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- #!/usr/bin/env python3
- import argparse
- import itertools
- import json
- import re
- import sys
- from typing import Any, Dict, List, Set, Tuple, Union
- def _build_repetition(item_rule, min_items, max_items, separator_rule=None):
- if min_items == 0 and max_items == 1:
- return f'{item_rule}?'
- if not separator_rule:
- if min_items == 1 and max_items is None:
- return f'{item_rule}+'
- elif min_items == 0 and max_items is None:
- return f'{item_rule}*'
- else:
- return f'{item_rule}{{{min_items},{max_items if max_items is not None else ""}}}'
- result = item_rule + ' ' + _build_repetition(f'({separator_rule} {item_rule})', min_items - 1 if min_items > 0 else 0, max_items - 1 if max_items is not None else None)
- return f'({result})?' if min_items == 0 else result
- class BuiltinRule:
- def __init__(self, content: str, deps: list = None):
- self.content = content
- self.deps = deps or []
- # Constraining spaces to prevent model "running away".
- SPACE_RULE = '| " " | "\\n" [ \\t]{0,20}'
- PRIMITIVE_RULES = {
- 'boolean' : BuiltinRule('("true" | "false") space', []),
- 'decimal-part' : BuiltinRule('[0-9]{1,16}', []),
- 'integral-part': BuiltinRule('[0] | [1-9] [0-9]{0,15}', []),
- 'number' : BuiltinRule('("-"? integral-part) ("." decimal-part)? ([eE] [-+]? integral-part)? space', ['integral-part', 'decimal-part']),
- 'integer' : BuiltinRule('("-"? integral-part) space', ['integral-part']),
- 'value' : BuiltinRule('object | array | string | number | boolean | null', ['object', 'array', 'string', 'number', 'boolean', 'null']),
- 'object' : BuiltinRule('"{" space ( string ":" space value ("," space string ":" space value)* )? "}" space', ['string', 'value']),
- 'array' : BuiltinRule('"[" space ( value ("," space value)* )? "]" space', ['value']),
- 'uuid' : BuiltinRule(r'"\"" [0-9a-fA-F]{8} "-" [0-9a-fA-F]{4} "-" [0-9a-fA-F]{4} "-" [0-9a-fA-F]{4} "-" [0-9a-fA-F]{12} "\"" space', []),
- 'char' : BuiltinRule(r'[^"\\\x7F\x00-\x1F] | [\\] (["\\bfnrt] | "u" [0-9a-fA-F]{4})', []),
- 'string' : BuiltinRule(r'"\"" char* "\"" space', ['char']),
- 'null' : BuiltinRule('"null" space', []),
- }
- # TODO: support "uri", "email" string formats
- STRING_FORMAT_RULES = {
- 'date' : BuiltinRule('[0-9]{4} "-" ( "0" [1-9] | "1" [0-2] ) "-" ( \"0\" [1-9] | [1-2] [0-9] | "3" [0-1] )', []),
- 'time' : BuiltinRule('([01] [0-9] | "2" [0-3]) ":" [0-5] [0-9] ":" [0-5] [0-9] ( "." [0-9]{3} )? ( "Z" | ( "+" | "-" ) ( [01] [0-9] | "2" [0-3] ) ":" [0-5] [0-9] )', []),
- 'date-time' : BuiltinRule('date "T" time', ['date', 'time']),
- 'date-string' : BuiltinRule('"\\"" date "\\"" space', ['date']),
- 'time-string' : BuiltinRule('"\\"" time "\\"" space', ['time']),
- 'date-time-string': BuiltinRule('"\\"" date-time "\\"" space', ['date-time']),
- }
- DOTALL = '[\\U00000000-\\U0010FFFF]'
- DOT = '[^\\x0A\\x0D]'
- RESERVED_NAMES = set(["root", "dot", *PRIMITIVE_RULES.keys(), *STRING_FORMAT_RULES.keys()])
- INVALID_RULE_CHARS_RE = re.compile(r'[^a-zA-Z0-9-]+')
- GRAMMAR_LITERAL_ESCAPE_RE = re.compile(r'[\r\n"]')
- GRAMMAR_RANGE_LITERAL_ESCAPE_RE = re.compile(r'[\r\n"\]\-\\]')
- GRAMMAR_LITERAL_ESCAPES = {'\r': '\\r', '\n': '\\n', '"': '\\"', '-': '\\-', ']': '\\]'}
- NON_LITERAL_SET = set('|.()[]{}*+?')
- ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS = set('[]()|{}*+?')
