pkg/front_end/testcases/inference/top_level_return_and_yield.dart.strong.transformed.expect - sdk.git - Git at Google

 library test;
 //
 // Problems in library:
 //
 // pkg/front_end/testcases/inference/top_level_return_and_yield.dart:18:36: Error: A value of type 'dynamic Function(dynamic)' can't be assigned to a variable of type 'FutureOr<int Function(int)>'.
 //  - 'FutureOr' is from 'dart:async'.
 // Try changing the type of the left hand side, or casting the right hand side to 'FutureOr<int Function(int)>'.
 //   return /*@ returnType=dynamic */ (/*@ type=dynamic */ x) => x;
 //                                    ^
 //
 import self as self;
 import "dart:core" as core;
 import "dart:async" as asy;

 import "dart:async";

 typedef IntToInt = (core::int*) →* core::int*;
 static method a() → (core::int*) →* core::int* {
   return (core::int* x) → core::int* => x;
 }
 static method b() → asy::Future<(core::int*) →* core::int*>* /* originally async */ {
   final asy::_AsyncAwaitCompleter<(core::int*) →* core::int*>* :async_completer = new asy::_AsyncAwaitCompleter::•<(core::int*) →* core::int*>();
   asy::FutureOr<(core::int*) →* core::int*>* :return_value;
   dynamic :async_stack_trace;
   dynamic :async_op_then;
   dynamic :async_op_error;
   dynamic :await_jump_var = 0;
   dynamic :await_ctx_var;
   function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
     try {
       #L1:
       {
         :return_value = let final<BottomType> #t1 = invalid-expression "pkg/front_end/testcases/inference/top_level_return_and_yield.dart:18:36: Error: A value of type 'dynamic Function(dynamic)' can't be assigned to a variable of type 'FutureOr<int Function(int)>'.
  - 'FutureOr' is from 'dart:async'.
 Try changing the type of the left hand side, or casting the right hand side to 'FutureOr<int Function(int)>'.
   return /*@ returnType=dynamic */ (/*@ type=dynamic */ x) => x;
                                    ^" in ((dynamic x) → dynamic => x) as{TypeError} asy::FutureOr<(core::int*) →* core::int*>*;
         break #L1;
       }
       asy::_completeOnAsyncReturn(:async_completer, :return_value);
       return;
     }
     on dynamic catch(dynamic :exception, dynamic :stack_trace) {
       :async_completer.{asy::Completer::completeError}(:exception, :stack_trace);
     }
   :async_stack_trace = asy::_asyncStackTraceHelper(:async_op);
   :async_op_then = asy::_asyncThenWrapperHelper(:async_op);
   :async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
   :async_completer.start(:async_op);
   return :async_completer.{asy::Completer::future};
 }
 static method c() → core::Iterable<(core::int*) →* core::int*>* /* originally sync* */ {
   dynamic :await_jump_var = 0;
   dynamic :await_ctx_var;
   function :sync_op(core::_SyncIterator<(core::int*) →* core::int*>* :iterator) → core::bool* yielding {
     {
       {
         :iterator.{core::_SyncIterator::_current} = (core::int* x) → core::int* => x;
         [yield] true;
       }
     }
     return false;
   }
   return new core::_SyncIterable::•<(core::int*) →* core::int*>(:sync_op);
 }
 static method d() → core::Iterable<(core::int*) →* core::int*>* /* originally sync* */ {
   dynamic :await_jump_var = 0;
   dynamic :await_ctx_var;
   function :sync_op(core::_SyncIterator<(core::int*) →* core::int*>* :iterator) → core::bool* yielding {
