void TestBSTree()
{	
	// 5 3 4 1 7 8 2 6 0 9
	BSTree<int, double> t;
	t.Insert(5,5);
	t.Insert(3,3);
	t.Insert(4,4);
	t.Insert(1,1);
	t.Insert(7,7);
	t.Insert(8,8);
	t.Insert(2,2);
	t.Insert(6,6);
	t.Insert(0,0);
	t.Insert(9,9);

	t.PrevOrder();

	BSTNode<int,double>* ret = t.Find(9);
	cout<<"Find 9 ?: "<<ret->_key<<endl;
	ret = t.Find(10);
	cout<<"Find 10 ?: "<<ret<<endl;

	t.Remove(8);
	t.Remove(1);
	t.Remove(5);

	t.PrevOrder();
}
Exemple #2
0
int main(int argc,char*argv[])
{
	AVLTree<string> avlTree;
	BSTree<string> bsTree;
	string str, last;
	char c;

	if (argc != 2)
	{
		cerr << "Parameters: <filename>.  use quotations around long path names." << endl;
		return 1;
	}

	ifstream ifsInput(argv[1],ios::in | ios::binary);

	if (!ifsInput)
	{
		cerr << "Couldn't open input file." << endl;
		return 2;
	}

	
	while (ifsInput.get(c) && !ifsInput.eof())
	{
		switch (c)
		{
			case '.':
			case ',':
			case '\'':
			case '\"':
			case ':':
			case ';':
			case '<':
			case '>':
			case '/':
			case '?':
			case '[':
			case ']':
			case '{':
			case '}':
			case '\\':
			case '|':
			case '!':
			case '#':
			case '$':
			case '%':
			case '^':
			case '&':
			case '*':
			case '(':
			case ')':
			case '_':
			case '=':
			case '`':
			case ' ':
			case '\r':
			case '\n':
			case '\t':
				if (str.size())
				{
					avlTree.Insert(str);
					bsTree.Insert(str);
					last = str;
				}
				
				str = "";
				continue;
			default:
				str += c;
				continue;
		}

	}
	ifsInput.close();
	//x.Output(Print);
	cout << "AVL Height: " << avlTree.Height() << endl;
	cout << "BST Height: " << bsTree.Height() << endl;
	cout << "AVL Size:   " << avlTree.Size() << endl;
	cout << "BST Size:   " << bsTree.Size() << endl;


	clock_t stime, etime;
	double elapse; 
	int i;
	
	cout << "Searching for \"" << last << "\"..." << endl;
	stime = clock();
	for (i = 0; i < 100000; i++)
		avlTree.Find(last);
	etime = clock();
	elapse =(double)(etime-stime)/CLOCKS_PER_SEC;
	cout << "Search in AVL tree took " << elapse << " seconds " << endl;


	stime = clock();
	for (i = 0; i < 100000; i++)
		bsTree.Find(last);
	etime = clock();
	elapse =(double)(etime-stime)/CLOCKS_PER_SEC;
	cout << "Search in BST tree took " << elapse << " seconds " << endl;

	avlTree.Output(Print);

	return 0;
}
Exemple #3
0
int main()
{

  {
    cout << "Open files"<<endl;
    ifstream inS("SR.dat", ios::in|ios::binary);
    if ( !inS )
    {
      cout << "file open error: SR.dat"<<endl;
      cout << "Make sure that this file is in the working directory"<<endl;
      cin.get();  exit(1);
    }
    ifstream inI("ind.dat", ios::in|ios::binary);
    if ( !inI )
    {
      cout << "file open error: ind.dat"<<endl;
      cout << "Make sure that this file is in the working directory"<<endl;
      cin.get();  exit(1);
    }
    ifstream in ("CISP430records.dat", ios::in|ios::binary );
    if ( !in )
    {
      cout << "file open error: CISP430records.dat"<<endl;
      cout << "Make sure that this file is in the working directory"<<endl;
      cin.get();  exit(1);
    }
    ifstream Prein ("pre.dat", ios::in|ios::binary );
    if ( !Prein )
    {
      cout << "file open error: pre.dat"<<endl;
      cout << "Make sure that this file is in the working directory"<<endl;
      cin.get();
      exit(1);
    }
    ifstream Postin ("post.dat", ios::in|ios::binary );
    if ( !Postin )
    {
      cout << "file open error: post.dat"<<endl;
      cout << "Make sure that this file is in the working directory"<<endl;
      cin.get();  exit(1);
    }
    cout << "Done: Open Files"<<endl
         <<"*************************"<<endl;

    cout << "Read Files"<<endl;


    inI.read(reinterpret_cast<char*>(ind), IND_CNT*sizeof(unsigned));
    inI.close();
    BSTree  bst;
    unsigned least_rec = 0;
    unsigned recs_read = 0;


    unsigned MAX_READ = MAX_RECS;

