pkg/kernel/test/graph_test.dart - sdk.git - Git at Google

 // Copyright (c) 2018, 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.md file.

 library kernel.test.graph_test;

 import 'package:expect/expect.dart' show Expect;

 import 'package:kernel/util/graph.dart';

 class TestGraph implements Graph<String> {
   final Map<String, List<String>> graph;

   TestGraph(this.graph);

   Iterable<String> get vertices => graph.keys;

   Iterable<String> neighborsOf(String vertex) => graph[vertex];
 }

 void test(String expected, Map<String, List<String>> graph) {
   List<List<String>> result = computeStrongComponents(new TestGraph(graph));
   Expect.stringEquals(expected, "$result");
 }

 void checkGraph(Map<String, List<String>> graph, String startingNodeName,
     List<List<String>> expectedEvaluations, List<bool> expectedSccFlags) {
   List<List<String>> result = computeStrongComponents(new TestGraph(graph));
   List<List<String>> expectedReversed = <List<String>>[];
   for (List<String> list in expectedEvaluations) {
     expectedReversed.add(list.reversed.toList());
   }
   Expect.stringEquals(expectedReversed.join(", "), result.join(", "));
 }

 main() {
   test("[[B, A], [C], [D]]", {
     "A": ["B"],
     "B": ["A"],
     "C": ["A"],
     "D": ["C"],
   });

   test("[]", {});

   test("[[A], [B], [C], [D]]", {
     "A": [],
     "B": [],
     "C": [],
     "D": [],
   });

   test("[[B, A], [C], [D]]", {
     "D": ["C"],
     "C": ["A"],
     "B": ["A"],
     "A": ["B"],
   });

   test("[[D], [C], [B], [A]]", {
     "A": ["B"],
     "B": ["C"],
     "C": ["D"],
     "D": [],
   });

   test("[[D], [C], [B], [A]]", {
     "D": [],
     "C": ["D"],
     "B": ["C"],
     "A": ["B"],
   });

   test("[[A], [B], [C], [D]]", {
     "A": [],
     "B": ["A"],
     "C": ["A"],
     "D": ["B", "C"],
   });

   // Test a complex graph.
   checkGraph(
       {
         'a': ['b', 'c'],
         'b': ['c', 'd'],
         'c': [],
         'd': ['c', 'e'],
         'e': ['b', 'f'],
         'f': ['c', 'd']
       },
       'a',
       [
         ['c'],
         ['b', 'd', 'e', 'f'],
         ['a']
       ],
       [false, true, false]);

   // Test a diamond-shaped graph.
   checkGraph(
       {
         'a': ['b', 'c'],
         'b': ['d'],
         'c': ['d'],
         'd': []
       },
       'a',
       [
         ['d'],
         ['b'],
         ['c'],
         ['a']
       ],
       [false, false, false, false]);

   // Test a graph with a single node.
   checkGraph(
       {'a': []},
       'a',
       [
         ['a']
       ],
       [false]);

   // Test a graph with a single node and a trivial cycle.
   checkGraph(
       {
         'a': ['a']
       },
       'a',
       [
         ['a']
       ],
       [true]);

   // Test a graph with three nodes with circular dependencies.
   checkGraph(
       {
         'a': ['b'],
         'b': ['c'],
         'c': ['a'],
       },
       'a',
       [
         ['a', 'b', 'c']
       ],
       [true]);
   // Test a graph A->B->C->D, where D points back to B and then C.
   checkGraph(
       {
         'a': ['b'],
         'b': ['c'],
         'c': ['d'],
         'd': ['b', 'c']
       },
       'a',
       [
         ['b', 'c', 'd'],
         ['a']
       ],
       [true, false]);

   // Test a graph A->B->C->D, where D points back to C and then B.
   checkGraph(
       {
         'a': ['b'],
         'b': ['c'],
         'c': ['d'],
         'd': ['c', 'b']
       },
       'a',
       [
         ['b', 'c', 'd'],
         ['a']
       ],
       [true, false]);

   // Test a graph with two nodes with circular dependencies.
   checkGraph(
       {
         'a': ['b'],
         'b': ['a']
       },
       'a',
       [
         ['a', 'b']
       ],
       [true]);

   // Test a graph with two nodes and a single dependency.
   checkGraph(
       {
         'a': ['b'],
         'b': []
       },
       'a',
       [
         ['b'],
         ['a']
       ],
       [false, false]);
 }
	// Copyright (c) 2018, 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.md file.

