From a9eafe47d598b80cd9fd6f0c7d1f56e58ecdc626 Mon Sep 17 00:00:00 2001 From: Jaron Kent-Dobias Date: Wed, 14 Sep 2022 10:47:12 +0200 Subject: Some cleanup and removal of convergence metric. --- rbmp.cpp | 62 ++++++++++++++++++++++++++++---------------------------------- 1 file changed, 28 insertions(+), 34 deletions(-) (limited to 'rbmp.cpp') diff --git a/rbmp.cpp b/rbmp.cpp index 3a689b9..88bf18b 100644 --- a/rbmp.cpp +++ b/rbmp.cpp @@ -44,12 +44,6 @@ public: tail = &vt; head = &vh; } - Vertex& getHead() { - return *head; - } - Vertex& getTail() { - return *tail; - } const Vertex& getHead() const { return *head; } @@ -64,11 +58,11 @@ public: double weight; Edge() : halfedges{*this, *this} {}; - void setVertices(Vertex& vt, Vertex& vh) { - halfedges[0].setVertices(vt, vh); - halfedges[1].setVertices(vh, vt); - vt.addEdge(halfedges[0]); - vh.addEdge(halfedges[1]); + void setVertices(Vertex& red, Vertex& blue) { + halfedges[0].setVertices(red, blue); + halfedges[1].setVertices(blue, red); + red.addEdge(halfedges[0]); + blue.addEdge(halfedges[1]); } double belief() const { return halfedges[0].X + halfedges[1].X; @@ -84,62 +78,62 @@ public: std::vector edges; Graph(unsigned n, Rng& r) : vertices(2 * n * (n + 1)), edges(pow(2 * n, 2)) { - for (unsigned i = 0; i < vertices.size() / 2; i++) { + unsigned M = vertices.size() / 2; + for (unsigned i = 0; i < M; i++) { vertices[i].index = i; vertices[i].coordinate = {2 * (i % (n + 1)), 2 * (i / (n + 1)) + 1}; - vertices[vertices.size() / 2 + i].index = i + vertices.size() / 2; - vertices[vertices.size() / 2 + i].coordinate = {2 * (i % n) + 1, 2 * (i / n)}; + vertices[M + i].index = M + i; + vertices[M + i].coordinate = {2 * (i % n) + 1, 2 * (i / n)}; } for (unsigned i = 0; i < edges.size(); i++) { - Vertex& blueVertex = vertices[vertices.size() / 2 + (i % (2 * n)) / 2 + n * (((i + 2*n) / 4) / n)]; - Vertex& redVertex = vertices[(1+(i % (2 * n))) / 2 + (n + 1) * ((i / 4) / (n))]; + Vertex& redVertex = vertices[(1 + (i % (2 * n))) / 2 + (n + 1) * ((i / 4) / n)]; + Vertex& blueVertex = vertices[M + (i % (2 * n)) / 2 + n * (((i + 2 * n) / 4) / n)]; edges[i].setVertices(redVertex, blueVertex); edges[i].weight = r.variate(1); } } - double propagateBeliefs() { + void propagateBeliefs() { for (Edge& e : edges) { - for (HalfEdge& he : e.halfedges) { + for (HalfEdge& h : e.halfedges) { double Xt = std::numeric_limits::infinity(); - for (const HalfEdge& en : he.getHead().neighbors) { - if (he.getTail().index != en.getHead().index) { - Xt = std::min(en.edge.weight - en.oldX, Xt); + for (const HalfEdge& hn : h.getHead().neighbors) { + if (h.getTail().index != hn.getHead().index) { + Xt = std::min(hn.edge.weight - hn.oldX, Xt); } } - he.X = Xt; + h.X = Xt; } } - double ΔX = std::numeric_limits::infinity(); - for (Edge& e : edges) { - ΔX = std::min(ΔX, e.belief()); - for (HalfEdge& he : e.halfedges) { he.oldX = he.X; } } - - return ΔX; } }; int main() { + unsigned n = 100; + unsigned steps = 1e5; Rng r; - Graph G(1000, r); - - double Δx = 0; + Graph G(n, r); - while (Δx < 1) { - Δx = G.propagateBeliefs(); + for (unsigned i = 0; i < steps; i++) { + G.propagateBeliefs(); } for (unsigned i = 0; i < G.edges.size(); i++) { if (G.edges[i].active()) { - std::cout << G.edges[i].halfedges[0].getTail().coordinate[0] << " " << G.edges[i].halfedges[0].getTail().coordinate[1] << " " << G.edges[i].halfedges[0].getHead().coordinate[0] << " " << G.edges[i].halfedges[0].getHead().coordinate[1] << std::endl; + std::cout + << G.edges[i].halfedges[0].getTail().coordinate[0] << " " + << G.edges[i].halfedges[0].getTail().coordinate[1] << " " + << G.edges[i].halfedges[0].getHead().coordinate[0] << " " + << G.edges[i].halfedges[0].getHead().coordinate[1] << std::endl; } } + return 0; } -- cgit v1.2.3-54-g00ecf