void testAtomic()
{
Atomic<int> i(0);
i += 1;
LOG_VAR((i++).value());
LOG_VAR((++i).value());
}
double NodeMatcher::scorePair(long nid1, long nid2)
{
shared_ptr<const Node> n1 = _map->getNode(nid1);
shared_ptr<const Node> n2 = _map->getNode(nid2);
const set<long>& wids1 = _map->getIndex().getNodeToWayMap()->at(nid1);
const set<long>& wids2 = _map->getIndex().getNodeToWayMap()->at(nid2);
double acc = 0;
for (set<long>::const_iterator it = wids1.begin(); it != wids1.end(); ++it)
{
acc = max(acc, _map->getWay(*it)->getCircularError());
}
for (set<long>::const_iterator it = wids2.begin(); it != wids2.end(); ++it)
{
acc = max(acc, _map->getWay(*it)->getCircularError());
}
vector<Radians> theta1 = calculateAngles(_map.get(), nid1, wids1);
vector<Radians> theta2 = calculateAngles(_map.get(), nid2, wids2);
int s1 = theta1.size();
int s2 = theta2.size();
if (s1 < 3 || s2 < 3)
{
return 0.0;
}
double d = n1->toCoordinate().distance(n2->toCoordinate());
/// @todo this isnt right Talk to mike
double distanceScore = 1 - (Normal::phi(d, acc * 1.5) - 0.5) * 2.0;
if (theta1.size() < theta2.size())
{
swap(theta1, theta2);
}
double thetaScore;
// this is very unsual and will slow things down.
if (theta1.size() > 6 && theta2.size() > 6)
{
LOG_WARN("7 intersections at one spot? Odd. Giving it a high angleScore.");
LOG_VAR(nid1);
LOG_VAR(nid2);
LOG_VAR(wids1);
LOG_VAR(wids2);
thetaScore = 1.0;
}
else
{
vector<bool> exclude(theta1.size(), false);
thetaScore = _calculateAngleScore(theta1, theta2, exclude, 0);
}
// simple stupid heuristic. Replace w/ some cosine fanciness later.
int diff = abs((int)s1 - (int)s2);
return (min(s1, s2) - diff) * thetaScore * distanceScore;
}
void SqlBulkInsert::insert(const QList<QVariant> l)
{
if (l.size() != _columns.size())
{
LOG_VAR(l);
LOG_VAR(_columns);
throw IllegalArgumentException("Expected l to have the same size as _columns.");
}
_pending.append(l);
}
static int __init imgrement_init(void)
{
char* err;
struct imgrement_device *dev;
imgrement_device = kzalloc(sizeof(struct imgrement_device), GFP_KERNEL);
_astgo(imgrement_device != NULL, "Error allocating", err, init_error);
dev = imgrement_device;
dev->major = register_blkdev(0, DRIVER_NAME);
_astgo(dev->major > 0, "Error register block device", err, init_error);
dev->base_dev = blkdev_get_by_path("/dev/sdb", FMODE_READ, NULL);
_astgo(dev->base_dev != NULL, "Error getting base block device", err, init_error);
dev->base_queue = bdev_get_queue(dev->base_dev);
_astgo(dev->base_queue != NULL, "Error getting queue", err, init_error);
dev->orig_req_fn = dev->base_queue->make_request_fn;
dev->base_queue->make_request_fn = trace_request_fn;
LOG("%s trace initialization succeeded", dev->base_dev->bd_disk->disk_name);
return 0;
init_error:
LOG_VAR(err);
imgrement_exit();
return -1;
}
void testThread()
{
char arg1[] = "th1";
char arg2[] = "th2";
Thread th1((Thread::Routine)foo, arg1);
Thread th2((Thread::Routine)foo, arg2);
th1.setBackground(true);
th1.start();
th2.start();
#ifdef _WIN32
Thread::sleep(500);
th1.suspend();
LOGT("th1 was suspended.");
Thread::sleep(500);
th2.suspend();
LOGT("th2 was suspended.");
Thread::sleep(500);
th1.resume();
LOGT("th1 was resumed.");
Thread::sleep(500);
th2.resume();
LOGT("th2 was resumed.");
#endif
int ret2 = th2.join();
