def grammar(self):
value = Forward()
list_ = Sequence('[', Optional(DelimitedList(value)), ']')
pair = Sequence('ESCAPED_STRING', ':', value)
dict_ = Sequence('{', Optional(DelimitedList(pair)), '}')
value <<= choice(list_, dict_, 'ESCAPED_STRING', 'NUMBER', 'TRUE',
'FALSE', 'NULL')
return value
def test_grammar_1(self):
grammar = Grammar(Sequence(
'IF',
choice(Sequence(choice('A', 'B'), 'STRING'),
'STRING'),
'WORD',
choice(
Sequence(
choice(DelimitedList('STRING'), ZeroOrMore('NUMBER')), '.'),
'.')))
datas = [
(
[
('IF', 'IF'),
('STRING', 'foo'),
('WORD', 'bar'),
('.', '.')
],
['IF', 'foo', 'bar', [[], '.']]
),
(
[
('IF', 'IF'),
('STRING', 'foo'),
('WORD', 'bar'),
('NUMBER', '0'),
('NUMBER', '100'),
('.', '.')
],
['IF', 'foo', 'bar', [['0', '100'], '.']]
)
]
self.parse_and_assert_tree(grammar, datas)
def test_grammar_delimited_list_mismatch(self):
grammar = Grammar(Sequence(DelimitedList('WORD'), Optional('.')))
datas = [([('WORD', 'foo', 1), (',', ',', 2)], 2),
([('WORD', 'foo', 1), (',', ',', 2), ('WORD', 'foo', 3),
(',', ',', 4), ('.', '.', 5)], 4)]
self.parse_and_assert_mismatch(grammar, datas)
def grammar(self):
return Sequence(
'WORD',
Optional('WORD'),
'ESCAPED_STRING',
'WORD',
Optional(choice(DelimitedList('ESCAPED_STRING'),
ZeroOrMore('NUMBER'))),
'.')
def test_grammar_delimited_list(self):
grammar = Grammar(Sequence(DelimitedList('WORD'), Optional('.')))
datas = [([('WORD', 'foo')], [['foo'], []]),
([('WORD', 'foo'), (',', ','),
('WORD', 'bar')], [['foo', 'bar'], []]),
([('WORD', 'foo'), (',', ','), ('WORD', 'bar'),
('.', '.')], [['foo', 'bar'], ['.']])]
self.parse_and_assert_tree(grammar, datas)
def test_grammar_1_mismatch(self):
grammar = Grammar(Sequence(
'IF',
choice(Sequence(choice('A', 'B'), 'STRING'),
'STRING'),
'WORD',
choice(
Sequence(
choice(DelimitedList('STRING'), ZeroOrMore('NUMBER')), '.'),
'.')))
datas = [
(
[
('IF', 'IF', 1),
('STRING', 'foo', 2),
('WORD', 'bar', 3),
(',', ',', 4)
],
4
),
(
[
('IF', 'IF', 1),
('STRING', 'foo', 2),
('.', '.', 3)
],
3
),
(
[
('IF', 'IF', 1),
('NUMBER', '1', 2)
],
2
),
(
[
('IF', 'IF', 1),
('STRING', 'foo', 2),
('WORD', 'bar', 3),
('.', '.', 4),
('.', '.', 5)
],
5
)
]
self.parse_and_assert_mismatch(grammar, datas)
def grammar(self):
version = Sequence('FormatVersion', '=', 'NUMBER')
title = Sequence('Title', '=', 'STRING')
enum_value = Sequence('NUMBER', '=', 'STRING')
enum = Sequence('Enum', '=', 'WORD', '(', DelimitedList(enum_value),
')')
sig_unit = Sequence('/u:', 'WORD')
sig_factor = Sequence('/f:', 'NUMBER')
sig_offset = Sequence('/o:', 'NUMBER')
sig_min = Sequence('/min:', 'NUMBER')
sig_max = Sequence('/max:', 'NUMBER')
sig_default = Sequence('/d:', 'NUMBER')
sig_long_name = Sequence('/ln:', 'STRING')
sig_enum = Sequence('/e:', 'WORD')
signal = Sequence('Sig', '=', 'WORD', 'WORD', Optional('NUMBER'),
Optional('-m'), Optional(sig_unit),
Optional(sig_factor), Optional(sig_offset),
Optional(sig_min), Optional(sig_max),
Optional(sig_default), Optional(sig_long_name),
Optional(sig_enum))
symbol = Sequence(
'[', 'WORD', ']',
Optional(
Sequence('ID', '=', 'NUMBER', 'WORD',
Optional(Sequence('NUMBER', 'WORD')))),
Sequence('Len', '=', 'NUMBER'),
Optional(
Sequence('Mux', '=', 'WORD', 'NUMBER', ',', 'NUMBER',
'NUMBER')),
