tests/compiler/dart2js/deferred_load_graph_segmentation2_test.dart - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 // Test of the graph segmentation algorithm used by deferred loading
 // to determine which elements can be deferred and which libraries
 // much be included in the initial download (loaded eagerly).

 import 'package:async_helper/async_helper.dart';
 import 'package:compiler/src/compiler.dart';
 import 'package:expect/expect.dart';
 import 'memory_compiler.dart';

 void main() {
   asyncTest(() async {
     CompilationResult result =
         await runCompiler(memorySourceFiles: MEMORY_SOURCE_FILES);
     Compiler compiler = result.compiler;
     var outputUnitForElement = compiler.deferredLoadTask.outputUnitForElement;
     var mainOutputUnit = compiler.deferredLoadTask.mainOutputUnit;
     var lib =
         compiler.libraryLoader.lookupLibrary(Uri.parse("memory:lib.dart"));
     var f1 = lib.find("f1");
     var f2 = lib.find("f2");
     Expect.notEquals(mainOutputUnit, outputUnitForElement(f1));
     Expect.equals(mainOutputUnit, outputUnitForElement(f2));
   });
 }

 // The main library imports lib1 and lib2 deferred and use lib1.foo1 and
 // lib2.foo2.  This should trigger seperate outputunits for main, lib1 and lib2.
 //
 // Both lib1 and lib2 import lib3 directly and
 // both use lib3.foo3.  Therefore a shared output unit for lib1 and lib2 should
 // be created.
 //
 // lib1 and lib2 also import lib4 deferred, but lib1 uses lib4.bar1 and lib2
 // uses lib4.bar2.  So two output units should be created for lib4, one for each
 // import.
 const Map MEMORY_SOURCE_FILES = const {"main.dart": """
 import "dart:async";

 import 'lib.dart' deferred as lib show f1;
 import 'lib.dart' show f2;

 void main() {
   print(f2());
   lib.loadLibrary().then((_) {
     print(lib.f1());
   });
 }
 """, "lib.dart": """
 int f1 () {
   return 1;
 }

 int f2 () {
   return 2;
 }
 """,};
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	// Test of the graph segmentation algorithm used by deferred loading
	// to determine which elements can be deferred and which libraries
	// much be included in the initial download (loaded eagerly).

	import 'package:async_helper/async_helper.dart';
	import 'package:compiler/src/compiler.dart';
	import 'package:expect/expect.dart';
	import 'memory_compiler.dart';

	void main() {
	asyncTest(() async {
	CompilationResult result =
	await runCompiler(memorySourceFiles: MEMORY_SOURCE_FILES);
	Compiler compiler = result.compiler;
	var outputUnitForElement = compiler.deferredLoadTask.outputUnitForElement;
	var mainOutputUnit = compiler.deferredLoadTask.mainOutputUnit;
	var lib =
	compiler.libraryLoader.lookupLibrary(Uri.parse("memory:lib.dart"));
	var f1 = lib.find("f1");
	var f2 = lib.find("f2");
	Expect.notEquals(mainOutputUnit, outputUnitForElement(f1));
	Expect.equals(mainOutputUnit, outputUnitForElement(f2));
	});
	}

	// The main library imports lib1 and lib2 deferred and use lib1.foo1 and
	// lib2.foo2. This should trigger seperate outputunits for main, lib1 and lib2.
	//
	// Both lib1 and lib2 import lib3 directly and
	// both use lib3.foo3. Therefore a shared output unit for lib1 and lib2 should
	// be created.
	//
	// lib1 and lib2 also import lib4 deferred, but lib1 uses lib4.bar1 and lib2
	// uses lib4.bar2. So two output units should be created for lib4, one for each
	// import.
	const Map MEMORY_SOURCE_FILES = const {"main.dart": """
	import "dart:async";

	import 'lib.dart' deferred as lib show f1;
	import 'lib.dart' show f2;

	void main() {
	print(f2());
	lib.loadLibrary().then((_) {
	print(lib.f1());
	});
	}
	""", "lib.dart": """
	int f1 () {
	return 1;
	}

	int f2 () {
	return 2;
	}
	""",};