/* WUGTest.java */
/**
* The WUGTest class tests the WUGraph class.
*/
import wuGraph.*;
public class WUGTest {
private static int vertexTest(Object[] vertArray) {
int result;
int countDeduction = 0;
int getDeduction = 0;
int isVDeduction = 0;
WUGraph g;
Object[] wuVertArray;
System.out.println("Running vertex test.");
System.out.println("Creating empty graph.");
g = new WUGraph();
result = g.vertexCount();
if (result != 0) {
System.out.println("vertexCount() on empty graph returns " + result +
" but should return 0.");
countDeduction = 1;
}
result = g.edgeCount();
if (result != 0) {
System.out.println("edgeCount() on empty graph returns " + result +
" but should return 0.");
countDeduction = 1;
}
if (g.getVertices() != null) {
System.out.println("getVertices() on empty graph should return null" +
" but doesn't.");
getDeduction = 1;
}
if (g.isVertex(vertArray[0])) {
System.out.println("isVertex() on vertex 0 should return false" +
" but returns true.");
isVDeduction = 1;
}
System.out.println("Adding vertex 0.");
g.addVertex(vertArray[0]);
result = g.vertexCount();
if (result != 1) {
System.out.println("vertexCount() returns " + result +
" but should return 1.");
countDeduction = 1;
}
if (!g.isVertex(vertArray[0])) {
System.out.println("isVertex() on vertex 0 should return true" +
" but returns false.");
isVDeduction = 1;
}
if (g.isVertex(vertArray[1])) {
System.out.println("isVertex() on vertex 1 should return false" +
" but returns true.");
isVDeduction = 1;
}
wuVertArray = g.getVertices();
if (wuVertArray == null) {
System.out.println("getVertices() returns null but shouldn't.");
getDeduction = 1;
} else if (wuVertArray.length != 1) {
System.out.println("getVertices() returns array of length " +
wuVertArray.length + "; should have length 1.");
getDeduction = 1;
} else if (wuVertArray[0] != vertArray[0]) {
System.out.println("getVertices() returns array containing" +
" the wrong object.");
getDeduction = 1;
}
System.out.println("Adding vertex 1.");
g.addVertex(vertArray[1]);
result = g.vertexCount();
if (result != 2) {
System.out.println("vertexCount() returns " + result +
" but should return 2.");
countDeduction = 1;
}
if (!g.isVertex(vertArray[1])) {
System.out.println("isVertex() on vertex 1 should return true" +
" but returns false.");
isVDeduction = 1;
}
System.out.println("Adding vertex 0.");
g.addVertex(vertArray[0]);
result = g.vertexCount();
if (result != 2) {
System.out.println("vertexCount() returns " + result +
" but should return 2.");
countDeduction = 1;
}
if (!g.isVertex(vertArray[0])) {
System.out.println("isVertex() on vertex 0 should return true " +
" but returns false.");
isVDeduction = 1;
}
wuVertArray = g.getVertices();
if (wuVertArray == null) {
System.out.println("getVertices() returns null but shouldn't.");
getDeduction = 1;
} else if (wuVertArray.length != 2) {
System.out.println("getVertices() returns array of length " +
wuVertArray.length + "; should have length 2.");
getDeduction = 1;
} else if (((wuVertArray[0] != vertArray[0]) ||
(wuVertArray[1] != vertArray[1])) &&
((wuVertArray[0] != vertArray[1]) ||
(wuVertArray[1] != vertArray[0]))) {
System.out.println("getVertices() returns array containing" +
" wrong objects.");
getDeduction = 1;
}
System.out.println("Adding vertex 2.");
g.addVertex(vertArray[2]);
System.out.println("Adding vertex 3.");
g.addVertex(vertArray[3]);
System.out.println("Adding vertex 4.");
g.addVertex(vertArray[4]);
result = g.vertexCount();
if (result != 5) {
System.out.println("vertexCount() returns " + result +
" but should return 5.");
countDeduction = 1;
}
wuVertArray = g.getVertices();
if (wuVertArray == null) {
