|
public static EmitNull ( |
||
| generator | The IL generator. | |
| 리턴 | void | |
/// <summary>
/// Pops the value on the stack, converts it to the given type, then pushes the result
/// onto the stack.
/// </summary>
/// <param name="generator"> The IL generator. </param>
/// <param name="fromType"> The type to convert from. </param>
/// <param name="toType"> The type to convert to. </param>
/// <param name="path"> The path of the javascript source file that is currently executing. </param>
/// <param name="function"> The name of the currently executing function. </param>
/// <param name="line"> The line number of the statement that is currently executing. </param>
public static void Convert(ILGenerator generator, PrimitiveType fromType, PrimitiveType toType, string path, string function, int line)
{
// Check that a conversion is actually necessary.
if (fromType == toType)
{
return;
}
switch (toType)
{
case PrimitiveType.Any:
ToAny(generator, fromType);
break;
case PrimitiveType.Undefined:
generator.Pop();
EmitHelpers.EmitUndefined(generator);
break;
case PrimitiveType.Null:
generator.Pop();
EmitHelpers.EmitNull(generator);
break;
case PrimitiveType.Bool:
ToBool(generator, fromType);
break;
case PrimitiveType.Int32:
ToInt32(generator, fromType);
break;
case PrimitiveType.UInt32:
ToUInt32(generator, fromType);
break;
case PrimitiveType.Number:
ToNumber(generator, fromType);
break;
case PrimitiveType.String:
ToString(generator, fromType);
break;
case PrimitiveType.ConcatenatedString:
ToConcatenatedString(generator, fromType);
break;
case PrimitiveType.Object:
ToObject(generator, fromType, path, function, line);
break;
default:
throw new NotImplementedException(string.Format("Unsupported primitive type: {0}", toType));
}
}
/// <summary>
/// Generates IL for the script.
/// </summary>
/// <param name="generator"> The generator to output the CIL to. </param>
/// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param>
protected override void GenerateCode(ILGenerator generator, OptimizationInfo optimizationInfo)
{
// Method signature: object FunctionDelegate(Compiler.Scope scope, object thisObject, Library.FunctionInstance functionObject, object[] arguments)
// Initialize the scope (note: the initial scope for a function is always declarative).
this.InitialScope.GenerateScopeCreation(generator, optimizationInfo);
// Verify the scope is correct.
VerifyScope(generator);
// In ES3 the "this" value must be an object. See 10.4.3 in the spec.
if (this.StrictMode == false && this.MethodOptimizationHints.HasThis == true)
{
// if (thisObject == null || thisObject == Null.Value || thisObject == Undefined.Value)
EmitHelpers.LoadThis(generator);
generator.LoadNull();
generator.CompareEqual();
EmitHelpers.LoadThis(generator);
EmitHelpers.EmitNull(generator);
generator.CompareEqual();
generator.BitwiseOr();
EmitHelpers.LoadThis(generator);
EmitHelpers.EmitUndefined(generator);
generator.CompareEqual();
generator.BitwiseOr();
// {
var startOfFalse = generator.CreateLabel();
generator.BranchIfFalse(startOfFalse);
// thisObject = engine.Global;
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_Global);
// } else {
var endOfIf = generator.CreateLabel();
generator.Branch(endOfIf);
generator.DefineLabelPosition(startOfFalse);
// thisObject = TypeConverter.ToObject(thisObject);
EmitHelpers.LoadThis(generator);
EmitConversion.ToObject(generator, PrimitiveType.Any, optimizationInfo);
// }
generator.DefineLabelPosition(endOfIf);
EmitHelpers.StoreThis(generator);
}
// Transfer the function name into the scope.
if (string.IsNullOrEmpty(this.Name) == false &&
this.IncludeNameInScope == true &&
this.ArgumentNames.Contains(this.Name) == false &&
optimizationInfo.MethodOptimizationHints.HasVariable(this.Name))
{
EmitHelpers.LoadFunction(generator);
var functionName = new NameExpression(this.InitialScope, this.Name);
functionName.GenerateSet(generator, optimizationInfo, PrimitiveType.Any, false);
}
// Transfer the arguments object into the scope.
if (this.MethodOptimizationHints.HasArguments == true && this.ArgumentNames.Contains("arguments") == false)
{
// prototype
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_Object);
generator.Call(ReflectionHelpers.FunctionInstance_InstancePrototype);
// callee
EmitHelpers.LoadFunction(generator);
generator.CastClass(typeof(Library.UserDefinedFunction));
// scope
EmitHelpers.LoadScope(generator);
generator.CastClass(typeof(DeclarativeScope));
// argumentValues
EmitHelpers.LoadArgumentsArray(generator);
generator.NewObject(ReflectionHelpers.Arguments_Constructor);
var arguments = new NameExpression(this.InitialScope, "arguments");
arguments.GenerateSet(generator, optimizationInfo, PrimitiveType.Any, false);
}
// Transfer the argument values into the scope.
