/// <summary>
/// Run the interpretation
/// </summary>
internal override void Execute()
{
int indexValue = -1;
object targetObject = null;
object leftValue = null;
object rightValue;
PropertyInfo propertyInfo;
Variable propertyVariable;
IList propertyVariableList;
var leftExpression = Statement._leftExpression;
var rightExpression = Statement._rightExpression;
if (DebugMode)
{
ParentInterpreter.Log(this, $"Assign '{leftExpression}' to '{rightExpression}'");
if (!typeof(IAlgorithmAssignable).IsAssignableFrom(leftExpression.GetType()))
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NotAssignableException($"The left expression is not assignable."), Statement), ParentInterpreter.GetDebugInfo()));
return;
}
}
switch (leftExpression.DomType)
{
case AlgorithmDomType.PropertyReferenceExpression:
var propertyReferenceInterpreter = new PropertyReference(DebugMode, ParentInterpreter, leftExpression);
leftValue = propertyReferenceInterpreter.GetAssignableObject();
targetObject = propertyReferenceInterpreter.TargetObject;
break;
case AlgorithmDomType.VariableReferenceExpression:
leftValue = new VariableReference(DebugMode, ParentInterpreter, leftExpression).GetAssignableObject();
break;
case AlgorithmDomType.ArrayIndexerExpression:
var arrayIndexerInterpreter = new ArrayIndexerExpression(DebugMode, ParentInterpreter, leftExpression);
leftValue = arrayIndexerInterpreter.GetAssignableObject();
indexValue = arrayIndexerInterpreter.IndexValue;
break;
default:
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new InvalidCastException($"Unable to find an interpreter for this expression : '{leftExpression.GetType().FullName}'"), Statement), ParentInterpreter.GetDebugInfo()));
break;
}
if (ParentInterpreter.FailedOrStop)
{
return;
}
rightValue = ParentInterpreter.RunExpression(rightExpression);
if (ParentInterpreter.FailedOrStop)
{
return;
}
propertyInfo = leftValue as PropertyInfo;
if (propertyInfo != null)
{
if (!propertyInfo.CanWrite)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NotAssignableException($"This core property is not assignable."), Statement), ParentInterpreter.GetDebugInfo()));
return;
}
propertyInfo.SetValue(targetObject, rightValue);
}
propertyVariable = leftValue as Variable;
if (propertyVariable != null)
{
if (propertyVariable.IsArray && !(typeof(Array).IsAssignableFrom(rightValue.GetType()) || typeof(IList).IsAssignableFrom(rightValue.GetType())))
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NotAssignableException($"The left expression wait for an array, but the right value is not an array."), Statement), ParentInterpreter.GetDebugInfo()));
return;
}
if (!propertyVariable.IsArray && (typeof(Array).IsAssignableFrom(rightValue.GetType()) || typeof(IList).IsAssignableFrom(rightValue.GetType())))
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NotAssignableException($"The left expression does not support array value, but the right value is an array."), Statement), ParentInterpreter.GetDebugInfo()));
return;
}
propertyVariable.Value = rightValue;
}
propertyVariableList = leftValue as IList;
if (propertyVariableList != null)
{
if (indexValue < 0 || indexValue >= propertyVariableList.Count)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new IndexOutOfRangeException($"Unable to get the item number '{indexValue}' because the limit of the array is '{propertyVariableList.Count - 1}'."), Statement), ParentInterpreter.GetDebugInfo()));
return;
}
propertyVariableList[indexValue] = rightValue;
}
if (DebugMode)
{
ParentInterpreter.Log(this, "'{0}' is now equal to {1}", leftExpression.ToString(), rightValue == null ? "{null}" : $"'{rightValue}' (type:{rightValue.GetType().FullName})");
}
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
Collection <object> argumentValues;
var createType = Expression._createType;
var reference = ParentInterpreter.RunExpression(createType);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (DebugMode)
{
ParentInterpreter.Log(this, $"Creating a new instance of '{createType}'");
}
var classInterpreter = reference as ClassInterpreter;
if (classInterpreter != null)
{
var program = ParentInterpreter.ParentProgramInterpreter;
var classInstance = classInterpreter.CreateNewInstance();
classInstance.StateChanged += ParentInterpreter.ChangeState;
classInstance.OnGetParentInterpreter += new Func <ProgramInterpreter>(() => program);
classInstance.OnDone += new Action <ClassInterpreter>((cl) =>
{
cl.StateChanged -= ParentInterpreter.ChangeState;
});
classInstance.Initialize();
argumentValues = InvokeMethod.GetArgumentValues(Expression, ParentInterpreter);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
classInstance.CreateNewInstanceCallConstructors(argumentValues);
return(classInstance);
}
var type = reference as Type;
if (type != null)
{
object classInstance = null;
argumentValues = InvokeMethod.GetArgumentValues(Expression, ParentInterpreter);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
try
{
classInstance = Activator.CreateInstance(type, argumentValues.ToArray());
}
catch (Exception ex)
{
if (ex is ArgumentException)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new BadArgumentException("{Unknow}", ex.Message), Expression), ParentInterpreter.GetDebugInfo()));
}
