blob: a0160b8bfd57cfa886008e75e7ab50f586dd3d14 [file] [log] [blame]
library test;
import self as self;
import "dart:core" as core;
import "dart:async" as asy;
import "dart:_internal" as _in;
import "dart:async";
abstract class MyStream<T extends core::Object* = dynamic> extends asy::Stream<self::MyStream::T*> {
static factory •<T extends core::Object* = dynamic>() self::MyStream<self::MyStream::•::T*>*
return null;
abstract member-signature get isBroadcast() core::bool*; -> asy::Stream::isBroadcast
abstract member-signature method asBroadcastStream({(asy::StreamSubscription<self::MyStream::T*>*) →* void onListen = #C1, (asy::StreamSubscription<self::MyStream::T*>*) →* void onCancel = #C1}) → asy::Stream<self::MyStream::T*>*; -> asy::Stream::asBroadcastStream
abstract member-signature method where((self::MyStream::T*) →* core::bool* test) asy::Stream<self::MyStream::T*>*; -> asy::Stream::where
abstract member-signature method map<S extends core::Object* = dynamic>((self::MyStream::T*) →* self::MyStream::map::S* convert) asy::Stream<self::MyStream::map::S*>*; -> asy::Stream::map
abstract member-signature method asyncMap<E extends core::Object* = dynamic>((self::MyStream::T*) →* FutureOr<self::MyStream::asyncMap::E*>* convert) asy::Stream<self::MyStream::asyncMap::E*>*; -> asy::Stream::asyncMap
abstract member-signature method asyncExpand<E extends core::Object* = dynamic>((self::MyStream::T*) →* asy::Stream<self::MyStream::asyncExpand::E*>* convert) asy::Stream<self::MyStream::asyncExpand::E*>*; -> asy::Stream::asyncExpand
abstract member-signature method handleError(core::Function* onError, {(dynamic) →* core::bool* test = #C1}) → asy::Stream<self::MyStream::T*>*; -> asy::Stream::handleError
abstract member-signature method expand<S extends core::Object* = dynamic>((self::MyStream::T*) →* core::Iterable<self::MyStream::expand::S*>* convert) asy::Stream<self::MyStream::expand::S*>*; -> asy::Stream::expand
abstract member-signature method pipe(covariant-by-class asy::StreamConsumer<self::MyStream::T*>* streamConsumer) asy::Future<dynamic>*; -> asy::Stream::pipe
abstract member-signature method transform<S extends core::Object* = dynamic>(covariant-by-class asy::StreamTransformer<self::MyStream::T*, self::MyStream::transform::S*>* streamTransformer) asy::Stream<self::MyStream::transform::S*>*; -> asy::Stream::transform
abstract member-signature method reduce(covariant-by-class (self::MyStream::T*, self::MyStream::T*) →* self::MyStream::T* combine) asy::Future<self::MyStream::T*>*; -> asy::Stream::reduce
abstract member-signature method fold<S extends core::Object* = dynamic>(self::MyStream::fold::S* initialValue, (self::MyStream::fold::S*, self::MyStream::T*) →* self::MyStream::fold::S* combine) asy::Future<self::MyStream::fold::S*>*; -> asy::Stream::fold
abstract member-signature method join([core::String* separator = #C2]) → asy::Future<core::String*>*; -> asy::Stream::join
abstract member-signature method contains(core::Object* needle) asy::Future<core::bool*>*; -> asy::Stream::contains
abstract member-signature method forEach((self::MyStream::T*) →* void action) asy::Future<dynamic>*; -> asy::Stream::forEach
abstract member-signature method every((self::MyStream::T*) →* core::bool* test) asy::Future<core::bool*>*; -> asy::Stream::every
abstract member-signature method any((self::MyStream::T*) →* core::bool* test) asy::Future<core::bool*>*; -> asy::Stream::any
abstract member-signature get length() asy::Future<core::int*>*; -> asy::Stream::length
abstract member-signature get isEmpty() asy::Future<core::bool*>*; -> asy::Stream::isEmpty
abstract member-signature method cast<R extends core::Object* = dynamic>() asy::Stream<self::MyStream::cast::R*>*; -> asy::Stream::cast
abstract member-signature method toList() asy::Future<core::List<self::MyStream::T*>*>*; -> asy::Stream::toList
abstract member-signature method toSet() asy::Future<core::Set<self::MyStream::T*>*>*; -> asy::Stream::toSet
