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path: root/lib/compiler/test/bs_utf_SUITE.erl
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%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2008-2010. 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(bs_utf_SUITE).

-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1, 
	 init_per_group/2,end_per_group/2,
	 utf8_roundtrip/1,unused_utf_char/1,utf16_roundtrip/1,
	 utf32_roundtrip/1,guard/1,extreme_tripping/1,
	 literals/1,coverage/1]).

-include_lib("test_server/include/test_server.hrl").

suite() -> [{suite_callbacks,[ts_install_scb]}].

all() -> 
    test_lib:recompile(bs_utf_SUITE),
    [utf8_roundtrip, unused_utf_char, utf16_roundtrip,
     utf32_roundtrip, guard, extreme_tripping, literals,
     coverage].

groups() -> 
    [].

init_per_suite(Config) ->
    Config.

end_per_suite(_Config) ->
    ok.

init_per_group(_GroupName, Config) ->
    Config.

end_per_group(_GroupName, Config) ->
    Config.


utf8_roundtrip(Config) when is_list(Config) ->
    ?line [utf8_roundtrip_1(P) || P <- utf_data()],
    ok.

utf8_roundtrip_1({Str,Bin,Bin}) ->
    ?line Str = utf8_to_list(Bin),
    ?line Bin = list_to_utf8(Str),
    ?line [ok = utf8_guard(C, <<42,C/utf8>>) || C <- Str],
    ?line [error = utf8_guard(C, <<C/utf8>>) || C <- Str],
    ok.

utf8_guard(C, Bin) when <<42,C/utf8>> =:= Bin -> ok;
utf8_guard(_, _) -> error.

utf8_to_list(<<C/utf8,T/binary>>) ->
    [C|utf8_to_list(T)];
utf8_to_list(<<>>) -> [].

list_to_utf8(L) ->
    list_to_utf8(L, <<>>).

list_to_utf8([H|T], Bin) ->
    list_to_utf8(T, <<Bin/binary,H/utf8>>);
list_to_utf8([], Bin) -> Bin.

unused_utf_char(Config) when is_list(Config) ->
    [true = utf8_len(Utf8) =:= length(Str) ||
	{Str,Utf8} <- utf_data()],
    ok.

utf8_len(B) ->
    utf8_len(B, 0).

utf8_len(<<_/utf8,T/binary>>, N) ->
    utf8_len(T, N+1);
utf8_len(<<>>, N) -> N.

utf16_roundtrip(Config) when is_list(Config) ->
    ?line {Str,Big,Big,Little,Little} = utf16_data(),
    ?line 4 = utf16_big_len(Big),
    ?line 4 = utf16_little_len(Little),
    ?line Str = big_utf16_to_list(Big),
    ?line Str = little_utf16_to_list(Little),

    ?line Big = list_to_big_utf16(Str),
    ?line Little = list_to_little_utf16(Str),

    ok.

utf16_big_len(B) ->
    utf16_big_len(B, 0).

utf16_big_len(<<_/utf16,T/binary>>, N) ->
    utf16_big_len(T, N+1);
utf16_big_len(<<>>, N) -> N.

utf16_little_len(B) ->
    utf16_little_len(B, 0).

utf16_little_len(<<_/little-utf16,T/binary>>, N) ->
    utf16_little_len(T, N+1);
utf16_little_len(<<>>, N) -> N.

list_to_big_utf16(List) ->
    list_to_big_utf16(List, <<>>).

list_to_big_utf16([H|T], Bin) ->
    list_to_big_utf16(T, <<Bin/binary,H/utf16>>);
list_to_big_utf16([], Bin) -> Bin.

list_to_little_utf16(List) ->
    list_to_little_utf16(List, <<>>).

list_to_little_utf16([H|T], Bin) ->
    list_to_little_utf16(T, <<Bin/binary,H/little-utf16>>);
list_to_little_utf16([], Bin) -> Bin.

big_utf16_to_list(<<H/utf16,T/binary>>) ->
    [H|big_utf16_to_list(T)];
big_utf16_to_list(<<>>) -> [].

little_utf16_to_list(<<H/little-utf16,T/binary>>) ->
    [H|little_utf16_to_list(T)];
little_utf16_to_list(<<>>) -> [].

utf32_roundtrip(Config) when is_list(Config) ->
    ?line {Str,Big,Big,Little,Little} = utf32_data(),
    ?line 4 = utf32_big_len(Big),
    ?line 4 = utf32_little_len(Little),
    ?line Str = big_utf32_to_list(Big),
    ?line Str = little_utf32_to_list(Little),

