Mercuriallemon-0.x / comparison
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src/lemon/preflow.h
changeset 1084 320a0f083ca1
parent 977 48962802d168
child 1164 80bb73097736
equal deleted inserted replaced
2:54c0e5c4d458 3:e7fd9660b795 
   303 	bfs_queue.pop();
 
   303 	bfs_queue.pop();
 
   304 	int l=level[v]+1;
 
   304 	int l=level[v]+1;
 
   305 
   305 
   306 	for(InEdgeIt e(*g,v); e!=INVALID; ++e) {
 
   306 	for(InEdgeIt e(*g,v); e!=INVALID; ++e) {
 
   307 	  if ( (*capacity)[e] <= (*flow)[e] ) continue;
 
   307 	  if ( (*capacity)[e] <= (*flow)[e] ) continue;
 
   308 	  Node u=g->tail(e);
 
   308 	  Node u=g->source(e);
 
   309 	  if ( level[u] >= n ) {
 
   309 	  if ( level[u] >= n ) {
 
   310 	    bfs_queue.push(u);
 
   310 	    bfs_queue.push(u);
 
   311 	    level.set(u, l);
 
   311 	    level.set(u, l);
 
   312 	    if ( excess[u] > 0 ) {
 
   312 	    if ( excess[u] > 0 ) {
 
   313 	      next.set(u,first[l]);
 
   313 	      next.set(u,first[l]);
 
   316 	  }
 
   316 	  }
 
   317 	}
 
   317 	}
 
   318 
   318 
   319 	for(OutEdgeIt e(*g,v); e!=INVALID; ++e) {
 
   319 	for(OutEdgeIt e(*g,v); e!=INVALID; ++e) {
 
   320 	  if ( 0 >= (*flow)[e] ) continue;
 
   320 	  if ( 0 >= (*flow)[e] ) continue;
 
   321 	  Node u=g->head(e);
 
   321 	  Node u=g->target(e);
 
   322 	  if ( level[u] >= n ) {
 
   322 	  if ( level[u] >= n ) {
 
   323 	    bfs_queue.push(u);
 
   323 	    bfs_queue.push(u);
 
   324 	    level.set(u, l);
 
   324 	    level.set(u, l);
 
   325 	    if ( excess[u] > 0 ) {
 
   325 	    if ( excess[u] > 0 ) {
 
   326 	      next.set(u,first[l]);
 
   326 	      next.set(u,first[l]);
 
   408       while (!queue.empty()) {
 
   408       while (!queue.empty()) {
 
   409 	Node w=queue.front();
 
   409 	Node w=queue.front();
 
   410 	queue.pop();
 
   410 	queue.pop();
 
   411 	
   411 	
   412 	for(OutEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   412 	for(OutEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   413 	  Node v=g->head(e);
 
   413 	  Node v=g->target(e);
 
   414 	  if (!M[v] && (*flow)[e] < (*capacity)[e] ) {
 
   414 	  if (!M[v] && (*flow)[e] < (*capacity)[e] ) {
 
   415 	    queue.push(v);
 
   415 	    queue.push(v);
 
   416 	    M.set(v, true);
 
   416 	    M.set(v, true);
 
   417 	  }
 
   417 	  }
 
   418 	}
 
   418 	}
 
   419 	
   419 	
   420 	for(InEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   420 	for(InEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   421 	  Node v=g->tail(e);
 
   421 	  Node v=g->source(e);
 
   422 	  if (!M[v] && (*flow)[e] > 0 ) {
 
   422 	  if (!M[v] && (*flow)[e] > 0 ) {
 
   423 	    queue.push(v);
 
   423 	    queue.push(v);
 
   424 	    M.set(v, true);
 
   424 	    M.set(v, true);
 
   425 	  }
 
   425 	  }
 
   426 	}
 
   426 	}
 
   446       while (!queue.empty()) {
 
   446       while (!queue.empty()) {
 
   447         Node w=queue.front();
 
   447         Node w=queue.front();
 
   448 	queue.pop();
 
