public static IProjectReader ToReader(this InputKind kind)
{
return(kind switch
{
InputKind.Directory => new DirectoryFileReader(),
InputKind.Csproj => new CSProjectReader(),
InputKind.Sln => new SolutionReader(),
InputKind.CSharpFile => new CSharpFileReader(),
_ => throw new System.ArgumentException($"Undefined inputKind [{kind}]"),
});
public static IProjectReader ToReader(this InputKind kind)
{
switch (kind)
{
case InputKind.Directory: return(new DirectoryFileReader());
case InputKind.Csproj: return(new CSProjectReader());
case InputKind.Sln: return(new SolutionReader());
default: throw new System.ArgumentException($"Undefined inputKind [kind]");
}
}
public override IDictionary <string, object> Serialize()
{
var props = base.Serialize();
props[nameof(DimensionData.Channels)] = DimensionData.Channels;
props[nameof(DimensionData.Height)] = DimensionData.Height;
props[nameof(DimensionData.Width)] = DimensionData.Width;
props[nameof(InputKind)] = InputKind.ToString();
props[nameof(Parameter.BatchSize)] = Parameter.BatchSize;
props[nameof(Parameter.CropSize)] = Parameter.CropSize;
props[nameof(Parameter.Mirror)] = Parameter.Mirror;
return(props);
}
internal static Currency Min(Currency currency, Currency rhs, InputKind kind = InputKind.Auto)
{
if (currency is null)
{
throw new ArgumentNullException(nameof(currency));
}
if (rhs is null)
{
throw new ArgumentNullException(nameof(rhs));
}
return(new Currency(Math.Min(currency.Value, rhs.Value), kind));
}
/// <summary>
/// Выполняет основную работу программы.
/// </summary>
/// <param name="args"></param>
/// <param name="inputKind"></param>
private static void Start(string[] args, InputKind inputKind)
{
Text text;
Text output;
//Чекаем способ ввода, получчаем текст в зависисости от результата проверки
if (inputKind == InputKind.Console)
{
Console.WriteLine("Введите текст:");
string userinput = Console.ReadLine();
text = new Text(userinput);
}
else
{
string input = File.ReadAllText(args[args.Length - 1]);
text = new Text(input);
}
//Исходящий текст.
output = new Text(text);
//Выполняем просьбы пользователя исходя из параметров
if (args.Contains("-l"))
{
PrintLengthInfos(text);
}
if (args.Contains("-s"))
{
output.DeleteDupSpaces();
}
if (args.Contains("-c"))
{
output.OnlyRealWords();
}
if (args.Contains("-p"))
{
PrintStatistics(text, output);
}
//Если пользователь не просил новый файл то его делать не будет
if (!args.Contains("-q"))
{
var sw = File.CreateText("text.txt");
sw.Write(output.Content);
sw.Close();
}
}
/// <summary>
/// Gets the unknown input kind. Must be overridden in sub-classes.
/// </summary>
/// <returns>The input kind.</returns>
public virtual InputKind GetKind()
{
string[] pathComponents =
Util.SubstringAfter(this.Path, "/data/inputs/", null).Split('/');
string kindPath;
if (pathComponents[0].Equals("tcp"))
{
kindPath = "tcp/" + pathComponents[1];
}
else
{
kindPath = pathComponents[0];
}
return(InputKind.Create(kindPath));
}
public void SetDefaultSettings()
{
size = TC_Settings.instance.global.defaultTerrainSize;
if (transform.parent.GetSiblingIndex() == 0)
{
inputKind = InputKind.Shape;
inputShape = InputShape.Circle;
wrapMode = ImageWrapMode.Clamp;
}
else if (outputId == TC.heightOutput)
{
inputKind = InputKind.File;
inputFile = InputFile.RawImage;
wrapMode = ImageWrapMode.Clamp;
}
}
private void UpdateInput()
{
var input = new Vector2(Input.GetAxisRaw("Horizontal"), Input.GetAxisRaw("Vertical"));
bool wasJumpPressed = Input.GetButtonDown("Horizontal") || Input.GetButtonDown("Vertical");
if (!wasJumpPressed)
{
if (!wasJumpPressedDuringJump)
{
currentInput = InputKind.None;
}
return;
}
if (input.x > 0.01f)
{
currentInput = InputKind.JumpRight;
}
else if (input.x < -0.01f)
{
currentInput = InputKind.JumpLeft;
}
else if (input.y > 0.01f)
{
currentInput = InputKind.JumpForward;
}
/// If the Jump button was pressed
/// right before the previous jump ends
/// then the character should make another jump after the current one ends.
