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diff --git a/lib/stdlib/test/re_SUITE.erl b/lib/stdlib/test/re_SUITE.erl
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+++ b/lib/stdlib/test/re_SUITE.erl
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+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2008-2009. All Rights Reserved.
+%%
+%% The contents of this file are subject to the Erlang Public License,
+%% Version 1.1, (the "License"); you may not use this file except in
+%% compliance with the License. You should have received a copy of the
+%% Erlang Public License along with this software. If not, it can be
+%% retrieved online at http://www.erlang.org/.
+%%
+%% Software distributed under the License is distributed on an "AS IS"
+%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
+%% the License for the specific language governing rights and limitations
+%% under the License.
+%%
+%% %CopyrightEnd%
+%%
+-module(re_SUITE).
+
+-export([all/1, pcre/1,compile_options/1,run_options/1,combined_options/1,replace_autogen/1,global_capture/1,replace_return/1,split_autogen/1,split_options/1,split_specials/1,error_handling/1]).
+
+-include("test_server.hrl").
+-include_lib("kernel/include/file.hrl").
+
+all(suite) -> [pcre,compile_options,run_options,combined_options,replace_autogen,global_capture,replace_return,split_autogen,split_options,split_specials,error_handling].
+
+pcre(doc) ->
+ ["Run all applicable tests from the PCRE testsuites."];
+pcre(Config) when is_list(Config) ->
+ Dog = ?t:timetrap(?t:minutes(3)),
+ RootDir = ?config(data_dir, Config),
+ Res = run_pcre_tests:test(RootDir),
+ 0 = lists:sum([ X || {X,_,_} <- Res ]),
+ ?t:timetrap_cancel(Dog),
+ {comment,Res}.
+
+compile_options(doc) ->
+ ["Test all documented compile options"];
+compile_options(Config) when is_list(Config) ->
+ ?line ok = ctest("ABDabcdABCD","abcd",[],true,{match,[{3,4}]}),
+ ?line ok = ctest("ABDabcdABCD","abcd",[anchored],true,nomatch),
+ ?line ok = ctest("ABDabcdABCD",".*abcd",[anchored],true,{match,[{0,7}]}),
+ ?line ok = ctest("ABCabcdABC","ABCD",[],true,nomatch),
+ ?line ok = ctest("ABCabcdABC","ABCD",[caseless],true,{match,[{3,4}]}),
+ ?line ok = ctest("abcdABC\n","ABC$",[],true,{match,[{4,3}]}),
+ ?line ok = ctest("abcdABC\n","ABC$",[dollar_endonly],true,nomatch),
+ ?line ok = ctest("abcdABC\n","ABC.",[],true,nomatch),
+ ?line ok = ctest("abcdABC\n","ABC.",[dotall],true,{match,[{4,4}]}),
+ ?line ok = ctest("abcdABCD","ABC .",[],true,nomatch),
+ ?line ok = ctest("abcdABCD","ABC .",[extended],true,{match,[{4,4}]}),
+ ?line ok = ctest("abcd\nABCD","ABC",[],true,{match,[{5,3}]}),
+ ?line ok = ctest("abcd\nABCD","ABC",[firstline],true,nomatch),
+ ?line ok = ctest("abcd\nABCD","^ABC",[],true,nomatch),
+ ?line ok = ctest("abcd\nABCD","^ABC",[multiline],true,{match,[{5,3}]}),
+ ?line ok = ctest("abcdABCD","(ABC)",[],true,{match,[{4,3},{4,3}]}),
+ ?line ok = ctest("abcdABCD","(ABC)",[no_auto_capture],true,{match,[{4,3}]}),
+ ?line ok = ctest(notused,"(?<FOO>ABC)|(?<FOO>DEF)",[],false,notused),
+ ?line ok = ctest("abcdABCD","(?<FOO>ABC)|(?<FOO>DEF)",[dupnames],true,{match,[{4,3},{4,3}]}),
+ ?line ok = ctest("abcdABCDabcABCD","abcd.*D",[],true,{match,[{0,15}]}),
+ ?line ok = ctest("abcdABCDabcABCD","abcd.*D",[ungreedy],true,{match,[{0,8}]}),
+ ?line ok = ctest("abcdABCabcABC\nD","abcd.*D",[],true,nomatch),
+ ?line ok = ctest("abcdABCabcABC\nD","abcd.*D",[{newline,cr}],true,{match,[{0,15}]}),
+ ?line ok = ctest("abcdABCabcABC\rD","abcd.*D",[],true,{match,[{0,15}]}),
+ ?line ok = ctest("abcdABCabcABC\rD","abcd.*D",[{newline,lf}],true,{match,[{0,15}]}),
+ ?line ok = ctest("abcdABCabcd\r\n","abcd$",[{newline,lf}],true,nomatch),
+ ?line ok = ctest("abcdABCabcd\r\n","abcd$",[{newline,cr}],true,nomatch),
+ ?line ok = ctest("abcdABCabcd\r\n","abcd$",[{newline,crlf}],true,{match,[{7,4}]}),
+
+ ?line ok = ctest("abcdABCabcd\r","abcd$",[{newline,crlf}],true,nomatch),
+ ?line ok = ctest("abcdABCabcd\n","abcd$",[{newline,crlf}],true,nomatch),
+ ?line ok = ctest("abcdABCabcd\r\n","abcd$",[{newline,anycrlf}],true,{match,[{7,4}]}),
+
+ ?line ok = ctest("abcdABCabcd\r","abcd$",[{newline,anycrlf}],true,{match,[{7,4}]}),
+ ?line ok = ctest("abcdABCabcd\n","abcd$",[{newline,anycrlf}],true,{match,[{7,4}]}),
+ ok.