     {
       {
         :iterator.{core::_SyncIterator::_yieldEachIterable} = <(core::int*) →* core::int*>[(core::int* x) → core::int* => x];
         [yield] true;
       }
     }
     return false;
   }
   return new core::_SyncIterable::•<(core::int*) →* core::int*>(:sync_op);
 }
 static method e() → asy::Stream<(core::int*) →* core::int*>* /* originally async* */ {
   asy::_AsyncStarStreamController<(core::int*) →* core::int*>* :controller;
   dynamic :controller_stream;
   dynamic :async_stack_trace;
   dynamic :async_op_then;
   dynamic :async_op_error;
   dynamic :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 {
         #L2:
         {
           if(:controller.{asy::_AsyncStarStreamController::add}((core::int* x) → core::int* => x))
             return null;
           else
             [yield] null;
         }
         return;
       }
       on dynamic catch(dynamic :exception, dynamic :stack_trace) {
         :controller.{asy::_AsyncStarStreamController::addError}(:exception, :stack_trace);
       }
     finally {
       :controller.{asy::_AsyncStarStreamController::close}();
     }
   :async_stack_trace = asy::_asyncStackTraceHelper(:async_op);
   :async_op_then = asy::_asyncThenWrapperHelper(:async_op);
   :async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
   :controller = new asy::_AsyncStarStreamController::•<(core::int*) →* core::int*>(:async_op);
   :controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
   return :controller_stream;
 }
 static method f() → asy::Stream<(core::int*) →* core::int*>* /* originally async* */ {
   asy::_AsyncStarStreamController<(core::int*) →* core::int*>* :controller;
   dynamic :controller_stream;
   dynamic :async_stack_trace;
   dynamic :async_op_then;
   dynamic :async_op_error;
   dynamic :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::addStream}(asy::Stream::fromIterable<(core::int*) →* core::int*>(<(core::int*) →* core::int*>[(core::int* x) → core::int* => x])))
             return null;
           else
             [yield] null;
         }
         return;
       }
       on dynamic catch(dynamic :exception, dynamic :stack_trace) {
         :controller.{asy::_AsyncStarStreamController::addError}(:exception, :stack_trace);
       }
     finally {
       :controller.{asy::_AsyncStarStreamController::close}();
     }
   :async_stack_trace = asy::_asyncStackTraceHelper(:async_op);
   :async_op_then = asy::_asyncThenWrapperHelper(:async_op);
   :async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
   :controller = new asy::_AsyncStarStreamController::•<(core::int*) →* core::int*>(:async_op);
   :controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
   return :controller_stream;
 }
 static method main() → dynamic {}
	library test;
	//
	// Problems in library:
	//
	// pkg/front_end/testcases/inference/top_level_return_and_yield.dart:18:36: Error: A value of type 'dynamic Function(dynamic)' can't be assigned to a variable of type 'FutureOr<int Function(int)>'.
	// - 'FutureOr' is from 'dart:async'.
	// Try changing the type of the left hand side, or casting the right hand side to 'FutureOr<int Function(int)>'.
	// return /@ returnType=dynamic / (/@ type=dynamic / x) => x;
	// ^
	//
	import self as self;
	import "dart:core" as core;
	import "dart:async" as asy;

