pkg/front_end/testcases/general/stream_future.dart.strong.transformed.expect - sdk.git - Git at Google

 library;
 //
 // Problems in library:
 //
 // pkg/front_end/testcases/general/stream_future.dart:18:9: Error: A value of type 'Future<dynamic>' can't be assigned to a variable of type 'FutureOr<Class>'.
 //  - 'Future' is from 'dart:async'.
 //  - 'Class' is from 'pkg/front_end/testcases/general/stream_future.dart'.
 //   yield returnFutureDynamic();
 //         ^
 //
 import self as self;
 import "dart:core" as core;
 import "dart:async" as asy;
 import "dart:_internal" as _in;

 import "dart:async";

 class Class extends core::Object {
   synthetic constructor •() → self::Class*
     : super core::Object::•()
     ;
   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
 }
 static method returnDynamic() → dynamic
   return new self::Class::•();
 static method returnClass() → self::Class*
   return new self::Class::•();
 static method returnFutureDynamic() → asy::Future<dynamic>* /* originally async */ {
   final asy::_Future<dynamic>* :async_future = new asy::_Future::•<dynamic>();
   core::bool* :is_sync = false;
   FutureOr<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;
   function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
     try {
       #L1:
       {
         :return_value = new self::Class::•();
         break #L1;
       }
       asy::_completeOnAsyncReturn(: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.call();
   :is_sync = true;
   return :async_future;
 }
 static method returnFutureClass() → asy::Future<self::Class*>* /* originally async */ {
   final asy::_Future<self::Class*>* :async_future = new asy::_Future::•<self::Class*>();
   core::bool* :is_sync = false;
   FutureOr<self::Class*>* :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;
   function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
     try {
       #L2:
       {
         :return_value = new self::Class::•();
         break #L2;
       }
       asy::_completeOnAsyncReturn(: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.call();
   :is_sync = true;
   return :async_future;
 }
 static method error() → asy::Stream<FutureOr<self::Class*>*>* /* originally async* */ {
   asy::_AsyncStarStreamController<FutureOr<self::Class*>*>* :controller;
   dynamic :controller_stream;
   (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;
   function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
     try
       try {
         #L3:
         {
           if(:controller.{asy::_AsyncStarStreamController::add}(let final<BottomType> #t1 = invalid-expression "pkg/front_end/testcases/general/stream_future.dart:18:9: Error: A value of type 'Future<dynamic>' can't be assigned to a variable of type 'FutureOr<Class>'.
  - 'Future' is from 'dart:async'.
  - 'Class' is from 'pkg/front_end/testcases/general/stream_future.dart'.
   yield returnFutureDynamic();
         ^" in self::returnFutureDynamic() as{TypeError} FutureOr<self::Class*>*))
             return null;
           else
             [yield] null;
         }
         return;
       }
       on dynamic catch(dynamic exception, core::StackTrace* stack_trace) {
         :controller.{asy::_AsyncStarStreamController::addError}(exception, stack_trace);
       }
     finally {
       :controller.{asy::_AsyncStarStreamController::close}();
     }
   :async_op_then = asy::_asyncThenWrapperHelper(:async_op);
   :async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
   :controller = new asy::_AsyncStarStreamController::•<FutureOr<self::Class*>*>(:async_op);
   :controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
   return :controller_stream;
 }
 static method stream() → asy::Stream<FutureOr<self::Class*>*>* /* originally async* */ {
   asy::_AsyncStarStreamController<FutureOr<self::Class*>*>* :controller;
   dynamic :controller_stream;
   (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;
   function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
     try
       try {
         #L4:
         {
           if(:controller.{asy::_AsyncStarStreamController::add}(self::returnDynamic() as{TypeError,ForDynamic} FutureOr<self::Class*>*))
             return null;
           else
             [yield] null;
           if(:controller.{asy::_AsyncStarStreamController::add}(self::returnClass()))
             return null;
           else
             [yield] null;
           if(:controller.{asy::_AsyncStarStreamController::add}(self::returnFutureClass()))
             return null;
           else
             [yield] null;
         }
         return;
       }
       on dynamic catch(dynamic exception, core::StackTrace* stack_trace) {
         :controller.{asy::_AsyncStarStreamController::addError}(exception, stack_trace);
       }
     finally {
       :controller.{asy::_AsyncStarStreamController::close}();
     }
   :async_op_then = asy::_asyncThenWrapperHelper(:async_op);
   :async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
   :controller = new asy::_AsyncStarStreamController::•<FutureOr<self::Class*>*>(:async_op);
   :controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
   return :controller_stream;
 }
 static method main() → dynamic /* originally async */ {
   final asy::_Future<dynamic>* :async_future = new asy::_Future::•<dynamic>();
   core::bool* :is_sync = false;
   FutureOr<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, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
     try {
       #L5:
       {
         {
           asy::Stream<FutureOr<self::Class*>*>* :stream = self::stream();
           asy::_StreamIterator<FutureOr<self::Class*>*>* :for-iterator = new asy::_StreamIterator::•<FutureOr<self::Class*>*>(:stream);
           try
             #L6:
             while (true) {
               dynamic #t2 = asy::_asyncStarMoveNextHelper(:stream);
               [yield] let dynamic #t3 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(), :async_op_then, :async_op_error, :async_op) in null;
               if(_in::unsafeCast<core::bool>(:result)) {
                 FutureOr<self::Class*>* cls = :for-iterator.{asy::_StreamIterator::current};
                 {
                   core::print(cls);
                 }
               }
               else
                 break #L6;
             }
           finally
             if(!:for-iterator.{asy::_StreamIterator::_subscription}.{core::Object::==}(null)) {
               [yield] let dynamic #t4 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(), :async_op_then, :async_op_error, :async_op) in null;
               :result;
             }
         }
       }
       asy::_completeOnAsyncReturn(: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.call();
   :is_sync = true;
   return :async_future;
 }
	library;
	//
	// Problems in library:
	//
	// pkg/front_end/testcases/general/stream_future.dart:18:9: Error: A value of type 'Future<dynamic>' can't be assigned to a variable of type 'FutureOr<Class>'.
	// - 'Future' is from 'dart:async'.
	// - 'Class' is from 'pkg/front_end/testcases/general/stream_future.dart'.
	// yield returnFutureDynamic();
	// ^
	//
	import self as self;
	import "dart:core" as core;
	import "dart:async" as asy;
	import "dart:_internal" as _in;

