%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2001-2017. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(cover_SUITE).
-compile(export_all).
-include_lib("common_test/include/ct.hrl").
suite() ->
[{ct_hooks,[ts_install_cth]}].
all() ->
NoStartStop = [eif,otp_5305,otp_5418,otp_7095,otp_8273,
otp_8340,otp_8188,compile_beam_opts,eep37,
analyse_no_beam, line_0, compile_beam_no_file,
otp_13277, otp_13289],
StartStop = [start, compile, analyse, misc, stop,
distribution, reconnect, die_and_reconnect,
dont_reconnect_after_stop, stop_node_after_disconnect,
export_import, otp_5031, otp_6115,
otp_8270, otp_10979_hanging_node, otp_14817],
case whereis(cover_server) of
undefined ->
[coverage,StartStop ++ NoStartStop];
_pid ->
[coverage|NoStartStop++[coverage_analysis]]
end.
init_per_suite(Config) ->
[{ct_is_running_cover,whereis(cover_server) =/= undefined}|Config].
end_per_suite(_Config) ->
ok.
init_per_testcase(TC, Config) when TC =:= misc;
TC =:= compile;
TC =:= analyse;
TC =:= distribution;
TC =:= otp_5031;
TC =:= stop ->
case code:which(crypto) of
Path when is_list(Path) ->
init_per_testcase(dummy_tc, Config);
_Else ->
{skip, "No crypto file to test with"}
end;
init_per_testcase(_TestCase, Config) ->
Config.
end_per_testcase(TestCase, Config) ->
NoStop = [start,compile,analyse,misc],
DontStop = proplists:get_bool(ct_is_running_cover, Config) orelse
lists:member(TestCase, NoStop),
case DontStop of
true -> ok;
false -> cover:stop()
end,
ok.
coverage(Config) when is_list(Config) ->
{ok,?MODULE} = cover:compile_beam(?MODULE),
?MODULE:do_coverage(Config).
do_coverage(Config) ->
Outdir = proplists:get_value(priv_dir, Config),
ExportFile = filename:join(Outdir, "export"),
ok = cover:export(ExportFile, ?MODULE),
{error,{already_started,_}} = cover:start(),
{error,_} = cover:compile_beam(non_existing_module),
_ = cover:which_nodes(),
_ = cover:modules(),
_ = cover:imported(),
{error,{not_cover_compiled,lists}} = cover:analyze(lists),
%% Cover escaping of '&' in HTML files.
case proplists:get_bool(ct_is_running_cover, Config) of
false ->
%% Cover server was implicitly started when this module
%% was cover-compiled. We must stop the cover server, but
%% we must ensure that this module is not on the call
%% stack when it is unloaded. Therefore, the call that
%% follows MUST be tail-recursive.
cover:stop();
true ->
%% Cover server was started by common_test; don't stop it.
ok
end.
%% This test case will only be run when common_test is running cover.
coverage_analysis(Config) when is_list(Config) ->
{ok,Analysis1} = cover:analyze(?MODULE),
io:format("~p\n", [Analysis1]),
{ok,Analysis2} = cover:analyze(?MODULE, calls),
io:format("~p\n", [Analysis2]),
{ok,_Analysis3} = cover:analyze(?MODULE, calls, line),
Outdir = proplists:get_value(priv_dir, Config),
Outfile = filename:join(Outdir, ?MODULE),
{ok,Outfile} = cover:analyze_to_file(?MODULE, Outfile),
{ok,Contents} = file:read_file(Outfile),
ok = file:delete(Outfile),
ok = io:put_chars(Contents),
{ok,Outfile} = cover:analyze_to_file(?MODULE, Outfile, [html]),
ok.
start(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(data_dir, Config)),
Files = lsfiles(),
remove(files(Files, ".out")),
{ok, Pid} = cover:start(),
{error, {already_started, Pid}} = cover:start().
compile(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(data_dir, Config)),
Result1 = cover:compile_directory(),
SortedResult = lists:sort(Result1),
{ok, CWD} = file:get_cwd(),
Result2 = cover:compile_directory(CWD),
SortedResult = lists:sort(Result2),
[{error,DFile},{ok,a},{ok,b},{ok,cc},{ok,f}] = SortedResult,
[{ok,e}] = cover:compile_directory("d1"),
{error,enoent} = cover:compile_directory("d2"),
[] = cover:compile([]),
Result21 = cover:compile([a,b,"cc.erl",d,"f"]),
SortedResult21 = lists:sort(Result21),
[{error,DFile},{ok,a},{ok,b},{ok,cc},{ok,f}] = SortedResult21,
{ok,a} = cover:compile(a),
{ok,b} = compile:file(b),
code:purge(b),
{module,b} = code:load_file(b),
{ok,d} = cover:compile("d.erl", [{d,'AGE',42}]),
{error,_BBFile} = cover:compile(bb),
StdlibDir = code:lib_dir(stdlib),
Lists = filename:join([StdlibDir, "src", "lists.erl"]),
{error, Lists} = cover:compile(Lists),
%% For compiling beam: using dummy files v,w,x,y and z
file:set_cwd("compile_beam"),
{ok,_} = compile:file(v,[debug_info,report]),
{ok,_} = compile:file(w,[debug_info,report]),
{ok,_} = compile:file(x),
{ok,_} = compile:file("d/y",[debug_info,{outdir,"d"},report]),
Key = "A Krypto Key",
CryptoWorks = crypto_works(),
case CryptoWorks of
false ->
{ok,_} = compile:file(crypt, [debug_info,report]),
{ok,crypt} = cover:compile_beam("crypt.beam");
true ->
{ok,_} = compile:file(crypt, [{debug_info_key,Key},report]),
{error,{encrypted_abstract_code,_}} =
cover:compile_beam("crypt.beam"),
ok = beam_lib:crypto_key_fun(simple_crypto_fun(Key)),
{ok,crypt} = cover:compile_beam("crypt.beam")
end,
Path = filename:join([proplists:get_value(data_dir, Config), "compile_beam", "v.erl"]),
{ok,v} = cover:compile_beam(v),
{source,Path} = lists:keyfind(source, 1, v:module_info(compile)),
{ok,w} = cover:compile_beam("w.beam"),
{error,{no_abstract_code,"./x.beam"}} = cover:compile_beam(x),
{error,{already_cover_compiled,no_beam_found,a}}=cover:compile_beam(a),
{error,non_existing} = cover:compile_beam(z),
[{ok,y}] = cover:compile_beam_directory("d"),
Result3 = lists:sort(cover:compile_beam_directory()),
[{error,{no_abstract_code,XBeam}},{ok,crypt},{ok,v},{ok,w}] = Result3,
{error,enoent} = cover:compile_beam_directory("d2"),
[] = cover:compile_beam([]),
Result31 = cover:compile_beam([crypt,"v.beam",w,"x"]),
SortedResult31 = lists:sort(Result31),
[{error,{no_abstract_code,XBeam}},{ok,crypt},{ok,v},{ok,w}] = SortedResult31,
decompile([v,w,y]),
Files = lsfiles(),
remove(files(Files, ".beam")).
crypto_works() ->
try crypto:start() of
{error,{already_started,crypto}} -> true;
ok -> true
catch
error:_ ->
false
end.
simple_crypto_fun(Key) ->
fun(init) -> ok;
({debug_info, des3_cbc, crypt, _}) -> Key
end.
