public override bool Walk(AssignmentStatement node) { foreach (var lhs in node.Left) { DefineExpr(lhs); } node.Right.Walk(this); return false; }
// AssignmentStatement public override bool Walk(AssignmentStatement node) { foreach (Expression e in node.Left) { e.Walk(_define); } return(true); }
// AssignStmt public override bool Walk(AssignmentStatement node) { node.Right.Walk(this); foreach (Expression e in node.Left) { e.Walk(_fdef); } return(false); }
public override bool Walk(AssignmentStatement node) { CanComplete = true; CommitByDefault = true; if (node.Right != null) { node.Right.Walk(this); } return false; }
private Statement FinishAssignments(Expression right) { List<Expression> left = null; List<string> assignWhiteSpace = MakeWhiteSpaceList(); Expression singleLeft = null; while (MaybeEat(TokenKind.Assign)) { if (assignWhiteSpace != null) { assignWhiteSpace.Add(_tokenWhiteSpace); } string assignError = right.CheckAssign(); if (assignError != null) { ReportSyntaxError(right.StartIndex, right.EndIndex, assignError, ErrorCodes.SyntaxError | ErrorCodes.NoCaret); } if (singleLeft == null) { singleLeft = right; } else { if (left == null) { left = new List<Expression>(); left.Add(singleLeft); } left.Add(right); } if (_langVersion >= PythonLanguageVersion.V25 && PeekToken(TokenKind.KeywordYield)) { if (!AllowYieldSyntax && AllowAsyncAwaitSyntax) { ReportSyntaxError("'yield' inside async function"); } Eat(TokenKind.KeywordYield); right = ParseYieldExpression(); } else { right = ParseTestListAsExpr(); } } AssignmentStatement assign; if (left != null) { Debug.Assert(left.Count > 0); assign = new AssignmentStatement(left.ToArray(), right); assign.SetLoc(left[0].StartIndex, right.EndIndex); } else { Debug.Assert(singleLeft != null); assign = new AssignmentStatement(new[] { singleLeft }, right); assign.SetLoc(singleLeft.StartIndex, right.EndIndex); } if (assignWhiteSpace != null) { AddListWhiteSpace(assign, assignWhiteSpace.ToArray()); } return assign; }
// AssignmentStatement public override bool Walk(AssignmentStatement node) { foreach (Expression e in node.Left) { e.Walk(_define); } return true; }
public override bool Walk(AssignmentStatement node) { UpdateLineInfo(node); return base.Walk(node); }
public override bool Walk(AssignmentStatement node) { UpdateChildRanges(node); foreach (var nameExpr in node.Left.OfType<NameExpression>()) { _scope.AddVariable(nameExpr.Name, CreateVariableInDeclaredScope(nameExpr)); } return base.Walk(node); }
public override bool Walk(AssignmentStatement node) { var m = _scope.Peek(); if (m != null) { var value = GetValueFromExpression(node.Right, m); foreach (var ne in node.Left.OfType<NameExpression>()) { m[ne.Name] = value; } } return base.Walk(node); }
public override void PostWalk(AssignmentStatement node) { }
// AssignStmt public override bool Walk(AssignmentStatement node) { node.Right.Walk(this); foreach (Expression e in node.Left) { e.Walk(_fdef); } return false; }
public AssignmentScopeNode(PythonAst ast, AssignmentStatement assign, NameExpression name) { _assign = assign; _name = name; _ast = ast; }
public override void PostWalk(AssignmentStatement node) { }
public override void PostWalk(AssignmentStatement node) { PostWalkWorker(node); }
// AssignmentStatement public override bool Walk(AssignmentStatement node) { return ShouldWalkWorker(node); }