public State(Interpreter ii, Source source, ChannelStack output) { _finished = false; _preBlueprints = new Stack<Blueprint>(); _postBlueprints = new Stack<Blueprint>(); _interpreter = ii; _output = output; _reader = new SourceReader(source); _sharesOutput = (output == _interpreter._output && _interpreter.PrevState != null) || (_interpreter._stateStack.Any() && output == _interpreter._stateStack.Peek().Output); }
private State(Interpreter ii, Source derivedSource, IEnumerable<Token<TokenType>> tokens, ChannelStack output) { _finished = false; _preBlueprints = new Stack<Blueprint>(); _postBlueprints = new Stack<Blueprint>(); _interpreter = ii; _output = output; _reader = new SourceReader(new Source(derivedSource.Name, derivedSource.Type, tokens, derivedSource.Code)); _sharesOutput = (output == _interpreter._output && _interpreter.PrevState != null) || (_interpreter._stateStack.Any() && output == _interpreter._stateStack.Peek().Output); }
private static bool DoMath(Interpreter interpreter, SourceReader reader, State state) { reader.Read(TokenType.LeftParen); bool isStatement = reader.Take(TokenType.At); var tokens = reader.ReadToScopeClose(TokenType.LeftParen, TokenType.RightParen, BracketPairs.All); interpreter.PushState(State.CreateDerivedDistinct(reader.Source, tokens, interpreter)); state.AddPreBlueprint(new FunctionBlueprint(interpreter, _ => { var v = Parser.Calculate(_, _.PopResultString()); if (!isStatement) { _.Print(_.FormatNumber(v)); } return false; })); return true; }
public static State CreateDerivedDistinct(Source derivedSource, IEnumerable<Token<TokenType>> tokens, Interpreter interpreter, ChannelStack output = null) { return new State(interpreter, derivedSource, tokens, output ?? new ChannelStack(interpreter.CharLimit)); }
public static State CreateDerivedShared(Source derivedSource, IEnumerable<Token<TokenType>> tokens, Interpreter interpreter) { return new State(interpreter, derivedSource, tokens, interpreter._output); }
public static State Create(Source source, Interpreter interpreter) { return new State(interpreter, source, interpreter._output); }
public bool Iterate(Interpreter ii, RepeaterBlueprint bp) { if (Finished) { ii.PopRepeater(); return false; } // Queue the next iteration on the current state ii.CurrentState.AddPreBlueprint(bp); // Push separator if applicable if (!IsLast && _attribs.Separator != null && _attribs.Separator.Any()) { var sepState = Interpreter.State.CreateDerivedDistinct( ii.CurrentState.Reader.Source, _attribs.Separator, ii, ii.CurrentState.Output); // Make sure that the repeater is not available to the separator pattern sepState.AddPreBlueprint(new RepeaterStackBlueprint(ii, this, RepeaterStackAction.Pop)); sepState.AddPostBlueprint(new RepeaterStackBlueprint(ii, this, RepeaterStackAction.Push)); ii.PushState(sepState); } // Push postfix if applicable if (_attribs.After != null && _attribs.After.Any()) { ii.PushState(Interpreter.State.CreateDerivedDistinct( ii.CurrentState.Reader.Source, _attribs.After, ii, ii.CurrentState.Output)); } // Push next item var itemState = Interpreter.State.CreateDerivedDistinct(ii.CurrentState.Reader.Source, _items[_attribs.Sync != null ? _attribs.Sync.NextItem(_items.Length) : ii.RNG.Next(_items.Length)], ii, ii.CurrentState.Output); // Add a blueprint that iterates the repeater just before reading the item. This makes sure that tags like [first] can run before this happens. itemState.AddPostBlueprint(new FunctionBlueprint(ii, _ => { Next(); return false; })); ii.PushState(itemState); // Push prefix if applicable if (_attribs.Before != null && _attribs.Before.Any()) { ii.PushState(Interpreter.State.CreateDerivedDistinct( ii.CurrentState.Reader.Source, _attribs.Before, ii, ii.CurrentState.Output)); } return true; }
