/* * MIT License * * Copyright (c) 2019 norangebit * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * */ package it.norangeb.algorithms.graph import it.norangeb.algorithms.graph.data.Edge import org.amshove.kluent.`should be equal to` import org.amshove.kluent.`should equal` import org.spekframework.spek2.Spek import org.spekframework.spek2.style.gherkin.Feature object WeightDiGraphTest : Spek({ Feature("weight directed graph") { val graph by memoized { WeightDiGraph() } Scenario("add edges") { When("add edge 1->4:1.4") { graph.addEdge(Edge(1, 4, 1.4)) } Then("number of edge should equal to 1") { graph.edgeNumber() `should be equal to` 1 } Then("adjacent of 1 should equal listOf(1->4:1.4)") { graph.adjacentVertex(1) `should equal` listOf(Edge(1, 4, 1.4)) } Then("adjacent of 4 should be empty") { graph.adjacentVertex(4).isEmpty() `should be equal to` true } When("add edge 1->3:1.3, 3->4:3.4, 1->5:1.5") { graph.addEdge(Edge(1, 3, 1.3)) graph.addEdge(Edge(3, 4, 3.4)) graph.addEdge(Edge(1, 5, 1.5)) } Then("number of edge should equal to 4") { graph.edgeNumber() `should be equal to` 4 } Then("adjacent of 1 should equal listOf(1->3:1.3, 1->4:1.4, 1->5:1.5)") { graph.adjacentVertex(1).sorted() `should equal` listOf( Edge(1, 3, 1.3), Edge(1, 4, 1.4), Edge(1, 5, 1.5) ) } Then("adjacent of 3 should equal listOf(3->4:3.4)") { graph.adjacentVertex(3) `should equal` listOf(Edge(3, 4, 3.4)) } Then("edges should equals listOf(1->3:1.3, 1->4:1.4, 1->5:1.5, 3->4:3.4") { graph.edges().sorted() `should equal` listOf( Edge(1, 3, 1.3), Edge(1, 4, 1.4), Edge(1, 5, 1.5), Edge(3, 4, 3.4) ) } } Scenario("reverse test") { val diGraph by memoized { WeightDiGraph() } Given("directed graph 0->2:0.2, 0->4:0.4, 1->0:1.0, 1->2:1.2, 4->2:4.2") { diGraph.addEdge(Edge(0, 2, 0.2)) diGraph.addEdge(Edge(0, 4, 0.4)) diGraph.addEdge(Edge(1, 0, 1.0)) diGraph.addEdge(Edge(1, 2, 1.2)) diGraph.addEdge(Edge(4, 2, 4.2)) } lateinit var result: WeightDirectedGraph When("compute the reversed graph") { result = diGraph.reverse() } Then("adjacent of 0 should equals listOf(0->1:1.0)") { result.adjacentVertex(0) `should equal` listOf(Edge(0, 1, 1.0)) } Then("adjacent of 1 should be empty") { result.adjacentVertex(1).isEmpty() `should be equal to` true } Then("adjacent of 2 should equal listOf(2->0:0.2, 2->1:1.2, 2->4:4.2)") { result.adjacentVertex(2).sorted() `should equal` listOf( Edge(2, 0, 0.2), Edge(2, 1, 1.2), Edge(2, 4, 4.2) ) } } } })