abstract member-signature method drain<E extends core::Object* = dynamic>([self::MyStream::drain::E* futureValue = #C1]) → asy::Future<self::MyStream::drain::E*>*; -> asy::Stream::drain
abstract member-signature method take(core::int* count) asy::Stream<self::MyStream::T*>*; -> asy::Stream::take
abstract member-signature method takeWhile((self::MyStream::T*) →* core::bool* test) asy::Stream<self::MyStream::T*>*; -> asy::Stream::takeWhile
abstract member-signature method skip(core::int* count) asy::Stream<self::MyStream::T*>*; -> asy::Stream::skip
abstract member-signature method skipWhile((self::MyStream::T*) →* core::bool* test) asy::Stream<self::MyStream::T*>*; -> asy::Stream::skipWhile
abstract member-signature method distinct([(self::MyStream::T*, self::MyStream::T*) →* core::bool* equals = #C1]) → asy::Stream<self::MyStream::T*>*; -> asy::Stream::distinct
abstract member-signature get first() asy::Future<self::MyStream::T*>*; -> asy::Stream::first
abstract member-signature get last() asy::Future<self::MyStream::T*>*; -> asy::Stream::last
abstract member-signature get single() asy::Future<self::MyStream::T*>*; -> asy::Stream::single
abstract member-signature method firstWhere((self::MyStream::T*) →* core::bool* test, {covariant-by-class () →* self::MyStream::T* orElse = #C1}) → asy::Future<self::MyStream::T*>*; -> asy::Stream::firstWhere
abstract member-signature method lastWhere((self::MyStream::T*) →* core::bool* test, {covariant-by-class () →* self::MyStream::T* orElse = #C1}) → asy::Future<self::MyStream::T*>*; -> asy::Stream::lastWhere
abstract member-signature method singleWhere((self::MyStream::T*) →* core::bool* test, {covariant-by-class () →* self::MyStream::T* orElse = #C1}) → asy::Future<self::MyStream::T*>*; -> asy::Stream::singleWhere
abstract member-signature method elementAt(core::int* index) asy::Future<self::MyStream::T*>*; -> asy::Stream::elementAt
abstract member-signature method timeout(core::Duration* timeLimit, {(asy::EventSink<self::MyStream::T*>*) →* void onTimeout = #C1}) → asy::Stream<self::MyStream::T*>*; -> asy::Stream::timeout
abstract member-signature get _identityHashCode() core::int*; -> core::Object::_identityHashCode
abstract member-signature method _instanceOf(dynamic instantiatorTypeArguments, dynamic functionTypeArguments, dynamic type) core::bool*; -> core::Object::_instanceOf
abstract member-signature method _simpleInstanceOf(dynamic type) core::bool*; -> core::Object::_simpleInstanceOf
abstract member-signature method _simpleInstanceOfTrue(dynamic type) core::bool*; -> core::Object::_simpleInstanceOfTrue
abstract member-signature method _simpleInstanceOfFalse(dynamic type) core::bool*; -> core::Object::_simpleInstanceOfFalse
abstract member-signature operator ==(dynamic other) core::bool*; -> core::Object::==
abstract member-signature get hashCode() core::int*; -> core::Object::hashCode
abstract member-signature method toString() core::String*; -> core::Object::toString
abstract member-signature method noSuchMethod(core::Invocation* invocation) dynamic; -> core::Object::noSuchMethod
abstract member-signature get runtimeType() core::Type*; -> core::Object::runtimeType
abstract member-signature method listen((self::MyStream::T*) →* void onData, {core::Function* onError = #C1, () →* void onDone = #C1, core::bool* cancelOnError = #C1}) → asy::StreamSubscription<self::MyStream::T*>*; -> asy::Stream::listen
}
static method F<T extends core::Object* = dynamic>() self::F::T*
return null;
static method f() asy::Future<dynamic>* /* futureValueType= dynamic */ /* originally async */ {
final asy::_Future<dynamic>* :async_future = new asy::_Future::•<dynamic>();
core::bool* :is_sync = false;
dynamic :return_value;
(dynamic) →* dynamic :async_op_then;
(core::Object*, core::StackTrace*) →* dynamic :async_op_error;
core::int* :await_jump_var = 0;
dynamic :await_ctx_var;
dynamic :saved_try_context_var0;
dynamic :saved_try_context_var1;
dynamic :exception0;
dynamic :stack_trace0;
function :async_op(dynamic :result_or_exception, dynamic :stack_trace) dynamic yielding
try {
