public static Convert ( |
||
generator | The IL generator. | |
fromType | PrimitiveType | The type to convert from. |
toType | PrimitiveType | The type to convert to. |
return | void |
/// <summary> /// Pops the value on the stack, converts it from one type to another, then pushes the /// result onto the stack. /// </summary> /// <param name="il"> The IL generator. </param> /// <param name="fromType"> The type to convert from. </param> /// <param name="toType"> The type to convert to. </param> private static void EmitTypeConversion(ILGenerator il, Type fromType, Type toType) { // If the source type equals the destination type, then there is nothing to do. if (fromType == toType) { return; } // Emit for each type of argument we support. if (toType == typeof(int)) { EmitConversion.ToInteger(il, PrimitiveTypeUtilities.ToPrimitiveType(fromType)); } else if (typeof(ObjectInstance).IsAssignableFrom(toType)) { EmitConversion.Convert(il, PrimitiveTypeUtilities.ToPrimitiveType(fromType), PrimitiveType.Object); if (toType != typeof(ObjectInstance)) { // Convert to null if the from type isn't compatible with the to type. // For example, if the target type is FunctionInstance and the from type is ArrayInstance, then pass null. il.IsInstance(toType); } } else { EmitConversion.Convert(il, PrimitiveTypeUtilities.ToPrimitiveType(fromType), PrimitiveTypeUtilities.ToPrimitiveType(toType)); } }
/// <summary> /// Stores the value on the top of the stack in the reference. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> /// <param name="valueType"> The primitive type of the value that is on the top of the stack. </param> public void GenerateSet(ILGenerator generator, OptimizationInfo optimizationInfo, PrimitiveType valueType) { // TODO: Optimize this. // // ++ or -- // GenerateReference // DuplicateReference // GenerateGet // ToNumber // if (postfix) Dup/Store in variable // Increment/Decrement // if (prefix) Dup/Store in variable // GenerateSet // Load variable // // += // GenerateReference // DuplicateReference // GenerateGet // Dup/Store in variable // GenerateSet // Load variable // // for (in/of) // GenerateReference // LoadVariable(enumerator) // GenerateGet // GenerateSet // // = // GenerateReference // target.GenerateGet // Dup/Store in variable // GenerateSet // Load variable // If we have allocated an IL variable, use it. var variableInfo = Scope.FindStaticVariable(Name); if (variableInfo != null && variableInfo.Store != null) { EmitConversion.Convert(generator, valueType, variableInfo.Type); generator.StoreVariable(variableInfo.Store); return; } // Fallback: call RuntimeScope.SetValue() or RuntimeScope.SetValueStrict(). var temp = generator.CreateTemporaryVariable(valueType); generator.StoreVariable(temp); Scope.GenerateReference(generator, optimizationInfo); generator.LoadString(Name); generator.LoadVariable(temp); EmitConversion.ToAny(generator, valueType); generator.LoadInt32(optimizationInfo.SourceSpan.StartLine); generator.LoadStringOrNull(optimizationInfo.Source.Path); generator.Call(optimizationInfo.StrictMode ? ReflectionHelpers.RuntimeScope_SetValueStrict : ReflectionHelpers.RuntimeScope_SetValue); generator.ReleaseTemporaryVariable(temp); }
/// <summary> /// Generates code that initializes the variable and function declarations. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> internal virtual void GenerateDeclarations(ILGenerator generator, OptimizationInfo optimizationInfo) { // Initialize the declared variables and functions. foreach (var variable in this.variables.Values) { // Emit the initialization code. if (this is ObjectScope) { // Determine the property attributes. var attributes = Library.PropertyAttributes.Enumerable; if (variable.Writable == true) { attributes |= Library.PropertyAttributes.Writable; } if (variable.Deletable == true) { attributes |= Library.PropertyAttributes.Configurable; } if (variable.ValueAtTopOfScope == null) { // void InitializeMissingProperty(object key, PropertyAttributes attributes) EmitHelpers.LoadScope(generator); generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); generator.LoadString(variable.Name); generator.LoadInt32((int)attributes); generator.Call(ReflectionHelpers.ObjectInstance_InitializeMissingProperty); } else { // bool DefineProperty(string propertyName, PropertyDescriptor descriptor, bool throwOnError) EmitHelpers.LoadScope(generator); generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); generator.LoadString(variable.Name); variable.ValueAtTopOfScope.GenerateCode(generator, optimizationInfo); EmitConversion.Convert(generator, variable.ValueAtTopOfScope.ResultType, PrimitiveType.Any, optimizationInfo); generator.LoadInt32((int)attributes); generator.NewObject(ReflectionHelpers.PropertyDescriptor_Constructor2); generator.LoadBoolean(false); generator.Call(ReflectionHelpers.ObjectInstance_DefineProperty); generator.Pop(); } } else if (variable.ValueAtTopOfScope != null) { variable.ValueAtTopOfScope.GenerateCode(generator, optimizationInfo); var name = new NameExpression(this, variable.Name); name.GenerateSet(generator, optimizationInfo, variable.ValueAtTopOfScope.ResultType, false); } } }
