📚 osm - Awesome Go Library for Geographic
Library for reading, writing and working with OpenStreetMap data and APIs.
Detailed Description of osm
osm
This package is a general purpose library for reading, writing and working with OpenStreetMap data in Go (golang). It has the ability to:
- read/write OSM XML
- read/write OSM JSON, a format returned by the Overpass API.
- efficiently parse OSM PBF data files available at planet.osm.org
Made available by the package are the following types:
- Node
- Way
- Relation
- Changeset
- Note
- User
And the following “container” types:
- OSM - container returned via API
- Change - used by the replication API
- Diff - corresponds to Overpass Augmented Diffs
List of sub-package utilities
annotate
- adds lon/lat, version, changeset and orientation data to way and relation membersosmapi
- supports all the v0.6 read/data endpointsosmgeojson
- OSM to GeoJSON conversion compatible with osmtogeojsonosmpbf
- stream processing of*.osm.pbf
filesosmxml
- stream processing of*.osm
xml filesreplication
- fetch replication state and change files
Concepts
This package refers to the core OSM data types as Objects. The Node, Way,
Relation, Changeset, Note and User types implement the osm.Object
interface
and can be referenced using the osm.ObjectID
type. As a result it is possible
to have a slice of []osm.Object
that contains nodes, changesets and users.
Individual versions of the core OSM Map Data types are referred to as Elements
and the set of versions for a give Node, Way or Relation is referred to as a
Feature. For example, an osm.ElementID
could refer to "Node with id 10 and
version 3" and the osm.FeatureID
would refer to "all versions of node with id 10."
Put another way, features represent a road and how it's changed over time and an
element is a specific version of that feature.
A number of helper methods are provided for dealing with features and elements. The idea is to make it easy to work with a Way and its member nodes, for example.
Scanning large data files
For small data it is possible to use the encoding/xml
package in the
Go standard library to marshal/unmarshal the data. This is typically done using the
osm.OSM
or osm.Change
"container" structs.
For large data the package defines the Scanner
interface implemented in both the osmxml
and osmpbf sub-packages.
type osm.Scanner interface {
Scan() bool
Object() osm.Object
Err() error
Close() error
}
This interface is designed to mimic the bufio.Scanner interface found in the Go standard library.
Example usage:
f, err := os.Open("./delaware-latest.osm.pbf")
if err != nil {
panic(err)
}
defer f.Close()
scanner := osmpbf.New(context.Background(), f, 3)
defer scanner.Close()
for scanner.Scan() {
o := scanner.Object()
// do something
}
scanErr := scanner.Err()
if scanErr != nil {
panic(scanErr)
}
Note: Scanners are not safe for parallel use. One should feed the objects into a channel and have workers read from that.
Working with JSON
This library supports reading and writing OSM JSON. This format is returned by the Overpass API and can be optionally returned by the OSM API.
If performance is important, this library supports third party "encoding/json" replacements such as github.com/json-iterator/go.
They can be enabled with something like this:
import (
jsoniter "github.com/json-iterator/go"
"github.com/paulmach/osm"
)
var c = jsoniter.Config{
EscapeHTML: true,
SortMapKeys: false,
MarshalFloatWith6Digits: true,
}.Froze()
osm.CustomJSONMarshaler = c
osm.CustomJSONUnmarshaler = c
The above change can have dramatic performance implications, see the benchmarks below on a large OSM Change object.
benchmark old ns/op new ns/op delta
BenchmarkChange_MarshalJSON-12 604496 461349 -23.68%
BenchmarkChange_UnmarshalJSON-12 1633834 1051630 -35.63%
benchmark old allocs new allocs delta
BenchmarkChange_MarshalJSON-12 1277 1081 -15.35%
BenchmarkChange_UnmarshalJSON-12 5133 8580 +67.15%
benchmark old bytes new bytes delta
BenchmarkChange_MarshalJSON-12 180583 162727 -9.89%
BenchmarkChange_UnmarshalJSON-12 287707 317723 +10.43%
CGO and zlib
OSM PBF data comes in blocks, each block is zlib compressed. Decompressing this data takes about 33% of the total read time. DataDog/czlib is used to speed this process. See osmpbf/README.md for more details.
As a result, a C compiler is necessary to install this module. On macOS this may require
installing pkg-config using something like brew install pkg-config
CGO can be disabled at build time using the CGO_ENABLED
ENV variable.
For example, CGO_ENABLED=0 go build
. The code will fallback to the stdlib implementation of zlib.