package Test2::API; use strict; use warnings; use Time::HiRes qw/time/; use Test2::Util qw/USE_THREADS/; BEGIN { $ENV{TEST_ACTIVE} ||= 1; $ENV{TEST2_ACTIVE} = 1; } our $VERSION = '1.302190'; my $INST; my $ENDING = 0; sub test2_unset_is_end { $ENDING = 0 } sub test2_get_is_end { $ENDING } sub test2_set_is_end { my $before = $ENDING; ($ENDING) = @_ ? @_ : (1); # Only send the event in a transition from false to true return if $before; return unless $ENDING; return unless $INST; my $stack = $INST->stack or return; my $root = $stack->root or return; return unless $root->count; return unless $$ == $INST->pid; return unless get_tid() == $INST->tid; my $trace = Test2::EventFacet::Trace->new( frame => [__PACKAGE__, __FILE__, __LINE__, __PACKAGE__ . '::test2_set_is_end'], ); my $ctx = Test2::API::Context->new( trace => $trace, hub => $root, ); $ctx->send_ev2(control => { phase => 'END', details => 'Transition to END phase' }); 1; } use Test2::API::Instance(\$INST); # Set the exit status END { test2_set_is_end(); # See gh #16 $INST->set_exit(); } sub CLONE { my $init = test2_init_done(); my $load = test2_load_done(); return if $init && $load; require Carp; Carp::croak "Test2 must be fully loaded before you start a new thread!\n"; } # See gh #16 { no warnings; INIT { eval 'END { test2_set_is_end() }; 1' or die $@ } } BEGIN { no warnings 'once'; if($] ge '5.014' || $ENV{T2_CHECK_DEPTH} || $Test2::API::DO_DEPTH_CHECK) { *DO_DEPTH_CHECK = sub() { 1 }; } else { *DO_DEPTH_CHECK = sub() { 0 }; } } use Test2::EventFacet::Trace(); use Test2::Util::Trace(); # Legacy use Test2::Hub::Subtest(); use Test2::Hub::Interceptor(); use Test2::Hub::Interceptor::Terminator(); use Test2::Event::Ok(); use Test2::Event::Diag(); use Test2::Event::Note(); use Test2::Event::Plan(); use Test2::Event::Bail(); use Test2::Event::Exception(); use Test2::Event::Waiting(); use Test2::Event::Skip(); use Test2::Event::Subtest(); use Carp qw/carp croak confess/; use Scalar::Util qw/blessed weaken/; use Test2::Util qw/get_tid clone_io pkg_to_file gen_uid/; our @EXPORT_OK = qw{ context release context_do no_context intercept intercept_deep run_subtest test2_init_done test2_load_done test2_load test2_start_preload test2_stop_preload test2_in_preload test2_is_testing_done test2_set_is_end test2_unset_is_end test2_get_is_end test2_pid test2_tid test2_stack test2_no_wait test2_ipc_wait_enable test2_ipc_wait_disable test2_ipc_wait_enabled test2_add_uuid_via test2_add_callback_testing_done test2_add_callback_context_aquire test2_add_callback_context_acquire test2_add_callback_context_init test2_add_callback_context_release test2_add_callback_exit test2_add_callback_post_load test2_add_callback_pre_subtest test2_list_context_aquire_callbacks test2_list_context_acquire_callbacks test2_list_context_init_callbacks test2_list_context_release_callbacks test2_list_exit_callbacks test2_list_post_load_callbacks test2_list_pre_subtest_callbacks test2_ipc test2_has_ipc test2_ipc_disable test2_ipc_disabled test2_ipc_drivers test2_ipc_add_driver test2_ipc_polling test2_ipc_disable_polling test2_ipc_enable_polling test2_ipc_get_pending test2_ipc_set_pending test2_ipc_get_timeout test2_ipc_set_timeout test2_formatter test2_formatters test2_formatter_add test2_formatter_set test2_stdout test2_stderr test2_reset_io }; BEGIN { require Exporter; our @ISA = qw(Exporter) } my $STACK = $INST->stack; my $CONTEXTS = $INST->contexts; my $INIT_CBS = $INST->context_init_callbacks; my $ACQUIRE_CBS = $INST->context_acquire_callbacks; my $STDOUT = clone_io(\*STDOUT); my $STDERR = clone_io(\*STDERR); sub test2_stdout { $STDOUT ||= clone_io(\*STDOUT) } sub test2_stderr { $STDERR ||= clone_io(\*STDERR) } sub test2_post_preload_reset { test2_reset_io(); $INST->post_preload_reset; } sub test2_reset_io { $STDOUT = clone_io(\*STDOUT); $STDERR = clone_io(\*STDERR); } sub test2_init_done { $INST->finalized } sub test2_load_done { $INST->loaded } sub test2_load { $INST->load } sub test2_start_preload { $ENV{T2_IN_PRELOAD} = 1; $INST->start_preload } sub test2_stop_preload { $ENV{T2_IN_PRELOAD} = 0; $INST->stop_preload } sub test2_in_preload { $INST->preload } sub test2_pid { $INST->pid } sub test2_tid { $INST->tid } sub test2_stack { $INST->stack } sub test2_ipc_wait_enable { $INST->set_no_wait(0) } sub test2_ipc_wait_disable { $INST->set_no_wait(1) } sub test2_ipc_wait_enabled { !$INST->no_wait } sub test2_is_testing_done { # No instance? VERY DONE! return 1 unless $INST; # No stack? tests must be done, it is created pretty early my $stack = $INST->stack or return 1; # Nothing on the stack, no root hub yet, likely have not started testing return 0 unless @$stack; # Stack has a slot for the root hub (see above) but it is undefined, likely # garbage collected, test is done my $root_hub = $stack->[0] or return 1; # If the root hub is ended than testing is done. return 1 if $root_hub->ended; # Looks like we are still testing! return 0; } sub test2_no_wait { $INST->set_no_wait(@_) if @_; $INST->no_wait; } sub test2_add_callback_testing_done { my $cb = shift; test2_add_callback_post_load(sub { my $stack = test2_stack(); $stack->top; # Insure we have a hub my ($hub) = Test2::API::test2_stack->all; $hub->set_active(1); $hub->follow_up($cb); }); return; } sub test2_add_callback_context_acquire { $INST->add_context_acquire_callback(@_) } sub