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imposm3/writer/relations.go

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package writer
import (
"sync"
"time"
"github.com/omniscale/imposm3/cache"
"github.com/omniscale/imposm3/database"
"github.com/omniscale/imposm3/element"
"github.com/omniscale/imposm3/expire"
geomp "github.com/omniscale/imposm3/geom"
geosp "github.com/omniscale/imposm3/geom/geos"
"github.com/omniscale/imposm3/mapping"
"github.com/omniscale/imposm3/stats"
)
type RelationWriter struct {
OsmElemWriter
singleIdSpace bool
rel chan *element.Relation
polygonMatcher mapping.RelWayMatcher
relationMatcher mapping.RelationMatcher
relationMemberMatcher mapping.RelationMatcher
maxGap float64
}
func NewRelationWriter(
osmCache *cache.OSMCache,
diffCache *cache.DiffCache,
singleIdSpace bool,
rel chan *element.Relation,
inserter database.Inserter,
progress *stats.Statistics,
matcher mapping.RelWayMatcher,
relMatcher mapping.RelationMatcher,
relMemberMatcher mapping.RelationMatcher,
srid int,
) *OsmElemWriter {
maxGap := 1e-1 // 0.1m
if srid == 4326 {
maxGap = 1e-6 // ~0.1m
}
rw := RelationWriter{
OsmElemWriter: OsmElemWriter{
osmCache: osmCache,
diffCache: diffCache,
progress: progress,
wg: &sync.WaitGroup{},
inserter: inserter,
srid: srid,
},
singleIdSpace: singleIdSpace,
polygonMatcher: matcher,
relationMatcher: relMatcher,
relationMemberMatcher: relMemberMatcher,
rel: rel,
maxGap: maxGap,
}
rw.OsmElemWriter.writer = &rw
return &rw.OsmElemWriter
}
func (rw *RelationWriter) relId(id int64) int64 {
if !rw.singleIdSpace {
return -id
}
return element.RelIdOffset - id
}
func (rw *RelationWriter) loop() {
geos := geosp.NewGeos()
geos.SetHandleSrid(rw.srid)
defer geos.Finish()
NextRel:
for r := range rw.rel {
rw.progress.AddRelations(1)
err := rw.osmCache.Ways.FillMembers(r.Members)
if err != nil {
if err != cache.NotFound {
log.Warn(err)
}
continue
}
for i, m := range r.Members {
if m.Way == nil {
continue
}
err := rw.osmCache.Coords.FillWay(m.Way)
if err != nil {
if err != cache.NotFound {
log.Warn(err)
}
continue NextRel
}
rw.NodesToSrid(m.Way.Nodes)
r.Members[i].Elem = &m.Way.OSMElem
}
// handleRelation updates r.Members but we need all of them
// for the diffCache
allMembers := r.Members
inserted := false
if handleRelationMembers(rw, r, geos) {
inserted = true
}
if handleRelation(rw, r, geos) {
inserted = true
}
if handleMultiPolygon(rw, r, geos) {
inserted = true
}
if inserted && rw.diffCache != nil {
rw.diffCache.Ways.AddFromMembers(r.Id, allMembers)
rw.diffCache.CoordsRel.AddFromMembers(r.Id, allMembers)
for _, member := range allMembers {
if member.Way != nil {
rw.diffCache.Coords.AddFromWay(member.Way)
}
}
}
if inserted && rw.expireor != nil {
for _, m := range allMembers {
if m.Way != nil {
expire.ExpireProjectedNodes(rw.expireor, m.Way.Nodes, rw.srid, true)
}
}
}
}
rw.wg.Done()
}
func handleMultiPolygon(rw *RelationWriter, r *element.Relation, geos *geosp.Geos) bool {
matches := rw.polygonMatcher.MatchRelation(r)
if matches == nil {
return false
}
// prepare relation (build rings)
prepedRel, err := geomp.PrepareRelation(r, rw.srid, rw.maxGap)
if err != nil {
if errl, ok := err.(ErrorLevel); !ok || errl.Level() > 0 {
log.Warn(err)
}
return false
}
// build the multipolygon
geom, err := prepedRel.Build()
if geom.Geom != nil {
defer geos.Destroy(geom.Geom)
}
if err != nil {
if errl, ok := err.(ErrorLevel); !ok || errl.Level() > 0 {
log.Warn(err)
}
return false
}
if rw.limiter != nil {
start := time.Now()
parts, err := rw.limiter.Clip(geom.Geom)
if err != nil {
log.Warn(err)
return false
}
if duration := time.Now().Sub(start); duration > time.Minute {
log.Warnf("clipping relation %d to -limitto took %s", r.Id, duration)
}
if len(parts) == 0 {
return false
}
for _, g := range parts {
rel := element.Relation(*r)
rel.Id = rw.relId(r.Id)
geom = geomp.Geometry{Geom: g, Wkb: geos.AsEwkbHex(g)}
err := rw.inserter.InsertPolygon(rel.OSMElem, geom, matches)
if err != nil {
if errl, ok := err.(ErrorLevel); !ok || errl.Level() > 0 {
log.Warn(err)
}
continue
}
}
} else {
rel := element.Relation(*r)
rel.Id = rw.relId(r.Id)
err := rw.inserter.InsertPolygon(rel.OSMElem, geom, matches)
if err != nil {
if errl, ok := err.(ErrorLevel); !ok || errl.Level() > 0 {
log.Warn(err)
}
return false
}
}
return true
}
func handleRelation(rw *RelationWriter, r *element.Relation, geos *geosp.Geos) bool {
relMatches := rw.relationMatcher.MatchRelation(r)
if relMatches == nil {
return false
}
rel := element.Relation(*r)
rel.Id = rw.relId(r.Id)
rw.inserter.InsertPolygon(rel.OSMElem, geomp.Geometry{}, relMatches)
return true
}
func handleRelationMembers(rw *RelationWriter, r *element.Relation, geos *geosp.Geos) bool {
relMemberMatches := rw.relationMemberMatcher.MatchRelation(r)
if relMemberMatches == nil {
return false
}
for i, m := range r.Members {
if m.Type == element.RELATION {
mrel, err := rw.osmCache.Relations.GetRelation(m.Id)
if err != nil {
if err != cache.NotFound {
log.Warn(err)
}
return false
}
r.Members[i].Elem = &mrel.OSMElem
} else if m.Type == element.NODE {
nd, err := rw.osmCache.Nodes.GetNode(m.Id)
if err != nil {
if err == cache.NotFound {
nd, err = rw.osmCache.Coords.GetCoord(m.Id)
if err != nil {
if err != cache.NotFound {
log.Warn(err)
}
return false
}
} else {
log.Warn(err)
return false
}
}
rw.NodeToSrid(nd)
r.Members[i].Node = nd
r.Members[i].Elem = &nd.OSMElem
}
}
for _, m := range r.Members {
var g *geosp.Geom
var err error
if m.Node != nil {
g, err = geomp.Point(geos, *m.Node)
} else if m.Way != nil {
g, err = geomp.LineString(geos, m.Way.Nodes)
}
if err != nil {
log.Warn(err)
return false
}
var gelem geomp.Geometry
if g == nil {
g = geos.FromWkt("POLYGON EMPTY")
gelem = geomp.Geometry{Geom: g, Wkb: geos.AsEwkbHex(g)}
} else {
gelem, err = geomp.AsGeomElement(geos, g)
if err != nil {
log.Warn(err)
return false
}
}
rel := element.Relation(*r)
rel.Id = rw.relId(r.Id)
rw.inserter.InsertRelationMember(rel, m, gelem, relMemberMatches)
}
return true
}
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