RSCacheTool/Options.cs

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2014-11-17 22:53:03 +00:00
//
// Options.cs
//
// Authors:
// Jonathan Pryor <jpryor@novell.com>
//
// Copyright (C) 2008 Novell (http://www.novell.com)
//
// Permission is hereby granted, free of charge, to any person obtaining
// a copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to
// permit persons to whom the Software is furnished to do so, subject to
// the following conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
// Compile With:
// gmcs -debug+ -r:System.Core Options.cs -o:NDesk.Options.dll
// gmcs -debug+ -d:LINQ -r:System.Core Options.cs -o:NDesk.Options.dll
//
// The LINQ version just changes the implementation of
// OptionSet.Parse(IEnumerable<string>), and confers no semantic changes.
//
// A Getopt::Long-inspired option parsing library for C#.
//
// NDesk.Options.OptionSet is built upon a key/value table, where the
// key is a option format string and the value is a delegate that is
// invoked when the format string is matched.
//
// Option format strings:
// Regex-like BNF Grammar:
// name: .+
// type: [=:]
// sep: ( [^{}]+ | '{' .+ '}' )?
// aliases: ( name type sep ) ( '|' name type sep )*
//
// Each '|'-delimited name is an alias for the associated action. If the
// format string ends in a '=', it has a required value. If the format
// string ends in a ':', it has an optional value. If neither '=' or ':'
// is present, no value is supported. `=' or `:' need only be defined on one
// alias, but if they are provided on more than one they must be consistent.
//
// Each alias portion may also end with a "key/value separator", which is used
// to split option values if the option accepts > 1 value. If not specified,
// it defaults to '=' and ':'. If specified, it can be any character except
// '{' and '}' OR the *string* between '{' and '}'. If no separator should be
// used (i.e. the separate values should be distinct arguments), then "{}"
// should be used as the separator.
//
// Options are extracted either from the current option by looking for
// the option name followed by an '=' or ':', or is taken from the
// following option IFF:
// - The current option does not contain a '=' or a ':'
// - The current option requires a value (i.e. not a Option type of ':')
//
// The `name' used in the option format string does NOT include any leading
// option indicator, such as '-', '--', or '/'. All three of these are
// permitted/required on any named option.
//
// Option bundling is permitted so long as:
// - '-' is used to start the option group
// - all of the bundled options are a single character
// - at most one of the bundled options accepts a value, and the value
// provided starts from the next character to the end of the string.
//
// This allows specifying '-a -b -c' as '-abc', and specifying '-D name=value'
// as '-Dname=value'.
//
// Option processing is disabled by specifying "--". All options after "--"
// are returned by OptionSet.Parse() unchanged and unprocessed.
//
// Unprocessed options are returned from OptionSet.Parse().
//
// Examples:
// int verbose = 0;
// OptionSet p = new OptionSet ()
// .Add ("v", v => ++verbose)
// .Add ("name=|value=", v => Console.WriteLine (v));
// p.Parse (new string[]{"-v", "--v", "/v", "-name=A", "/name", "B", "extra"});
//
// The above would parse the argument string array, and would invoke the
// lambda expression three times, setting `verbose' to 3 when complete.
// It would also print out "A" and "B" to standard output.
// The returned array would contain the string "extra".