+
+run_options(doc) ->
+ ["Test all documented run specific options"];
+run_options(Config) when is_list(Config) ->
+ ?line rtest("ABCabcdABC","abc",[],[],true),
+ ?line rtest("ABCabcdABC","abc",[anchored],[],false),
+ % Anchored in run overrides unanchored in compilation
+ ?line rtest("ABCabcdABC","abc",[],[anchored],false),
+
+ ?line rtest("","a?b?",[],[],true),
+ ?line rtest("","a?b?",[],[notempty],false),
+
+ ?line rtest("abc","^a",[],[],true),
+ ?line rtest("abc","^a",[],[notbol],false),
+ ?line rtest("ab\nc","^a",[multiline],[],true),
+ ?line rtest("ab\nc","^a",[multiline],[notbol],false),
+ ?line rtest("ab\nc","^c",[multiline],[notbol],true),
+
+ ?line rtest("abc","c$",[],[],true),
+ ?line rtest("abc","c$",[],[noteol],false),
+
+ ?line rtest("ab\nc","b$",[multiline],[],true),
+ ?line rtest("ab\nc","c$",[multiline],[],true),
+ ?line rtest("ab\nc","b$",[multiline],[noteol],true),
+ ?line rtest("ab\nc","c$",[multiline],[noteol],false),
+
+ ?line rtest("abc","ab",[],[{offset,0}],true),
+ ?line rtest("abc","ab",[],[{offset,1}],false),
+
+ ?line rtest("abcdABCabcABC\nD","abcd.*D",[],[],false),
+ ?line rtest("abcdABCabcABC\nD","abcd.*D",[],[{newline,cr}],true),
+ ?line rtest("abcdABCabcABC\rD","abcd.*D",[],[],true),
+ ?line rtest("abcdABCabcABC\rD","abcd.*D",[{newline,cr}],[{newline,lf}],true),
+ ?line rtest("abcdABCabcd\r\n","abcd$",[],[{newline,lf}],false),
+ ?line rtest("abcdABCabcd\r\n","abcd$",[],[{newline,cr}],false),
+ ?line rtest("abcdABCabcd\r\n","abcd$",[],[{newline,crlf}],true),
+
+ ?line rtest("abcdABCabcd\r","abcd$",[],[{newline,crlf}],false),
+ ?line rtest("abcdABCabcd\n","abcd$",[],[{newline,crlf}],false),
+ ?line rtest("abcdABCabcd\r\n","abcd$",[],[{newline,anycrlf}],true),
+
+ ?line rtest("abcdABCabcd\r","abcd$",[],[{newline,anycrlf}],true),
+ ?line rtest("abcdABCabcd\n","abcd$",[],[{newline,anycrlf}],true),
+
+ ?line {ok,MP} = re:compile(".*(abcd).*"),
+ ?line {match,[{0,10},{3,4}]} = re:run("ABCabcdABC",MP,[]),
+ ?line {match,[{0,10},{3,4}]} = re:run("ABCabcdABC",MP,[{capture,all}]),
+ ?line {match,[{0,10},{3,4}]} = re:run("ABCabcdABC",MP,[{capture,all,index}]),
+ ?line {match,["ABCabcdABC","abcd"]} = re:run("ABCabcdABC",MP,[{capture,all,list}]),
+ ?line {match,[<<"ABCabcdABC">>,<<"abcd">>]} = re:run("ABCabcdABC",MP,[{capture,all,binary}]),
+ ?line {match,[{0,10}]} = re:run("ABCabcdABC",MP,[{capture,first}]),
+ ?line {match,[{0,10}]} = re:run("ABCabcdABC",MP,[{capture,first,index}]), ?line {match,["ABCabcdABC"]} = re:run("ABCabcdABC",MP,[{capture,first,list}]),
+ ?line {match,[<<"ABCabcdABC">>]} = re:run("ABCabcdABC",MP,[{capture,first,binary}]),
+
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",MP,[{capture,all_but_first}]),
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",MP,[{capture,all_but_first,index}]),
+ ?line {match,["abcd"]} = re:run("ABCabcdABC",MP,[{capture,all_but_first,list}]),
+ ?line {match,[<<"abcd">>]} = re:run("ABCabcdABC",MP,[{capture,all_but_first,binary}]),
+
+ ?line match = re:run("ABCabcdABC",MP,[{capture,none}]),
+ ?line match = re:run("ABCabcdABC",MP,[{capture,none,index}]),
+ ?line match = re:run("ABCabcdABC",MP,[{capture,none,list}]),
+ ?line match = re:run("ABCabcdABC",MP,[{capture,none,binary}]),
+
+ ?line {ok,MP2} = re:compile(".*(?<FOO>abcd).*"),
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",MP2,[{capture,[1]}]),
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",MP2,[{capture,['FOO']}]),
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",MP2,[{capture,["FOO"]}]),
+ ?line {match,["abcd"]} = re:run("ABCabcdABC",MP2,[{capture,["FOO"],list}]),
+ ?line {match,[<<"abcd">>]} = re:run("ABCabcdABC",MP2,[{capture,["FOO"],binary}]),
+
+ ?line {match,[{-1,0}]} = re:run("ABCabcdABC",MP2,[{capture,[200]}]),
+ ?line {match,[{-1,0}]} = re:run("ABCabcdABC",MP2,[{capture,['BAR']}]),
+ ?line {match,[""]} = re:run("ABCabcdABC",MP2,[{capture,[200],list}]),
+ ?line {match,[""]} = re:run("ABCabcdABC",MP2,[{capture,['BAR'],list}]),
+ ?line {match,[<<>>]} = re:run("ABCabcdABC",MP2,[{capture,[200],binary}]),
+ ?line {match,[<<>>]} = re:run("ABCabcdABC",MP2,[{capture,['BAR'],binary}]),
+
+ ?line {ok, MP3} = re:compile(".*((?<FOO>abdd)|a(..d)).*"),
+ ?line {match,[{0,10},{3,4},{-1,0},{4,3}]} = re:run("ABCabcdABC",MP3,[]),
+ ?line {match,[{0,10},{3,4},{-1,0},{4,3}]} = re:run("ABCabcdABC",MP3,[{capture,all,index}]),
+ ?line {match,[<<"ABCabcdABC">>,<<"abcd">>,<<>>,<<"bcd">>]} = re:run("ABCabcdABC",MP3,[{capture,all,binary}]),
+ ?line {match,["ABCabcdABC","abcd",[],"bcd"]} = re:run("ABCabcdABC",MP3,[{capture,all,list}]),
+ ok.