test2_add_callback_context_aquire { $INST->add_context_acquire_callback(@_) } sub test2_add_callback_context_init { $INST->add_context_init_callback(@_) } sub test2_add_callback_context_release { $INST->add_context_release_callback(@_) } sub test2_add_callback_exit { $INST->add_exit_callback(@_) } sub test2_add_callback_post_load { $INST->add_post_load_callback(@_) } sub test2_add_callback_pre_subtest { $INST->add_pre_subtest_callback(@_) } sub test2_list_context_aquire_callbacks { @{$INST->context_acquire_callbacks} } sub test2_list_context_acquire_callbacks { @{$INST->context_acquire_callbacks} } sub test2_list_context_init_callbacks { @{$INST->context_init_callbacks} } sub test2_list_context_release_callbacks { @{$INST->context_release_callbacks} } sub test2_list_exit_callbacks { @{$INST->exit_callbacks} } sub test2_list_post_load_callbacks { @{$INST->post_load_callbacks} } sub test2_list_pre_subtest_callbacks { @{$INST->pre_subtest_callbacks} } sub test2_add_uuid_via { $INST->set_add_uuid_via(@_) if @_; $INST->add_uuid_via(); } sub test2_ipc { $INST->ipc } sub test2_has_ipc { $INST->has_ipc } sub test2_ipc_disable { $INST->ipc_disable } sub test2_ipc_disabled { $INST->ipc_disabled } sub test2_ipc_add_driver { $INST->add_ipc_driver(@_) } sub test2_ipc_drivers { @{$INST->ipc_drivers} } sub test2_ipc_polling { $INST->ipc_polling } sub test2_ipc_enable_polling { $INST->enable_ipc_polling } sub test2_ipc_disable_polling { $INST->disable_ipc_polling } sub test2_ipc_get_pending { $INST->get_ipc_pending } sub test2_ipc_set_pending { $INST->set_ipc_pending(@_) } sub test2_ipc_set_timeout { $INST->set_ipc_timeout(@_) } sub test2_ipc_get_timeout { $INST->ipc_timeout() } sub test2_ipc_enable_shm { 0 } sub test2_formatter { if ($ENV{T2_FORMATTER} && $ENV{T2_FORMATTER} =~ m/^(\+)?(.*)$/) { my $formatter = $1 ? $2 : "Test2::Formatter::$2"; my $file = pkg_to_file($formatter); require $file; return $formatter; } return $INST->formatter; } sub test2_formatters { @{$INST->formatters} } sub test2_formatter_add { $INST->add_formatter(@_) } sub test2_formatter_set { my ($formatter) = @_; croak "No formatter specified" unless $formatter; croak "Global Formatter already set" if $INST->formatter_set; $INST->set_formatter($formatter); } # Private, for use in Test2::API::Context sub _contexts_ref { $INST->contexts } sub _context_acquire_callbacks_ref { $INST->context_acquire_callbacks } sub _context_init_callbacks_ref { $INST->context_init_callbacks } sub _context_release_callbacks_ref { $INST->context_release_callbacks } sub _add_uuid_via_ref { \($INST->{Test2::API::Instance::ADD_UUID_VIA()}) } # Private, for use in Test2::IPC sub _set_ipc { $INST->set_ipc(@_) } sub context_do(&;@) { my $code = shift; my @args = @_; my $ctx = context(level => 1); my $want = wantarray; my @out; my $ok = eval { $want ? @out = $code->($ctx, @args) : defined($want) ? $out[0] = $code->($ctx, @args) : $code->($ctx, @args) ; 1; }; my $err = $@; $ctx->release; die $err unless $ok; return @out if $want; return $out[0] if defined $want; return; } sub no_context(&;$) { my ($code, $hid) = @_; $hid ||= $STACK->top->hid; my $ctx = $CONTEXTS->{$hid}; delete $CONTEXTS->{$hid}; my $ok = eval { $code->(); 1 }; my $err = $@; $CONTEXTS->{$hid} = $ctx; weaken($CONTEXTS->{$hid}); die $err unless $ok; return; }; my $UUID_VIA = _add_uuid_via_ref(); sub context { # We need to grab these before anything else to ensure they are not # changed. my ($errno, $eval_error, $child_error, $extended_error) = (0 + $!, $@, $?, $^E); my %params = (level => 0, wrapped => 0, @_); # If something is getting a context then the sync system needs to be # considered loaded... $INST->load unless $INST->{loaded}; croak "context() called, but return value is ignored" unless defined wantarray; my $stack = $params{stack} || $STACK; my $hub = $params{hub} || (@$stack ? $stack->[-1] : $stack->top); # Catch an edge case where we try to get context after the root hub has # been garbage collected resulting in a stack that has a single undef # hub if (!$hub && !exists($params{hub}) && @$stack) { my $msg = Carp::longmess("Attempt to get Test2 context after testing has completed (did you attempt a testing event after done_testing?)"); # The error message is usually masked by the global destruction, so we have to print to STDER print STDERR $msg; # Make sure this is a failure, we are probably already in END, so set $? to change the exit code $? = 1; # Now we actually die to interrupt the program flow and avoid undefined his warnings die $msg; } my $hid = $hub->{hid}; my $current = $CONTEXTS->{$hid}; $_->(\%params) for @$ACQUIRE_CBS; map $_->(\%params), @{$hub->{_context_acquire}} if $hub->{_context_acquire}; # This is for https://github.com/Test-More/test-more/issues/16 # and https://rt.perl.org/Public/Bug/Display.html?id=127774 my $phase = ${^GLOBAL_PHASE} || 'NA'; my $end_phase = $ENDING || $phase eq 'END' || $phase eq 'DESTRUCT'; my $level = 1 + $params{level}; my ($pkg, $file, $line, $sub, @other) = $end_phase ? caller(0) : caller($level); unless ($pkg || $end_phase) { confess "Could not find context at depth $level" unless $params{fudge}; ($pkg, $file, $line, $sub, @other) = caller(--$level) while ($level >= 0 && !$pkg); } my $depth = $level; $depth++ while DO_DEPTH_CHECK && !$end_phase && (!