private static void InsertBinaryOperationMethod(Core core, CodeBlockNode root, Operator op, PrimitiveType r, PrimitiveType op1, PrimitiveType op2, int retRank = 0, int op1rank = 0, int op2rank = 0)
{
FunctionDefinitionNode funcDefNode = new FunctionDefinitionNode();
funcDefNode.access = CompilerDefinitions.AccessModifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetOpFunction(op);
funcDefNode.ReturnType = new Type() { Name = core.TypeSystem.GetType((int)r), UID = (int)r, rank = retRank };
ArgumentSignatureNode args = new ArgumentSignatureNode();
args.AddArgument(new VarDeclNode()
{
Access = CompilerDefinitions.AccessModifier.kPublic,
NameNode = AstFactory.BuildIdentifier(DSASM.Constants.kLHS),
ArgumentType = new Type { Name = core.TypeSystem.GetType((int)op1), UID = (int)op1, rank = op1rank }
});
args.AddArgument(new VarDeclNode()
{
Access = CompilerDefinitions.AccessModifier.kPublic,
NameNode = AstFactory.BuildIdentifier(DSASM.Constants.kRHS),
ArgumentType = new Type { Name = core.TypeSystem.GetType((int)op2), UID = (int)op2, rank = op2rank }
});
funcDefNode.Signature = args;
CodeBlockNode body = new CodeBlockNode();
var lhs = AstFactory.BuildIdentifier(DSASM.Constants.kLHS);
var rhs = AstFactory.BuildIdentifier(DSASM.Constants.kRHS);
var binaryExpr = AstFactory.BuildBinaryExpression(lhs, rhs, op);
body.Body.Add(AstFactory.BuildReturnStatement(binaryExpr));
funcDefNode.FunctionBody = body;
root.Body.Add(funcDefNode);
}
private static void InsertBinaryOperationMethod(Core core, ProtoCore.AST.Node root, Operator op, PrimitiveType r, PrimitiveType op1, PrimitiveType op2, int retRank = 0, int op1rank = 0, int op2rank = 0)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.DSASM.AccessSpecifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetOpFunction(op);
funcDefNode.ReturnType = new ProtoCore.Type() { Name = core.TypeSystem.GetType((int)r), UID = (int)r, rank = retRank};
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kLHS),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)op1), UID = (int)op1, rank = op1rank}
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kRHS),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)op2), UID = (int)op2, rank = op2rank}
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode lhs = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kLHS);
ProtoCore.AST.AssociativeAST.IdentifierNode rhs = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kRHS);
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = _return, Optr = ProtoCore.DSASM.Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = lhs, RightNode = rhs, Optr = op } });
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
private static void InsertInlineConditionOperationMethod(Core core, ProtoCore.AST.Node root, PrimitiveType condition, PrimitiveType r)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.Compiler.AccessSpecifier.kPublic;
funcDefNode.Name = ProtoCore.DSASM.Constants.kInlineCondition;
funcDefNode.ReturnType = new ProtoCore.Type()
{
Name = core.TypeSystem.GetType((int)r), UID = (int)r
};
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.Compiler.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%condition"),
ArgumentType = new ProtoCore.Type {
Name = core.TypeSystem.GetType((int)condition), UID = (int)condition
}
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.Compiler.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%trueExp"),
ArgumentType = new ProtoCore.Type {
Name = core.TypeSystem.GetType((int)r), UID = (int)r
}
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.Compiler.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%falseExp"),
ArgumentType = new ProtoCore.Type {
Name = core.TypeSystem.GetType((int)r), UID = (int)r
}
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode con = BuildAssocIdentifier(core, "%condition");
ProtoCore.AST.AssociativeAST.IdentifierNode t = BuildAssocIdentifier(core, "%trueExp");
ProtoCore.AST.AssociativeAST.IdentifierNode f = BuildAssocIdentifier(core, "%falseExp");
