tile38/controller/search.go

515 lines
13 KiB
Go

package controller
import (
"bytes"
"sort"
"strconv"
"strings"
"time"
"github.com/tidwall/resp"
"github.com/tidwall/tile38/controller/bing"
"github.com/tidwall/tile38/controller/glob"
"github.com/tidwall/tile38/controller/server"
"github.com/tidwall/tile38/geojson"
"github.com/tidwall/tile38/geojson/geohash"
)
type liveFenceSwitches struct {
searchScanBaseTokens
lat, lon, meters float64
o geojson.Object
minLat, minLon float64
maxLat, maxLon float64
cmd string
roam roamSwitches
knn bool
groups map[string]string
}
type roamSwitches struct {
on bool
key string
id string
pattern bool
meters float64
scan string
}
func (s liveFenceSwitches) Error() string {
return "going live"
}
func (c *Controller) cmdSearchArgs(cmd string, vs []resp.Value, types []string) (s liveFenceSwitches, err error) {
if vs, s.searchScanBaseTokens, err = parseSearchScanBaseTokens(cmd, vs); err != nil {
return
}
var typ string
var ok bool
if vs, typ, ok = tokenval(vs); !ok || typ == "" {
err = errInvalidNumberOfArguments
return
}
if s.searchScanBaseTokens.output == outputBounds {
if cmd == "within" || cmd == "intersects" {
if _, err := strconv.ParseFloat(typ, 64); err == nil {
// It's likely that the output was not specified, but rather the search bounds.
s.searchScanBaseTokens.output = defaultSearchOutput
vs = append([]resp.Value{resp.StringValue(typ)}, vs...)
typ = "BOUNDS"
}
}
}
ltyp := strings.ToLower(typ)
var found bool
for _, t := range types {
if ltyp == t {
found = true
break
}
}
if !found && s.searchScanBaseTokens.fence && ltyp == "roam" && cmd == "nearby" {
// allow roaming for nearby fence searches.
found = true
}
if !found {
err = errInvalidArgument(typ)
return
}
switch ltyp {
case "point":
var slat, slon, smeters string
if vs, slat, ok = tokenval(vs); !ok || slat == "" {
err = errInvalidNumberOfArguments
return
}
if vs, slon, ok = tokenval(vs); !ok || slon == "" {
err = errInvalidNumberOfArguments
return
}
umeters := true
if vs, smeters, ok = tokenval(vs); !ok || smeters == "" {
umeters = false
if cmd == "nearby" {
// possible that this is KNN search
s.knn = s.searchScanBaseTokens.ulimit && // must be true
!s.searchScanBaseTokens.usparse // must be false
}
if !s.knn {
err = errInvalidArgument(slat)
return
}
}
if s.lat, err = strconv.ParseFloat(slat, 64); err != nil {
err = errInvalidArgument(slat)
return
}
if s.lon, err = strconv.ParseFloat(slon, 64); err != nil {
err = errInvalidArgument(slon)
return
}
if umeters {
if s.meters, err = strconv.ParseFloat(smeters, 64); err != nil {
err = errInvalidArgument(smeters)
return
}
}
case "object":
var obj string
if vs, obj, ok = tokenval(vs); !ok || obj == "" {
err = errInvalidNumberOfArguments
return
}
s.o, err = geojson.ObjectJSON(obj)
if err != nil {
return
}
case "bounds":
var sminLat, sminLon, smaxlat, smaxlon string
if vs, sminLat, ok = tokenval(vs); !ok || sminLat == "" {
err = errInvalidNumberOfArguments
return
}
if vs, sminLon, ok = tokenval(vs); !ok || sminLon == "" {
err = errInvalidNumberOfArguments
return
}
if vs, smaxlat, ok = tokenval(vs); !ok || smaxlat == "" {
err = errInvalidNumberOfArguments
return
}
if vs, smaxlon, ok = tokenval(vs); !ok || smaxlon == "" {
err = errInvalidNumberOfArguments
return
}
if s.minLat, err = strconv.ParseFloat(sminLat, 64); err != nil {
err = errInvalidArgument(sminLat)
return
}
if s.minLon, err = strconv.ParseFloat(sminLon, 64); err != nil {
err = errInvalidArgument(sminLon)
return
}
if s.maxLat, err = strconv.ParseFloat(smaxlat, 64); err != nil {
err = errInvalidArgument(smaxlat)
return
}
if s.maxLon, err = strconv.ParseFloat(smaxlon, 64); err != nil {
err = errInvalidArgument(smaxlon)
return
}
case "hash":
var hash string
if vs, hash, ok = tokenval(vs); !ok || hash == "" {
err = errInvalidNumberOfArguments
return
}
if s.minLat, s.minLon, s.maxLat, s.maxLon, err = geohash.Bounds(hash); err != nil {
err = errInvalidArgument(hash)
return
}
case "quadkey":
var key string
if vs, key, ok = tokenval(vs); !ok || key == "" {