$current || $depth <= $current->{_depth} + $params{wrapped}) && caller($depth + 1); $depth -= $params{wrapped}; my $depth_ok = !DO_DEPTH_CHECK || $end_phase || !$current || $current->{_depth} < $depth; if ($current && $params{on_release} && $depth_ok) { $current->{_on_release} ||= []; push @{$current->{_on_release}} => $params{on_release}; } # I know this is ugly.... ($!, $@, $?, $^E) = ($errno, $eval_error, $child_error, $extended_error) and return bless( { %$current, _is_canon => undef, errno => $errno, eval_error => $eval_error, child_error => $child_error, _is_spawn => [$pkg, $file, $line, $sub], }, 'Test2::API::Context' ) if $current && $depth_ok; # Handle error condition of bad level if ($current) { unless (${$current->{_aborted}}) { _canon_error($current, [$pkg, $file, $line, $sub, $depth]) unless $current->{_is_canon}; _depth_error($current, [$pkg, $file, $line, $sub, $depth]) unless $depth_ok; } $current->release if $current->{_is_canon}; delete $CONTEXTS->{$hid}; } # Directly bless the object here, calling new is a noticeable performance # hit with how often this needs to be called. my $trace = bless( { frame => [$pkg, $file, $line, $sub], pid => $$, tid => get_tid(), cid => gen_uid(), hid => $hid, nested => $hub->{nested}, buffered => $hub->{buffered}, full_caller => [$pkg, $file, $line, $sub, @other], $$UUID_VIA ? ( huuid => $hub->{uuid}, uuid => ${$UUID_VIA}->('context'), ) : (), }, 'Test2::EventFacet::Trace' ); # Directly bless the object here, calling new is a noticeable performance # hit with how often this needs to be called. my $aborted = 0; $current = bless( { _aborted => \$aborted, stack => $stack, hub => $hub, trace => $trace, _is_canon => 1, _depth => $depth, errno => $errno, eval_error => $eval_error, child_error => $child_error, $params{on_release} ? (_on_release => [$params{on_release}]) : (), }, 'Test2::API::Context' ); $CONTEXTS->{$hid} = $current; weaken($CONTEXTS->{$hid}); $_->($current) for @$INIT_CBS; map $_->($current), @{$hub->{_context_init}} if $hub->{_context_init}; $params{on_init}->($current) if $params{on_init}; ($!, $@, $?, $^E) = ($errno, $eval_error, $child_error, $extended_error); return $current; } sub _depth_error { _existing_error(@_, <<" EOT"); context() was called to retrieve an existing context, however the existing context was created in a stack frame at the same, or deeper level. This usually means that a tool failed to release the context when it was finished. EOT } sub _canon_error { _existing_error(@_, <<" EOT"); context() was called to retrieve an existing context, however the existing context has an invalid internal state (!_canon_count). This should not normally happen unless something is mucking about with internals... EOT } sub _existing_error { my ($ctx, $details, $msg) = @_; my ($pkg, $file, $line, $sub, $depth) = @$details; my $oldframe = $ctx->{trace}->frame; my $olddepth = $ctx->{_depth}; # Older versions of Carp do not export longmess() function, so it needs to be called with package name my $mess = Carp::longmess(); warn <<" EOT"; $msg Old context details: File: $oldframe->[1] Line: $oldframe->[2] Tool: $oldframe->[3] Depth: $olddepth New context details: File: $file Line: $line Tool: $sub Depth: $depth Trace: $mess Removing the old context and creating a new one... EOT } sub release($;$) { $_[0]->release; return $_[1]; } sub intercept(&) { my $code = shift; my $ctx = context(); my $events = _intercept($code, deep => 0); $ctx->release; return $events; } sub intercept_deep(&) { my $code = shift; my $ctx = context(); my $events = _intercept($code, deep => 1); $ctx->release; return $events; } sub _intercept { my $code = shift; my %params = @_; my $ctx = context(); my $ipc; if (my $global_ipc = test2_ipc()) { my $driver = blessed($global_ipc); $ipc = $driver->new; } my $hub = Test2::Hub::Interceptor->new( ipc => $ipc, no_ending => 1, ); my @events; $hub->listen(sub { push @events => $_[1] }, inherit => $params{deep}); $ctx->stack->top; # Make sure there is a top hub before we begin. $ctx->stack->push($hub); my $trace = $ctx->trace; my $state = {}; $hub->clean_inherited(trace => $trace, state => $state); my ($ok, $err) = (1, undef); T2_SUBTEST_WRAPPER: { # Do not use 'try' cause it localizes __DIE__ $ok = eval { $code->(hub => $hub, context => $ctx->snapshot); 1 }; $err = $@; # They might have done 'BEGIN { skip_all => "whatever" }' if (!$ok && $err =~ m/Label not found for "last T2_SUBTEST_WRAPPER"/ || (blessed($err) && $err->isa('Test2::Hub::Interceptor::Terminator'))) { $ok = 1; $err = undef; } } $hub->cull; $ctx->stack->pop($hub); $hub->restore_inherited(trace => $trace, state => $state); $ctx->release; die $err unless $ok; $hub->finalize($trace, 1) if $ok && !$hub->no_ending && !