	import "dart:async";

	class Class extends core::Object {
	synthetic constructor •() → self::Class*
	: super core::Object::•()
	;
	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
	}
	static method returnDynamic() → dynamic
	return new self::Class::•();
	static method returnClass() → self::Class*
	return new self::Class::•();
	static method returnFutureDynamic() → asy::Future<dynamic>* /* originally async */ {
	final asy::_Future<dynamic>* :async_future = new asy::_Future::•<dynamic>();
	core::bool* :is_sync = false;
	FutureOr<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;
	function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
	try {
	#L1:
	{
	:return_value = new self::Class::•();
	break #L1;
	}
	asy::_completeOnAsyncReturn(: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.call();
	:is_sync = true;
	return :async_future;
	}
	static method returnFutureClass() → asy::Future<self::Class> /* originally async */ {
	final asy::_Future<self::Class> :async_future = new asy::_Future::•<self::Class*>();
	core::bool* :is_sync = false;
	FutureOr<self::Class> :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;
	function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
	try {
	#L2:
	{
	:return_value = new self::Class::•();
	break #L2;
	}
	asy::_completeOnAsyncReturn(: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.call();
	:is_sync = true;
	return :async_future;
	}
	static method error() → asy::Stream<FutureOr<self::Class>>* /* originally async* */ {
	asy::_AsyncStarStreamController<FutureOr<self::Class>>* :controller;
	dynamic :controller_stream;
	(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;
	function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
	try
	try {
	#L3:
	{
	if(:controller.{asy::_AsyncStarStreamController::add}(let final<BottomType> #t1 = invalid-expression "pkg/front_end/testcases/general/stream_future.dart:18:9: Error: A value of type 'Future<dynamic>' can't be assigned to a variable of type 'FutureOr<Class>'.
	- 'Future' is from 'dart:async'.
	- 'Class' is from 'pkg/front_end/testcases/general/stream_future.dart'.
	yield returnFutureDynamic();
	^" in self::returnFutureDynamic() as{TypeError} FutureOr<self::Class>))
	return null;
	else
	[yield] null;
	}
	return;
	}
	on dynamic catch(dynamic exception, core::StackTrace* stack_trace) {
	:controller.{asy::_AsyncStarStreamController::addError}(exception, stack_trace);
	}
	finally {
	:controller.{asy::_AsyncStarStreamController::close}();
	}
	:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
	:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
	:controller = new asy::_AsyncStarStreamController::•<FutureOr<self::Class>>(:async_op);
	:controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
	return :controller_stream;
	}
	static method stream() → asy::Stream<FutureOr<self::Class>>* /* originally async* */ {
	asy::_AsyncStarStreamController<FutureOr<self::Class>>* :controller;
	dynamic :controller_stream;
	(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;
	function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
	try
	try {
	#L4:
	{
	if(:controller.{asy::_AsyncStarStreamController::add}(self::returnDynamic() as{TypeError,ForDynamic} FutureOr<self::Class>))
	return null;
	else
	[yield] null;
	if(:controller.{asy::_AsyncStarStreamController::add}(self::returnClass()))
	return null;
	else
	[yield] null;
	if(:controller.{asy::_AsyncStarStreamController::add}(self::returnFutureClass()))
	return null;
	else
	[yield] null;
	}
	return;
	}
	on dynamic catch(dynamic exception, core::StackTrace* stack_trace) {
	:controller.{asy::_AsyncStarStreamController::addError}(exception, stack_trace);
	}
	finally {
	:controller.{asy::_AsyncStarStreamController::close}();
	}
	:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
	:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
	:controller = new asy::_AsyncStarStreamController::•<FutureOr<self::Class>>(:async_op);
	:controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
	return :controller_stream;
	}
	static method main() → dynamic /* originally async */ {
	final asy::_Future<dynamic>* :async_future = new asy::_Future::•<dynamic>();
	core::bool* :is_sync = false;
	FutureOr<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, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
	try {
	#L5:
	{
	{
	asy::Stream<FutureOr<self::Class>>* :stream = self::stream();
	asy::_StreamIterator<FutureOr<self::Class>>* :for-iterator = new asy::_StreamIterator::•<FutureOr<self::Class>>(:stream);
	try
	#L6:
	while (true) {
	dynamic #t2 = asy::_asyncStarMoveNextHelper(:stream);
	[yield] let dynamic #t3 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::moveNext}(), :async_op_then, :async_op_error, :async_op) in null;
	if(_in::unsafeCast<core::bool>(:result)) {
	FutureOr<self::Class> cls = :for-iterator.{asy::_StreamIterator::current};
	{
	core::print(cls);
	}
	}
	else
	break #L6;
	}
	finally
	if(!:for-iterator.{asy::_StreamIterator::_subscription}.{core::Object::==}(null)) {
	[yield] let dynamic #t4 = asy::_awaitHelper(:for-iterator.{asy::_StreamIterator::cancel}(), :async_op_then, :async_op_error, :async_op) in null;
	:result;
	}
	}
	}
	asy::_completeOnAsyncReturn(: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.call();
	:is_sync = true;
	return :async_future;
	}