1 | #include "avl.h" |
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2 | #include "avl-private.h" |
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3 | |
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4 | // Perform a shallow copy of src, return the |
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5 | // new tree in ret |
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6 | forall(K | Comparable(K), V) |
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7 | int copy(tree(K, V) * src, tree(K, V) ** ret){ |
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8 | tree(K, V) * helper(tree(K, V) * t, int * worked){ |
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9 | if (empty(t)){ |
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10 | // given empty tree, return empty tree |
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11 | return NULL; |
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12 | } |
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13 | |
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14 | // otherwise, this is not an empty node, |
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15 | // create a new node |
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16 | tree(K, V) * newTree = create(t->key, t->value); |
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17 | if (empty(newTree)) { |
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18 | *worked = 1; |
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19 | return NULL; |
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20 | } |
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21 | |
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22 | // recursively copy the left and right branches |
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23 | newTree->left = helper(t->left, worked); |
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24 | newTree->right = helper(t->right, worked); |
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25 | |
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26 | setParent(newTree->left, newTree); |
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27 | setParent(newTree->right, newTree); |
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28 | return newTree; |
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29 | } |
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30 | |
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31 | int worked = 0; |
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32 | *ret = helper(src, &worked); |
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33 | return worked; |
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34 | } |
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35 | |
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36 | // Apply func to every value element in t, using an in order traversal |
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37 | forall(K | Comparable(K), V) |
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38 | void for_each(tree(K, V) * t, int (*func)(V)) { |
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39 | if (t == NULL) { |
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40 | return; |
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41 | } |
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42 | // recursively apply the function to the left, |
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43 | // apply the function to this node, |
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44 | // recursively apply the function to the right |
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45 | for_each(t->left, func); |
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46 | func(t->value); |
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47 | for_each(t->right, func); |
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48 | } |
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