ソースを参照
Merge pull request #952 from lark-parser/MegaIng-better_repeats_refactor
tags/gm/2021-09-23T00Z/github.com--lark-parser-lark/0.12.0
Erez Shinan
3年前
committed by
GitHub
GitHub
この署名に対応する既知のキーがデータベースに存在しません
GPGキーID: 4AEE18F83AFDEB23
4個のファイルの変更、199行の追加、35行の削除
分割表示
差分オプション
-
+123 -12lark/load_grammar.py
-
+28 -2lark/utils.py
-
+48 -1tests/test_grammar.py
-
+0 -20tests/test_parser.py
+ 123
- 12
lark/load_grammar.py
ファイルの表示
| @@ -9,7 +9,7 @@ import pkgutil | |||
| from ast import literal_eval | |||
| from numbers import Integral | |||
| from .utils import bfs, Py36, logger, classify_bool, is_id_continue, is_id_start, bfs_all_unique | |||
| from .utils import bfs, Py36, logger, classify_bool, is_id_continue, is_id_start, bfs_all_unique, small_factors | |||
| from .lexer import Token, TerminalDef, PatternStr, PatternRE | |||
| from .parse_tree_builder import ParseTreeBuilder | |||
| @@ -175,27 +175,136 @@ RULES = { | |||
| } | |||
| # Value 5 keeps the number of states in the lalr parser somewhat minimal | |||
| # It isn't optimal, but close to it. See PR #949 | |||
| SMALL_FACTOR_THRESHOLD = 5 | |||
| # The Threshold whether repeat via ~ are split up into different rules | |||
| # 50 is chosen since it keeps the number of states low and therefore lalr analysis time low, | |||
| # while not being to overaggressive and unnecessarily creating rules that might create shift/reduce conflicts. | |||
| # (See PR #949) | |||
| REPEAT_BREAK_THRESHOLD = 50 | |||
| @inline_args | |||
| class EBNF_to_BNF(Transformer_InPlace): | |||
| def __init__(self): | |||
| self.new_rules = [] | |||
| self.rules_by_expr = {} | |||
| self.rules_cache = {} | |||
| self.prefix = 'anon' | |||
| self.i = 0 | |||
| self.rule_options = None | |||
| def _add_recurse_rule(self, type_, expr): | |||
| if expr in self.rules_by_expr: | |||
| return self.rules_by_expr[expr] | |||
| new_name = '__%s_%s_%d' % (self.prefix, type_, self.i) | |||
| def _name_rule(self, inner): | |||
| new_name = '__%s_%s_%d' % (self.prefix, inner, self.i) | |||
| self.i += 1 | |||
| t = NonTerminal(new_name) | |||
| tree = ST('expansions', [ST('expansion', [expr]), ST('expansion', [t, expr])]) | |||
| self.new_rules.append((new_name, tree, self.rule_options)) | |||
| self.rules_by_expr[expr] = t | |||
| return new_name | |||
| def _add_rule(self, key, name, expansions): | |||
| t = NonTerminal(name) | |||
| self.new_rules.append((name, expansions, self.rule_options)) | |||
| self.rules_cache[key] = t | |||
| return t | |||
| def _add_recurse_rule(self, type_, expr): | |||
| try: | |||
| return self.rules_cache[expr] | |||
| except KeyError: | |||
| new_name = self._name_rule(type_) | |||
| t = NonTerminal(new_name) | |||
| tree = ST('expansions', [ | |||
| ST('expansion', [expr]), | |||
| ST('expansion', [t, expr]) | |||
| ]) | |||
| return self._add_rule(expr, new_name, tree) | |||
| def _add_repeat_rule(self, a, b, target, atom): | |||
| """Generate a rule that repeats target ``a`` times, and repeats atom ``b`` times. | |||
| When called recursively (into target), it repeats atom for x(n) times, where: | |||
| x(0) = 1 | |||
| x(n) = a(n) * x(n-1) + b | |||
| Example rule when a=3, b=4: | |||
| new_rule: target target target atom atom atom atom | |||
| """ | |||
| key = (a, b, target, atom) | |||
| try: | |||
| return self.rules_cache[key] | |||
| except KeyError: | |||
| new_name = self._name_rule('repeat_a%d_b%d' % (a, b)) | |||
| tree = ST('expansions', [ST('expansion', [target] * a + [atom] * b)]) | |||
| return self._add_rule(key, new_name, tree) | |||
| def _add_repeat_opt_rule(self, a, b, target, target_opt, atom): | |||
| """Creates a rule that matches atom 0 to (a*n+b)-1 times. | |||
| When target matches n times atom, and target_opt 0 to n-1 times target_opt, | |||
| First we generate target * i followed by target_opt, for i from 0 to a-1 | |||
| These match 0 to n*a - 1 times atom | |||
| Then we generate target * a followed by atom * i, for i from 0 to b-1 | |||
| These match n*a to n*a + b-1 times atom | |||