+
+
+
+combined_options(doc) ->
+ ["Test compile options given directly to run"];
+combined_options(Config) when is_list(Config) ->
+ ?line ok = crtest("ABDabcdABCD","abcd",[],true,{match,[{3,4}]}),
+ ?line ok = crtest("ABDabcdABCD","abcd",[anchored],true,nomatch),
+ ?line ok = crtest("ABDabcdABCD",".*abcd",[anchored],true,{match,[{0,7}]}),
+ ?line ok = crtest("ABCabcdABC","ABCD",[],true,nomatch),
+ ?line ok = crtest("ABCabcdABC","ABCD",[caseless],true,{match,[{3,4}]}),
+ ?line ok = crtest("abcdABC\n","ABC$",[],true,{match,[{4,3}]}),
+ ?line ok = crtest("abcdABC\n","ABC$",[dollar_endonly],true,nomatch),
+ ?line ok = crtest("abcdABC\n","ABC.",[],true,nomatch),
+ ?line ok = crtest("abcdABC\n","ABC.",[dotall],true,{match,[{4,4}]}),
+ ?line ok = crtest("abcdABCD","ABC .",[],true,nomatch),
+ ?line ok = crtest("abcdABCD","ABC .",[extended],true,{match,[{4,4}]}),
+ ?line ok = crtest("abcd\nABCD","ABC",[],true,{match,[{5,3}]}),
+ ?line ok = crtest("abcd\nABCD","ABC",[firstline],true,nomatch),
+ ?line ok = crtest("abcd\nABCD","^ABC",[],true,nomatch),
+ ?line ok = crtest("abcd\nABCD","^ABC",[multiline],true,{match,[{5,3}]}),
+ ?line ok = crtest("abcdABCD","(ABC)",[],true,{match,[{4,3},{4,3}]}),
+ ?line ok = crtest("abcdABCD","(ABC)",[no_auto_capture],true,{match,[{4,3}]}),
+ ?line ok = crtest(notused,"(?<FOO>ABC)|(?<FOO>DEF)",[],false,notused),
+ ?line ok = crtest("abcdABCD","(?<FOO>ABC)|(?<FOO>DEF)",[dupnames],true,{match,[{4,3},{4,3}]}),
+ ?line ok = crtest("abcdABCDabcABCD","abcd.*D",[],true,{match,[{0,15}]}),
+ ?line ok = crtest("abcdABCDabcABCD","abcd.*D",[ungreedy],true,{match,[{0,8}]}),
+ ?line ok = ctest("abcdABCabcABC\nD","abcd.*D",[],true,nomatch),
+ ?line ok = crtest("abcdABCabcABC\nD","abcd.*D",[{newline,cr}],true,{match,[{0,15}]}),
+ ?line ok = crtest("abcdABCabcABC\rD","abcd.*D",[],true,{match,[{0,15}]}),
+ ?line ok = crtest("abcdABCabcABC\rD","abcd.*D",[{newline,lf}],true,{match,[{0,15}]}),
+ ?line ok = crtest("abcdABCabcd\r\n","abcd$",[{newline,lf}],true,nomatch),
+ ?line ok = crtest("abcdABCabcd\r\n","abcd$",[{newline,cr}],true,nomatch),
+ ?line ok = crtest("abcdABCabcd\r\n","abcd$",[{newline,crlf}],true,{match,[{7,4}]}),
+
+ ?line ok = crtest("abcdABCabcd\r","abcd$",[{newline,crlf}],true,nomatch),
+ ?line ok = crtest("abcdABCabcd\n","abcd$",[{newline,crlf}],true,nomatch),
