using System; using System.Collections.Generic; using System.Text; using System.CodeDom; using System.Reflection; using System.Globalization; using System.Workflow.ComponentModel; using System.Workflow.ComponentModel.Compiler; using System.Workflow.Activities.Common; namespace System.Workflow.Activities.Rules { internal abstract class RuleCodeDomStatement { internal abstract bool Validate(RuleValidation validation); internal abstract void Execute(RuleExecution execution); internal abstract void AnalyzeUsage(RuleAnalysis analysis); internal abstract void Decompile(StringBuilder decompilation); internal abstract bool Match(CodeStatement expression); internal abstract CodeStatement Clone(); } internal class ExpressionStatement : RuleCodeDomStatement { private CodeExpressionStatement exprStatement; private ExpressionStatement(CodeExpressionStatement exprStatement) { this.exprStatement = exprStatement; } internal static RuleCodeDomStatement Create(CodeStatement statement) { return new ExpressionStatement((CodeExpressionStatement)statement); } internal override bool Validate(RuleValidation validation) { bool success = false; if (exprStatement.Expression == null) { ValidationError error = new ValidationError(Messages.NullInvokeStatementExpression, ErrorNumbers.Error_ParameterNotSet); error.UserData[RuleUserDataKeys.ErrorObject] = exprStatement; validation.Errors.Add(error); } else if (exprStatement.Expression is CodeMethodInvokeExpression) { RuleExpressionInfo exprInfo = RuleExpressionWalker.Validate(validation, exprStatement.Expression, false); success = (exprInfo != null); } else { ValidationError error = new ValidationError(Messages.InvokeNotHandled, ErrorNumbers.Error_CodeExpressionNotHandled); error.UserData[RuleUserDataKeys.ErrorObject] = exprStatement; validation.Errors.Add(error); } return success; } internal override void AnalyzeUsage(RuleAnalysis analysis) { RuleExpressionWalker.AnalyzeUsage(analysis, exprStatement.Expression, false, false, null); } internal override void Execute(RuleExecution execution) { RuleExpressionWalker.Evaluate(execution, exprStatement.Expression); } internal override void Decompile(StringBuilder decompilation) { if (exprStatement.Expression == null) { RuleEvaluationException exception = new RuleEvaluationException(Messages.InvokeStatementNull); exception.Data[RuleUserDataKeys.ErrorObject] = exprStatement; throw exception; } RuleExpressionWalker.Decompile(decompilation, exprStatement.Expression, null); } internal override bool Match(CodeStatement comperand) { CodeExpressionStatement comperandStatement = comperand as CodeExpressionStatement; return ((comperandStatement != null) && RuleExpressionWalker.Match(exprStatement.Expression, comperandStatement.Expression)); } internal override CodeStatement Clone() { CodeExpressionStatement newStatement = new CodeExpressionStatement(); newStatement.Expression = RuleExpressionWalker.Clone(exprStatement.Expression); return newStatement; } } internal class AssignmentStatement : RuleCodeDomStatement { private CodeAssignStatement assignStatement; private AssignmentStatement(CodeAssignStatement assignStatement) { this.assignStatement = assignStatement; } internal static RuleCodeDomStatement Create(CodeStatement statement) { return new AssignmentStatement((CodeAssignStatement)statement); } internal override bool Validate(RuleValidation validation) { bool success = false; string message; RuleExpressionInfo lhsExprInfo = null; if (assignStatement.Left == null) { ValidationError error = new ValidationError(Messages.NullAssignLeft, ErrorNumbers.Error_LeftOperandMissing); error.UserData[RuleUserDataKeys.ErrorObject] = assignStatement; validation.Errors.Add(error); } else { lhsExprInfo = validation.ExpressionInfo(assignStatement.Left); if (lhsExprInfo == null) lhsExprInfo = RuleExpressionWalker.Validate(validation, assignStatement.Left, true); } RuleExpressionInfo rhsExprInfo = null; if (assignStatement.Right == null) { ValidationError error = new ValidationError(Messages.NullAssignRight, ErrorNumbers.Error_RightOperandMissing); error.UserData[RuleUserDataKeys.ErrorObject] = assignStatement; validation.Errors.Add(error); } else { rhsExprInfo = RuleExpressionWalker.Validate(validation, assignStatement.Right, false); } if (lhsExprInfo != null && rhsExprInfo != null) { Type expressionType = rhsExprInfo.ExpressionType; Type assignmentType = lhsExprInfo.ExpressionType; if (assignmentType == typeof(NullLiteral)) { // Can't assign to a null literal. ValidationError error = new ValidationError(Messages.NullAssignLeft, ErrorNumbers.Error_LeftOperandInvalidType); error.UserData[RuleUserDataKeys.ErrorObject] = assignStatement; validation.Errors.Add(error); success = false; } else if (assignmentType == expressionType) { // Easy case, they're both the same type. success = true; } else { // The types aren't the same, but it still might be a legal assignment. ValidationError error = null; if (!RuleValidation.TypesAreAssignable(expressionType, assignmentType, assignStatement.Right, out error)) { if (error == null) { message = string.Format(CultureInfo.CurrentCulture, Messages.AssignNotAllowed, RuleDecompiler.DecompileType(expressionType), RuleDecompiler.DecompileType(assignmentType)); error = new ValidationError(message, ErrorNumbers.Error_OperandTypesIncompatible); } error.UserData[RuleUserDataKeys.ErrorObject] = assignStatement; validation.Errors.Add(error); } else { success = true; } } } return success; } internal override void AnalyzeUsage(RuleAnalysis analysis) { // The left side of the assignment is modified. RuleExpressionWalker.AnalyzeUsage(analysis, assignStatement.Left, false, true, null); // The right side of the assignment is read. RuleExpressionWalker.AnalyzeUsage(analysis, assignStatement.Right, true, false, null); } internal override void Execute(RuleExecution execution) { Type leftType = execution.Validation.ExpressionInfo(assignStatement.Left).ExpressionType; Type rightType = execution.Validation.ExpressionInfo(assignStatement.Right).ExpressionType; RuleExpressionResult leftResult = RuleExpressionWalker.Evaluate(execution, assignStatement.Left); RuleExpressionResult rightResult = RuleExpressionWalker.Evaluate(execution, assignStatement.Right); leftResult.Value = Executor.AdjustType(rightType, rightResult.Value, leftType); } internal override void Decompile(StringBuilder decompilation) { if (assignStatement.Right == null) { RuleEvaluationException exception = new RuleEvaluationException(Messages.AssignRightNull); exception.Data[RuleUserDataKeys.ErrorObject] = assignStatement; throw exception; } if (assignStatement.Left == null) { RuleEvaluationException exception = new RuleEvaluationException(Messages.AssignLeftNull); exception.Data[RuleUserDataKeys.ErrorObject] = assignStatement; throw exception; } RuleExpressionWalker.Decompile(decompilation, assignStatement.Left, null); decompilation.Append(" = "); RuleExpressionWalker.Decompile(decompilation, assignStatement.Right, null); } internal override bool Match(CodeStatement comperand) { CodeAssignStatement comperandStatement = comperand as CodeAssignStatement; return ((comperandStatement != null) && RuleExpressionWalker.Match(assignStatement.Left, comperandStatement.Left) && RuleExpressionWalker.Match(assignStatement.Right, comperandStatement.Right)); } internal override CodeStatement Clone() { CodeAssignStatement newStatement = new CodeAssignStatement(); newStatement.Left = RuleExpressionWalker.Clone(assignStatement.Left); newStatement.Right = RuleExpressionWalker.Clone(assignStatement.Right); return newStatement; } } }