%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1999-2010. 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.
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%% %CopyrightEnd%
%%
-module(beam_literals_SUITE).
-export([all/0, suite/0,groups/0,init_per_group/2,end_per_group/2]).
-export([putting/1, matching_smalls/1, matching_smalls_jt/1,
matching_bigs/1, matching_more_bigs/1,
matching_bigs_and_smalls/1, badmatch/1, case_clause/1,
receiving/1, literal_type_tests/1,
put_list/1, fconv/1, literal_case_expression/1,
increment/1]).
-include_lib("test_server/include/test_server.hrl").
suite() -> [{suite_callbacks,[ts_install_scb]}].
all() ->
[putting, matching_smalls, matching_smalls_jt,
matching_bigs, matching_more_bigs,
matching_bigs_and_smalls, badmatch, case_clause,
receiving, literal_type_tests, put_list, fconv,
literal_case_expression, increment].
groups() ->
[].
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
putting(doc) -> "Test creating lists and tuples containing big number literals.";
putting(Config) when is_list(Config) ->
-773973888575883407313908 = chksum(putting1(8987697898797)).
putting1(X) ->
{8797987987987987872256443, [1324483773773], {3.1415, 2.71, [2.5, 35.125|9.31]},
[X|349873987387373],
[329878349873|-387394729872], -773973937933873929749873}.
matching_bigs(doc) -> "Test matching of a few big number literals (in Beam,"
"select_val/3 will NOT be used).";
matching_bigs(Config) when is_list(Config) ->
a = matching1(3972907842873739),
b = matching1(-389789298378939783333333333333333333784),
other = matching1(3141699999999999999999999999999999999),
other = matching1(42).
matching_smalls(doc) -> "Test matching small numbers (both positive and negative).";
matching_smalls(Config) when is_list(Config) ->
?line a = m_small(-42),
?line b = m_small(0),
?line c = m_small(105),
?line d = m_small(-13),
?line e = m_small(337848),
?line other = m_small(324),
?line other = m_small(-7),
ok.
m_small(-42) -> a;
m_small(0) -> b;
m_small(105) -> c;
m_small(-13) -> d;
m_small(337848) -> e;
m_small(_) -> other.
matching_smalls_jt(doc) ->
"Test matching small numbers (both positive and negative). "
"Make sure that a jump table is used.";
matching_smalls_jt(Config) when is_list(Config) ->
?line a = m_small_jt(-2),
?line b = m_small_jt(-1),
?line c = m_small_jt(0),
?line d = m_small_jt(2),
?line e = m_small_jt(3),
?line other = m_small(324),
?line other = m_small(-7),
ok.
m_small_jt(-2) -> a;
m_small_jt(-1) -> b;
m_small_jt(0) -> c;
m_small_jt(2) -> d;
m_small_jt(3) -> e;
m_small_jt(_) -> other.
%% Big numbers, no select_val.
matching1(3972907842873739) -> a;
matching1(-389789298378939783333333333333333333784) -> b;
matching1(_) -> other.
matching_more_bigs(doc) -> "Test matching of a big number literals (in Beam,"
"a select_val/3 instruction will be used).";
matching_more_bigs(Config) when is_list(Config) ->
a = matching2(-999766349740978337),
b = matching2(9734097866575478),
c = matching2(-966394677364879734),
d = matching2(13987294872948990),
e = matching2(777723896192459245),
other = matching2(7),
other = matching2(39789827988888888888888888888347474444444444444444444).
%% Big numbers with select_val.
matching2(-999766349740978337) -> a;
matching2(9734097866575478) -> b;
matching2(-966394677364879734) -> c;
matching2(13987294872948990) -> d;
matching2(777723896192459245) -> e;
matching2(_) -> other.
matching_bigs_and_smalls(doc) -> "Test matching of a mix of big numbers and literals.";
matching_bigs_and_smalls(suite) -> [];
matching_bigs_and_smalls(Config) when is_list(Config) ->
a = matching3(38472928723987239873873),
b = matching3(0),
c = matching3(-3873973932710954671207461057614287561348756348743634876436784367873),
d = matching3(3978429867297393873),
e = matching3(42),
f = matching3(-4533),
other = matching3(77),
other = matching3(39274120984379249874219748).