private static bool DoQuery(Interpreter interpreter, SourceReader reader, State state) { var first = reader.ReadToken(); reader.SkipSpace(); var namesub = reader.Read(TokenType.Text, "list name").Split(new[] { '.' }, 2).ToArray(); var q = new Query(namesub[0].Value.Trim(), namesub.Length == 2 ? namesub[1].Value : "", "", reader.Take(TokenType.Dollar), null, null); Token<TokenType> token = null; // Class filter list. Not initialized unless class filters actually exist. List<Tuple<bool, string>> cfList = null; while (true) { if (reader.Take(TokenType.Hyphen)) { // Initialize the filter list. (cfList ?? (cfList = new List<Tuple<bool, string>>())).Clear(); do { bool notin = reader.Take(TokenType.Exclamation); if (notin && q.Exclusive) throw new ManhoodException(reader.Source, reader.PrevToken, "Cannot use the '!' modifier on exclusive class filters."); cfList.Add(Tuple.Create(!notin, reader.Read(TokenType.Text, "class identifier").Value.Trim())); } while (reader.Take(TokenType.Pipe)); q.ClassFilters.Add(cfList.ToArray()); } else if (reader.Take(TokenType.Question)) { token = reader.Read(TokenType.Regex, "regex"); q.RegexFilters.Add(Tuple.Create(true, Util.ParseRegex(token.Value))); } else if (reader.Take(TokenType.Without)) { token = reader.Read(TokenType.Regex, "regex"); q.RegexFilters.Add(Tuple.Create(false, Util.ParseRegex(token.Value))); } else if (reader.Take(TokenType.DoubleColon)) { token = reader.Read(TokenType.Text, "carrier name"); q.Carrier = token.Value.Trim(); if (!reader.Take(TokenType.RightAngle)) { throw new ManhoodException(reader.Source, token, "Expected '>' after carrier. (The carrier should be your last query argument!)"); } break; } else if (reader.Take(TokenType.RightAngle)) { break; } else if (!reader.SkipSpace()) { var t = !reader.End ? reader.ReadToken() : null; throw new ManhoodException(reader.Source, t, t == null ? "Unexpected end-of-file in query." : "Unexpected token '" + t.Value + "' in query."); } } interpreter.Print(interpreter.Engine.Vocabulary.Query(interpreter.RNG, q)); return false; }
private static bool DoBlock(Interpreter interpreter, SourceReader reader, State state) { var items = reader.ReadMultiItemScope(TokenType.LeftCurly, TokenType.RightCurly, TokenType.Pipe, BracketPairs.All).ToArray(); var attribs = interpreter.NextAttribs; interpreter._blockAttribs = new BlockAttribs(); if (!items.Any() || !interpreter.TakeChance()) return false; var rep = new Repeater(items, attribs); interpreter.PushRepeater(rep); state.AddPreBlueprint(new RepeaterBlueprint(interpreter, rep)); return true; }
private static bool DoSubDefinition(Token<TokenType> first, Interpreter interpreter, SourceReader reader, State state) { bool meta = reader.Take(TokenType.Question); reader.Read(TokenType.LeftSquare); var parameters = new List<Tuple<string, TagArgType>>(); var tName = reader.Read(TokenType.Text, "subroutine name"); if (!Util.ValidateName(tName.Value)) throw new ManhoodException(reader.Source, tName, "Invalid subroutine name: '" + tName.Value + "'"); if (!reader.Take(TokenType.Colon)) { reader.Read(TokenType.RightSquare); } else { while (true) { bool isTokens = reader.Take(TokenType.At); parameters.Add(Tuple.Create(reader.Read(TokenType.Text, "parameter name").Value, isTokens ? TagArgType.Tokens : TagArgType.Result)); if (reader.Take(TokenType.RightSquare, false)) break; reader.Read(TokenType.Semicolon); } } reader.SkipSpace(); reader.Read(TokenType.Colon); var body = reader.ReadToScopeClose(TokenType.LeftSquare, TokenType.RightSquare, BracketPairs.All).ToArray(); if (meta) { interpreter.PushState(State.CreateDerivedDistinct(reader.Source, body, interpreter)); state.AddPreBlueprint(new FunctionBlueprint(interpreter, _ => { _.Engine.Subroutines.Define(tName.Value, Subroutine.FromString(tName.Value, _.PopResultString(), parameters.ToArray())); return false; })); } else { interpreter.Engine.Subroutines.Define(tName.Value, Subroutine.FromTokens(tName.Value, reader.Source, body, parameters.ToArray())); } return meta; }