Optional(Sequence('CycleTime', '=', 'NUMBER')),
Optional(Sequence('Timeout', '=', 'NUMBER')),
Optional(Sequence('MinInterval', '=', 'NUMBER')),
ZeroOrMore(Sequence('Sig', '=', 'WORD', 'NUMBER')))
enums = Sequence('{ENUMS}', ZeroOrMore(enum))
signals = Sequence('{SIGNALS}', ZeroOrMore(signal))
send = Sequence('{SEND}', ZeroOrMore(symbol))
receive = Sequence('{RECEIVE}', ZeroOrMore(symbol))
sendreceive = Sequence('{SENDRECEIVE}', ZeroOrMore(symbol))
section = choice(enums, signals, send, receive, sendreceive)
grammar = Sequence(version, title, OneOrMore(section))
return grammar
def grammar(self):
version = Sequence('VERSION', 'STRING')
ns = Sequence('NS_', ':', AnyUntil(Sequence(Any(), ':')))
bs = Sequence('BS_', ':')
nodes = Sequence('BU_', ':', ZeroOrMore('WORD'))
signal = Sequence('SG_',
choice(Sequence('WORD', 'WORD'), Sequence('WORD')),
':', 'NUMBER', '|', 'NUMBER', '@', 'NUMBER', '+/-',
'(', 'NUMBER', ',', 'NUMBER', ')', '[', 'NUMBER',
'|', 'NUMBER', ']', 'STRING', DelimitedList('WORD'))
message = Sequence('BO_', 'NUMBER', 'WORD', ':', 'NUMBER', 'WORD',
ZeroOrMore(signal))
environment_variable = Sequence('EV_', 'WORD', ':', 'NUMBER', '[',
'NUMBER', '|', 'NUMBER', ']', 'STRING',
'NUMBER', 'NUMBER', 'WORD', 'WORD',
';')
comment = Sequence(
'CM_',
choice(Sequence('SG_', 'NUMBER', 'WORD', 'STRING'),
Sequence('BO_', 'NUMBER', 'STRING'),
Sequence('EV_', 'WORD', 'STRING'),
Sequence('BU_', 'WORD', 'STRING'), 'STRING'), ';')
attribute_definition = Sequence(
'BA_DEF_', Optional(choice('SG_', 'BO_', 'EV_',
'BU_')), 'STRING', 'WORD',
Optional(choice(DelimitedList('STRING'), ZeroOrMore('NUMBER'))),
';')
attribute_definition_default = Sequence('BA_DEF_DEF_', 'STRING',
choice('NUMBER', 'STRING'),
';')
attribute = Sequence(
'BA_', 'STRING',
ZeroOrMore(
choice(Sequence('BO_', 'NUMBER'),
Sequence('SG_', 'NUMBER', 'WORD'),
Sequence('BU_', 'WORD'), Sequence('EV_', 'WORD'))),
choice('NUMBER', 'STRING'), ';')
attribute_definition_rel = Sequence(
'BA_DEF_REL_', Optional('BU_SG_REL_'), 'STRING', 'WORD',
Optional(choice(DelimitedList('STRING'), OneOrMore('NUMBER'))),
';')
attribute_definition_default_rel = Sequence('BA_DEF_DEF_REL_',
'STRING',
choice('NUMBER',
'STRING'), ';')
attribute_rel = Sequence('BA_REL_', 'STRING', 'BU_SG_REL_', 'WORD',
'SG_', 'NUMBER', 'WORD',
choice('NUMBER', 'STRING'), ';')
choice_ = Sequence('VAL_', Optional('NUMBER'), 'WORD',
ZeroOrMore(Sequence('NUMBER', 'STRING')), ';')
value_table = Sequence('VAL_TABLE_', 'WORD',
ZeroOrMore(Sequence('NUMBER', 'STRING')), ';')
signal_type = Sequence('SIG_VALTYPE_', 'NUMBER', 'WORD', ':', 'NUMBER',
';')
signal_multiplexer_values = Sequence(
'SG_MUL_VAL_', 'NUMBER', 'WORD', 'WORD',
DelimitedList(Sequence('NUMBER', 'NUMBER')), ';')
message_add_sender = Sequence('BO_TX_BU_', 'NUMBER', ':',
DelimitedList('WORD'), ';')
signal_group = Sequence('SIG_GROUP_', 'NUMBER', 'WORD', 'NUMBER', ':',
Optional(OneOrMore('WORD')), ';')
return OneOrMoreDict(
choice(message, comment, attribute_definition, value_table,
choice_, attribute, attribute_rel, attribute_definition_rel,
attribute_definition_default,
attribute_definition_default_rel, signal_group, signal_type,
signal_multiplexer_values, message_add_sender,
environment_variable, nodes, ns, bs, version))
def grammar(self):