//
// C# 3.0 collection initializers are supported and encouraged:
// var p = new OptionSet () {
// { "h|?|help", v => ShowHelp () },
// };
//
// System.ComponentModel.TypeConverter is also supported, allowing the use of
// custom data types in the callback type; TypeConverter.ConvertFromString()
// is used to convert the value option to an instance of the specified
// type:
//
// var p = new OptionSet () {
// { "foo=", (Foo f) => Console.WriteLine (f.ToString ()) },
// };
//
// Random other tidbits:
// - Boolean options (those w/o '=' or ':' in the option format string)
// are explicitly enabled if they are followed with '+', and explicitly
// disabled if they are followed with '-':
// string a = null;
// var p = new OptionSet () {
// { "a", s => a = s },
// };
// p.Parse (new string[]{"-a"}); // sets v != null
// p.Parse (new string[]{"-a+"}); // sets v != null
// p.Parse (new string[]{"-a-"}); // sets v == null
//
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.ComponentModel;
using System.Globalization;
using System.IO;
using System.Runtime.Serialization;
using System.Security.Permissions;
using System.Text;
using System.Text.RegularExpressions;
#if LINQ
using System.Linq;
#endif
#if TEST
using NDesk.Options;
#endif
namespace NDesk.Options
{
public class OptionValueCollection : IList, IList<string>
{
List<string> values = new List<string>();
OptionContext c;
internal OptionValueCollection(OptionContext c)
{
this.c = c;
}
#region ICollection
void ICollection.CopyTo(Array array, int index) { (values as ICollection).CopyTo(array, index); }
bool ICollection.IsSynchronized { get { return (values as ICollection).IsSynchronized; } }
object ICollection.SyncRoot { get { return (values as ICollection).SyncRoot; } }
#endregion
#region ICollection<T>
public void Add(string item) { values.Add(item); }
public void Clear() { values.Clear(); }
public bool Contains(string item) { return values.Contains(item); }
public void CopyTo(string[] array, int arrayIndex) { values.CopyTo(array, arrayIndex); }
public bool Remove(string item) { return values.Remove(item); }
public int Count { get { return values.Count; } }
public bool IsReadOnly { get { return false; } }
#endregion
#region IEnumerable
IEnumerator IEnumerable.GetEnumerator() { return values.GetEnumerator(); }
#endregion
#region IEnumerable<T>
public IEnumerator<string> GetEnumerator() { return values.GetEnumerator(); }
#endregion
#region IList
int IList.Add(object value) { return (values as IList).Add(value); }
bool IList.Contains(object value) { return (values as IList).Contains(value); }
int IList.IndexOf(object value) { return (values as IList).IndexOf(value); }
void IList.Insert(int index, object value) { (values as IList).Insert(index, value); }
void IList.Remove(object value) { (values as IList).Remove(value); }
void IList.RemoveAt(int index) { (values as IList).RemoveAt(index); }
bool IList.IsFixedSize { get { return false; } }
object IList.this[int index] { get { return this[index]; } set { (values as IList)[index] = value; } }
#endregion
#region IList<T>
public int IndexOf(string item) { return values.IndexOf(item); }
public void Insert(int index, string item) { values.Insert(index, item); }
public void RemoveAt(int index) { values.RemoveAt(index); }
private void AssertValid(int index)
{
if (c.Option == null)
throw new InvalidOperationException("OptionContext.Option is null.");
if (index >= c.Option.MaxValueCount)
throw new ArgumentOutOfRangeException("index");
if (c.Option.OptionValueType == OptionValueType.Required &&
index >= values.Count)
throw new OptionException(string.Format(
c.OptionSet.MessageLocalizer("Missing required value for option '{0}'."), c.OptionName),
c.OptionName);
}
public string this[int index]
{
get
{
AssertValid(index);
return index >= values.Count ? null : values[index];
}
set
{
values[index] = value;
}
}
#endregion
public List<string> ToList()
{
return new List<string>(values);
}
public string[] ToArray()
{
return values.ToArray();
}
public override string ToString()
{
return string.Join(", ", values.ToArray());
}
}
public class OptionContext
{
private Option option;
private string name;
private int index;
private OptionSet set;
private OptionValueCollection c;
public OptionContext(OptionSet set)
{
this.set = set;
