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relation.go
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relation.go
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package osm
import (
"sort"
"time"
"github.com/paulmach/orb"
)
// RelationID is the primary key of a relation.
// A relation is uniquely identifiable by the id + version.
type RelationID int64
// ObjectID is a helper returning the object id for this relation id.
func (id RelationID) ObjectID(v int) ObjectID {
return ObjectID(id.ElementID(v))
}
// FeatureID is a helper returning the feature id for this relation id.
func (id RelationID) FeatureID() FeatureID {
return FeatureID(relationMask | id<<versionBits)
}
// ElementID is a helper to convert the id to an element id.
func (id RelationID) ElementID(v int) ElementID {
return id.FeatureID().ElementID(v)
}
// Relation is an collection of nodes, ways and other relations
// with some defining attributes.
type Relation struct {
XMLName xmlNameJSONTypeRel `xml:"relation" json:"type"`
ID RelationID `xml:"id,attr" json:"id"`
User string `xml:"user,attr" json:"user,omitempty"`
UserID UserID `xml:"uid,attr" json:"uid,omitempty"`
Visible bool `xml:"visible,attr" json:"visible"`
Version int `xml:"version,attr" json:"version,omitempty"`
ChangesetID ChangesetID `xml:"changeset,attr" json:"changeset,omitempty"`
Timestamp time.Time `xml:"timestamp,attr" json:"timestamp,omitempty"`
Tags Tags `xml:"tag" json:"tags,omitempty"`
Members Members `xml:"member" json:"members"`
// Committed, is the estimated time this object was committed
// and made visible in the central OSM database.
Committed *time.Time `xml:"committed,attr,omitempty" json:"committed,omitempty"`
// Updates are changes to the members of this relation independent
// of an update to the relation itself. The OSM api allows a child
// to be updated without any changes to the parent.
Updates Updates `xml:"update,omitempty" json:"updates,omitempty"`
// Bounds are included by overpass, and maybe others
Bounds *Bounds `xml:"bounds,omitempty" json:"bounds,omitempty"`
}
// Members represents an ordered list of relation members.
type Members []Member
// Member is a member of a relation.
type Member struct {
Type Type `xml:"type,attr" json:"type"`
Ref int64 `xml:"ref,attr" json:"ref"`
Role string `xml:"role,attr" json:"role"`
Version int `xml:"version,attr,omitempty" json:"version,omitempty"`
ChangesetID ChangesetID `xml:"changeset,attr,omitempty" json:"changeset,omitempty"`
// Node location if Type == Node
// Closest vertex to centroid if Type == Way
// Empty/invalid if Type == Relation
Lat float64 `xml:"lat,attr,omitempty" json:"lat,omitempty"`
Lon float64 `xml:"lon,attr,omitempty" json:"lon,omitempty"`
// Orientation is the direction of the way around a ring of a multipolygon.
// Only valid for multipolygon or boundary relations.
Orientation orb.Orientation `xml:"orientation,attr,omitempty" json:"orientation,omitempty"`
// Nodes are sometimes included in members of type way to include the lat/lon
// path of the way. Overpass returns xml like this.
Nodes WayNodes `xml:"nd" json:"nodes,omitempty"`
}
// ObjectID returns the object id of the relation.
func (r *Relation) ObjectID() ObjectID {
return r.ID.ObjectID(r.Version)
}
// FeatureID returns the feature id of the relation.
func (r *Relation) FeatureID() FeatureID {
return r.ID.FeatureID()
}
// ElementID returns the element id of the relation.
func (r *Relation) ElementID() ElementID {
return r.ID.ElementID(r.Version)
}
// FeatureID returns the feature id of the member.
func (m Member) FeatureID() FeatureID {
switch m.Type {
case TypeNode:
return NodeID(m.Ref).FeatureID()
case TypeWay:
return WayID(m.Ref).FeatureID()
case TypeRelation:
return RelationID(m.Ref).FeatureID()
}
panic("unknown type")
}
// ElementID returns the element id of the member.
func (m Member) ElementID() ElementID {
return m.FeatureID().ElementID(m.Version)
}
// Point returns the orb.Point location for the member.