+ ?line ok = crtest("abcdABCabcd\r\n","abcd$",[{newline,anycrlf}],true,{match,[{7,4}]}),
+
+ ?line ok = crtest("abcdABCabcd\r","abcd$",[{newline,anycrlf}],true,{match,[{7,4}]}),
+ ?line ok = crtest("abcdABCabcd\n","abcd$",[{newline,anycrlf}],true,{match,[{7,4}]}),
+
+ ?line ok = crtest("abcdABCabcd\r\n","abcd$",[{newline,anycrlf},{capture,all,list}],true,{match,["abcd"]}),
+
+ ?line ok = crtest("abcdABCabcd\r","abcd$",[{newline,anycrlf},{capture,all,list}],true,{match,["abcd"]}),
+
+ ?line ok = crtest("abcdABCabcd\n","abcd$",[{newline,anycrlf},{capture,all,list}],true,{match,["abcd"]}),
+
+ ?line ok = crtest("abcdABCabcd\r\n","abcd$",[{newline,anycrlf},{capture,all,binary}],true,{match,[<<"abcd">>]}),
+
+ ?line ok = crtest("abcdABCabcd\r","abcd$",[{newline,anycrlf},{capture,all,binary}],true,{match,[<<"abcd">>]}),
+ ?line ok = crtest("abcdABCabcd\n","abcd$",[{newline,anycrlf},{capture,all,binary}],true,{match,[<<"abcd">>]}),
+
+ % Check that unique run-options fail in compile only case:
+ ?line {'EXIT',{badarg,_}} = (catch re:compile("abcd$",[{newline,anycrlf},{capture,all,binary}])),
+ ?line {'EXIT',{badarg,_}} = (catch re:compile("abcd$",[{newline,anycrlf},{offset,3}])),
+ ?line {'EXIT',{badarg,_}} = (catch re:compile("abcd$",[{newline,anycrlf},notempty])),
+ ?line {'EXIT',{badarg,_}} = (catch re:compile("abcd$",[{newline,anycrlf},notbol])),
+ ?line {'EXIT',{badarg,_}} = (catch re:compile("abcd$",[{newline,anycrlf},noteol])),
+
+
+ ?line {match,_} = re:run("abcdABCabcd\r\n","abcd$",[{newline,crlf}]),
+ ?line nomatch = re:run("abcdABCabcd\r\nefgh","abcd$",[{newline,crlf}]),
+ ?line {match,_} = re:run("abcdABCabcd\r\nefgh","abcd$",[{newline,crlf},multiline]),
+ ?line nomatch = re:run("abcdABCabcd\r\nefgh","efgh$",[{newline,crlf},multiline,noteol]),
+ ?line {match,_} = re:run("abcdABCabcd\r\nefgh","abcd$",[{newline,crlf},multiline,noteol]),
+ ?line {match,_} = re:run("abcdABCabcd\r\nefgh","^abcd",[{newline,crlf},multiline,noteol]),
+ ?line nomatch = re:run("abcdABCabcd\r\nefgh","^abcd",[{newline,crlf},multiline,notbol]),
+ ?line {match,_} = re:run("abcdABCabcd\r\nefgh","^efgh",[{newline,crlf},multiline,notbol]),
+ ?line {match,_} = re:run("ABC\nD","[a-z]*",[{newline,crlf}]),
+ ?line nomatch = re:run("ABC\nD","[a-z]*",[{newline,crlf},notempty]),
+ ok.