this.c = new OptionValueCollection(this);
}
public Option Option
{
get { return option; }
set { option = value; }
}
public string OptionName
{
get { return name; }
set { name = value; }
}
public int OptionIndex
{
get { return index; }
set { index = value; }
}
public OptionSet OptionSet
{
get { return set; }
}
public OptionValueCollection OptionValues
{
get { return c; }
}
}
public enum OptionValueType
{
None,
Optional,
Required,
}
public abstract class Option
{
string prototype, description;
string[] names;
OptionValueType type;
int count;
string[] separators;
protected Option(string prototype, string description)
: this(prototype, description, 1)
{
}
protected Option(string prototype, string description, int maxValueCount)
{
if (prototype == null)
throw new ArgumentNullException("prototype");
if (prototype.Length == 0)
throw new ArgumentException("Cannot be the empty string.", "prototype");
if (maxValueCount < 0)
throw new ArgumentOutOfRangeException("maxValueCount");
this.prototype = prototype;
this.names = prototype.Split('|');
this.description = description;
this.count = maxValueCount;
this.type = ParsePrototype();
if (this.count == 0 && type != OptionValueType.None)
throw new ArgumentException(
"Cannot provide maxValueCount of 0 for OptionValueType.Required or " +
"OptionValueType.Optional.",
"maxValueCount");
if (this.type == OptionValueType.None && maxValueCount > 1)
throw new ArgumentException(
string.Format("Cannot provide maxValueCount of {0} for OptionValueType.None.", maxValueCount),
"maxValueCount");
if (Array.IndexOf(names, "<>") >= 0 &&
((names.Length == 1 && this.type != OptionValueType.None) ||
(names.Length > 1 && this.MaxValueCount > 1)))
throw new ArgumentException(
"The default option handler '<>' cannot require values.",
"prototype");
}
public string Prototype { get { return prototype; } }
public string Description { get { return description; } }
public OptionValueType OptionValueType { get { return type; } }
public int MaxValueCount { get { return count; } }
public string[] GetNames()
{
return (string[])names.Clone();
}
public string[] GetValueSeparators()
{
if (separators == null)
return new string[0];
return (string[])separators.Clone();
}
protected static T Parse<T>(string value, OptionContext c)
{
TypeConverter conv = TypeDescriptor.GetConverter(typeof(T));
T t = default(T);
try
{
if (value != null)
t = (T)conv.ConvertFromString(value);
}
catch (Exception e)
{
throw new OptionException(
string.Format(
c.OptionSet.MessageLocalizer("Could not convert string `{0}' to type {1} for option `{2}'."),
value, typeof(T).Name, c.OptionName),
c.OptionName, e);
}
return t;
}
internal string[] Names { get { return names; } }
internal string[] ValueSeparators { get { return separators; } }
static readonly char[] NameTerminator = new char[] { '=', ':' };
private OptionValueType ParsePrototype()
{
char type = '\0';
List<string> seps = new List<string>();
for (int i = 0; i < names.Length; ++i)
{
string name = names[i];
if (name.Length == 0)
throw new ArgumentException("Empty option names are not supported.", "prototype");
int end = name.IndexOfAny(NameTerminator);
if (end == -1)
continue;
names[i] = name.Substring(0, end);
if (type == '\0' || type == name[end])
type = name[end];
else
throw new ArgumentException(
string.Format("Conflicting option types: '{0}' vs. '{1}'.", type, name[end]),
"prototype");
AddSeparators(name, end, seps);
}
if (type == '\0')
return OptionValueType.None;
if (count <= 1 && seps.Count != 0)
throw new ArgumentException(
string.Format("Cannot provide key/value separators for Options taking {0} value(s).", count),
"prototype");
if (count > 1)
{
if (seps.Count == 0)
this.separators = new string[] { ":", "=" };
else if (seps.Count == 1 && seps[0].Length == 0)
this.separators = null;
else
this.separators = seps.ToArray();
}
return type == '=' ? OptionValueType.Required : OptionValueType.Optional;
}
private static void AddSeparators(string name, int end, ICollection<string> seps)
{
int start = -1;
for (int i = end + 1; i < name.Length; ++i)
{
switch (name[i])
{
case '{':
if (start != -1)
throw new ArgumentException(
string.Format("Ill-formed name/value separator found in \"{0}\".", name),
"prototype");
start = i + 1;
break;
case '}':
if (start == -1)
throw new ArgumentException(
