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105-1 Data Structures Quiz2 系級: 學號: 姓名: 1. The following directed graph is an AOE network which represents a project from its starting to its finishing. Compute the earliest time (ee), latest time (le), and the allowed slack of each activity. Then determine which activities are critical. You should show the two tables (vertex & activity) and the critical activities. (10%) Vertex V0 V1 V2 V3 V4 V5 V6 V7 V8 V9 ee 0 6 10 4 14 14 18 24 23 28 le 0 7 10 4 14 14 18 24 25 28 activity a1 a2 a3 a4 a5 a6 a7 a8 a9 a10 a11 a12 a13 a14 a15 a16 a17 ee 0 0 0 6 6 4 10 10 4 14 14 14 14 18 18 24 23 le 1 2 0 9 7 4 10 12 11 14 16 14 18 18 20 24 25 slack 1 2 0 3 1 0 0 0 2 0 4 0 2 0 2 critical activities: a3, a6, a7, a10, a12, a14, a16 2 7 2. (1) Insert the following elements into an initially empty binary search tree with the specified order: 15, 29, 68, 52, 21, 7, 2, 60, 59. Drew the binary search tree after all elements are inserted. (5%) (2) Delete 7 and 29 from the binary search tree in the previous question. Draw the binary search tree after these 2 deletions. You should draw all possible answers. (5%) 3. A job priority queue is implemented using a Min-Heap in which a lower key value means a higher priority. The jobs are entered and stored in the Min-Heap as shown in the following array Q. (every questions you should show the Min-Heap) index keyvalue 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 6 8 10 12 24 15 13 20 18 26 (1) Next job is extracted from the job queue for execution. What is the value of Q[4] in the remaining job queue? (5%) (2) After (1) is executed, next job is extracted from the job queue for execution. What is the value of Q[5] in the remaining job queue? (5%) (3) After (2) is executed, a new job with priority 11 is inserted into the job queue. What is the value of Q[9] in the remaining job queue? (5%) 4. Use two different kinds of data structures (Adjacency Matrix and Adjacency List) to represent the following graph. (10%) 5. Consider the following weighted graph G(V, E) presented by the adjacency matrix. G= A B 40 C ∞ D ∞ E F A 0 21 12 7 ∞ B 0 5 C 40 ∞ 0 10 ∞ 11 ∞ 5 D ∞ 10 ∞ 0 18 14 7 12 ∞ E 18 0 33 F 21 11 ∞ 14 33 0 (1) Please find the vertex sequence derived by DFS and BFS respectively. Note that we assume that node A is the root. You should draw the graph. (10%) (2) Please apply Kruskal’s algorithm to drive the minimum cost spanning tree. Note that you must show your actions step by step. (5%) 6. Given the weighted, directed graph below. Using Dijkstra’s algorithm, find the shortest path starting from vertex A to all other vertexes. Assume A is the first vertex added to the set S in finding the shortest paths. Show the table. (10%) iteration S selected init A B C D E F G H 0 7 15 5 7 15 5 18 7 13 5 18 5 18 1 A G 0 2 AG D 0 10 3 AGD B 0 10 12 7 13 4 AGDB C 0 10 12 7 13 15 5 18 5 AGDBC E 0 10 12 7 13 15 5 17 6 AGDBCE F 0 10 12 7 13 15 5 17 7. Please fill out the blank. Searching a Binary Search Tree: (10%) tree_pointer search(tree_pointer root, int key) { /* return a pointer to the node that contains key. If there is no such node, return NULL */ if (!root) return NULL; if (key == root->data) return root; if (key < root->data) return search( _____ , key); return search( _____ , key); } root->left_child root->right_child Algorithm for All Pairs Shortest Paths: (10%) void allcosts(int cost[][MAX_VERTICES], int distance[][MAX_VERTICES], int n) { int i, j, k; for (i=0; i<n; i++) for (j=0; j<n; j++) _____ ; for(k=0; k<n; k++) for (i=0; i<n; i++) for (j=0; j<n; j++) if ( _____ < distance[i][j]) distance[i][j] = _____ ; } distance[i][j] = cost[i][j] distance[i][k]+distance[k][j] distance[i][k]+distance[k][j] 8. (1) Find all articulation points in Figure 1. (5%) (2) Show the dfn (depth first number) and low values for each node. The node’s order of Depth First Search is 5-4-2-1-3-6-8-9-7. (5%)