- class SchemaConverter:
- def __init__(self, *, prop_order, allow_fetch, dotall, raw_pattern):
- self._prop_order = prop_order
- self._allow_fetch = allow_fetch
- self._dotall = dotall
- self._raw_pattern = raw_pattern
- self._rules = {
- 'space': SPACE_RULE,
- }
- self._refs = {}
- self._refs_being_resolved = set()
- def _format_literal(self, literal):
- escaped = GRAMMAR_LITERAL_ESCAPE_RE.sub(
- lambda m: GRAMMAR_LITERAL_ESCAPES.get(m.group(0)), literal
- )
- return f'"{escaped}"'
- def not_literal(self, literal: str, dotall: bool = True, maybe_escaped_underscores = False) -> str:
- '''
- not_literal('a') -> '[^a]'
- not_literal('abc') -> '([^a] | "a" ([^b] | "b" ([^c])?)?)?'
- '''
- assert len(literal) > 0, 'Empty literal not supported'
- def recurse(i: int):
- c = literal[i]
- if maybe_escaped_underscores and c == '_':
- yield f'[^{c}\\\\]'
- yield ' | '
- yield f'"\\\\"? "{c}"'
- else:
- yield f'[^{c}]'
- if i < len(literal) - 1:
- yield ' | '
- yield self._format_literal(c)
- yield ' ('
- yield from recurse(i + 1)
- yield ')?'
- return ''.join(('(', *recurse(0), ')'))
- def _add_rule(self, name, rule):
- esc_name = INVALID_RULE_CHARS_RE.sub('-', name)
- if esc_name not in self._rules or self._rules[esc_name] == rule:
- key = esc_name
- else:
- i = 0
- while f'{esc_name}{i}' in self._rules and self._rules[f'{esc_name}{i}'] != rule:
- i += 1
- key = f'{esc_name}{i}'
- self._rules[key] = rule
- return key
- def resolve_refs(self, schema: dict, url: str):
- '''
- Resolves all $ref fields in the given schema, fetching any remote schemas,
- replacing $ref with absolute reference URL and populating self._refs with the
- respective referenced (sub)schema dictionaries.
- '''
- def visit(n: dict):
- if isinstance(n, list):
- return [visit(x) for x in n]
- elif isinstance(n, dict):
- ref = n.get('$ref')
- if ref is not None and ref not in self._refs:
- if ref.startswith('https://'):
- assert self._allow_fetch, 'Fetching remote schemas is not allowed (use --allow-fetch for force)'
- import requests
- frag_split = ref.split('#')
- base_url = frag_split[0]
- target = self._refs.get(base_url)
- if target is None:
- target = self.resolve_refs(requests.get(ref).json(), base_url)
- self._refs[base_url] = target
- if len(frag_split) == 1 or frag_split[-1] == '':
- return target
- elif ref.startswith('#/'):
- target = schema
- ref = f'{url}{ref}'
- n['$ref'] = ref
- else:
- raise ValueError(f'Unsupported ref {ref}')
- for sel in ref.split('#')[-1].split('/')[1:]:
- assert target is not None and sel in target, f'Error resolving ref {ref}: {sel} not in {target}'
- target = target[sel]
- self._refs[ref] = target
- else:
- for v in n.values():
- visit(v)
- return n
- return visit(schema)
- def _generate_union_rule(self, name, alt_schemas):
- return ' | '.join((
- self.visit(alt_schema, f'{name}{"-" if name else "alternative-"}{i}')
- for i, alt_schema in enumerate(alt_schemas)
- ))
- def _visit_pattern(self, pattern, name):
- '''
- Transforms a regular expression pattern into a GBNF rule.
- Input: https://json-schema.org/understanding-json-schema/reference/regular_expressions
- Output: https://github.com/ggerganov/llama.cpp/blob/master/grammars/README.md
- Unsupported features: negative/positive lookaheads, greedy/non-greedy modifiers.
- Mostly a 1:1 translation, except for {x} / {x,} / {x,y} quantifiers for which
- we define sub-rules to keep the output lean.
- '''
- assert pattern.startswith('^') and pattern.endswith('$'), 'Pattern must start with "^" and end with "$"'
- pattern = pattern[1:-1]
- sub_rule_ids = {}
- i = 0
- length = len(pattern)
- def to_rule(s: Tuple[str, bool]) -> str:
- (txt, is_literal) = s
- return "\"" + txt + "\"" if is_literal else txt
- def transform() -> Tuple[str, bool]:
- '''
- Parse a unit at index i (advancing it), and return its string representation + whether it's a literal.
- '''
- nonlocal i
- nonlocal pattern
- nonlocal sub_rule_ids
- start = i
- # For each component of this sequence, store its string representation and whether it's a literal.
