static CodeTypeDeclaration CreateNotImplementedAstVisitorClass(List <Type> nodeTypes)
{
CodeTypeDeclaration td = new CodeTypeDeclaration("NotImplementedAstVisitor");
td.TypeAttributes = TypeAttributes.Public | TypeAttributes.Class;
td.BaseTypes.Add(new CodeTypeReference("IAstVisitor"));
string comment = "<summary>\n " +
"IAstVisitor implementation that always throws NotImplementedExceptions.\n " +
"</summary>";
td.Comments.Add(new CodeCommentStatement(comment, true));
foreach (Type type in nodeTypes)
{
if (!type.IsAbstract)
{
EasyMethod m = td.AddMethod(typeof(object), VisitPrefix + type.Name);
m.Attributes = MemberAttributes.Public;
m.AddParameter(ConvertType(type), GetFieldName(type.Name));
m.AddParameter(new CodeTypeReference(typeof(object)), "data");
m.Body.Throw(Easy.New(typeof(NotImplementedException), Easy.Prim(type.Name)));
}
}
return(td);
}
static CodeTypeDeclaration CreateAstVisitorInterface(List <Type> nodeTypes)
{
CodeTypeDeclaration td = new CodeTypeDeclaration("IAstVisitor");
td.IsInterface = true;
foreach (Type t in nodeTypes)
{
if (!t.IsAbstract)
{
EasyMethod m = td.AddMethod(typeof(object), VisitPrefix + t.Name);
m.AddParameter(ConvertType(t), GetFieldName(t.Name));
m.AddParameter(typeof(object), "data");
}
}
return(td);
}
static CodeTypeDeclaration CreateNodeTrackingAstVisitorClass(List <Type> nodeTypes)
{
CodeTypeDeclaration td = new CodeTypeDeclaration("NodeTrackingAstVisitor");
td.TypeAttributes = TypeAttributes.Public | TypeAttributes.Class | TypeAttributes.Abstract;
td.BaseTypes.Add(new CodeTypeReference("AbstractAstVisitor"));
string comment = "<summary>\n " +
"The NodeTrackingAstVisitor will iterate through the whole AST,\n " +
"just like the AbstractAstVisitor, and calls the virtual methods\n " +
"BeginVisit and EndVisit for each node being visited.\n " +
"</summary>";
td.Comments.Add(new CodeCommentStatement(comment, true));
comment = "<remarks>\n " +
"base.Visit(node, data) calls this.TrackedVisit(node, data), so if\n " +
"you want to visit child nodes using the default visiting behaviour,\n " +
"use base.TrackedVisit(parentNode, data).\n " +
"</remarks>";
td.Comments.Add(new CodeCommentStatement(comment, true));
EasyMethod m = td.AddMethod("BeginVisit");
m.Attributes = MemberAttributes.Family;
m.AddParameter(Easy.TypeRef("INode"), "node");
m = td.AddMethod("EndVisit");
m.Attributes = MemberAttributes.Family;
m.AddParameter(Easy.TypeRef("INode"), "node");
foreach (Type type in nodeTypes)
{
if (!type.IsAbstract)
{
m = td.AddMethod(typeof(object), VisitPrefix + type.Name);
m.Attributes = MemberAttributes.Public | MemberAttributes.Override;
m.AddParameter(ConvertType(type), GetFieldName(type.Name));
m.AddParameter(new CodeTypeReference(typeof(object)), "data");
CodeExpression var = Easy.Var(GetFieldName(type.Name));
m.Body.InvokeMethod(Easy.This, "BeginVisit", var);
m.Body.DeclareVariable(typeof(object), "result").InitExpression
= Easy.This.InvokeMethod("TrackedVisit" + type.Name, var, Easy.Var("data"));
m.Body.InvokeMethod(Easy.This, "EndVisit", var);
m.Body.Return(Easy.Var("result"));
}
}
foreach (Type type in nodeTypes)
{
if (!type.IsAbstract)
{
m = td.AddMethod(typeof(object), "TrackedVisit" + type.Name);
m.Attributes = MemberAttributes.Public;
m.AddParameter(ConvertType(type), GetFieldName(type.Name));
m.AddParameter(new CodeTypeReference(typeof(object)), "data");
m.Body.Return(Easy.Base.InvokeMethod(VisitPrefix + type.Name, Easy.Var(GetFieldName(type.Name)), Easy.Var("data")));
}
}
return(td);
}
static CodeTypeDeclaration CreateAstVisitorClass(List <Type> nodeTypes, bool transformer)
{
CodeTypeDeclaration td = new CodeTypeDeclaration(transformer ? "AbstractAstTransformer" : "AbstractAstVisitor");
td.TypeAttributes = TypeAttributes.Public | TypeAttributes.Abstract;
td.BaseTypes.Add(new CodeTypeReference("IAstVisitor"));
if (transformer)
{
string comment =
"The AbstractAstTransformer will iterate through the whole AST,\n " +
"just like the AbstractAstVisitor. However, the AbstractAstTransformer allows\n " +
"you to modify the AST at the same time: It does not use 'foreach' internally,\n " +
"so you can add members to collections of parents of the current node (but\n " +
"you cannot insert or delete items as that will make the index used invalid).\n " +
"You can use the methods ReplaceCurrentNode and RemoveCurrentNode to replace\n " +
"or remove the current node, totally independent from the type of the parent node.";
Easy.AddSummary(td, comment);
CodeMemberField field = td.AddField(Easy.TypeRef("Stack", "INode"), "nodeStack");