System.out.println("getVertices() returns null but shouldn't.");
getDeduction = 1;
} else if (wuVertArray.length != 5) {
System.out.println("getVertices() returns array of length " +
wuVertArray.length + "; should have length 5.");
getDeduction = 1;
}
System.out.println("Removing vertex 0.");
g.removeVertex(vertArray[0]);
System.out.println("Removing vertex 3.");
g.removeVertex(vertArray[3]);
result = g.vertexCount();
if (result != 3) {
System.out.println("vertexCount() returns " + result +
" but should return 3.");
countDeduction = 1;
}
System.out.println("Removing vertex 3.");
g.removeVertex(vertArray[3]);
result = g.vertexCount();
if (result != 3) {
System.out.println("vertexCount() returns " + result +
" but should return 3.");
countDeduction = 1;
}
result = g.edgeCount();
if (result != 0) {
System.out.println("edgeCount() on empty graph returns " + result +
" but should return 0.");
countDeduction = 1;
}
if (g.isVertex(vertArray[0])) {
System.out.println("isVertex() on vertex 0 should return false" +
" but returns true.");
isVDeduction = 1;
}
if (g.isVertex(vertArray[3])) {
System.out.println("isVertex() on vertex 3 should return false" +
" but returns true.");
isVDeduction = 1;
}
if (!g.isVertex(vertArray[4])) {
System.out.println("isVertex() on vertex 4 should return true" +
" but returns false.");
isVDeduction = 1;
}
wuVertArray = g.getVertices();
if (wuVertArray == null) {
System.out.println("getVertices() returns null but shouldn't.");
getDeduction = 1;
} else if (wuVertArray.length != 3) {
System.out.println("getVertices() returns array of length " +
wuVertArray.length + "; should have length 3.");
getDeduction = 1;
} else if (((wuVertArray[0] != vertArray[1]) &&
(wuVertArray[0] != vertArray[2]) &&
(wuVertArray[0] != vertArray[4])) ||
((wuVertArray[1] != vertArray[1]) &&
(wuVertArray[1] != vertArray[2]) &&
(wuVertArray[1] != vertArray[4])) ||
((wuVertArray[2] != vertArray[1]) &&
(wuVertArray[2] != vertArray[2]) &&
(wuVertArray[2] != vertArray[4]))) {
System.out.println("getVertices() returns array containing " +
"wrong objects.");
getDeduction = 1;
} else if ((wuVertArray[0] == wuVertArray[1]) ||
(wuVertArray[1] == wuVertArray[2]) ||
(wuVertArray[2] == wuVertArray[0])) {
System.out.println("getVertices() returns array containing " +
"duplicate objects.");
getDeduction = 1;
}
System.out.println();
return countDeduction + getDeduction + isVDeduction;
}
private static int edgeTest(Object[] vertArray) {
int result;
int countDeduction = 0;
int degreeDeduction = 0;
int getDeduction = 0;
int isDeduction = 0;
int weightDeduction = 0;
int remEDeduction = 0;
int remVDeduction = 0;
WUGraph g;
Neighbors neigh;
System.out.println("Running edge test.");
System.out.println("Creating empty graph.");
g = new WUGraph();
System.out.println("Adding vertex 0.");
g.addVertex(vertArray[0]);
System.out.println("Adding vertex 1.");
g.addVertex(vertArray[1]);
System.out.println("Adding vertex 2.");
g.addVertex(vertArray[2]);
System.out.println("Adding vertex 3.");
g.addVertex(vertArray[3]);
System.out.println("Adding vertex 4.");
g.addVertex(vertArray[4]);
System.out.println("Adding vertex 5.");
g.addVertex(vertArray[5]);
System.out.println("Adding vertex 6.");
g.addVertex(vertArray[6]);
System.out.println("Adding vertex 7.");
g.addVertex(vertArray[7]);
System.out.println("Adding vertex 8.");
g.addVertex(vertArray[8]);
System.out.println("Adding vertex 9.");
g.addVertex(vertArray[9]);
result = g.degree(vertArray[3]);
if (result != 0) {
System.out.println("degree(vertex 3) returns " + result +
" but should return 0.");
degreeDeduction = 1;
}
if (g.getNeighbors(vertArray[3]) != null) {
