IRuleExpression Interface
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Represents the base class from which custom expression writers must derive to write custom expressions.
public interface class IRuleExpressionpublic interface IRuleExpressiontype IRuleExpression = interfacePublic Interface IRuleExpressionExamples
The following code creates an expression that can be used in declarative conditions and rule sets. The expression is named TwoOfThree, and takes 3 parameters, all of which must evaluate to Booleans. This expression returns true if 2 of the 3 expressions return true.
To use this code, add it to a Class Library project and reference the library from your workflow project.
using System.CodeDom;
using System.Text;
using System.Workflow.Activities.Rules;
using System.Workflow.ComponentModel.Compiler;
namespace TwoOfThreeRuleExpression
{
public class TwoOfThree : CodeExpression, IRuleExpression
{
CodeExpression expression1, expression2, expression3;
public CodeExpression First
{
get { return expression1; }
set { expression1 = value; }
}
public CodeExpression Second
{
get { return expression2; }
set { expression2 = value; }
}
public CodeExpression Third
{
get { return expression3; }
set { expression3 = value; }
}
public TwoOfThree()
{
// constructor required for deserialization
}
public TwoOfThree(CodeExpression first, CodeExpression second, CodeExpression third)
{
// constructor required by parser
expression1 = first;
expression2 = second;
expression3 = third;
}
public void AnalyzeUsage(RuleAnalysis analysis, bool isRead, bool isWritten, RulePathQualifier qualifier)
{
// check what the 3 expressions use
RuleExpressionWalker.AnalyzeUsage(analysis, expression1, true, false, null);
RuleExpressionWalker.AnalyzeUsage(analysis, expression2, true, false, null);
RuleExpressionWalker.AnalyzeUsage(analysis, expression3, true, false, null);
}
public CodeExpression Clone()
{
TwoOfThree result = new TwoOfThree();
result.expression1 = RuleExpressionWalker.Clone(expression1);
result.expression2 = RuleExpressionWalker.Clone(expression2);
result.expression3 = RuleExpressionWalker.Clone(expression3);
return result;
}
public void Decompile(StringBuilder stringBuilder, CodeExpression parentExpression)
{
// what should be displayed by the parser
stringBuilder.Append("TwoOfThree(");
RuleExpressionWalker.Decompile(stringBuilder, expression1, this);
stringBuilder.Append(", ");
RuleExpressionWalker.Decompile(stringBuilder, expression2, this);
stringBuilder.Append(", ");
RuleExpressionWalker.Decompile(stringBuilder, expression3, this);
stringBuilder.Append(")");
}
static RuleLiteralResult resultTrue = new RuleLiteralResult(true);
static RuleLiteralResult resultFalse = new RuleLiteralResult(false);
public RuleExpressionResult Evaluate(RuleExecution execution)
{
// start by doing the first 2 expressions
RuleExpressionResult r1 = RuleExpressionWalker.Evaluate(execution, expression1);
RuleExpressionResult r2 = RuleExpressionWalker.Evaluate(execution, expression2);
bool b1 = (bool)r1.Value;
bool b2 = (bool)r2.Value;
if (b1 && b2)
{
// both are true, so result is true
return resultTrue;
}
else if (b1 || b2)
{
// only one of the first 2 is true, evaluate the third to determine result
return RuleExpressionWalker.Evaluate(execution, expression3);
}
else
// both e1 and e2 are false, so skip e3 and return false;
return resultFalse;
}
public bool Match(CodeExpression expression)
{
TwoOfThree other = expression as TwoOfThree;
return (other != null) &&
RuleExpressionWalker.Match(expression1, other.expression1) &&
RuleExpressionWalker.Match(expression2, other.expression2) &&
RuleExpressionWalker.Match(expression3, other.expression3);
}
public RuleExpressionInfo Validate(RuleValidation validation, bool isWritten)
{
ValidateExpression(validation, expression1, "First");
ValidateExpression(validation, expression2, "Second");
ValidateExpression(validation, expression3, "Third");
return new RuleExpressionInfo(typeof(bool));
}
private void ValidateExpression(RuleValidation validation, CodeExpression expression, string propertyName)
{
ValidationError error;
if (expression == null)
{
error = new ValidationError(propertyName + " cannot be null", 123);
validation.Errors.Add(error);
}
else
{
RuleExpressionInfo result = RuleExpressionWalker.Validate(validation, expression, false);
if ((result == null) || (result.ExpressionType != typeof(bool)))
{
error = new ValidationError(propertyName + " must return boolean result", 123);
validation.Errors.Add(error);
}
}
}
}
}
Methods
| AnalyzeUsage(RuleAnalysis, Boolean, Boolean, RulePathQualifier) |
When overridden in a derived class, reports on how the object uses fields and properties in the context type. |
| Clone() |
When overridden in a derived class, creates a deep copy of the current CodeExpression. |
| Decompile(StringBuilder, CodeExpression) |
When overridden in a derived class, decompiles the custom expression into string form. |
| Evaluate(RuleExecution) |
When overridden in a derived class, evaluates the custom expression. |
| Match(CodeExpression) |
Compares the current expression to another expression to determine whether they are equal. |
| Validate(RuleValidation, Boolean) |
When overridden in a derived class, verifies that the expression is configured correctly and has no errors. |
Applies to
Σχόλια
Σύντομα διαθέσιμα: Καθ' όλη τη διάρκεια του 2024 θα καταργήσουμε σταδιακά τα ζητήματα GitHub ως μηχανισμό ανάδρασης για το περιεχόμενο και θα το αντικαταστήσουμε με ένα νέο σύστημα ανάδρασης. Για περισσότερες πληροφορίες, ανατρέξτε στο θέμα: https://aka.ms/ContentUserFeedback.
Υποβολή και προβολή σχολίων για