// Note: the arguments array can be smaller than expected.
if (this.ArgumentNames.Count > 0)
{
var endOfArguments = generator.CreateLabel();
for (int i = 0; i < this.ArgumentNames.Count; i++)
{
// Check if a duplicate argument name exists.
bool duplicate = false;
for (int j = i + 1; j < this.ArgumentNames.Count; j++)
{
if (this.ArgumentNames[i] == this.ArgumentNames[j])
{
duplicate = true;
break;
}
}
if (duplicate == true)
{
continue;
}
// Check if an array element exists.
EmitHelpers.LoadArgumentsArray(generator);
generator.LoadArrayLength();
generator.LoadInt32(i);
generator.BranchIfLessThanOrEqual(endOfArguments);
// Store the array element in the scope.
EmitHelpers.LoadArgumentsArray(generator);
generator.LoadInt32(i);
generator.LoadArrayElement(typeof(object));
var argument = new NameExpression(this.InitialScope, this.ArgumentNames[i]);
argument.GenerateSet(generator, optimizationInfo, PrimitiveType.Any, false);
}
generator.DefineLabelPosition(endOfArguments);
}
// Initialize any declarations.
this.InitialScope.GenerateDeclarations(generator, optimizationInfo);
//EmitHelpers.LoadScope(generator);
//EmitConversion.ToObject(generator, PrimitiveType.Any);
//generator.Pop();
// Generate code for the body of the function.
this.AbstractSyntaxTree.GenerateCode(generator, optimizationInfo);
// Define the return target - this is where the return statement jumps to.
// ReturnTarget can be null if there were no return statements.
if (optimizationInfo.ReturnTarget != null)
{
generator.DefineLabelPosition(optimizationInfo.ReturnTarget);
}
// Load the return value. If the variable is null, there were no return statements.
if (optimizationInfo.ReturnVariable != null)
{
// Return the value stored in the variable. Will be null if execution hits the end
// of the function without encountering any return statements.
generator.LoadVariable(optimizationInfo.ReturnVariable);
}
else
{
// There were no return statements - return null.
generator.LoadNull();
}
}
/// <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)
{
// Literals cannot have side-effects so if a return value is not expected then generate
// nothing.
//if (optimizationInfo.SuppressReturnValue == true)
// return;
if (this.Value is int)
{
generator.LoadInt32((int)this.Value);
}
else if (this.Value is double)
{
generator.LoadDouble((double)this.Value);
}
else if (this.Value is string)
{
generator.LoadString((string)this.Value);
}
else if (this.Value is bool)
{
generator.LoadBoolean((bool)this.Value);
}
else if (this.Value is RegularExpressionLiteral)
{
// RegExp
var sharedRegExpVariable = optimizationInfo.GetRegExpVariable(generator, (RegularExpressionLiteral)this.Value);
var label1 = generator.CreateLabel();
var label2 = generator.CreateLabel();
// if (sharedRegExp == null) {
generator.LoadVariable(sharedRegExpVariable);
generator.LoadNull();
generator.BranchIfNotEqual(label1);
// sharedRegExp = Global.RegExp.Construct(source, flags)
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_RegExp);
generator.LoadString(((RegularExpressionLiteral)this.Value).Pattern);
generator.LoadString(((RegularExpressionLiteral)this.Value).Flags);
generator.Call(ReflectionHelpers.RegExp_Construct);
generator.Duplicate();
generator.StoreVariable(sharedRegExpVariable);
// } else {
generator.Branch(label2);
generator.DefineLabelPosition(label1);
// Global.RegExp.Construct(sharedRegExp, flags)
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_RegExp);
generator.LoadVariable(sharedRegExpVariable);
generator.LoadNull();
generator.Call(ReflectionHelpers.RegExp_Construct);
// }
generator.DefineLabelPosition(label2);
}
else if (this.Value == Null.Value)
{
// Null.
