internal CachedCodeEntry(string key, Hashtable capnames, string[] capslist, RegexCode code, Hashtable caps, int capsize, ExclusiveReference runner, SharedReference repl) { this._key = key; this._capnames = capnames; this._capslist = capslist; this._code = code; this._caps = caps; this._capsize = capsize; this._runnerref = runner; this._replref = repl; }
private Regex(string pattern, RegexOptions options, bool useCache) { CachedCodeEntry cachedAndUpdate = null; string str = null; if (pattern == null) { throw new ArgumentNullException("pattern"); } if ((options < RegexOptions.None) || ((((int) options) >> 10) != 0)) { throw new ArgumentOutOfRangeException("options"); } if (((options & RegexOptions.ECMAScript) != RegexOptions.None) && ((options & ~(RegexOptions.CultureInvariant | RegexOptions.ECMAScript | RegexOptions.Compiled | RegexOptions.Multiline | RegexOptions.IgnoreCase)) != RegexOptions.None)) { throw new ArgumentOutOfRangeException("options"); } if ((options & RegexOptions.CultureInvariant) != RegexOptions.None) { str = CultureInfo.InvariantCulture.ToString(); } else { str = CultureInfo.CurrentCulture.ToString(); } string[] strArray = new string[] { ((int) options).ToString(NumberFormatInfo.InvariantInfo), ":", str, ":", pattern }; string key = string.Concat(strArray); cachedAndUpdate = LookupCachedAndUpdate(key); this.pattern = pattern; this.roptions = options; if (cachedAndUpdate == null) { RegexTree t = RegexParser.Parse(pattern, this.roptions); this.capnames = t._capnames; this.capslist = t._capslist; this.code = RegexWriter.Write(t); this.caps = this.code._caps; this.capsize = this.code._capsize; this.InitializeReferences(); t = null; if (useCache) { cachedAndUpdate = this.CacheCode(key); } } else { this.caps = cachedAndUpdate._caps; this.capnames = cachedAndUpdate._capnames; this.capslist = cachedAndUpdate._capslist; this.capsize = cachedAndUpdate._capsize; this.code = cachedAndUpdate._code; this.factory = cachedAndUpdate._factory; this.runnerref = cachedAndUpdate._runnerref; this.replref = cachedAndUpdate._replref; this.refsInitialized = true; } if (this.UseOptionC() && (this.factory == null)) { this.factory = this.Compile(this.code, this.roptions); if (useCache && (cachedAndUpdate != null)) { cachedAndUpdate.AddCompiled(this.factory); } this.code = null; } }
private Regex(String pattern, RegexOptions options, bool useCache) { RegexTree tree; CachedCodeEntry cached = null; string cultureKey = null; if (pattern == null) throw new ArgumentNullException("pattern"); if (options < RegexOptions.None || ( ((int) options) >> MaxOptionShift) != 0) throw new ArgumentOutOfRangeException("options"); if ((options & RegexOptions.ECMAScript) != 0 && (options & ~(RegexOptions.ECMAScript | RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.Compiled | RegexOptions.CultureInvariant #if DBG | RegexOptions.Debug #endif )) != 0) throw new ArgumentOutOfRangeException("options"); // Try to look up this regex in the cache. We do this regardless of whether useCache is true since there's // really no reason not to. if ((options & RegexOptions.CultureInvariant) != 0) cultureKey = CultureInfo.InvariantCulture.ThreeLetterWindowsLanguageName; else cultureKey = CultureInfo.CurrentCulture.ThreeLetterWindowsLanguageName; String key = ((int) options).ToString(NumberFormatInfo.InvariantInfo) + ":" + cultureKey + ":" + pattern; cached = LookupCachedAndUpdate(key); this.pattern = pattern; this.roptions = options; if (cached == null) { // Parse the input tree = RegexParser.Parse(pattern, roptions); // Extract the relevant information capnames = tree._capnames; capslist = tree._capslist; code = RegexWriter.Write(tree); caps = code._caps; capsize = code._capsize; InitializeReferences(); tree = null; if (useCache) cached = CacheCode(key); } else { caps = cached._caps; capnames = cached._capnames; capslist = cached._capslist; capsize = cached._capsize; code = cached._code; factory = cached._factory; runnerref = cached._runnerref; replref = cached._replref; refsInitialized = true; } // if the compile option is set, then compile the code if it's not already if (UseOptionC() && factory == null) { factory = Compile(code, roptions); if (useCache && cached != null) cached.AddCompiled(factory); code = null; } }
protected void InitializeReferences() { if (this.refsInitialized) { throw new NotSupportedException(SR.GetString("OnlyAllowedOnce")); } this.refsInitialized = true; this.runnerref = new ExclusiveReference(); this.replref = new SharedReference(); }
internal CachedCodeEntry(CachedCodeEntryKey key, Dictionary <String, Int32> capnames, String[] capslist, RegexCode code, Dictionary <Int32, Int32> caps, int capsize, ExclusiveReference runner, SharedReference repl) { _key = key; _capnames = capnames; _capslist = capslist; _code = code; _caps = caps; _capsize = capsize; _runnerref = runner; _replref = repl; }
/// <devdoc> /// </devdoc> protected void InitializeReferences() { if (refsInitialized) throw new NotSupportedException(SR.GetString(SR.OnlyAllowedOnce)); refsInitialized = true; runnerref = new ExclusiveReference(); replref = new SharedReference(); }