if (isJumping)
{
float timeNow = Time.unscaledTime;
float nextLandingTime = previousJumpStartTime + jumpDuration;
if (timeNow >= nextLandingTime - doubleJumpTime && timeNow <= nextLandingTime)
{
wasJumpPressedDuringJump = true;
}
}
}
//
// Parses the string @input and returns a CSharpParser if succeeful.
//
// if @silent is set to true then no errors are
// reported to the user. This is used to do various calls to the
// parser and check if the expression is parsable.
//
// @partial_input: if @silent is true, then it returns whether the
// parsed expression was partial, and more data is needed
//
static CSharpParser ParseString(ParseMode mode, string input, out bool partial_input)
{
partial_input = false;
Reset();
queued_fields.Clear();
Tokenizer.LocatedToken.Initialize();
Stream s = new MemoryStream(Encoding.Default.GetBytes(input));
SeekableStreamReader seekable = new SeekableStreamReader(s, Encoding.Default);
InputKind kind = ToplevelOrStatement(seekable);
if (kind == InputKind.Error)
{
if (mode == ParseMode.ReportErrors)
{
ctx.Report.Error(-25, "Detection Parsing Error");
}
partial_input = false;
return(null);
}
if (kind == InputKind.EOF)
{
if (mode == ParseMode.ReportErrors)
{
Console.Error.WriteLine("Internal error: EOF condition should have been detected in a previous call with silent=true");
}
partial_input = true;
return(null);
}
seekable.Position = 0;
CSharpParser parser = new CSharpParser(seekable, Location.SourceFiles [0], RootContext.ToplevelTypes);
if (kind == InputKind.StatementOrExpression)
{
parser.Lexer.putback_char = Tokenizer.EvalStatementParserCharacter;
RootContext.StatementMode = true;
}
else
{
//
// Do not activate EvalCompilationUnitParserCharacter until
// I have figured out all the limitations to invoke methods
// in the generated classes. See repl.txt
//
parser.Lexer.putback_char = Tokenizer.EvalUsingDeclarationsParserCharacter;
//parser.Lexer.putback_char = Tokenizer.EvalCompilationUnitParserCharacter;
RootContext.StatementMode = false;
}
if (mode == ParseMode.GetCompletions)
{
parser.Lexer.CompleteOnEOF = true;
}
ReportPrinter old_printer = null;
if ((mode == ParseMode.Silent || mode == ParseMode.GetCompletions) && CSharpParser.yacc_verbose_flag == 0)
{
old_printer = SetPrinter(new StreamReportPrinter(TextWriter.Null));
}
try
{
parser.parse();
}
finally
{
if (ctx.Report.Errors != 0)
{
if (mode != ParseMode.ReportErrors && parser.UnexpectedEOF)
{
partial_input = true;
}
parser.undo.ExecuteUndo();
parser = null;
}
if (old_printer != null)
{
SetPrinter(old_printer);
}
}
return(parser);
}
internal static void ValidateInput(InputKind kind, int value) {
switch (kind) {
case InputKind.Year:
if (value > DateTime.MaxValue.Year || value < DateTime.MinValue.Year) {
throw PythonOps.ValueError("year is out of range");
}
break;
case InputKind.Month:
if (value > 12 || value < 1) {
throw PythonOps.ValueError("month must be in 1..12");
}
break;
case InputKind.Day:
// TODO: changing upper bound
if (value > 31 || value < 1) {
throw PythonOps.ValueError("day is out of range for month");
}
break;
case InputKind.Hour:
if (value > 23 || value < 0) {
throw PythonOps.ValueError("hour must be in 0..23");
}
break;
case InputKind.Minute:
if (value > 59 || value < 0) {
throw PythonOps.ValueError("minute must be in 0..59");
}
break;
case InputKind.Second:
if (value > 59 || value < 0) {
throw PythonOps.ValueError("second must be in 0..59");
}
break;
case InputKind.Microsecond:
if (value > 999999 || value < 0) {
throw PythonOps.ValueError("microsecond must be in 0..999999");
}
break;
}
}
//
// Parses the string @input and returns a CSharpParser if succeeful.
