L-attributed grammar

L-attributed grammars are a special type of attribute grammars. They allow the attributes to be evaluated in one depth-first left-to-right traversal of the abstract syntax tree. As a result, attribute evaluation in L-attributed grammars can be incorporated conveniently in top-down parsing.

A syntax-directed definition is L-attributed if each inherited attribute of $$X_j$$ on the right side of $$A \rightarrow X_1, X_2, \dots, X_n $$ depends only on


 * 1) the attributes of the symbols $$X_1, X_2, \dots, X_{j-1}$$
 * 2) the inherited attributes of $$A$$ (but not its synthesized attributes)

Every S-attributed syntax-directed definition is also L-attributed.

Implementing L-attributed definitions in Bottom-Up parsers requires rewriting L-attributed definitions into translation schemes.

Many programming languages are L-attributed. Special types of compilers, the narrow compilers, are based on some form of L-attributed grammar. These are a strict superset of S-attributed grammars. Used for code synthesis.

Either "inherited attributes" or "synthesized attributes" associated with the occurrence of symbol $$X_1,X_2, \dots, X_n$$.