- # We only need a flat structure here to apply repetition operators to the last item, and
- # to merge literals at the and (we're parsing grouped ( sequences ) recursively and don't treat '|' specially
- # (GBNF's syntax is luckily very close to regular expressions!)
- seq: list[Tuple[str, bool]] = []
- def get_dot():
- if self._dotall:
- rule = DOTALL
- else:
- # Accept any character... except \n and \r line break chars (\x0A and \xOD)
- rule = DOT
- return self._add_rule(f'dot', rule)
- def join_seq():
- nonlocal seq
- ret = []
- for is_literal, g in itertools.groupby(seq, lambda x: x[1]):
- if is_literal:
- ret.append((''.join(x[0] for x in g), True))
- else:
- ret.extend(g)
- if len(ret) == 1:
- return ret[0]
- return (' '.join(to_rule(x) for x in seq), False)
- while i < length:
- c = pattern[i]
- if c == '.':
- seq.append((get_dot(), False))
- i += 1
- elif c == '(':
- i += 1
- if i < length:
- assert pattern[i] != '?', f'Unsupported pattern syntax "{pattern[i]}" at index {i} of /{pattern}/'
- seq.append((f'({to_rule(transform())})', False))
- elif c == ')':
- i += 1
- assert start > 0 and pattern[start-1] == '(', f'Unbalanced parentheses; start = {start}, i = {i}, pattern = {pattern}'
- return join_seq()
- elif c == '[':
- square_brackets = c
- i += 1
- while i < length and pattern[i] != ']':
- if pattern[i] == '\\':
- square_brackets += pattern[i:i+2]
- i += 2
- else:
- square_brackets += pattern[i]
- i += 1
- assert i < length, f'Unbalanced square brackets; start = {start}, i = {i}, pattern = {pattern}'
- square_brackets += ']'
- i += 1
- seq.append((square_brackets, False))
- elif c == '|':
- seq.append(('|', False))
- i += 1
- elif c in ('*', '+', '?'):
- seq[-1] = (to_rule(seq[-1]) + c, False)
- i += 1
- elif c == '{':
- curly_brackets = c
- i += 1
- while i < length and pattern[i] != '}':
- curly_brackets += pattern[i]
- i += 1
- assert i < length, f'Unbalanced curly brackets; start = {start}, i = {i}, pattern = {pattern}'
- curly_brackets += '}'
- i += 1
- nums = [s.strip() for s in curly_brackets[1:-1].split(',')]
- min_times = 0
- max_times = None
- try:
- if len(nums) == 1:
- min_times = int(nums[0])
- max_times = min_times
- else:
- assert len(nums) == 2
- min_times = int(nums[0]) if nums[0] else 0
- max_times = int(nums[1]) if nums[1] else None
- except ValueError:
- raise ValueError(f'Invalid quantifier {curly_brackets} in /{pattern}/')
- (sub, sub_is_literal) = seq[-1]
- if not sub_is_literal:
- id = sub_rule_ids.get(sub)
- if id is None:
- id = self._add_rule(f'{name}-{len(sub_rule_ids) + 1}', sub)
- sub_rule_ids[sub] = id
- sub = id
- seq[-1] = (_build_repetition(f'"{sub}"' if sub_is_literal else sub, min_times, max_times), False)
- else:
- literal = ''
- while i < length:
- if pattern[i] == '\\' and i < length - 1:
- next = pattern[i + 1]
- if next in ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS:
- i += 1
- literal += pattern[i]
- i += 1
- else:
- literal += pattern[i:i+2]
- i += 2
- elif pattern[i] == '"' and not self._raw_pattern:
- literal += '\\"'
- i += 1
- elif pattern[i] not in NON_LITERAL_SET and \
- (i == length - 1 or literal == '' or pattern[i+1] == '.' or pattern[i+1] not in NON_LITERAL_SET):
- literal += pattern[i]
- i += 1
- else:
- break
- if literal:
- seq.append((literal, True))
- return join_seq()
- return self._add_rule(
- name,
- to_rule(transform()) if self._raw_pattern \
- else "\"\\\"\" " + to_rule(transform()) + " \"\\\"\" space")
- def _resolve_ref(self, ref):
- ref_name = ref.split('/')[-1]
- if ref_name not in self._rules and ref not in self._refs_being_resolved:
- self._refs_being_resolved.add(ref)
- resolved = self._refs[ref]
- ref_name = self.visit(resolved, ref_name)
- self._refs_being_resolved.remove(ref)
- return ref_name
- def _generate_constant_rule(self, value):
- return self._format_literal(json.dumps(value))
- def visit(self, schema, name):
- schema_type = schema.get('type')
- schema_format = schema.get('format')
- rule_name = name + '-' if name in RESERVED_NAMES else name or 'root'
- if (ref := schema.get('$ref')) is not None:
- return self._add_rule(rule_name, self._resolve_ref(ref))
