| from test_support import verbose |
| import regex |
| from regex_syntax import * |
| |
| re = 'a+b+c+' |
| print 'no match:', regex.match(re, 'hello aaaabcccc world') |
| print 'successful search:', regex.search(re, 'hello aaaabcccc world') |
| try: |
| cre = regex.compile('\(' + re) |
| except regex.error: |
| print 'caught expected exception' |
| else: |
| print 'expected regex.error not raised' |
| |
| print 'failed awk syntax:', regex.search('(a+)|(b+)', 'cdb') |
| prev = regex.set_syntax(RE_SYNTAX_AWK) |
| print 'successful awk syntax:', regex.search('(a+)|(b+)', 'cdb') |
| regex.set_syntax(prev) |
| print 'failed awk syntax:', regex.search('(a+)|(b+)', 'cdb') |
| |
| re = '\(<one>[0-9]+\) *\(<two>[0-9]+\)' |
| print 'matching with group names and compile()' |
| cre = regex.compile(re) |
| print cre.match('801 999') |
| try: |
| print cre.group('one') |
| except regex.error: |
| print 'caught expected exception' |
| else: |
| print 'expected regex.error not raised' |
| |
| print 'matching with group names and symcomp()' |
| cre = regex.symcomp(re) |
| print cre.match('801 999') |
| print cre.group(0) |
| print cre.group('one') |
| print cre.group(1, 2) |
| print cre.group('one', 'two') |
| print 'realpat:', cre.realpat |
| print 'groupindex:', cre.groupindex |
| |
| re = 'world' |
| cre = regex.compile(re) |
| print 'not case folded search:', cre.search('HELLO WORLD') |
| cre = regex.compile(re, regex.casefold) |
| print 'case folded search:', cre.search('HELLO WORLD') |
| |
| print '__members__:', cre.__members__ |
| print 'regs:', cre.regs |
| print 'last:', cre.last |
| print 'translate:', len(cre.translate) |
| print 'givenpat:', cre.givenpat |
| |
| print 'match with pos:', cre.match('hello world', 7) |
| print 'search with pos:', cre.search('hello world there world', 7) |
| print 'bogus group:', cre.group(0, 1, 3) |
| try: |
| print 'no name:', cre.group('one') |
| except regex.error: |
| print 'caught expected exception' |
| else: |
| print 'expected regex.error not raised' |
| |
| from regex_tests import * |
| if verbose: print 'Running regex_tests test suite' |
| |
| for t in tests: |
| pattern=s=outcome=repl=expected=None |
| if len(t)==5: |
| pattern, s, outcome, repl, expected = t |
| elif len(t)==3: |
| pattern, s, outcome = t |
| else: |
| raise ValueError, ('Test tuples should have 3 or 5 fields',t) |
| |
| try: |
| obj=regex.compile(pattern) |
| except regex.error: |
| if outcome==SYNTAX_ERROR: pass # Expected a syntax error |
| else: |
| # Regex syntax errors aren't yet reported, so for |
| # the official test suite they'll be quietly ignored. |
| pass |
| #print '=== Syntax error:', t |
| else: |
| try: |
| result=obj.search(s) |
| except regex.error, msg: |
| print '=== Unexpected exception', t, repr(msg) |
| if outcome==SYNTAX_ERROR: |
| # This should have been a syntax error; forget it. |
| pass |
| elif outcome==FAIL: |
| if result==-1: pass # No match, as expected |
| else: print '=== Succeeded incorrectly', t |
| elif outcome==SUCCEED: |
| if result!=-1: |
| # Matched, as expected, so now we compute the |
| # result string and compare it to our expected result. |
| start, end = obj.regs[0] |
| found=s[start:end] |
| groups=obj.group(1,2,3,4,5,6,7,8,9,10) |
| vardict=vars() |
| for i in range(len(groups)): |
| vardict['g'+str(i+1)]=str(groups[i]) |
| repl=eval(repl) |
| if repl!=expected: |
| print '=== grouping error', t, repr(repl)+' should be '+repr(expected) |
| else: |
| print '=== Failed incorrectly', t |