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode()
{
LeftNode = _return, Optr = Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.InlineConditionalNode()
{
ConditionExpression = con, TrueExpression = t, FalseExpression = f
}
});
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
private ProtoCore.AST.AssociativeAST.ArgumentSignatureNode ParseArgumentSignature(MethodBase method)
{
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode argumentSignature = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
ParameterInfo[] parameters = method.GetParameters();
foreach (var parameter in parameters)
{
argumentSignature.AddArgument(ParseArgumentDeclaration(parameter.Name, parameter.ParameterType));
}
return(argumentSignature);
}
public ArgumentSignatureNode(ArgumentSignatureNode rhs)
: base(rhs)
{
Arguments = new List<VarDeclNode>();
foreach (VarDeclNode aNode in rhs.Arguments)
{
VarDeclNode newNode = new VarDeclNode(aNode);
Arguments.Add(newNode);
}
}
private static void InsertBinaryOperationMethod(Core core, ProtoCore.AST.Node root, Operator op, PrimitiveType r, PrimitiveType op1, PrimitiveType op2, int retRank = 0, int op1rank = 0, int op2rank = 0)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.Compiler.AccessSpecifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetOpFunction(op);
funcDefNode.ReturnType = new ProtoCore.Type()
{
Name = core.TypeSystem.GetType((int)r), UID = (int)r, rank = retRank
};
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.Compiler.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kLHS),
ArgumentType = new ProtoCore.Type {
Name = core.TypeSystem.GetType((int)op1), UID = (int)op1, rank = op1rank
}
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.Compiler.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kRHS),
ArgumentType = new ProtoCore.Type {
Name = core.TypeSystem.GetType((int)op2), UID = (int)op2, rank = op2rank
}
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode lhs = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kLHS);
ProtoCore.AST.AssociativeAST.IdentifierNode rhs = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kRHS);
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode()
{
LeftNode = _return, Optr = ProtoCore.DSASM.Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode()
{
LeftNode = lhs, RightNode = rhs, Optr = op
}
});
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
// The following methods are used to insert methods to the bottom of the AST and convert operator to these method calls
// to support replication on operators
private static void InsertUnaryOperationMethod(Core core, ProtoCore.AST.Node root, UnaryOperator op, PrimitiveType r, PrimitiveType operand)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.CompilerDefinitions.AccessModifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetUnaryOpFunction(op);
funcDefNode.ReturnType = new ProtoCore.Type()
{
Name = core.TypeSystem.GetType((int)r), UID = (int)r
};
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.CompilerDefinitions.AccessModifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%param"),
ArgumentType = new ProtoCore.Type {
Name = core.TypeSystem.GetType((int)operand), UID = (int)operand
}
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode param = BuildAssocIdentifier(core, "%param");
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode()
{
LeftNode = _return, Optr = ProtoCore.DSASM.Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.UnaryExpressionNode()
{
Expression = param, Operator = op
}
});
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
private ProtoCore.AST.AssociativeAST.ArgumentSignatureNode ParseArgumentSignature(MethodBase method)
{
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode argumentSignature = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
ParameterInfo[] parameters = method.GetParameters();
foreach (var parameter in parameters)
argumentSignature.AddArgument(ParseArgumentDeclaration(parameter.Name, parameter.ParameterType));
