var DepGraph = require('../lib/dep_graph').DepGraph; describe('DepGraph', function () { it('should be able to add/remove nodes', function () { var graph = new DepGraph(); graph.addNode('Foo'); graph.addNode('Bar'); expect(graph.hasNode('Foo')).toBe(true); expect(graph.hasNode('Bar')).toBe(true); expect(graph.hasNode('NotThere')).toBe(false); graph.removeNode('Bar'); expect(graph.hasNode('Bar')).toBe(false); }); it('should calculate its size', function () { var graph = new DepGraph(); expect(graph.size()).toEqual(0); graph.addNode('Foo'); graph.addNode('Bar'); expect(graph.size()).toEqual(2); graph.removeNode('Bar'); expect(graph.size()).toEqual(1); }); it('should treat the node data parameter as optional and use the node name as data if node data was not given', function () { var graph = new DepGraph(); graph.addNode('Foo'); expect(graph.getNodeData('Foo')).toBe('Foo'); }); it('should be able to associate a node name with data on node add', function () { var graph = new DepGraph(); graph.addNode('Foo', 'data'); expect(graph.getNodeData('Foo')).toBe('data'); }); it('should be able to add undefined as node data', function () { var graph = new DepGraph(); graph.addNode('Foo', undefined); expect(graph.getNodeData('Foo')).toBe(undefined); }); it('should return true when using hasNode with a node which has falsy data', function () { var graph = new DepGraph(); var falsyData = ['', 0, null, undefined, false]; graph.addNode('Foo'); falsyData.forEach(function(data) { graph.setNodeData('Foo', data); expect(graph.hasNode('Foo')).toBe(true); // Just an extra check to make sure that the saved data is correct expect(graph.getNodeData('Foo')).toBe(data); }); }); it('should be able to set data after a node was added', function () { var graph = new DepGraph(); graph.addNode('Foo', 'data'); graph.setNodeData('Foo', 'data2'); expect(graph.getNodeData('Foo')).toBe('data2'); }); it('should throw an error if we try to set data for a non-existing node', function () { var graph = new DepGraph(); expect(function () { graph.setNodeData('Foo', 'data'); }).toThrow(new Error('Node does not exist: Foo')); }); it('should throw an error if the node does not exists and we try to get data', function () { var graph = new DepGraph(); expect(function () { graph.getNodeData('Foo'); }).toThrow(new Error('Node does not exist: Foo')); }); it('should do nothing if creating a node that already exists', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addDependency('a','b'); graph.addNode('a'); expect(graph.dependenciesOf('a')).toEqual(['b']); }); it('should do nothing if removing a node that does not exist', function () { var graph = new DepGraph(); graph.addNode('a'); expect(graph.hasNode('a')).toBe(true); graph.removeNode('a'); expect(graph.hasNode('Foo')).toBe(false); graph.removeNode('a'); expect(graph.hasNode('Foo')).toBe(false); }); it('should be able to add dependencies between nodes', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addDependency('a','b'); graph.addDependency('a','c'); expect(graph.dependenciesOf('a')).toEqual(['b', 'c']); }); it('should throw an error if a node does not exist and a dependency is added', function () { var graph = new DepGraph(); graph.addNode('a'); expect(function () { graph.addDependency('a','b'); }).toThrow(new Error('Node does not exist: b')); }); it('should detect cycles', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addNode('d'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); graph.addDependency('c', 'a'); graph.addDependency('d', 'a'); expect(function () { graph.dependenciesOf('b'); }).toThrow(new Error('Dependency Cycle Found: b -> c -> a -> b')); }); it('should allow cycles when configured', function () { var graph = new DepGraph({ circular: true }); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addNode('d'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); graph.addDependency('c', 'a'); graph.addDependency('d', 'a'); expect(graph.dependenciesOf('b')).toEqual(['a', 'c']); expect(graph.overallOrder()).toEqual(['c', 'b', 'a', 'd']); }); it('should detect cycles in overall order', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addNode('d'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); graph.addDependency('c', 'a'); graph.addDependency('d', 'a'); expect(function () { graph.overallOrder(); }).toThrow(new Error('Dependency Cycle Found: a -> b -> c -> a')); }); it('should detect cycles in overall order when all nodes have dependants (incoming