/// <summary> /// Generates CIL for the expression. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> public override void GenerateCode(ILGenerator generator, OptimizationInfo optimizationInfo) { // If a return value is not expected, generate only the side-effects. /*if (optimizationInfo.SuppressReturnValue == true) * { * this.GenerateSideEffects(generator, optimizationInfo); * return; * }*/ // Emit the condition. var condition = this.GetOperand(0); condition.GenerateCode(generator, optimizationInfo); // Convert the condition to a boolean. EmitConversion.ToBool(generator, condition.ResultType); // Branch if the condition is false. var startOfElse = generator.CreateLabel(); generator.BranchIfFalse(startOfElse); // Calculate the result type. var outputType = this.ResultType; // Emit the second operand and convert it to the result type. var operand2 = this.GetOperand(1); operand2.GenerateCode(generator, optimizationInfo); EmitConversion.Convert(generator, operand2.ResultType, outputType, optimizationInfo); // Branch to the end. var end = generator.CreateLabel(); generator.Branch(end); generator.DefineLabelPosition(startOfElse); // Emit the third operand and convert it to the result type. var operand3 = this.GetOperand(2); operand3.GenerateCode(generator, optimizationInfo); EmitConversion.Convert(generator, operand3.ResultType, outputType, optimizationInfo); // Define the end label. generator.DefineLabelPosition(end); }
/// <summary> /// Pushes the value of the reference onto the stack. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> /// <param name="throwIfUnresolvable"> <c>true</c> to throw a ReferenceError exception if /// the name is unresolvable; <c>false</c> to output <c>null</c> instead. </param> public void GenerateGet(ILGenerator generator, OptimizationInfo optimizationInfo, bool throwIfUnresolvable) { // This method generates code to retrieve the value of a variable, given the name of // variable and scope in which the variable is being referenced. The variable was // not necessary declared in this scope - it might be declared in any of the parent // scopes (together called a scope chain). The general algorithm is to start at the // head of the chain and search backwards until the variable is found. There are // two types of scopes: declarative scopes and object scopes. Object scopes are hard - // it cannot be known at compile time whether the variable exists or not so runtime // checks have to be inserted. Declarative scopes are easier - variables have to be // declared and cannot be deleted. There is one tricky bit: new variables can be // introduced into a declarative scope at runtime by a non-strict eval() statement. // Even worse, variables that were introduced by means of an eval() *can* be deleted. var scope = this.Scope; ILLocalVariable scopeVariable = null; var endOfGet = generator.CreateLabel(); do { if (scope is DeclarativeScope) { // The variable was declared in this scope. var variable = scope.GetDeclaredVariable(this.Name); if (variable != null) { if (scope.ExistsAtRuntime == false) { // The scope has been optimized away. The value of the variable is stored // in an ILVariable. // Declare an IL local variable if no storage location has been allocated yet. if (variable.Store == null) { variable.Store = generator.DeclareVariable(typeof(object), variable.Name); } // Load the value from the variable. generator.LoadVariable(variable.Store); // Ensure that we match ResultType. EmitConversion.Convert(generator, variable.Type, this.ResultType, optimizationInfo); } else { // scope.Values[index] if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.Call(ReflectionHelpers.DeclarativeScope_Values); generator.LoadInt32(variable.Index); generator.LoadArrayElement(typeof(object)); } // The variable was found - no need to search any more parent scopes. break; } else { // The variable was not defined at compile time, but may have been // introduced by an eval() statement. if (optimizationInfo.MethodOptimizationHints.HasEval == true) { // Check the variable exists: if (scope.HasValue(variableName) == true) { if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.LoadString(this.Name); generator.Call(ReflectionHelpers.Scope_HasValue); var hasValueClause = generator.CreateLabel(); generator.BranchIfFalse(hasValueClause); // Load the value of the variable. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.LoadString(this.Name); generator.Call(ReflectionHelpers.Scope_GetValue); generator.Branch(endOfGet); // } generator.DefineLabelPosition(hasValueClause); } } } else { if (scope.ParentScope == null) { // Global variable access // ------------------------------------------- // __object_cacheKey = null; // __object_property_cachedIndex = 0; // ... // if (__object_cacheKey != object.InlineCacheKey) // xxx = object.InlineGetPropertyValue("variable", out __object_property_cachedIndex, out __object_cacheKey) // else // xxx = object.InlinePropertyValues[__object_property_cachedIndex]; // Get a reference to the global object. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); // TODO: share these variables somehow. var cacheKey = generator.DeclareVariable(typeof(object)); var cachedIndex = generator.DeclareVariable(typeof(int)); // Store the object into a temp variable. var objectInstance = generator.DeclareVariable(PrimitiveType.Object); generator.StoreVariable(objectInstance); // if (__object_cacheKey != object.InlineCacheKey) generator.LoadVariable(cacheKey); generator.LoadVariable(objectInstance); generator.Call(ReflectionHelpers.ObjectInstance_InlineCacheKey); var elseClause = generator.CreateLabel(); generator.BranchIfEqual(elseClause); // value = object.InlineGetProperty("property", out __object_property_cachedIndex, out __object_cacheKey) generator.LoadVariable(objectInstance); generator.LoadString(this.Name); generator.LoadAddressOfVariable(cachedIndex); generator.LoadAddressOfVariable(cacheKey); generator.Call(ReflectionHelpers.ObjectInstance_InlineGetPropertyValue); var endOfIf = generator.CreateLabel(); generator.Branch(endOfIf); // else generator.DefineLabelPosition(elseClause); // value = object.InlinePropertyValues[__object_property_cachedIndex]; generator.LoadVariable(objectInstance); generator.Call(ReflectionHelpers.ObjectInstance_InlinePropertyValues); generator.LoadVariable(cachedIndex); generator.LoadArrayElement(typeof(object)); // End of the if statement generator.DefineLabelPosition(endOfIf); // Check if the value is null. generator.Duplicate(); generator.BranchIfNotNull(endOfGet); if (scope.ParentScope != null) { generator.Pop(); } } else { // Gets the value of a variable in an object scope. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); generator.LoadString(this.Name); generator.Call(ReflectionHelpers.ObjectInstance_GetPropertyValue_Object); // Check if the value is null. generator.Duplicate(); generator.BranchIfNotNull(endOfGet); if (scope.ParentScope != null) { generator.Pop(); } } } // Try the parent scope. if (scope.ParentScope != null && scope.ExistsAtRuntime == true) { if (scopeVariable == null) { scopeVariable = generator.CreateTemporaryVariable(typeof(Scope)); EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.Call(ReflectionHelpers.Scope_ParentScope); generator.StoreVariable(scopeVariable); } scope = scope.ParentScope; } while (scope != null); // Throw an error if the name does not exist and throwIfUnresolvable is true. if (scope == null && throwIfUnresolvable == true) { EmitHelpers.EmitThrow(generator, ErrorType.ReferenceError, this.Name + " is not defined", optimizationInfo); } // Release the temporary variable. if (scopeVariable != null) { generator.ReleaseTemporaryVariable(scopeVariable); } // Define a label at the end. generator.DefineLabelPosition(endOfGet); // Object scope references may have side-effects (because of getters) so if the value // is to be ignored we evaluate the value then pop the value from the stack. //if (optimizationInfo.SuppressReturnValue == true) // generator.Pop(); }
/// <summary> /// Stores the value on the top of the stack in the reference. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> /// <param name="valueType"> The primitive type of the value that is on the top of the stack. </param> /// <param name="throwIfUnresolvable"> <c>true</c> to throw a ReferenceError exception if /// the name is unresolvable; <c>false</c> to create a new property instead. </param> public void GenerateSet(ILGenerator generator, OptimizationInfo optimizationInfo, PrimitiveType valueType, bool throwIfUnresolvable) { // The value is initially on the top of the stack but is stored in this variable // at the last possible moment. ILLocalVariable value = null; var scope = this.Scope; ILLocalVariable scopeVariable = null; var endOfSet = generator.CreateLabel(); do { if (scope is DeclarativeScope) { // Get information about the variable. var variable = scope.GetDeclaredVariable(this.Name); if (variable != null) { // The variable was declared in this scope. if (scope.ExistsAtRuntime == false) { // The scope has been optimized away. The value of the variable is stored // in an ILVariable. // Declare an IL local variable if no storage location has been allocated yet. if (variable.Store == null) { variable.Store = generator.DeclareVariable(typeof(object), variable.Name); } if (value == null) { // The value to store is on the top of the stack - convert it to the // storage type of the variable. EmitConversion.Convert(generator, valueType, variable.Type, optimizationInfo); } else { // The value to store is in a temporary variable. generator.LoadVariable(value); EmitConversion.Convert(generator, PrimitiveType.Any, variable.Type, optimizationInfo); } // Store the value in the variable. generator.StoreVariable(variable.Store); } else if (variable.Writable == true) { if (value == null) { // The value to store is on the top of the stack - convert it to an // object and store it in a temporary variable. EmitConversion.Convert(generator, valueType, PrimitiveType.Any, optimizationInfo); value = generator.CreateTemporaryVariable(typeof(object)); generator.StoreVariable(value); } // scope.Values[index] = value if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.Call(ReflectionHelpers.DeclarativeScope_Values); generator.LoadInt32(variable.Index); generator.LoadVariable(value); generator.StoreArrayElement(typeof(object)); } else { // The variable exists, but is read-only. // Pop the value off the stack (if it is still there). if (value == null) { generator.Pop(); } } // The variable was found - no need to search any more parent scopes. break; } else { // The variable was not defined at compile time, but may have been // introduced by an eval() statement. if (optimizationInfo.MethodOptimizationHints.HasEval == true) { if (value == null) { // The value to store is on the top of the stack - convert it to an // object and store it in a temporary variable. EmitConversion.Convert(generator, valueType, PrimitiveType.Any, optimizationInfo); value = generator.CreateTemporaryVariable(typeof(object)); generator.StoreVariable(value); } // Check the variable exists: if (scope.HasValue(variableName) == true) { if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.LoadString(this.Name); generator.Call(ReflectionHelpers.Scope_HasValue); var hasValueClause = generator.CreateLabel(); generator.BranchIfFalse(hasValueClause); // Set the value of the variable. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.LoadString(this.Name); generator.LoadVariable(value); generator.Call(ReflectionHelpers.Scope_SetValue); generator.Branch(endOfSet); // } generator.DefineLabelPosition(hasValueClause); } } } else { if (value == null) { // The value to store is on the top of the stack - convert it to an // object and store it in a temporary variable. EmitConversion.Convert(generator, valueType, PrimitiveType.Any, optimizationInfo); value = generator.CreateTemporaryVariable(typeof(object)); generator.StoreVariable(value); } if (scope.ParentScope == null) { // Optimization: if this is the global scope, use hidden classes to // optimize variable access. // Global variable modification // ---------------------------- // __object_cacheKey = null; // __object_property_cachedIndex = 0; // ... // if (__object_cacheKey != object.InlineCacheKey) // object.InlineSetPropertyValueIfExists("property", value, strictMode, out __object_property_cachedIndex, out __object_cacheKey) // else // object.InlinePropertyValues[__object_property_cachedIndex] = value; // Get a reference to the global object. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); // TODO: share these variables somehow. var cacheKey = generator.DeclareVariable(typeof(object)); var cachedIndex = generator.DeclareVariable(typeof(int)); // Store the object into a temp variable. var objectInstance = generator.DeclareVariable(PrimitiveType.Object); generator.StoreVariable(objectInstance); // if (__object_cacheKey != object.InlineCacheKey) generator.LoadVariable(cacheKey); generator.LoadVariable(objectInstance); generator.Call(ReflectionHelpers.ObjectInstance_InlineCacheKey); var elseClause = generator.CreateLabel(); generator.BranchIfEqual(elseClause); // xxx = object.InlineSetPropertyValueIfExists("property", value, strictMode, out __object_property_cachedIndex, out __object_cacheKey) generator.LoadVariable(objectInstance); generator.LoadString(this.Name); generator.LoadVariable(value); generator.LoadBoolean(optimizationInfo.StrictMode); generator.LoadAddressOfVariable(cachedIndex); generator.LoadAddressOfVariable(cacheKey); if (throwIfUnresolvable == false) { // Set the property value unconditionally. generator.Call(ReflectionHelpers.ObjectInstance_InlineSetPropertyValue); } else { // Set the property value if the property exists. generator.Call(ReflectionHelpers.ObjectInstance_InlineSetPropertyValueIfExists); // The return value is true if the property was defined, and false if it wasn't. generator.BranchIfTrue(endOfSet); } var endOfIf = generator.CreateLabel(); generator.Branch(endOfIf); // else generator.DefineLabelPosition(elseClause); // object.InlinePropertyValues[__object_property_cachedIndex] = value; generator.LoadVariable(objectInstance); generator.Call(ReflectionHelpers.ObjectInstance_InlinePropertyValues); generator.LoadVariable(cachedIndex); generator.LoadVariable(value); generator.StoreArrayElement(typeof(object)); generator.Branch(endOfSet); // End of the if statement generator.DefineLabelPosition(endOfIf); } else { // Slow route. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); generator.LoadString(this.Name); generator.LoadVariable(value); generator.LoadBoolean(optimizationInfo.StrictMode); if (scope.ParentScope == null && throwIfUnresolvable == false) { // Set the property value unconditionally. generator.Call(ReflectionHelpers.ObjectInstance_SetPropertyValue_Object); } else { // Set the property value if the property exists. generator.Call(ReflectionHelpers.ObjectInstance_SetPropertyValueIfExists); // The return value is true if the property was defined, and false if it wasn't. generator.BranchIfTrue(endOfSet); } } } // Try the parent scope. if (scope.ParentScope != null && scope.ExistsAtRuntime == true) { if (scopeVariable == null) { scopeVariable = generator.CreateTemporaryVariable(typeof(Scope)); EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.Call(ReflectionHelpers.Scope_ParentScope); generator.StoreVariable(scopeVariable); } scope = scope.ParentScope; } while (scope != null); // The value might be still on top of the stack. if (value == null && scope == null) { generator.Pop(); } // Throw an error if the name does not exist and throwIfUnresolvable is true. if (scope == null && throwIfUnresolvable == true) { EmitHelpers.EmitThrow(generator, ErrorType.ReferenceError, this.Name + " is not defined", optimizationInfo); } // Release the temporary variables. if (value != null) { generator.ReleaseTemporaryVariable(value); } if (scopeVariable != null) { generator.ReleaseTemporaryVariable(scopeVariable); } // Define a label at the end. generator.DefineLabelPosition(endOfSet); }
/// <summary> /// Stores the value on the top of the stack in the reference. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> /// <param name="valueType"> The primitive type of the value that is on the top of the stack. </param> /// <param name="throwIfUnresolvable"> <c>true</c> to throw a ReferenceError exception if /// the name is unresolvable; <c>false</c> to create a new property instead. </param> public void GenerateSet(ILGenerator generator, OptimizationInfo optimizationInfo, PrimitiveType valueType, bool throwIfUnresolvable) { // The value is initially on the top of the stack but is stored in this variable // at the last possible moment. ILLocalVariable value = null; var scope = this.Scope; ILLocalVariable scopeVariable = null; var endOfSet = generator.CreateLabel(); do { if (scope is DeclarativeScope) { // Get information about the variable. var variable = scope.GetDeclaredVariable(this.Name); if (variable != null) { // The variable was declared in this scope. if (scope.ExistsAtRuntime == false) { // The scope has been optimized away. The value of the variable is stored // in an ILVariable. // Declare an IL local variable if no storage location has been allocated yet. if (variable.Store == null) { variable.Store = generator.DeclareVariable(typeof(object), variable.Name); } if (value == null) { // The value to store is on the top of the stack - convert it to the // storage type of the variable. EmitConversion.Convert(generator, valueType, variable.Type, optimizationInfo); } else { // The value to store is in a temporary variable. generator.LoadVariable(value); EmitConversion.Convert(generator, PrimitiveType.Any, variable.Type, optimizationInfo); } // Store the value in the variable. generator.StoreVariable(variable.Store); } else if (variable.Writable == true) { if (value == null) { // The value to store is on the top of the stack - convert it to an // object and store it in a temporary variable. EmitConversion.Convert(generator, valueType, PrimitiveType.Any, optimizationInfo); value = generator.CreateTemporaryVariable(typeof(object)); generator.StoreVariable(value); } // scope.Values[index] = value if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.Call(ReflectionHelpers.DeclarativeScope_Values); generator.LoadInt32(variable.Index); generator.LoadVariable(value); generator.StoreArrayElement(typeof(object)); } else { // The variable exists, but is read-only. // Pop the value off the stack (if it is still there). if (value == null) { generator.Pop(); } } // The variable was found - no need to search any more parent scopes. break; } else { // The variable was not defined at compile time, but may have been // introduced by an eval() statement. if (optimizationInfo.MethodOptimizationHints.HasEval == true) { if (value == null) { // The value to store is on the top of the stack - convert it to an // object and store it in a temporary variable. EmitConversion.Convert(generator, valueType, PrimitiveType.Any, optimizationInfo); value = generator.CreateTemporaryVariable(typeof(object)); generator.StoreVariable(value); } // Check the variable exists: if (scope.HasValue(variableName) == true) { if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.LoadString(this.Name); generator.Call(ReflectionHelpers.Scope_HasValue); var hasValueClause = generator.CreateLabel(); generator.BranchIfFalse(hasValueClause); // Set the value of the variable. if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(DeclarativeScope)); generator.LoadString(this.Name); generator.LoadVariable(value); generator.Call(ReflectionHelpers.Scope_SetValue); generator.Branch(endOfSet); // } generator.DefineLabelPosition(hasValueClause); } } } else { if (value == null) { // The value to store is on the top of the stack - convert it to an // object and store it in a temporary variable. EmitConversion.Convert(generator, valueType, PrimitiveType.Any, optimizationInfo); value = generator.CreateTemporaryVariable(typeof(object)); generator.StoreVariable(value); } if (scopeVariable == null) { EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.CastClass(typeof(ObjectScope)); generator.Call(ReflectionHelpers.ObjectScope_ScopeObject); if (scope.ParentScope == null && throwIfUnresolvable == false) { // Sets the value of a global variable. // JS: object.property = value // C# ==> // if (propertyName == null) // propertyName = new PropertyName("property"); // object.SetPropertyValue(propertyName, value, strictMode); ILLocalVariable propertyName = optimizationInfo.GetGlobalPropertyReferenceVariable(generator, this.Name); generator.LoadVariable(propertyName); generator.Duplicate(); var afterIf = generator.CreateLabel(); generator.BranchIfNotNull(afterIf); generator.Pop(); generator.LoadString(this.Name); generator.NewObject(ReflectionHelpers.PropertyName_Constructor); generator.Duplicate(); generator.StoreVariable(propertyName); generator.DefineLabelPosition(afterIf); generator.LoadVariable(value); generator.LoadBoolean(optimizationInfo.StrictMode); generator.Call(ReflectionHelpers.ObjectInstance_SetPropertyValue_PropertyReference); } else { // Setting a variable within a "with" scope. generator.LoadString(this.Name); generator.LoadVariable(value); generator.LoadBoolean(optimizationInfo.StrictMode); // Set the property value if the property exists. generator.Call(ReflectionHelpers.ObjectInstance_SetPropertyValueIfExists); // The return value is true if the property was defined, and false if it wasn't. generator.BranchIfTrue(endOfSet); } } // Try the parent scope. if (scope.ParentScope != null && scope.ExistsAtRuntime == true) { if (scopeVariable == null) { scopeVariable = generator.CreateTemporaryVariable(typeof(Scope)); EmitHelpers.LoadScope(generator); } else { generator.LoadVariable(scopeVariable); } generator.Call(ReflectionHelpers.Scope_ParentScope); generator.StoreVariable(scopeVariable); } scope = scope.ParentScope; } while (scope != null); // The value might be still on top of the stack. if (value == null && scope == null) { generator.Pop(); } // Throw an error if the name does not exist and throwIfUnresolvable is true. if (scope == null && throwIfUnresolvable == true) { EmitHelpers.EmitThrow(generator, ErrorType.ReferenceError, this.Name + " is not defined", optimizationInfo); } // Release the temporary variables. if (value != null) { generator.ReleaseTemporaryVariable(value); } if (scopeVariable != null) { generator.ReleaseTemporaryVariable(scopeVariable); } // Define a label at the end. generator.DefineLabelPosition(endOfSet); }