analyse(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(data_dir, Config)),
done = a:start(5),
{ok, {a,{17,2}}=ACovMod} = cover:analyse(a, coverage, module),
{ok, [{{a,exit_kalle,0},{1,0}},
{{a,loop,3},{5,1}},
{{a,pong,1},{1,0}},
{{a,start,1},{6,0}},
{{a,stop,1},{0,1}},
{{a,trycatch,1},{4,0}}]=ACovFunc} =
cover:analyse(a, coverage, function),
{ok, [{{a,exit_kalle,0,1},{1,0}},
{{a,loop,3,1},{3,1}},
{{a,loop,3,2},{2,0}},
{{a,pong,1,1},{1,0}},
{{a,start,1,1},{6,0}},
{{a,stop,1,1},{0,1}},
{{a,trycatch,1,1},{4,0}}]=ACovClause} =
cover:analyse(a, coverage, clause),
{ok, [{{a,9},{1,0}},
{{a,10},{1,0}},
{{a,11},{1,0}},
{{a,13},{1,0}},
{{a,14},{1,0}},
{{a,15},{1,0}},
{{a,21},{0,1}},
{{a,26},{1,0}},
{{a,31},{1,0}},
{{a,32},{1,0}},
{{a,34},{1,0}},
{{a,36},{0,1}},
{{a,39},{1,0}},
{{a,40},{1,0}},
{{a,44},{1,0}},
{{a,47},{1,0}},
{{a,49},{1,0}},
{{a,51},{1,0}},
{{a,55},{1,0}}]=ACovLine} = cover:analyse(a, coverage, line),
{ok, {a,15}=ACallsMod} = cover:analyse(a, calls, module),
{ok, [{{a,exit_kalle,0},1},
{{a,loop,3},6},
{{a,pong,1},5},
{{a,start,1},1},
{{a,stop,1},0},
{{a,trycatch,1},2}]=ACallsFunc} = cover:analyse(a, calls, function),
{ok, [{{a,exit_kalle,0,1},1},
{{a,loop,3,1},5},
{{a,loop,3,2},1},
{{a,pong,1,1},5},
{{a,start,1,1},1},
{{a,stop,1,1},0},
{{a,trycatch,1,1},2}]=ACallsClause} = cover:analyse(a, calls, clause),
{ok, [{{a,9},1},
{{a,10},1},
{{a,11},1},
{{a,13},1},
{{a,14},1},
{{a,15},1},
{{a,21},0},
{{a,26},5},
{{a,31},5},
{{a,32},5},
{{a,34},5},
{{a,36},0},
{{a,39},1},
{{a,40},1},
{{a,44},2},
{{a,47},1},
{{a,49},1},
{{a,51},2},
{{a,55},1}]=ACallsLine} = cover:analyse(a, calls, line),
{ok,ACovFunc} = cover:analyse(a),
{ok,ACovMod} = cover:analyse(a, module),
{ok,ACallsFunc} = cover:analyse(a, calls),
{ok, "a.COVER.out"} = cover:analyse_to_file(a),
{ok, "e.COVER.out"} = cover:analyse_to_file(e),
{ok, "a.COVER.html"} = cover:analyse_to_file(a,[html]),
{ok, "e.COVER.html"} = cover:analyse_to_file(e,[html]),
%% Analyse all modules
Modules = cover:modules(),
N = length(Modules),
{result,CovFunc,[]} = cover:analyse(), % default = coverage, function
ACovFunc = [A || {{a,_,_},_}=A<-CovFunc],
{result,CovMod,[]} = cover:analyse(coverage,module),
ACovMod = lists:keyfind(a,1,CovMod),
{result,CovClause,[]} = cover:analyse(coverage,clause),
ACovClause = [A || {{a,_,_,_},_}=A<-CovClause],
{result,CovLine,[]} = cover:analyse(coverage,line),
ACovLine = [A || {{a,_},_}=A<-CovLine],
{result,CallsFunc,[]} = cover:analyse(calls,function),
ACallsFunc = [A || {{a,_,_},_}=A<-CallsFunc],
{result,CallsMod,[]} = cover:analyse(calls,module),
ACallsMod = lists:keyfind(a,1,CallsMod),
{result,CallsClause,[]} = cover:analyse(calls,clause),
ACallsClause = [A || {{a,_,_,_},_}=A<-CallsClause],
{result,CallsLine,[]} = cover:analyse(calls,line),
ACallsLine = [A || {{a,_},_}=A<-CallsLine],
{result,AllToFile,[]} = cover:analyse_to_file(),
N = length(AllToFile),
true = lists:member("a.COVER.out",AllToFile),
{result,AllToFileHtml,[]} = cover:analyse_to_file([html]),
N = length(AllToFileHtml),
true = lists:member("a.COVER.html",AllToFileHtml),
%% Analyse list of modules
%% Listing all modules so we can compare result with above result
%% from analysing all.
{result,CovFunc1,[]} = cover:analyse(Modules), % default = coverage, function
true = lists:sort(CovFunc) == lists:sort(CovFunc1),
{result,CovMod1,[]} = cover:analyse(Modules,coverage,module),
true = lists:sort(CovMod) == lists:sort(CovMod1),
{result,CovClause1,[]} = cover:analyse(Modules,coverage,clause),
true = lists:sort(CovClause) == lists:sort(CovClause1),
{result,CovLine1,[]} = cover:analyse(Modules,coverage,line),
true = lists:sort(CovLine) == lists:sort(CovLine1),
{result,CallsFunc1,[]} = cover:analyse(Modules,calls,function),
true = lists:sort(CallsFunc1) == lists:sort(CallsFunc1),
{result,CallsMod1,[]} = cover:analyse(Modules,calls,module),
true = lists:sort(CallsMod) == lists:sort(CallsMod1),
{result,CallsClause1,[]} = cover:analyse(Modules,calls,clause),
true = lists:sort(CallsClause) == lists:sort(CallsClause1),
{result,CallsLine1,[]} = cover:analyse(Modules,calls,line),
true = lists:sort(CallsLine) == lists:sort(CallsLine1),
{result,AllToFile1,[]} = cover:analyse_to_file(Modules),
true = lists:sort(AllToFile) == lists:sort(AllToFile1),
{result,AllToFileHtml1,[]} = cover:analyse_to_file(Modules,[html]),
true = lists:sort(AllToFileHtml) == lists:sort(AllToFileHtml1),
%% analyse_to_file of file which is compiled from beam
{ok,f} = compile:file(f,[debug_info]),
code:purge(f),
{module,f} = code:load_file(f),
{ok,f} = cover:compile_beam(f),
f:f2(),
{ok, "f.COVER.out"} = cover:analyse_to_file(f),
%% Source code can be found via source
{ok,v} = compile:file("compile_beam/v",[debug_info]),
code:purge(v),
{module,v} = code:load_file(v),
{ok,v} = cover:compile_beam(v),
{ok,"v.COVER.out"} = cover:analyse_to_file(v),
%% Source code cannot be found
{ok,_} = file:copy("compile_beam/z.erl", "z.erl"),
{ok,z} = compile:file(z,[debug_info]),
code:purge(z),
{module,z} = code:load_file(z),
{ok,z} = cover:compile_beam(z),
ok = file:delete("z.erl"),
{error,{no_source_code_found,z}} = cover:analyse_to_file(z),
{result,[],[{no_source_code_found,z}]} = cover:analyse_to_file([z]),
code:purge(z),
code:delete(z),
{error,{not_cover_compiled,b}} = cover:analyse(b),
{error,{not_cover_compiled,g}} = cover:analyse(g),
{result,[],[{not_cover_compiled,b}]} = cover:analyse([b]),
{error,{not_cover_compiled,b}} = cover:analyse_to_file(b),
{error,{not_cover_compiled,g}} = cover:analyse_to_file(g),
{result,[],[{not_cover_compiled,g}]} = cover:analyse_to_file([g]).
misc(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(data_dir, Config)),
[a,cc,crypt,d,e,f,v] = lists:sort(cover:modules()),
{ok,cc} = compile:file(cc),
code:purge(cc),
{module,cc} = code:load_file(cc),
[a,crypt,d,e,f,v] = lists:sort(cover:modules()),
{file, _File} = cover:is_compiled(a),
false = cover:is_compiled(b),
false = cover:is_compiled(g),
ok = cover:reset(a),
{ok, {a,{0,19}}} = cover:analyse(a, module),
ok = cover:reset().