#L1:
{
dynamic d;
core::Object* o;
{
core::Iterator<dynamic>* :sync-for-iterator = self::F<core::Iterable<dynamic>*>().{core::Iterable::iterator}{core::Iterator<dynamic>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
dynamic x = :sync-for-iterator.{core::Iterator::current}{dynamic};
{}
}
}
{
core::Iterator<dynamic>* :sync-for-iterator = self::F<core::Iterable<dynamic>*>().{core::Iterable::iterator}{core::Iterator<dynamic>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
dynamic x = :sync-for-iterator.{core::Iterator::current}{dynamic};
{}
}
}
{
core::Iterator<core::Object*>* :sync-for-iterator = self::F<core::Iterable<core::Object*>*>().{core::Iterable::iterator}{core::Iterator<core::Object*>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
core::Object* x = :sync-for-iterator.{core::Iterator::current}{core::Object*};
{}
}
}
{
core::Iterator<dynamic>* :sync-for-iterator = self::F<core::Iterable<dynamic>*>().{core::Iterable::iterator}{core::Iterator<dynamic>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
final dynamic #t1 = :sync-for-iterator.{core::Iterator::current}{dynamic};
{
d = #t1;
}
}
}
{
core::Iterator<core::Object*>* :sync-for-iterator = self::F<core::Iterable<core::Object*>*>().{core::Iterable::iterator}{core::Iterator<core::Object*>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
final core::Object* #t2 = :sync-for-iterator.{core::Iterator::current}{core::Object*};
{
o = #t2;
}
}
}
{
asy::Stream<dynamic>* :stream = self::F<asy::Stream<dynamic>*>();
asy::_StreamIterator<dynamic>* :for-iterator = new asy::_StreamIterator::•<dynamic>(:stream);
try
#L2:
while (true) {
dynamic #t3 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t4 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
dynamic x = :for-iterator.{asy::_StreamIterator::current}{dynamic};
{}
}
else
break #L2;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<dynamic>?} == null)) {
[yield] let dynamic #t5 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
{
asy::Stream<dynamic>* :stream = self::F<asy::Stream<dynamic>*>();
asy::_StreamIterator<dynamic>* :for-iterator = new asy::_StreamIterator::•<dynamic>(:stream);
try
#L3:
while (true) {
dynamic #t6 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t7 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
dynamic x = :for-iterator.{asy::_StreamIterator::current}{dynamic};
{}
}
else
break #L3;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<dynamic>?} == null)) {
[yield] let dynamic #t8 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
{
asy::Stream<core::Object*>* :stream = self::F<asy::Stream<core::Object*>*>();
asy::_StreamIterator<core::Object*>* :for-iterator = new asy::_StreamIterator::•<core::Object*>(:stream);
try
#L4:
while (true) {
dynamic #t9 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t10 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
core::Object* x = :for-iterator.{asy::_StreamIterator::current}{core::Object*};
{}
}
else
break #L4;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<core::Object*>?} == null)) {
[yield] let dynamic #t11 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
{
asy::Stream<dynamic>* :stream = self::F<asy::Stream<dynamic>*>();
asy::_StreamIterator<dynamic>* :for-iterator = new asy::_StreamIterator::•<dynamic>(:stream);
try
#L5:
while (true) {
dynamic #t12 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t13 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
final dynamic #t14 = :for-iterator.{asy::_StreamIterator::current}{dynamic};
{
d = #t14;
}
}
else
break #L5;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<dynamic>?} == null)) {
[yield] let dynamic #t15 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
{
asy::Stream<core::Object*>* :stream = self::F<asy::Stream<core::Object*>*>();
asy::_StreamIterator<core::Object*>* :for-iterator = new asy::_StreamIterator::•<core::Object*>(:stream);
try
#L6:
while (true) {
dynamic #t16 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t17 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