string.Format("Ill-formed name/value separator found in \"{0}\".", name),
"prototype");
seps.Add(name.Substring(start, i - start));
start = -1;
break;
default:
if (start == -1)
seps.Add(name[i].ToString());
break;
}
}
if (start != -1)
throw new ArgumentException(
string.Format("Ill-formed name/value separator found in \"{0}\".", name),
"prototype");
}
public void Invoke(OptionContext c)
{
OnParseComplete(c);
c.OptionName = null;
c.Option = null;
c.OptionValues.Clear();
}
protected abstract void OnParseComplete(OptionContext c);
public override string ToString()
{
return Prototype;
}
}
[Serializable]
public class OptionException : Exception
{
private string option;
public OptionException()
{
}
public OptionException(string message, string optionName)
: base(message)
{
this.option = optionName;
}
public OptionException(string message, string optionName, Exception innerException)
: base(message, innerException)
{
this.option = optionName;
}
protected OptionException(SerializationInfo info, StreamingContext context)
: base(info, context)
{
this.option = info.GetString("OptionName");
}
public string OptionName
{
get { return this.option; }
}
[SecurityPermission(SecurityAction.LinkDemand, SerializationFormatter = true)]
public override void GetObjectData(SerializationInfo info, StreamingContext context)
{
base.GetObjectData(info, context);
info.AddValue("OptionName", option);
}
}
public delegate void OptionAction<TKey, TValue>(TKey key, TValue value);
public class OptionSet : KeyedCollection<string, Option>
{
public OptionSet()
: this(delegate(string f) { return f; })
{
}
public OptionSet(Converter<string, string> localizer)
{
this.localizer = localizer;
}
Converter<string, string> localizer;
public Converter<string, string> MessageLocalizer
{
get { return localizer; }
}
protected override string GetKeyForItem(Option item)
{
if (item == null)
throw new ArgumentNullException("option");
if (item.Names != null && item.Names.Length > 0)
return item.Names[0];
// This should never happen, as it's invalid for Option to be
// constructed w/o any names.
throw new InvalidOperationException("Option has no names!");
}
[Obsolete("Use KeyedCollection.this[string]")]
protected Option GetOptionForName(string option)
{
if (option == null)
throw new ArgumentNullException("option");
try
{
return base[option];
}
catch (KeyNotFoundException)
{
return null;
}
}
protected override void InsertItem(int index, Option item)
{
base.InsertItem(index, item);
AddImpl(item);
}
protected override void RemoveItem(int index)
{
base.RemoveItem(index);
Option p = Items[index];
// KeyedCollection.RemoveItem() handles the 0th item
for (int i = 1; i < p.Names.Length; ++i)
{
Dictionary.Remove(p.Names[i]);
}
}
protected override void SetItem(int index, Option item)
{
base.SetItem(index, item);
RemoveItem(index);
AddImpl(item);
}
private void AddImpl(Option option)
{
if (option == null)
throw new ArgumentNullException("option");
List<string> added = new List<string>(option.Names.Length);
try
{
// KeyedCollection.InsertItem/SetItem handle the 0th name.
for (int i = 1; i < option.Names.Length; ++i)
{
Dictionary.Add(option.Names[i], option);
added.Add(option.Names[i]);
}
}
catch (Exception)
{
foreach (string name in added)
Dictionary.Remove(name);
throw;
}
}
public new OptionSet Add(Option option)
{
base.Add(option);
return this;
}
sealed class ActionOption : Option
{
Action<OptionValueCollection> action;
public ActionOption(string prototype, string description, int count, Action<OptionValueCollection> action)
: base(prototype, description, count)
{
if (action == null)
throw new ArgumentNullException("action");
this.action = action;
}
protected override void OnParseComplete(OptionContext c)
{
action(c.OptionValues);
}
}
public OptionSet Add(string prototype, Action<string> action)
{
return Add(prototype, null, action);
}
public OptionSet Add(string prototype, string description, Action<string> action)
{
if (action == null)
throw new ArgumentNullException("action");
Option p = new ActionOption(prototype, description, 1,
delegate(OptionValueCollection v) { action(v[0]); });
base.Add(p);
return this;
}
public OptionSet Add(string prototype, OptionAction<string, string> action)
{
return Add(prototype, null, action);
}
public OptionSet Add(string prototype, string description, OptionAction<string, string> action)
