private void WalkTuple(TupleExpression tuple) { foreach (Expression innerNode in tuple.Items) { NameExpression name = innerNode as NameExpression; if (name != null) { _binder.DefineName(name.Name); name.AddVariableReference(_binder._globalScope, _binder._bindRefs, _binder.Reference(name.Name)); } else if (innerNode is TupleExpression) { WalkTuple((TupleExpression)innerNode); } } }
public SublistParameter(int position, TupleExpression tuple) : base("." + position, ParameterKind.Normal) { _tuple = tuple; }
public override bool Walk(TupleExpression node) { return WalkCollection(node, node.Items); }
private Expression MakeTupleOrExpr(List<Expression> l, List<string> itemWhiteSpace, bool trailingComma, bool expandable, bool parenFreeTuple = false) { if (l.Count == 1 && !trailingComma) return l[0]; Expression[] exprs = l.ToArray(); TupleExpression te = new TupleExpression(expandable && !trailingComma, exprs); if (_verbatim) { if (itemWhiteSpace != null) { AddListWhiteSpace(te, itemWhiteSpace.ToArray()); } if (parenFreeTuple) { AddIsAltForm(te); } } if (exprs.Length > 0) { te.SetLoc(exprs[0].StartIndex, exprs[exprs.Length - 1].EndIndex); } return te; }
public ExtractMethodResult GetExtractionResult(ExtractMethodRequest info) { bool isStaticMethod = false, isClassMethod = false; var parameters = new List<Parameter>(); string selfParam = null; if (info.TargetScope is ClassDefinition) { var fromScope = _scopes[_scopes.Length - 1] as FunctionDefinition; Debug.Assert(fromScope != null); // we don't allow extracting from classes, so we have to be coming from a function if (fromScope != null) { if (fromScope.Decorators != null) { foreach (var decorator in fromScope.Decorators.Decorators) { NameExpression name = decorator as NameExpression; if (name != null) { if (name.Name == "staticmethod") { isStaticMethod = true; } else if (name.Name == "classmethod") { isClassMethod = true; } } } } if (!isStaticMethod) { if (fromScope.Parameters.Count > 0) { selfParam = fromScope.Parameters[0].Name; parameters.Add(new Parameter(selfParam, ParameterKind.Normal)); } } } } foreach (var param in info.Parameters) { var newParam = new Parameter(param, ParameterKind.Normal); if (parameters.Count > 0) { newParam.AddPreceedingWhiteSpace(_ast, " "); } parameters.Add(newParam); } // include any non-closed over parameters as well... foreach (var input in _inputVars) { var variableScope = input.Scope; var parentScope = info.TargetScope; // are these variables a child of the target scope so we can close over them? while (parentScope != null && parentScope != variableScope) { parentScope = parentScope.Parent; } if (parentScope == null && input.Name != selfParam) { // we can either close over or pass these in as parameters, add them to the list var newParam = new Parameter(input.Name, ParameterKind.Normal); if (parameters.Count > 0) { newParam.AddPreceedingWhiteSpace(_ast, " "); } parameters.Add(newParam); } } var body = _target.GetBody(_ast); var isCoroutine = IsCoroutine(body); // reset leading indentation to single newline + indentation, this // strips out any proceeding comments which we don't extract var leading = _newline + body.GetIndentationLevel(_ast); body.SetLeadingWhiteSpace(_ast, leading); if (_outputVars.Count > 0) { // need to add a return statement Expression retValue; Expression[] names = new Expression[_outputVars.Count]; int outputIndex = 0; foreach (var name in _outputVars) { var nameExpr = new NameExpression(name.Name); nameExpr.AddPreceedingWhiteSpace(_ast, " "); names[outputIndex++] = nameExpr; } var tuple = new TupleExpression(false, names); tuple.RoundTripHasNoParenthesis(_ast); retValue = tuple; var retStmt = new