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c85bb007df
- Use `std::move` while inserting temporary results into vectors. - Change `push_back` to `emplace_back` where appropriate.
134 lines
4.0 KiB
C++
134 lines
4.0 KiB
C++
/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
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file Copyright.txt or https://cmake.org/licensing for details. */
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#include "cmComputeComponentGraph.h"
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#include <algorithm>
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#include <assert.h>
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cmComputeComponentGraph::cmComputeComponentGraph(Graph const& input)
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: InputGraph(input)
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{
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// Identify components.
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this->Tarjan();
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// Compute the component graph.
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this->ComponentGraph.resize(0);
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this->ComponentGraph.resize(this->Components.size());
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this->TransferEdges();
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}
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cmComputeComponentGraph::~cmComputeComponentGraph()
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{
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}
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void cmComputeComponentGraph::Tarjan()
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{
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int n = static_cast<int>(this->InputGraph.size());
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TarjanEntry entry = { 0, 0 };
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this->TarjanEntries.resize(0);
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this->TarjanEntries.resize(n, entry);
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this->TarjanComponents.resize(0);
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this->TarjanComponents.resize(n, -1);
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this->TarjanWalkId = 0;
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this->TarjanVisited.resize(0);
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this->TarjanVisited.resize(n, 0);
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for (int i = 0; i < n; ++i) {
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// Start a new DFS from this node if it has never been visited.
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if (!this->TarjanVisited[i]) {
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assert(this->TarjanStack.empty());
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++this->TarjanWalkId;
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this->TarjanIndex = 0;
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this->TarjanVisit(i);
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}
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}
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}
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void cmComputeComponentGraph::TarjanVisit(int i)
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{
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// We are now visiting this node.
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this->TarjanVisited[i] = this->TarjanWalkId;
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// Initialize the entry.
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this->TarjanEntries[i].Root = i;
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this->TarjanComponents[i] = -1;
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this->TarjanEntries[i].VisitIndex = ++this->TarjanIndex;
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this->TarjanStack.push(i);
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// Follow outgoing edges.
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EdgeList const& nl = this->InputGraph[i];
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for (cmGraphEdge const& ni : nl) {
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int j = ni;
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// Ignore edges to nodes that have been reached by a previous DFS
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// walk. Since we did not reach the current node from that walk
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// it must not belong to the same component and it has already
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// been assigned to a component.
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if (this->TarjanVisited[j] > 0 &&
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this->TarjanVisited[j] < this->TarjanWalkId) {
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continue;
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}
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// Visit the destination if it has not yet been visited.
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if (!this->TarjanVisited[j]) {
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this->TarjanVisit(j);
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}
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// If the destination has not yet been assigned to a component,
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// check if it has a better root for the current object.
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if (this->TarjanComponents[j] < 0) {
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if (this->TarjanEntries[this->TarjanEntries[j].Root].VisitIndex <
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this->TarjanEntries[this->TarjanEntries[i].Root].VisitIndex) {
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this->TarjanEntries[i].Root = this->TarjanEntries[j].Root;
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}
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}
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}
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// Check if we have found a component.
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if (this->TarjanEntries[i].Root == i) {
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// Yes. Create it.
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int c = static_cast<int>(this->Components.size());
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this->Components.emplace_back();
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NodeList& component = this->Components[c];
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// Populate the component list.
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int j;
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do {
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// Get the next member of the component.
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j = this->TarjanStack.top();
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this->TarjanStack.pop();
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// Assign the member to the component.
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this->TarjanComponents[j] = c;
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this->TarjanEntries[j].Root = i;
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// Store the node in its component.
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component.push_back(j);
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} while (j != i);
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// Sort the component members for clarity.
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std::sort(component.begin(), component.end());
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}
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}
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void cmComputeComponentGraph::TransferEdges()
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{
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// Map inter-component edges in the original graph to edges in the
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// component graph.
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int n = static_cast<int>(this->InputGraph.size());
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for (int i = 0; i < n; ++i) {
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int i_component = this->TarjanComponents[i];
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EdgeList const& nl = this->InputGraph[i];
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for (cmGraphEdge const& ni : nl) {
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int j = ni;
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int j_component = this->TarjanComponents[j];
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if (i_component != j_component) {
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// We do not attempt to combine duplicate edges, but instead
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// store the inter-component edges with suitable multiplicity.
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this->ComponentGraph[i_component].emplace_back(j_component,
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ni.IsStrong());
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}
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}
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}
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}
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