%% Mixed small and big.
matching3(38472928723987239873873) -> a;
matching3(0) -> b;
matching3(-3873973932710954671207461057614287561348756348743634876436784367873) -> c;
matching3(3978429867297393873) -> d;
matching3(42) -> e;
matching3(-4533) -> f;
matching3(_) -> other.
badmatch(doc) -> "Test literal badmatches with big number and floats.";
badmatch(Config) when is_list(Config) ->
%% We are satisfied if we can load this module and run it.
Big = id(32984798729847892498297824872982972978239874),
Float = id(3.1415927),
?line catch a = Big,
?line catch b = Float,
?line {'EXIT',{{badmatch,3879373498378993387},_}} =
(catch c = 3879373498378993387),
?line {'EXIT',{{badmatch,7.0},_}} = (catch d = 7.0),
?line case Big of
Big -> ok
end,
?line case Float of
Float -> ok
end,
ok.
case_clause(Config) when is_list(Config) ->
?line {'EXIT',{{case_clause,337.0},_}} = (catch case_clause_float()),
?line {'EXIT',{{try_clause,42.0},_}} = (catch try_case_clause_float()),
?line {'EXIT',{{case_clause,37932749837839747383847398743789348734987},_}} =
(catch case_clause_big()),
?line {'EXIT',{{try_clause,977387349872349870423364354398566348},_}} =
(catch try_case_clause_big()),
ok.
case_clause_float() ->
case 337.0 of
blurf -> ok
end.
try_case_clause_float() ->
try 42.0 of
blurf -> ok
catch _:_ ->
error
end.
case_clause_big() ->
case 37932749837839747383847398743789348734987 of
blurf -> ok
end.
try_case_clause_big() ->
try 977387349872349870423364354398566348 of
blurf -> ok
catch _:_ ->
error
end.
receiving(doc) -> "Test receive with a big number literal (more than 27 bits, "
"less than 32 bits).";
receiving(Config) when is_list(Config) ->
Self = self(),
spawn(fun() -> Self ! here_is_a_message end),
ok = receive
here_is_a_message ->
ok
after 16#f1234567 ->
timeout
end.
literal_type_tests(doc) -> "Test type tests on literal values.";
literal_type_tests(Config) when is_list(Config) ->
%% Generate an Erlang module with all different type of type tests.
?line Tests = make_test([{T, L} || T <- type_tests(), L <- literals()]),
?line Mod = literal_test,
?line Func = {function, 0, test, 0, [{clause,0,[],[],Tests}]},
?line Form = [{attribute,0,module,Mod},
{attribute,0,compile,export_all},
Func, {eof,0}],
%% Print generated code for inspection.
?line lists:foreach(fun (F) -> io:put_chars([erl_pp:form(F),"\n"]) end, Form),
%% Test compile:form/1. This implies full optimization (default).
?line {ok,Mod,Code1} = compile:forms(Form),
?line {module,Mod} = code:load_binary(Mod, Mod, Code1),
?line Mod:test(),
?line true = code:delete(Mod),
?line code:purge(Mod),
%% Test compile:form/2. Turn off all optimizations.