//
// if @silent is set to true then no errors are
// reported to the user. This is used to do various calls to the
// parser and check if the expression is parsable.
//
// @partial_input: if @silent is true, then it returns whether the
// parsed expression was partial, and more data is needed
//
CSharpParser ParseString(ParseMode mode, string input, out bool partial_input)
{
partial_input = false;
Reset();
var enc = ctx.Settings.Encoding;
var s = new MemoryStream(enc.GetBytes(input));
SeekableStreamReader seekable = new SeekableStreamReader(s, enc);
InputKind kind = ToplevelOrStatement(seekable);
if (kind == InputKind.Error)
{
if (mode == ParseMode.ReportErrors)
{
ctx.Report.Error(-25, "Detection Parsing Error");
}
partial_input = false;
return(null);
}
if (kind == InputKind.EOF)
{
if (mode == ParseMode.ReportErrors)
{
Console.Error.WriteLine("Internal error: EOF condition should have been detected in a previous call with silent=true");
}
partial_input = true;
return(null);
}
seekable.Position = 0;
source_file.DeclarationFound = false;
CSharpParser parser = new CSharpParser(seekable, source_file, new ParserSession());
if (kind == InputKind.StatementOrExpression)
{
parser.Lexer.putback_char = Tokenizer.EvalStatementParserCharacter;
parser.Lexer.parsing_block++;
ctx.Settings.StatementMode = true;
}
else
{
parser.Lexer.putback_char = Tokenizer.EvalCompilationUnitParserCharacter;
ctx.Settings.StatementMode = false;
}
if (mode == ParseMode.GetCompletions)
{
parser.Lexer.CompleteOnEOF = true;
}
ReportPrinter old_printer = null;
if ((mode == ParseMode.Silent || mode == ParseMode.GetCompletions))
{
old_printer = ctx.Report.SetPrinter(new StreamReportPrinter(TextWriter.Null));
}
try {
parser.parse();
} finally {
if (ctx.Report.Errors != 0)
{
if (mode != ParseMode.ReportErrors && parser.UnexpectedEOF)
{
partial_input = true;
}
if (parser.undo != null)
{
parser.undo.ExecuteUndo();
}
parser = null;
}
if (old_printer != null)
{
ctx.Report.SetPrinter(old_printer);
}
}
return(parser);
}
private ImmutableArray <Project> LoadProject(InputKind inputKind)
{
return(inputKind.ToReader().ReadAllSourceCodeFiles(TargetFileOrDirectory, StyleCopJsonFilePath));
}
//
// Parses the string @input and returns a CSharpParser if succeeful.
//
// if @silent is set to true then no errors are
// reported to the user. This is used to do various calls to the
// parser and check if the expression is parsable.
