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What is the difference between Left Factoring and Left Recursion ? I understand that Left factoring is a predictive top down parsing technique. But I get confused when I hear these two terms.

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5 Answers 5

This is the way I've seen the two terms used:

  1. Left recursion: when one or more productions can be reached from themselves with no tokens consumed in-between.
  2. Left factoring: a process of transformation, turning the grammar from a left-recursive form to an equivalent non-left-recursive form.
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Left factoring is removing the common left factor that appears in two productions of the same non-terminal. It is done to avoid back-tracing by the parser. Suppose the parser has a look-ahead ,consider this example-

A -> qB | qC
where A,B,C are non-terminals and q is a sentence. In this case, the parser will be confused as to which of the two productions to choose and it might have to back-trace. After left factoring, the grammar is converted to-

A -> qD

D -> B | C

In this case, a parser with a look-ahead will always choose the right production.

Left recursion is a case when the left-most non-terminal in a production of a non-terminal is the non-terminal itself( direct left recursion ) or through some other non-terminal definitions, rewrites to the non-terminal again(indirect left recursion). Consider these examples -

(1) A -> Aq (direct)

(2) A -> Bq B -> Ar (indirect)

Left recursion has to be removed if the parser performs top-down parsing

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left recursion:= when left hand non terminal is same as right hand non terminal. Example: A->A&|B where & is alpha. We can remove left ricursion using rewrite this production as like.

A->BA' A'->&A'|€

Left factor mean productn should not non deterministic. . Example: A->&A|&B|&C

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Left Factoring is a grammar transformation technique. It consists in "factoring out" prefixes which are common to two or more productions.

For example, going from:

A -> α β | α γ

to:

A -> α A'

A' -> β | γ


Left Recursion is a property a grammar has whenever you can derive from a given variable (non terminal) a rhs that begins with the same variable, in one or more steps.

For example:

A -> A α

or

A -> B α

B -> A γ

There is a grammar transformation technique called Elimination of left recursion, which provides a method to generate, given a left recursive grammar, another grammar that is equivalent and is not left recursive.


The relationship/confusion between both terms probably derives from the fact that both transformation techniques may need to be applied to a grammar before being able to derive a predictive top down parser for it.

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Left Recursion: A grammar is left recursive if it has a nonterminal A such that there is a derivation A -> Aα | β where α and β are sequences of terminals and nonterminals that do not start with A.

While designing a top down-parser, if the left recursion exist in the grammar then the parser falls in an infinite loop, here because A is trying to match A itself, which is not possible. We can eliminate the above left recursion by rewriting the offending production. As-

A -> βA'

A' -> αA' | epsilon

Left Factoring: Left factoring is required to eliminate non-determinism of a grammar. Suppose a grammar, S -> abS | aSb

Here, S is deriving the same terminal a in the production rule(two alternative choices for S), which follows non-determinism. We can rewrite the production to defer the decision of S as-

S -> aS'

S -> bS | Sb

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