+
+replace_autogen(doc) ->
+ ["Test replace with autogenerated erlang module"];
+replace_autogen(Config) when is_list(Config) ->
+ Dog = ?t:timetrap(?t:minutes(3)),
+ re_testoutput1_replacement_test:run(),
+ ?t:timetrap_cancel(Dog),
+ ok.
+
+global_capture(doc) ->
+ ["Tests capture options together with global searching"];
+global_capture(Config) when is_list(Config) ->
+ Dog = ?t:timetrap(?t:minutes(3)),
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",".*(?<FOO>abcd).*",[{capture,[1]}]),
+ ?line {match,[{10,4}]} = re:run("ABCabcdABCabcdA",".*(?<FOO>abcd).*",[{capture,[1]}]),
+ ?line {match,[[{10,4}]]} = re:run("ABCabcdABCabcdA",".*(?<FOO>abcd).*",[global,{capture,[1]}]),
+ ?line {match,[{3,4}]} = re:run("ABCabcdABC",".*(?<FOO>abcd).*",[{capture,['FOO']}]),
+ ?line {match,[{10,4}]} = re:run("ABCabcdABCabcdA",".*(?<FOO>abcd).*",[{capture,['FOO']}]),
+ ?line {match,[[{10,4}]]} = re:run("ABCabcdABCabcdA",".*(?<FOO>abcd).*",[global,{capture,['FOO']}]),
+ ?line {match,[[{3,4},{3,4}],[{10,4},{10,4}]]} = re:run("ABCabcdABCabcdA","(?<FOO>abcd)",[global]),
+ ?line {match,[[{3,4},{3,4}],[{10,4},{10,4}]]} = re:run("ABCabcdABCabcdA","(?<FOO>abcd)",[global,{capture,all}]),
+ ?line {match,[[{3,4},{3,4}],[{10,4},{10,4}]]} = re:run("ABCabcdABCabcdA","(?<FOO>abcd)",[global,{capture,all,index}]),
+ ?line {match,[[{3,4}],[{10,4}]]} = re:run("ABCabcdABCabcdA","(?<FOO>abcd)",[global,{capture,first}]),
+ ?line {match,[[{3,4}],[{10,4}]]} = re:run("ABCabcdABCabcdA","(?<FOO>abcd)",[global,{capture,all_but_first}]),
+ ?line {match,[[<<"bcd">>],[<<"bcd">>]]} = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,all_but_first,binary}]),
+ ?line {match,[["bcd"],["bcd"]]} = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,all_but_first,list}]),
+ ?line {match,[["abcd","bcd"],["abcd","bcd"]]} = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,all,list}]),
+ ?line {match,[[<<"abcd">>,<<"bcd">>],[<<"abcd">>,<<"bcd">>]]} = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,all,binary}]),
+ ?line {match,[[{3,4},{4,3}],[{10,4},{11,3}]]} = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,all,index}]),
+ ?line match = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,none,index}]),
+ ?line match = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,none,binary}]),
+ ?line match = re:run("ABCabcdABCabcdA","a(?<FOO>bcd)",[global,{capture,none,list}]),
+ ?line {match,[[<<195,133,98,99,100>>,<<"bcd">>],[<<"abcd">>,<<"bcd">>]]} = re:run("ABC�bcdABCabcdA",".(?<FOO>bcd)",[global,{capture,all,binary},unicode]),
+ ?line {match,[["�bcd","bcd"],["abcd","bcd"]]} = re:run(<<"ABC",8#303,8#205,"bcdABCabcdA">>,".(?<FOO>bcd)",[global,{capture,all,list},unicode]),
+ ?line {match,[["�bcd","bcd"],["abcd","bcd"]]} = re:run("ABC�bcdABCabcdA",".(?<FOO>bcd)",[global,{capture,all,list},unicode]),
+ ?line {match,[[{3,5},{5,3}],[{11,4},{12,3}]]} = re:run("ABC�bcdABCabcdA",".(?<FOO>bcd)",[global,{capture,all,index},unicode]),
+ ?t:timetrap_cancel(Dog),
+ ok.