   448 	queue.pop();
 
   449 
   449 
   450 	for(InEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   450 	for(InEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   451 	  Node v=g->tail(e);
 
   451 	  Node v=g->source(e);
 
   452 	  if (M[v] && (*flow)[e] < (*capacity)[e] ) {
 
   452 	  if (M[v] && (*flow)[e] < (*capacity)[e] ) {
 
   453 	    queue.push(v);
 
   453 	    queue.push(v);
 
   454 	    M.set(v, false);
 
   454 	    M.set(v, false);
 
   455 	  }
 
   455 	  }
 
   456 	}
 
   456 	}
 
   457 
   457 
   458 	for(OutEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   458 	for(OutEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   459 	  Node v=g->head(e);
 
   459 	  Node v=g->target(e);
 
   460 	  if (M[v] && (*flow)[e] > 0 ) {
 
   460 	  if (M[v] && (*flow)[e] > 0 ) {
 
   461 	    queue.push(v);
 
   461 	    queue.push(v);
 
   462 	    M.set(v, false);
 
   462 	    M.set(v, false);
 
   463 	  }
 
   463 	  }
 
   464 	}
 
   464 	}
 
   513       Num exc=excess[w];
 
   513       Num exc=excess[w];
 
   514       int newlevel=n;       //bound on the next level of w
 
   514       int newlevel=n;       //bound on the next level of w
 
   515 
   515 
   516       for(OutEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   516       for(OutEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   517 	if ( (*flow)[e] >= (*capacity)[e] ) continue;
 
   517 	if ( (*flow)[e] >= (*capacity)[e] ) continue;
 
   518 	Node v=g->head(e);
 
   518 	Node v=g->target(e);
 
   519 
   519 
   520 	if( lev > level[v] ) { //Push is allowed now
 
   520 	if( lev > level[v] ) { //Push is allowed now
 
   521 	  
   521 	  
   522 	  if ( excess[v]<=0 && v!=t && v!=s ) {
 
   522 	  if ( excess[v]<=0 && v!=t && v!=s ) {
 
   523 	    next.set(v,first[level[v]]);
 
   523 	    next.set(v,first[level[v]]);
 
   545 
   545 
   546       if ( exc > 0 ) {
 
   546       if ( exc > 0 ) {
 
   547 	for(InEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   547 	for(InEdgeIt e(*g,w) ; e!=INVALID; ++e) {
 
   548 	  
   548 	  
   549 	  if( (*flow)[e] <= 0 ) continue;
 
   549 	  if( (*flow)[e] <= 0 ) continue;
 
   550 	  Node v=g->tail(e);
 
   550 	  Node v=g->source(e);
 
   551 
   551 
   552 	  if( lev > level[v] ) { //Push is allowed now
 
   552 	  if( lev > level[v] ) { //Push is allowed now
 
   553 
   553 
   554 	    if ( excess[v]<=0 && v!=t && v!=s ) {
 
   554 	    if ( excess[v]<=0 && v!=t && v!=s ) {
 
   555 	      next.set(v,first[level[v]]);
 
   555 	      next.set(v,first[level[v]]);
 
   600 	  bfs_queue.pop();
 
   600 	  bfs_queue.pop();
 
   601 	  int l=level[v]+1;
 
   601 	  int l=level[v]+1;
 
   602 	  
   602 	  
   603 	  for(InEdgeIt e(*g,v) ; e!=INVALID; ++e) {
 
   603 	  for(InEdgeIt e(*g,v) ; e!=INVALID; ++e) {
 
   604 	    if ( (*capacity)[e] <= (*flow)[e] ) continue;
 
   604 	    if ( (*capacity)[e] <= (*flow)[e] ) continue;
 
   605 	    Node w=g->tail(e);
 
   605 	    Node w=g->source(e);
 
   606 	    if ( level[w] == n && w != s ) {
 
   606 	    if ( level[w] == n && w != s ) {
 
   607 	      bfs_queue.push(w);
 
