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https://github.com/tag1consulting/d7_to_d10_migration.git
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145 lines
4.7 KiB
PHP
145 lines
4.7 KiB
PHP
<?php
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/**
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* @file
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* Directed acyclic graph manipulation.
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*/
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/**
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* Performs a depth-first search and sort on a directed acyclic graph.
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*
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* @param $graph
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* A three dimensional associated array, with the first keys being the names
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* of the vertices, these can be strings or numbers. The second key is
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* 'edges' and the third one are again vertices, each such key representing
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* an edge. Values of array elements are copied over.
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*
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* Example:
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* @code
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* $graph[1]['edges'][2] = 1;
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* $graph[2]['edges'][3] = 1;
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* $graph[2]['edges'][4] = 1;
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* $graph[3]['edges'][4] = 1;
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* @endcode
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*
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* On return you will also have:
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* @code
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* $graph[1]['paths'][2] = 1;
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* $graph[1]['paths'][3] = 1;
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* $graph[2]['reverse_paths'][1] = 1;
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* $graph[3]['reverse_paths'][1] = 1;
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* @endcode
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*
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* @return
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* The passed-in $graph with more secondary keys filled in:
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* - 'paths': Contains a list of vertices than can be reached on a path from
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* this vertex.
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* - 'reverse_paths': Contains a list of vertices that has a path from them
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* to this vertex.
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* - 'weight': If there is a path from a vertex to another then the weight of
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* the latter is higher.
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* - 'component': Vertices in the same component have the same component
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* identifier.
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*
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* @see _drupal_depth_first_search()
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*/
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function drupal_depth_first_search(&$graph) {
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$state = array(
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// The order of last visit of the depth first search. This is the reverse
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// of the topological order if the graph is acyclic.
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'last_visit_order' => array(),
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// The components of the graph.
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'components' => array(),
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);
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// Perform the actual search.
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foreach ($graph as $start => $data) {
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_drupal_depth_first_search($graph, $state, $start);
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}
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// We do such a numbering that every component starts with 0. This is useful
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// for module installs as we can install every 0 weighted module in one
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// request, and then every 1 weighted etc.
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$component_weights = array();
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foreach ($state['last_visit_order'] as $vertex) {
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$component = $graph[$vertex]['component'];
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if (!isset($component_weights[$component])) {
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$component_weights[$component] = 0;
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}
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$graph[$vertex]['weight'] = $component_weights[$component]--;
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}
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}
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/**
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* Performs a depth-first search on a graph.
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*
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* @param $graph
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* A three dimensional associated graph array.
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* @param $state
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* An associative array. The key 'last_visit_order' stores a list of the
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* vertices visited. The key components stores list of vertices belonging
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* to the same the component.
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* @param $start
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* An arbitrary vertex where we started traversing the graph.
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* @param $component
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* The component of the last vertex.
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*
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* @see drupal_depth_first_search()
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*/
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function _drupal_depth_first_search(&$graph, &$state, $start, &$component = NULL) {
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// Assign new component for each new vertex, i.e. when not called recursively.
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if (!isset($component)) {
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$component = $start;
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}
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// Nothing to do, if we already visited this vertex.
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if (isset($graph[$start]['paths'])) {
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return;
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}
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// Mark $start as visited.
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$graph[$start]['paths'] = array();
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// Assign $start to the current component.
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$graph[$start]['component'] = $component;
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$state['components'][$component][] = $start;
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// Visit edges of $start.
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if (isset($graph[$start]['edges'])) {
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foreach ($graph[$start]['edges'] as $end => $v) {
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// Mark that $start can reach $end.
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$graph[$start]['paths'][$end] = $v;
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if (isset($graph[$end]['component']) && $component != $graph[$end]['component']) {
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// This vertex already has a component, use that from now on and
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// reassign all the previously explored vertices.
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$new_component = $graph[$end]['component'];
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foreach ($state['components'][$component] as $vertex) {
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$graph[$vertex]['component'] = $new_component;
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$state['components'][$new_component][] = $vertex;
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}
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unset($state['components'][$component]);
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$component = $new_component;
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}
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// Only visit existing vertices.
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if (isset($graph[$end])) {
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// Visit the connected vertex.
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_drupal_depth_first_search($graph, $state, $end, $component);
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// All vertices reachable by $end are also reachable by $start.
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$graph[$start]['paths'] += $graph[$end]['paths'];
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}
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}
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}
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// Now that any other subgraph has been explored, add $start to all reverse
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// paths.
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foreach ($graph[$start]['paths'] as $end => $v) {
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if (isset($graph[$end])) {
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$graph[$end]['reverse_paths'][$start] = $v;
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}
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}
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// Record the order of the last visit. This is the reverse of the
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// topological order if the graph is acyclic.
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$state['last_visit_order'][] = $start;
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}
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