stop(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(data_dir, Config)),
cover_compiled = code:which(a),
{ok,d} = compile:file(d, [{d,'AGE',42}]),
code:purge(d),
{module,d} = code:load_file(d),
ok = cover:stop(),
Beam = code:which(a),
true = is_unloaded(Beam),
Files = lsfiles(),
remove(files(Files, ".out")),
remove(files(Files, ".html")),
remove(files(Files, ".beam")).
distribution(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
{ok,N1} = test_server:start_node(cover_SUITE_distribution1,slave,[]),
{ok,N2} = test_server:start_node(cover_SUITE_distribution2,slave,[]),
{ok,N3} = test_server:start_node(cover_SUITE_distribution3,slave,[]),
{ok,N4} = test_server:start_node(cover_SUITE_distribution4,slave,[]),
%% Check that an already compiled module is loaded on new nodes
{ok,f} = cover:compile(f),
{ok,[_,_,_,_]} = cover:start(nodes()),
cover_compiled = code:which(f),
cover_compiled = rpc:call(N1,code,which,[f]),
cover_compiled = rpc:call(N2,code,which,[f]),
cover_compiled = rpc:call(N3,code,which,[f]),
cover_compiled = rpc:call(N4,code,which,[f]),
%% Check that a node cannot be started twice
{ok,[]} = cover:start(N2),
%% Check that the current node (i.e. the main node) is not started with
%% start/1 and not stopped with stop/1
{ok,[]} = cover:start(node()),
ok = cover:stop(node()),
true = is_pid(whereis(cover_server)),
%% Check that a new compiled module is loaded on all existing nodes
compile:file("compile_beam/v",[debug_info]),
{ok,v} = cover:compile_beam(v),
cover_compiled = code:which(v),
cover_compiled = rpc:call(N1,code,which,[v]),
cover_compiled = rpc:call(N2,code,which,[v]),
cover_compiled = rpc:call(N3,code,which,[v]),
cover_compiled = rpc:call(N4,code,which,[v]),
%% this is lost when the node is killed
rpc:call(N3,f,f2,[]),
rpc:call(N3,erlang,halt,[]),
%% this should be visible in analyse
rpc:call(N1,f,f1,[]),
%% Check that data is collected from remote node when stopped
ok = cover:stop(N1),
N1Beam = rpc:call(N1,code,which,[f]),
true = is_unloaded(N1Beam),
check_f_calls(1,0),
%% Call f:f1() again on another node and check that number of calls is
%% accumulated.
f:f1(),
check_f_calls(2,0),
%% Check that reset works on all nodes
f:f1(),
rpc:call(N2,f,f1,[]),
ok = cover:reset(f),
check_f_calls(0,0),
%% Check that data is collected from all nodes
rpc:call(N2,f,f1,[]),
f:f2(),
check_f_calls(1,1),
%% Check that same data is not fetched again (i.e. that analyse does
%% reset on the remote node(s))
check_f_calls(1,1),
%% Another checn that data is not fetched twice, i.e. when flushed
%% then analyse should not add the same data again.
rpc:call(N4,f,f2,[]),
ok = cover:flush(N4),
check_f_calls(1,2),
%% Check that flush collects data so calls are not lost if node is killed
rpc:call(N4,f,f2,[]),
ok = cover:flush(N4),
rpc:call(N4,erlang,halt,[]),
check_f_calls(1,3),
%% Check that stop() unloads on all nodes
ok = cover:stop(),
timer:sleep(100), %% Give nodes time to unload on slow machines.
LocalBeam = code:which(f),
N2Beam = rpc:call(N2,code,which,[f]),
true = is_unloaded(LocalBeam),
true = is_unloaded(N2Beam),
%% Check that cover_server on remote node does not die if main node dies
{ok,[N1]} = cover:start(N1),
true = is_pid(N1Server = rpc:call(N1,erlang,whereis,[cover_server])),
exit(whereis(cover_server),kill),
timer:sleep(100),
N1Server = rpc:call(N1,erlang,whereis,[cover_server]),
%% Cleanup
Files = lsfiles(),
remove(files(Files, ".beam")),
test_server:stop_node(N1),
test_server:stop_node(N2).
%% Test that a lost node is reconnected
reconnect(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
{ok,a} = compile:file(a),
{ok,b} = compile:file(b),
{ok,f} = compile:file(f),
{ok,N1} = test_server:start_node(cover_SUITE_reconnect,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
{ok,a} = cover:compile(a),
{ok,f} = cover:compile(f),
{ok,[N1]} = cover:start(nodes()),
%% Some calls to check later
rpc:call(N1,f,f1,[]),
cover:flush(N1),
rpc:call(N1,f,f1,[]),
%% This will cause first casue the N1 node to initiate a
%% disconnect and then call f:f2() when nodes() =:= [] on N1.
rpc:cast(N1,f,call_f2_when_isolated,[]),
timer:sleep(500), % allow some to detect disconnect and for f:f2() call
cover_which_nodes([]),
%% Do some add one module (b) and remove one module (a)
code:purge(a),
{module,a} = code:load_file(a),
{ok,b} = cover:compile(b),
cover_compiled = code:which(b),
cover_which_nodes([]),
check_f_calls(1,0), % only the first call - before the flush
%% Reconnect the node and check that b and f are cover compiled but not a
net_kernel:connect_node(N1),
timer:sleep(100),
[N1] = cover:which_nodes(), % we are reconnected
cover_compiled = rpc:call(N1,code,which,[b]),
cover_compiled = rpc:call(N1,code,which,[f]),
ABeam = rpc:call(N1,code,which,[a]),
false = (cover_compiled==ABeam),
%% Ensure that we have:
%% * one f1 call from before the flush,
%% * one f1 call from after the flush but before disconnect
%% * one f2 call when disconnected
check_f_calls(2,1),
cover:stop(),
test_server:stop_node(N1),
ok.
%% Test that a lost node is reconnected - also if it has been dead
die_and_reconnect(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
{ok,f} = compile:file(f),
NodeName = cover_SUITE_die_and_reconnect,
{ok,N1} = test_server:start_node(NodeName,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
%% {ok,a} = cover:compile(a),
{ok,f} = cover:compile(f),
{ok,[N1]} = cover:start(nodes()),
%% Some calls to check later
rpc:call(N1,f,f1,[]),
cover:flush(N1),
rpc:call(N1,f,f1,[]),
%% Kill the node
rpc:call(N1,erlang,halt,[]),
cover_which_nodes([]),
check_f_calls(1,0), % only the first call - before the flush
%% Restart the node and check that cover reconnects
{ok,N1} = test_server:start_node(NodeName,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
timer:sleep(100),
[N1] = cover:which_nodes(), % we are reconnected
cover_compiled = rpc:call(N1,code,which,[f]),
%% One more call...
rpc:call(N1,f,f1,[]),
%% Ensure that no more calls are counted
check_f_calls(2,0),
cover:stop(),
test_server:stop_node(N1),
ok.
%% Test that a stopped node is not marked as lost, i.e. that it is not
%% reconnected if it is restarted (OTP-10638)
dont_reconnect_after_stop(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
{ok,f} = compile:file(f),
NodeName = cover_SUITE_dont_reconnect_after_stop,
{ok,N1} = test_server:start_node(NodeName,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
{ok,f} = cover:compile(f),
{ok,[N1]} = cover:start(nodes()),
%% A call to check later
rpc:call(N1,f,f1,[]),
%% Stop cover on the node, then terminate the node
cover:stop(N1),
rpc:call(N1,erlang,halt,[]),
cover_which_nodes([]),
check_f_calls(1,0),
%% Restart the node and check that cover does not reconnect
{ok,N1} = test_server:start_node(NodeName,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
timer:sleep(300),
cover_which_nodes([]),
Beam = rpc:call(N1,code,which,[f]),
false = (Beam==cover_compiled),
%% One more call...
rpc:call(N1,f,f1,[]),
cover:flush(N1),
%% Ensure that the last call is not counted
check_f_calls(1,0),
cover:stop(),
test_server:stop_node(N1),
ok.
