Passing any `option=value` is optional. `polyline` follows Google's polyline format with precision 5 and can be generated using [this package](https://www.npmjs.com/package/polyline).
To pass parameters to each location some options support an array like encoding:
```
{option}={element};{element}[;{element} ... ]
```
The number of elements must match exactly the number of locations. If you don't want to pass a value but instead use the default you can pass an empty `element`.
Example: 2nd location use the default value for `option`:
|bearings |`{bearing};{bearing}[;{bearing} ...]` |Limits the search to segments with given bearing in degrees towards true north in clockwise direction. |
|radiuses |`{radius};{radius}[;{radius} ...]` |Limits the search to given radius in meters. |
|hints |`{hint};{hint}[;{hint} ...]` |Hint to derive position in street network. |
|geometries |`polyline` (default), `geojson` |Returned route geometry format (influences overview and per step) |
|overview |`simplified` (default), `full`, `false` |Add overview geometry either full, simplified according to highest zoom level it could be display on, or not at all.|
|continue_straight |`default` (default), `true`, `false`|Forces the route to keep going straight at waypoints and don't do a uturn even if it would be faster. Default value depends on the profile. |
\* Please note that even if an alternative route is requested, a result cannot be guaranteed.
### Response
-`code` if the request was successful `Ok` otherwise see the service dependent and general status codes.
-`waypoints`: Array of `Waypoint` objects representing all waypoints in order:
-`routes`: An array of `Route` objects, ordered by descending recommendation rank.
In case of error the following `code`s are supported in addition to the general ones:
Map matching matches given GPS points to the road network in the most plausible way.
Please note the request might result multiple sub-traces. Large jumps in the timestamps (>60s) or improbable transitions lead to trace splits if a complete matching could not be found.
The algorithm might not be able to match all points. Outliers are removed if they can not be matched successfully.
|overview |`simplified` (default), `full`, `false` |Add overview geometry either full, simplified according to highest zoom level it could be display on, or not at all.|
|timestamps |`{timestamp};{timestamp}[;{timestamp} ...]` |Timestamp of the input location. |
|radiuses |`{radius};{radius}[;{radius} ...]` |Standard deviation of GPS precision used for map matching. If applicable use GPS accuracy.|
|Parameter |Values |
|------------|------------------------------|
|timestamp |`integer` UNIX-like timestamp |
|radius |`double >= 0` (default 5m) |
### Response
-`code` if the request was successful `Ok` otherwise see the service dependent and general status codes.
-`tracepoints`: Array of `Ẁaypoint` objects representing all points of the trace in order.
If the trace point was ommited by map matching because it is an outlier, the entry will be `null`.
Each `Waypoint` object has the following additional properties:
-`matchings_index`: Index to the `Route` object in `matchings` the sub-trace was matched to.
-`waypoint_index`: Index of the waypoint inside the matched route.
-`matchings`: An array of `Route` objects that assemble the trace. Each `Route` object has the following additional properties:
-`confidence`: Confidence of the matching. `float` value between 0 and 1. 1 is very confident that the matching is correct.
In case of error the following `code`s are supported in addition to the general ones:
| Type | Description |
|-------------------|---------------------|
| `NoMatch` | No matchings found. |
All other fields might be undefined.
## Service `trip`
The trip plugin solves the Traveling Salesman Problem using a greedy heuristic (farthest-insertion algorithm).
|geometries |`polyline` (default), `geojson` |Returned route geometry format (influences overview and per step) |
|overview |`simplified` (default), `full`, `false` |Add overview geometry either full, simplified according to highest zoom level it could be display on, or not at all.|
### Response
-`code` if the request was successful `Ok` otherwise see the service dependent and general status codes.
-`waypoints`: Array of `Waypoint` objects representing all waypoints in input order. Each `Waypoint` object has the following additional properties:
-`trips_index`: Index to `trips` of the sub-trip the point was matched to.
-`waypoint_index`: Index of the point in the trip.
-`trips`: An array of `Route` objects that assemble the trace.
In case of error the following `code`s are supported in addition to the general ones:
| Type | Description |
|-------------------|---------------------|
| `NoTrips` | No trips found. |
All other fields might be undefined.
## Result objects
### Route
Represents a route through (potentially multiple) waypoints.
#### Properties
-`distance`: The distance traveled by the route, in `float` meters.
-`duration`: The estimated travel time, in `float` number of seconds.
-`geometry`: The whole geometry of the route value depending on `overview` parameter, format depending on the `geometries` parameter. See `RouteStep`'s `geometry` field for a parameter documentation.
| overview | Description |
|------------|-----------------------------|
| simplified | Geometry is simplified according to the highest zoom level it can still be displayed on full. |
| full | Geometry is not simplified. |
| false | Geometry is not added. |
-`legs`: The legs between the given waypoints, an array of `RouteLeg` objects.
