.. index:: single: weighted_directed_graph(Dictionary) .. _weighted_directed_graph/1: .. rst-class:: right **object** ``weighted_directed_graph(Dictionary)`` ======================================= Weighted directed graph predicates using a dictionary representation. Edge weights use a pair representation (Vertex-Weight in neighbor lists, (Vertex1-Vertex2)-Weight for edge lists). The parametric object parameter is the dictionary to use for the graph representation. | **Availability:** | ``logtalk_load(graphs(loader))`` | **Author:** Paulo Moura | **Version:** 1:0:0 | **Date:** 2026-02-20 | **Compilation flags:** | ``static, context_switching_calls`` | **Imports:** | ``public`` :ref:`weighted_graph_common(Dictionary) ` | ``public`` :ref:`directed_graph_common ` | **Uses:** | :ref:`pairs ` | **Remarks:** | (none) | **Inherited public predicates:** |  :ref:`weighted_graph_protocol/0::add_edge/5`  :ref:`graph_protocol/0::add_edges/3`  :ref:`graph_protocol/0::add_vertex/3`  :ref:`graph_protocol/0::add_vertices/3`  :ref:`graph_protocol/0::all_pairs_min_paths/2`  :ref:`graph_protocol/0::all_pairs_min_predecessors/2`  :ref:`graph_protocol/0::breadth_first_order/3`  :ref:`directed_graph_protocol/0::cycle/2`  :ref:`weighted_graph_protocol/0::delete_edge/5`  :ref:`graph_protocol/0::delete_edges/3`  :ref:`graph_protocol/0::delete_vertex/3`  :ref:`graph_protocol/0::delete_vertices/3`  :ref:`graph_protocol/0::depth_first_order/3`  :ref:`weighted_graph_protocol/0::edge/4`  :ref:`graph_protocol/0::edges/2`  :ref:`graph_protocol/0::empty/1`  :ref:`directed_graph_protocol/0::has_cycle/1`  :ref:`weighted_graph_protocol/0::has_negative_cycle/1`  :ref:`graph_protocol/0::has_path/3`  :ref:`directed_graph_protocol/0::in_degree/3`  :ref:`directed_graph_protocol/0::is_acyclic/1`  :ref:`graph_protocol/0::is_bipartite/1`  :ref:`graph_protocol/0::is_complete/1`  :ref:`graph_protocol/0::is_sparse/1`  :ref:`graph_protocol/0::max_path/5`  :ref:`graph_protocol/0::min_distances/3`  :ref:`graph_protocol/0::min_path/5`  :ref:`weighted_graph_protocol/0::min_path_bellman_ford/5`  :ref:`graph_protocol/0::min_predecessors/3`  :ref:`graph_protocol/0::neighbors/3`  :ref:`graph_protocol/0::new/1`  :ref:`graph_protocol/0::new/2`  :ref:`graph_protocol/0::new/3`  :ref:`graph_protocol/0::number_of_edges/2`  :ref:`graph_protocol/0::number_of_vertices/2`  :ref:`directed_graph_protocol/0::out_degree/3`  :ref:`graph_protocol/0::path/3`  :ref:`graph_protocol/0::reachable/3`  :ref:`directed_graph_protocol/0::strongly_connected_components/2`  :ref:`directed_graph_protocol/0::symmetric_closure/2`  :ref:`directed_graph_protocol/0::topological_sort/2`  :ref:`directed_graph_protocol/0::transitive_closure/2`  :ref:`directed_graph_protocol/0::transpose/2`  :ref:`graph_protocol/0::vertices/2`  :ref:`directed_graph_protocol/0::weakly_connected_components/2`  :ref:`weighted_graph_protocol/0::wneighbors/3`   .. contents:: :local: :backlinks: top Public predicates ----------------- .. index:: min_paths/3 .. _weighted_directed_graph/1::min_paths/3: ``min_paths/3`` ^^^^^^^^^^^^^^^ Computes shortest path tree from ``Vertex1`` to all reachable vertices. | **Compilation flags:** | ``static`` | **Template:** | ``min_paths(Vertex1,Graph,PathTree)`` | **Mode and number of proofs:** | ``min_paths(+vertex,+graph,-graph)`` - ``zero_or_one`` ------------ Protected predicates -------------------- (no local declarations; see entity ancestors if any) Private predicates ------------------ (no local declarations; see entity ancestors if any) Operators --------- (none)