// Will be (0, 0) if the relation is not annotated.
// For way members this location is annotated as the "surface point".
func (m Member) Point() orb.Point {
return orb.Point{m.Lon, m.Lat}
}
// CommittedAt returns the best estimate on when this element
// became was written/committed into the database.
func (r *Relation) CommittedAt() time.Time {
if r.Committed != nil {
return *r.Committed
}
return r.Timestamp
}
// TagMap returns the element tags as a key/value map.
func (r *Relation) TagMap() map[string]string {
return r.Tags.Map()
}
// ApplyUpdatesUpTo will apply the updates to this object upto and including
// the given time.
func (r *Relation) ApplyUpdatesUpTo(t time.Time) error {
var notApplied []Update
for _, u := range r.Updates {
if u.Timestamp.After(t) {
notApplied = append(notApplied, u)
continue
}
if err := r.applyUpdate(u); err != nil {
return err
}
}
r.Updates = notApplied
return nil
}
// applyUpdate will modify the current relation and dictated by the given update.
// Will return UpdateIndexOutOfRangeError if the update index is too large.
func (r *Relation) applyUpdate(u Update) error {
if u.Index >= len(r.Members) {
return &UpdateIndexOutOfRangeError{Index: u.Index}
}
r.Members[u.Index].Version = u.Version
r.Members[u.Index].ChangesetID = u.ChangesetID
r.Members[u.Index].Lat = u.Lat
r.Members[u.Index].Lon = u.Lon
if u.Reverse {
r.Members[u.Index].Orientation *= -1
}
return nil
}
// FeatureIDs returns the a list of feature ids for the members.
func (ms Members) FeatureIDs() FeatureIDs {
ids := make(FeatureIDs, len(ms), len(ms)+1)
for i, m := range ms {
ids[i] = m.FeatureID()
}
return ids
}
// ElementIDs returns the a list of element ids for the members.
func (ms Members) ElementIDs() ElementIDs {
ids := make(ElementIDs, len(ms), len(ms)+1)
for i, m := range ms {
ids[i] = m.ElementID()
}
return ids
}
// MarshalJSON allows the members to be marshalled as defined by the
// overpass osmjson. This function is a wrapper to marshal null as [].
func (ms Members) MarshalJSON() ([]byte, error) {
if len(ms) == 0 {
return []byte(`[]`), nil
}
return marshalJSON([]Member(ms))
}
// Relations is a list of relations with some helper functions attached.
type Relations []*Relation
// IDs returns the ids for all the relations.
func (rs Relations) IDs() []RelationID {
result := make([]RelationID, len(rs))
for i, r := range rs {
result[i] = r.ID
}
return result
}
// FeatureIDs returns the feature ids for all the relations.
func (rs Relations) FeatureIDs() FeatureIDs {
result := make(FeatureIDs, len(rs))
for i, r := range rs {
result[i] = r.FeatureID()
}
return result
}
// ElementIDs returns the element ids for all the relations.
func (rs Relations) ElementIDs() ElementIDs {
result := make(ElementIDs, len(rs))
for i, r := range rs {
result[i] = r.ElementID()
}
return result
}
type relationsSort Relations
// SortByIDVersion will sort the set of relations first by id and then version
// in ascending order.
func (rs Relations) SortByIDVersion() {
sort.Sort(relationsSort(rs))
}
func (rs relationsSort) Len() int { return len(rs) }
func (rs relationsSort) Swap(i, j int) { rs[i], rs[j] = rs[j], rs[i] }
func (rs relationsSort) Less(i, j int) bool {
if rs[i].ID == rs[j].ID {
return rs[i].Version < rs[j].Version
}
return rs[i].ID < rs[j].ID
}