+
+replace_return(doc) ->
+ ["Tests return options of replace together with global searching"];
+replace_return(Config) when is_list(Config) ->
+ Dog = ?t:timetrap(?t:minutes(3)),
+ ?line {'EXIT',{badarg,_}} = (catch re:replace("na","(a","")),
+ ?line <<"nasse">> = re:replace(<<"nisse">>,"i","a",[{return,binary}]),
+ ?line <<"ABC�XABCXA">> = re:replace("ABC\305abcdABCabcdA","a(?<FOO>bcd)","X",[global,{return,binary}]),
+
+ ?line [<<"ABC�">>,
+ <<"X">>,
+ <<"ABC">>,
+ <<"X">> |
+ <<"A">> ] =
+ re:replace("ABC�abcdABCabcdA","a(?<FOO>bcd)","X",[global,{return,iodata}]),
+ ?line "ABC�XABCXA" = re:replace("ABC�abcdABCabcdA","a(?<FOO>bcd)","X",[global,{return,list},unicode]),
+ ?line <<65,66,67,195,133,88,65,66,67,88,65>> = re:replace("ABC�abcdABCabcdA","a(?<FOO>bcd)","X",[global,{return,binary},unicode]),
+ ?line <<65,66,67,195,133,88,65,66,67,97,98,99,100,65>> = re:replace("ABC�abcdABCabcdA","a(?<FOO>bcd)","X",[{return,binary},unicode]),
+ ?line <<"iXk">> = re:replace("abcdefghijk","(.)(.)(.)(.)(.)(.)(.)(.)(.)(.)","\\9X",[{return,binary}]),
+ ?line <<"jXk">> = re:replace("abcdefghijk","(.)(.)(.)(.)(.)(.)(.)(.)(.)(.)","\\10X",[{return,binary}]),
+ ?line <<"Xk">> = re:replace("abcdefghijk","(.)(.)(.)(.)(.)(.)(.)(.)(.)(.)","\\11X",[{return,binary}]),
+ ?t:timetrap_cancel(Dog),
+ ok.
+
+rtest(Subj, RE, Copt, Ropt, true) ->
+ {ok,MP} = re:compile(RE,Copt),
+ {match,_} = re:run(Subj,MP,Ropt),
+ ok;
+rtest(Subj, RE, Copt, Ropt, false) ->
+ {ok,MP} = re:compile(RE,Copt),
+ nomatch = re:run(Subj,MP,Ropt),
+ ok.
+
+ctest(_,RE,Options,false,_) ->
+ case re:compile(RE,Options) of
+ {ok,_} ->
+ error;
+ {error,_} ->
+ ok
+ end;
+ctest(Subject,RE,Options,true,Result) ->
+ try
+ {ok, Prog} = re:compile(RE,Options),
+ Result = re:run(Subject,Prog,[]),
+ ok
+ catch
+ _:_ ->
+ error
+ end.
+crtest(_,RE,Options,false,_) ->
+ case (catch re:run("",RE,Options)) of
+ {'EXIT',{badarg,_}} ->
+ ok;
+ _ ->
+ error
+ end;
+crtest(Subject,RE,Options,true,Result) ->
+ try
+ Result = re:run(Subject,RE,Options),
+ ok
+ catch
+ _:_ ->
+ error
+ end.
+
+split_autogen(doc) ->
+ ["Test split with autogenerated erlang module"];
+split_autogen(Config) when is_list(Config) ->
+ Dog = ?t:timetrap(?t:minutes(3)),
+ re_testoutput1_split_test:run(),
+ ?t:timetrap_cancel(Dog),
+ ok.
