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# Steiner Minimal Trees and NP-completeness

What is the difference between the following Steiner trees: (Non-)Metric Steiner Minimal Tree, Euclidean Steiner Minimal Tree, Graph Steiner Minimal Tree, etc? Which of these are NP-complete and which are NP-hard? Some of the online resources I found suggest that Steiner trees are NP-hard, and others suggest it's NP-complete, but I believe they are referring to different versions/variants of the problem.

Update: nevermind, I've figured it out. The decision problem of SMT is NP-complete because, given a Steiner tree and an integer k, it is easy to verify in polynomial time whether the cost of the tree is less than or equal to k. But the optimization problem of SMT does not have a polynomial time verifier (we can still find the cost of the tree, but we cannot verify that it is the optimal solution), so it's NP-hard.

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