edges)', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); graph.addDependency('c', 'a'); expect(function () { graph.overallOrder(); }).toThrow(new Error('Dependency Cycle Found: a -> b -> c -> a')); }); it('should detect cycles in overall order when there are several ' + 'disconnected subgraphs (with one that does not have a cycle', function () { var graph = new DepGraph(); graph.addNode('a_1'); graph.addNode('a_2'); graph.addNode('b_1'); graph.addNode('b_2'); graph.addNode('b_3'); graph.addDependency('a_1', 'a_2'); graph.addDependency('b_1', 'b_2'); graph.addDependency('b_2', 'b_3'); graph.addDependency('b_3', 'b_1'); expect(function () { graph.overallOrder(); }).toThrow(new Error('Dependency Cycle Found: b_1 -> b_2 -> b_3 -> b_1')); }); it('should retrieve dependencies and dependants in the correct order', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addNode('d'); graph.addDependency('a', 'd'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); graph.addDependency('d', 'b'); expect(graph.dependenciesOf('a')).toEqual(['c', 'b', 'd']); expect(graph.dependenciesOf('b')).toEqual(['c']); expect(graph.dependenciesOf('c')).toEqual([]); expect(graph.dependenciesOf('d')).toEqual(['c', 'b']); expect(graph.dependantsOf('a')).toEqual([]); expect(graph.dependantsOf('b')).toEqual(['a','d']); expect(graph.dependantsOf('c')).toEqual(['a','d','b']); expect(graph.dependantsOf('d')).toEqual(['a']); }); it('should be able to resolve the overall order of things', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addNode('d'); graph.addNode('e'); graph.addDependency('a', 'b'); graph.addDependency('a', 'c'); graph.addDependency('b', 'c'); graph.addDependency('c', 'd'); expect(graph.overallOrder()).toEqual(['d', 'c', 'b', 'a', 'e']); }); it('should be able to only retrieve the "leaves" in the overall order', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addNode('d'); graph.addNode('e'); graph.addDependency('a', 'b'); graph.addDependency('a', 'c'); graph.addDependency('b', 'c'); graph.addDependency('c', 'd'); expect(graph.overallOrder(true)).toEqual(['d', 'e']); }); it('should be able to give the overall order for a graph with several disconnected subgraphs', function () { var graph = new DepGraph(); graph.addNode('a_1'); graph.addNode('a_2'); graph.addNode('b_1'); graph.addNode('b_2'); graph.addNode('b_3'); graph.addDependency('a_1', 'a_2'); graph.addDependency('b_1', 'b_2'); graph.addDependency('b_2', 'b_3'); expect(graph.overallOrder()).toEqual(['a_2', 'a_1', 'b_3', 'b_2', 'b_1']); }); it('should give an empty overall order for an empty graph', function () { var graph = new DepGraph(); expect(graph.overallOrder()).toEqual([]); }); it('should still work after nodes are removed', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); expect(graph.dependenciesOf('a')).toEqual(['c', 'b']); graph.removeNode('c'); expect(graph.dependenciesOf('a')).toEqual(['b']); }); it('should clone an empty graph', function () { var graph = new DepGraph(); expect(graph.size()).toEqual(0); var cloned = graph.clone(); expect(cloned.size()).toEqual(0); expect(graph === cloned).toBe(false); }); it('should clone a non-empty graph', function () { var graph = new DepGraph(); graph.addNode('a'); graph.addNode('b'); graph.addNode('c'); graph.addDependency('a', 'b'); graph.addDependency('b', 'c'); var cloned = graph.clone(); expect(graph === cloned).toBe(false); expect(cloned.hasNode('a')).toBe(true); expect(cloned.hasNode('b')).toBe(true); expect(cloned.hasNode('c')).toBe(true); expect(cloned.dependenciesOf('a')).toEqual(['c', 'b']); expect(cloned.dependantsOf('c')).toEqual(['a', 'b']); // Changes to the original graph shouldn't affect the clone graph.removeNode('c'); expect(graph.dependenciesOf('a')).toEqual(['b']); expect(cloned.dependenciesOf('a')).toEqual(['c', 'b']); graph.addNode('d'); graph.addDependency('b', 'd'); expect(graph.dependenciesOf('a')).toEqual(['d', 'b']); expect(cloned.dependenciesOf('a')).toEqual(['c', 'b']); }); it('should only be a shallow clone', function () { var graph = new DepGraph(); var data = {a: 42}; graph.addNode('a', data); var cloned = graph.clone(); expect(graph === cloned).toBe(false); expect(graph.getNodeData('a') === cloned.getNodeData('a')).toBe(true); graph.getNodeData('a').a = 43; expect(cloned.getNodeData('a').a).toEqual(43); cloned.setNodeData('a', {a: 42}); expect(cloned.getNodeData('a').a).toEqual(42); expect(graph.getNodeData('a') === cloned.getNodeData('a')).toBe(false); }); });