* server : simple chat UI with vuejs and daisyui * move old files to legacy folder * embed deps into binary * basic markdown support * add conversation history, save to localStorage * fix bg-base classes * save theme preferences * fix tests * regenerate, edit, copy buttons * small fixes * docs: how to use legacy ui * better error handling * make CORS preflight more explicit * add GET method for CORS * fix tests * clean up a bit * better auto scroll * small fixes * use collapse-arrow * fix closeAndSaveConfigDialog * small fix * remove console.log * fix style for <pre> element * lighter bubble color (less distract when reading)
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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
Backus-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 matters. 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 (equivalent to{0,}
).+
denotes that the symbol or sequence should appear one or more times (equivalent to{1,}
).?
makes the preceding symbol or sequence optional (equivalent to{0,1}
).{m}
repeats the precedent symbol or sequence exactlym
times{m,}
repeats the precedent symbol or sequence at leastm
times{m,n}
repeats the precedent symbol or sequence at betweenm
andn
times (included){0,n}
repeats the precedent symbol or sequence at mostn
times (included)
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:
./llama-cli -m <model> --grammar-file grammars/some-grammar.gbnf -p 'Some prompt'
llama.cpp
can also convert JSON schemas to grammars either ahead of time or at each request, see below.
Troubleshooting
Grammars currently have performance gotchas (see https://github.com/ggerganov/llama.cpp/issues/4218).
Efficient optional repetitions
A common pattern is to allow repetitions of a pattern x
up to N times.
While semantically correct, the syntax x? x? x?.... x?
(with N repetitions) may result in extremely slow sampling. Instead, you can write x{0,N}
(or (x (x (x ... (x)?...)?)?)?
w/ N-deep nesting in earlier llama.cpp versions).
Using GBNF grammars
You can use GBNF grammars:
- In llama-server's completion endpoints, passed as the
grammar
body field - In llama-cli, passed as the
--grammar
&--grammar-file
flags - With llama-gbnf-validator tool, to test them against strings.
JSON Schemas → GBNF
llama.cpp
supports converting a subset of https://json-schema.org/ to GBNF grammars:
- In llama-server:
- For any completion endpoints, passed as the
json_schema
body field - For the
/chat/completions
endpoint, passed inside theresponse_format
body field (e.g.{"type", "json_object", "schema": {"items": {}}}
or{ type: "json_schema", json_schema: {"schema": ...} }
)
- For any completion endpoints, passed as the
- In llama-cli, passed as the
--json
/-j
flag - To convert to a grammar ahead of time:
- in CLI, with examples/json_schema_to_grammar.py
- in JavaScript with json-schema-to-grammar.mjs (this is used by the server's Web UI)
Take a look at tests to see which features are likely supported (you'll also find usage examples in https://github.com/ggerganov/llama.cpp/pull/5978, https://github.com/ggerganov/llama.cpp/pull/6659 & https://github.com/ggerganov/llama.cpp/pull/6555).
llama-cli \
-hfr bartowski/Phi-3-medium-128k-instruct-GGUF \
-hff Phi-3-medium-128k-instruct-Q8_0.gguf \
-j '{
"type": "array",
"items": {
"type": "object",
"properties": {
"name": {
"type": "string",
"minLength": 1,
"maxLength": 100
},
"age": {
"type": "integer",
"minimum": 0,
"maximum": 150
}
},
"required": ["name", "age"],
"additionalProperties": false
},
"minItems": 10,
"maxItems": 100
}' \
-p 'Generate a {name, age}[] JSON array with famous actors of all ages.'
Show grammar
You can convert any schema in command-line with:
examples/json_schema_to_grammar.py name-age-schema.json
char ::= [^"\\\x7F\x00-\x1F] | [\\] (["\\bfnrt] | "u" [0-9a-fA-F]{4})
item ::= "{" space item-name-kv "," space item-age-kv "}" space
item-age ::= ([0-9] | ([1-8] [0-9] | [9] [0-9]) | "1" ([0-4] [0-9] | [5] "0")) space
item-age-kv ::= "\"age\"" space ":" space item-age
item-name ::= "\"" char{1,100} "\"" space
item-name-kv ::= "\"name\"" space ":" space item-name
root ::= "[" space item ("," space item){9,99} "]" space
space ::= | " " | "\n" [ \t]{0,20}
Here is also a list of known limitations (contributions welcome):
additionalProperties
defaults tofalse
(produces faster grammars + reduces hallucinations)."additionalProperties": true
may produce keys that contain unescaped newlines.- Unsupported features are skipped silently. It is currently advised to use the command-line Python converter (see above) to see any warnings, and to inspect the resulting grammar / test it w/ llama-gbnf-validator.