+
+split_options(doc) ->
+ ["Test special options to split."];
+split_options(Config) when is_list(Config) ->
+ Dog = ?t:timetrap(?t:minutes(1)),
+ ?line [[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],[<<"c">>,<<" ">>]] = re:split("a b c ","( )",[group,trim]),
+ ?line [[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],[<<"c">>,<<" ">>]] = re:split("a b c ","( )",[group,{parts,0}]),
+ ?line [[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],[<<"c">>,<<" ">>],[<<>>]] =
+ re:split("a b c ","( )",[{parts,infinity},group]),
+ ?line [[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],[<<"c">>,<<" ">>],[<<>>]] =
+ re:split("a b c ","( )",[group]),
+ ?line [[<<>>,<<" ">>],[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],
+ [<<"c">>,<<" ">>],[<<"d">>,<<" ">>]] =
+ re:split(" a b c d ","( +)",[group,trim]),
+ ?line [[<<>>,<<" ">>],[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],
+ [<<"c">>,<<" ">>],[<<"d">>,<<" ">>]] =
+ re:split(" a b c d ","( +)",[{parts,0},group]),
+ ?line [[<<>>,<<" ">>],[<<"a">>,<<" ">>],[<<"b">>,<<" ">>],
+ [<<"c">>,<<" ">>],[<<"d">>,<<" ">>],[<<>>]] =
+ re:split(" a b c d ","( +)",[{parts,infinity},group]),
+ ?line [[<<"a">>,<<" ">>],[<<"b c d">>]] =
+ re:split("a b c d","( +)",[{parts,2},group]),
+ ?line [[[967]," "],["b c d"]] =
+ re:split([967]++" b c d","( +)",
+ [{parts,2},group,{return,list},unicode]),
+ ?line [[<<207,135>>,<<" ">>],[<<"b c d">>]] =
+ re:split([967]++" b c d","( +)",
+ [{parts,2},group,{return,binary},unicode]),
+ ?line {'EXIT',{badarg,_}} =
+ (catch re:split([967]++" b c d","( +)",
+ [{parts,2},group,{return,binary}])),
+ ?line {'EXIT',{badarg,_}} =
+ (catch re:split("a b c d","( +)",[{parts,-2}])),
+ ?line {'EXIT',{badarg,_}} =
+ (catch re:split("a b c d","( +)",[{parts,banan}])),
+ ?line {'EXIT',{badarg,_}} =
+ (catch re:split("a b c d","( +)",[{capture,all}])),
+ ?line {'EXIT',{badarg,_}} =
+ (catch re:split("a b c d","( +)",[{capture,[],binary}])),
+ % Parts 0 is equal to no parts specification (implicit strip)
+ ?line ["a"," ","b"," ","c"," ","d"] =
+ re:split("a b c d","( *)",[{parts,0},{return,list}]),
+ ?t:timetrap_cancel(Dog),
+ ok.
+
+join([]) -> [];
+join([A]) -> [A];
+join([H|T]) -> [H,<<":">>|join(T)].
+
+split_specials(doc) ->
+ ["Some special cases of split that are easy to get wrong."];
+split_specials(Config) when is_list(Config) ->
+ %% More or less just to remember these icky cases
+ Dog = ?t:timetrap(?t:minutes(1)),
+ ?line <<"::abd:f">> =
+ iolist_to_binary(join(re:split("abdf","^(?!(ab)de|x)(abd)(f)",[trim]))),
+ ?line <<":abc2xyzabc3">> =
+ iolist_to_binary(join(re:split("abc1abc2xyzabc3","\\Aabc.",[trim]))),
+ ?t:timetrap_cancel(Dog),
+ ok.
+
+
+error_handling(doc) ->
+ ["Test that errors are handled correctly by the erlang code."];
+error_handling(Config) when is_list(Config) ->
+ % This test checks the exception tuples manufactured in the erlang
+ % code to hide the trapping from the user at least when it comes to errors
+ Dog = ?t:timetrap(?t:minutes(1)),
+ % The malformed precomiled RE is detected after
+ % the trap to re:grun from grun, in the grun function clause
+ % that handles precompiled expressions
+ ?line {'EXIT',{badarg,[{re,run,["apa",{1,2,3,4},[global]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:run("apa",{1,2,3,4},[global])),
+ % An invalid capture list will also cause a badarg late,
+ % but with a non pre compiled RE, the exception should be thrown by the
+ % grun function clause that handles RE's compiled implicitly by
+ % the run/3 BIF before trapping.
