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list.gbnf | ||
README.md |
GBNF Guide
GBNF (GGML BNF) is a format for defining formal grammars to constrain model outputs in llama.cpp
. For example, you can use it to force the model to generate valid JSON, or speak only in emojis. GBNF grammars are supported in various ways in examples/main
and examples/server
.
Background
Bakus-Naur Form (BNF) is a notation for describing the syntax of formal languages like programming languages, file formats, and protocols. GBNF is an extension of BNF that primarily adds a few modern regex-like features.
Basics
In GBNF, we define production rules that specify how a non-terminal (rule name) can be replaced with sequences of terminals (characters, specifically Unicode code points) and other non-terminals. The basic format of a production rule is nonterminal ::= sequence...
.
Example
Before going deeper, let's look at some of the features demonstrated in grammars/chess.gbnf
, a small chess notation grammar:
# `root` specifies the pattern for the overall output
root ::= (
# it must start with the characters "1. " followed by a sequence
# of characters that match the `move` rule, followed by a space, followed
# by another move, and then a newline
"1. " move " " move "\n"
# it's followed by one or more subsequent moves, numbered with one or two digits
([1-9] [0-9]? ". " move " " move "\n")+
)
# `move` is an abstract representation, which can be a pawn, nonpawn, or castle.
# The `[+#]?` denotes the possibility of checking or mate signs after moves
move ::= (pawn | nonpawn | castle) [+#]?
pawn ::= ...
nonpawn ::= ...
castle ::= ...
Non-Terminals and Terminals
Non-terminal symbols (rule names) stand for a pattern of terminals and other non-terminals. They are required to be a dashed lowercase word, like move
, castle
, or check-mate
.
Terminals are actual characters (code points). They can be specified as a sequence like "1"
or "O-O"
or as ranges like [1-9]
or [NBKQR]
.
Characters and character ranges
Terminals support the full range of Unicode. Unicode characters can be specified directly in the grammar, for example hiragana ::= [ぁ-ゟ]
, or with escapes: 8-bit (\xXX
), 16-bit (\uXXXX
) or 32-bit (\UXXXXXXXX
).
Character ranges can be negated with ^
:
single-line ::= [^\n]+ "\n"`
Sequences and Alternatives
The order of symbols in a sequence matter. For example, in "1. " move " " move "\n"
, the "1. "
must come before the first move
, etc.
Alternatives, denoted by |
, give different sequences that are acceptable. For example, in move ::= pawn | nonpawn | castle
, move
can be a pawn
move, a nonpawn
move, or a castle
.
Parentheses ()
can be used to group sequences, which allows for embedding alternatives in a larger rule or applying repetition and optional symbols (below) to a sequence.
Repetition and Optional Symbols
*
after a symbol or sequence means that it can be repeated zero or more times.+
denotes that the symbol or sequence should appear one or more times.?
makes the preceding symbol or sequence optional.
Comments and newlines
Comments can be specified with #
:
# defines optional whitespace
ws ::= [ \t\n]+
Newlines are allowed between rules and between symbols or sequences nested inside parentheses. Additionally, a newline after an alternate marker |
will continue the current rule, even outside of parentheses.
The root rule
In a full grammar, the root
rule always defines the starting point of the grammar. In other words, it specifies what the entire output must match.
# a grammar for lists
root ::= ("- " item)+
item ::= [^\n]+ "\n"
Next steps
This guide provides a brief overview. Check out the GBNF files in this directory (grammars/
) for examples of full grammars. You can try them out with:
./main -m <model> --grammar-file grammars/some-grammar.gbnf -p 'Some prompt'