?line {ok,Mod,Code2} = compile:forms(Form, [binary,report,time,
no_copt,no_postopt]),
?line {module,Mod} = code:load_binary(Mod, Mod, Code2),
?line Mod:test(),
?line true = code:delete(Mod),
?line code:purge(Mod),
ok.
make_test([{is_function=T,L}|Ts]) ->
[test(T, L),test(T, 0, L)|make_test(Ts)];
make_test([{T,L}|Ts]) ->
[test(T, L)|make_test(Ts)];
make_test([]) -> [].
test(T, L) ->
S = lists:flatten(io_lib:format("begin io:format(\"~p~n\", [{~p,~p}]), if ~w(~w) -> true; true -> false end end. ", [T, L, T, L])),
{ok,Toks,_Line} = erl_scan:string(S),
{ok,E} = erl_parse:parse_exprs(Toks),
{value,Val,_Bs} = erl_eval:exprs(E, []),
{match,0,{atom,0,Val},hd(E)}.
test(T, A, L) ->
S = lists:flatten(io_lib:format("begin io:format(\"~p~n\", [{~p,~p,~p}]), if ~w(~w, ~w) -> true; true -> false end end. ",
[T,L,A,T,L,A])),
{ok,Toks,_Line} = erl_scan:string(S),
{ok,E} = erl_parse:parse_exprs(Toks),
{value,Val,_Bs} = erl_eval:exprs(E, []),
{match,0,{atom,0,Val},hd(E)}.
literals() ->
[42,
3.14,
-3,
32982724987789283473473838474,
[],
xxxx].
type_tests() ->
[is_boolean,
is_integer,
is_float,
is_number,
is_atom,
is_list,
is_tuple,
is_pid,
is_reference,
is_port,
is_binary,
is_function].
put_list(Config) when is_list(Config) ->
%% put_list x0 Literal Reg
?line [Config|8739757395764] = put_list_rqr(Config),
?line {[Config|7779757395764],Config} = put_list_rqx(Config),
?line [Config|98765432100000] = put_list_rqy(Config),
%% put_list x Literal Reg
?line [Config|16#FFFFF77777137483769] = put_list_xqr(ignore, Config),
?line {[Config|16#AAAAAFFFFF77777],{a,b},Config} = put_list_xqx({a,b}, Config),
?line [Config|12777765432979879] = put_list_xqy(ignore, Config),
%% put_list y Literal Reg
?line [Config|17424134793676869867] = put_list_yqr(Config),
?line {[Config|77424134793676869867],Config} = put_list_yqx(Config),
?line {Config,[Config|16#BCDEFF4241676869867]} = put_list_yqy(Config),
%% put_list Literal x0 Reg
?line [42.0|Config] = put_list_qrr(Config),
?line [Config,42.0|Config] = put_list_qrx(Config),
?line [100.0|Config] = put_list_qry(Config),
%% put_list Literal x1 Reg
?line [127.0|Config] = put_list_qxr({ignore,me}, Config),
?line [Config,130.0|Config] = put_list_qxx(ignore, Config),
?line [99.0|Config] = put_list_qxy(Config),
%% put_list Literal y0 Reg
?line [200.0|Config] = put_list_qyr(Config),
?line [Config,210.0|Config] = put_list_qyx(Config),
?line [[300.0|Config]|Config] = put_list_qyy(Config),
ok.
%% put_list x0 Literal x0
put_list_rqr(Config) -> [Config|8739757395764].
%% put_list x0 Literal x1
put_list_rqx(Config) -> {[Config|7779757395764],Config}.
%% put_list x0 Literal y0
put_list_rqy(Config) ->
Res = [Config|98765432100000],
id(42),
Res.
%% put_list x1 Literal x0
put_list_xqr(_, Config) -> [Config|16#FFFFF77777137483769].
%% put_list x1 Literal x2
put_list_xqx(A, Config) -> {[Config|16#AAAAAFFFFF77777],A,Config}.
%% put_list x1 Literal y0
put_list_xqy(_, Config) ->
Res = [Config|12777765432979879],
id(42),
Res.
%% put_list y0 Literal x0
put_list_yqr(Config) ->
id(Config),
[Config|17424134793676869867].
%% put_list y0 Literal x1
put_list_yqx(Config) ->
id(Config),
{[Config|77424134793676869867],Config}.