%% Test that a node which is stopped while it is marked as lost is not
%% reconnected if it is restarted (OTP-10638)
stop_node_after_disconnect(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
{ok,f} = compile:file(f),
NodeName = cover_SUITE_stop_node_after_disconnect,
{ok,N1} = test_server:start_node(NodeName,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
{ok,f} = cover:compile(f),
{ok,[N1]} = cover:start(nodes()),
%% A call to check later
rpc:call(N1,f,f1,[]),
%% Flush the node, then terminate the node to make it marked as lost
cover:flush(N1),
rpc:call(N1,erlang,halt,[]),
check_f_calls(1,0),
%% Stop cover on node
cover:stop(N1),
%% Restart the node and check that cover does not reconnect
{ok,N1} = test_server:start_node(NodeName,peer,
[{args," -pa " ++ DataDir},
{start_cover,false}]),
timer:sleep(300),
cover_which_nodes([]),
Beam = rpc:call(N1,code,which,[f]),
false = (Beam==cover_compiled),
%% One more call...
rpc:call(N1,f,f1,[]),
cover:flush(N1),
%% Ensure that the last call is not counted
check_f_calls(1,0),
cover:stop(),
test_server:stop_node(N1),
ok.
distribution_performance(Config) ->
PrivDir = proplists:get_value(priv_dir,Config),
Dir = filename:join(PrivDir,"distribution_performance"),
AllFiles = filename:join(Dir,"*"),
ok = filelib:ensure_dir(AllFiles),
code:add_patha(Dir),
M = 9, % Generate M modules
F = 210, % with F functions
C = 10, % and each function of C clauses
Mods = generate_modules(M,F,C,Dir),
% test_server:break(""),
NodeName = cover_SUITE_distribution_performance,
{ok,N1} = test_server:start_node(NodeName,peer,[{start_cover,false}]),
%% CFun = fun() ->
%% [{ok,_} = cover:compile_beam(Mod) || Mod <- Mods]
%% end,
CFun = fun() -> cover:compile_beam(Mods) end,
{CT,_CA} = timer:tc(CFun),
% erlang:display(_CA),
erlang:display({compile,CT}),
{SNT,_} = timer:tc(fun() -> {ok,[N1]} = cover:start(nodes()) end),
erlang:display({start_node,SNT}),
[1 = rpc:call(N1,Mod,f1,[1]) || Mod <- Mods],
% Fun = fun() -> [cover:analyse(Mod,calls,function) || Mod<-Mods] end,
% Fun = fun() -> analyse_all(Mods,calls,function) end,
% Fun = fun() -> cover:analyse('_',calls,function) end,
Fun = fun() -> cover:analyse(Mods,calls,function) end,
% Fun = fun() -> [begin cover:analyse_to_file(Mod,[html]) end || Mod<-Mods] end,
% Fun = fun() -> analyse_all_to_file(Mods,[html]) end,
% Fun = fun() -> cover:analyse_to_file(Mods,[html]) end,
% Fun = fun() -> cover:analyse_to_file([html]) end,
% Fun = fun() -> cover:reset() end,
{AT,_A} = timer:tc(Fun),
erlang:display({analyse,AT}),
% erlang:display(lists:sort([X || X={_MFA,N} <- lists:append([L || {ok,L}<-A]), N=/=0])),
%% fprof:apply(Fun, [],[{procs,[whereis(cover_server)]}]),
%% fprof:profile(),
%% fprof:analyse(dest,[]),
{SNT2,_} = timer:tc(fun() -> test_server:stop_node(N1) end),
erlang:display({stop_node,SNT2}),
code:del_path(Dir),
Files = filelib:wildcard(AllFiles),
[ok = file:delete(File) || File <- Files],
ok = file:del_dir(Dir),
ok.
%% Run analysis in parallel
analyse_all(Mods,Analysis,Level) ->
Pids = [begin
Pid = spawn(fun() ->
{ok,A} = cover:analyse(Mod,Analysis,Level),
exit(A)
end),
erlang:monitor(process,Pid),
Pid
end || Mod <- Mods],
get_downs(Pids,[]).
analyse_all_to_file(Mods,Opts) ->
Pids = [begin
Pid = cover:async_analyse_to_file(Mod,Opts),
erlang:monitor(process,Pid),
Pid
end || Mod <- Mods],
get_downs(Pids,[]).
get_downs([],Acc) ->
Acc;
get_downs(Pids,Acc) ->
receive
{'DOWN', _Ref, _Type, Pid, A} ->
get_downs(lists:delete(Pid,Pids),[A|Acc])
end.
generate_modules(0,_,_,_) ->
[];
generate_modules(M,F,C,Dir) ->
ModStr = "m" ++ integer_to_list(M),
Mod = list_to_atom(ModStr),
Src = ["-module(",ModStr,").\n"
"-compile(export_all).\n" |
generate_functions(F,C)],
Erl = filename:join(Dir,ModStr++".erl"),
ok = file:write_file(Erl,Src),
{ok,Mod} = compile:file(Erl,[{outdir,Dir},debug_info,report]),
[Mod | generate_modules(M-1,F,C,Dir)].
generate_functions(0,_) ->
[];
generate_functions(F,C) ->
Func = "f" ++ integer_to_list(F),
[generate_clauses(C,Func) | generate_functions(F-1,C)].
generate_clauses(0,_) ->
[];
generate_clauses(C,Func) ->
CStr = integer_to_list(C),
Sep = if C==1 -> "."; true -> ";" end,
[Func,"(",CStr,") -> ",CStr,Sep,"\n" |
generate_clauses(C-1,Func)].
export_import(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
PortCount = length(erlang:ports()),
%% Export one module
{ok,f} = cover:compile(f),
f:f1(),
%% check that no info is written about where data comes from when no
%% files are imported
test_server:capture_start(),
check_f_calls(1,0),
[] = test_server:capture_get(),
test_server:capture_stop(),
ok = cover:export("f_exported",f),
check_f_calls(1,0),
ok = cover:stop(),
%% Check that same data exists after import and that info is written about
%% data comming from imported file
ok = cover:import("f_exported"),
test_server:capture_start(),
check_f_calls(1,0),
[Text1] = test_server:capture_get(),
"Analysis includes data from imported files"++_ = lists:flatten(Text1),
test_server:capture_stop(),
%% Export all modules
{ok,a} = cover:compile(a),
test_server:capture_start(),
ok = cover:export("all_exported"),
[] = test_server:capture_get(),
% "Export includes data from imported files"++_ = lists:flatten(Text2),
test_server:capture_stop(),
ok = cover:stop(),
ok = cover:import("all_exported"),
check_f_calls(1,0),
%% Check that data is reset when module is compiled again, and that
%% warning is written when data is deleted for imported module.