- elif 'oneOf' in schema or 'anyOf' in schema:
- return self._add_rule(rule_name, self._generate_union_rule(name, schema.get('oneOf') or schema['anyOf']))
- elif isinstance(schema_type, list):
- return self._add_rule(rule_name, self._generate_union_rule(name, [{'type': t} for t in schema_type]))
- elif 'const' in schema:
- return self._add_rule(rule_name, self._generate_constant_rule(schema['const']))
- elif 'enum' in schema:
- rule = ' | '.join((self._generate_constant_rule(v) for v in schema['enum']))
- return self._add_rule(rule_name, rule)
- elif schema_type in (None, 'object') and \
- ('properties' in schema or \
- ('additionalProperties' in schema and schema['additionalProperties'] is not True)):
- required = set(schema.get('required', []))
- properties = list(schema.get('properties', {}).items())
- return self._add_rule(rule_name, self._build_object_rule(properties, required, name, schema.get('additionalProperties')))
- elif schema_type in (None, 'object') and 'allOf' in schema:
- required = set()
- properties = []
- hybrid_name = name
- def add_component(comp_schema, is_required):
- if (ref := comp_schema.get('$ref')) is not None:
- comp_schema = self._refs[ref]
- if 'properties' in comp_schema:
- for prop_name, prop_schema in comp_schema['properties'].items():
- properties.append((prop_name, prop_schema))
- if is_required:
- required.add(prop_name)
- for t in schema['allOf']:
- if 'anyOf' in t:
- for tt in t['anyOf']:
- add_component(tt, is_required=False)
- else:
- add_component(t, is_required=True)
- return self._add_rule(rule_name, self._build_object_rule(properties, required, hybrid_name, additional_properties=[]))
- elif schema_type in (None, 'array') and ('items' in schema or 'prefixItems' in schema):
- items = schema.get('items') or schema['prefixItems']
- if isinstance(items, list):
- return self._add_rule(
- rule_name,
- '"[" space ' +
- ' "," space '.join(
- self.visit(item, f'{name}{"-" if name else ""}tuple-{i}')
- for i, item in enumerate(items)) +
- ' "]" space')
- else:
- item_rule_name = self.visit(items, f'{name}{"-" if name else ""}item')
- min_items = schema.get("minItems", 0)
- max_items = schema.get("maxItems")
- return self._add_rule(rule_name, '"[" space ' + _build_repetition(item_rule_name, min_items, max_items, separator_rule='"," space') + ' "]" space')
- elif schema_type in (None, 'string') and 'pattern' in schema:
- return self._visit_pattern(schema['pattern'], rule_name)
- elif schema_type in (None, 'string') and re.match(r'^uuid[1-5]?$', schema_format or ''):
- return self._add_primitive(
- 'root' if rule_name == 'root' else schema_format,
- PRIMITIVE_RULES['uuid']
- )
- elif schema_type in (None, 'string') and f'{schema_format}-string' in STRING_FORMAT_RULES:
- prim_name = f'{schema_format}-string'
- return self._add_rule(rule_name, self._add_primitive(prim_name, STRING_FORMAT_RULES[prim_name]))
- elif schema_type == 'string' and ('minLength' in schema or 'maxLength' in schema):
- char_rule = self._add_primitive('char', PRIMITIVE_RULES['char'])
- min_len = schema.get('minLength', 0)
- max_len = schema.get('maxLength')
- return self._add_rule(rule_name, r'"\"" ' + _build_repetition(char_rule, min_len, max_len) + r' "\"" space')
- elif (schema_type == 'object') or (len(schema) == 0):
- return self._add_rule(rule_name, self._add_primitive('object', PRIMITIVE_RULES['object']))
- else:
- assert schema_type in PRIMITIVE_RULES, f'Unrecognized schema: {schema}'
- # TODO: support minimum, maximum, exclusiveMinimum, exclusiveMaximum at least for zero
- return self._add_primitive('root' if rule_name == 'root' else schema_type, PRIMITIVE_RULES[schema_type])
- def _add_primitive(self, name: str, rule: BuiltinRule):
- n = self._add_rule(name, rule.content)
- for dep in rule.deps:
- dep_rule = PRIMITIVE_RULES.get(dep) or STRING_FORMAT_RULES.get(dep)
- assert dep_rule, f'Rule {dep} not known'
- if dep not in self._rules:
- self._add_primitive(dep, dep_rule)
- return n
- def _build_object_rule(self, properties: List[Tuple[str, Any]], required: Set[str], name: str, additional_properties: Union[bool, Any]):