err = errInvalidNumberOfArguments
return
}
if s.minLat, s.minLon, s.maxLat, s.maxLon, err = bing.QuadKeyToBounds(key); err != nil {
err = errInvalidArgument(key)
return
}
case "tile":
var sx, sy, sz string
if vs, sx, ok = tokenval(vs); !ok || sx == "" {
err = errInvalidNumberOfArguments
return
}
if vs, sy, ok = tokenval(vs); !ok || sy == "" {
err = errInvalidNumberOfArguments
return
}
if vs, sz, ok = tokenval(vs); !ok || sz == "" {
err = errInvalidNumberOfArguments
return
}
var x, y int64
var z uint64
if x, err = strconv.ParseInt(sx, 10, 64); err != nil {
err = errInvalidArgument(sx)
return
}
if y, err = strconv.ParseInt(sy, 10, 64); err != nil {
err = errInvalidArgument(sy)
return
}
if z, err = strconv.ParseUint(sz, 10, 64); err != nil {
err = errInvalidArgument(sz)
return
}
s.minLat, s.minLon, s.maxLat, s.maxLon = bing.TileXYToBounds(x, y, z)
case "get":
var key, id string
if vs, key, ok = tokenval(vs); !ok || key == "" {
err = errInvalidNumberOfArguments
return
}
if vs, id, ok = tokenval(vs); !ok || id == "" {
err = errInvalidNumberOfArguments
return
}
col := c.getCol(key)
if col == nil {
err = errKeyNotFound
return
}
o, _, ok := col.Get(id)
if !ok {
err = errIDNotFound
return
}
if o.IsBBoxDefined() {
bbox := o.CalculatedBBox()
s.minLat = bbox.Min.Y
s.minLon = bbox.Min.X
s.maxLat = bbox.Max.Y
s.maxLon = bbox.Max.X
} else {
s.o = o
}
case "roam":
s.roam.on = true
if vs, s.roam.key, ok = tokenval(vs); !ok || s.roam.key == "" {
err = errInvalidNumberOfArguments
return
}
if vs, s.roam.id, ok = tokenval(vs); !ok || s.roam.id == "" {
err = errInvalidNumberOfArguments
return
}
s.roam.pattern = glob.IsGlob(s.roam.id)
var smeters string
if vs, smeters, ok = tokenval(vs); !ok || smeters == "" {
err = errInvalidNumberOfArguments
return
}
if s.roam.meters, err = strconv.ParseFloat(smeters, 64); err != nil {
err = errInvalidArgument(smeters)
return
}
var scan string
if vs, scan, ok = tokenval(vs); ok {
if strings.ToLower(scan) != "scan" {
err = errInvalidArgument(scan)
return
}
if vs, scan, ok = tokenval(vs); !ok || scan == "" {
err = errInvalidNumberOfArguments
return
}
s.roam.scan = scan
}
}
if len(vs) != 0 {
err = errInvalidNumberOfArguments
return
}
return
}
var nearbyTypes = []string{"point"}
var withinOrIntersectsTypes = []string{"geo", "bounds", "hash", "tile", "quadkey", "get", "object"}
func (c *Controller) cmdNearby(msg *server.Message) (res resp.Value, err error) {
start := time.Now()
vs := msg.Values[1:]
wr := &bytes.Buffer{}
s, err := c.cmdSearchArgs("nearby", vs, nearbyTypes)
if err != nil {
return server.NOMessage, err
}
s.cmd = "nearby"
if s.fence {
return server.NOMessage, s
}
minZ, maxZ := zMinMaxFromWheres(s.wheres)
sw, err := c.newScanWriter(wr, msg, s.key, s.output, s.precision, s.glob, false, s.cursor, s.limit, s.wheres, s.whereins, s.nofields)
if err != nil {
return server.NOMessage, err
}
if msg.OutputType == server.JSON {
wr.WriteString(`{"ok":true`)
}
sw.writeHead()
if sw.col != nil {
iter := func(id string, o geojson.Object, fields []float64, dist *float64) bool {
if c.hasExpired(s.key, id) {
return true
}
// Calculate distance if we need to
distance := 0.0
if s.distance {
if dist != nil {
distance = *dist
} else {
distance = o.CalculatedPoint().DistanceTo(geojson.Position{X: s.lon, Y: s.lat, Z: 0})
}
}
return sw.writeObject(ScanWriterParams{
id: id,
o: o,
fields: fields,
distance: distance,
noLock: true,
})
}
if s.knn {
nearestNeighbors(sw, s.lat, s.lon, iter)
} else {
sw.col.Nearby(s.sparse, s.lat, s.lon, s.meters, minZ, maxZ,
func(id string, o geojson.Object, fields []float64) bool {
return iter(id, o, fields, nil)
},
)
}
}
sw.writeFoot()
if msg.OutputType == server.JSON {
wr.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}")
return resp.BytesValue(wr.Bytes()), nil
}
return sw.respOut, nil
}
type iterItem struct {
id string
o geojson.Object
fields []float64
dist float64
}
func nearestNeighbors(sw *scanWriter, lat, lon float64, iter func(id string, o geojson.Object, fields []float64, dist *float64) bool) {