final core::Object* #t18 = :for-iterator.{asy::_StreamIterator::current}{core::Object*};
{
o = #t18;
}
}
else
break #L6;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<core::Object*>?} == null)) {
[yield] let dynamic #t19 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
}
asy::_completeWithNoFutureOnAsyncReturn(:async_future, :return_value, :is_sync);
return;
}
on dynamic catch(dynamic exception, core::StackTrace* stack_trace) {
asy::_completeOnAsyncError(:async_future, exception, stack_trace, :is_sync);
}
:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
:async_op(null, null){() →* dynamic};
:is_sync = true;
return :async_future;
}
static method main() asy::Future<dynamic>* /* futureValueType= dynamic */ /* originally async */ {
final asy::_Future<dynamic>* :async_future = new asy::_Future::•<dynamic>();
core::bool* :is_sync = false;
dynamic :return_value;
(dynamic) →* dynamic :async_op_then;
(core::Object*, core::StackTrace*) →* dynamic :async_op_error;
core::int* :await_jump_var = 0;
dynamic :await_ctx_var;
dynamic :saved_try_context_var0;
dynamic :saved_try_context_var1;
dynamic :exception0;
dynamic :stack_trace0;
function :async_op(dynamic :result_or_exception, dynamic :stack_trace) dynamic yielding
try {
#L7:
{
{
core::Iterator<core::int*>* :sync-for-iterator = core::_GrowableList::_literal3<core::int*>(1, 2, 3).{core::Iterable::iterator}{core::Iterator<core::int*>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
core::int* x = :sync-for-iterator.{core::Iterator::current}{core::int*};
{}
}
}
{
core::Iterator<core::num*>* :sync-for-iterator = core::_GrowableList::_literal3<core::num*>(1, 2, 3).{core::Iterable::iterator}{core::Iterator<core::num*>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
core::num* x = :sync-for-iterator.{core::Iterator::current}{core::num*};
{}
}
}
{
core::Iterator<core::int*>* :sync-for-iterator = core::_GrowableList::_literal3<core::int*>(1, 2, 3).{core::Iterable::iterator}{core::Iterator<core::int*>*};
for (; :sync-for-iterator.{core::Iterator::moveNext}(){() core::bool}; ) {
core::int* x = :sync-for-iterator.{core::Iterator::current}{core::int*};
{}
}
}
{
self::MyStream<core::int*>* :stream = self::MyStream::•<core::int*>();
asy::_StreamIterator<core::int*>* :for-iterator = new asy::_StreamIterator::•<core::int*>(:stream);
try
#L8:
while (true) {
dynamic #t20 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t21 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
core::int* x = :for-iterator.{asy::_StreamIterator::current}{core::int*};
{}
}
else
break #L8;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<core::int*>?} == null)) {
[yield] let dynamic #t22 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
{
self::MyStream<core::int*>* :stream = self::MyStream::•<core::int*>();
asy::_StreamIterator<core::int*>* :for-iterator = new asy::_StreamIterator::•<core::int*>(:stream);
try
#L9:
while (true) {
dynamic #t23 = asy::_asyncStarMoveNextHelper(:stream);
[yield] let dynamic #t24 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(){() → asy::Future<core::bool>}, :async_op_then, :async_op_error) in null;
if(_in::unsafeCast<core::bool>(:result_or_exception)) {
core::int* x = :for-iterator.{asy::_StreamIterator::current}{core::int*};
{}
}
else
break #L9;
}
finally
if(!(:for-iterator.{asy::_StreamIterator::_subscription}{asy::StreamSubscription<core::int*>?} == null)) {
[yield] let dynamic #t25 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(){() → asy::Future<dynamic>}, :async_op_then, :async_op_error) in null;
:result_or_exception;
}
}
}
asy::_completeWithNoFutureOnAsyncReturn(:async_future, :return_value, :is_sync);
return;
}
on dynamic catch(dynamic exception, core::StackTrace* stack_trace) {
asy::_completeOnAsyncError(:async_future, exception, stack_trace, :is_sync);
}
:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
:async_op(null, null){() →* dynamic};
:is_sync = true;
return :async_future;
}
constants {
#C1 = null
#C2 = ""
}