LOG_VAR(ret2);
}
void XScrollArea::layoutVScrollBar(int hValue)
{
QPoint movePoint(width() - verticalScrollBar()->height(),0);
LOG_VAR(movePoint);
verticalScrollBar()->move(QPoint(0,0));
}
/**
* Creates two matches with overlap and should create a MarkForReviewMerger
*/
void reviewTest()
{
OsmMap::resetCounters();
OsmMapPtr map(new OsmMap());
Coordinate c1[] = { Coordinate(0.0, 0.0), Coordinate(20.0, 0.0),
Coordinate(20.0, 20.0), Coordinate(0.0, 20.0),
Coordinate(0.0, 0.0),
Coordinate::getNull() };
WayPtr w1 = TestUtils::createWay(map, Status::Unknown1, c1, 5, "w1");
w1->getTags().set("building", true);
w1->getTags()["name"] = "foo";
w1->getTags()["amenity"] = "bar";
Coordinate c2[] = { Coordinate(0.0, 0.0), Coordinate(5.0, 0.0),
Coordinate(5.0, 5.0), Coordinate(0.0, 5.0),
Coordinate(0.0, 0.0),
Coordinate::getNull() };
WayPtr w2 = TestUtils::createWay(map, Status::Unknown2, c2, 5, "w2");
w2->getTags().set("building", true);
w2->getTags()["name"] = "goofie";
NodePtr n1(new Node(Status::Unknown2, 1, 19, 19, 5));
n1->getTags()["name"] = "foo";
n1->getTags()["amenity"] = "cafe";
map->addNode(n1);
vector<const Match*> matchesV;
PoiPolygonMatch match1(map, w1->getElementId(), n1->getElementId(), shared_ptr<MatchThreshold>());
matchesV.push_back(&match1);
shared_ptr<const MatchThreshold> threshold(new MatchThreshold(0.5, 0.5, 0.5));
BuildingMatchCreator().createMatches(map, matchesV, threshold);
PoiPolygonMatch match2(map, w2->getElementId(), n1->getElementId(), shared_ptr<MatchThreshold>());
LOG_VAR(match2);
MatchSet matches;
matches.insert(matchesV.begin(), matchesV.end());
vector<Merger*> mergers;
PoiPolygonMergerCreator uut;
uut.setOsmMap(map.get());
HOOT_STR_EQUALS(1, uut.createMergers(matches, mergers));
HOOT_STR_EQUALS(1, mergers.size());
LOG_VAR(*mergers[0]);
HOOT_STR_EQUALS(1, (dynamic_cast<MarkForReviewMerger*>(mergers[0]) != 0));
}
WaySublineMatchString::WaySublineMatchString(const MatchCollection& m)
{
for (size_t i = 0; i < m.size(); i++)
{
for (size_t j = 0; j < m.size(); j++)
{
if (i != j && m[i].overlaps(m[j]))
{
LOG_VAR(m);
throw OverlappingMatchesException("The match collection must not contain overlapping "
"matches.");
}
}
}
_matches = m;
}
void runCircularVisitRw1Test()
{
DisableLog dl;
shared_ptr<OsmMap> map(new OsmMap());
shared_ptr<Relation> r1(new Relation(Status::Unknown1, 1, 15));
shared_ptr<Relation> r2(new Relation(Status::Unknown1, 2, 15));
map->addElement(r1);
map->addElement(r2);
r1->addElement("", r2->getElementId());
r2->addElement("", r1->getElementId());
CountVisitor v;
r1->visitRw(*map, v);
LOG_VAR(v.getCount());
}
struct io_activity *create_ioa(struct bio *bio)
{
char *err;
struct io_activity *ioa = vmalloc(sizeof(struct io_activity));
_astgo(ioa != NULL, "Error allocating io_activity", err, create_ioa_error);
ioa->rw = bio_data_dir(bio);
ioa->data_size = bio_size(bio);
ioa->delta_count = bio_cnt(bio);
if (ioa->delta_count != 0) {
ioa->deltas = vmalloc(ioa->delta_count * sizeof(struct block_delta));
_astgo(ioa->deltas != NULL, "Error allocating deltas", err, create_ioa_error);
} else ioa->deltas = NULL;
return ioa;
create_ioa_error:
LOG_VAR(err);
LOG("Error creating ioa from bio with: %lu sector, %d size", bio_sector(bio), bio_size(bio));
ast_vfree(ioa->deltas);
ast_vfree(ioa);
return NULL;
}
