Basically, it's slow and consumes too much memory because your grammar it is incredibly inefficient.

Let's consider the second line: `B = A:(1+2)`

. It will try to parse this line like this:

- term4
`OR`

term4 and then term4.
- term3
`AND`

term3 and then term3.
- term2
`<>`

term2, then `=`

, then `NE`

then `EQ`

and then term2.
- term1 8 different operators term1, then term1.
- term
`+`

term, term `-`

term, term `:`

term and then term.
- factor
`*`

factor, factor `/`

factor, factor `MOD`

factor and then factor.
- parenthesis expression, unary factor, function, numeric literal, string literal, ident.

The first try is like this:

```
ident * factor + term < term1 <> term2 AND term3 OR term4
```

I'm skipping parenthesis, unary, function, numeric and string literals because they don't match `A`

-- though `function`

probably does, but it's definition isn't available. Now, since `:`

doesn't match `*`

, it will try next:

```
ident / factor + term < term1 <> term2 AND term3 OR term4
ident MOD factor + term < term1 <> term2 AND term3 OR term4
ident + term < term1 <> term2 AND term3 OR term4
```

Now it goes to the next `term1`

:

```
ident * factor - term < term1 <> term2 AND term3 OR term4
ident / factor - term < term1 <> term2 AND term3 OR term4
ident MOD factor - term < term1 <> term2 AND term3 OR term4
ident - term < term1 <> term2 AND term3 OR term4
```

And next:

```
ident * factor : term < term1 <> term2 AND term3 OR term4
ident / factor : term < term1 <> term2 AND term3 OR term4
ident MOD factor : term < term1 <> term2 AND term3 OR term4
ident : term < term1 <> term2 AND term3 OR term4
```

Aha! We finally got a match on term1! But `(`

doesn't match `<`

, so it has to try the next term2:

```
ident * factor + term > term1 <> term2 AND term3 OR term4
```

etc...

All because the first term in each line for each term will always match! To match a simple number it has to parse `factor`

2 * 2 * 5 * 9 * 4 * 4 = 2880 times!

But that's not half of the story! You see, because termX is repeated twice, it will repeat all this stuff on *both* sides. For example, the first match for `A:(1+2)`

is this:

```
ident : term < term1 <> term2 AND term3 OR term4
where ident = A
and term = (1+2)
```

Which is incorrect, so it will try `>`

instead of `<`

, and then `<=`

, etc, etc.

I'm putting a logging version of this parser below. Try to run it and see all the things it is trying to parse.

Meanwhile, there are good examples of how to write these parsers available. Using `sbaz`

, try:

```
sbaz install scala-devel-docs
```

Then look inside the `doc/scala-devel-docs/examples/parsing`

directory of the Scala distribution and you'll find several examples.