System.out.println("getNeighbors(vertex 3) should return null " +
" but doesn't.");
getDeduction = 1;
}
if (g.isEdge(vertArray[3], vertArray[7])) {
System.out.println("isEdge(vertex 3, vertex 7) should return false " +
" but returns true.");
isDeduction = 1;
}
result = g.weight(vertArray[3], vertArray[7]);
if (result != 0) {
System.out.println("weight(vertex 3, vertex 7) returns " + result +
" but should return 0.");
weightDeduction = 1;
}
if (g.isEdge(vertArray[3], vertArray[3])) {
System.out.println("isEdge(vertex 3, vertex 3) should return false " +
" but returns true.");
isDeduction = 1;
}
result = g.weight(vertArray[3], vertArray[3]);
if (result != 0) {
System.out.println("weight(vertex 3, vertex 3) returns " + result +
" but should return 0.");
weightDeduction = 1;
}
System.out.println("Adding edge (3, 7) with weight 4.");
g.addEdge(vertArray[3], vertArray[7], 4);
result = g.vertexCount();
if (result != 10) {
System.out.println("vertexCount() returns " + result +
" but should return 10.");
countDeduction = 1;
}
result = g.edgeCount();
if (result != 1) {
System.out.println("edgeCount() returns " + result +
" but should return 1.");
countDeduction = 1;
}
if (!g.isEdge(vertArray[3], vertArray[7])) {
System.out.println("isEdge(vertex 3, vertex 7) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[3], vertArray[7]);
if (result != 4) {
System.out.println("weight(vertex 3, vertex 7) returns " + result +
" but should return 4.");
weightDeduction = 1;
}
if (!g.isEdge(vertArray[7], vertArray[3])) {
System.out.println("isEdge(vertex 7, vertex 3) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[7], vertArray[3]);
if (result != 4) {
System.out.println("weight(vertex 7, vertex 3) returns " + result +
" but should return 4.");
weightDeduction = 1;
}
result = g.degree(vertArray[3]);
if (result != 1) {
System.out.println("degree(vertex 3) returns " + result +
" but should return 1.");
degreeDeduction = 1;
}
result = g.degree(vertArray[7]);
if (result != 1) {
System.out.println("degree(vertex 7) returns " + result +
" but should return 1.");
degreeDeduction = 1;
}
result = g.degree(vertArray[0]);
if (result != 0) {
System.out.println("degree(vertex 0) returns " + result +
" but should return 0.");
degreeDeduction = 1;
}
System.out.println("Adding edge (3, 3) with weight 7.");
g.addEdge(vertArray[3], vertArray[3], 7);
result = g.edgeCount();
if (result != 2) {
System.out.println("edgeCount() returns " + result +
" but should return 2.");
countDeduction = 1;
}
if (!g.isEdge(vertArray[3], vertArray[3])) {
System.out.println("isEdge(vertex 3, vertex 3) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[3], vertArray[3]);
if (result != 7) {
System.out.println("weight(vertex 3, vertex 3) returns " + result +
" but should return 7.");
weightDeduction = 1;
}
result = g.degree(vertArray[3]);
if (result != 2) {
System.out.println("degree(vertex 3) returns " + result +
" but should return 2.");
degreeDeduction = 1;
}
result = g.degree(vertArray[7]);
if (result != 1) {
System.out.println("degree(vertex 7) returns " + result +
" but should return 1.");
degreeDeduction = 1;
}
System.out.println("Adding edge (7, 3) with weight 9.");
g.addEdge(vertArray[7], vertArray[3], 9);
result = g.edgeCount();
if (result != 2) {
System.out.println("edgeCount() returns " + result +
" but should return 2.");
countDeduction = 1;
}
if (!g.isEdge(vertArray[3], vertArray[7])) {
System.out.println("isEdge(vertex 3, vertex 7) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[3], vertArray[7]);
if (result != 9) {
System.out.println("weight(vertex 3, vertex 7) returns " + result +
" but should return 9.");
weightDeduction = 1;
}
if (!g.isEdge(vertArray[7], vertArray[3])) {