else if (ex is TargetParameterCountException)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new MethodNotFoundException("ctor", $"There is no constructor with {argumentValues.Count} argument(s) in the class '{Expression._createType}'."), Expression), ParentInterpreter.GetDebugInfo()));
}
else
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(ex, Expression), ParentInterpreter.GetDebugInfo()));
}
return(null);
}
return(classInstance);
}
return(null);
}
/// <summary>
/// Returns the corresponding assignable object
/// </summary>
/// <returns>the assignable object</returns>
public object GetAssignableObject()
{
if (Expression._targetObject == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NullReferenceException("Unable to access to a property when the TargetObject of an AlgorithmPropertyReferenceExpression is null."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
object property;
object value = null;
PropertyInfo propertyInfo;
ClassInterpreter classTargetObject;
Variable propertyVariable;
if (DebugMode)
{
ParentInterpreter.Log(this, $"Getting the property '{Expression}'");
}
TargetObject = ParentInterpreter.RunExpression(Expression._targetObject);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (TargetObject == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new ClassNotFoundException("{Unknow}", "It looks like the reference object does not exists."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
classTargetObject = TargetObject as ClassInterpreter;
if (classTargetObject != null)
{
propertyVariable = classTargetObject.FindVariableInTheCurrentInterpreter(Expression._propertyName.ToString());
if (propertyVariable == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new PropertyNotFoundException(Expression._propertyName.ToString()), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
property = propertyVariable;
if (DebugMode)
{
value = propertyVariable.Value;
}
}
else
{
propertyInfo = TargetObject.GetType().GetProperty(Expression._propertyName.ToString());
if (propertyInfo == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new PropertyNotFoundException(Expression._propertyName.ToString()), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
property = propertyInfo;
if (DebugMode)
{
value = propertyInfo.GetValue(TargetObject);
}
}
if (DebugMode)
{
ParentInterpreter.Log(this, "Value of the property '{0}' is {1}", Expression._propertyName.ToString(), value == null ? "{null}" : $"'{value}' (type:{value.GetType().FullName})");
}
return(property);
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
object type;
var fullName = Expression.ToString();
if (DebugMode)
{
ParentInterpreter.Log(this, $"Reference to the class : {fullName}");
}
if (Expression._type != null)
{
return(Expression._type);
}
if (string.IsNullOrWhiteSpace(Expression._namespace))
{
type = GetProjectClassReference(fullName);
}
else
{
type = GetCoreClassReference(fullName);
}
if (type != null)
{
return(type);
}
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new ClassNotFoundException(fullName, $"Unable to find the class '{fullName}' because it does not exist or it is not accessible."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
/// <summary>
/// Returns the corresponding assignable object
/// </summary>
/// <returns>the assignable object</returns>
public object GetAssignableObject()
{
var variable = ParentInterpreter.FindVariable(Expression._name.ToString());
if (variable == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new VariableNotFoundException(Expression._name.ToString()), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (DebugMode)
{
ParentInterpreter.Log(this, "Value of the variable '{0}' is {1}", variable.Name, variable.Value == null ? "{null}" : $"'{variable.Value}' (type:{variable.Value.GetType().FullName})");
}
return(variable);
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
if (Expression._targetObject == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NullReferenceException("Unable to invoke a method when the TargetObject of an AlgorithmInvokeMethodExpression is null."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (DebugMode)
{
ParentInterpreter.Log(this, $"Calling method '{Expression._targetObject}.{Expression._methodName}'");
}
var referenceClass = ParentInterpreter.RunExpression(Expression._targetObject) as ClassInterpreter;
var callerMethod = ParentInterpreter.ParentMethodInterpreter;
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (referenceClass == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new ClassNotFoundException("{Unknow}", "It looks like the reference class does not exists."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (!referenceClass.IsInstance)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NoInstanceReferenceException("Unable to invoke a method of a not instancied class."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
var argumentValues = GetArgumentValues(Expression, ParentInterpreter);
if (!ParentInterpreter.FailedOrStop)
{
var callStackService = ParentInterpreter.ParentProgramInterpreter.DebugInfo.CallStackService;
_result = null;
if (callStackService.CallCount > Consts.InvokeMethodCountBeforeNewThread)
{
// Make a new thread avoid the stack overflow.