{
if (action == null)
throw new ArgumentNullException("action");
Option p = new ActionOption(prototype, description, 2,
delegate(OptionValueCollection v) { action(v[0], v[1]); });
base.Add(p);
return this;
}
sealed class ActionOption<T> : Option
{
Action<T> action;
public ActionOption(string prototype, string description, Action<T> action)
: base(prototype, description, 1)
{
if (action == null)
throw new ArgumentNullException("action");
this.action = action;
}
protected override void OnParseComplete(OptionContext c)
{
action(Parse<T>(c.OptionValues[0], c));
}
}
sealed class ActionOption<TKey, TValue> : Option
{
OptionAction<TKey, TValue> action;
public ActionOption(string prototype, string description, OptionAction<TKey, TValue> action)
: base(prototype, description, 2)
{
if (action == null)
throw new ArgumentNullException("action");
this.action = action;
}
protected override void OnParseComplete(OptionContext c)
{
action(
Parse<TKey>(c.OptionValues[0], c),
Parse<TValue>(c.OptionValues[1], c));
}
}
public OptionSet Add<T>(string prototype, Action<T> action)
{
return Add(prototype, null, action);
}
public OptionSet Add<T>(string prototype, string description, Action<T> action)
{
return Add(new ActionOption<T>(prototype, description, action));
}
public OptionSet Add<TKey, TValue>(string prototype, OptionAction<TKey, TValue> action)
{
return Add(prototype, null, action);
}
public OptionSet Add<TKey, TValue>(string prototype, string description, OptionAction<TKey, TValue> action)
{
return Add(new ActionOption<TKey, TValue>(prototype, description, action));
}
protected virtual OptionContext CreateOptionContext()
{
return new OptionContext(this);
}
#if LINQ
public List<string> Parse (IEnumerable<string> arguments)
{
bool process = true;
OptionContext c = CreateOptionContext ();
c.OptionIndex = -1;
var def = GetOptionForName ("<>");
var unprocessed =
from argument in arguments
where ++c.OptionIndex >= 0 && (process || def != null)
? process
? argument == "--"
? (process = false)
: !Parse (argument, c)
? def != null
? Unprocessed (null, def, c, argument)
: true
: false
: def != null
? Unprocessed (null, def, c, argument)
: true
: true
select argument;
List<string> r = unprocessed.ToList ();
if (c.Option != null)
c.Option.Invoke (c);
return r;
}
#else
public List<string> Parse(IEnumerable<string> arguments)
{
OptionContext c = CreateOptionContext();
c.OptionIndex = -1;
bool process = true;
List<string> unprocessed = new List<string>();
Option def = Contains("<>") ? this["<>"] : null;
foreach (string argument in arguments)
{
++c.OptionIndex;
if (argument == "--")
{
process = false;
continue;
}
if (!process)
{
Unprocessed(unprocessed, def, c, argument);
continue;
}
if (!Parse(argument, c))
Unprocessed(unprocessed, def, c, argument);
}
if (c.Option != null)
c.Option.Invoke(c);
return unprocessed;
}
#endif
private static bool Unprocessed(ICollection<string> extra, Option def, OptionContext c, string argument)
{
if (def == null)
{
extra.Add(argument);
return false;
}
c.OptionValues.Add(argument);
c.Option = def;
c.Option.Invoke(c);
return false;
}
private readonly Regex ValueOption = new Regex(
@"^(?<flag>--|-|/)(?<name>[^:=]+)((?<sep>[:=])(?<value>.*))?$");
protected bool GetOptionParts(string argument, out string flag, out string name, out string sep, out string value)
{
if (argument == null)
throw new ArgumentNullException("argument");
flag = name = sep = value = null;
Match m = ValueOption.Match(argument);
if (!m.Success)
{
return false;
}
flag = m.Groups["flag"].Value;
name = m.Groups["name"].Value;
if (m.Groups["sep"].Success && m.Groups["value"].Success)
{
sep = m.Groups["sep"].Value;
value = m.Groups["value"].Value;
}
return true;
}
protected virtual bool Parse(string argument, OptionContext c)
{
if (c.Option != null)
{
ParseValue(argument, c);
return true;
}
string f, n, s, v;
if (!GetOptionParts(argument, out f, out n, out s, out v))
return false;
Option p;
if (Contains(n))
{
p = this[n];
c.OptionName = f + n;
c.Option = p;
switch (p.OptionValueType)
{
case OptionValueType.None:
c.OptionValues.Add(n);
c.Option.Invoke(c);
break;
case OptionValueType.Optional:
case OptionValueType.Required:
ParseValue(v, c);
break;
}
return true;
}
// no match; is it a bool option?