EmitHelpers.EmitNull(generator);
}
else if (this.Value == Undefined.Value)
{
// Undefined.
EmitHelpers.EmitUndefined(generator);
}
else if (this.Value is List <Expression> )
{
// Construct an array literal.
var arrayLiteral = (List <Expression>) this.Value;
// Operands for ArrayConstructor.New() are: an ArrayConstructor instance (ArrayConstructor), an array (object[])
// ArrayConstructor
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_Array);
// object[]
generator.LoadInt32(arrayLiteral.Count);
generator.NewArray(typeof(object));
for (int i = 0; i < arrayLiteral.Count; i++)
{
// Operands for StoreArrayElement() are: an array (object[]), index (int), value (object).
// Array
generator.Duplicate();
// Index
generator.LoadInt32(i);
// Value
var elementExpression = arrayLiteral[i];
if (elementExpression == null)
{
generator.LoadNull();
}
else
{
elementExpression.GenerateCode(generator, optimizationInfo);
EmitConversion.ToAny(generator, elementExpression.ResultType);
}
// Store the element value.
generator.StoreArrayElement(typeof(object));
}
// ArrayConstructor.New(object[])
generator.Call(ReflectionHelpers.Array_New);
}
else if (this.Value is List <KeyValuePair <Expression, Expression> > )
{
// This is an object literal.
var properties = (List <KeyValuePair <Expression, Expression> >) this.Value;
// Create a new object.
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_Object);
generator.Call(ReflectionHelpers.Object_Construct);
foreach (var keyValuePair in properties)
{
Expression propertyName = keyValuePair.Key;
Expression propertyValue = keyValuePair.Value;
generator.Duplicate();
// The key can be a property name or an expression that evaluates to a name.
propertyName.GenerateCode(generator, optimizationInfo);
EmitConversion.ToPropertyKey(generator, propertyName.ResultType);
var functionValue = propertyValue as FunctionExpression;
if (functionValue != null && functionValue.DeclarationType == FunctionDeclarationType.Getter)
{
// Add a getter to the object.
functionValue.GenerateCode(generator, optimizationInfo);
// Support the inferred function displayName property.
if (propertyName is LiteralExpression && ((LiteralExpression)propertyName).Value is string)
{
functionValue.GenerateDisplayName(generator, optimizationInfo, "get " + (string)((LiteralExpression)propertyName).Value, true);
}
generator.Call(ReflectionHelpers.ReflectionHelpers_SetObjectLiteralGetter);
}
else if (functionValue != null && functionValue.DeclarationType == FunctionDeclarationType.Setter)
{
// Add a setter to the object.
functionValue.GenerateCode(generator, optimizationInfo);
// Support the inferred function displayName property.
if (propertyName is LiteralExpression && ((LiteralExpression)propertyName).Value is string)
{
functionValue.GenerateDisplayName(generator, optimizationInfo, "set " + (string)((LiteralExpression)propertyName).Value, true);
}
generator.Call(ReflectionHelpers.ReflectionHelpers_SetObjectLiteralSetter);
}
else
{
// Add a new property to the object.
propertyValue.GenerateCode(generator, optimizationInfo);
// Support the inferred function displayName property.
if (propertyValue is FunctionExpression && propertyName is LiteralExpression && ((LiteralExpression)propertyName).Value is string)
{
((FunctionExpression)propertyValue).GenerateDisplayName(generator, optimizationInfo, (string)((LiteralExpression)propertyName).Value, false);
}
EmitConversion.ToAny(generator, propertyValue.ResultType);
generator.Call(ReflectionHelpers.ReflectionHelpers_SetObjectLiteralValue);
}
}
}
else
{
throw new NotImplementedException("Unknown literal type.");
}
}
/// <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)
{
// Literals cannot have side-effects so if a return value is not expected then generate
// nothing.