    ?line Big = list_to_big_utf32(Str),
    ?line Little = list_to_little_utf32(Str),

    ok.

utf32_big_len(B) ->
    utf32_big_len(B, 0).

utf32_big_len(<<_/utf32,T/binary>>, N) ->
    utf32_big_len(T, N+1);
utf32_big_len(<<>>, N) -> N.

utf32_little_len(B) ->
    utf32_little_len(B, 0).

utf32_little_len(<<_/little-utf32,T/binary>>, N) ->
    utf32_little_len(T, N+1);
utf32_little_len(<<>>, N) -> N.

list_to_big_utf32(List) ->
    list_to_big_utf32(List, <<>>).

list_to_big_utf32([H|T], Bin) ->
    list_to_big_utf32(T, <<Bin/binary,H/utf32>>);
list_to_big_utf32([], Bin) -> Bin.

list_to_little_utf32(List) ->
    list_to_little_utf32(List, <<>>).

list_to_little_utf32([H|T], Bin) ->
    list_to_little_utf32(T, <<Bin/binary,H/little-utf32>>);
list_to_little_utf32([], Bin) -> Bin.

big_utf32_to_list(<<H/utf32,T/binary>>) ->
    [H|big_utf32_to_list(T)];
big_utf32_to_list(<<>>) -> [].

little_utf32_to_list(<<H/little-utf32,T/binary>>) ->
    [H|little_utf32_to_list(T)];
little_utf32_to_list(<<>>) -> [].


guard(Config) when is_list(Config) ->    
    ?line error = do_guard(16#D800),
    ok.

do_guard(C) when byte_size(<<C/utf8>>) =/= 42 -> ok;
do_guard(C) when byte_size(<<C/utf16>>) =/= 42 -> ok;
do_guard(C) when byte_size(<<C/utf32>>) =/= 42 -> ok;
do_guard(_) -> error.

%% The purpose of this test is to make sure that
%% the delayed creation of sub-binaries works.

extreme_tripping(Config) when is_list(Config) ->
    ?line Unicode = lists:seq(0, 1024),
    ?line Utf8 = unicode_to_utf8(Unicode, <<>>),
    ?line Utf16 = utf8_to_utf16(Utf8, <<>>),
    ?line Utf32 = utf8_to_utf32(Utf8, <<>>),
    ?line Utf32 = utf16_to_utf32(Utf16, <<>>),
    ?line Utf8 = utf32_to_utf8(Utf32, <<>>),
    ?line Unicode = utf32_to_unicode(Utf32),
    ok.

unicode_to_utf8([C|T], Bin) ->
    unicode_to_utf8(T, <<Bin/bytes,C/utf8>>);
unicode_to_utf8([], Bin) -> Bin.

utf8_to_utf16(<<C/utf8,T/binary>>, Bin) ->
    utf8_to_utf16(T, <<Bin/bytes,C/utf16>>);
utf8_to_utf16(<<>>, Bin) -> Bin.

utf16_to_utf32(<<C/utf16,T/binary>>, Bin) ->
    utf16_to_utf32(T, <<Bin/bytes,C/utf32>>);
utf16_to_utf32(<<>>, Bin) -> Bin.

utf8_to_utf32(<<C/utf8,T/binary>>, Bin) ->
    utf8_to_utf32(T, <<Bin/bytes,C/utf32>>);
utf8_to_utf32(<<>>, Bin) -> Bin.

utf32_to_utf8(<<C/utf32,T/binary>>, Bin) ->
    utf32_to_utf8(T, <<Bin/bytes,C/utf8>>);
utf32_to_utf8(<<>>, Bin) -> Bin.

utf32_to_unicode(<<C/utf32,T/binary>>) ->
    [C|utf32_to_unicode(T)];
utf32_to_unicode(<<>>) -> [].

literals(Config) when is_list(Config) ->
    ?line abc_utf8 = match_literal(<<"abc"/utf8>>),
    ?line abc_utf8 = match_literal(<<$a,$b,$c>>),

    ?line abc_utf16be = match_literal(<<"abc"/utf16>>),
    ?line abc_utf16be = match_literal(<<$a:16,$b:16,$c:16>>),
    ?line abc_utf16le = match_literal(<<"abc"/little-utf16>>),
    ?line abc_utf16le = match_literal(<<$a:16/little,$b:16/little,$c:16/little>>),

    ?line abc_utf32be = match_literal(<<"abc"/utf32>>),
    ?line abc_utf32be = match_literal(<<$a:32,$b:32,$c:32>>),
    ?line abc_utf32le = match_literal(<<"abc"/little-utf32>>),
    ?line abc_utf32le = match_literal(<<$a:32/little,$b:32/little,$c:32/little>>),