if (ParseBool(argument, n, c))
return true;
// is it a bundled option?
if (ParseBundledValue(f, string.Concat(n + s + v), c))
return true;
return false;
}
private void ParseValue(string option, OptionContext c)
{
if (option != null)
foreach (string o in c.Option.ValueSeparators != null
? option.Split(c.Option.ValueSeparators, StringSplitOptions.None)
: new string[] { option })
{
c.OptionValues.Add(o);
}
if (c.OptionValues.Count == c.Option.MaxValueCount ||
c.Option.OptionValueType == OptionValueType.Optional)
c.Option.Invoke(c);
else if (c.OptionValues.Count > c.Option.MaxValueCount)
{
throw new OptionException(localizer(string.Format(
"Error: Found {0} option values when expecting {1}.",
c.OptionValues.Count, c.Option.MaxValueCount)),
c.OptionName);
}
}
private bool ParseBool(string option, string n, OptionContext c)
{
Option p;
string rn;
if (n.Length >= 1 && (n[n.Length - 1] == '+' || n[n.Length - 1] == '-') &&
Contains((rn = n.Substring(0, n.Length - 1))))
{
p = this[rn];
string v = n[n.Length - 1] == '+' ? option : null;
c.OptionName = option;
c.Option = p;
c.OptionValues.Add(v);
p.Invoke(c);
return true;
}
return false;
}
private bool ParseBundledValue(string f, string n, OptionContext c)
{
if (f != "-")
return false;
for (int i = 0; i < n.Length; ++i)
{
Option p;
string opt = f + n[i].ToString();
string rn = n[i].ToString();
if (!Contains(rn))
{
if (i == 0)
return false;
throw new OptionException(string.Format(localizer(
"Cannot bundle unregistered option '{0}'."), opt), opt);
}
p = this[rn];
switch (p.OptionValueType)
{
case OptionValueType.None:
Invoke(c, opt, n, p);
break;
case OptionValueType.Optional:
case OptionValueType.Required:
{
string v = n.Substring(i + 1);
c.Option = p;
c.OptionName = opt;
ParseValue(v.Length != 0 ? v : null, c);
return true;
}
default:
throw new InvalidOperationException("Unknown OptionValueType: " + p.OptionValueType);
}
}
return true;
}
private static void Invoke(OptionContext c, string name, string value, Option option)
{
c.OptionName = name;
c.Option = option;
c.OptionValues.Add(value);
option.Invoke(c);
}
private const int OptionWidth = 29;
public void WriteOptionDescriptions(TextWriter o)
{
foreach (Option p in this)
{
int written = 0;
if (!WriteOptionPrototype(o, p, ref written))
continue;
if (written < OptionWidth)
o.Write(new string(' ', OptionWidth - written));
else
{
o.WriteLine();
o.Write(new string(' ', OptionWidth));
}
List<string> lines = GetLines(localizer(GetDescription(p.Description)));
o.WriteLine(lines[0]);
string prefix = new string(' ', OptionWidth + 2);
for (int i = 1; i < lines.Count; ++i)
{
o.Write(prefix);
o.WriteLine(lines[i]);
}
}
}
bool WriteOptionPrototype(TextWriter o, Option p, ref int written)
{
string[] names = p.Names;
int i = GetNextOptionIndex(names, 0);
if (i == names.Length)
return false;
if (names[i].Length == 1)
{
Write(o, ref written, " -");
Write(o, ref written, names[0]);
}
else
{
Write(o, ref written, " --");
Write(o, ref written, names[0]);
}
for (i = GetNextOptionIndex(names, i + 1);
i < names.Length; i = GetNextOptionIndex(names, i + 1))
{
Write(o, ref written, ", ");
Write(o, ref written, names[i].Length == 1 ? "-" : "--");
Write(o, ref written, names[i]);
}
if (p.OptionValueType == OptionValueType.Optional ||
p.OptionValueType == OptionValueType.Required)
{