//
// @partial_input: if @silent is true, then it returns whether the
// parsed expression was partial, and more data is needed
//
static CSharpParser ParseString(bool silent, string input, out bool partial_input)
{
partial_input = false;
Reset();
queued_fields.Clear();
Stream s = new MemoryStream(Encoding.Default.GetBytes(input));
SeekableStreamReader seekable = new SeekableStreamReader(s, Encoding.Default);
InputKind kind = ToplevelOrStatement(seekable);
if (kind == InputKind.Error)
{
if (!silent)
{
Report.Error(-25, "Detection Parsing Error");
}
partial_input = false;
return(null);
}
if (kind == InputKind.EOF)
{
if (silent == false)
{
Console.Error.WriteLine("Internal error: EOF condition should have been detected in a previous call with silent=true");
}
partial_input = true;
return(null);
}
seekable.Position = 0;
CSharpParser parser = new CSharpParser(seekable, (CompilationUnit)Location.SourceFiles [0]);
parser.ErrorOutput = Report.Stderr;
if (kind == InputKind.StatementOrExpression)
{
parser.Lexer.putback_char = Tokenizer.EvalStatementParserCharacter;
RootContext.StatementMode = true;
}
else
{
//
// Do not activate EvalCompilationUnitParserCharacter until
// I have figured out all the limitations to invoke methods
// in the generated classes. See repl.txt
//
parser.Lexer.putback_char = Tokenizer.EvalUsingDeclarationsParserCharacter;
//parser.Lexer.putback_char = Tokenizer.EvalCompilationUnitParserCharacter;
RootContext.StatementMode = false;
}
if (silent)
{
Report.DisableReporting();
}
try {
parser.parse();
} finally {
if (Report.Errors != 0)
{
if (silent && parser.UnexpectedEOF)
{
partial_input = true;
}
parser.undo.ExecuteUndo();
parser = null;
}
if (silent)
{
Report.EnableReporting();
}
}
return(parser);
}
/// <summary>
/// Touch all the properties of all any input
/// </summary>
/// <param name="input">The Input</param>
private void TouchSpecificInput(Input input)
{
InputKind inputKind = input.GetKind();
TcpConnections tcpConnections = null;
UdpConnections udpConnections = null;
string[] dummyStrings;
string dummyString;
bool dummyBoolean;
DateTime dummyDate;
int dummyInt;
if (inputKind.Equals(InputKind.Monitor))
{
MonitorInput monitorInput = (MonitorInput)input;
dummyString = monitorInput.Blacklist;
dummyString = monitorInput.CrcSalt;
dummyInt = monitorInput.FileCount;
dummyBoolean = monitorInput.FollowTail;
dummyString = monitorInput.Host;
dummyString = monitorInput.HostRegex;
dummyString = monitorInput.IgnoreOlderThan;
dummyString = monitorInput.Index;
dummyString = monitorInput.Queue;
dummyBoolean = monitorInput.IsRecursive;
dummyString = monitorInput.Source;
dummyString = monitorInput.SourceType;
dummyInt = monitorInput.TimeBeforeClose;
dummyString = monitorInput.Whitelist;
}
else if (inputKind.Equals(InputKind.Script))
{
ScriptInput scriptInput = (ScriptInput)input;
dummyDate = scriptInput.EndTime;
dummyString = scriptInput.Group;
dummyString = scriptInput.Host;
dummyString = scriptInput.Index;
dummyString = scriptInput.Interval;
dummyDate = scriptInput.StartTime;
}
else if (inputKind.Equals(InputKind.Tcp))
{
TcpInput tcpInput = (TcpInput)input;
dummyString = tcpInput.ConnectionHost;
dummyString = tcpInput.Group;
dummyString = tcpInput.Host;
dummyString = tcpInput.Index;
dummyString = tcpInput.Queue;
dummyString = tcpInput.RestrictToHost;
dummyString = tcpInput.Source;
dummyString = tcpInput.SourceType;
dummyBoolean = tcpInput.SSL;
tcpConnections = tcpInput.Connections();
dummyString = tcpConnections.Connection;
dummyString = tcpConnections.Servername;
}
else if (inputKind.Equals(InputKind.TcpSplunk))
{
TcpSplunkInput tcpSplunkInput = (TcpSplunkInput)input;
dummyString = tcpSplunkInput.ConnectionHost;
dummyString = tcpSplunkInput.Group;
dummyString = tcpSplunkInput.Host;
dummyString = tcpSplunkInput.Index;
dummyString = tcpSplunkInput.Queue;
dummyString = tcpSplunkInput.Source;
dummyString = tcpSplunkInput.SourceType;
dummyBoolean = tcpSplunkInput.SSL;
tcpConnections = tcpSplunkInput.Connections();
dummyString = tcpConnections.Connection;
dummyString = tcpConnections.Servername;
}
else if (inputKind.Equals(InputKind.Udp))
{
UdpInput udpInput = (UdpInput)input;
dummyString = udpInput.ConnectionHost;
dummyString = udpInput.Group;