   607 	      bfs_queue.push(w);
 
   608 	      Node z=level_list[l];
 
   608 	      Node z=level_list[l];
 
   609 	      if ( z!=INVALID ) left.set(z,w);
 
   609 	      if ( z!=INVALID ) left.set(z,w);
 
   610 	      right.set(w,z);
 
   610 	      right.set(w,z);
 
   613 	    }
 
   613 	    }
 
   614 	  }
 
   614 	  }
 
   615 	  
   615 	  
   616 	  for(OutEdgeIt e(*g,v) ; e!=INVALID; ++e) {
 
   616 	  for(OutEdgeIt e(*g,v) ; e!=INVALID; ++e) {
 
   617 	    if ( 0 >= (*flow)[e] ) continue;
 
   617 	    if ( 0 >= (*flow)[e] ) continue;
 
   618 	    Node w=g->head(e);
 
   618 	    Node w=g->target(e);
 
   619 	    if ( level[w] == n && w != s ) {
 
   619 	    if ( level[w] == n && w != s ) {
 
   620 	      bfs_queue.push(w);
 
   620 	      bfs_queue.push(w);
 
   621 	      Node z=level_list[l];
 
   621 	      Node z=level_list[l];
 
   622 	      if ( z!=INVALID ) left.set(z,w);
 
   622 	      if ( z!=INVALID ) left.set(z,w);
 
   623 	      right.set(w,z);
 
   623 	      right.set(w,z);
 
   644 	  Node v=bfs_queue.front();
 
   644 	  Node v=bfs_queue.front();
 
   645 	  bfs_queue.pop();
 
   645 	  bfs_queue.pop();
 
   646 	  int l=level[v]+1;
 
   646 	  int l=level[v]+1;
 
   647 	  
   647 	  
   648 	  for(InEdgeIt e(*g,v) ; e!=INVALID; ++e) {
 
   648 	  for(InEdgeIt e(*g,v) ; e!=INVALID; ++e) {
 
   649 	    Node w=g->tail(e);
 
   649 	    Node w=g->source(e);
 
   650 	    if ( level[w] == n && w != s ) {
 
   650 	    if ( level[w] == n && w != s ) {
 
   651 	      bfs_queue.push(w);
 
   651 	      bfs_queue.push(w);
 
   652 	      Node z=level_list[l];
 
   652 	      Node z=level_list[l];
 
   653 	      if ( z!=INVALID ) left.set(z,w);
 
   653 	      if ( z!=INVALID ) left.set(z,w);
 
   654 	      right.set(w,z);
 
   654 	      right.set(w,z);
 
   660 	
   660 	
   661 	//the starting flow
 
   661 	//the starting flow
 
   662 	for(OutEdgeIt e(*g,s) ; e!=INVALID; ++e) {
 
   662 	for(OutEdgeIt e(*g,s) ; e!=INVALID; ++e) {
 
   663 	  Num c=(*capacity)[e];
 
   663 	  Num c=(*capacity)[e];
 
   664 	  if ( c <= 0 ) continue;
 
   664 	  if ( c <= 0 ) continue;
 
   665 	  Node w=g->head(e);
 
   665 	  Node w=g->target(e);
 
   666 	  if ( level[w] < n ) {
 
   666 	  if ( level[w] < n ) {
 
   667 	    if ( excess[w] <= 0 && w!=t ) { //putting into the stack
 
   667 	    if ( excess[w] <= 0 && w!=t ) { //putting into the stack
 
   668 	      next.set(w,first[level[w]]);
 
   668 	      next.set(w,first[level[w]]);
 
   669 	      first[level[w]]=w;
 
   669 	      first[level[w]]=w;
 