$hub->ended; require Test2::API::InterceptResult; return Test2::API::InterceptResult->new_from_ref(\@events); } sub run_subtest { my ($name, $code, $params, @args) = @_; $_->($name,$code,@args) for Test2::API::test2_list_pre_subtest_callbacks(); $params = {buffered => $params} unless ref $params; my $inherit_trace = delete $params->{inherit_trace}; my $ctx = context(); my $parent = $ctx->hub; # If a parent is buffered then the child must be as well. my $buffered = $params->{buffered} || $parent->{buffered}; $ctx->note($name) unless $buffered; my $stack = $ctx->stack || $STACK; my $hub = $stack->new_hub( class => 'Test2::Hub::Subtest', %$params, buffered => $buffered, ); my @events; $hub->listen(sub { push @events => $_[1] }); if ($buffered) { if (my $format = $hub->format) { my $hide = $format->can('hide_buffered') ? $format->hide_buffered : 1; $hub->format(undef) if $hide; } } if ($inherit_trace) { my $orig = $code; $code = sub { my $base_trace = $ctx->trace; my $trace = $base_trace->snapshot(nested => 1 + $base_trace->nested); my $st_ctx = Test2::API::Context->new( trace => $trace, hub => $hub, ); $st_ctx->do_in_context($orig, @args); }; } my $start_stamp = time; my ($ok, $err, $finished); T2_SUBTEST_WRAPPER: { # Do not use 'try' cause it localizes __DIE__ $ok = eval { $code->(@args); 1 }; $err = $@; # They might have done 'BEGIN { skip_all => "whatever" }' if (!$ok && $err =~ m/Label not found for "last T2_SUBTEST_WRAPPER"/ || (blessed($err) && blessed($err) eq 'Test::Builder::Exception')) { $ok = undef; $err = undef; } else { $finished = 1; } } my $stop_stamp = time; if ($params->{no_fork}) { if ($$ != $ctx->trace->pid) { warn $ok ? "Forked inside subtest, but subtest never finished!\n" : $err; exit 255; } if (get_tid() != $ctx->trace->tid) { warn $ok ? "Started new thread inside subtest, but thread never finished!\n" : $err; exit 255; } } elsif (!$parent->is_local && !$parent->ipc) { warn $ok ? "A new process or thread was started inside subtest, but IPC is not enabled!\n" : $err; exit 255; } $stack->pop($hub); my $trace = $ctx->trace; my $bailed = $hub->bailed_out; if (!$finished) { if ($bailed && !$buffered) { $ctx->bail($bailed->reason); } elsif ($bailed && $buffered) { $ok = 1; } else { my $code = $hub->exit_code; $ok = !$code; $err = "Subtest ended with exit code $code" if $code; } } $hub->finalize($trace->snapshot(huuid => $hub->uuid, hid => $hub->hid, nested => $hub->nested, buffered => $buffered), 1) if $ok && !$hub->no_ending && !$hub->ended; my $pass = $ok && $hub->is_passing; my $e = $ctx->build_event( 'Subtest', pass => $pass, name => $name, subtest_id => $hub->id, subtest_uuid => $hub->uuid, buffered => $buffered, subevents => \@events, start_stamp => $start_stamp, stop_stamp => $stop_stamp, ); my $plan_ok = $hub->check_plan; $ctx->hub->send($e); $ctx->failure_diag($e) unless $e->pass; $ctx->diag("Caught exception in subtest: $err") unless $ok; $ctx->diag("Bad subtest plan, expected " . $hub->plan . " but ran " . $hub->count) if defined($plan_ok) && !$plan_ok; $ctx->bail($bailed->reason) if $bailed && $buffered; $ctx->release; return $pass; } # There is a use-cycle between API and API/Context. Context needs to use some # API functions as the package is compiling. Test2::API::context() needs # Test2::API::Context to be loaded, but we cannot 'require' the module there as # it causes a very noticeable performance impact with how often context() is # called. require Test2::API::Context; 1; __END__ =pod =encoding UTF-8 =head1 NAME Test2::API - Primary interface for writing Test2 based testing tools. =head1 ***INTERNALS NOTE*** B The public methods provided will not change in backwards-incompatible ways (once there is a stable release), but the underlying implementation details might. B Currently the implementation is to create a single instance of the L Object. All class methods defer to the single instance. There is no public access to the singleton, and that is intentional. The class methods provided by this package provide the only functionality publicly exposed. This is done primarily to avoid the problems Test::Builder had by exposing its singleton. We do not want anyone to replace this singleton, rebless it, or directly muck with its internals. If you need to do something and cannot because of the restrictions placed here, then please report it as an issue. If possible, we will create a way for you to implement your functionality without exposing things that should not be exposed. =head1 DESCRIPTION This package exports all the functions necessary to write and/or verify testing tools. Using these building blocks you can begin writing test tools very quickly. You are also provided with tools that help you to test the tools you write. =head1 SYNOPSIS =head2 WRITING A TOOL The C method is your primary interface into the Test2 framework. package My::Ok; use Test2::API qw/context/; our @EXPORT = qw/my_ok/; use base 'Exporter'; # Just like ok() from Test::More sub my_ok($;$) { my ($bool, $name) = @_; my $ctx = context(); # Get a context $ctx->ok($bool, $name); $ctx->release; # Release the context return $bool; } See L for a list of methods available on the context object. =head2 TESTING YOUR TOOLS The C tool lets you temporarily intercept all events generated by the test system: use Test2::API qw/intercept/; use My::Ok qw/my_ok/; my $events = intercept { # These events are not displayed my_ok(1, "pass"); my_ok(0, "fail"); }; As of version 1.302178 this now returns an arrayref that is also an instance of L. See the L documentation for details on how to best use it. =head2 OTHER API FUNCTIONS use Test2::API qw{ test2_init_done test2_stack test2_set_is_end test2_get_is_end test2_ipc test2_formatter_set test2_formatter test2_is_testing_done }; my $init = test2_init_done(); my $stack = test2_stack(); my $ipc = test2_ipc(); test2_formatter_set($FORMATTER) my $formatter = test2_formatter(); ... And