word = choice('WORD', *list(self.KEYWORDS))
version = Sequence('FormatVersion', '=', 'NUMBER', 'COMMENT')
title = Sequence('Title', '=', 'STRING')
unique_variables = Sequence('UniqueVariables', '=', word)
float_decimal_places = Sequence('FloatDecimalPlaces', '=', 'NUMBER')
bit_rate_switch = Sequence('BRS', '=', word)
enum_value = Sequence('NUMBER', '=', 'STRING')
enum = Sequence('Enum', '=', word, '(',
Optional(DelimitedList(enum_value)), ')',
Optional('COMMENT'))
sig_unit = '/u:'
sig_factor = Sequence('/f:', 'NUMBER')
sig_offset = Sequence('/o:', 'NUMBER')
sig_min = Sequence('/min:', 'NUMBER')
sig_max = Sequence('/max:', 'NUMBER')
sig_default = Sequence('/d:', choice('NUMBER', 'WORD'))
sig_long_name = Sequence('/ln:', 'STRING')
sig_enum = Sequence('/e:', word)
sig_places = Sequence('/p:', 'NUMBER')
signal = Sequence(
'Sig', '=', Any(), word, Optional('NUMBER'),
Optional(choice('-h', '-b')), Optional('-m'),
ZeroOrMore(
choice(sig_unit, sig_factor, sig_offset, sig_min, sig_max,
sig_default, sig_long_name, sig_enum, sig_places)),
Optional('COMMENT'))
variable = Sequence(
'Var', '=', Any(), word, 'NUMBER', ',', 'NUMBER',
ZeroOrMore(choice('-v', '-m', '-s')),
ZeroOrMore(
choice(sig_unit, sig_factor, sig_offset, sig_min, sig_max,
sig_default, sig_long_name, sig_enum, sig_places)),
Optional('COMMENT'))
symbol = Sequence(
'[', Any(), ']',
ZeroOrMoreDict(
choice(
Sequence('ID', '=', 'NUMBER', word,
Optional(Sequence('NUMBER', word)),
Optional('COMMENT')),
Sequence('Len', '=', 'NUMBER'),
Sequence('Mux', '=', Any(), 'NUMBER', ',', 'NUMBER',
'NUMBER', Optional('-t')),
Sequence('CycleTime', '=', 'NUMBER'),
Sequence('Timeout', '=', 'NUMBER'),
Sequence('MinInterval', '=', 'NUMBER'),
Sequence('Color', '=', 'NUMBER', 'WORD'), variable,
Sequence('Sig', '=', Any(), 'NUMBER'))))
enums = Sequence('{ENUMS}', ZeroOrMore(choice(enum, 'COMMENT')))
signals = Sequence('{SIGNALS}', ZeroOrMore(choice(signal, 'COMMENT')))
send = Sequence('{SEND}', ZeroOrMore(choice(symbol, 'COMMENT')))
receive = Sequence('{RECEIVE}', ZeroOrMore(choice(symbol, 'COMMENT')))
sendreceive = Sequence('{SENDRECEIVE}',
ZeroOrMore(choice(symbol, 'COMMENT')))
section = choice(enums, signals, send, receive, sendreceive)
grammar = Sequence(
Optional('COMMENT'), version,
ZeroOrMore(
choice(unique_variables, float_decimal_places, title,
bit_rate_switch)), ZeroOrMore(section))
return grammar
def grammar(self):
ident = choice('IDENT', *self.KEYWORDS)
full_ident = DelimitedList(ident, '.')
empty_statement = ';'
message_type = Sequence(Optional('.'), full_ident)
constant = choice(Tag('bool', choice('true', 'false')),
Tag('ident', full_ident), Tag('string', 'STRING'),
Tag('integer', 'INT'))
option_name = Sequence(choice(ident, Sequence('(', full_ident, ')')),
ZeroOrMore(Sequence('.', ident)))
options = Optional(
Sequence('[', DelimitedList(Sequence(option_name, '=', constant)),
']'))
# Import.
import_ = Sequence('import', Optional(choice('weak', 'public')),
'STRING')
# Package.
package = Sequence('package', full_ident, ';')
# Option.
option = Sequence('option', option_name, '=', constant, ';')
# Enum.
enum_field = Sequence(ident, '=', 'INT', options, ';')
enum = Sequence('enum', ident, '{',
ZeroOrMore(choice(enum_field, empty_statement)), '}')