test_server:capture_start(),
{ok,f} = cover:compile(f),
timer:sleep(10), % capture needs some time
[Text3] = test_server:capture_get(),
"WARNING: Deleting data for module f imported from" ++ _ = lists:flatten(Text3),
test_server:capture_stop(),
check_f_calls(0,0),
%% Check that data is summed up when first compiled and then imported
%% The module which has been compiled (f) is loaded from the file
%% all_exported again (since it has been reset during cover compiling),
%% but the other module (a) is not loaded since it is already loaded
f:f1(),
f:f2(),
ok = cover:import("f_exported"),
test_server:capture_start(),
ok = cover:import("all_exported"),
[Text4] = test_server:capture_get(), % a is not loaded again
"WARNING: Module a already imported from " ++ _ = lists:flatten(Text4),
test_server:capture_stop(),
check_f_calls(3,1),
%% Check that warning is written when same file is imported twice,
%% and that data is not imported again
test_server:capture_start(),
ok = cover:import("all_exported"),
[Text5,Text6] = test_server:capture_get(),
"WARNING: Module f already imported from " ++ _ = lists:flatten(Text5),
"WARNING: Module a already imported from " ++ _ = lists:flatten(Text6),
test_server:capture_stop(),
check_f_calls(3,1),
%% Check that reset removes all data and that the file which has been
%% reset can be imported again with no warning
cover:reset(f),
check_f_calls(0,0),
test_server:capture_start(),
ok = cover:import("all_exported"),
[Text7] = test_server:capture_get(), % warning only on mod a
"WARNING: Module a already imported from " ++ _ = lists:flatten(Text7),
test_server:capture_stop(),
check_f_calls(1,0),
%% same as above - only reset all
cover:reset(),
check_f_calls(0,0),
test_server:capture_start(),
ok = cover:import("all_exported"),
[] = test_server:capture_get(), % no warnings
test_server:capture_stop(),
check_f_calls(1,0),
%% Check no raw files are left open
PortCount = length(erlang:ports()),
%% Cleanup
ok = cover:stop(),
Files = lsfiles(),
remove(["f_exported","all_exported"|files(Files, ".beam")]).
otp_5031(Config) when is_list(Config) ->
ct:timetrap({seconds, 10}),
{ok,N1} = test_server:start_node(cover_SUITE_otp_5031,slave,[]),
{ok,[N1]} = cover:start(N1),
{error,not_main_node} = rpc:call(N1,cover,modules,[]),
cover:stop(),
test_server:stop_node(N1),
ok.
%% Test the \'Exclude Included Functions\' functionality
eif(Config) when is_list(Config) ->
ok = file:set_cwd(filename:join(proplists:get_value(data_dir, Config),
"included_functions")),
{ok, cover_inc} = compile:file(cover_inc,[debug_info]),
{ok, cover_inc} = cover:compile_beam(cover_inc),
%% This function will cause an included function to be executed.
%% The analysis should only show the lines that actually exist
%% in cover_inc.beam - not the ones from the included file.
cover_inc:func(),
{ok, [_, _]} = cover:analyse(cover_inc, line),
ok.
otp_5305(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(priv_dir, Config)),
File = "t.erl",
Test = <<"-module(t).
-export([t/0]).
-include_lib(\"stdlib/include/ms_transform.hrl\").
t() ->
ets:fun2ms(fun(X) -> X end).
">>,
ok = file:write_file(File, Test),
{ok, t} = cover:compile(File),
ok = file:delete(File),
ok.
otp_5418(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(priv_dir, Config)),
File = "t.erl",
Test = <<"-module(t).
">>,
ok = file:write_file(File, Test),
{ok, t} = cover:compile(File),
{ok,{t,{0,0}}} = cover:analyse(t, module),
ok = file:delete(File),
ok.
otp_6115(Config) when is_list(Config) ->
{ok, CWD} = file:get_cwd(),
Dir = filename:join(proplists:get_value(data_dir, Config), otp_6115),
ok = file:set_cwd(Dir),
{ok, f1} = compile:file(f1, [debug_info]),
{ok, f2} = compile:file(f2, [debug_info]),
%% Cover compile f1, but not f2
{ok, f1} = cover:compile(f1),
%% This test used to ensure that a process containing a
%% fun refering to cover compiled code was killed.
%% check_process_code may however ignore funs as of ERTS
%% version 8.1. The test has therefore been rewritten to
%% check that a process with a direct reference (in this
%% case a return address) to the code is killed.
%%
%% If f1 is cover compiled, a process P is started with a
%% direct reference to the f1, and cover:stop() is called,
%% then P should be killed.
%% This is because of the return address to the cover
%% compiled code which should be *unloaded* when cover:stop() is
%% called -- running cover compiled code when there is no cover
%% server and thus no ets tables to bump counters in, makes no
%% sense.
Pid = spawn(fun () -> f1:non_tail_call_f2_wait() end),
%% Now stop cover
cover:stop(),
%% Ensure that f1 is loaded (and not cover compiled), and that
%% both Pid is dead.
case code:which(f1) of
Beam when is_list(Beam) ->
ok;
Other ->
ct:fail({"f1 is not reloaded", Other})
end,
case process_info(Pid) of
undefined ->
ok;
_PI ->
RefToOldP = erlang:check_process_code(Pid, f1),
ct:fail({"Pid still alive", RefToOldP})
end,
file:set_cwd(CWD),
ok.
%% andalso/orelse
otp_7095(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(priv_dir, Config)),
File = "t.erl",
Test = <<"-module(t).
-export([t/0]).
t() ->
t1(),
t2(),
t3(),
t4(),
t5(),
put(t6, 0),
0 = t6(),
1 = erase(t6),
t7(),
put(t8, 0),
{'EXIT',{{badarg,0},_}} = (catch t8()),
1 = erase(t8),
t9(),
ok.
t1() ->
false % 20
andalso
true. % 22
t2() ->
true % 25
andalso
true. % 27
t3() ->
false % 30
orelse
true. % 32
t4() ->
true % 35
orelse
true. % 37
t5() ->
true % 40
andalso
true % 42
andalso
false. % 44
t6() ->
true andalso % 47
add_one(t6). % 48
t7() ->
true % 51
andalso
false % 53
andalso
not_ok. % 55
t8() ->
true % 58
andalso
true % 60
andalso
add_one(t8) % 62
andalso
false. % 64
t9() ->
if % 67
true ->
true % 69
andalso
false % 71
end
orelse
case ok of % 74
true ->
a; % 76
_ ->
true % 78
end.
add_one(T) ->
put(T, get(T) + 1). % 82
">>,
ok = file:write_file(File, Test),
{ok, t} = cover:compile(File),
ok = t:t(),
{ok,[{{t,4},1},{{t,5},1},{{t,6},1},{{t,7},1},{{t,8},1},{{t,9},1},
{{t,10},1},{{t,11},1},{{t,12},1},{{t,13},1},{{t,14},1},
{{t,15},1},{{t,16},1},{{t,17},1},
{{t,20},1},{{t,22},0},
{{t,25},1},{{t,27},1},
{{t,30},1},{{t,32},1},
{{t,35},1},{{t,37},0},
{{t,40},1},{{t,42},1},{{t,44},1},
{{t,47},1},{{t,48},1},
{{t,51},1},{{t,53},1},{{t,55},0},
{{t,58},1},{{t,60},1},{{t,62},1},{{t,64},0},
{{t,67},1},{{t,69},1},{{t,71},1},{{t,74},1},
{{t,76},0},{{t,78},1},
{{t,82},2}]} = cover:analyse(t, calls, line),
ok = file:delete(File),
ok.