+ ?line {'EXIT',{badarg,[{re,run,["apa","p",[{capture,[1,{a}]},global]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:run("apa","p",[{capture,[1,{a}]},global])),
+ % And so the case of a precompiled expression together with
+ % a compile-option (binary and list subject):
+ ?line {ok,RE} = re:compile("(p)"),
+ ?line {match,[[{1,1},{1,1}]]} = re:run(<<"apa">>,RE,[global]),
+ ?line {match,[[{1,1},{1,1}]]} = re:run("apa",RE,[global]),
+ {'EXIT',{badarg,[{re,run,
+ [<<"apa">>,
+ {re_pattern,1,0,_},
+ [global,unicode]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:run(<<"apa">>,RE,[global,unicode])),
+ {'EXIT',{badarg,[{re,run,
+ ["apa",
+ {re_pattern,1,0,_},
+ [global,unicode]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:run("apa",RE,[global,unicode])),
+ ?line {'EXIT',{badarg,_}} = (catch re:run("apa","(p",[])),
+ ?line {'EXIT',{badarg,_}} = (catch re:run("apa","(p",[global])),
+ % The replace errors:
+ ?line {'EXIT',{badarg,[{re,replace,["apa",{1,2,3,4},"X",[]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:replace("apa",{1,2,3,4},"X",[])),
+ ?line {'EXIT',{badarg,[{re,replace,["apa",{1,2,3,4},"X",[global]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:replace("apa",{1,2,3,4},"X",[global])),
+ ?line {'EXIT',{badarg,[{re,replace,
+ ["apa",
+ {re_pattern,1,0,_},
+ "X",
+ [unicode]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:replace("apa",RE,"X",[unicode])),
+ ?line <<"aXa">> = iolist_to_binary(re:replace("apa","p","X",[])),
+ ?line {'EXIT',{badarg,[{re,replace,
+ ["apa","p","X",[{capture,all,binary}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch iolist_to_binary(re:replace("apa","p","X",
+ [{capture,all,binary}]))),
+ ?line {'EXIT',{badarg,[{re,replace,
+ ["apa","p","X",[{capture,all}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch iolist_to_binary(re:replace("apa","p","X",
+ [{capture,all}]))),
+ ?line {'EXIT',{badarg,[{re,replace,
+ ["apa","p","X",[{return,banana}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch iolist_to_binary(re:replace("apa","p","X",
+ [{return,banana}]))),
+ ?line {'EXIT',{badarg,_}} = (catch re:replace("apa","(p","X",[])),
+ % Badarg, not compile error.
+ ?line {'EXIT',{badarg,[{re,replace,
+ ["apa","(p","X",[{return,banana}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch iolist_to_binary(re:replace("apa","(p","X",
+ [{return,banana}]))),
+ % And the split errors:
+ ?line [<<"a">>,<<"a">>] = (catch re:split("apa","p",[])),
+ ?line [<<"a">>,<<"p">>,<<"a">>] = (catch re:split("apa",RE,[])),
+ ?line {'EXIT',{badarg,[{re,split,["apa","p",[global]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa","p",[global])),
+ ?line {'EXIT',{badarg,[{re,split,["apa","p",[{capture,all}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa","p",[{capture,all}])),
+ ?line {'EXIT',{badarg,[{re,split,["apa","p",[{capture,all,binary}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa","p",[{capture,all,binary}])),
+ ?line {'EXIT',{badarg,[{re,split,["apa",{1,2,3,4},[]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa",{1,2,3,4})),
+ ?line {'EXIT',{badarg,[{re,split,["apa",{1,2,3,4},[]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa",{1,2,3,4},[])),
+ ?line {'EXIT',{badarg,[{re,split,
+ ["apa",
+ RE,
+ [unicode]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa",RE,[unicode])),
+ ?line {'EXIT',{badarg,[{re,split,
+ ["apa",
+ RE,
+ [{return,banana}]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa",RE,[{return,banana}])),
+ ?line {'EXIT',{badarg,[{re,split,
+ ["apa",
+ RE,
+ [banana]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa",RE,[banana])),
+ ?line {'EXIT',{badarg,_}} = (catch re:split("apa","(p")),
+ %Exception on bad argument, not compilation error
+ ?line {'EXIT',{badarg,[{re,split,
+ ["apa",
+ "(p",
+ [banana]]},
+ {?MODULE, error_handling,1} | _]}} =
+ (catch re:split("apa","(p",[banana])),
+ ?t:timetrap_cancel(Dog),
+ ok.
+