    MAX_READ = (MAX_READ<MAX_RECS)? MAX_READ:MAX_RECS;

    bool Final_Test = MAX_READ == MAX_RECS;
    if ( !Final_Test )
    {
      cout << "For the final test MAX_READ must be "<<MAX_RECS
           <<endl<<"*************************"<<endl;
    }

    recs[recs_read].read(in);
    keys[recs_read] = recs[recs_read].Key();
    recs_read++;
    while ( recs_read < MAX_READ)
    {
      if ( !(recs_read%((MAX_READ/10)?MAX_READ/10:1)) )
        cout << recs_read<<endl;
      Record rec;
      rec.read(in);
      if ( !in.eof() )
      {
        recs[recs_read] = rec;
        keys[recs_read] = rec.Key();
        recs_read++;
      }
    }
    in.close();


    for ( unsigned i=0; i<recs_read; i++ )
    {
      if ( !((i+recs_read)%((MAX_READ/10)?MAX_READ/10:1)) )
        cout << i+recs_read <<endl;
      Preorder[i].read(Prein);
      Postorder[i].read(Postin);
      recs_inorder[i].read(inS);
    }
    Prein.close();
    Postin.close();
    inS.close();
    cout << "Done: Read files" << endl<<"*************************"<<endl;
    cout  <<"Insert data into BSTree"<<endl;


    mix(recs,recs_read);
    mix(keys,recs_read);

    for ( unsigned i=0; i<recs_read; i++ )
    {
      bst.Insert(recs[i]);
    }
     cout << "Done: Insert" << endl
     <<"*************************"<<endl
     <<"Test: Depth"<<endl;

    unsigned bd = bst.Depth();
    const unsigned CD = 46;
    if ( Final_Test && bd != CD )
    {
      cout << "bst depth: " << bst.Depth() << endl;
      cout << "Correct Depth: " << CD<<endl
           <<"<enter> to continue"<<endl;
      cin.get();

    }
    cout << "Done: Depth"<<endl
    <<"*************************"<<endl
    <<"Test: Traversals"<<endl;
    least = recs_inorder[least_rec];
    pcnt = 0;
    bst.InOrderTraversal(Inord);
    cout << "   Done: In order traversal #1"<<endl;

    ord_cnt = 0;
    bst.PreOrderTraversal(Preord);
    cout << "   Done: Pre order traversal #1"<<endl;

    ord_cnt = 0;
    bst.PostOrderTraversal(Postord);

    cout << "   Done: Post order traversal #1"<<endl
    <<"Done: Traversals"<<endl
    <<"*************************"<<endl
    <<"Test: Find"<<endl;


    for ( unsigned i=0; i<recs_read; i++ )
    {
       Record ret = bst.Find(keys[i]);
       if ( ret.Key() != keys[i] )
       {
         cout <<i<< "  Find Error. You found the Record with key: "
         << ret.Key() <<endl<< " when searching for key: "
         << keys[i] << endl
         <<"<enter> to continue"<<endl;
         cin.get();
       }
    }
    cout << "Done: Find"<<endl
    <<"*************************"<<endl
    <<"Test: Find bad key"<<endl;


    KeyType bad_key("~badkey"); //to the right
    Record BK = bst.Find(bad_key);
    KeyType KNF("KEY NOT FOUND");
    if ( BK.Key() != KNF  )
    {
      cout << "Looking for bad Key: " << bad_key<<endl;
      cout << "  you found: " << BK << endl
      <<"<enter> to continue"<<endl;
      cin.get();
    }
    bad_key[0] = 0; //to the left
    BK = bst.Find(bad_key);
    if ( BK.Key() != KNF  )
    {
      cout << "Looking for bad Key: " << bad_key<<endl;
      cout << "  you found: " << BK << endl
      <<"<enter> to continue"<<endl;
      cin.get();
    }

    bad_key[0] = 'i'; //first letter of the first LC key
    bad_key[1] = '~'; //to the right of the LC
    BK = bst.Find(bad_key);
    if ( BK.Key() != KNF  )
    {
      cout << "Looking for bad Key: " << bad_key<<endl;
      cout << "  you found: " << BK << endl
      <<"<enter> to continue"<<endl;
      cin.get();
    }

    bad_key[0] = 'Z'; //first letter of the first RC key
    bad_key[1] = 0; //to the left of the RC
    BK = bst.Find(bad_key);
    if ( BK.Key() != KNF  )
    {
      cout << "Looking for bad Key: " << bad_key<<endl;
      cout << "  you found: " << BK << endl
      <<"<enter> to continue"<<endl;
      cin.get();
    }

    cout << "Done: Find bad key"<<endl
    <<"*************************"<<endl;

    cout<<endl<<"Call Destructor"<<endl;
  }

   cout<<endl <<"*************************"
       <<endl <<"**********done***********"
       <<endl <<"*************************"<<endl;
    return 0;
}