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171 lines
4.9 KiB
171 lines
4.9 KiB
/******************************************************************************
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*
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* LHMatch Online
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*
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* Authors: Nicholas Harvey and Laszlo Lovasz
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*
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* Developed: April 2001
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*
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* Algorithm Description:
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*
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* Let S be {}
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* Let M be {}
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* While S != U Do
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* Assert( S is a subset of U )
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* Assert( M is an optimal LH matching of G restricted to S \union V )
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* Let x \member U \ S
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* For each edge (u,v) in E
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* If (u,v) \member M, orient this edge from v to u
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* Else, orient this edge from u to v
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* Build a directed breadth-first search tree rooted at x
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* Let y be a vertex in the BFS tree \intersection V with minimum M-degree
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* Alternate along the unique x->y dipath, increasing the size of M by one
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* Add x to S
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* Repeat
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*
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* This algorithm is called online because the optimality of the matching is
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* maintained as the size increases.
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*
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* Runtime:
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*
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* The worst-case runtime is O(|U| * |E|), but in practice it is quite slow.
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*
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******************************************************************************/
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/***** Header Files *****/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <assert.h>
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#include "LHMatchInt.h"
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/***** EnqueueNbr *****/
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/* Enqueue all neigbours of this vertex which have not yet been visited.
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* If 'matchedOnly' is true, enqueue only the matched-neigbours. */
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static void EnqueueNbr(Graph *g, Vertex *v, char matchedOnly) {
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Vertex *n;
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int i;
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for(i=0;i<v->degree;i++) {
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n=v->adjList[i];
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if( !matchedOnly || n->matchedWith==v ) {
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if( n->parent==NULL ) {
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DPRINT( printf("Adding %d to queue with parent %d\n",n->id,v->id); )
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g->Queue[g->Qsize++]=n;
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n->parent=v;
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} else {
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DPRINT( printf("Not adding %d to queue -- already there\n",n->id); )
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}
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}
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}
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}
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/***** UpdateMinRHSLoad *****/
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static void UpdateMinRHSLoad(Graph *g) {
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int i;
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g->minRHSLoad = g->numLHSVtx;
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for(i=0;i<g->numRHSVtx;i++) {
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g->minRHSLoad = INTMIN(g->minRHSLoad,g->rVtx[i].numMatched);
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}
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}
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/***** AugmentPath *****/
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/* Found an augmenting path. Switch the matching edges along it. */
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static void AugmentPath(Graph *g, Vertex *u, Vertex *v) {
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Vertex *w,*p;
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DPRINT( printf("V: %d. Increase load to %d\n", v->id, v->numMatched+1 ); )
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/* Switch along the path */
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w=v;
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w->numMatched++;
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do {
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p=w->parent;
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p->matchedWith=w;
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w=p->parent;
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} while(p!=u);
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assert(w==p);
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/* Update minRHSLoad */
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if( v->numMatched==g->minRHSLoad+1 ) {
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UpdateMinRHSLoad(g);
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}
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}
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/***** BFS *****/
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/* Perform a breadth-first search rooted at node i. */
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static Vertex* BFS(Graph *g,Vertex *u) {
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Vertex *bestV,*v;
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int q;
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/* Start a BFS from u */
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DPRINT( printf("Using %d as root\n",u->id); )
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u->parent=u;
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g->Queue[0]=u; g->Qsize=1;
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bestV=NULL;
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/* Process the vertices in the queue */
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for(q=0;q<g->Qsize;q++) {
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v = g->Queue[q];
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DPRINT( printf("Dequeued %d: ",v->id); )
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if(IS_LHS_VTX(v)) {
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/* Its a LHS-vertex; enqueue all neigbours */
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DPRINT( printf("LHS -> Enqueuing all nbrs\n"); )
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EnqueueNbr(g, v, FALSE);
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} else {
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/* Its a RHS-vertex; enqueue all matched-neighbours */
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DPRINT( printf("RHS -> Enqueuing all %d matched-nbrs\n",
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v->numMatched); )
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EnqueueNbr(g, v, TRUE);
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if( NULL==bestV || v->numMatched<bestV->numMatched ) {
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bestV=v;
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if( v->numMatched==g->minRHSLoad ) {
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/* v has the minimum M-degree out of all RHS vertices.
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* We can stop the BFS prematurely. */
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break;
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}
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}
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}
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}
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return bestV;
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}
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/***** LHAlgOnline *****/
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int LHAlgOnline(Graph *g) {
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Vertex *bestV;
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int i,j,err;
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DPRINT( printf("--- LHMatch Online Started ---\n"); )
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g->minRHSLoad=0;
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err = InitializeQueue(g);
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if( LH_SUCCESS!=err ) {
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return err;
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}
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UpdateMinRHSLoad(g);
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/* Examine every vtx on LHS */
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for(i=0;i<g->numLHSVtx;i++) {
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/* Build a BFS tree and find the best augmenting path */
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bestV = BFS(g,&(g->lVtx[i]));
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/* If bestV is null, lVtx[i] must have degree 0 */
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if( NULL!=bestV ) {
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DPRINT( printf("Best aug. path is from %d to %d\n",g->lVtx[i].id,bestV->id); )
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AugmentPath(g,&(g->lVtx[i]),bestV);
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}
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/* Clear the marks on all nodes in the BFS tree */
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for(j=0;j<g->Qsize;j++) {
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g->Queue[j]->parent=NULL;
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}
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}
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DestroyQueue(g);
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DPRINT( printf("--- LHMatch Online Finished ---\n"); )
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return LH_SUCCESS;
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}
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