return argumentSignature;
}
private static void InsertInlineConditionOperationMethod(Core core, ProtoCore.AST.Node root, PrimitiveType condition, PrimitiveType r)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.DSASM.AccessSpecifier.kPublic;
funcDefNode.Name = ProtoCore.DSASM.Constants.kInlineCondition;
funcDefNode.ReturnType = new ProtoCore.Type() { Name = core.TypeSystem.GetType((int)r), UID = (int)r };
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%condition"),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)condition), UID = (int)condition }
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%trueExp"),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)r), UID = (int)r }
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%falseExp"),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)r), UID = (int)r }
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode con = BuildAssocIdentifier(core, "%condition");
ProtoCore.AST.AssociativeAST.IdentifierNode t = BuildAssocIdentifier(core, "%trueExp");
ProtoCore.AST.AssociativeAST.IdentifierNode f = BuildAssocIdentifier(core, "%falseExp");
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = _return, Optr = Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.InlineConditionalNode() { ConditionExpression = con, TrueExpression = t, FalseExpression = f } });
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
public String GetFunctionSignatureString(string functionName, ProtoCore.Type returnType, ArgumentSignatureNode signature, bool isConstructor = false)
{
StringBuilder functionSig = new StringBuilder(isConstructor ? "\nconstructor " : "\ndef ");
functionSig.Append(functionName);
functionSig.Append(":");
functionSig.Append(String.IsNullOrEmpty(returnType.Name) ? core.TypeSystem.GetType(returnType.UID) : returnType.Name);
if (returnType.rank < 0)
{
functionSig.Append("[]..[]");
}
else
{
for (int k = 0; k < returnType.rank; ++k)
{
functionSig.Append("[]");
}
}
functionSig.Append("(");
for (int i = 0; i < signature.Arguments.Count; ++i)
{
var arg = signature.Arguments[i];
functionSig.Append(arg.NameNode.Name);
functionSig.Append(":");
if (arg.ArgumentType.UID < 0)
{
functionSig.Append("invalid");
}
else if (arg.ArgumentType.UID == 0 && !String.IsNullOrEmpty(arg.ArgumentType.Name))
{
functionSig.Append(arg.ArgumentType.Name);
}
else
{
functionSig.Append(core.TypeSystem.GetType(arg.ArgumentType.UID));
}
if (arg.ArgumentType.rank < 0)
{
functionSig.Append("[]..[]");
}
else
{
for (int k = 0; k < arg.ArgumentType.rank; ++k)
{
functionSig.Append("[]");
}
}
if (i < signature.Arguments.Count - 1)
{
functionSig.Append(", ");
}
}
functionSig.Append(")\n");
return functionSig.ToString();
}
private FunctionDefinitionNode EmitSetterFunction(ProtoCore.DSASM.SymbolNode prop, ProtoCore.Type argType)
{
var argument = new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
Access = ProtoCore.CompilerDefinitions.AccessModifier.kPublic,
NameNode =AstFactory.BuildIdentifier(Constants.kTempArg),
ArgumentType = argType
};
var argumentSingature = new ArgumentSignatureNode();
argumentSingature.AddArgument(argument);
FunctionDefinitionNode setter = new FunctionDefinitionNode
{
Name = ProtoCore.DSASM.Constants.kSetterPrefix + prop.name,
Signature = argumentSingature,
Pattern = null,
ReturnType = TypeSystem.BuildPrimitiveTypeObject(PrimitiveType.kTypeNull, 0),
FunctionBody = new CodeBlockNode(),
IsExternLib = false,
IsDNI = false,
ExternLibName = null,
Access = prop.access,
IsStatic = prop.isStatic,
IsAutoGenerated = true
};
// property = %tmpArg
var propIdent = new TypedIdentifierNode();
propIdent.Name = propIdent.Value = prop.name;
propIdent.datatype = prop.datatype;
var tmpArg =AstFactory.BuildIdentifier(Constants.kTempArg);
var assignment = AstFactory.BuildBinaryExpression(propIdent, tmpArg, Operator.assign);
setter.FunctionBody.Body.Add(assignment);
// return = null;
var returnNull = AstFactory.BuildReturnStatement(new NullNode());
setter.FunctionBody.Body.Add(returnNull);
