public Expression GetNode(ExpressionParser parser)
{
var collection = parser.Collection;
Lexem lex = parser.Collection.CurrentLexem();
bool uniar = parser.waitValue;
Expression res = null;
if (lex.LexemType == LexType.Arfimetic)
{
switch (lex.LexemText)
{
case "+":
if (uniar)
{
res = new UniarPlus_BoolExpr();
}
else
{
res = new Plus_Arifmetic();
}
break;
case "-":
if (uniar)
{
res = new UniarMinus_BoolExpr();
}
else
{
res = new Minus_Arifmetic();
}
break;
case "*":
if (uniar)
{
res = new AllColumnExpr();
}
else
{
res = new Multi_Arifmetic();
}
break;
case "/":
res = new Div_Arifmetic();
break;
case "<":
res = new Less_CompExpr();
break;
case "<=":
res = new LessOrEqual_CompExpr();
break;
case ">=":
res = new GreatOrEqual_CompExpr();
break;
case ">":
res = new Great_CompExpr();
break;
case "=":
res = new Equal_CompExpr();
break;
case "<>":
case "!=":
res = new NotEqual_CompExpr();
break;
}
}
if (lex.LexemType == LexType.Number)
{
res = new ConstExpr();
if (lex.LexemText.Contains('.'))
{
(res as ConstExpr).Init(lex.LexemText.ParseDouble(), SimpleTypes.Float);
}
else
{
(res as ConstExpr).Init(long.Parse(lex.LexemText), SimpleTypes.Integer);
}
}
if (lex.LexemType == LexType.Text)
{
if (lex.LexemText.StartsWith("'"))
{
res = new ConstExpr();
(res as ConstExpr).Init(ParserUtils.StandartDecodeEscape(lex.LexemText), SimpleTypes.String);
}
}
if (lex.LexemType == LexType.Command)
{
switch (lex.LexemText.ToLower())
{
case "not":
res = new Not_BoolExpr();
break;
case "and":
res = new And_BoolExpr();
break;
case "or":
res = new Or_BoolExpr();
break;
case "true":
res = new ConstExpr();
(res as ConstExpr).Init(true, SimpleTypes.Boolean);
break;
case "false":
res = new ConstExpr();
(res as ConstExpr).Init(false, SimpleTypes.Boolean);
break;
case "date":
if (collection.GetNext() != null)
{
var c = collection.GetNext();
if (c.LexemType == LexType.Text && c.LexemText.StartsWith("'"))
{
res = new ConstExpr();
string s = ParserUtils.StandartDecodeEscape(c.LexemText);
var dt = CommonUtils.ParseDateTime(s);
if (dt != null)
{
collection.GotoNext();
((ConstExpr)res).Init(dt.Value, SimpleTypes.Date);
}
else
{
collection.Error("Can not parse date lexem", lex);
}
}
}
break;
case "datetime":
case "timestamp":
if (collection.GetNext() != null)
{
var c = collection.GetNext();
if (c.LexemType == LexType.Text && c.LexemText.StartsWith("'"))
{
res = new ConstExpr();
string s = ParserUtils.StandartDecodeEscape(c.LexemText);
var dt = CommonUtils.ParseDateTime(s);
if (dt != null)
{
collection.GotoNext();
((ConstExpr)res).Init(dt.Value, SimpleTypes.DateTime);
}
else
{
collection.Error("Can not parse datetime lexem", lex);
}
}
}
break;
case "time":
if (collection.GetNext() != null)
{
var c = collection.GetNext();
if (c.LexemType == LexType.Text && c.LexemText.StartsWith("'"))
{
res = new ConstExpr();
string s = ParserUtils.StandartDecodeEscape(c.LexemText);
DateTime dt;
var r = CommonUtils.ParseDateTime(s, out dt);
if (r == ParserDateTimeStatus.Time)
{
collection.GotoNext();
((ConstExpr)res).Init(dt.TimeOfDay, SimpleTypes.Time);
}
else
{
collection.Error("Can not parse time lexem", lex);
}
}
}
break;
}
}
return(res);
}
public Expression GetNode(ExpressionParser parser)
{
Lexem lex = parser.Collection.CurrentLexem();
Expression ex = null;
bool uniar = parser.waitValue;
if (lex.LexemType == LexType.Arfimetic)
{
switch (lex.LexemText)
{
case "+":
if (uniar)
{
ex = new UniarPlus_BoolExpr();
}
else
{
ex = new Plus_Arifmetic();
}
break;
case "-":
if (uniar)
{
ex = new UniarMinus_BoolExpr();
}
else
{
ex = new Minus_Arifmetic();
}
break;
case "*":
if (uniar)
{
ex = new AllColumnExpr();
}
else
{
ex = new Multi_Arifmetic();
}
break;
case "/":
ex = new Div_Arifmetic();
break;
case "<":
ex = new Less_CompExpr();
break;
case "<=":
ex = new LessOrEqual_CompExpr();
break;
case ">=":
ex = new GreatOrEqual_CompExpr();
break;
case ">":
ex = new Great_CompExpr();
break;
case "=":
ex = new Equal_CompExpr();
break;
case "<>":
case "!=":
ex = new NotEqual_CompExpr();
break;
}
}
if (lex.LexemType == LexType.Number)
{
ex = new ConstExpr();
if (lex.LexemText.Contains('.'))