ReturnStatement(retValue); retStmt.SetLeadingWhiteSpace(_ast, leading); body = new SuiteStatement( new Statement[] { body, retStmt } ); } else { // we need a SuiteStatement to give us our colon body = new SuiteStatement(new Statement[] { body }); } DecoratorStatement decorators = null; if (isStaticMethod) { decorators = new DecoratorStatement(new[] { new NameExpression("staticmethod") }); } else if (isClassMethod) { decorators = new DecoratorStatement(new[] { new NameExpression("classmethod") }); } var res = new FunctionDefinition(new NameExpression(info.Name), parameters.ToArray(), body, decorators); res.IsCoroutine = isCoroutine; StringBuilder newCall = new StringBuilder(); newCall.Append(_target.IndentationLevel); var method = res.ToCodeString(_ast); // fix up indentation... for (int curScope = 0; curScope < _scopes.Length; curScope++) { if (_scopes[curScope] == info.TargetScope) { // this is our target indentation level. var indentationLevel = _scopes[curScope].Body.GetIndentationLevel(_ast); var lines = method.Split(new[] { "\r\n", "\r", "\n" }, StringSplitOptions.None); int minWhiteSpace = Int32.MaxValue; for (int curLine = decorators == null ? 1 : 2; curLine < lines.Length; curLine++) { var line = lines[curLine]; for (int i = 0; i < line.Length; i++) { if (!Char.IsWhiteSpace(line[i])) { minWhiteSpace = Math.Min(minWhiteSpace, i); break; } } } StringBuilder newLines = new StringBuilder(); newLines.Append(indentationLevel); newLines.Append(lines[0]); if (decorators != null) { newLines.Append(_newline); newLines.Append(indentationLevel); newLines.Append(lines[1]); } // don't include a bunch of blank lines... int endLine = lines.Length - 1; for (; endLine >= 0 && String.IsNullOrWhiteSpace(lines[endLine]); endLine--) { } newLines.Append(_newline); for (int curLine = decorators == null ? 1 : 2; curLine <= endLine; curLine++) { var line = lines[curLine]; newLines.Append(indentationLevel); if (_insertTabs) { newLines.Append('\t'); } else { newLines.Append(' ', _indentSize); } if (line.Length > minWhiteSpace) { newLines.Append(line, minWhiteSpace, line.Length - minWhiteSpace); } newLines.Append(_newline); } newLines.Append(_newline); method = newLines.ToString(); break; } } string comma; if (_outputVars.Count > 0) { comma = ""; foreach (var outputVar in _outputVars) { newCall.Append(comma); newCall.Append(outputVar.Name); comma = ", "; } newCall.Append(" = "); } else if (_target.ContainsReturn) { newCall.Append("return "); } if (isCoroutine) { newCall.Append("await "); } if (info.TargetScope is ClassDefinition) { var fromScope = _scopes[_scopes.Length - 1] as FunctionDefinition; Debug.Assert(fromScope != null); // we don't allow extracting from classes, so we have to be coming from a function if (isStaticMethod) { newCall.Append(info.TargetScope.Name); newCall.Append('.'); } else if (fromScope != null && fromScope.Parameters.Count > 0) { newCall.Append(fromScope.Parameters[0].Name); newCall.Append('.'); } } newCall.Append(info.Name); newCall.Append('('); comma = ""; foreach (var param in parameters) { if (param.Name != selfParam) { newCall.Append(comma); newCall.Append(param.Name); comma = ", "; } } newCall.Append(')'); return new ExtractMethodResult( method, newCall.ToString() ); }
public override bool Walk(TupleExpression node) { return true; }
public override bool Walk(TupleExpression node) { return UpdateLineInfo(node, true); }
public override void PostWalk(TupleExpression node) { PostWalkWorker(node); }
// TupleExpression public override bool Walk(TupleExpression node) { return ShouldWalkWorker(node); }
public override bool Walk(TupleExpression node) { AddTagIfNecessary(node); return base.Walk(node); }