return setter;
}
private ArgumentSignatureNode ParseArgumentSignature(MethodBase method)
{
ArgumentSignatureNode argumentSignature = new ArgumentSignatureNode();
ParameterInfo[] parameters = method.GetParameters();
foreach (var parameter in parameters)
{
var paramNode = ParseArgumentDeclaration(parameter.Name, parameter.ParameterType);
if (parameter.IsDefined(typeof(Autodesk.DesignScript.Runtime.ArbitraryDimensionArrayImportAttribute), false))
{
var argType = paramNode.ArgumentType;
argType.rank = ProtoCore.DSASM.Constants.kArbitraryRank;
paramNode.ArgumentType = argType;
}
if (parameter.IsOptional)
{
var lhs = paramNode.NameNode;
var defaultValue = parameter.DefaultValue;
if (defaultValue != null)
{
var rhs = AstFactory.BuildPrimitiveNodeFromObject(defaultValue);
paramNode.NameNode = AstFactory.BuildBinaryExpression(lhs, rhs, ProtoCore.DSASM.Operator.assign);
}
}
argumentSignature.AddArgument(paramNode);
}
argumentSignature.IsVarArg = parameters.Any()
&& parameters.Last().GetCustomAttributes(typeof(ParamArrayAttribute), false).Any();
return argumentSignature;
}
private void EmitSetterForMemVar(ProtoCore.AST.AssociativeAST.ClassDeclNode cnode, ProtoCore.DSASM.SymbolNode memVar)
{
var argument = new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = new ProtoCore.AST.AssociativeAST.IdentifierNode()
{
Value = ProtoCore.DSASM.Constants.kTempArg,
Name = ProtoCore.DSASM.Constants.kTempArg,
datatype = core.TypeSystem.BuildTypeObject(PrimitiveType.kTypeVar, false)
},
ArgumentType = new ProtoCore.Type
{
Name = core.TypeSystem.GetType((int)PrimitiveType.kTypeVar),
UID = (int)PrimitiveType.kTypeVar
}
};
var argumentSingature = new ArgumentSignatureNode();
argumentSingature.AddArgument(argument);
FunctionDefinitionNode setter = new FunctionDefinitionNode()
{
Name = ProtoCore.DSASM.Constants.kSetterPrefix + memVar.name,
Singnature = argumentSingature,
Pattern = null,
ReturnType = core.TypeSystem.BuildTypeObject((int)PrimitiveType.kTypeNull, false),
FunctionBody = new CodeBlockNode(),
IsExternLib = false,
IsDNI = false,
ExternLibName = null,
access = memVar.access,
IsStatic = memVar.isStatic
};
// property = %tmpArg
setter.FunctionBody.Body.Add(new BinaryExpressionNode()
{
// return = property;
LeftNode = new IdentifierNode()
{
Value = memVar.name,
Name = memVar.name,
datatype = core.TypeSystem.BuildTypeObject(PrimitiveType.kTypeVar, false)
},
Optr = ProtoCore.DSASM.Operator.assign,
RightNode = new IdentifierNode()
{
Value = ProtoCore.DSASM.Constants.kTempArg,
Name = ProtoCore.DSASM.Constants.kTempArg,
datatype = core.TypeSystem.BuildTypeObject(PrimitiveType.kTypeVar, false)
}
});
// return = null;
setter.FunctionBody.Body.Add(new BinaryExpressionNode()
{
LeftNode = new IdentifierNode()
{
Value = ProtoCore.DSDefinitions.Kw.kw_return,
Name = ProtoCore.DSDefinitions.Kw.kw_return,
datatype = core.TypeSystem.BuildTypeObject(PrimitiveType.kTypeReturn, false)
},
Optr = ProtoCore.DSASM.Operator.assign,
RightNode = new NullNode()
});
cnode.funclist.Add(setter);
}
// The following methods are used to insert methods to the bottom of the AST and convert operator to these method calls
// to support replication on operators
private static void InsertUnaryOperationMethod(Core core, ProtoCore.AST.Node root, UnaryOperator op, PrimitiveType r, PrimitiveType operand)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.CompilerDefinitions.AccessModifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetUnaryOpFunction(op);
funcDefNode.ReturnType = new ProtoCore.Type() { Name = core.TypeSystem.GetType((int)r), UID = (int)r };
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.CompilerDefinitions.AccessModifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%param"),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)operand), UID = (int)operand }
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode param = BuildAssocIdentifier(core, "%param");