{
(ex as ConstExpr).Init(lex.LexemText.ParseDouble(), SimpleTypes.Float);
}
else
{
(ex as ConstExpr).Init(long.Parse(lex.LexemText), SimpleTypes.Integer);
}
}
if (lex.LexemType == LexType.Text)
{
if (lex.LexemText.StartsWith("'"))
{
ex = new ConstExpr();
(ex as ConstExpr).Init(ParserUtils.StandartDecodeEscape(lex.LexemText), SimpleTypes.String);
}
}
Lexem n1;
if (lex.LexemType == LexType.Command)
{
switch (lex.LexemText.ToLower())
{
case "not":
n1 = parser.Collection.GetNext();
if (n1 != null && n1.LexemType == LexType.Command && n1.LexemText.ToLower() == "in")
{
ex = new NotInExpr();
parser.Collection.GotoNext();
break;
}
ex = new Not_BoolExpr();
break;
case "case":
ex = new CaseExpr();
break;
case "contains":
ex = new Contains();
break;
case "containsic": //ic = ignore case
case "containscase":
ex = new ContainsIgnoreCase();
break;
case "startwith":
case "startswith":
ex = new StartsWith();
break;
case "endwith":
case "endswith":
ex = new EndsWith();
break;
}
if (parser.Collection.GetNext() != null && parser.Collection.GetNext().IsSkobraOpen())
{
switch (lex.LexemText.ToLower())
{
case "cast":
ex = new Cast();
break;
case "in":
ex = new InExpr();
break;
case "abs":
ex = new Abs();
break;
case "substring":
ex = new SubString();
break;
case "position":
ex = new Position();
break;
case "ltrim":
ex = new LTrim();
break;
case "rtrim":
ex = new RTrim();
break;
case "trim":
ex = new Trim();
break;
case "length":
ex = new Length();
break;
case "upper":
ex = new Upper_operation();
break;
case "lower":
ex = new Lower_operation();
break;
case "left":
ex = new Left();
break;
case "right":
ex = new Right();
break;
case "replace":
ex = new Replace();
break;
case "now":
ex = new Now();
break;
case "tostr":
ex = new ToString();
break;
case "strtotime":
ex = new StrToTime();
break;
case "strtodatetime":
ex = new StrToDateTime();
break;
case "addseconds":
ex = new AddSeconds();
break;
case "addminutes":
ex = new AddMinutes();
break;
case "addhours":
ex = new AddHours();
break;
case "adddays":
ex = new AddDays();
break;
case "day":
ex = new Day();
break;
case "month":
ex = new Month();
break;
case "year":
ex = new Year();
break;
case "round":
ex = new ParserCore.Expr.Extend.Math.Round();
break;
case "ceiling":
ex = new ParserCore.Expr.Extend.Math.Ceiling();
break;
case "floor":
ex = new ParserCore.Expr.Extend.Math.Floor();
break;
case "pi":
ex = new ParserCore.Expr.Extend.Math.Pi();
break;
case "tan":
ex = new ParserCore.Expr.Extend.Math.Tan();
break;
case "log":
ex = new ParserCore.Expr.Extend.Math.Log();
break;
}
}
}
return(ex);
}