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tomislav_matic on 01/06/11

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Last Edited at 01/06/11 05:59am

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biblioteka-opcenito stablo

opcenito stablo sa bibliotekom_a

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  1. #include "a_zadatak.h"
  2. #include <iostream>
  3.  
  4. using namespace std;
  5.  
  6. int main(void) {
  7.     tree T;
  8.     cout << "Test 1 (init funkcija)" << endl;
  9.     InitT(1, &T);
  10.     cout << "Test 1 zavrsen" << endl;
  11.  
  12.  
  13.     cout << "Test 2 (label, init, root funkcije): ispisuje 1 ako je tocno." << endl;
  14.     cout << LabelT(RootT(&T), &T) << endl;;
  15.     cout << "Test 2 zavrsen" << endl;
  16.  
  17.     cout << "Test 3 (create ): bez ispisa" << endl;
  18.     CreateT(2, RootT(&T), &T);
  19.     CreateT(3, RootT(&T), &T);
  20.     cout << "Test 3 zavrsen" << endl;
  21.  
  22.     cout << "Test 4 (create, first child, next sibling): ispisuje 2,3" << endl;
  23.     cout << LabelT(FirstChildT(RootT(&T), &T), &T) << endl;
  24.     cout << LabelT(NextSiblingT(FirstChildT(RootT(&T), &T), &T), &T) << endl;    
  25.     cout << "Test 4 zavrsen" << endl;
  26.  
  27.  
  28.     cout << "Test 5 (create): bez ispisa" << endl;
  29.     CreateT(4, FirstChildT(RootT(&T), &T), &T);
  30.     CreateT(5, FirstChildT(RootT(&T), &T), &T);
  31.     cout << "Test 5 zavrsen" << endl;
  32.  
  33.     cout << "Test 6 (change label): ispisuje \"42\"" << endl;
  34.     ChangeLabelT(42, FirstChildT(RootT(&T), &T), &T);
  35.     cout << LabelT(FirstChildT(RootT(&T), &T), &T) << endl;
  36.     cout << "Test 6 zavrsen" << endl;
  37.  
  38.     cout << "Test 7 (delete): bez ispisa" << endl;
  39.     DeleteT(FirstChildT(RootT(&T), &T), &T);
  40.     cout << "Test zavrsen" << endl;
  41.  
  42.  
  43.     cout << "Test 8 (delete): ispisuje 3" << endl;
  44.     cout << LabelT(FirstChildT(RootT(&T), &T) , &T);
  45.     cout << endl;
  46.  
  47.  
  48.     return 0;
  49.  
  50. }
  51.  
  52.  BIBLIOTEKA A
  53.  
  54. struct elem {
  55.     int label;
  56.     int child,sibling;
  57.     bool empty;
  58. };
  59.  
  60. struct tree {
  61.     elem elements[10000];
  62.     int first;
  63. };
  64.  
  65. typedef int node;
  66.  
  67. node ParentT(node n, tree* T) {
  68.     for (int i = 1; i < 10000; i++) {
  69.         if (T->elements[i].child == n)
  70.             return i;
  71.         else {
  72.             if (T->elements[i].sibling == n) 
  73.                 return ParentT(i, T);
  74.         }
  75.     }
  76.     return 0;
  77. }
  78.  
  79. node FirstChildT(node n, tree*T) {
  80.     return (T->elements[n].child);
  81. }
  82.  
  83. node NextSiblingT(node n, tree*T) {
  84.     return (T->elements[n].sibling);
  85. }
  86.  
  87. int LabelT(node n, tree*T) {
  88.     return (T->elements[n].label);
  89. }
  90.  
  91. node RootT(tree*T) {
  92.     return (T->first);
  93. }
  94.  
  95. void CreateT(int x, node n, tree*T) {
  96.  
  97.     int i;
  98.     for (i = 1; i < 10000; i++) {
  99.  
  100.         if (T->elements[i].empty) {
  101.             T->elements[i].empty = false;
  102.             T->elements[i].label = x;
  103.             break;
  104.         }
  105.     }
  106.  
  107.     node Parent = n;
  108.     node sib;
  109.  
  110.     if (FirstChildT(Parent, T) == 0) {
  111.         T->elements[Parent].child = i;
  112.     }
  113.     else {
  114.         sib = FirstChildT(Parent, T);
  115.         while(2 < 5) {
  116.             if (NextSiblingT(sib, T) != 0) {
  117.                 sib = NextSiblingT(sib, T);
  118.             }
  119.             else {
  120.                 break;
  121.             }
  122.         }
  123.         T->elements[sib].sibling = i;
  124.     }
  125. }
  126.  
  127. void ChangeLabelT(int x, node n, tree *T) {
  128.     T->elements[n].label = x;
  129. }
  130.  
  131.  
  132. void rekurzivno_brisanje (node n, tree *T) {
  133.     if (FirstChildT(n, T))
  134.         rekurzivno_brisanje(FirstChildT(n, T), T);
  135.     if (NextSiblingT(n, T))
  136.         rekurzivno_brisanje(NextSiblingT(n, T), T);
  137.     T->elements[n].empty = true;
  138. }
  139.  
  140. void DeleteT(node n, tree *T) {
  141.  
  142.     rekurzivno_brisanje(FirstChildT(n, T), T);
  143.  
  144.     node Parent = ParentT(n, T);   
  145.     node buraz;
  146.  
  147.     if (FirstChildT(Parent, T) == n) {
  148.         T->elements[Parent].child = NextSiblingT(n, T);
  149.     }
  150.  
  151.     else if (NextSiblingT(n, T)) {
  152.         buraz = FirstChildT(Parent, T);
  153.         while (2 > -2) {
  154.             if (NextSiblingT(buraz, T)) {
  155.                 buraz = NextSiblingT(buraz, T);
  156.             }
  157.             else {
  158.                 break;
  159.             }
  160.         }
  161.         T->elements[buraz].sibling = T->elements[n].sibling;
  162.     }
  163.  
  164.     else {
  165.  
  166.         buraz = FirstChildT(Parent, T);
  167.         while (2 > -2) {
  168.             if (NextSiblingT(buraz, T)) {
  169.                 buraz = NextSiblingT(buraz, T);
  170.             }
  171.             else {
  172.                 break;
  173.             }
  174.         }
  175.  
  176.         T->elements[buraz].sibling = 0;
  177.     }
  178. }
  179.  
  180. void InitT(int x, tree *T) {
  181.     for (int i = 2;  i < 10000; i++) {
  182.         T->elements[i].empty = true;
  183.         T->elements[i].child = 0;
  184.         T->elements[i].sibling = 0;
  185.     }
  186.     T->first = 1;
  187.     T->elements[1].empty = false;
  188.     T->elements[1].label = x;
  189. }

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