private static bool DoReplacer(Token<TokenType> name, Interpreter interpreter, SourceReader reader, State state) { reader.Read(TokenType.Colon); var args = reader.ReadItemsToClosureTrimmed(TokenType.LeftSquare, TokenType.RightSquare, TokenType.Semicolon, BracketPairs.All).ToArray(); if (args.Length != 2) throw new ManhoodException(reader.Source, name, "Replacer expected 2 arguments, but got " + args.Length + "."); state.AddPreBlueprint(new ReplacerBlueprint(interpreter, Util.ParseRegex(name.Value), args[1])); interpreter.PushState(State.CreateDerivedDistinct(reader.Source, args[0], interpreter)); return true; }
private static bool DoSubCall(Token<TokenType> first, Interpreter interpreter, SourceReader reader, State state) { var name = reader.ReadToken(); if (!Util.ValidateName(name.Value)) throw new ManhoodException(reader.Source, name, "Invalid subroutine name '" + name.Value + "'"); bool none = false; if (!reader.Take(TokenType.Colon)) { if (!reader.Take(TokenType.RightSquare)) throw new ManhoodException(reader.Source, name, "Expected ':' or ']' after subroutine name."); none = true; } IEnumerable<Token<TokenType>>[] args = null; Subroutine sub = null; if (none) { if((sub = interpreter.Engine.Subroutines.Get(name.Value, 0)) == null) throw new ManhoodException(reader.Source, name, "No subroutine was found with the name '" + name.Value + "' and 0 parameters."); } else { args = reader.ReadItemsToClosureTrimmed(TokenType.LeftSquare, TokenType.RightSquare, TokenType.Semicolon, BracketPairs.All).ToArray(); if((sub = interpreter.Engine.Subroutines.Get(name.Value, args.Length)) == null) throw new ManhoodException(reader.Source, name, "No subroutine was found with the name '" + name.Value + "' and " + args.Length + " parameter" + (args.Length != 1 ? "s" : "") + "."); } state.AddPreBlueprint(new SubCallBlueprint(interpreter, reader.Source, sub, args)); return true; }
private static bool DoTag(Interpreter interpreter, SourceReader reader, State state) { reader.Read(TokenType.LeftSquare); var name = reader.ReadToken(); // Check if metapattern if (name.Identifier == TokenType.Question) { state.AddPreBlueprint(new MetapatternBlueprint(interpreter)); interpreter.PushState(State.CreateDerivedDistinct(reader.Source, reader.ReadToScopeClose(TokenType.LeftSquare, TokenType.RightSquare, BracketPairs.All), interpreter)); return true; } // Check if replacer if (name.Identifier == TokenType.Regex) { return DoReplacer(name, interpreter, reader, state); } if (name.Identifier == TokenType.Dollar) { return reader.IsNext(TokenType.Text) ? DoSubCall(name, interpreter, reader, state) : DoSubDefinition(name, interpreter, reader, state); } if (!Util.ValidateName(name.Value.Trim())) throw new ManhoodException(reader.Source, name, "Invalid tag name '" + name.Value + "'"); bool none = false; if (!reader.Take(TokenType.Colon)) { if (!reader.Take(TokenType.RightSquare)) throw new ManhoodException(reader.Source, name, "Expected ':' or ']' after tag name."); none = true; } if (none) { state.AddPreBlueprint(new TagBlueprint(interpreter, reader.Source, name)); } else { var items = reader.ReadItemsToClosureTrimmed(TokenType.LeftSquare, TokenType.RightSquare, TokenType.Semicolon, BracketPairs.All).ToArray(); state.AddPreBlueprint(new TagBlueprint(interpreter, reader.Source, name, items)); } return true; }
private static bool DoEscape(Interpreter interpreter, SourceReader reader, State state) { interpreter.Print(Util.Unescape(reader.ReadToken().Value, interpreter.RNG)); return false; }
private static bool DoConstant(Interpreter interpreter, SourceReader reader, State state) { interpreter.Print(Util.UnescapeConstantLiteral(reader.ReadToken().Value)); return false; }
private static bool DoText(Interpreter interpreter, SourceReader reader, State state) { interpreter.Print(reader.ReadToken().Value); return false; }