My prof gave me an exercise to do with prolog. Given this goal i have to build the corrispondent 234 tree:

write(tree(1,tree(11,tree(111,n,n),tree(112,tree(1121,n,n),n)),tree(12,tree(121,n,n),tree(122,n,n), tree(123,n,n),tree(124,tree(1241,n,n),tree(1242,n,n)))))

The result should be something like this:

enter image description here

Are you asking what is my problem ?

I studied what is a 234 tree, but i dont understand why the tree i represented can be considered a 234 tree, what i see are numbers that range from 1 to 1242. Should a 234 tree be something like this ?

enter image description here

  • Take a closer look at your example tree: The tree term consists of a node id, e.g. 1 at the top, and subtrees. For example: the subtree at node 11, tree(11,tree(111,n,n),tree(112,tree(1121,n,n),n)), contains two subtrees, namely those at nodes 111 and 112, while the subtree at node 12 tree(12,tree(121,n,n),tree(122,n,n), tree(123,n,n),tree(124,tree(1241,n,n),tree(1242,n,n))), contains four subtrees, namely those at nodes 121, 122, 123 and 124. A level below, at node 124, there are two subtrees, nodes 1241 and 1242: tree(124,tree(1241,n,n),tree(1242,n,n))
    – tas
    Commented Jun 1, 2018 at 9:45
  • Additionally, I would suggest to keep the subtrees in a list. That would make the term tree more readable because it always has two subterms, namely the node id and the list, and you can use such a term for trees with an arbitrary number of successor nodes, since those are always contained in the list.
    – tas
    Commented Jun 1, 2018 at 9:55
  • The tree you're showing expressed as a Prolog term appears to have values (1, 11, 12, 111, etc) in it that really represent some kind of node indicies (for illustration purposes) not node values. If they were values, then the tree would not be in proper order, unless your metric for ordering is not strictly numerical.
    – lurker
    Commented Jun 1, 2018 at 10:57
  • Then, why 12 is at the left of 1 and 11 is at its right ?
    – Qwerto
    Commented Jun 1, 2018 at 11:41
  • The fact is that now i dont understand what is the criteria that produced the 234 tree i showed in the first post.
    – Qwerto
    Commented Jun 1, 2018 at 11:45

1 Answer 1


Here's your given term, pretty printed for clarity:

tree(1,      % has 2 child nodes
      tree(11,       % has 2 child nodes
             tree(111,n,n),     % a leaf
             tree(112,          % has 2 child nodes
                     tree(1121,n,n),          % a leaf
                     n)),                     % empty
      tree(12,       % has 4 child nodes
             tree(121,n,n),     % a leaf
             tree(122,n,n),     % a leaf
             tree(123,n,n),     % a leaf
             tree(124,          % has two child nodes
                     tree(1241,n,n),          % a leaf
                     tree(1242,n,n))))        % a leaf

It is clear that the "numbers" 1, 11, 12, ..., 1242 aren't used for their numeric value, but just as stand-ins. In other words, the values are unimportant. A valid tree has already been built.

This tree's nodes each have either 2 or 4 child nodes (possibly empty, signified by n). That is why it is considered to be a 2-3-4 tree, where each node is allowed to have 2, 3, or 4 child nodes (possibly empty).

Your question then becomes, given a 2-3-4 tree represented by a Prolog compound term like the one above, print the tree in the nice visual fashion as shown in your attached image.

This is achieved simply by swapping the printing of nested sub-trees with the printing of the node's value:

print_tree( n ).
print_tree( tree(A,B,C) ) :- print_tree(B), 
print_tree( tree(A,B,C,D) ) :- print_tree(B), 
print_tree( tree(A,B,C,D,E) ) :- print_tree(B), 

You will have to augment this by passing in the desired indentation level, and incrementing it, by the same amount, when printing the child nodes.

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