System.out.println("isEdge(vertex 7, vertex 3) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[7], vertArray[3]);
if (result != 9) {
System.out.println("weight(vertex 7, vertex 3) returns " + result +
" but should return 9.");
weightDeduction = 1;
}
result = g.degree(vertArray[3]);
if (result != 2) {
System.out.println("degree(vertex 3) returns " + result +
" but should return 2.");
degreeDeduction = 1;
}
result = g.degree(vertArray[7]);
if (result != 1) {
System.out.println("degree(vertex 7) returns " + result +
" but should return 1.");
degreeDeduction = 1;
}
neigh = g.getNeighbors(vertArray[3]);
if (neigh == null) {
System.out.println("getNeighbors(vertex 3) improperly returns null.");
getDeduction = 1;
} else if (neigh.neighborList == null) {
System.out.println("getNeighbors(vertex 3) improperly returns null" +
" neighborList.");
getDeduction = 1;
} else if (neigh.weightList == null) {
System.out.println("getNeighbors(vertex 3) improperly returns null" +
" weightList.");
getDeduction = 1;
} else if (neigh.neighborList.length != 2) {
System.out.println("getNeighbors(vertex 3) returns neighborList of" +
" length " + neigh.neighborList.length +
"; should have length 2.");
getDeduction = 1;
} else if (neigh.weightList.length != 2) {
System.out.println("getNeighbors(vertex 3) returns weightList of" +
" length " + neigh.weightList.length +
"; should have length 2.");
getDeduction = 1;
} else if (((neigh.neighborList[0] != vertArray[3]) ||
(neigh.neighborList[1] != vertArray[7])) &&
((neigh.neighborList[0] != vertArray[7]) ||
(neigh.neighborList[1] != vertArray[3]))) {
System.out.println("getNeighbors(vertex 3) returns array containing" +
" wrong objects.");
getDeduction = 1;
} else if (((neigh.weightList[0] != 7) || (neigh.weightList[1] != 9)) &&
((neigh.weightList[0] != 9) || (neigh.weightList[1] != 7))) {
System.out.println("getNeighbors(vertex 3) returns array containing" +
" wrong weights.");
getDeduction = 1;
}
System.out.println("Adding edge (9, 0) with weight -2.");
g.addEdge(vertArray[9], vertArray[0], -2);
System.out.println("Adding edge (9, 3) with weight 2.");
g.addEdge(vertArray[9], vertArray[3], 2);
System.out.println("Adding edge (1, 6) with weight 8.");
g.addEdge(vertArray[1], vertArray[6], 8);
System.out.println("Adding edge (9, 7) with weight 5.");
g.addEdge(vertArray[9], vertArray[7], 5);
System.out.println("Adding edge (3, 1) with weight 1.");
g.addEdge(vertArray[3], vertArray[1], 1);
System.out.println("Adding edge (1, 1) with weight 3.");
g.addEdge(vertArray[1], vertArray[1], 3);
result = g.edgeCount();
if (result != 8) {
System.out.println("edgeCount() returns " + result +
" but should return 8.");
countDeduction = 1;
}
if (!g.isEdge(vertArray[1], vertArray[3])) {
System.out.println("isEdge(vertex 1, vertex 3) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[1], vertArray[3]);
if (result != 1) {
System.out.println("weight(vertex 1, vertex 3) returns " + result +
" but should return 1.");
weightDeduction = 1;
}
if (!g.isEdge(vertArray[1], vertArray[1])) {
System.out.println("isEdge(vertex 1, vertex 1) should return true " +
" but returns false.");
isDeduction = 1;
}
result = g.weight(vertArray[1], vertArray[1]);
if (result != 3) {
System.out.println("weight(vertex 1, vertex 1) returns " + result +
" but should return 3.");
weightDeduction = 1;
}
result = g.degree(vertArray[3]);
if (result != 4) {
System.out.println("degree(vertex 3) returns " + result +
" but should return 4.");
degreeDeduction = 1;
}
result = g.degree(vertArray[1]);
if (result != 3) {
System.out.println("degree(vertex 1) returns " + result +
" but should return 3.");