callStackService.CallCount = 0;
CallMethodNewThread(referenceClass, argumentValues, callerMethod, callStackService).Wait();
}
else
{
callStackService.CallCount++;
_result = referenceClass.InvokeMethod(ParentInterpreter, Expression, argumentValues, callerMethod, callStackService);
}
return(_result);
}
return(null);
}
/// <summary>
/// Run the interpretation
/// </summary>
internal override void Execute()
{
var methodInterpreter = ParentInterpreter.ParentMethodInterpreter;
if (methodInterpreter == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new MethodNotFoundException("{Unknow}", "It looks like the caller/parent's method does not exists."), Statement), ParentInterpreter.GetDebugInfo()));
return;
}
methodInterpreter.ReturnedValue = ParentInterpreter.RunExpression(Statement._expression);
if (DebugMode && !ParentInterpreter.FailedOrStop)
{
ParentInterpreter.Log(this, "({0}) Return : {1}", methodInterpreter.MethodDeclaration._name, methodInterpreter.ReturnedValue == null ? "{null}" : $"'{methodInterpreter.ReturnedValue}' (type:{methodInterpreter.ReturnedValue.GetType().FullName})");
}
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
if (Expression._targetObject == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NullReferenceException("Unable to invoke a core method when the TargetObject of an AlgorithmInvokeCoreMethodExpression is null."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
object referenceClass;
object returnedValue;
Type type;
Task task;
if (DebugMode)
{
ParentInterpreter.Log(this, $"Calling core method '{Expression._targetObject}.{Expression._methodName}'");
}
referenceClass = ParentInterpreter.RunExpression(Expression._targetObject);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (referenceClass == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new ClassNotFoundException("{Unknow}", "It looks like the reference object does not exists."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (referenceClass is ClassInterpreter)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new ClassNotFoundException("{Unknow}", "Unable to call a core method from a class made with AlgorithmDOM."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
type = referenceClass as Type;
if (type != null)
{
returnedValue = InvokeMethod(type, null);
}
else
{
returnedValue = InvokeMethod(referenceClass.GetType(), referenceClass);
}
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (Expression._await)
{
task = returnedValue as Task;
if (task != null)
{
task.Wait();
var resultPropertyInfo = task.GetType().GetProperty("Result");
if (resultPropertyInfo != null && resultPropertyInfo.PropertyType.Name != "VoidTaskResult")
{
return(resultPropertyInfo.GetValue(task));
}
return(null);
}
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new MethodNotAwaitableException($"{Expression._targetObject}.{Expression._methodName}"), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
return(returnedValue);
}
/// <summary>
/// Run the interpretation
/// </summary>
internal override void Execute()
{
if (DebugMode)
{
ParentInterpreter.Log(this, "Breakpoint intercepted");
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(AlgorithmInterpreterState.PauseBreakpoint, ParentInterpreter.GetDebugInfo(false)));
}
}
/// <summary>
/// Invoke a code method
/// </summary>
/// <param name="type">The type which contains the method</param>
/// <param name="obj">The instance</param>
/// <returns>Returns the result of the invoke</returns>
private object InvokeMethod(Type type, object obj)
{
if (Expression._argumentsTypes == null)
{
Expression._argumentsTypes = new Type[0];
}
object result;
Collection <object> arguments;
var method = type.GetRuntimeMethod(Expression._methodName.ToString(), Expression._argumentsTypes);
if (method == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new MethodNotFoundException(Expression._methodName.ToString(), $"The method '{Expression._methodName}' does not exists in the current class or is not accessible."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (obj == null && !method.IsStatic)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NoInstanceReferenceException($"Unable to invoke the non-static core method '{method.Name}' without instanciate the class."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
arguments = Expressions.InvokeMethod.GetArgumentValues(Expression, ParentInterpreter);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
result = null;
_dispatcher.RunAsync(CoreDispatcherPriority.Normal, () =>
{
try
{
result = method.Invoke(obj, arguments.ToArray());
}
catch (Exception ex)
{
if (ex is ArgumentException)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new BadArgumentException("{Unknow}", ex.Message), Expression), ParentInterpreter.GetDebugInfo()));
}