others ... =head1 MAIN API EXPORTS All exports are optional. You must specify subs to import. use Test2::API qw/context intercept run_subtest/; This is the list of exports that are most commonly needed. If you are simply writing a tool, then this is probably all you need. If you need something and you cannot find it here, then you can also look at L. These exports lack the 'test2_' prefix because of how important/common they are. Exports in the L section have the 'test2_' prefix to ensure they stand out. =head2 context(...) Usage: =over 4 =item $ctx = context() =item $ctx = context(%params) =back The C function will always return the current context. If there is already a context active, it will be returned. If there is not an active context, one will be generated. When a context is generated it will default to using the file and line number where the currently running sub was called from. Please see L for important rules about what you can and cannot do with a context once it is obtained. B This function will throw an exception if you ignore the context object it returns. B On perls 5.14+ a depth check is used to insure there are no context leaks. This cannot be safely done on older perls due to L You can forcefully enable it either by setting C<$ENV{T2_CHECK_DEPTH} = 1> or C<$Test2::API::DO_DEPTH_CHECK = 1> B loading L. =head3 OPTIONAL PARAMETERS All parameters to C are optional. =over 4 =item level => $int If you must obtain a context in a sub deeper than your entry point you can use this to tell it how many EXTRA stack frames to look back. If this option is not provided the default of C<0> is used. sub third_party_tool { my $sub = shift; ... # Does not obtain a context $sub->(); ... } third_party_tool(sub { my $ctx = context(level => 1); ... $ctx->release; }); =item wrapped => $int Use this if you need to write your own tool that wraps a call to C with the intent that it should return a context object. sub my_context { my %params = ( wrapped => 0, @_ ); $params{wrapped}++; my $ctx = context(%params); ... return $ctx; } sub my_tool { my $ctx = my_context(); ... $ctx->release; } If you do not do this, then tools you call that also check for a context will notice that the context they grabbed was created at the same stack depth, which will trigger protective measures that warn you and destroy the existing context. =item stack => $stack Normally C looks at the global hub stack. If you are maintaining your own L instance you may pass it in to be used instead of the global one. =item hub => $hub Use this parameter if you want to obtain the context for a specific hub instead of whatever one happens to be at the top of the stack. =item on_init => sub { ... } This lets you provide a callback sub that will be called B if your call to C generated a new context. The callback B be called if C is returning an existing context. The only argument passed into the callback will be the context object itself. sub foo { my $ctx = context(on_init => sub { 'will run' }); my $inner = sub { # This callback is not run since we are getting the existing # context from our parent sub. my $ctx = context(on_init => sub { 'will NOT run' }); $ctx->release; } $inner->(); $ctx->release; } =item on_release => sub { ... } This lets you provide a callback sub that will be called when the context instance is released. This callback will be added to the returned context even if an existing context is returned. If multiple calls to context add callbacks, then all will be called in reverse order when the context is finally released. sub foo { my $ctx = context(on_release => sub { 'will run second' }); my $inner = sub { my $ctx = context(on_release => sub { 'will run first' }); # Neither callback runs on this release $ctx->release; } $inner->(); # Both callbacks run here. $ctx->release; } =back =head2 release($;$) Usage: =over 4 =item release $ctx; =item release $ctx, ...; =back This is intended as a shortcut that lets you release your context and return a value in one statement. This function will get your context, and an optional return value. It will release your context, then return your value. Scalar context is always assumed. sub tool { my $ctx = context(); ... return release $ctx, 1; } This tool is most useful when you want to return the value you get from calling a function that needs to see the current context: my $ctx = context(); my $out = some_tool(...); $ctx->release; return $out; We can combine the last 3 lines of the above like so: my $ctx = context(); release $ctx, some_tool(...); =head2 context_do(&;@) Usage: sub my_tool { context_do { my $ctx = shift; my (@args) = @_; $ctx->ok(1, "pass"); ... # No need to call $ctx->release, done for you on scope exit. } @_; } Using this inside your test tool takes care of a lot of boilerplate for you. It will ensure a context is acquired. It will capture and rethrow any exception. It will insure the context is released when you are done. It preserves the subroutine call context (array, scalar, void). This is the safest way to write a test tool. The only two downsides to this are a slight performance decrease, and some extra indentation in your source. If the indentation is a problem for you then you can take a peek at the next section. =head2 no_context(&;$) Usage: =over 4 =item no_context { ... }; =item