart = start;
for (int i = start; i != end; i += adj) {
byte val = mFileData[i];
if ((val & 0x80) == endMask) {
// found the end of a string
int length = (i - stringStart) * adj + 1;
FormatDescriptor dfd = FormatDescriptor.Create(length,
FormatDescriptor.Type.String, subType);
Results.Add(stringStart < i ? stringStart : i, dfd);
stringStart = i + adj;
}
}
Debug.Assert(stringStart == end);
}
#endregion FormatDescriptor creation
}
}
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