    ?line bjorn_utf8 = match_literal(<<"bj\366rn"/utf8>>),
    ?line bjorn_utf8 = match_literal(<<$b,$j,195,182,$r,$n>>),

    ?line bjorn_utf16be = match_literal(<<"bj\366rn"/utf16>>),
    ?line bjorn_utf16be = match_literal(<<$b:16,$j:16,246:16,$r:16,$n:16>>),
    ?line bjorn_utf16le = match_literal(<<"bj\366rn"/little-utf16>>),
    ?line bjorn_utf16le = match_literal(<<$b:16/little,$j:16/little,
					 246:16/little,$r:16/little,
					 $n:16/little>>),
    ?line <<244,143,191,191>> = <<16#10ffff/utf8>>,

    %% Invalid literals.
    I = 0,
    ?line {'EXIT',{badarg,_}} = (catch <<(-1)/utf8,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<(-1)/utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<(-1)/little-utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<(-1)/utf32,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<(-1)/little-utf32,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#D800/utf8,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFE/utf8,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFF/utf8,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#D800/utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#D800/little-utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFE/utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFE/little-utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFF/utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFF/little-utf16,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#D800/utf32,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#D800/little-utf32,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFE/utf32,I/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<16#FFFF/little-utf32,I/utf8>>),

    B = 16#10FFFF+1,
    ?line {'EXIT',{badarg,_}} = (catch <<B/utf8>>),
    ?line {'EXIT',{badarg,_}} = (catch <<B/utf16>>),
    ?line {'EXIT',{badarg,_}} = (catch <<B/little-utf16>>),
    ?line {'EXIT',{badarg,_}} = (catch <<B/utf32>>),
    ?line {'EXIT',{badarg,_}} = (catch <<B/little-utf32>>),

    %% Matching of bad literals.
    ?line error = bad_literal_match(<<237,160,128>>), %16#D800 in UTF-8
    ?line error = bad_literal_match(<<239,191,190>>), %16#FFFE in UTF-8
    ?line error = bad_literal_match(<<239,191,191>>), %16#FFFF in UTF-8
    ?line error = bad_literal_match(<<244,144,128,128>>), %16#110000 in UTF-8

    ?line error = bad_literal_match(<<255,254>>), %16#FFFE in UTF-16
    ?line error = bad_literal_match(<<255,255>>), %16#FFFF in UTF-16

    ?line error = bad_literal_match(<<16#D800:32>>),
    ?line error = bad_literal_match(<<16#FFFE:32>>),
    ?line error = bad_literal_match(<<16#FFFF:32>>),
    ?line error = bad_literal_match(<<16#110000:32>>),
    ?line error = bad_literal_match(<<16#D800:32/little>>),
    ?line error = bad_literal_match(<<16#FFFE:32/little>>),
    ?line error = bad_literal_match(<<16#FFFF:32/little>>),
    ?line error = bad_literal_match(<<16#110000:32/little>>),

    ok.

match_literal(<<"abc"/utf8>>) -> abc_utf8;
match_literal(<<"abc"/big-utf16>>) -> abc_utf16be;
match_literal(<<"abc"/little-utf16>>) -> abc_utf16le;
match_literal(<<"abc"/big-utf32>>) -> abc_utf32be;
match_literal(<<"abc"/little-utf32>>) -> abc_utf32le;
match_literal(<<"bj\366rn"/utf8>>) -> bjorn_utf8;
match_literal(<<"bj\366rn"/big-utf16>>) -> bjorn_utf16be;
match_literal(<<"bj\366rn"/little-utf16>>) -> bjorn_utf16le.

bad_literal_match(<<16#D800/utf8>>) -> ok;
bad_literal_match(<<16#FFFE/utf8>>) -> ok;
bad_literal_match(<<16#FFFF/utf8>>) -> ok;
bad_literal_match(<<16#110000/utf8>>) -> ok;
bad_literal_match(<<16#FFFE/utf16>>) -> ok;
bad_literal_match(<<16#FFFF/utf16>>) -> ok;
bad_literal_match(<<16#D800/utf32>>) -> ok;
bad_literal_match(<<16#110000/utf32>>) -> ok;
bad_literal_match(<<16#D800/little-utf32>>) -> ok;
bad_literal_match(<<16#110000/little-utf32>>) -> ok;
bad_literal_match(_) -> error.
    