- Can't mix
properties
w/anyOf
/oneOf
in the same type (https://github.com/ggerganov/llama.cpp/issues/7703) - prefixItems is broken (but items works)
minimum
,exclusiveMinimum
,maximum
,exclusiveMaximum
: only supported for"type": "integer"
for now, notnumber
- Nested
$ref
s are broken (https://github.com/ggerganov/llama.cpp/issues/8073) - patterns must start with
^
and end with$
- Remote
$ref
s not supported in the C++ version (Python & JavaScript versions fetch https refs) string
formats lackuri
,email
- No
patternProperties
And a non-exhaustive list of other unsupported features that are unlikely to be implemented (hard and/or too slow to support w/ stateless grammars):
uniqueItems
contains
/minContains
$anchor
(cf. dereferencing)not
- Conditionals
if
/then
/else
/dependentSchemas
A word about additionalProperties
Warning
The JSON schemas spec states
object
s accept additional properties by default. Since this is slow and seems prone to hallucinations, we default to no additional properties. You can set"additionalProperties": true
in the the schema of any object to explicitly allow additional properties.
If you're using Pydantic to generate schemas, you can enable additional properties with the extra
config on each model class:
# pip install pydantic
import json
from typing import Annotated, List
from pydantic import BaseModel, Extra, Field
class QAPair(BaseModel):
class Config:
extra = 'allow' # triggers additionalProperties: true in the JSON schema
question: str
concise_answer: str
justification: str
class Summary(BaseModel):
class Config:
extra = 'allow'
key_facts: List[Annotated[str, Field(pattern='- .{5,}')]]
question_answers: List[Annotated[List[QAPair], Field(min_items=5)]]
print(json.dumps(Summary.model_json_schema(), indent=2))
Show JSON schema & grammar
{
"$defs": {
"QAPair": {
"additionalProperties": true,
"properties": {
"question": {
"title": "Question",
"type": "string"
},
"concise_answer": {
"title": "Concise Answer",
"type": "string"
},
"justification": {
"title": "Justification",
"type": "string"
}
},
"required": [
"question",
"concise_answer",
"justification"
],
"title": "QAPair",
"type": "object"
}
},
"additionalProperties": true,
"properties": {
"key_facts": {
"items": {
"pattern": "^- .{5,}$",
"type": "string"
},
"title": "Key Facts",
"type": "array"
},
"question_answers": {
"items": {
"items": {
"$ref": "#/$defs/QAPair"
},
"minItems": 5,
"type": "array"
},
"title": "Question Answers",
"type": "array"
}
},
"required": [
"key_facts",
"question_answers"
],
"title": "Summary",
"type": "object"
}
QAPair ::= "{" space QAPair-question-kv "," space QAPair-concise-answer-kv "," space QAPair-justification-kv ( "," space ( QAPair-additional-kv ( "," space QAPair-additional-kv )* ) )? "}" space
QAPair-additional-k ::= ["] ( [c] ([o] ([n] ([c] ([i] ([s] ([e] ([_] ([a] ([n] ([s] ([w] ([e] ([r] char+ | [^"r] char*) | [^"e] char*) | [^"w] char*) | [^"s] char*) | [^"n] char*) | [^"a] char*) | [^"_] char*) | [^"e] char*) | [^"s] char*) | [^"i] char*) | [^"c] char*) | [^"n] char*) | [^"o] char*) | [j] ([u] ([s] ([t] ([i] ([f] ([i] ([c] ([a] ([t] ([i] ([o] ([n] char+ | [^"n] char*) | [^"o] char*) | [^"i] char*) | [^"t] char*) | [^"a] char*) | [^"c] char*) | [^"i] char*) | [^"f] char*) | [^"i] char*) | [^"t] char*) | [^"s] char*) | [^"u] char*) | [q] ([u] ([e] ([s] ([t] ([i] ([o] ([n] char+ | [^"n] char*) | [^"o] char*) | [^"i] char*) | [^"t] char*) | [^"s] char*) | [^"e] char*) | [^"u] char*) | [^"cjq] char* )? ["] space
