private string GetTableName(InterfaceNode type) { string mClassName = type.Name.Identifier.Substring(1, type.Name.Identifier.Length - 1); foreach (AttributeNode attr in type.Attributes) { if (attr.Name.GenericIdentifier.ToLower() == "table") { if (attr.Arguments.Count > 0) { DDW.StringPrimitive pe = (DDW.StringPrimitive)attr.Arguments[0].Expression; if (pe != null) { return(pe.Value.ToString()); } else { return(mClassName); } } else { return(mClassName); } } } return(mClassName); }
private string GetFieldName(InterfacePropertyNode property) { string fieldname = null; foreach (AttributeNode attr in property.Attributes) { if (attr.Name.GenericIdentifier.ToLower() == "id" || attr.Name.GenericIdentifier.ToLower() == "column") { if (attr.Arguments.Count > 0) { DDW.StringPrimitive pe = (DDW.StringPrimitive)attr.Arguments[0].Expression; if (pe != null) { fieldname = pe.Value.ToString(); } else { fieldname = property.Names[0].GenericIdentifier; } } else { fieldname = property.Names[0].GenericIdentifier; } } } return(fieldname); }
public virtual object VisitStringPrimitive(StringPrimitive stringPrimitive, object data) { return(null); }
private ExpressionNode ParsePrimaryExpression() { Token tok = curtok; ExpressionNode result; // TODO: handle error cases (result = null) switch (curtok.ID) { #region Literals case TokenID.Null: result = new NullPrimitive(curtok); Advance(); break; case TokenID.True: result = new BooleanPrimitive(true, curtok); Advance(); break; case TokenID.False: result = new BooleanPrimitive(false, curtok); Advance(); break; case TokenID.IntLiteral: result = new IntegralPrimitive(strings[curtok.Data], IntegralType.Int, curtok); Advance(); break; case TokenID.UIntLiteral: result = new IntegralPrimitive(strings[curtok.Data], IntegralType.UInt, curtok); Advance(); break; case TokenID.LongLiteral: result = new IntegralPrimitive(strings[curtok.Data], IntegralType.Long, curtok); Advance(); break; case TokenID.ULongLiteral: result = new IntegralPrimitive(strings[curtok.Data], IntegralType.ULong, curtok); Advance(); break; case TokenID.RealLiteral: result = new RealPrimitive(strings[curtok.Data], curtok); Advance(); break; case TokenID.CharLiteral: result = new CharPrimitive(strings[curtok.Data], curtok); Advance(); break; case TokenID.StringLiteral: result = new StringPrimitive(strings[curtok.Data], curtok); Advance(); break; #endregion #region Predefined Types case TokenID.Bool: case TokenID.Byte: case TokenID.Char: case TokenID.Decimal: case TokenID.Double: case TokenID.Float: case TokenID.Int: case TokenID.Long: case TokenID.Object: case TokenID.SByte: case TokenID.Short: case TokenID.String: case TokenID.UInt: case TokenID.ULong: case TokenID.UShort: result = new PredefinedTypeNode(tok.ID, tok); Advance(); result = ParseMemberAccess(result); break; #endregion #region Keywords case TokenID.This: { Advance(); IdentifierExpression idExpr = new IdentifierExpression("this", tok); idExpr.StartingPredefinedType = tok.ID; result = idExpr; break; } case TokenID.Base: Advance(); // over base if (curtok.ID == TokenID.LBracket) // base indexer expression { Advance(); result = new ElementAccessExpression(new IdentifierExpression("base", tok), ParseExpressionList()); AssertAndAdvance(TokenID.RBracket); break; } if (curtok.ID != TokenID.Dot) { RecoverFromError(TokenID.Dot, TokenID.LBracket); result = null; break; } // base access expression Advance(); // advance over dot result = new BaseAccessExpression(ParseMember(false)); break; case TokenID.Checked: Advance(); AssertAndAdvance(TokenID.LParen); result = new CheckedExpression(ParseExpression()); AssertAndAdvance(TokenID.RParen); break; case TokenID.Unchecked: Advance(); AssertAndAdvance(TokenID.LParen); result = new UncheckedExpression(ParseExpression()); AssertAndAdvance(TokenID.RParen); break; case TokenID.Default: Advance(); AssertAndAdvance(TokenID.LParen); result = new DefaultConstantExpression(ParseType(false)); AssertAndAdvance(TokenID.RParen); break; case TokenID.New: Advance(); isNewStatement = true; IType newType = ParseType(false); //ApplyTypeParameters(newType); -> not sure, but a type pointer can not be generic! if (curtok.ID == TokenID.LParen) { Advance(); result = new ObjectCreationExpression(newType, ParseArgumentList(), tok); AssertAndAdvance(TokenID.RParen); } else if (curtok.ID == TokenID.LBracket) { result = ParseArrayCreation(newType); } else { RecoverFromError(TokenID.LParen, TokenID.LBracket); result = null; } isNewStatement = false; break; case TokenID.Typeof: Advance(); AssertAndAdvance(TokenID.LParen); result = new TypeOfExpression(ParseType(false)); CheckRankSpecifier(result); AssertAndAdvance(TokenID.RParen); break; case TokenID.Sizeof: Advance(); AssertAndAdvance(TokenID.LParen); result = new SizeOfExpression(ParseType(false)); AssertAndAdvance(TokenID.RParen); break; case TokenID.Delegate: //anonymous method Advance(); result = ParseAnonymousMethod(); break; #endregion Keywords case TokenID.Ident: result = ParseIdentifierOrKeyword(false, false, false, false, false); if (curtok.ID == TokenID.ColonColon) { // id :: id type-parameter-list_opt . id type-parameter-list_opt QualifiedIdentifierExpression qualID = new QualifiedIdentifierExpression(curtok); // TODO: Replace by QualifiedAliasMember instance qualID.IsNamespaceAliasQualifier = true; qualID.Expressions.Add(result); Advance(); // over ColonColon qualID.Expressions.Add(ParseMember(false)); result = ParseMemberAccess(qualID); } else if (ParsePossibleTypeParameterNode(false, false, false, false)) { result = new TypeNode(result); ApplyTypeParameters((TypeNode)result); } break; case TokenID.LParen: Advance(); result = ParseCastOrGroup(); break; default: RecoverFromError("Unexpected token in primary expression"); return null; // TODO: Invalid expression } return result; }
public virtual object VisitStringPrimitive(StringPrimitive stringPrimitive, object data) { return null; }