# frozen_string_literal: true require_relative "test_helper" module Prism class RegexpTest < TestCase ############################################################################ # These tests test the actual use case of extracting named capture groups ############################################################################ def test_named_captures_with_arrows assert_equal([:foo], named_captures("(?bar)")) end def test_named_captures_with_single_quotes assert_equal([:foo], named_captures("(?'foo'bar)")) end def test_nested_named_captures_with_arrows assert_equal([:foo, :bar], named_captures("(?(?baz))")) end def test_nested_named_captures_with_single_quotes assert_equal([:foo, :bar], named_captures("(?'foo'(?'bar'baz))")) end def test_allows_duplicate_named_captures assert_equal([:foo], named_captures("(?bar)(?baz)")) end def test_named_capture_inside_fake_range_quantifier assert_equal([:foo], named_captures("foo{1, (?2)}")) end def test_fake_named_captures_inside_character_sets assert_equal([], named_captures("[a-z(?)]")) end def test_fake_named_capture_inside_character_set_with_escaped_ending assert_equal([], named_captures("[a-z\\](?)]")) end ############################################################################ # These tests test the rest of the AST. They are not exhaustive, but they # should cover the most common cases. We test these to make sure we don't # accidentally regress and stop being able to extract named captures. ############################################################################ def test_alternation assert_valid_regexp("foo|bar") end def test_anchors assert_valid_regexp("^foo$") end def test_any assert_valid_regexp(".") end def test_posix_character_classes assert_valid_regexp("[[:digit:]]") end def test_negated_posix_character_classes assert_valid_regexp("[[:^digit:]]") end def test_invalid_posix_character_classes_should_fall_back_to_regular_classes assert_valid_regexp("[[:foo]]") end def test_character_sets assert_valid_regexp("[abc]") end def test_nested_character_sets assert_valid_regexp("[[abc]]") end def test_nested_character_sets_with_operators assert_valid_regexp("[[abc] && [def]]") end def test_named_capture_inside_nested_character_set assert_equal([], named_captures("[foo (?bar)]")) end def test_negated_character_sets assert_valid_regexp("[^abc]") end def test_character_ranges assert_valid_regexp("[a-z]") end def test_negated_character_ranges assert_valid_regexp("[^a-z]") end def test_comments assert_valid_regexp("(?#foo)") end def test_comments_with_escaped_parentheses assert_valid_regexp("(?#foo\\)\\))") end def test_non_capturing_groups assert_valid_regexp("(?:foo)") end def test_positive_lookaheads assert_valid_regexp("(?=foo)") end def test_negative_lookaheads assert_valid_regexp("(?!foo)") end def test_positive_lookbehinds assert_valid_regexp("(?<=foo)") end def test_negative_lookbehinds assert_valid_regexp("(?foo)") end def test_absence_operator assert_valid_regexp("(?~foo)") end def test_conditional_expression_with_index assert_valid_regexp("(?(1)foo)") end def test_conditional_expression_with_name assert_valid_regexp("(?(foo)bar)") end def test_conditional_expression_with_group assert_valid_regexp("(?()bar)") end def test_options_on_groups assert_valid_regexp("(?imxdau:foo)") end def test_options_on_groups_getting_turned_off assert_valid_regexp("(?-imx:foo)") end def test_options_on_groups_some_getting_turned_on_some_getting_turned_off assert_valid_regexp("(?im-x:foo)") end def test_star_quantifier assert_valid_regexp("foo*") end def test_plus_quantifier assert_valid_regexp("foo+") end def test_question_mark_quantifier assert_valid_regexp("foo?") end def test_endless_range_quantifier assert_valid_regexp("foo{1,}") end def test_beginless_range_quantifier assert_valid_regexp("foo{,1}") end def test_range_quantifier assert_valid_regexp("foo{1,2}") end def test_fake_range_quantifier_because_of_spaces assert_valid_regexp("foo{1, 2}") end ############################################################################ # These test that flag values are correct. ############################################################################ def test_flag_ignorecase assert_equal(Regexp::IGNORECASE, options("i")) end def test_flag_extended assert_equal(Regexp::EXTENDED, options("x")) end def test_flag_multiline assert_equal(Regexp::MULTILINE, options("m")) end def test_flag_fixedencoding assert_equal(Regexp::FIXEDENCODING, options("e")) assert_equal(Regexp::FIXEDENCODING, options("u")) assert_equal(Regexp::FIXEDENCODING, options("s")) end def test_flag_noencoding assert_equal(Regexp::NOENCODING, options("n")) end def test_flag_once assert_equal(0, options("o")) end def test_flag_combined value = Regexp::IGNORECASE | Regexp::MULTILINE | Regexp::EXTENDED assert_equal(value, options("mix")) end def test_last_encoding_option_wins regex = "/foo/nu" option = Prism.parse_statement(regex).options assert_equal Regexp::FIXEDENCODING, option regex = "/foo/un" option = Prism.parse_statement(regex).options assert_equal Regexp::NOENCODING, option end private def assert_valid_regexp(source) assert Prism.parse_success?("/#{source}/ =~ \"\"") end def named_captures(source) Prism.parse("/#{source}/ =~ \"\"").value.locals end def options(flags) options = ["/foo/#{flags}", "/foo\#{1}/#{flags}"].map do |source| Prism.parse_statement(source).options end # Check that we get the same set of options from both regular expressions # and interpolated regular expressions. assert_equal(1, options.uniq.length) # Return the options from the first regular expression since we know they # are the same. options.first end end end