coverage(Config) when is_list(Config) ->
    %% Cover bit syntax matching optimizations in v3_kernel.
    ?line 0 = coverage_1(<<4096/utf8,65536/utf8,0>>),
    ?line 1 = coverage_1(<<4096/utf8,65536/utf8,1>>),

    ?line 0 = coverage_2(<<4096/utf8,65536/utf8,0>>),
    ?line 1 = coverage_2(<<1024/utf8,1025/utf8,1>>),

    ?line fc(catch coverage_3(1)),

    %% Cover beam_flatten (combining the heap allocation in
    %% a subsequent test_heap instruction into the bs_init2
    %% instruction).
    {ok,<<533/utf8>>} = cover_test_heap_utf8(533),
    {ok,<<1024/utf16>>} = cover_test_heap_utf16(1024),
    {ok,<<7966/utf32>>} = cover_test_heap_utf32(7966),

    ok.
    
coverage_1(<<4096/utf8,65536/utf8,0>>) -> 0;
coverage_1(<<4096/utf8,65536/utf8,1>>) -> 1.

coverage_2(<<4096/utf8,65536/utf8,0>>) -> 0;
coverage_2(<<1024/utf8,1025/utf8,1>>) -> 1.

coverage_3(<<16#7fffffff/utf8,65536/utf8,0>>) -> 0.

cover_test_heap_utf8(C) -> {ok,<<C/utf8>>}.
cover_test_heap_utf16(C) -> {ok,<<C/utf16>>}.
cover_test_heap_utf32(C) -> {ok,<<C/utf32>>}.

utf_data() ->
%% From RFC-3629.

    %% Give the compiler a chance to do some constant propagation.
    NotIdentical = 16#2262,

    [
     %% "A<NOT IDENTICAL TO><ALPHA>."
     {[16#0041,NotIdentical,16#0391,16#002E],
      <<16#0041/utf8,NotIdentical/utf8,16#0391/utf8,16#002E/utf8>>,
      <<16#41,16#E2,16#89,16#A2,16#CE,16#91,16#2E>>},

     %% Korean "hangugeo" (meaning "the Korean language")
     {[16#D55C,16#AD6D,16#C5B4],
      <<16#D55C/utf8,16#AD6D/utf8,16#C5B4/utf8>>,
      <<16#ED,16#95,16#9C,16#EA,16#B5,16#AD,16#EC,16#96,16#B4>>},

     %% Japanese "nihongo" (meaning "the Japanese language").
     {[16#65E5,16#672C,16#8A9E],
      <<16#65E5/utf8,16#672C/utf8,16#8A9E/utf8>>,
      <<16#E6,16#97,16#A5,16#E6,16#9C,16#AC,16#E8,16#AA,16#9E>>}
    ].

utf16_data() ->
    %% Example from RFC-2781. "*=Ra", where "*" represents a
    %% hypothetical Ra hieroglyph (code point 16#12345).

    %% Give the compiler a chance to do some constant propagation.
    RaHieroglyph = 16#12345,

    %% First as a list of Unicode characters.
    {[RaHieroglyph,16#3D,16#52,16#61],

     %% Big endian (the two binaries should be equal).
     <<RaHieroglyph/big-utf16,16#3D/big-utf16,16#52/big-utf16,16#61/big-utf16>>,
     <<16#D8,16#08,16#DF,16#45,16#00,16#3D,16#00,16#52,16#00,16#61>>,

     %% Little endian (the two binaries should be equal).
     <<RaHieroglyph/little-utf16,16#3D/little-utf16,
      16#52/little-utf16,16#61/little-utf16>>,
     <<16#08,16#D8,16#45,16#DF,16#3D,16#00,16#52,16#00,16#61,16#00>>}.

utf32_data() ->
    %% "A<NOT IDENTICAL TO><ALPHA>."
    NotIdentical = 16#2262,
    {[16#0041,NotIdentical,16#0391,16#002E],

     %% Big endian.
     <<16#0041/utf32,NotIdentical/utf32,16#0391/utf32,16#002E/utf32>>,
     <<16#41:32,NotIdentical:32,16#0391:32,16#2E:32>>,

     %% Little endian.
     <<16#0041/little-utf32,NotIdentical/little-utf32,
      16#0391/little-utf32,16#002E/little-utf32>>,
     <<16#41:32/little,NotIdentical:32/little,
      16#0391:32/little,16#2E:32/little>>}.
     
fc({'EXIT',{function_clause,_}}) -> ok;
fc({'EXIT',{{case_clause,_},_}}) when ?MODULE =:= bs_utf_inline_SUITE -> ok.