if (p.OptionValueType == OptionValueType.Optional)
{
Write(o, ref written, localizer("["));
}
Write(o, ref written, localizer("=" + GetArgumentName(0, p.MaxValueCount, p.Description)));
string sep = p.ValueSeparators != null && p.ValueSeparators.Length > 0
? p.ValueSeparators[0]
: " ";
for (int c = 1; c < p.MaxValueCount; ++c)
{
Write(o, ref written, localizer(sep + GetArgumentName(c, p.MaxValueCount, p.Description)));
}
if (p.OptionValueType == OptionValueType.Optional)
{
Write(o, ref written, localizer("]"));
}
}
return true;
}
static int GetNextOptionIndex(string[] names, int i)
{
while (i < names.Length && names[i] == "<>")
{
++i;
}
return i;
}
static void Write(TextWriter o, ref int n, string s)
{
n += s.Length;
o.Write(s);
}
private static string GetArgumentName(int index, int maxIndex, string description)
{
if (description == null)
return maxIndex == 1 ? "VALUE" : "VALUE" + (index + 1);
string[] nameStart;
if (maxIndex == 1)
nameStart = new string[] { "{0:", "{" };
else
nameStart = new string[] { "{" + index + ":" };
for (int i = 0; i < nameStart.Length; ++i)
{
int start, j = 0;
do
{
start = description.IndexOf(nameStart[i], j);
} while (start >= 0 && j != 0 ? description[j++ - 1] == '{' : false);
if (start == -1)
continue;
int end = description.IndexOf("}", start);
if (end == -1)
continue;
return description.Substring(start + nameStart[i].Length, end - start - nameStart[i].Length);
}
return maxIndex == 1 ? "VALUE" : "VALUE" + (index + 1);
}
private static string GetDescription(string description)
{
if (description == null)
return string.Empty;
StringBuilder sb = new StringBuilder(description.Length);
int start = -1;
for (int i = 0; i < description.Length; ++i)
{
switch (description[i])
{
case '{':
if (i == start)
{
sb.Append('{');
start = -1;
}
else if (start < 0)
start = i + 1;
break;
case '}':
if (start < 0)
{
if ((i + 1) == description.Length || description[i + 1] != '}')
throw new InvalidOperationException("Invalid option description: " + description);
++i;
sb.Append("}");
}
else
{
sb.Append(description.Substring(start, i - start));
start = -1;
}
break;
case ':':
if (start < 0)
goto default;
start = i + 1;
break;
default:
if (start < 0)
sb.Append(description[i]);
break;
}
}
return sb.ToString();
}
private static List<string> GetLines(string description)
{
List<string> lines = new List<string>();
if (string.IsNullOrEmpty(description))
{
lines.Add(string.Empty);
return lines;
}
int length = 80 - OptionWidth - 2;
int start = 0, end;
do
{
end = GetLineEnd(start, length, description);
bool cont = false;
if (end < description.Length)
{
char c = description[end];
if (c == '-' || (char.IsWhiteSpace(c) && c != '\n'))
++end;
else if (c != '\n')
{
cont = true;
--end;
}
}
lines.Add(description.Substring(start, end - start));
if (cont)
{
lines[lines.Count - 1] += "-";
}
start = end;
if (start < description.Length && description[start] == '\n')
++start;
} while (end < description.Length);
return lines;
}
private static int GetLineEnd(int start, int length, string description)
{
int end = Math.Min(start + length, description.Length);
int sep = -1;
for (int i = start; i < end; ++i)
{
switch (description[i])
{
case ' ':
case '\t':
case '\v':
case '-':
case ',':
case '.':
case ';':
sep = i;
break;
case '\n':
return i;
}
}
if (sep == -1 || end == description.Length)
return end;
return sep;
}
}
}