dummyString = udpInput.Host;
dummyString = udpInput.Index;
dummyString = udpInput.Queue;
dummyString = udpInput.Source;
dummyString = udpInput.SourceType;
dummyBoolean = udpInput.NoAppendingTimeStamp;
dummyBoolean = udpInput.NoPriorityStripping;
udpConnections = udpInput.Connections();
dummyString = udpConnections.Group;
}
else if (inputKind.Equals(InputKind.WindowsActiveDirectory))
{
WindowsActiveDirectoryInput windowsActiveDirectoryInput = (WindowsActiveDirectoryInput)input;
dummyString = windowsActiveDirectoryInput.Index;
dummyBoolean = windowsActiveDirectoryInput.MonitorSubtree;
dummyString = windowsActiveDirectoryInput.StartingNode;
dummyString = windowsActiveDirectoryInput.TargetDc;
}
else if (inputKind.Equals(InputKind.WindowsEventLog))
{
WindowsEventLogInput windowsEventLogInput = (WindowsEventLogInput)input;
dummyString = windowsEventLogInput.Hosts;
dummyString = windowsEventLogInput.Index;
dummyString = windowsEventLogInput.LocalName;
dummyStrings = windowsEventLogInput.Logs;
dummyString = windowsEventLogInput.LookupHost;
}
else if (inputKind.Equals(InputKind.WindowsPerfmon))
{
WindowsPerfmonInput windowsPerfmonInput = (WindowsPerfmonInput)input;
dummyStrings = windowsPerfmonInput.Counters;
dummyString = windowsPerfmonInput.Index;
dummyStrings = windowsPerfmonInput.Instances;
dummyInt = windowsPerfmonInput.Interval;
dummyString = windowsPerfmonInput.Object;
}
else if (inputKind.Equals(InputKind.WindowsRegistry))
{
WindowsRegistryInput windowsRegistryInput = (WindowsRegistryInput)input;
dummyBoolean = windowsRegistryInput.Baseline;
dummyString = windowsRegistryInput.Hive;
dummyString = windowsRegistryInput.Index;
dummyBoolean = windowsRegistryInput.MonitorSubnodes;
dummyString = windowsRegistryInput.Proc;
dummyStrings = windowsRegistryInput.Type;
}
else if (inputKind.Equals(InputKind.WindowsWmi))
{
WindowsWmiInput windowsWmiInput = (WindowsWmiInput)input;
dummyString = windowsWmiInput.Classes;
dummyStrings = windowsWmiInput.Fields;
dummyString = windowsWmiInput.Index;
dummyStrings = windowsWmiInput.Instances;
dummyInt = windowsWmiInput.Interval;
dummyString = windowsWmiInput.LocalName;
dummyString = windowsWmiInput.LookupHost;
dummyString = windowsWmiInput.Servers;
dummyString = windowsWmiInput.Wql;
}
else
{
Assert.Fail();
}
}
static public void ClickMenuInput(object obj)
{
int instanceID;
string command = TD.ObjectToCommandAndInstanceID(obj, out instanceID);
TC_Node node = EditorUtility.InstanceIDToObject(instanceID) as TC_Node;
if (node != null)
{
int index = command.IndexOf("/");
string inputKind = command.Substring(0, index);
string input = command.Substring(index + 1);
bool changed = false;
InputKind oldInputKind = node.inputKind;
node.inputKind = (InputKind)Enum.Parse(typeof(InputKind), inputKind);
if (node.inputKind != oldInputKind)
{
changed = true;
}
if (inputKind == "Terrain")
{
InputTerrain oldInputTerrain = node.inputTerrain;
node.inputTerrain = (InputTerrain)Enum.Parse(typeof(InputTerrain), input);
if (node.inputTerrain != oldInputTerrain)
{
changed = true;
}
}
else if (inputKind == "Noise")
{
InputNoise oldInputNoise = node.inputNoise;
node.inputNoise = (InputNoise)Enum.Parse(typeof(InputNoise), input);
if (node.inputNoise != oldInputNoise)
{
changed = true;
}
}
else if (inputKind == "Shape")
{
InputShape oldInputShape = node.inputShape;
node.inputShape = (InputShape)Enum.Parse(typeof(InputShape), input);
if (node.inputShape != oldInputShape)
{
changed = true;
}
}
else if (inputKind == "File")
{
InputFile oldInputFile = node.inputFile;
node.inputFile = (InputFile)Enum.Parse(typeof(InputFile), input);
if (node.inputFile != oldInputFile)
{
changed = true;
}
}
else if (inputKind == "Current")
{
InputCurrent oldInputCurrent = node.inputCurrent;
node.inputCurrent = (InputCurrent)Enum.Parse(typeof(InputCurrent), input);
if (node.inputCurrent != oldInputCurrent)
{
changed = true;
}
}
if (changed)
{
node.Init();
EditorUtility.SetDirty(node);
TC.RefreshOutputReferences(node.outputId, true);
}
}
}
public Currency(double value = 0, InputKind kind = InputKind.Auto)
{
Value = value;
Kind = kind;
}
public Currency(Currency interest, InputKind kind) : this(interest.Value, kind)
{
}
//
// Parses the string @input and returns a CSharpParser if succeeful.