//if (optimizationInfo.SuppressReturnValue == true)
// return;
if (this.Value is int)
{
generator.LoadInt32((int)this.Value);
}
else if (this.Value is double)
{
generator.LoadDouble((double)this.Value);
}
else if (this.Value is string)
{
generator.LoadString((string)this.Value);
}
else if (this.Value is bool)
{
generator.LoadBoolean((bool)this.Value);
}
else if (this.Value is RegularExpressionLiteral)
{
// RegExp
var sharedRegExpVariable = optimizationInfo.GetRegExpVariable(generator, (RegularExpressionLiteral)this.Value);
var label1 = generator.CreateLabel();
var label2 = generator.CreateLabel();
// if (sharedRegExp == null) {
generator.LoadVariable(sharedRegExpVariable);
generator.LoadNull();
generator.BranchIfNotEqual(label1);
// sharedRegExp = Global.RegExp.Construct(source, flags)
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_RegExp);
generator.LoadString(((RegularExpressionLiteral)this.Value).Pattern);
generator.LoadString(((RegularExpressionLiteral)this.Value).Flags);
generator.Call(ReflectionHelpers.RegExp_Construct);
generator.Duplicate();
generator.StoreVariable(sharedRegExpVariable);
// } else {
generator.Branch(label2);
generator.DefineLabelPosition(label1);
// Global.RegExp.Construct(sharedRegExp, flags)
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_RegExp);
generator.LoadVariable(sharedRegExpVariable);
generator.LoadNull();
generator.Call(ReflectionHelpers.RegExp_Construct);
// }
generator.DefineLabelPosition(label2);
}
else if (this.Value == Null.Value)
{
// Null.
EmitHelpers.EmitNull(generator);
}
else if (this.Value == Undefined.Value)
{
// Undefined.
EmitHelpers.EmitUndefined(generator);
}
else if (this.Value is List <Expression> )
{
// Construct an array literal.
var arrayLiteral = (List <Expression>) this.Value;
// Operands for ArrayConstructor.New() are: an ArrayConstructor instance (ArrayConstructor), an array (object[])
// ArrayConstructor
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_Array);
// object[]
generator.LoadInt32(arrayLiteral.Count);
generator.NewArray(typeof(object));
for (int i = 0; i < arrayLiteral.Count; i++)
{
// Operands for StoreArrayElement() are: an array (object[]), index (int), value (object).
// Array
generator.Duplicate();
// Index
generator.LoadInt32(i);
// Value
var elementExpression = arrayLiteral[i];
if (elementExpression == null)
{
generator.LoadNull();
}
else
{
elementExpression.GenerateCode(generator, optimizationInfo);
EmitConversion.ToAny(generator, elementExpression.ResultType);
}
// Store the element value.
generator.StoreArrayElement(typeof(object));
}
// ArrayConstructor.New(object[])
generator.Call(ReflectionHelpers.Array_New);
}
else if (this.Value is Dictionary <string, object> )
{
// This is an object literal.
var properties = (Dictionary <string, object>) this.Value;
// Create a new object.
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_Object);
generator.Call(ReflectionHelpers.Object_Construct);
foreach (var keyValuePair in properties)
{
string propertyName = keyValuePair.Key;
object propertyValue = keyValuePair.Value;
generator.Duplicate();
generator.LoadString(propertyName);
if (propertyValue is Expression)
{
// Add a new property to the object.
var dataPropertyValue = (Expression)propertyValue;
dataPropertyValue.GenerateCode(generator, optimizationInfo);
// Support the inferred function displayName property.
if (dataPropertyValue is FunctionExpression)
{
((FunctionExpression)dataPropertyValue).GenerateDisplayName(generator, optimizationInfo, propertyName, false);
}
EmitConversion.ToAny(generator, dataPropertyValue.ResultType);
generator.LoadBoolean(optimizationInfo.StrictMode);
generator.Call(ReflectionHelpers.ObjectInstance_SetPropertyValue_String);
}
else if (propertyValue is Parser.ObjectLiteralAccessor)
{
// Add a new getter/setter to the object.
var accessorValue = (Parser.ObjectLiteralAccessor)propertyValue;
if (accessorValue.Getter != null)
{
accessorValue.Getter.GenerateCode(generator, optimizationInfo);
// Support the inferred function displayName property.
accessorValue.Getter.GenerateDisplayName(generator, optimizationInfo, "get " + propertyName, true);
EmitConversion.ToAny(generator, accessorValue.Getter.ResultType);
}
else
{
generator.LoadNull();
}
if (accessorValue.Setter != null)
{
accessorValue.Setter.GenerateCode(generator, optimizationInfo);
// Support the inferred function displayName property.
accessorValue.Setter.GenerateDisplayName(generator, optimizationInfo, "set " + propertyName, true);
EmitConversion.ToAny(generator, accessorValue.Setter.ResultType);
}
else
{
generator.LoadNull();
}
generator.LoadInt32((int)Library.PropertyAttributes.FullAccess);
generator.NewObject(ReflectionHelpers.PropertyDescriptor_Constructor3);
generator.LoadBoolean(false);
generator.Call(ReflectionHelpers.ObjectInstance_DefineProperty);
generator.Pop();
}
else
{
throw new InvalidOperationException("Invalid property value type in object literal.");
}
}
}
else
{
throw new NotImplementedException("Unknown literal type.");
}
}
/// <summary>
/// Pops the value on the stack, converts it to an object, then pushes the result onto the
/// stack.