degreeDeduction = 1;
}
System.out.println("Removing edge (1, 6).");
g.removeEdge(vertArray[1], vertArray[6]);
result = g.edgeCount();
if (result != 7) {
System.out.println("edgeCount() returns " + result +
" but should return 7.");
remEDeduction = 1;
}
if (g.isEdge(vertArray[1], vertArray[6])) {
System.out.println("isEdge(vertex 1, vertex 6) should return false " +
" but returns true.");
remEDeduction = 1;
}
if (g.isEdge(vertArray[6], vertArray[1])) {
System.out.println("isEdge(vertex 6, vertex 1) should return false " +
" but returns true.");
remEDeduction = 1;
}
result = g.degree(vertArray[6]);
if (result != 0) {
System.out.println("degree(vertex 6) returns " + result +
" but should return 0.");
remEDeduction = 1;
}
result = g.degree(vertArray[1]);
if (result != 2) {
System.out.println("degree(vertex 1) returns " + result +
" but should return 2.");
remEDeduction = 1;
}
System.out.println("Removing vertex 3.");
g.removeVertex(vertArray[3]);
result = g.vertexCount();
if (result != 9) {
System.out.println("vertexCount() returns " + result +
" but should return 9.");
remVDeduction = 1;
}
result = g.edgeCount();
if (result != 3) {
System.out.println("edgeCount() returns " + result +
" but should return 3.");
remVDeduction = 1;
}
if (g.isVertex(vertArray[3])) {
System.out.println("isVertex() on vertex 3 should return false" +
" but returns true.");
remVDeduction = 1;
}
result = g.degree(vertArray[3]);
if (result != 0) {
System.out.println("degree(vertex 3) returns " + result +
" but should return 0.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[3], vertArray[3])) {
System.out.println("isEdge(vertex 3, vertex 3) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[3], vertArray[7])) {
System.out.println("isEdge(vertex 3, vertex 7) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[7], vertArray[3])) {
System.out.println("isEdge(vertex 7, vertex 3) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[3], vertArray[9])) {
System.out.println("isEdge(vertex 3, vertex 9) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[9], vertArray[3])) {
System.out.println("isEdge(vertex 9, vertex 3) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[3], vertArray[1])) {
System.out.println("isEdge(vertex 3, vertex 1) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[1], vertArray[3])) {
System.out.println("isEdge(vertex 1, vertex 3) should return false " +
" but returns true.");
remVDeduction = 1;
}
result = g.degree(vertArray[1]);
if (result != 1) {
System.out.println("degree(vertex 1) returns " + result +
" but should return 1.");
remVDeduction = 1;
}
result = g.degree(vertArray[7]);
if (result != 1) {
System.out.println("degree(vertex 7) returns " + result +
" but should return 1.");
remVDeduction = 1;
}
result = g.degree(vertArray[9]);
if (result != 2) {
System.out.println("degree(vertex 9) returns " + result +
" but should return 2.");
remVDeduction = 1;
}
neigh = g.getNeighbors(vertArray[7]);
if (neigh == null) {
System.out.println("getNeighbors(vertex 7) improperly returns null.");
getDeduction = 1;
} else if (neigh.neighborList == null) {
System.out.println("getNeighbors(vertex 7) improperly returns null" +
" neighborList.");
getDeduction = 1;
} else if (neigh.weightList == null) {
System.out.println("getNeighbors(vertex 7) improperly returns null" +
" weightList.");
getDeduction = 1;
} else if (neigh.neighborList.length != 1) {
System.out.println("getNeighbors(vertex 7) returns neighborList of" +
" length " + neigh.neighborList.length +
"; should have length 1.");
getDeduction = 1;
} else if (neigh.weightList.length != 1) {
System.out.println("getNeighbors(vertex 7) returns weightList of" +