#### Example
Three input coordinates, `geometry=geojson`, `steps=false`:
Annotation of the whole route leg with fine-grained information about each segment or node id.
#### Properties
-`distance`: The distance, in metres, between each pair of coordinates
-`duration`: The duration between each pair of coordinates, in seconds
-`datasources`: The index of the datasource for the speed between each pair of coordinates. `0` is the default profile, other values are supplied via `--segment-speed-file` to `osrm-contract`
-`nodes`: The OSM node ID for each coordinate along the route, excluding the first/last user-supplied coordinates
| polyline | [polyline](https://www.npmjs.com/package/polyline) with precision 5 in [latitude,longitude] encoding |
| geojson | [GeoJSON `LineString`](http://geojson.org/geojson-spec.html#linestring) or [GeoJSON `Point`](http://geojson.org/geojson-spec.html#point) if it is only one coordinate (not wrapped by a GeoJSON feature)|
-`name`: The name of the way along which travel proceeds.
| `continue` | Turn in direction of `modifier` to stay on the same road |
| `roundabout` | traverse roundabout, has additional field `exit` with NR if the roundabout is left. `the modifier specifies the direction of entering the roundabout` |
| `roundabout turn`| Describes a turn at a small roundabout that should be treated as normal turn. The `modifier` indicates the turn direciton. Example instruction: `At the roundabout turn left`. |
| `notification` | not an actual turn but a change in the driving conditions. For example the travel mode. If the road takes a turn itself, the `modifier` describes the direction |
The list of turns without a modifier is limited to: `depart/arrive`. If the source/target location is close enough to the `depart/arrive` location, no modifier will be given.
-`indications`: a indication (e.g. marking on the road) specifying the turn lane. A road can have multiple indications (e.g. an arrow pointing straight and left). The indications are given in an array, each containing one of the following types. Further indications might be added on without an API version change.
An intersection gives a full representation of any cross-way the path passes bay. For every step, the very first intersection (`intersections[0]`) corresponds to the
location of the StepManeuver. Further intersections are listed for every cross-way until the next turn instruction.
#### Properties
-`location`: A `[longitude, latitude]` pair describing the location of the turn.
-`bearings`: A list of bearing values (e.g. [0,90,180,270]) that are available at the intersection. The bearings describe all available roads at the intersection.
-`entry`: A list of entry flags, corresponding in a 1:1 relationship to the bearings. A value of `true` indicates that the respective road could be entered on a valid route.
`false` indicates that the turn onto the respective road would violate a restriction.
-`in`: index into bearings/entry array. Used to calculate the bearing just before the turn. Namely, the clockwise angle from true north to the
direction of travel immediately before the maneuver/passing the intersection. Bearings are given relative to the intersection. To get the bearing
in the direction of driving, the bearing has to be rotated by a value of 180. The value is not supplied for `depart` maneuvers.
-`out`: index into the bearings/entry array. Used to extract the bearing just after the turn. Namely, The clockwise angle from true north to the
direction of travel immediately after the maneuver/passing the intersection. The value is not supplied for `arrive` maneuvers.
-`lanes`: Array of `Lane` objects that denote the available turn lanes at the intersection. If no lane information is available for an intersection, the `lanes` property will not be present.
-`name` Name of the street the coordinate snapped to
-`location` Array that contains the `[longitude, latitude]` pair of the snapped coordinate
-`hint` Unique internal identifier of the segment (ephemeral, not constant over data updates)
This can be used on subsequent request to significantly speed up the query and to connect multiple services.
E.g. you can use the `hint` value obtained by the `nearest` query as `hint` values for `route` inputs.
## Service `tile`
This generates [Mapbox Vector Tiles](https://www.mapbox.com/developers/vector-tiles/) that can be viewed with a vector-tile capable slippy-map viewer. The tiles contain road geometries and metadata that can be used to examine the routing graph. The tiles are generated directly from the data in-memory, so are in sync with actual routing results, and let you examine which roads are actually routable, and what weights they have applied.
The `x`, `y`, and `zoom` values are the same as described at https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames, and are supported by vector tile viewers like [Mapbox GL JS](https://www.mapbox.com/mapbox-gl-js/api/).
### Response
The response object is either a binary encoded blob with a `Content-Type` of `application/x-protobuf`, or a `404` error. Note that OSRM is hard-coded to only return tiles from zoom level 12 and higher (to avoid accidentally returning extremely large vector tiles).
Vector tiles contain just a single layer named `speeds`. Within that layer, features can have `speed` (int) and `is_small` (boolean) attributes.