/// </summary>
/// <param name="generator"> The IL generator. </param>
/// <param name="fromType"> The type to convert from. </param>
internal static void EmitConversionToObject(ILGenerator generator, Type fromType)
{
// If the from type is a reference type, check for null.
ILLabel endOfNullCheck = null;
if (fromType.IsValueType == false)
{
var startOfElse = generator.CreateLabel();
endOfNullCheck = generator.CreateLabel();
generator.Duplicate();
generator.BranchIfNotNull(startOfElse);
generator.Pop();
EmitHelpers.EmitNull(generator);
generator.Branch(endOfNullCheck);
generator.DefineLabelPosition(startOfElse);
}
// Handle Nullable<>.
var isNullable = fromType.IsGenericType && fromType.GetGenericTypeDefinition() == typeof(Nullable <>);
if (isNullable)
{
endOfNullCheck = generator.CreateLabel();
var v = generator.CreateTemporaryVariable(fromType);
generator.StoreVariable(v);
generator.LoadAddressOfVariable(v);
var hasValue = ReflectionHelpers.GetInstanceMethod(fromType, "get_HasValue");
generator.Call(hasValue);
generator.BranchIfTrue(endOfNullCheck);
// Return null.
generator.LoadNull();
generator.Return();
// Jump here if it was NOT null.
generator.DefineLabelPosition(endOfNullCheck);
// Get the underlying value.
generator.LoadAddressOfVariable(v);
var getValue = ReflectionHelpers.GetInstanceMethod(fromType, "get_Value");
generator.Call(getValue);
// Now let the normal conversion work.
fromType = fromType.GenericTypeArguments[0];
}
switch (Type.GetTypeCode(fromType))
{
case TypeCode.Boolean:
generator.Box(typeof(bool));
break;
case TypeCode.Byte:
generator.Box(typeof(int));
break;
case TypeCode.Char:
generator.LoadInt32(1);
generator.NewObject(ReflectionHelpers.String_Constructor_Char_Int);
break;
case TypeCode.DBNull:
throw new NotSupportedException("DBNull is not a supported return type.");
case TypeCode.Decimal:
generator.Call(ReflectionHelpers.Decimal_ToDouble);
generator.Box(typeof(double));
break;
case TypeCode.Double:
generator.Box(typeof(double));
break;
case TypeCode.Empty:
throw new NotSupportedException("Empty is not a supported return type.");
case TypeCode.Int16:
generator.Box(typeof(int));
break;
case TypeCode.Int32:
generator.Box(typeof(int));
break;
case TypeCode.Int64:
generator.ConvertToDouble();
generator.Box(typeof(double));
break;
case TypeCode.DateTime:
case TypeCode.Object:
// Check if the type must be wrapped with a ClrInstanceWrapper.
// Note: if the type is a value type it cannot be a primitive or it would
// have been handled elsewhere in the switch.
ILLabel endOfWrapCheck = null;
if (fromType.IsValueType == false)
{
generator.Duplicate();
generator.Call(ReflectionHelpers.TypeUtilities_IsPrimitiveOrObject);
endOfWrapCheck = generator.CreateLabel();
generator.BranchIfTrue(endOfWrapCheck);
}
// The type must be wrapped.
var temp = generator.CreateTemporaryVariable(fromType);
generator.StoreVariable(temp);
generator.LoadArgument(0);
generator.LoadVariable(temp);
if (fromType.IsValueType == true)
{
generator.Box(fromType);
}
generator.ReleaseTemporaryVariable(temp);
generator.CallStatic(ReflectionHelpers.ClrInstanceWrapper_Create);
// End of wrap check.
if (fromType.IsValueType == false)
{
generator.DefineLabelPosition(endOfWrapCheck);
}
break;
case TypeCode.SByte:
generator.Box(typeof(int));
break;
case TypeCode.Single:
generator.Box(typeof(double));
break;
case TypeCode.String:
break;
case TypeCode.UInt16:
generator.Box(typeof(int));
break;
case TypeCode.UInt32:
generator.Box(typeof(uint));
break;
case TypeCode.UInt64:
generator.ConvertUnsignedToDouble();
generator.Box(typeof(double));
break;
}
// Label the end of the null check.
if (fromType.IsValueType == false)
{
generator.DefineLabelPosition(endOfNullCheck);
}
}
/// <summary>
/// Pops the value on the stack, converts it from an object to the given type, then pushes
/// the result onto the stack.