" length " + neigh.weightList.length +
"; should have length 1.");
getDeduction = 1;
} else if (neigh.neighborList[0] != vertArray[9]) {
System.out.println("getNeighbors(vertex 7) returns array containing" +
" wrong object.");
getDeduction = 1;
} else if (neigh.weightList[0] != 5) {
System.out.println("getNeighbors(vertex 7) returns array containing" +
" wrong weight.");
getDeduction = 1;
}
System.out.println("Removing edge (1, 1).");
g.removeEdge(vertArray[1], vertArray[1]);
result = g.edgeCount();
if (result != 2) {
System.out.println("edgeCount() returns " + result +
" but should return 2.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[1], vertArray[1])) {
System.out.println("isEdge(vertex 1, vertex 1) should return false " +
" but returns true.");
remVDeduction = 1;
}
result = g.degree(vertArray[1]);
if (result != 0) {
System.out.println("degree(vertex 1) returns " + result +
" but should return 0.");
remVDeduction = 1;
}
System.out.println("Removing edge (7, 6).");
g.removeEdge(vertArray[7], vertArray[6]);
System.out.println("Removing edge (3, 1).");
g.removeEdge(vertArray[3], vertArray[1]);
System.out.println("Removing edge (1, 1).");
g.removeEdge(vertArray[1], vertArray[1]);
result = g.edgeCount();
if (result != 2) {
System.out.println("edgeCount() returns " + result +
" but should return 2.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[1], vertArray[1])) {
System.out.println("isEdge(vertex 1, vertex 1) should return false " +
" but returns true.");
remVDeduction = 1;
}
System.out.println("Removing edge (9, 7).");
g.removeEdge(vertArray[9], vertArray[7]);
result = g.edgeCount();
if (result != 1) {
System.out.println("edgeCount() returns " + result +
" but should return 1.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[9], vertArray[7])) {
System.out.println("isEdge(vertex 9, vertex 7) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[7], vertArray[9])) {
System.out.println("isEdge(vertex 7, vertex 9) should return false " +
" but returns true.");
remVDeduction = 1;
}
System.out.println("Removing vertex 9.");
g.removeVertex(vertArray[9]);
result = g.vertexCount();
if (result != 8) {
System.out.println("vertexCount() returns " + result +
" but should return 8.");
remVDeduction = 1;
}
result = g.edgeCount();
if (result != 0) {
System.out.println("edgeCount() returns " + result +
" but should return 0.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[9], vertArray[0])) {
System.out.println("isEdge(vertex 9, vertex 0) should return false " +
" but returns true.");
remVDeduction = 1;
}
if (g.isEdge(vertArray[0], vertArray[9])) {
System.out.println("isEdge(vertex 0, vertex 9) should return false " +
" but returns true.");
remVDeduction = 1;
}
result = g.degree(vertArray[9]);
if (result != 0) {
System.out.println("degree(vertex 9) returns " + result +
" but should return 0.");
remVDeduction = 1;
}
result = g.degree(vertArray[0]);
if (result != 0) {
System.out.println("degree(vertex 0) returns " + result +
" but should return 0.");
remVDeduction = 1;
}
System.out.println();
return countDeduction + degreeDeduction + getDeduction + isDeduction +
weightDeduction + remEDeduction + remVDeduction;
}
public static final int VERTICES = 20;
public static void main(String[] args) {
int i;
Object vertArray[] = new Object[VERTICES];
for (i = 0; i < VERTICES; i++) {
vertArray[i] = new Nothing();
}
int score = 10 - vertexTest(vertArray) - edgeTest(vertArray);
if (score < 0) {
score = 0;
}
System.out.println("Your WUGraph test score is " + (0.5 * (double) score) +
" out of 5.0.");
System.out.println(" (Be sure also to run KruskalTest.java.)");
}
}
class Nothing {
}