Here's a version of your parser (without `function`

) that logs everything it tries:

```
sealed trait Expression
case class Variable(id: String) extends Expression
case class Literal(s: String) extends Expression
case class Number(x: String) extends Expression
case class UnaryOp(op: String, rhs: Expression) extends Expression
case class BinaryOp(op: String, lhs: Expression, rhs: Expression) extends Expression
object TestParser extends scala.util.parsing.combinator.syntactical.StdTokenParsers {
import scala.util.parsing.combinator.lexical.StdLexical
type Tokens = StdLexical
val lexical = new StdLexical
lexical.delimiters ++= List("(", ")", "+", "-", "*", "/", "=", "OR", "AND", "NE", "EQ", "LT", "GT", "LE", "GE", ":", "MOD")
def stmts: Parser[Any] = log(expr.*)("stmts")
def stmt: Parser[Expression] = log(expr <~ "\n")("stmt")
def expr: Parser[Expression] = log(term5)("expr")
def term5: Parser[Expression] = (
log((term4 ~ "OR" ~ term4) ^^ { case lhs~o~rhs => BinaryOp("OR", lhs, rhs) })("term5 OR")
| log(term4)("term5 term4")
)
def term4: Parser[Expression] = (
log((term3 ~ "AND" ~ term3) ^^ { case lhs~a~rhs => BinaryOp("AND", lhs, rhs) })("term4 AND")
| log(term3)("term4 term3")
)
def term3: Parser[Expression] = (
log((term2 ~ "<>" ~ term2) ^^ { case lhs~ne~rhs => BinaryOp("NE", lhs, rhs) })("term3 <>")
| log((term2 ~ "=" ~ term2) ^^ { case lhs~eq~rhs => BinaryOp("EQ", lhs, rhs) })("term3 =")
| log((term2 ~ "NE" ~ term2) ^^ { case lhs~ne~rhs => BinaryOp("NE", lhs, rhs) })("term3 NE")
| log((term2 ~ "EQ" ~ term2) ^^ { case lhs~eq~rhs => BinaryOp("EQ", lhs, rhs) })("term3 EQ")
| log(term2)("term3 term2")
)
def term2: Parser[Expression] = (
log((term1 ~ "<" ~ term1) ^^ { case lhs~lt~rhs => BinaryOp("LT", lhs, rhs) })("term2 <")
| log((term1 ~ ">" ~ term1) ^^ { case lhs~gt~rhs => BinaryOp("GT", lhs, rhs) })("term2 >")
| log((term1 ~ "<=" ~ term1) ^^ { case lhs~le~rhs => BinaryOp("LE", lhs, rhs) })("term2 <=")
| log((term1 ~ ">=" ~ term1) ^^ { case lhs~ge~rhs => BinaryOp("GE", lhs, rhs) })("term2 >=")
| log((term1 ~ "LT" ~ term1) ^^ { case lhs~lt~rhs => BinaryOp("LT", lhs, rhs) })("term2 LT")
| log((term1 ~ "GT" ~ term1) ^^ { case lhs~gt~rhs => BinaryOp("GT", lhs, rhs) })("term2 GT")
| log((term1 ~ "LE" ~ term1) ^^ { case lhs~le~rhs => BinaryOp("LE", lhs, rhs) })("term2 LE")
| log((term1 ~ "GE" ~ term1) ^^ { case lhs~ge~rhs => BinaryOp("GE", lhs, rhs) })("term2 GE")
| log(term1)("term2 term1")
)
def term1: Parser[Expression] = (
log((term ~ "+" ~ term) ^^ { case lhs~plus~rhs => BinaryOp("+", lhs, rhs) })("term1 +")
| log((term ~ "-" ~ term) ^^ { case lhs~minus~rhs => BinaryOp("-", lhs, rhs) })("term1 -")
| log((term ~ ":" ~ term) ^^ { case lhs~concat~rhs => BinaryOp(":", lhs, rhs) })("term1 :")
| log(term)("term1 term")
)
def term: Parser[Expression] = (
log((factor ~ "*" ~ factor) ^^ { case lhs~times~rhs => BinaryOp("*", lhs, rhs) })("term *")
| log((factor ~ "/" ~ factor) ^^ { case lhs~div~rhs => BinaryOp("/", lhs, rhs) })("term /")
| log((factor ~ "MOD" ~ factor) ^^ { case lhs~div~rhs => BinaryOp("MOD", lhs, rhs) })("term MOD")
| log(factor)("term factor")
)
def factor: Parser[Expression] = (
log("(" ~> expr <~ ")")("factor (expr)")
| log(("+" | "-") ~ factor ^^ { case op~rhs => UnaryOp(op, rhs) })("factor +-")
//| function |
| log(numericLit ^^ { case x => Number(x/*.toFloat*/) })("factor numericLit")
| log(stringLit ^^ { case s => Literal(s) })("factor stringLit")
| log(ident ^^ { case id => Variable(id) })("factor ident")
)
def parse(s: String) = stmts(new lexical.Scanner(s))
}
```