/// </summary>
/// <param name="generator"> The IL generator. </param>
/// <param name="toType"> The type to convert to. </param>
/// <param name="convertToAddress"> <c>true</c> if the value is intended for use as an
/// instance pointer; <c>false</c> otherwise. </param>
internal static void EmitConversionToType(ILGenerator generator, Type toType, bool convertToAddress)
{
// Convert Null.Value to null if the target type is a reference type.
ILLabel endOfNullCheck = null;
if (toType.IsValueType == false)
{
var startOfElse = generator.CreateLabel();
endOfNullCheck = generator.CreateLabel();
generator.Duplicate();
EmitHelpers.EmitNull(generator);
generator.BranchIfNotEqual(startOfElse);
generator.Pop();
generator.LoadNull();
generator.Branch(endOfNullCheck);
generator.DefineLabelPosition(startOfElse);
}
switch (Type.GetTypeCode(toType))
{
case TypeCode.Boolean:
EmitConversion.ToBool(generator, PrimitiveType.Any);
break;
case TypeCode.Byte:
EmitConversion.ToInt32(generator, PrimitiveType.Any);
break;
case TypeCode.Char:
EmitConversion.ToString(generator, PrimitiveType.Any);
generator.Duplicate();
generator.Call(ReflectionHelpers.String_Length);
generator.LoadInt32(1);
var endOfCharCheck = generator.CreateLabel();
generator.BranchIfEqual(endOfCharCheck);
EmitHelpers.EmitThrow(generator, ErrorType.TypeError, "Cannot convert string to char - the string must be exactly one character long");
generator.DefineLabelPosition(endOfCharCheck);
generator.LoadInt32(0);
generator.Call(ReflectionHelpers.String_GetChars);
break;
case TypeCode.DBNull:
throw new NotSupportedException("DBNull is not a supported parameter type.");
case TypeCode.Decimal:
EmitConversion.ToNumber(generator, PrimitiveType.Any);
generator.NewObject(ReflectionHelpers.Decimal_Constructor_Double);
break;
case TypeCode.Double:
EmitConversion.ToNumber(generator, PrimitiveType.Any);
break;
case TypeCode.Empty:
throw new NotSupportedException("Empty is not a supported return type.");
case TypeCode.Int16:
EmitConversion.ToInt32(generator, PrimitiveType.Any);
break;
case TypeCode.Int32:
EmitConversion.ToInt32(generator, PrimitiveType.Any);
break;
case TypeCode.Int64:
EmitConversion.ToNumber(generator, PrimitiveType.Any);
generator.ConvertToInt64();
break;
case TypeCode.DateTime:
case TypeCode.Object:
// Check if the type must be unwrapped.
generator.Duplicate();
generator.IsInstance(typeof(Jurassic.Library.ClrInstanceWrapper));
var endOfUnwrapCheck = generator.CreateLabel();
generator.BranchIfFalse(endOfUnwrapCheck);
// Unwrap the wrapped instance.
generator.Call(ReflectionHelpers.ClrInstanceWrapper_GetWrappedInstance);
generator.DefineLabelPosition(endOfUnwrapCheck);
// Value types must be unboxed.
if (toType.IsValueType == true)
{
if (convertToAddress == true)
{
// Unbox.
generator.Unbox(toType);
}
else
{
// Unbox and copy to the stack.
generator.UnboxAny(toType);
}
//// Calling methods on value required the address of the value type, not the value type itself.