	library kernel.test.graph_test;

	import 'package:expect/expect.dart' show Expect;

	import 'package:kernel/util/graph.dart';

	class TestGraph implements Graph<String> {
	final Map<String, List<String>> graph;

	TestGraph(this.graph);

	Iterable<String> get vertices => graph.keys;

	Iterable<String> neighborsOf(String vertex) => graph[vertex];
	}

	void test(String expected, Map<String, List<String>> graph) {
	List<List<String>> result = computeStrongComponents(new TestGraph(graph));
	Expect.stringEquals(expected, "$result");
	}

	void checkGraph(Map<String, List<String>> graph, String startingNodeName,
	List<List<String>> expectedEvaluations, List<bool> expectedSccFlags) {
	List<List<String>> result = computeStrongComponents(new TestGraph(graph));
	List<List<String>> expectedReversed = <List<String>>[];
	for (List<String> list in expectedEvaluations) {
	expectedReversed.add(list.reversed.toList());
	}
	Expect.stringEquals(expectedReversed.join(", "), result.join(", "));
	}

	main() {
	test("[[B, A], [C], [D]]", {
	"A": ["B"],
	"B": ["A"],
	"C": ["A"],
	"D": ["C"],
	});

	test("[]", {});

	test("[[A], [B], [C], [D]]", {
	"A": [],
	"B": [],
	"C": [],
	"D": [],
	});

	test("[[B, A], [C], [D]]", {
	"D": ["C"],
	"C": ["A"],
	"B": ["A"],
	"A": ["B"],
	});

	test("[[D], [C], [B], [A]]", {
	"A": ["B"],
	"B": ["C"],
	"C": ["D"],
	"D": [],
	});

	test("[[D], [C], [B], [A]]", {
	"D": [],
	"C": ["D"],
	"B": ["C"],
	"A": ["B"],
	});

	test("[[A], [B], [C], [D]]", {
	"A": [],
	"B": ["A"],
	"C": ["A"],
	"D": ["B", "C"],
	});

	// Test a complex graph.
	checkGraph(
	{
	'a': ['b', 'c'],
	'b': ['c', 'd'],
	'c': [],
	'd': ['c', 'e'],
	'e': ['b', 'f'],
	'f': ['c', 'd']
	},
	'a',
	[
	['c'],
	['b', 'd', 'e', 'f'],
	['a']
	],
	[false, true, false]);

	// Test a diamond-shaped graph.
	checkGraph(
	{
	'a': ['b', 'c'],
	'b': ['d'],
	'c': ['d'],
	'd': []
	},
	'a',
	[
	['d'],
	['b'],
	['c'],
	['a']
	],
	[false, false, false, false]);

	// Test a graph with a single node.
	checkGraph(
	{'a': []},
	'a',
	[
	['a']
	],
	[false]);

	// Test a graph with a single node and a trivial cycle.
	checkGraph(
	{
	'a': ['a']
	},
	'a',
	[
	['a']
	],
	[true]);

	// Test a graph with three nodes with circular dependencies.
	checkGraph(
	{
	'a': ['b'],
	'b': ['c'],
	'c': ['a'],
	},
	'a',
	[
	['a', 'b', 'c']
	],
	[true]);
	// Test a graph A->B->C->D, where D points back to B and then C.
	checkGraph(
	{
	'a': ['b'],
	'b': ['c'],
	'c': ['d'],
	'd': ['b', 'c']
	},
	'a',
	[
	['b', 'c', 'd'],
	['a']
	],
	[true, false]);

	// Test a graph A->B->C->D, where D points back to C and then B.
	checkGraph(
	{
	'a': ['b'],
	'b': ['c'],
	'c': ['d'],
	'd': ['c', 'b']
	},
	'a',
	[
	['b', 'c', 'd'],
	['a']
	],
	[true, false]);

	// Test a graph with two nodes with circular dependencies.
	checkGraph(
	{
	'a': ['b'],
	'b': ['a']
	},
	'a',
	[
	['a', 'b']
	],
	[true]);

	// Test a graph with two nodes and a single dependency.
	checkGraph(
	{
	'a': ['b'],
	'b': []
	},
	'a',
	[
	['b'],
	['a']
	],
	[false, false]);
	}