no_context { ... } $hid; sub my_tool(&) { my $code = shift; my $ctx = context(); ... no_context { # Things in here will not see our current context, they get a new # one. $code->(); }; ... $ctx->release; }; =back This tool will hide a context for the provided block of code. This means any tools run inside the block will get a completely new context if they acquire one. The new context will be inherited by tools nested below the one that acquired it. This will normally hide the current context for the top hub. If you need to hide the context for a different hub you can pass in the optional C<$hid> parameter. =head2 intercept(&) Usage: my $events = intercept { ok(1, "pass"); ok(0, "fail"); ... }; This function takes a codeblock as its only argument, and it has a prototype. It will execute the codeblock, intercepting any generated events in the process. It will return an array reference with all the generated event objects. All events should be subclasses of L. As of version 1.302178 the events array that is returned is blssed as an L instance. L Provides a helpful interface for filtering and/or inspecting the events list overall, or individual events within the list. This is intended to help you test your test code. This is not intended for people simply writing tests. =head2 run_subtest(...) Usage: run_subtest($NAME, \&CODE, $BUFFERED, @ARGS) # or run_subtest($NAME, \&CODE, \%PARAMS, @ARGS) This will run the provided codeblock with the args in C<@args>. This codeblock will be run as a subtest. A subtest is an isolated test state that is condensed into a single L event, which contains all events generated inside the subtest. =head3 ARGUMENTS: =over 4 =item $NAME The name of the subtest. =item \&CODE The code to run inside the subtest. =item $BUFFERED or \%PARAMS If this is a simple scalar then it will be treated as a boolean for the 'buffered' setting. If this is a hash reference then it will be used as a parameters hash. The param hash will be used for hub construction (with the specified keys removed). Keys that are removed and used by run_subtest: =over 4 =item 'buffered' => $bool Toggle buffered status. =item 'inherit_trace' => $bool Normally the subtest hub is pushed and the sub is allowed to generate its own root context for the hub. When this setting is turned on a root context will be created for the hub that shares the same trace as the current context. Set this to true if your tool is producing subtests without user-specified subs. =item 'no_fork' => $bool Defaults to off. Normally forking inside a subtest will actually fork the subtest, resulting in 2 final subtest events. This parameter will turn off that behavior, only the original process/thread will return a final subtest event. =back =item @ARGS Any extra arguments you want passed into the subtest code. =back =head3 BUFFERED VS UNBUFFERED (OR STREAMED) Normally all events inside and outside a subtest are sent to the formatter immediately by the hub. Sometimes it is desirable to hold off sending events within a subtest until the subtest is complete. This usually depends on the formatter being used. =over 4 =item Things not effected by this flag In both cases events are generated and stored in an array. This array is eventually used to populate the C attribute on the L event that is generated at the end of the subtest. This flag has no effect on this part, it always happens. At the end of the subtest, the final L event is sent to the formatter. =item Things that are effected by this flag The C attribute of the L event will be set to the value of this flag. This means any formatter, listener, etc which looks at the event will know if it was buffered. =item Things that are formatter dependant Events within a buffered subtest may or may not be sent to the formatter as they happen. If a formatter fails to specify then the default is to B the events as they are generated, instead the formatter can pull them from the C attribute. A formatter can specify by implementing the C method. If this method returns true then events generated inside a buffered subtest will not be sent independently of the final subtest event. =back An example of how this is used is the L formatter. For unbuffered subtests the events are rendered as they are generated. At the end of the subtest, the final subtest event is rendered, but the C attribute is ignored. For buffered subtests the opposite occurs, the events are NOT rendered as they are generated, instead the C attribute is used to render them all at once. This is useful when running subtests tests in parallel, since without it the output from subtests would be interleaved together. =head1 OTHER API EXPORTS Exports in this section are not commonly needed. These all have the 'test2_' prefix to help ensure they stand out. You should look at the L section before looking here. This section is one where "Great power comes with great responsibility". It is possible to break things badly if you are not careful with these. All exports are optional. You need to list which ones you want at import time: use Test2::API qw/test2_init_done .../; =head2 STATUS AND INITIALIZATION STATE These provide access to internal state and object instances. =over 4 =item $bool = test2_init_done() This will return true if the stack and IPC instances have already