require File.expand_path(File.dirname(__FILE__) + '/../spec_helper')
module GraphNjae
+
+ class SVertex < Vertex
+ end
+
+ class SEdge < Edge
+ end
+
describe Graph do
let (:g) { Graph.new }
describe "#initialize" do
g.edges.should be_empty
g.vertices.should be_empty
end
+
+ it "creates a graph with some parameters" do
+ g = Graph.new :value1 => 1, :value2 => "value2", :value3 => :v3
+ g.value1.should == 1
+ g.value2.should == "value2"
+ g.value3.should == :v3
+ g.value4.should be_nil
+ end
+
end # #initialize
- describe "adds attribues" do
+ describe "adds attributes" do
it "adds then reports arbitrary attributes" do
g.score = 15
- g.score == 15
+ g.score.should == 15
end
end # adds attributes
g.edges.should include(e1)
g.edges.should include(e2)
end
+
+ it "adds a subclass of Vertex" do
+ g.vertices.should be_empty
+ v1 = SVertex.new
+ v2 = SVertex.new
+ g << v1 << v2
+ g.should have(2).vertices
+ g.vertices.should include(v1)
+ g.vertices.should include(v2)
+ end
end # #<<
describe "connect" do
it "adds and records an edge between vertices" do
+ g.vertices.should be_empty
+ g.edges.should be_empty
+ v1 = Vertex.new(:name => :v1)
+ v2 = Vertex.new(:name => :v2)
+ g.connect(v1, v2)
+
+ g.should have(2).vertices
+ g.vertices.should include(v1)
+ g.vertices.should include(v2)
+ g.should have(1).edges
+ end
+
+ it "adds and records an edge with attributes between vertices" do
+ g.vertices.should be_empty
+ g.edges.should be_empty
+ v1 = Vertex.new(:name => :v1)
+ v2 = Vertex.new(:name => :v2)
+ g.connect(v1, v2, :type => :edge_type)
+
+ g.should have(2).vertices
+ g.vertices.should include(v1)
+ g.vertices.should include(v2)
+ g.should have(1).edges
+ g.edges[0].type.should == :edge_type
end
end # #connect
+ describe "product" do
+ it "finds a product graph of a pair of one-vertex graphs" do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new
+ g1 << g1v1
+ g2v1 = Vertex.new
+ g2 << g2v1
+ product = g1.product g2
+
+ product.vertices.should be_empty
+ #product.vertices.first.g1_vertex.should == g1v1
+ #product.vertices.first.g2_vertex.should == g2v1
+ product.edges.should be_empty
+ end
+
+ it "finds a product graph of a pair of simple graphs" do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new(:name => :g1v1)
+ g1v2 = Vertex.new(:name => :g1v2)
+ g1.connect(g1v1, g1v2)
+ g2v1 = Vertex.new(:name => :g2v1)
+ g2v2 = Vertex.new(:name => :g2v2)
+ g2.connect(g2v1, g2v2)
+ pg = g1.product g2
+
+ pg.should have(4).vertices
+ pg.should have(2).edges
+ end
+
+ it "finds a product graph of not-quite-simple graph" do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new(:name => :g1v1)
+ g1v2 = Vertex.new(:name => :g1v2)
+ g1v3 = Vertex.new(:name => :g1v3)
+ g1.connect(g1v1, g1v2)
+ g1.connect(g1v2, g1v3)
+ g2v1 = Vertex.new(:name => :g2v1)
+ g2v2 = Vertex.new(:name => :g2v2)
+ g2v3 = Vertex.new(:name => :g2v3)
+ g2.connect(g2v1, g2v2)
+ g2.connect(g2v2, g2v3)
+ pg = g1.product g2
+
+ pg.should have(9).vertices
+ pg.should have(8).edges
+ end
+
+ it "finds a product graph of a simple graph with edge types" do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new(:name => :g1v1)
+ g1v2 = Vertex.new(:name => :g1v2)
+ g1v3 = Vertex.new(:name => :g1v3)
+ g1.connect(g1v1, g1v2, :type => :t1)
+ g1.connect(g1v2, g1v3, :type => :t2)
+ g2v1 = Vertex.new(:name => :g2v1)
+ g2v2 = Vertex.new(:name => :g2v2)
+ g2v3 = Vertex.new(:name => :g2v3)
+ g2.connect(g2v1, g2v2, :type => :t1)
+ g2.connect(g2v2, g2v3, :type => :t2)
+ pg = g1.product g2
+
+ pg.should have(7).vertices
+ pg.should have(4).edges
+ end
+
+ it "finds a product graph of the example graph from paper" do
+ pending "implementation of directed graphs as operands of the product graph"
+ g1 = Graph.new
+ g2 = Graph.new
+ a = Vertex.new(:name => :a)
+ a1 = Vertex.new(:name => :a1)