	import "dart:async";

	typedef IntToInt = (core::int) → core::int*;
	static method a() → (core::int) → core::int* {
	return (core::int* x) → core::int* => x;
	}
	static method b() → asy::Future<(core::int) → core::int> /* originally async */ {
	final asy::_AsyncAwaitCompleter<(core::int) → core::int> :async_completer = new asy::_AsyncAwaitCompleter::•<(core::int) → core::int*>();
	asy::FutureOr<(core::int) → core::int> :return_value;
	dynamic :async_stack_trace;
	dynamic :async_op_then;
	dynamic :async_op_error;
	dynamic :await_jump_var = 0;
	dynamic :await_ctx_var;
	function :async_op([dynamic :result, dynamic :exception, dynamic :stack_trace]) → dynamic yielding
	try {
	#L1:
	{
	:return_value = let final<BottomType> #t1 = invalid-expression "pkg/front_end/testcases/inference/top_level_return_and_yield.dart:18:36: Error: A value of type 'dynamic Function(dynamic)' can't be assigned to a variable of type 'FutureOr<int Function(int)>'.
	- 'FutureOr' is from 'dart:async'.
	Try changing the type of the left hand side, or casting the right hand side to 'FutureOr<int Function(int)>'.
	return /@ returnType=dynamic / (/@ type=dynamic / x) => x;
	^" in ((dynamic x) → dynamic => x) as{TypeError} asy::FutureOr<(core::int) → core::int>;
	break #L1;
	}
	asy::_completeOnAsyncReturn(:async_completer, :return_value);
	return;
	}
	on dynamic catch(dynamic :exception, dynamic :stack_trace) {
	:async_completer.{asy::Completer::completeError}(:exception, :stack_trace);
	}
	:async_stack_trace = asy::_asyncStackTraceHelper(:async_op);
	:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
	:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
	:async_completer.start(:async_op);
	return :async_completer.{asy::Completer::future};
	}
	static method c() → core::Iterable<(core::int) → core::int> /* originally sync* */ {
	dynamic :await_jump_var = 0;
	dynamic :await_ctx_var;
	function :sync_op(core::_SyncIterator<(core::int) → core::int> :iterator) → core::bool* yielding {
	{
	{
	:iterator.{core::_SyncIterator::_current} = (core::int* x) → core::int* => x;
	[yield] true;
	}
	}
	return false;
	}
	return new core::_SyncIterable::•<(core::int) → core::int*>(:sync_op);
	}
	static method d() → core::Iterable<(core::int) → core::int> /* originally sync* */ {
	dynamic :await_jump_var = 0;
	dynamic :await_ctx_var;
	function :sync_op(core::_SyncIterator<(core::int) → core::int> :iterator) → core::bool* yielding {
	{
	{
	:iterator.{core::_SyncIterator::_yieldEachIterable} = <(core::int) → core::int>[(core::int x) → core::int* => x];
	[yield] true;
	}
	}
	return false;
	}
	return new core::_SyncIterable::•<(core::int) → core::int*>(:sync_op);
	}
	static method e() → asy::Stream<(core::int) → core::int> /* originally async* */ {
	asy::_AsyncStarStreamController<(core::int) → core::int> :controller;
	dynamic :controller_stream;
	dynamic :async_stack_trace;
	dynamic :async_op_then;
	dynamic :async_op_error;
	dynamic :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 {
	#L2:
	{
	if(:controller.{asy::_AsyncStarStreamController::add}((core::int* x) → core::int* => x))
	return null;
	else
	[yield] null;
	}
	return;
	}
	on dynamic catch(dynamic :exception, dynamic :stack_trace) {
	:controller.{asy::_AsyncStarStreamController::addError}(:exception, :stack_trace);
	}
	finally {
	:controller.{asy::_AsyncStarStreamController::close}();
	}
	:async_stack_trace = asy::_asyncStackTraceHelper(:async_op);
	:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
	:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
	:controller = new asy::_AsyncStarStreamController::•<(core::int) → core::int*>(:async_op);
	:controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
	return :controller_stream;
	}
	static method f() → asy::Stream<(core::int) → core::int> /* originally async* */ {
	asy::_AsyncStarStreamController<(core::int) → core::int> :controller;
	dynamic :controller_stream;
	dynamic :async_stack_trace;
	dynamic :async_op_then;
	dynamic :async_op_error;
	dynamic :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::addStream}(asy::Stream::fromIterable<(core::int) → core::int>(<(core::int) →* core::int>[(core::int x) → core::int* => x])))
	return null;
	else
	[yield] null;
	}
	return;
	}
	on dynamic catch(dynamic :exception, dynamic :stack_trace) {
	:controller.{asy::_AsyncStarStreamController::addError}(:exception, :stack_trace);
	}
	finally {
	:controller.{asy::_AsyncStarStreamController::close}();
	}
	:async_stack_trace = asy::_asyncStackTraceHelper(:async_op);
	:async_op_then = asy::_asyncThenWrapperHelper(:async_op);
	:async_op_error = asy::_asyncErrorWrapperHelper(:async_op);
	:controller = new asy::_AsyncStarStreamController::•<(core::int) → core::int*>(:async_op);
	:controller_stream = :controller.{asy::_AsyncStarStreamController::stream};
	return :controller_stream;
	}
	static method main() → dynamic {}