# Oneof.
oneof_field = Sequence(message_type, ident, '=', 'INT', ';')
oneof = Sequence('oneof', ident, '{',
ZeroOrMore(choice(oneof_field, empty_statement)), '}')
# Map.
map_field = Sequence('map', '<', ident, ',', message_type, '>', ident,
'=', 'INT', options, ';')
# Reserved.
field_number_range = Sequence(
'INT', Optional(Sequence('to', choice('INT', 'max'))))
reserved = Sequence(
'reserved',
choice(DelimitedList(field_number_range), DelimitedList('STRING')))
# Message.
field = Sequence(Optional('repeated'), message_type, ident, '=', 'INT',
options, ';')
message = Forward()
message <<= Sequence(
'message', ident, '{',
ZeroOrMore(
choice(Tag('field', field), enum, message, oneof, map_field,
reserved, empty_statement)), '}')
# Service.
rpc_name = ident
rpc = Sequence('rpc', rpc_name, '(',
Optional('stream'), message_type, ')', 'returns', '(',
Optional('stream'), message_type, ')',
choice(Sequence('{', ZeroOrMore(option), '}'), ';'))
service = Sequence('service', ident, '{',
ZeroOrMore(choice(option, rpc, empty_statement)),
'}')
# Proto3-file.
top_level_def = choice(message, enum, service)
syntax = Sequence('syntax', '=', 'PROTO3', ';')
proto = Sequence(
syntax,
ZeroOrMoreDict(
choice(import_, package, option, top_level_def,
empty_statement)))
return proto
def grammar(self):
message = Forward()
rpc = Forward()
ident = choice(*(list(self.keywords()) + ['IDENT']))
full_ident = DelimitedList(ident, delim='.')
# Constant.
constant = choice(full_ident,
Sequence(Optional(choice('-', '+')), 'INT'),
Sequence(Optional(choice('-', '+')), 'FLOAT'),
'ESCAPED_STRING', 'true', 'false')
# Syntax.
syntax = Sequence('syntax', '=', 'ESCAPED_STRING', ';')
# Import statement.
import_ = Sequence('import', Optional(choice('weak', 'public')),
'ESCAPED_STRING', ';')
# Package.
package = Sequence('package', full_ident, ';')
# Option.
option_name = Sequence(choice(ident, Sequence('(', full_ident, ')')),
ZeroOrMore(Sequence('.', ident)))
option = Sequence('option', option_name, '=', constant, ';')
# Fields.
type_ = choice(Sequence(Optional('.'), DelimitedList(ident, '.')),
ident)
field_number = 'INT'
# Normal field.
field_option = Sequence(option_name, '=', constant)
field_options = DelimitedList(field_option)
field = Sequence(Optional('repeated'), type_, ident, '=', field_number,
Optional(Sequence('[', field_options, ']')), ';')
# Oneof and oneof field.
oneof_field = Sequence(type_, ident, '=', field_number,
Optional(Sequence('[', field_options, ']')),
';')
oneof = Sequence('oneof', ident, '{',
ZeroOrMore(choice(oneof_field, ';')), '}')
# Map field.
key_type = choice('int32', 'int64', 'uint32', 'uint64', 'sint32',
'sint64', 'fixed32', 'fixed64', 'sfixed32',
'sfixed64', 'bool', 'string')
map_field = Sequence('map', '<', key_type, ',', type_, '>', ident, '=',
field_number,
Optional(Sequence('[', field_options, ']')), ';')
# Reserved.
field_names = DelimitedList(ident)
ranges = Sequence(DelimitedList('INT'),
Optional(Sequence('to', choice('INT', 'max'))))
reserved = Sequence('reserved', choice(ranges, field_names), ';')
# Enum definition.
enum_value_option = Sequence(option_name, '=', constant)
enum_field = Sequence(
ident, '=', 'INT',
Optional(Sequence('[', DelimitedList(enum_value_option), ']')),
';')
enum_body = Sequence('{', ZeroOrMore(choice(option, enum_field, ';')),
'}')
enum = Sequence('enum', ident, enum_body)
# Message definition.
message_body = Sequence(
'{',
ZeroOrMore(
choice(field, enum, message, option, oneof, map_field,
reserved, ';')), '}')
message <<= Sequence('message', ident, message_body)
# Service definition.
service = Sequence('service', ident, '{',
ZeroOrMore(choice(option, rpc, ';')), '}')
rpc <<= Sequence(
'rpc', ident, '(', Optional('stream'), ident, ')', 'returns', '(',
Optional('stream'), ident, ')',
choice(Sequence('{', ZeroOrMore(choice(option, ';')), '}'), ';'))
# Proto file.
proto = Sequence(
syntax,
ZeroOrMore(
choice(import_, package, option, message, enum, service, ';')))
return proto