| The created rule will not have any shift/reduce conflicts so that it can be used with lalr | |||
| Example rule when a=3, b=4: | |||
| new_rule: target_opt | |||
| | target target_opt | |||
| | target target target_opt | |||
| | target target target | |||
| | target target target atom | |||
| | target target target atom atom | |||
| | target target target atom atom atom | |||
| """ | |||
| key = (a, b, target, atom, "opt") | |||
| try: | |||
| return self.rules_cache[key] | |||
| except KeyError: | |||
| new_name = self._name_rule('repeat_a%d_b%d_opt' % (a, b)) | |||
| tree = ST('expansions', [ | |||
| ST('expansion', [target]*i + [target_opt]) for i in range(a) | |||
| ] + [ | |||
| ST('expansion', [target]*a + [atom]*i) for i in range(b) | |||
| ]) | |||
| return self._add_rule(key, new_name, tree) | |||
| def _generate_repeats(self, rule, mn, mx): | |||
| """Generates a rule tree that repeats ``rule`` exactly between ``mn`` to ``mx`` times. | |||
| """ | |||
| # For a small number of repeats, we can take the naive approach | |||
| if mx < REPEAT_BREAK_THRESHOLD: | |||
| return ST('expansions', [ST('expansion', [rule] * n) for n in range(mn, mx + 1)]) | |||
| # For large repeat values, we break the repetition into sub-rules. | |||
| # We treat ``rule~mn..mx`` as ``rule~mn rule~0..(diff=mx-mn)``. | |||
| # We then use small_factors to split up mn and diff up into values [(a, b), ...] | |||
| # This values are used with the help of _add_repeat_rule and _add_repeat_rule_opt | |||
| # to generate a complete rule/expression that matches the corresponding number of repeats | |||
| mn_target = rule | |||
| for a, b in small_factors(mn, SMALL_FACTOR_THRESHOLD): | |||
| mn_target = self._add_repeat_rule(a, b, mn_target, rule) | |||
| if mx == mn: | |||
| return mn_target | |||
| diff = mx - mn + 1 # We add one because _add_repeat_opt_rule generates rules that match one less | |||
| diff_factors = small_factors(diff, SMALL_FACTOR_THRESHOLD) | |||
| diff_target = rule # Match rule 1 times | |||
| diff_opt_target = ST('expansion', []) # match rule 0 times (e.g. up to 1 -1 times) | |||
| for a, b in diff_factors[:-1]: | |||
| diff_opt_target = self._add_repeat_opt_rule(a, b, diff_target, diff_opt_target, rule) | |||
| diff_target = self._add_repeat_rule(a, b, diff_target, rule) | |||
| a, b = diff_factors[-1] | |||
| diff_opt_target = self._add_repeat_opt_rule(a, b, diff_target, diff_opt_target, rule) | |||
| return ST('expansions', [ST('expansion', [mn_target] + [diff_opt_target])]) | |||
| def expr(self, rule, op, *args): | |||
| if op.value == '?': | |||
| empty = ST('expansion', []) | |||
| @@ -220,7 +329,9 @@ class EBNF_to_BNF(Transformer_InPlace): | |||
| mn, mx = map(int, args) | |||
| if mx < mn or mn < 0: | |||
| raise GrammarError("Bad Range for %s (%d..%d isn't allowed)" % (rule, mn, mx)) | |||
| return ST('expansions', [ST('expansion', [rule] * n) for n in range(mn, mx+1)]) | |||
| return self._generate_repeats(rule, mn, mx) | |||
| assert False, op | |||
| def maybe(self, rule): | |||
+ 28
- 2
lark/utils.py
ファイルの表示
| @@ -187,7 +187,7 @@ def get_regexp_width(expr): | |||
| return 1, sre_constants.MAXREPEAT | |||
| else: | |||
| return 0, sre_constants.MAXREPEAT | |||
| ###} | |||
| @@ -288,7 +288,7 @@ except ImportError: | |||
| class FS: | |||
| exists = os.path.exists | |||
| @staticmethod | |||
| def open(name, mode="r", **kwargs): | |||
| if atomicwrites and "w" in mode: | |||
| @@ -359,3 +359,29 @@ def _serialize(value, memo): | |||
| return {key:_serialize(elem, memo) for key, elem in value.items()} | |||
| # assert value is None or isinstance(value, (int, float, str, tuple)), value | |||
| return value | |||
| def small_factors(n, max_factor): | |||
| """ | |||
| Splits n up into smaller factors and summands <= max_factor. | |||
| Returns a list of [(a, b), ...] | |||
| so that the following code returns n: | |||
| n = 1 | |||
| for a, b in values: | |||
| n = n * a + b | |||
| Currently, we also keep a + b <= max_factor, but that might change | |||
| """ | |||
| assert n >= 0 | |||