%% OTP-8270. Bug.
otp_8270(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
ok = file:set_cwd(DataDir),
PrivDir = proplists:get_value(priv_dir, Config),
As = [{args," -pa " ++ PrivDir}],
{ok,N1} = test_server:start_node(cover_n1,slave,As),
{ok,N2} = test_server:start_node(cover_n2,slave,As),
{ok,N3} = test_server:start_node(cover_n3,slave,As),
timer:sleep(500),
{ok,[_,_,_]} = cover:start(nodes()),
Test = <<"-module(m).\n"
"-compile(export_all).\n"
"t() -> t(0).\n"
"l() ->\n"
" catch ets:tab2list(cover_internal_data_table).\n"
"t(Sz) ->\n"
" case ets:info(cover_internal_data_table, size) of\n"
" Sz ->\n"
" m:t(Sz); % Not a local call! Newly loaded code is entered.\n"
" NSz ->\n"
" % error_logger:info_msg(\"~p: ~p ~p change~n L1 ~p~n\", \n"
" % [node(), Sz, NSz, l()]),\n"
" m:t(NSz)\n"
" end.\n">>,
_File = c_mod(m, Test, Config),
Fun = fun m:t/0,
Pid1 = spawn(Fun),
Pid2 = spawn(N1, Fun),
Pid3 = spawn(N2, Fun),
Pid4 = spawn(N3, Fun),
{ok, m} = cover:compile_beam(m),
timer:sleep(1000),
Info = erlang:process_info(Pid1),
N1_info = rpc:call(N1, erlang, process_info, [Pid2]),
N2_info = rpc:call(N2, erlang, process_info, [Pid3]),
N3_info = rpc:call(N3, erlang, process_info, [Pid4]),
true = is_list(Info),
{N1,true} = {N1,is_list(N1_info)},
{N2,true} = {N2,is_list(N2_info)},
{N3,true} = {N3,is_list(N3_info)},
exit(Pid1,kill),
test_server:stop_node(N1),
test_server:stop_node(N2),
test_server:stop_node(N3),
ok.
%% OTP-8273. Bug.
otp_8273(Config) when is_list(Config) ->
Test = <<"-module(t).
-export([t/0]).
t() ->
foo = true andalso foo,
bar = false orelse bar,
ok.
">>,
File = cc_mod(t, Test, Config),
ok = t:t(),
ok = file:delete(File),
ok.
%% OTP-8340. Bug.
otp_8340(Config) when is_list(Config) ->
[{{t,1},1},{{t,2},1},{{t,4},1}] =
analyse_expr(<<"<< \n"
" <<3:2, \n"
" SeqId:62>> \n"
" || SeqId <- [64] >>">>, Config),
ok.
%% Clauses on the same line.
otp_8188(Config) when is_list(Config) ->
%% This example covers the bug report:
Test = <<"-module(t).
-export([test/1]).
-define(FOOBAR(X),
case X of
ok -> true;
_ -> false
end).
test(X)->
_Res =
?FOOBAR(X).
">>,
File = cc_mod(t, Test, Config),
false = t:test(nok),
{ok,[{{t,11},1},{{t,12},1}]} = cover:analyse(t, calls, line),
ok = file:delete(File),
%% Bit string comprehensions are now traversed;
%% the handling of list comprehensions has been improved:
comprehension_8188(Config),
%% Variants of the reported bug:
bug_8188(Config),
ok.
bug_8188(Cf) ->
[{{t,1},1},{{t,2},1},{{t,3},1}] =
analyse_expr(<<"A = 3,\n" % 1
" case A of\n" % 1
" 2 -> two; 3 -> three end, A + 2">>, % 1
Cf),
[{{t,1},1},
{{t,2},0},
{{t,3},1},
{{t,4},1},
{{t,5},1},
{{t,6},0},
{{t,7},1},
{{t,9},2}] =
analyse_expr(<<"case two() of\n" % 1
" 1 -> 2;\n" % 0
" _ -> begin 3 end\n" % 1
" +\n" % 1
" begin 4 end end, case two() of\n" % 1
" 1 -> a;\n" % 0
" 2 -> b; 3 -> c\n" % 1
" end.\n"
"two() -> 2">>, Cf), % 2
[{{t,1},1}, {{t,2},1}, {{t,3},1},
{{t,4},1}, {{t,5},1}, {{t,6},0}] =
analyse_expr(<<" self() ! 1,\n"
" receive \n"
" X=1 -> a;\n"
" X=2 -> b end, case X of \n"
" 1 -> a;\n"
" 2 -> b\n"
" end">>, Cf),
T0 = <<"t1(X) ->\n "
"case X of\n"
" 1 -> A=a,B=A,B; % bump Li\n"
" 2 -> b; 3 -> case X of % 2 -> b shall bump Li\n"
" 3 -> a; % bump Li\n"
" 2 -> b end; 4 -> d end, case X of % Li\n"
" 1 -> a;\n"
" 2 -> b; 3 -> c;\n"
" 4 -> d\n"
" end">>,
T1 = [<<"a = t1(1). ">>,T0],
[{{t,1},1}, {{t,2},1}, {{t,3},1}, {{t,4},0},
{{t,5},0}, {{t,6},1}, {{t,7},1}, {{t,8},0}, {{t,9},0}] =
analyse_expr(T1, Cf),
T2 = [<<"b = t1(2). ">>,T0],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},1},
{{t,5},0}, {{t,6},1}, {{t,7},0}, {{t,8},1}, {{t,9},0}] =
analyse_expr(T2, Cf),
T3 = [<<"c = t1(3). ">>,T0],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},1},
{{t,5},1}, {{t,6},1}, {{t,7},0}, {{t,8},1}, {{t,9},0}] =
analyse_expr(T3, Cf),
T4 = [<<"d = t1(4). ">>,T0],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},0},
{{t,5},0}, {{t,6},1}, {{t,7},0}, {{t,8},0}, {{t,9},1}] =
analyse_expr(T4, Cf),
[{{t,1},1},{{t,2},1},{{t,3},1},{{t,4},1},{{t,5},1}] =
analyse_expr(
<<"2 = x3(1). "
"x3(X) ->\n"
" case X of \n"
" 1 -> case X of\n"
" 1 -> a, Y = 2;\n"
" 2 -> b, Y = 3 end, Y; 2 -> Y = 4 end, Y">>, Cf),
[{{t,1},1},{{t,2},1},{{t,3},1},{{t,4},1}] =
analyse_expr(
<<"1 = x4(1). "
"x4(X) ->\n"
" case X of\n"
" 1 -> case X of\n"
" 1 -> Y = 1 end, case X of 1 -> Y = 1 end, Y end">>,
Cf),
T10 = <<"t1(X) ->\n"
"if\n"
" X =:= 1 -> a;\n"
" X =:= 2 -> b; X =:= 3 -> c end, case X of \n"
" 1 -> a;\n"
" 2 -> b; 3 -> c end, case X of\n"
" 1 -> a;\n"
" 2 -> b; 3 -> c\n"
" end">>,
T11 = [<<"a = t1(1). ">>,T10],
[{{t,1},1}, {{t,2},1}, {{t,3},1}, {{t,4},1},
{{t,5},1}, {{t,6},1}, {{t,7},1}, {{t,8},0}] = analyse_expr(T11, Cf),
T12 = [<<"b = t1(2). ">>,T10],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},1},
{{t,5},0}, {{t,6},1}, {{t,7},0}, {{t,8},1}] = analyse_expr(T12, Cf),
T13 = [<<"c = t1(3). ">>,T10],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},1},
{{t,5},0}, {{t,6},1}, {{t,7},0}, {{t,8},1}] = analyse_expr(T13, Cf),
T20 = <<"t1(X) ->\n"
"case X of\n"
" 1 -> a;\n"
" 2 -> b; 3 -> case X of\n"
" 1 -> a;\n"
" 2 -> b; 3 -> c end end, case X of\n"
" 1 -> a;\n"
" 2 -> b; 3 -> c\n"
" end">>,
T21 = [<<"a = t1(1). ">>,T20],
[{{t,1},1}, {{t,2},1}, {{t,3},1}, {{t,4},0},
{{t,5},0}, {{t,6},1}, {{t,7},1}, {{t,8},0}] = analyse_expr(T21, Cf),
T22 = [<<"b = t1(2). ">>,T20],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},1},
{{t,5},0}, {{t,6},1}, {{t,7},0}, {{t,8},1}] = analyse_expr(T22, Cf),
T23 = [<<"c = t1(3). ">>,T20],
[{{t,1},1}, {{t,2},1}, {{t,3},0}, {{t,4},1},
{{t,5},0}, {{t,6},1}, {{t,7},0}, {{t,8},1}] = analyse_expr(T23, Cf),
T30 = <<
"t1(X) ->\n"
"case X of\n"
" 1 -> a;\n"
" 2 -> b; 3 -> case X of 1 -> a; 2 -> b; 3 -> c end end, case X of\n"
" 1 -> a;\n"
" 2 -> b; 3 -> c\n"
" end\n">>,
T31 = [<<"a = t1(1). ">>,T30],
[{{t,1},1}, {{t,2},1}, {{t,3},1},
{{t,4},1}, {{t,5},1}, {{t,6},0}] = analyse_expr(T31, Cf),
T32 = [<<"b = t1(2). ">>,T30],
[{{t,1},1}, {{t,2},1}, {{t,3},0},
{{t,4},1}, {{t,5},0}, {{t,6},1}] = analyse_expr(T32, Cf),
T33 = [<<"c = t1(3). ">>,T30],
[{{t,1},1}, {{t,2},1}, {{t,3},0},
{{t,4},1}, {{t,5},0}, {{t,6},1}] = analyse_expr(T33, Cf),
%% 'try' now traverses the body as a body...