limit := int(sw.limit)
var items []iterItem
sw.col.NearestNeighbors(lat, lon, func(id string, o geojson.Object, fields []float64) bool {
if _, ok := sw.fieldMatch(fields, o); ok {
dist := o.CalculatedPoint().DistanceTo(geojson.Position{X: lon, Y: lat, Z: 0})
items = append(items, iterItem{id: id, o: o, fields: fields, dist: dist})
}
return len(items) < limit
})
sort.Slice(items, func(i, j int) bool {
return items[i].dist < items[j].dist
})
for _, item := range items {
if !iter(item.id, item.o, item.fields, &item.dist) {
return
}
}
}
func (c *Controller) cmdWithin(msg *server.Message) (res resp.Value, err error) {
return c.cmdWithinOrIntersects("within", msg)
}
func (c *Controller) cmdIntersects(msg *server.Message) (res resp.Value, err error) {
return c.cmdWithinOrIntersects("intersects", msg)
}
func (c *Controller) cmdWithinOrIntersects(cmd string, msg *server.Message) (res resp.Value, err error) {
start := time.Now()
vs := msg.Values[1:]
wr := &bytes.Buffer{}
s, err := c.cmdSearchArgs(cmd, vs, withinOrIntersectsTypes)
if err != nil {
return server.NOMessage, err
}
s.cmd = cmd
if s.fence {
return server.NOMessage, s
}
sw, err := c.newScanWriter(wr, msg, s.key, s.output, s.precision, s.glob, false, s.cursor, s.limit, s.wheres, s.whereins, s.nofields)
if err != nil {
return server.NOMessage, err
}
if msg.OutputType == server.JSON {
wr.WriteString(`{"ok":true`)
}
sw.writeHead()
if sw.col != nil {
minZ, maxZ := zMinMaxFromWheres(s.wheres)
if cmd == "within" {
sw.col.Within(s.sparse, s.o, s.minLat, s.minLon, s.maxLat, s.maxLon, minZ, maxZ,
func(id string, o geojson.Object, fields []float64) bool {
if c.hasExpired(s.key, id) {
return true
}
return sw.writeObject(ScanWriterParams{
id: id,
o: o,
fields: fields,
noLock: true,
})
},
)
} else if cmd == "intersects" {
sw.col.Intersects(s.sparse, s.o, s.minLat, s.minLon, s.maxLat, s.maxLon, minZ, maxZ,
func(id string, o geojson.Object, fields []float64) bool {
if c.hasExpired(s.key, id) {
return true
}
return sw.writeObject(ScanWriterParams{
id: id,
o: o,
fields: fields,
noLock: true,
})
},
)
}
}
sw.writeFoot()
if msg.OutputType == server.JSON {
wr.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}")
return resp.BytesValue(wr.Bytes()), nil
}
return sw.respOut, nil
}
func cmdSeachValuesArgs(vs []resp.Value) (s liveFenceSwitches, err error) {
if vs, s.searchScanBaseTokens, err = parseSearchScanBaseTokens("search", vs); err != nil {
return
}
if len(vs) != 0 {
err = errInvalidNumberOfArguments
return
}
return
}
func (c *Controller) cmdSearch(msg *server.Message) (res resp.Value, err error) {
start := time.Now()
vs := msg.Values[1:]
wr := &bytes.Buffer{}
s, err := cmdSeachValuesArgs(vs)
if err != nil {
return server.NOMessage, err
}
sw, err := c.newScanWriter(wr, msg, s.key, s.output, s.precision, s.glob, true, s.cursor, s.limit, s.wheres, s.whereins, s.nofields)
if err != nil {
return server.NOMessage, err
}
if msg.OutputType == server.JSON {
wr.WriteString(`{"ok":true`)
}
sw.writeHead()
if sw.col != nil {
if sw.output == outputCount && len(sw.wheres) == 0 && sw.globEverything == true {
count := sw.col.Count() - int(s.cursor)
if count < 0 {
count = 0
}
sw.count = uint64(count)
} else {
g := glob.Parse(sw.globPattern, s.desc)
if g.Limits[0] == "" && g.Limits[1] == "" {
sw.col.SearchValues(s.desc,
func(id string, o geojson.Object, fields []float64) bool {
return sw.writeObject(ScanWriterParams{
id: id,
o: o,
fields: fields,
noLock: true,
})
},
)
} else {
// must disable globSingle for string value type matching because
// globSingle is only for ID matches, not values.
sw.globSingle = false
sw.col.SearchValuesRange(g.Limits[0], g.Limits[1], s.desc,
func(id string, o geojson.Object, fields []float64) bool {
return sw.writeObject(ScanWriterParams{
id: id,
o: o,
fields: fields,
noLock: true,
})
},
)
}
}
}
sw.writeFoot()
if msg.OutputType == server.JSON {
wr.WriteString(`,"elapsed":"` + time.Now().Sub(start).String() + "\"}")
return resp.BytesValue(wr.Bytes()), nil
}
return sw.respOut, nil
}