| assert max_factor > 2 | |||
| if n <= max_factor: | |||
| return [(n, 0)] | |||
| for a in range(max_factor, 1, -1): | |||
| r, b = divmod(n, a) | |||
| if a + b <= max_factor: | |||
| return small_factors(r, max_factor) + [(a, b)] | |||
| assert False, "Failed to factorize %s" % n | |||
+ 48
- 1
tests/test_grammar.py
ファイルの表示
| @@ -3,7 +3,7 @@ from __future__ import absolute_import | |||
| import sys | |||
| from unittest import TestCase, main | |||
| from lark import Lark, Token, Tree | |||
| from lark import Lark, Token, Tree, ParseError, UnexpectedInput | |||
| from lark.load_grammar import GrammarError, GRAMMAR_ERRORS, find_grammar_errors | |||
| from lark.load_grammar import FromPackageLoader | |||
| @@ -198,6 +198,53 @@ class TestGrammar(TestCase): | |||
| x = find_grammar_errors(text) | |||
| assert [e.line for e, _s in find_grammar_errors(text)] == [2, 6] | |||
| def test_ranged_repeat_terms(self): | |||
| g = u"""!start: AAA | |||
| AAA: "A"~3 | |||
| """ | |||
| l = Lark(g, parser='lalr') | |||
| self.assertEqual(l.parse(u'AAA'), Tree('start', ["AAA"])) | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AA') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAA') | |||
| g = u"""!start: AABB CC | |||
| AABB: "A"~0..2 "B"~2 | |||
| CC: "C"~1..2 | |||
| """ | |||
| l = Lark(g, parser='lalr') | |||
| self.assertEqual(l.parse(u'AABBCC'), Tree('start', ['AABB', 'CC'])) | |||
| self.assertEqual(l.parse(u'BBC'), Tree('start', ['BB', 'C'])) | |||
| self.assertEqual(l.parse(u'ABBCC'), Tree('start', ['ABB', 'CC'])) | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAB') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAABBB') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'ABB') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAABB') | |||
| def test_ranged_repeat_large(self): | |||
| g = u"""!start: "A"~60 | |||
| """ | |||
| l = Lark(g, parser='lalr') | |||
| self.assertGreater(len(l.rules), 1, "Expected that more than one rule will be generated") | |||
| self.assertEqual(l.parse(u'A' * 60), Tree('start', ["A"] * 60)) | |||
| self.assertRaises(ParseError, l.parse, u'A' * 59) | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'A' * 61) | |||
| g = u"""!start: "A"~15..100 | |||
| """ | |||
| l = Lark(g, parser='lalr') | |||
| for i in range(0, 110): | |||
| if 15 <= i <= 100: | |||
| self.assertEqual(l.parse(u'A' * i), Tree('start', ['A']*i)) | |||
| else: | |||
| self.assertRaises(UnexpectedInput, l.parse, u'A' * i) | |||
| # 8191 is a Mersenne prime | |||
| g = u"""start: "A"~8191 | |||
| """ | |||
| l = Lark(g, parser='lalr') | |||
| self.assertEqual(l.parse(u'A' * 8191), Tree('start', [])) | |||
| self.assertRaises(UnexpectedInput, l.parse, u'A' * 8190) | |||
| self.assertRaises(UnexpectedInput, l.parse, u'A' * 8192) | |||
| if __name__ == '__main__': | |||
+ 0
- 20
tests/test_parser.py
ファイルの表示
| @@ -2204,27 +2204,7 @@ def _make_parser_test(LEXER, PARSER): | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAABB') | |||
| def test_ranged_repeat_terms(self): | |||
| g = u"""!start: AAA | |||
| AAA: "A"~3 | |||
| """ | |||
| l = _Lark(g) | |||
| self.assertEqual(l.parse(u'AAA'), Tree('start', ["AAA"])) | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AA') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAA') | |||
| g = u"""!start: AABB CC | |||
| AABB: "A"~0..2 "B"~2 | |||
| CC: "C"~1..2 | |||
| """ | |||
| l = _Lark(g) | |||
| self.assertEqual(l.parse(u'AABBCC'), Tree('start', ['AABB', 'CC'])) | |||
| self.assertEqual(l.parse(u'BBC'), Tree('start', ['BB', 'C'])) | |||
| self.assertEqual(l.parse(u'ABBCC'), Tree('start', ['ABB', 'CC'])) | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAB') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAABBB') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'ABB') | |||
| self.assertRaises((ParseError, UnexpectedInput), l.parse, u'AAAABB') | |||
| @unittest.skipIf(PARSER=='earley', "Priority not handled correctly right now") # TODO XXX | |||
| def test_priority_vs_embedded(self): | |||