[{{t,1},1},{{t,2},1},{{t,3},1},{{t,4},0},{{t,6},1}] =
analyse_expr(<<"try \n"
" B = 2, \n"
" C = erlang:error(foo), \n"
" {B,C} \n"
"catch _:_ -> \n"
" foo \n"
"end">>, Cf),
%% receive after:
[{{t,1},1},{{t,2},0},{{t,3},1}] =
analyse_expr(<<"receive \n"
" X=1 -> a; \n"
" X=2 -> b after begin 10 end -> X=3 end">>, Cf),
[{{t,1},1},{{t,2},0},{{t,3},1}] =
analyse_expr(<<"receive \n"
" X=1 -> a; \n"
" X=2 -> b after 10 -> begin X=3 end end">>, Cf),
ok.
comprehension_8188(Cf) ->
[{{t,1},1}] = analyse_expr(<<"[begin X end || X <- [1,2,3], X > 1]">>, Cf),
[{{t,1},1},{{t,2},1}] = analyse_expr(<<"[begin X end || \n"
" X <- [1,2,3], X > 1]">>, Cf),
[{{t,1},1},{{t,2},1},{{t,3},3}] = analyse_expr(<<"[begin X end || \n "
" X <- [1,2,3], \n "
" X > 1]">>, Cf),
[{{t,1},1},{{t,3},1},{{t,4},3}] = analyse_expr(<<"[begin X end || \n "
" X <- \n "
" [1,2,3], \n "
" X > 1]">>, Cf),
[{{t,1},1},{{t,2},2}] = analyse_expr(<<"[ \n "
" X || X <- [1,2,3], X > 1]">>, Cf),
[{{t,1},1},{{t,2},2},{{t,3},3}] = analyse_expr(<<"[ \n"
" X || X <- [1,2,3], \n"
" X > 1]">>, Cf),
[{{t,1},1},{{t,2},1},{{t,3},2}] = analyse_expr(<<"[ \n "
" X || X <- [1,2,3], X > 1, \n"
" X > 2]">>, Cf),
[{{t,1},1},
{{t,3},2},
{{t,5},1},
{{t,7},1},
{{t,8},0},
{{t,12},3},
{{t,15},2},
{{t,17},2},
{{t,18},1}] = analyse_expr(<<"[ \n" % 1
" begin\n"
" X * 2\n" % 2
" end ||\n"
" X <- [1,\n" % 1
" case two() of\n"
" 2 -> 2;\n" % 1
" _ -> two\n" % 0
" end,\n"
" 3],\n"
" begin\n"
" math:sqrt(X) > 1.0\n" % 3
" end,\n"
" begin\n"
" true\n" % 2
" end,\n"
" true]. \n" % 2
" two() -> 2">>, Cf), % 1
[{{t,1},1},
{{t,2},2},
{{t,3},1},
{{t,5},1},
{{t,6},0},
{{t,9},3},
{{t,10},2},
{{t,11},2},
{{t,12},1}] = analyse_expr(<<"[ \n"
" X * 2 || \n" % 2
" X <- [1,\n" % 1
" case two() of\n"
" 2 -> 2;\n" % 1
" _ -> two\n" % 0
" end,\n"
" 3],\n"
" math:sqrt(X) > 1.0,\n" % 3
" true,\n" % 2
" true]. \n" % 2
" two() -> 2">>, Cf), % 1
[{{t,1},1},
{{t,2},2},
{{t,3},1},
{{t,4},1},
{{t,5},0},
{{t,8},1},
{{t,9},0},
{{t,12},3},
{{t,13},2},
{{t,14},2}] = analyse_expr(<<"<< \n" % 1
" << (X*2) >> || \n" % 2
" <<X>> <= << (case two() of\n"
" 2 -> 1;\n" % 1
" _ -> 2\n" % 0
" end)/integer,\n"
" (case two() of \n"
" 2 -> 2;\n" % 1
" _ -> two\n" % 0
" end)/integer,\n"
" 3 >>, \n"
" math:sqrt(X) > 1.0,\n" % 3
" true >>.\n" % 2
"two() -> 2">>, Cf),
[{{t,1},1},
{{t,2},4},
{{t,4},1},
{{t,6},1},
{{t,7},0},
{{t,10},3},
{{t,11},2},
{{t,12},4},
{{t,13},1}] = analyse_expr(<<"<< \n" % 1
" << (2)\n" % 4
" :(8) >> || \n"
" <<X>> <= << 1,\n" % 1
" (case two() of \n"
" 2 -> 2;\n" % 1
" _ -> two\n" % 0
" end)/integer,\n"
" 3 >>, \n"
" math:sqrt(X) > 1.0,\n" % 3
" <<_>> <= << 1, 2 >>,\n" % 2
" true >>.\n" % 4
"two() -> 2">>, Cf), % 1
ok.
eep37(Config) when is_list(Config) ->
[{{t,1},1},{{t,2},1},{{t,4},6},{{t,6},1},{{t,8},1}] =
analyse_expr(<<"begin\n" % 1
" F =\n" % 1
" fun Fact(N) when N > 0 ->\n"
" N * Fact(N - 1);\n" % 6
" Fact(0) ->\n"
" 1\n" % 1
" end,\n"
" F(6)\n" % 1
"end\n">>,
Config),
ok.
otp_10979_hanging_node(_Config) ->
P1 = processes(),
cover:stop(non_existing_node),
cover:stop(),
P2 = processes(),
case P2--P1 of
[] ->
ok;
New ->
[io:format("New: ~p, ~p~n",[P,process_info(P)]) || P<-New],
ct:fail(hanging_process)
end,
ok.
otp_14817(Config) when is_list(Config) ->
Test = <<"-module(otp_14817).
-export([a/0, b/0, c/0, d/0]).
a() -> ok. b() -> ok. c() -> ok.
d() -> ok.
">>,
File = cc_mod(otp_14817, Test, Config),
ok = otp_14817:a(),
ok = otp_14817:b(),
ok = otp_14817:c(),
ok = otp_14817:d(),
{ok,[{{otp_14817,3},1},
{{otp_14817,3},1},
{{otp_14817,3},1},
{{otp_14817,4},1}]} =
cover:analyse(otp_14817, calls, line),
{ok, CovOut} = cover:analyse_to_file(otp_14817),
{ok, Bin} = file:read_file(CovOut),
<<"3..|",_/binary>> = string:find(Bin, "3..|"),
<<"1..|",_/binary>> = string:find(Bin, "1..|"),
ok = file:delete(File),
ok = file:delete(CovOut),
ok.