private Regex(String pattern, RegexOptions options, TimeSpan matchTimeout, bool useCache) { RegexTree tree; CachedCodeEntry cached = null; string cultureKey = null; if (pattern == null) { throw new ArgumentNullException("pattern"); } if (options < RegexOptions.None || (((int)options) >> MaxOptionShift) != 0) { throw new ArgumentOutOfRangeException("options"); } if ((options & RegexOptions.ECMAScript) != 0 && (options & ~(RegexOptions.ECMAScript | RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.CultureInvariant #if DEBUG | RegexOptions.Debug #endif )) != 0) { throw new ArgumentOutOfRangeException("options"); } ValidateMatchTimeout(matchTimeout); // Try to look up this regex in the cache. We do this regardless of whether useCache is true since there's // really no reason not to. if ((options & RegexOptions.CultureInvariant) != 0) { cultureKey = CultureInfo.InvariantCulture.ToString(); // "English (United States)" } else { cultureKey = CultureInfo.CurrentCulture.ToString(); } var key = new CachedCodeEntryKey(options, cultureKey, pattern); cached = LookupCachedAndUpdate(key); _pattern = pattern; _roptions = options; _internalMatchTimeout = matchTimeout; if (cached == null) { // Parse the input tree = RegexParser.Parse(pattern, _roptions); // Extract the relevant information _capnames = tree._capnames; _capslist = tree._capslist; _code = RegexWriter.Write(tree); _caps = _code._caps; _capsize = _code._capsize; InitializeReferences(); tree = null; if (useCache) { cached = CacheCode(key); } } else { _caps = cached._caps; _capnames = cached._capnames; _capslist = cached._capslist; _capsize = cached._capsize; _code = cached._code; _runnerref = cached._runnerref; _replref = cached._replref; _refsInitialized = true; } }
private Regex(String pattern, RegexOptions options, bool useCache) { RegexTree tree; CachedCodeEntry cached = null; string cultureKey = null; if (pattern == null) { throw new ArgumentNullException("pattern"); } if (options < RegexOptions.None || (((int)options) >> MaxOptionShift) != 0) { throw new ArgumentOutOfRangeException("options"); } if ((options & RegexOptions.ECMAScript) != 0 && (options & ~(RegexOptions.ECMAScript | RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.Compiled | RegexOptions.CultureInvariant #if DBG | RegexOptions.Debug #endif )) != 0) { throw new ArgumentOutOfRangeException("options"); } // Try to look up this regex in the cache. We do this regardless of whether useCache is true since there's // really no reason not to. if ((options & RegexOptions.CultureInvariant) != 0) { cultureKey = CultureInfo.InvariantCulture.ThreeLetterWindowsLanguageName; } else { cultureKey = CultureInfo.CurrentCulture.ThreeLetterWindowsLanguageName; } String key = ((int)options).ToString(NumberFormatInfo.InvariantInfo) + ":" + cultureKey + ":" + pattern; cached = LookupCachedAndUpdate(key); this.pattern = pattern; this.roptions = options; if (cached == null) { // Parse the input tree = RegexParser.Parse(pattern, roptions); // Extract the relevant information capnames = tree._capnames; capslist = tree._capslist; code = RegexWriter.Write(tree); caps = code._caps; capsize = code._capsize; InitializeReferences(); tree = null; if (useCache) { cached = CacheCode(key); } } else { caps = cached._caps; capnames = cached._capnames; capslist = cached._capslist; capsize = cached._capsize; code = cached._code; factory = cached._factory; runnerref = cached._runnerref; replref = cached._replref; refsInitialized = true; } // if the compile option is set, then compile the code if it's not already if (UseOptionC() && factory == null) { factory = Compile(code, roptions); if (useCache && cached != null) { cached.AddCompiled(factory); } code = null; } }
// Returns a Regex object corresponding to the given pattern, compiled with // the specified options. /// <include file='doc\Regex.uex' path='docs/doc[@for="Regex.Regex1"]/*' /> /// <devdoc> /// <para> /// Creates and compiles a regular expression object for the /// specified regular expression /// with options that modify the pattern. /// </para> /// </devdoc> public Regex(String pattern, RegexOptions options) { RegexTree tree; CachedCodeEntry cached; if (pattern == null) throw new ArgumentNullException("pattern"); if (options < RegexOptions.None || ( ((int) options) >> MaxOptionShift) != 0) throw new ArgumentOutOfRangeException("options"); if ((options & RegexOptions.ECMAScript) != 0 && (options & ~(RegexOptions.ECMAScript | RegexOptions.IgnoreCase | RegexOptions.Multiline | RegexOptions.Compiled #if DBG | RegexOptions.Debug #endif )) != 0) throw new ArgumentOutOfRangeException("options"); String key = ((int) options).ToString(NumberFormatInfo.InvariantInfo) + ":" + pattern; cached = LookupCached(key); this.pattern = pattern; this.roptions = options; if (cached == null) { // Parse the input tree = RegexParser.Parse(pattern, roptions); // Extract the relevant information capnames = tree._capnames; capslist = tree._capslist; code = RegexWriter.Write(tree); caps = code._caps; capsize = code._capsize; InitializeReferences(); tree = null; cachedentry= CacheCode(key); } else { caps = cached._caps; capnames = cached._capnames; capslist = cached._capslist; capsize = cached._capsize; code = cached._code; factory = cached._factory; runnerref = cached._runnerref; replref = cached._replref; refsInitialized = true; cachedentry = cached; } // if the compile option is set, then compile the code if it's not already if (UseOptionC() && factory == null) { factory = Compile(code, roptions); cachedentry.AddCompiled(factory); code = null; } }
internal CachedCodeEntry(RegexOptions options, Hashtable capnames, String[] capslist, RegexCode code, Hashtable caps, int capsize, ExclusiveReference runner, SharedReference repl) { _options = options; _capnames = capnames; _capslist = capslist; _code = code; _caps = caps; _capsize = capsize; _runnerref = runner; _replref = repl; _references = 1; }