else if (ex is TargetParameterCountException)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new MethodNotFoundException(Expression._methodName.ToString(), $"There is a method '{Expression._methodName}' in the class '{Expression._targetObject}', but it does not have {arguments.Count} argument(s)."), Expression), ParentInterpreter.GetDebugInfo()));
}
else
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(ex, Expression), ParentInterpreter.GetDebugInfo()));
}
}
}).AsTask().Wait();
return(result);
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
var parentClass = ParentInterpreter.ParentClassInterpreter;
if (parentClass == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new ClassNotFoundException("{Unknow}", "It looks like the parent class does not exists."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (!parentClass.IsInstance)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NoInstanceReferenceException("Unable to get the instance of the parent class of a static method."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (DebugMode)
{
ParentInterpreter.Log(this, $"Reference to the current instance : {parentClass.ClassDeclaration.Name}");
}
return(parentClass);
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
object left;
object right;
MethodInfo operatorMethod;
left = ParentInterpreter.RunExpression(Expression._leftExpression);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
right = ParentInterpreter.RunExpression(Expression._rightExpression);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (DebugMode)
{
ParentInterpreter.Log(this, $"Doing an operation '{Expression._operator}'");
}
if (Expression._operator == AlgorithmBinaryOperatorType.Equals)
{
if (left == null)
{
if (right == null)
{
return(true); // null == null
}
return(right.Equals(null));
}
return(left.Equals(right));
}
operatorMethod = OperatorHelperCache.GetOperator(Expression._operator, left.GetType(), right.GetType());
if (operatorMethod == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new OperatorNotFoundException(Expression._operator.ToString(), $"Operator '{Expression._operator}' cannot be applied to operands of type '{left.GetType().FullName}' and '{right.GetType().FullName}'"), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (Expression._operator == AlgorithmBinaryOperatorType.Division)
{
long num;
var convertedToLong = long.TryParse(right.ToString(), out num);
if (convertedToLong && num == 0)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new DivideByZeroException("Attempted to divide by zero."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
}
return(operatorMethod.Invoke(null, new[] { left, right }));
}
/// <summary>
/// Returns the corresponding assignable object
/// </summary>
/// <returns>the assignable object</returns>
public object GetAssignableObject()
{
if (Expression._targetObject == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NullReferenceException("Unable to access to a property or variable when the TargetObject of an AlgorithmArrayIndexerExpression is null."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (DebugMode)
{
ParentInterpreter.Log(this, $"Getting the value '{Expression}'");
}
var indexableValue = ParentInterpreter.RunExpression(Expression._targetObject);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
if (indexableValue == null)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new NoInstanceReferenceException("Unable to get a value because the array is null."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
// ReSharper disable once UseIsOperator.1
// ReSharper disable once UseMethodIsInstanceOfType
if (!typeof(IList).IsAssignableFrom(indexableValue.GetType()))
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new IndexerException(Expression._propertyName.ToString()), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
var indiceValue = ParentInterpreter.RunExpression(Expression._indice);
if (ParentInterpreter.FailedOrStop)
{
return(null);
}
var indexValue = indiceValue as int?;
if (indexValue != null)
{
IndexValue = indexValue.Value;
return(indexableValue);
}
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new InvalidCastException("Unable to cast this value to a number."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
/// <summary>
/// Run the interpretation
/// </summary>
/// <returns>Returns the result of the interpretation</returns>
internal override object Execute()
{
IndexValue = -1;
var indexableValue = (IList)GetAssignableObject();
if (ParentInterpreter.FailedOrStop || indexableValue == null)
{
return(null);
}
if (IndexValue < 0 || IndexValue >= indexableValue.Count)
{
ParentInterpreter.ChangeState(this, new AlgorithmInterpreterStateEventArgs(new Error(new IndexOutOfRangeException($"Unable to get the item number '{IndexValue}' because the limit of the array is '{indexableValue.Count - 1}'."), Expression), ParentInterpreter.GetDebugInfo()));
return(null);
}
return(indexableValue[IndexValue]);
}