%% put_list y1 Literal y0
put_list_yqy(Config) ->
id(Config),
Res = [Config|16#BCDEFF4241676869867],
id(Config),
{Config,Res}.
%% put_list Literal x0 x0
put_list_qrr(Config) ->
[42.0|Config].
%% put_list Literal x0 x1
put_list_qrx(Config) ->
[Config,42.0|Config].
%% put_list Literal x0 y0
put_list_qry(Config) ->
Res = [100.0|Config],
id(0),
Res.
%% put_list Literal x1 x0
put_list_qxr(_, Config) ->
[127.0|Config].
%% put_list Literal x1 x2
put_list_qxx(_, Config) ->
[Config,130.0|Config].
%% put_list Literal x1 y0
put_list_qxy(Config) ->
Res = [99.0|Config],
id(0),
Res.
%% put_list Literal y0 x0
put_list_qyr(Config) ->
id(Config),
[200.0|Config].
%% put_list Literal y0 x1
put_list_qyx(Config) ->
id(Config),
[Config,210.0|Config].
%% put_list Literal y1 y0
put_list_qyy(Config) ->
id(Config),
Res = [300.0|Config],
id(Config),
[Res|Config].
fconv(Config) when is_list(Config) ->
?line 5.0 = fconv_1(-34444444450.0),
?line 13.0 = fconv_2(7.0),
ok.
fconv_1(F) when is_float(F) ->
34444444455 + F.
fconv_2(F) when is_float(F) ->
6.0 + F.
literal_case_expression(Config) when is_list(Config) ->
?line DataDir = ?config(data_dir, Config),
?line Src = filename:join(DataDir, "literal_case_expression"),
?line {ok,literal_case_expression=Mod,Code} =
compile:file(Src, [from_asm,binary]),
?line {module,Mod} = code:load_binary(Mod, Src, Code),
?line ok = Mod:x(),
?line ok = Mod:y(),
?line ok = Mod:zi1(),
?line ok = Mod:zi2(),
?line ok = Mod:za1(),
?line ok = Mod:za2(),
?line true = code:delete(Mod),
?line code:purge(Mod),
ok.
%% Test the i_increment instruction.
increment(Config) when is_list(Config) ->
%% In the 32-bit emulator, Neg32 can be represented as a small,
%% but -Neg32 cannot. Therefore the i_increment instruction must
%% not be used in the subtraction that follows (since i_increment
%% cannot handle a bignum literal).
Neg32 = -(1 bsl 27),
Big32 = id(1 bsl 32),
Result32 = (1 bsl 32) + (1 bsl 27),
?line Result32 = Big32 + (1 bsl 27),
?line Result32 = Big32 - Neg32,
%% Same thing, but for the 64-bit emulator.
Neg64 = -(1 bsl 59),
Big64 = id(1 bsl 64),
Result64 = (1 bsl 64) + (1 bsl 59),
?line Result64 = Big64 + (1 bsl 59),
?line Result64 = Big64 - Neg64,
%% Test error handling for the i_increment instruction.
Bad = id(bad),
?line {'EXIT',{badarith,_}} = (catch Bad + 42),
%% Small operands, but a big result.
Res32 = 1 bsl 27,
Small32 = id(Res32-1),
?line Res32 = Small32 + 1,
Res64 = 1 bsl 59,
Small64 = id(Res64-1),
?line Res64 = Small64 + 1,
ok.
%% Help functions.
chksum(Term) ->
chksum(Term, 0).
chksum([List|T], Sum) when is_list(List) ->
chksum(T, chksum(List, Sum));
chksum([H|T], Sum) ->
chksum(T, chksum(H, Sum));
chksum([], Sum) -> Sum;
chksum(Tuple, Sum) when is_tuple(Tuple) ->
chksum(tuple_to_list(Tuple), Sum);
chksum(Int, Sum) when is_integer(Int) ->
Sum * 5 + Int;
chksum(Other, Sum) ->
erlang:phash2([Other|Sum], 39729747).
id(I) -> I.