//
// if @silent is set to true then no errors are
// reported to the user. This is used to do various calls to the
// parser and check if the expression is parsable.
//
// @partial_input: if @silent is true, then it returns whether the
// parsed expression was partial, and more data is needed
//
CSharpParser ParseString(ParseMode mode, string input, out bool partial_input)
{
partial_input = false;
Reset();
Tokenizer.LocatedToken.Initialize();
Stream s = new MemoryStream(Encoding.UTF8.GetBytes(input));
SeekableStreamReader seekable = new SeekableStreamReader(s, Encoding.UTF8);
InputKind kind = ToplevelOrStatement(seekable);
if (kind == InputKind.Error)
{
if (mode == ParseMode.ReportErrors)
{
ctx.Report.Error(-25, "Detection Parsing Error");
}
partial_input = false;
return(null);
}
if (kind == InputKind.EOF)
{
if (mode == ParseMode.ReportErrors)
{
Console.Error.WriteLine("Internal error: EOF condition should have been detected in a previous call with silent=true");
}
partial_input = true;
return(null);
}
seekable.Position = 0;
if (ns == null)
{
ns = new NamespaceEntry(module, null, Location.SourceFiles[0], null);
}
ns.DeclarationFound = false;
CSharpParser parser = new CSharpParser(seekable, Location.SourceFiles [0], module, ns);
if (kind == InputKind.StatementOrExpression)
{
parser.Lexer.putback_char = Tokenizer.EvalStatementParserCharacter;
ctx.Settings.StatementMode = true;
}
else
{
parser.Lexer.putback_char = Tokenizer.EvalCompilationUnitParserCharacter;
ctx.Settings.StatementMode = false;
}
if (mode == ParseMode.GetCompletions)
{
parser.Lexer.CompleteOnEOF = true;
}
ReportPrinter old_printer = null;
if ((mode == ParseMode.Silent || mode == ParseMode.GetCompletions) && CSharpParser.yacc_verbose_flag == 0)
{
old_printer = ctx.Report.SetPrinter(new StreamReportPrinter(TextWriter.Null));
}
try {
parser.parse();
} finally {
if (ctx.Report.Errors != 0)
{
if (mode != ParseMode.ReportErrors && parser.UnexpectedEOF)
{
partial_input = true;
}
if (parser.undo != null)
{
parser.undo.ExecuteUndo();
}
parser = null;
}
if (old_printer != null)
{
ctx.Report.SetPrinter(old_printer);
}
}
return(parser);
}
void OnEnable()
{
currentInput = InputKind.None;
wasJumpPressedDuringJump = false;
}
public static string GetInputTypeName(Generator gen, ITypeRequestSource source, TypeReference t, InputKind kind)
{
switch (kind)
{
case InputKind.Default: return(GetTypeName(gen, source, t, TypeUsage.In));
case InputKind.Raw: return(GetTypeName(gen, source, t, TypeUsage.Raw));
case InputKind.Slice: return($"&[{ GetTypeName(gen, source, t, TypeUsage.In) }]");
case InputKind.MutSlice:
Assert(t.IsValueType);
return($"&mut [{ GetTypeName(gen, source, t, TypeUsage.In) }]");
case InputKind.VecBuffer: return($"&mut Vec<{ GetTypeName(gen, source, t, TypeUsage.OutNonNull) }>");
default: throw new InvalidOperationException();
}
}