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = _return, Optr = ProtoCore.DSASM.Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.UnaryExpressionNode() { Expression = param, Operator = op } });
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
// The following methods are used to insert methods to the bottom of the AST and convert operator to these method calls
// to support replication on operators
private static void InsertUnaryOperationMethod(Core core, CodeBlockNode root, UnaryOperator op, PrimitiveType r, PrimitiveType operand)
{
FunctionDefinitionNode funcDefNode = new FunctionDefinitionNode();
funcDefNode.access = CompilerDefinitions.AccessModifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetUnaryOpFunction(op);
funcDefNode.ReturnType = new Type() { Name = core.TypeSystem.GetType((int)r), UID = (int)r };
ArgumentSignatureNode args = new ArgumentSignatureNode();
args.AddArgument(new VarDeclNode()
{
Access = CompilerDefinitions.AccessModifier.kPublic,
NameNode = AstFactory.BuildIdentifier("%param"),
ArgumentType = new Type { Name = core.TypeSystem.GetType((int)operand), UID = (int)operand }
});
funcDefNode.Signature = args;
CodeBlockNode body = new CodeBlockNode();
IdentifierNode param = AstFactory.BuildIdentifier("%param");
body.Body.Add(AstFactory.BuildReturnStatement(new UnaryExpressionNode() { Expression = param, Operator = op }));
funcDefNode.FunctionBody = body;
root.Body.Add(funcDefNode);
}
private static void InsertDotMemVarMethod(Core core, ProtoCore.AST.Node root)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.DSASM.AccessSpecifier.kPublic;
funcDefNode.Name = ProtoCore.DSASM.Constants.kDotArgMethodName;
funcDefNode.ReturnType = new ProtoCore.Type() { Name = core.TypeSystem.GetType((int)PrimitiveType.kTypeVar), UID = (int)PrimitiveType.kTypeVar };
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kLHS),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)PrimitiveType.kTypeVar), UID = (int)PrimitiveType.kTypeVar }
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, ProtoCore.DSASM.Constants.kRHS),
ArgumentType = new ProtoCore.Type { Name = core.TypeSystem.GetType((int)PrimitiveType.kTypeInt), UID = (int)PrimitiveType.kTypeInt }
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%rhsDimExprList"),
ArgumentType = TypeSystem.BuildPrimitiveTypeObject(PrimitiveType.kTypeInt, 1)
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(core, "%rhsDim"),
ArgumentType = TypeSystem.BuildPrimitiveTypeObject(PrimitiveType.kTypeInt, 0)
});
funcDefNode.Signature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(core, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.DotFunctionBodyNode dotNode = new ProtoCore.AST.AssociativeAST.DotFunctionBodyNode(args.Arguments[0].NameNode, args.Arguments[1].NameNode, args.Arguments[2].NameNode, args.Arguments[3].NameNode);
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = _return, Optr = ProtoCore.DSASM.Operator.assign, RightNode = dotNode});
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
void Associative_ArgumentSignatureDefinition(out ProtoCore.AST.AssociativeAST.AssociativeNode argumentSign) {
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode argumentSignature = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
Expect(12);
NodeUtils.SetNodeLocation(argumentSignature, t);
ProtoCore.AST.AssociativeAST.AssociativeNode arg;
if (la.kind == 1) {
if (NotDefaultArg()) {
Associative_ArgDecl(out arg);
argumentSignature.AddArgument(arg as ProtoCore.AST.AssociativeAST.VarDeclNode);
while (la.kind == 52) {
if (NotDefaultArg()) {
ExpectWeak(52, 17);
Associative_ArgDecl(out arg);
argumentSignature.AddArgument(arg as ProtoCore.AST.AssociativeAST.VarDeclNode);
} else break;
}
}
}
if (la.kind == 1 || la.kind == 52) {
if (la.kind == 52) {
Get();
}
Associative_DefaultArgDecl(out arg);
argumentSignature.AddArgument(arg as ProtoCore.AST.AssociativeAST.VarDeclNode);
while (la.kind == 52) {
Get();
Associative_DefaultArgDecl(out arg);
argumentSignature.AddArgument(arg as ProtoCore.AST.AssociativeAST.VarDeclNode);
}
}
Expect(13);
argumentSign = argumentSignature;
}