field.InitExpression = Easy.New(field.Type);
/*
* CodeExpression nodeStack = Easy.Var("nodeStack");
* CodeMemberProperty p = new CodeMemberProperty();
* p.Name = "CurrentNode";
* p.Type = new CodeTypeReference("INode");
* p.Attributes = MemberAttributes.Public | MemberAttributes.Final;
* p.GetStatements.Add(new CodeMethodReturnStatement(new CodeVariableReferenceExpression("currentNode")));
* p.SetStatements.Add(new CodeAssignStatement(new CodeVariableReferenceExpression("currentNode"),
* new CodePropertySetValueReferenceExpression()));
* td.Members.Add(p);
*/
EasyMethod m = td.AddMethod("ReplaceCurrentNode");
m.AddParameter(Easy.TypeRef("INode"), "newNode");
m.Statements.Add(Easy.Var("nodeStack").InvokeMethod("Pop"));
m.Statements.Add(Easy.Var("nodeStack").InvokeMethod("Push", Easy.Var("newNode")));
m = td.AddMethod("RemoveCurrentNode");
m.Statements.Add(Easy.Var("nodeStack").InvokeMethod("Pop"));
m.Statements.Add(Easy.Var("nodeStack").InvokeMethod("Push", Easy.Null));
}
foreach (Type type in nodeTypes)
{
if (!type.IsAbstract)
{
EasyMethod m = td.AddMethod(typeof(object), VisitPrefix + type.Name);
m.Attributes = MemberAttributes.Public;
m.AddParameter(ConvertType(type), GetFieldName(type.Name));
m.AddParameter(typeof(object), "data");
List <CodeStatement> assertions = new List <CodeStatement>();
string varVariableName = GetFieldName(type.Name);
CodeExpression var = Easy.Var(varVariableName);
assertions.Add(AssertIsNotNull(var));
AddFieldVisitCode(m, type, var, assertions, transformer);
if (type.GetCustomAttributes(typeof(HasChildrenAttribute), true).Length > 0)
{
if (transformer)
{
m.Statements.Add(new CodeSnippetStatement(CreateTransformerLoop(varVariableName + ".Children", "INode")));
m.Body.Return(Easy.Null);
}
else
{
m.Body.Return(var.InvokeMethod("AcceptChildren", Easy.This, Easy.Var("data")));
}
}
else
{
CodeExpressionStatement lastStatement = null;
if (m.Statements.Count > 0)
{
lastStatement = m.Statements[m.Statements.Count - 1] as CodeExpressionStatement;
}
if (lastStatement != null)
{
m.Statements.RemoveAt(m.Statements.Count - 1);
m.Body.Return(lastStatement.Expression);
}
else
{
m.Body.Return(Easy.Null);
}
}
for (int i = 0; i < assertions.Count; i++)
{
m.Statements.Insert(i, assertions[i]);
}
}
}
return(td);
}
static CodeTypeDeclaration CreateAstComparisonVisitorClass(List <Type> nodeTypes)
{
CodeTypeDeclaration td = new CodeTypeDeclaration("AstComparisonVisitor");
td.TypeAttributes = TypeAttributes.Public;
td.IsPartial = true;
//td.BaseTypes.Add(new CodeTypeReference("IAstVisitor"));
foreach (Type type in nodeTypes)
{
if (!type.IsAbstract)
{
EasyMethod m = td.AddMethod(typeof(bool), VisitPrefix + type.Name);
m.Attributes = MemberAttributes.Public;
m.AddParameter(ConvertType(type), GetFieldName(type.Name));
const string right_hand_side_name = "d";
m.AddParameter(typeof(object), right_hand_side_name);
List <CodeStatement> assertions = new List <CodeStatement>();
string varVariableName = GetFieldName(type.Name);
CodeExpression var = Easy.Var(varVariableName);
assertions.Add(IfNullSetFailure(var));
if (varVariableName == "using")
{
varVariableName = "@using";
}
CodeExpression r_var = Easy.Var(right_hand_side_name);
assertions.Add(IfNullSetFailure(r_var));
// Confirm their types are the same.
m.Statements.Add(new CodeSnippetStatement("\t\t\tif(" + varVariableName + ".GetType() != " + right_hand_side_name + ".GetType()) {return SetFailure();}"));
// Cast the object parameter to whatever the other parameter is, and call the variable 'data'.
// Like so: AddHandlerStatement data = (AddHandlerStatement) d;
m.Statements.Add(new CodeSnippetStatement("\t\t\tvar data = (" + ConvertType(type).BaseType + ")d;"));
m.Statements.Add(new CodeConditionStatement(new CodeSnippetExpression("!IsMatch(" + varVariableName + ", data)"),
new CodeSnippetStatement("\t\t\t\treturn SetFailure();")));
AddFieldVisitCode(m, type, var, assertions, false);
if (type.GetCustomAttributes(typeof(HasChildrenAttribute), true).Length > 0)
{
m.Body.Return(var.InvokeMethod("AcceptChildren", Easy.This, Easy.Var(right_hand_side_name)));
}
else
{
CodeExpressionStatement lastStatement = null;
if (m.Statements.Count > 0)
{
lastStatement = m.Statements[m.Statements.Count - 1] as CodeExpressionStatement;
}
if (lastStatement != null)
{
m.Statements.RemoveAt(m.Statements.Count - 1);
m.Body.Return(lastStatement.Expression);
}
else
{
m.Body.Return(new CodeSnippetExpression("true"));
}
}
for (int i = 0; i < assertions.Count; i++)
{
m.Statements.Insert(i, assertions[i]);
}
}
}
return(td);
}