//if (argument.Source == BinderArgumentSource.ThisValue && argument.Type.IsValueType == true)
//{
// var temp = generator.CreateTemporaryVariable(argument.Type);
// generator.StoreVariable(temp);
// generator.LoadAddressOfVariable(temp);
// generator.ReleaseTemporaryVariable(temp);
//}
}
break;
case TypeCode.SByte:
EmitConversion.ToInt32(generator, PrimitiveType.Any);
break;
case TypeCode.Single:
EmitConversion.ToNumber(generator, PrimitiveType.Any);
break;
case TypeCode.String:
EmitConversion.ToString(generator, PrimitiveType.Any);
break;
case TypeCode.UInt16:
EmitConversion.ToInt32(generator, PrimitiveType.Any);
break;
case TypeCode.UInt32:
EmitConversion.ToUInt32(generator, PrimitiveType.Any);
break;
case TypeCode.UInt64:
EmitConversion.ToNumber(generator, PrimitiveType.Any);
generator.ConvertToUnsignedInt64();
break;
}
// Label the end of the null check.
if (toType.IsValueType == false)
{
generator.DefineLabelPosition(endOfNullCheck);
}
}
/// <summary>
/// Generates a method that does type conversion and calls the bound method.
/// </summary>
/// <param name="generator"> The ILGenerator used to output the body of the method. </param>
/// <param name="argumentCount"> The number of arguments that will be passed to the delegate. </param>
/// <returns> A delegate that does type conversion and calls the method represented by this
/// object. </returns>
protected override void GenerateStub(ILGenerator generator, int argumentCount)
{
// Here is what we are going to generate.
//private static object SampleBinder(ScriptEngine engine, object thisObject, object[] arguments)
//{
// // Target function signature: int (bool, int, string, object).
// bool param1;
// int param2;
// string param3;
// object param4;
// param1 = arguments[0] != 0;
// param2 = TypeConverter.ToInt32(arguments[1]);
// param3 = TypeConverter.ToString(arguments[2]);
// param4 = Undefined.Value;
// return thisObject.targetMethod(param1, param2, param3, param4);
//}
// Find the target method.
var binderMethod = this.buckets[Math.Min(argumentCount, this.buckets.Length - 1)];
// Constrain the number of apparent arguments to within the required bounds.
int minArgumentCount = binderMethod.RequiredParameterCount;
int maxArgumentCount = binderMethod.RequiredParameterCount + binderMethod.OptionalParameterCount;
if (binderMethod.HasParamArray == true)
{
maxArgumentCount = int.MaxValue;
}
foreach (var argument in binderMethod.GenerateArguments(generator, Math.Min(Math.Max(argumentCount, minArgumentCount), maxArgumentCount)))
{
switch (argument.Source)
{
case BinderArgumentSource.ScriptEngine:
// Load the "engine" parameter passed by the client.
generator.LoadArgument(0);
break;
case BinderArgumentSource.ThisValue:
// Load the "this" parameter passed by the client.
generator.LoadArgument(1);
bool inheritsFromObjectInstance = typeof(ObjectInstance).IsAssignableFrom(argument.Type);
if (argument.Type.IsClass == true && inheritsFromObjectInstance == false &&
argument.Type != typeof(string) && argument.Type != typeof(object))
{
// If the "this" object is an unsupported class, pass it through unmodified.
generator.CastClass(argument.Type);
}
else
{
if (argument.Type != typeof(object))
{
// If the target "this" object type is not of type object, throw an error if
// the value is undefined or null.
generator.Duplicate();
var temp = generator.CreateTemporaryVariable(typeof(object));
generator.StoreVariable(temp);
generator.LoadArgument(0);
generator.LoadVariable(temp);
generator.LoadString(binderMethod.Name);
generator.Call(ReflectionHelpers.TypeUtilities_VerifyThisObject);
generator.ReleaseTemporaryVariable(temp);
}
// Convert to the target type.
EmitTypeConversion(generator, typeof(object), argument.Type);
if (argument.Type != typeof(ObjectInstance) && inheritsFromObjectInstance == true)
{
// EmitConversionToObjectInstance can emit null if the toType is derived from ObjectInstance.
// Therefore, if the value emitted is null it means that the "thisObject" is a type derived
// from ObjectInstance (e.g. FunctionInstance) and the value provided is a different type
// (e.g. ArrayInstance). In this case, throw an exception explaining that the function is
// not generic.
var endOfThrowLabel = generator.CreateLabel();
generator.Duplicate();
generator.BranchIfNotNull(endOfThrowLabel);
generator.LoadArgument(0);
EmitHelpers.EmitThrow(generator, "TypeError", string.Format("The method '{0}' is not generic", binderMethod.Name));
generator.DefineLabelPosition(endOfThrowLabel);
}
}
break;
case BinderArgumentSource.InputParameter:
if (argument.InputParameterIndex < argumentCount)
{
// Load the argument onto the stack.