   670 	    }
 
   670 	    }
 
   685 
   685 
   686 	//the starting flow
 
   686 	//the starting flow
 
   687 	for(OutEdgeIt e(*g,s); e!=INVALID; ++e)	{
 
   687 	for(OutEdgeIt e(*g,s); e!=INVALID; ++e)	{
 
   688 	  Num rem=(*capacity)[e]-(*flow)[e];
 
   688 	  Num rem=(*capacity)[e]-(*flow)[e];
 
   689 	  if ( rem <= 0 ) continue;
 
   689 	  if ( rem <= 0 ) continue;
 
   690 	  Node w=g->head(e);
 
   690 	  Node w=g->target(e);
 
   691 	  if ( level[w] < n ) {
 
   691 	  if ( level[w] < n ) {
 
   692 	    if ( excess[w] <= 0 && w!=t ) { //putting into the stack
 
   692 	    if ( excess[w] <= 0 && w!=t ) { //putting into the stack
 
   693 	      next.set(w,first[level[w]]);
 
   693 	      next.set(w,first[level[w]]);
 
   694 	      first[level[w]]=w;
 
   694 	      first[level[w]]=w;
 
   695 	    }   
   695 	    }   
   698 	  }
 
   698 	  }
 
   699 	}
 
   699 	}
 
   700 	
   700 	
   701 	for(InEdgeIt e(*g,s); e!=INVALID; ++e) {
 
   701 	for(InEdgeIt e(*g,s); e!=INVALID; ++e) {
 
   702 	  if ( (*flow)[e] <= 0 ) continue;
 
   702 	  if ( (*flow)[e] <= 0 ) continue;
 
   703 	  Node w=g->tail(e);
 
   703 	  Node w=g->source(e);
 
   704 	  if ( level[w] < n ) {
 
   704 	  if ( level[w] < n ) {
 
   705 	    if ( excess[w] <= 0 && w!=t ) {
 
   705 	    if ( excess[w] <= 0 && w!=t ) {
 
   706 	      next.set(w,first[level[w]]);
 
   706 	      next.set(w,first[level[w]]);
 
   707 	      first[level[w]]=w;
 
   707 	      first[level[w]]=w;
 
   708 	    }  
   708 	    }  
   715 	case PRE_FLOW:	
   715 	case PRE_FLOW:	
   716 	//the starting flow
 
   716 	//the starting flow
 
   717 	for(OutEdgeIt e(*g,s) ; e!=INVALID; ++e) {
 
   717 	for(OutEdgeIt e(*g,s) ; e!=INVALID; ++e) {
 
   718 	  Num rem=(*capacity)[e]-(*flow)[e];
 
   718 	  Num rem=(*capacity)[e]-(*flow)[e];
 
   719 	  if ( rem <= 0 ) continue;
 
   719 	  if ( rem <= 0 ) continue;
 
   720 	  Node w=g->head(e);
 
   720 	  Node w=g->target(e);
 
   721 	  if ( level[w] < n ) flow->set(e, (*capacity)[e]);
 
   721 	  if ( level[w] < n ) flow->set(e, (*capacity)[e]);
 
   722 	}
 
   722 	}
 
   723 	
   723 	
   724 	for(InEdgeIt e(*g,s) ; e!=INVALID; ++e) {
 
   724 	for(InEdgeIt e(*g,s) ; e!=INVALID; ++e) {
 
   725 	  if ( (*flow)[e] <= 0 ) continue;
 
   725 	  if ( (*flow)[e] <= 0 ) continue;
 
   726 	  Node w=g->tail(e);
 
   726 	  Node w=g->source(e);
 
   727 	  if ( level[w] < n ) flow->set(e, 0);
 
   727 	  if ( level[w] < n ) flow->set(e, 0);
 
   728 	}
 
   728 	}
 
   729 	
   729 	
   730 	//computing the excess
 
   730 	//computing the excess
 
   731 	for(NodeIt w(*g); w!=INVALID; ++w) {
 
   731 	for(NodeIt w(*g); w!=INVALID; ++w) {
lemon-0.x