- prop_order = self._prop_order
- # sort by position in prop_order (if specified) then by original order
- sorted_props = [kv[0] for _, kv in sorted(enumerate(properties), key=lambda ikv: (prop_order.get(ikv[1][0], len(prop_order)), ikv[0]))]
- prop_kv_rule_names = {}
- for prop_name, prop_schema in properties:
- prop_rule_name = self.visit(prop_schema, f'{name}{"-" if name else ""}{prop_name}')
- prop_kv_rule_names[prop_name] = self._add_rule(
- f'{name}{"-" if name else ""}{prop_name}-kv',
- fr'{self._format_literal(json.dumps(prop_name))} space ":" space {prop_rule_name}'
- )
- required_props = [k for k in sorted_props if k in required]
- optional_props = [k for k in sorted_props if k not in required]
- if additional_properties == True or isinstance(additional_properties, dict):
- sub_name = f'{name}{"-" if name else ""}additional'
- value_rule = self.visit({} if additional_properties == True else additional_properties, f'{sub_name}-value')
- prop_kv_rule_names["*"] = self._add_rule(
- f'{sub_name}-kv',
- self._add_primitive('string', PRIMITIVE_RULES['string']) + f' ":" space {value_rule}'
- )
- optional_props.append("*")
- rule = '"{" space '
- rule += ' "," space '.join(prop_kv_rule_names[k] for k in required_props)
- if optional_props:
- rule += ' ('
- if required_props:
- rule += ' "," space ( '
- def get_recursive_refs(ks, first_is_optional):
- [k, *rest] = ks
- kv_rule_name = prop_kv_rule_names[k]
- if k == '*':
- res = self._add_rule(
- f'{name}{"-" if name else ""}additional-kvs',
- f'{kv_rule_name} ( "," space ' + kv_rule_name + ' )*'
- )
- elif first_is_optional:
- res = f'( "," space {kv_rule_name} )?'
- else:
- res = kv_rule_name
- if len(rest) > 0:
- res += ' ' + self._add_rule(
- f'{name}{"-" if name else ""}{k}-rest',
- get_recursive_refs(rest, first_is_optional=True)
- )
- return res
- rule += ' | '.join(
- get_recursive_refs(optional_props[i:], first_is_optional=False)
- for i in range(len(optional_props))
- )
- if required_props:
- rule += ' )'
- rule += ' )?'
- rule += ' "}" space'
- return rule
- def format_grammar(self):
- return '\n'.join(
- f'{name} ::= {rule}'
- for name, rule in sorted(self._rules.items(), key=lambda kv: kv[0])
- )
- def main(args_in = None):
- parser = argparse.ArgumentParser(
- description='''
- Generates a grammar (suitable for use in ./main) that produces JSON conforming to a
- given JSON schema. Only a subset of JSON schema features are supported; more may be
- added in the future.
- ''',
- )
- parser.add_argument(
- '--prop-order',
- default=[],
- type=lambda s: s.split(','),
- help='''
- comma-separated property names defining the order of precedence for object properties;
- properties not specified here are given lower precedence than those that are, and
- are kept in their original order from the schema. Required properties are always
- given precedence over optional properties.
- '''
- )
- parser.add_argument(
- '--allow-fetch',
- action='store_true',
- default=False,
- help='Whether to allow fetching referenced schemas over HTTPS')
- parser.add_argument(
- '--dotall',
- action='store_true',
- default=False,
- help='Whether to treat dot (".") as matching all chars including line breaks in regular expression patterns')
- parser.add_argument(
- '--raw-pattern',
- action='store_true',
- default=False,
- help='Treats string patterns as raw patterns w/o quotes (or quote escapes)')
- parser.add_argument('schema', help='file containing JSON schema ("-" for stdin)')
- args = parser.parse_args(args_in)
- if args.schema.startswith('https://'):
- url = args.schema
- import requests
- schema = requests.get(url).json()
- elif args.schema == '-':
- url = 'stdin'
- schema = json.load(sys.stdin)
- else:
- url = f'file://{args.schema}'
- with open(args.schema) as f:
- schema = json.load(f)
- converter = SchemaConverter(
- prop_order={name: idx for idx, name in enumerate(args.prop_order)},
- allow_fetch=args.allow_fetch,
- dotall=args.dotall,
- raw_pattern=args.raw_pattern)
- schema = converter.resolve_refs(schema, url)
- converter.visit(schema, '')
- print(converter.format_grammar())
- if __name__ == '__main__':
- main()
|