been initialized. It will return false if they have not. Init happens as late as possible. It happens as soon as a tool requests the IPC instance, the formatter, or the stack. =item $bool = test2_load_done() This will simply return the boolean value of the loaded flag. If Test2 has finished loading this will be true, otherwise false. Loading is considered complete the first time a tool requests a context. =item test2_set_is_end() =item test2_set_is_end($bool) This is used to toggle Test2's belief that the END phase has already started. With no arguments this will set it to true. With arguments it will set it to the first argument's value. This is used to prevent the use of C in END blocks which can cause segfaults. This is only necessary in some persistent environments that may have multiple END phases. =item $bool = test2_get_is_end() Check if Test2 believes it is the END phase. =item $stack = test2_stack() This will return the global L instance. If this has not yet been initialized it will be initialized now. =item $bool = test2_is_testing_done() This will return true if testing is complete and no other events should be sent. This is useful in things like warning handlers where you might want to turn warnings into events, but need them to start acting like normal warnings when testing is done. $SIG{__WARN__} = sub { my ($warning) = @_; if (test2_is_testing_done()) { warn @_; } else { my $ctx = context(); ... $ctx->release } } =item test2_ipc_disable Disable IPC. =item $bool = test2_ipc_diabled Check if IPC is disabled. =item test2_ipc_wait_enable() =item test2_ipc_wait_disable() =item $bool = test2_ipc_wait_enabled() These can be used to turn IPC waiting on and off, or check the current value of the flag. Waiting is turned on by default. Waiting will cause the parent process/thread to wait until all child processes and threads are finished before exiting. You will almost never want to turn this off. =item $bool = test2_no_wait() =item test2_no_wait($bool) B: This is a confusing interface, it is better to use C, C and C. This can be used to get/set the no_wait status. Waiting is turned on by default. Waiting will cause the parent process/thread to wait until all child processes and threads are finished before exiting. You will almost never want to turn this off. =item $fh = test2_stdout() =item $fh = test2_stderr() These functions return the filehandles that test output should be written to. They are primarily useful when writing a custom formatter and code that turns events into actual output (TAP, etc.). They will return a dupe of the original filehandles that formatted output can be sent to regardless of whatever state the currently running test may have left STDOUT and STDERR in. =item test2_reset_io() Re-dupe the internal filehandles returned by C and C from the current STDOUT and STDERR. You shouldn't need to do this except in very peculiar situations (for example, you're testing a new formatter and you need control over where the formatter is sending its output.) =back =head2 BEHAVIOR HOOKS These are hooks that allow you to add custom behavior to actions taken by Test2 and tools built on top of it. =over 4 =item test2_add_callback_exit(sub { ... }) This can be used to add a callback that is called after all testing is done. This is too late to add additional results, the main use of this callback is to set the exit code. test2_add_callback_exit( sub { my ($context, $exit, \$new_exit) = @_; ... } ); The C<$context> passed in will be an instance of L. The C<$exit> argument will be the original exit code before anything modified it. C<$$new_exit> is a reference to the new exit code. You may modify this to change the exit code. Please note that C<$$new_exit> may already be different from C<$exit> =item test2_add_callback_post_load(sub { ... }) Add a callback that will be called when Test2 is finished loading. This means the callback will be run once, the first time a context is obtained. If Test2 has already finished loading then the callback will be run immediately. =item test2_add_callback_testing_done(sub { ... }) This adds your coderef as a follow-up to the root hub after Test2 is finished loading. This is essentially a helper to do the following: test2_add_callback_post_load(sub { my $stack = test2_stack(); $stack->top; # Insure we have a hub my ($hub) = Test2::API::test2_stack->all; $hub->set_active(1); $hub->follow_up(sub { ... }); # <-- Your coderef here }); =item test2_add_callback_context_acquire(sub { ... }) Add a callback that will be called every time someone tries to acquire a context. This will be called on EVERY call to C. It gets a single argument, a reference to the hash of parameters being used the construct the context. This is your chance to change the parameters by directly altering the hash. test2_add_callback_context_acquire(sub { my $params = shift; $params->{level}++; }); This is a very scary API function. Please do not use this unless you need to. This is here for L and backwards compatibility. This has you directly manipulate the hash instead of returning a new one for performance reasons. =item test2_add_callback_context_init(sub { ... }) Add a callback that will be called every time a new context is created. The callback will receive the newly created context as its only argument. =item