%% Take compiler options from beam in cover:compile_beam
compile_beam_opts(Config) when is_list(Config) ->
{ok, Cwd} = file:get_cwd(),
ok = file:set_cwd(proplists:get_value(priv_dir, Config)),
IncDir = filename:join(proplists:get_value(data_dir, Config),
"included_functions"),
File = filename:join([proplists:get_value(data_dir, Config), "otp_11439", "t.erl"]),
%% use all compiler options allowed by cover:filter_options
%% i and d don't make sense when compiling from beam though
{ok, t} =
compile:file(File, [{i, IncDir},
{d, 'BOOL'},
{d, 'MACRO', macro_defined},
export_all,
debug_info,
return_errors]),
code:purge(t),
code:delete(t),
Exports =
[{func1,0},
{macro, 0},
{exported,0},
{nonexported,0},
{module_info,0},
{module_info,1}],
Exports = t:module_info(exports),
{ok, t} = cover:compile_beam("t"),
Exports = t:module_info(exports),
ok = file:delete("t.beam"),
ok = file:set_cwd(Cwd),
ok.
%% Don't crash if beam is not available
analyse_no_beam(Config) when is_list(Config) ->
{ok, Cwd} = file:get_cwd(),
ok = file:set_cwd(proplists:get_value(data_dir, Config)),
code:purge(t),
code:delete(t),
{ok,_} = file:copy("compile_beam/t.erl", "t.erl"),
{ok,t} = compile:file(t, [debug_info]),
{module,t} = code:load_file(t),
{ok,t} = cover:compile_beam(t),
t:f(),
ok = cover:export("t.coverdata"),
code:purge(t),
code:delete(t),
%% this is just so that cover realises (without stopping)
%% that this module is not cover compiled any more
{error, {not_cover_compiled,t}} = cover:analyse(t),
%% source and beam not available any more
ok = file:delete("t.erl"),
ok = file:delete("t.beam"),
ok = cover:import("t.coverdata"),
{error,{no_source_code_found,t}} = cover:analyse_to_file(t),
{result,[],[{no_source_code_found,t}]} = cover:analyse_to_file([t]),
ok = file:delete("t.coverdata"),
ok = file:set_cwd(Cwd),
ok.
%% When including eunit.hrl, a parse transform adds the function
%% test/0 to line 0 in your module. A bug in OTP-18.0 caused
%% cover:analyse_to_file/1 to fail to insert cover data in the output
%% file in this situation. The test below tests that this bug is
%% corrected.
line_0(Config) ->
ok = file:set_cwd(filename:join(proplists:get_value(data_dir, Config),
"include_eunit_hrl")),
{ok, cover_inc_eunit} = compile:file(cover_inc_eunit,[debug_info]),
{ok, cover_inc_eunit} = cover:compile_beam(cover_inc_eunit),
{ok, CovOut} = cover:analyse_to_file(cover_inc_eunit),
{ok,Bin} = file:read_file(CovOut),
Match = <<"0..| ok.\n">>, % "0.." is missing when bug is there
S = byte_size(Bin)-byte_size(Match),
<<_:S/binary,Match/binary>> = Bin,
ok.
%% OTP-13200: Return error instead of crashing when trying to compile
%% a beam which has no 'file' attribute.
compile_beam_no_file(Config) ->
PrivDir = proplists:get_value(priv_dir,Config),
Dir = filename:join(PrivDir,"compile_beam_no_file"),
ok = filelib:ensure_dir(filename:join(Dir,"*")),
code:add_patha(Dir),
Str = lists:concat(
["-module(nofile).\n"
"-compile(export_all).\n"
"foo() -> ok.\n"]),
TT = do_scan(Str),
Forms = [ begin {ok,Y} = erl_parse:parse_form(X),Y end || X <- TT ],
{ok,_,Bin} = compile:forms(Forms,[debug_info]),
BeamFile = filename:join(Dir,"nofile.beam"),
ok = file:write_file(BeamFile,Bin),
{error,{no_file_attribute,BeamFile}} = cover:compile_beam(nofile),
[{error,{no_file_attribute,BeamFile}}] = cover:compile_beam_directory(Dir),
ok.
do_scan([]) ->
[];
do_scan(Str) ->
{done,{ok,T,_},C} = erl_scan:tokens([],Str,0),
[ T | do_scan(C) ].
%% PR 856. Fix a bc bug.
otp_13277(Config) ->
Test = <<"-module(t).
-export([t/0]).
pad(A, L) ->
P = << <<\"#\">> || _ <- lists:seq(1, L) >>,
<<A/binary, P/binary>>.
t() ->
pad(<<\"hi\">>, 2).
">>,
File = cc_mod(t, Test, Config),
<<"hi##">> = t:t(),
ok = file:delete(File),
ok.
%% Test general expressions in a binary comprehension.
otp_13289(Config) ->
Test = <<"-module(t).
-export([t/0]).
t() ->
<< (id(<<I>>)) || I <- [1,2,3] >>.
id(I) -> I.
">>,
File = cc_mod(t, Test, Config),
<<1,2,3>> = t:t(),
ok = file:delete(File),
ok.
%%--Auxiliary------------------------------------------------------------
analyse_expr(Expr, Config) ->
Binary = [<<"-module(t). "
"-export([t/0]). "
"t() -> ">>, Expr, <<".\n">>],
File = cc_mod(t, Binary, Config),
t:t(),
{ok, Result} = cover:analyse(t, calls, line),
ok = file:delete(File),
Result.
cc_mod(M, Binary, Config) ->
{ok, Dir} = file:get_cwd(),
PrivDir = proplists:get_value(priv_dir, Config),
ok = file:set_cwd(PrivDir),
File = atom_to_list(M) ++ ".erl",
try
ok = file:write_file(File, Binary),
{ok, M} = cover:compile(File),
filename:join(PrivDir, File)
after file:set_cwd(Dir)
end.
c_mod(M, Binary, Config) ->
{ok, Dir} = file:get_cwd(),
PrivDir = proplists:get_value(priv_dir, Config),
ok = file:set_cwd(PrivDir),
File = atom_to_list(M) ++ ".erl",
try
ok = file:write_file(File, Binary),
{ok, M} = compile:file(File, [debug_info]),
code:purge(M),
AbsFile = filename:rootname(File, ".erl"),
code:load_abs(AbsFile, M),
filename:join(PrivDir, File)
after file:set_cwd(Dir)
end.
lsfiles() ->
{ok, CWD} = file:get_cwd(),
lsfiles(CWD).
lsfiles(Dir) ->
{ok, Files} = file:list_dir(Dir),
Files.
files(Files, Ext) ->
lists:filter(fun(File) ->
case filename:extension(File) of
Ext -> true;
_ -> false
end
end,
Files).
remove([File|Files]) ->
ok = file:delete(File),
remove(Files);
remove([]) ->
ok.
decompile([Mod|Mods]) ->
code:purge(Mod),
code:delete(Mod),
decompile(Mods);
decompile([]) ->
ok.
is_unloaded(What) ->
if
is_list(What) -> true;
What==non_existing -> true;
true -> false
end.
check_f_calls(F1,F2) ->
{ok,A} = cover:analyse(f,calls,function),
{_,F1} = lists:keyfind({f,f1,0},1,A),
{_,F2} = lists:keyfind({f,f2,0},1,A).
cover_which_nodes(Expected) ->
case cover:which_nodes() of
Expected ->
ok;
Other ->
{Time,ok} = timer:tc(fun Retry() ->
case cover:which_nodes() of
Expected -> ok;
_ ->
timer:sleep(100),
Retry()
end
end),
io:format("~p ms before cover:which_nodes() returned ~p",
[Time,Expected]),
Expected = Other
end.