QAPair-additional-kv ::= QAPair-additional-k ":" space value
QAPair-concise-answer-kv ::= "\"concise_answer\"" space ":" space string
QAPair-justification-kv ::= "\"justification\"" space ":" space string
QAPair-question-kv ::= "\"question\"" space ":" space string
additional-k ::= ["] ( [k] ([e] ([y] ([_] ([f] ([a] ([c] ([t] ([s] char+ | [^"s] char*) | [^"t] char*) | [^"c] char*) | [^"a] char*) | [^"f] char*) | [^"_] char*) | [^"y] char*) | [^"e] char*) | [q] ([u] ([e] ([s] ([t] ([i] ([o] ([n] ([_] ([a] ([n] ([s] ([w] ([e] ([r] ([s] char+ | [^"s] char*) | [^"r] char*) | [^"e] char*) | [^"w] char*) | [^"s] char*) | [^"n] char*) | [^"a] char*) | [^"_] char*) | [^"n] char*) | [^"o] char*) | [^"i] char*) | [^"t] char*) | [^"s] char*) | [^"e] char*) | [^"u] char*) | [^"kq] char* )? ["] space
additional-kv ::= additional-k ":" space value
array ::= "[" space ( value ("," space value)* )? "]" space
boolean ::= ("true" | "false") space
char ::= [^"\\\x7F\x00-\x1F] | [\\] (["\\bfnrt] | "u" [0-9a-fA-F]{4})
decimal-part ::= [0-9]{1,16}
dot ::= [^\x0A\x0D]
integral-part ::= [0] | [1-9] [0-9]{0,15}
key-facts ::= "[" space (key-facts-item ("," space key-facts-item)*)? "]" space
key-facts-item ::= "\"" "- " key-facts-item-1{5,} "\"" space
key-facts-item-1 ::= dot
key-facts-kv ::= "\"key_facts\"" space ":" space key-facts
null ::= "null" space
number ::= ("-"? integral-part) ("." decimal-part)? ([eE] [-+]? integral-part)? space
object ::= "{" space ( string ":" space value ("," space string ":" space value)* )? "}" space
question-answers ::= "[" space (question-answers-item ("," space question-answers-item)*)? "]" space
question-answers-item ::= "[" space question-answers-item-item ("," space question-answers-item-item){4,} "]" space
question-answers-item-item ::= QAPair
question-answers-kv ::= "\"question_answers\"" space ":" space question-answers
root ::= "{" space key-facts-kv "," space question-answers-kv ( "," space ( additional-kv ( "," space additional-kv )* ) )? "}" space
space ::= | " " | "\n" [ \t]{0,20}
string ::= "\"" char* "\"" space
value ::= object | array | string | number | boolean | null
If you're using Zod, you can make your objects to explicitly allow extra properties w/ nonstrict()
/ passthrough()
(or explicitly no extra props w/ z.object(...).strict()
or z.strictObject(...)
) but note that zod-to-json-schema currently always sets "additionalProperties": false
anyway.
import { z } from 'zod';
import { zodToJsonSchema } from 'zod-to-json-schema';
const Foo = z.object({
age: z.number().positive(),
email: z.string().email(),
}).strict();
console.log(zodToJsonSchema(Foo));
Show JSON schema & grammar
{
"type": "object",
"properties": {
"age": {
"type": "number",
"exclusiveMinimum": 0
},
"email": {
"type": "string",
"format": "email"
}
},
"required": [
"age",
"email"
],
"additionalProperties": false,
"$schema": "http://json-schema.org/draft-07/schema#"
}
age-kv ::= "\"age\"" space ":" space number
char ::= [^"\\\x7F\x00-\x1F] | [\\] (["\\bfnrt] | "u" [0-9a-fA-F]{4})
decimal-part ::= [0-9]{1,16}
email-kv ::= "\"email\"" space ":" space string
integral-part ::= [0] | [1-9] [0-9]{0,15}
number ::= ("-"? integral-part) ("." decimal-part)? ([eE] [-+]? integral-part)? space
root ::= "{" space age-kv "," space email-kv "}" space
space ::= | " " | "\n" [ \t]{0,20}
string ::= "\"" char* "\"" space