test2_add_callback_context_release(sub { ... }) Add a callback that will be called every time a context is released. The callback will receive the released context as its only argument. =item test2_add_callback_pre_subtest(sub { ... }) Add a callback that will be called every time a subtest is going to be run. The callback will receive the subtest name, coderef, and any arguments. =item @list = test2_list_context_acquire_callbacks() Return all the context acquire callback references. =item @list = test2_list_context_init_callbacks() Returns all the context init callback references. =item @list = test2_list_context_release_callbacks() Returns all the context release callback references. =item @list = test2_list_exit_callbacks() Returns all the exit callback references. =item @list = test2_list_post_load_callbacks() Returns all the post load callback references. =item @list = test2_list_pre_subtest_callbacks() Returns all the pre-subtest callback references. =item test2_add_uuid_via(sub { ... }) =item $sub = test2_add_uuid_via() This allows you to provide a UUID generator. If provided UUIDs will be attached to all events, hubs, and contexts. This is useful for storing, tracking, and linking these objects. The sub you provide should always return a unique identifier. Most things will expect a proper UUID string, however nothing in Test2::API enforces this. The sub will receive exactly 1 argument, the type of thing being tagged 'context', 'hub', or 'event'. In the future additional things may be tagged, in which case new strings will be passed in. These are purely informative, you can (and usually should) ignore them. =back =head2 IPC AND CONCURRENCY These let you access, or specify, the IPC system internals. =over 4 =item $bool = test2_has_ipc() Check if IPC is enabled. =item $ipc = test2_ipc() This will return the global L instance. If this has not yet been initialized it will be initialized now. =item test2_ipc_add_driver($DRIVER) Add an IPC driver to the list. This will add the driver to the start of the list. =item @drivers = test2_ipc_drivers() Get the list of IPC drivers. =item $bool = test2_ipc_polling() Check if polling is enabled. =item test2_ipc_enable_polling() Turn on polling. This will cull events from other processes and threads every time a context is created. =item test2_ipc_disable_polling() Turn off IPC polling. =item test2_ipc_enable_shm() Legacy, this is currently a no-op that returns 0; =item test2_ipc_set_pending($uniq_val) Tell other processes and events that an event is pending. C<$uniq_val> should be a unique value no other thread/process will generate. B After calling this C will return 1. This is intentional, and not avoidable. =item $pending = test2_ipc_get_pending() This returns -1 if there is no way to check (assume yes) This returns 0 if there are (most likely) no pending events. This returns 1 if there are (likely) pending events. Upon return it will reset, nothing else will be able to see that there were pending events. =item $timeout = test2_ipc_get_timeout() =item test2_ipc_set_timeout($timeout) Get/Set the timeout value for the IPC system. This timeout is how long the IPC system will wait for child processes and threads to finish before aborting. The default value is C<30> seconds. =back =head2 MANAGING FORMATTERS These let you access, or specify, the formatters that can/should be used. =over 4 =item $formatter = test2_formatter This will return the global formatter class. This is not an instance. By default the formatter is set to L. You can override this default using the C environment variable. Normally 'Test2::Formatter::' is prefixed to the value in the environment variable: $ T2_FORMATTER='TAP' perl test.t # Use the Test2::Formatter::TAP formatter $ T2_FORMATTER='Foo' perl test.t # Use the Test2::Formatter::Foo formatter If you want to specify a full module name you use the '+' prefix: $ T2_FORMATTER='+Foo::Bar' perl test.t # Use the Foo::Bar formatter =item test2_formatter_set($class_or_instance) Set the global formatter class. This can only be set once. B This will override anything specified in the 'T2_FORMATTER' environment variable. =item @formatters = test2_formatters() Get a list of all loaded formatters. =item test2_formatter_add($class_or_instance) Add a formatter to the list. Last formatter added is used at initialization. If this is called after initialization a warning will be issued. =back =head1 OTHER EXAMPLES See the C directory included in this distribution. =head1 SEE ALSO L - Detailed documentation of the context object. L - The IPC system used for threading/fork support. L - Formatters such as TAP live here. L - Events live in this namespace. L - All events eventually funnel through a hub. Custom hubs are how C and C are implemented. =head1 MAGIC This package has an END block. This END block is responsible for setting the exit code based on the test results. This end block also calls the callbacks that can be added to this package. =head1 SOURCE The source code repository for Test2 can be found at F. =head1 MAINTAINERS =over 4 =item Chad Granum Eexodist@cpan.orgE =back =head1 AUTHORS =over 4 =item Chad Granum Eexodist@cpan.orgE =back =head1 COPYRIGHT Copyright 2020 Chad Granum Eexodist@cpan.orgE. This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See F =cut