generator.LoadArgument(2);
generator.LoadInt32(argument.InputParameterIndex);
generator.LoadArrayElement(typeof(object));
// Get some flags that apply to the parameter.
var parameterFlags = JSParameterFlags.None;
var parameterAttribute = argument.GetCustomAttribute <JSParameterAttribute>();
if (parameterAttribute != null)
{
if (argument.Type != typeof(ObjectInstance))
{
throw new NotImplementedException("[JSParameter] is only supported for arguments of type ObjectInstance.");
}
parameterFlags = parameterAttribute.Flags;
}
if ((parameterFlags & JSParameterFlags.DoNotConvert) == 0)
{
// Convert the input parameter to the correct type.
EmitTypeConversion(generator, typeof(object), argument);
}
else
{
// Don't do argument conversion.
/*var endOfThrowLabel = generator.CreateLabel();
* generator.IsInstance(typeof(ObjectInstance));
* generator.Duplicate();
* generator.BranchIfNotNull(endOfThrowLabel);
* EmitHelpers.EmitThrow(generator, "TypeError", string.Format("Parameter {1} parameter of '{0}' must be an object", binderMethod.Name, argument.InputParameterIndex));
* generator.DefineLabelPosition(endOfThrowLabel);*/
}
}
else
{
// The target method has more parameters than we have input values.
EmitUndefined(generator, argument);
}
break;
}
}
// Emit the call.
binderMethod.GenerateCall(generator);
// Convert the return value.
if (binderMethod.ReturnType == typeof(void))
{
EmitHelpers.EmitUndefined(generator);
}
else
{
EmitTypeConversion(generator, binderMethod.ReturnType, typeof(object));
// Convert a null return value to Null.Value or Undefined.Value.
var endOfSpecialCaseLabel = generator.CreateLabel();
generator.Duplicate();
generator.BranchIfNotNull(endOfSpecialCaseLabel);
generator.Pop();
if ((binderMethod.Flags & JSFunctionFlags.ConvertNullReturnValueToUndefined) != 0)
{
EmitHelpers.EmitUndefined(generator);
}
else
{
EmitHelpers.EmitNull(generator);
}
generator.DefineLabelPosition(endOfSpecialCaseLabel);
}
// End the IL.
generator.Complete();
}
/// <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)
{
// Literals cannot have side-effects so if a return value is not expected then generate
// nothing.
//if (optimizationInfo.SuppressReturnValue == true)
// return;
if (this.Value is int)
{
generator.LoadInt32((int)this.Value);
}
else if (this.Value is double)
{
generator.LoadDouble((double)this.Value);
}
else if (this.Value is string)
{
generator.LoadString((string)this.Value);
}
else if (this.Value is bool)
{
generator.LoadBoolean((bool)this.Value);
}
else if (this.Value is RegularExpressionLiteral)
{
// RegExp
var sharedRegExpVariable = optimizationInfo.GetRegExpVariable(generator, (RegularExpressionLiteral)this.Value);
var label1 = generator.CreateLabel();
var label2 = generator.CreateLabel();
// if (sharedRegExp == null) {
generator.LoadVariable(sharedRegExpVariable);
generator.BranchIfNotNull(label1);
// sharedRegExp = Global.RegExp.Construct(source, flags)
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_RegExp);
generator.LoadString(((RegularExpressionLiteral)this.Value).Pattern);
generator.LoadString(((RegularExpressionLiteral)this.Value).Flags);
generator.Call(ReflectionHelpers.RegExp_Construct);
generator.Duplicate();
generator.StoreVariable(sharedRegExpVariable);
// } else {
generator.Branch(label2);
generator.DefineLabelPosition(label1);
// Global.RegExp.Construct(sharedRegExp, flags)
EmitHelpers.LoadScriptEngine(generator);
generator.Call(ReflectionHelpers.ScriptEngine_RegExp);
generator.LoadVariable(sharedRegExpVariable);
generator.LoadNull();
generator.Call(ReflectionHelpers.RegExp_Construct);
// }
generator.DefineLabelPosition(label2);
}
else if (this.Value == Null.Value)
{
// Null.
EmitHelpers.EmitNull(generator);
}
else if (this.Value == Undefined.Value)
{
// Undefined.
EmitHelpers.EmitUndefined(generator);
}
else
{
throw new NotImplementedException("Unknown literal type.");
}
}