+ a2 = Vertex.new(:name => :a2)
+ g1.connect(a, a1, :type => :l1)
+ g1.connect(a, a2, :type => :l1)
+ g1.connect(a1, a2, :type => :l2)
+ b = Vertex.new(:name => :b)
+ b1 = Vertex.new(:name => :b1)
+ b2 = Vertex.new(:name => :b2)
+ g2.connect(b, b1, :type => :l1)
+ g2.connect(b, b2, :type => :l2)
+ g2.connect(b1, b2, :type => :l2)
+ pg = g1.product g2
+
+ pg.should have(4).edges
+ pg.should have(6).vertices
+ end
+
+
+ end #product
+
+ describe "initial_similarity" do
+ before(:each) do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new(:name => :g1v1)
+ g1v2 = Vertex.new(:name => :g1v2)
+ g1.connect(g1v1, g1v2)
+ g2v1 = Vertex.new(:name => :g2v1)
+ g2v2 = Vertex.new(:name => :g2v2)
+ g2.connect(g2v1, g2v2)
+ @pg = g1.product g2
+ end
+
+ def simple_name_similarity(n1, n2)
+ 1 - n1.to_s.codepoints.to_a.delete_if {|c| n2.to_s.codepoints.to_a.include? c}.length / n1.to_s.length.to_f
+ end
+
+ it "should give all nodes an initial similarity of 1 if no block is given" do
+ @pg.initial_similarity
+ @pg.vertices.each do |v|
+ v.initial_similarity.should be_within(0.001).of(1.0)
+ v.similarity.should be_within(0.001).of(1.0)
+ end
+ end
+
+ it "should give all nodes the similarity as defined by the given block" do
+ @pg.initial_similarity {|v| simple_name_similarity v.g1_vertex.name, v.g2_vertex.name}
+ @pg.vertices.each do |v|
+ v.initial_similarity.should be_within(0.001).of( simple_name_similarity v.g1_vertex.name, v.g2_vertex.name )
+ v.similarity.should be_within(0.001).of( simple_name_similarity v.g1_vertex.name, v.g2_vertex.name )
+ end
+
+ end
+ end #initial similarity
+
+ describe "similarity flood" do
+ it "similarity floods a graph of two nodes" do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new(:name => :g1v1)
+ g1v2 = Vertex.new(:name => :g1v2)
+ g1.connect(g1v1, g1v2)
+ g2v1 = Vertex.new(:name => :g2v1)
+ g2v2 = Vertex.new(:name => :g2v2)
+ g2.connect(g2v1, g2v2)
+ pg = g1.product g2
+
+ pg.initial_similarity
+ pg.similarity_flood
+ pg.vertices.each do |v|
+ v.similarity.should be_within(0.001).of(1.0)
+ end
+ end
+
+ it "similarity floods a graph of three nodes, a -- b -- c" do
+ g1 = Graph.new
+ g2 = Graph.new
+ g1v1 = Vertex.new(:name => :g1v1)
+ g1v2 = Vertex.new(:name => :g1v2)
+ g1v3 = Vertex.new(:name => :g1v3)
+ g1.connect(g1v1, g1v2, :type => :t1)
+ g1.connect(g1v2, g1v3, :type => :t2)
+ g2v1 = Vertex.new(:name => :g2v1)
+ g2v2 = Vertex.new(:name => :g2v2)
+ g2v3 = Vertex.new(:name => :g2v3)
+ g2.connect(g2v1, g2v2, :type => :t1)
+ g2.connect(g2v2, g2v3, :type => :t2)
+ pg = g1.product g2
+
+ pg.initial_similarity
+ pg.similarity_flood
+ expected_similarities = {
+ "g1v1:g2v1" => 0.5,
+ "g1v1:g2v2" => 0.6666666666666666,
+ "g1v2:g2v1" => 0.6666666666666666,
+ "g1v2:g2v2" => 1.0,
+ "g1v2:g2v3" => 0.6666666666666666,
+ "g1v3:g2v2" => 0.6666666666666666,
+ "g1v3:g2v3" => 0.5}
+ pg.vertices.each do |v|
+ name = v.g1_vertex.name.to_s + ':' + v.g2_vertex.name.to_s
+ v.similarity.should be_within(0.001).of(expected_similarities[name])
+ end
+ end
+
+ it "simialrity floods the sample graph from the paper" do
+ pg = Graph.new
+ ab = Vertex.new(:name => "a:b")
+ a1b1 = Vertex.new(:name => "a1:b1")
+ a2b1 = Vertex.new(:name => "a2:b1")
+ a1b2 = Vertex.new(:name => "a1:b2")
+ a1b = Vertex.new(:name => "a1:b")
+ a2b2 = Vertex.new(:name => "a2:b2")
+ pg.connect(ab, a1b1, :type => :l1)
+ pg.connect(ab, a2b1, :type => :l1)
+ pg.connect(a2b1, a1b2, :type => :l2)
+ pg.connect(a1b, a2b2, :type => :l2)
+ pg.initial_similarity
+ pg.similarity_flood
+
+ expected_similarities = {
+ "a:b" => 1.0,
+ "a2:b1" => 0.92,
+ "a1:b2" => 0.71,
+ "a1:b1" => 0.38,
+ "a1:b" => 0.0,
+ "a2:b2" => 0.0}
+ pg.vertices.each do |v|
+ v.similarity.should be_within(0.02).of(expected_similarities[v.name])
+ end
+ end
+ end # similarity_flood
+
end
end