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# This is a basic test that checks ^ and $ treat \r\n as a single line
# terminator. If ^ and $ only treated \n as a line terminator, then this would
# only match 'xyz' at the end of the haystack.
[[test]]
name = "basic"
regex = '(?mR)^[a-z]+$'
haystack = "abc\r\ndef\r\nxyz"
matches = [[0, 3], [5, 8], [10, 13]]
# Tests that a CRLF-aware '^$' assertion does not match between CR and LF.
[[test]]
name = "start-end-non-empty"
regex = '(?mR)^$'
haystack = "abc\r\ndef\r\nxyz"
matches = []
# Tests that a CRLF-aware '^$' assertion matches the empty string, just like
# a non-CRLF-aware '^$' assertion.
[[test]]
name = "start-end-empty"
regex = '(?mR)^$'
haystack = ""
matches = [[0, 0]]
# Tests that a CRLF-aware '^$' assertion matches the empty string preceding
# and following a line terminator.
[[test]]
name = "start-end-before-after"
regex = '(?mR)^$'
haystack = "\r\n"
matches = [[0, 0], [2, 2]]
# Tests that a CRLF-aware '^' assertion does not split a line terminator.
[[test]]
name = "start-no-split"
regex = '(?mR)^'
haystack = "abc\r\ndef\r\nxyz"
matches = [[0, 0], [5, 5], [10, 10]]
# Same as above, but with adjacent runs of line terminators.
[[test]]
name = "start-no-split-adjacent"
regex = '(?mR)^'
haystack = "\r\n\r\n\r\n"
matches = [[0, 0], [2, 2], [4, 4], [6, 6]]
# Same as above, but with adjacent runs of just carriage returns.
[[test]]
name = "start-no-split-adjacent-cr"
regex = '(?mR)^'
haystack = "\r\r\r"
matches = [[0, 0], [1, 1], [2, 2], [3, 3]]
# Same as above, but with adjacent runs of just line feeds.
[[test]]
name = "start-no-split-adjacent-lf"
regex = '(?mR)^'
haystack = "\n\n\n"
matches = [[0, 0], [1, 1], [2, 2], [3, 3]]
# Tests that a CRLF-aware '$' assertion does not split a line terminator.
[[test]]
name = "end-no-split"
regex = '(?mR)$'
haystack = "abc\r\ndef\r\nxyz"
matches = [[3, 3], [8, 8], [13, 13]]
# Same as above, but with adjacent runs of line terminators.
[[test]]
name = "end-no-split-adjacent"
regex = '(?mR)$'
haystack = "\r\n\r\n\r\n"
matches = [[0, 0], [2, 2], [4, 4], [6, 6]]
# Same as above, but with adjacent runs of just carriage returns.
[[test]]
name = "end-no-split-adjacent-cr"
regex = '(?mR)$'
haystack = "\r\r\r"
matches = [[0, 0], [1, 1], [2, 2], [3, 3]]
# Same as above, but with adjacent runs of just line feeds.
[[test]]
name = "end-no-split-adjacent-lf"
regex = '(?mR)$'
haystack = "\n\n\n"
matches = [[0, 0], [1, 1], [2, 2], [3, 3]]
# Tests that '.' does not match either \r or \n when CRLF mode is enabled. Note
# that this doesn't require multi-line mode to be enabled.
[[test]]
name = "dot-no-crlf"
regex = '(?R).'
haystack = "\r\n\r\n\r\n"
matches = []
# This is a test that caught a bug in the one-pass DFA where it (amazingly) was
# using 'is_end_lf' instead of 'is_end_crlf' here. It was probably a copy &
# paste bug. We insert an empty capture group here because it provokes the meta
# regex engine to first find a match and then trip over a panic because the
# one-pass DFA erroneously says there is no match.
[[test]]
name = "onepass-wrong-crlf-with-capture"
regex = '(?Rm:().$)'
haystack = "ZZ\r"
matches = [[[1, 2], [1, 1]]]
# This is like onepass-wrong-crlf-with-capture above, except it sets up the
# test so that it can be run by the one-pass DFA directly. (i.e., Make it
# anchored and start the search at the right place.)
[[test]]
name = "onepass-wrong-crlf-anchored"
regex = '(?Rm:.$)'
haystack = "ZZ\r"
matches = [[1, 2]]
anchored = true
bounds = [1, 3]