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gh-config.yml
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gh-config.yml
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graphhopper:
# OpenStreetMap input file PBF or XML, can be changed via command line -Ddw.graphhopper.datareader.file=some.pbf
datareader.file: ""
# Local folder used by graphhopper to store its data
graph.location: graph-cache
##### Routing Profiles ####
# Routing can be done only for profiles listed below. For more information about profiles and custom profiles have a
# look into the documentation at docs/core/profiles.md or the examples under web/src/test/java/com/graphhopper/application/resources/
# or the CustomWeighting class for the raw details.
#
# In general a profile consists of the following
# - name (required): a unique string identifier for the profile
# - vehicle (required): refers to the `graph.vehicles` used for this profile
# - weighting (required): the weighting used for this profile like custom,fastest,shortest or short_fastest
# - turn_costs (true/false, default: false): whether or not turn restrictions should be applied for this profile.
#
# Depending on the above fields there are other properties that can be used, e.g.
# - distance_factor: 0.1 (can be used to fine tune the time/distance trade-off of short_fastest weighting)
# - u_turn_costs: 60 (time-penalty for doing a u-turn in seconds (only possible when `turn_costs: true`)).
# Note that since the u-turn costs are given in seconds the weighting you use should also calculate the weight
# in seconds, so for example it does not work with shortest weighting.
# - custom_model_file: when you specified "weighting: custom" you need to set a json file inside your custom_model_folder
# or working directory that defines the custom_model. If you want an empty model you can also set "custom_model_file: empty".
# You can also use th e`custom_model` field instead and specify your custom model in the profile directly.
#
# To prevent long running routing queries you should usually enable either speed or hybrid mode for all the given
# profiles (see below). Or at least limit the number of `routing.max_visited_nodes`.
profiles:
- name: car4wd
vehicle: roads
weighting: custom
custom_model:
distance_influence: 1
speed:
- if: "track_type == GRADE4 || track_type == GRADE5"
limit_to: 5
- else: ""
limit_to: "car_average_speed"
priority:
- if: "track_type != GRADE4 && track_type != GRADE5 && car_access == false"
multiply_by: "0"
- if: "road_class == TRACK"
multiply_by: "2"
- name: hike
vehicle: roads
weighting: custom
custom_model:
priority:
- if: "true"
multiply_by: "foot_priority"
- if: "!foot_access && hike_rating < 4"
multiply_by: "0"
- if: "foot_network == INTERNATIONAL || foot_network == NATIONAL"
multiply_by: "1.7"
- else_if: "foot_network == REGIONAL || foot_network == LOCAL"
multiply_by: "1.5"
speed:
- if: "hike_rating < 1"
limit_to: "foot_average_speed"
- else_if: "hike_rating > 2"
limit_to: "2"
- else: ""
limit_to: "4"
- if: "average_slope >= 15"
limit_to: "1.5"
- else_if: "average_slope >= 7"
limit_to: "2.5"
- else_if: "average_slope >= 4"
multiply_by: "0.85"
- else_if: "average_slope <= -4"
multiply_by: "1.05"
- name: mtb
vehicle: mtb
custom_model_files: []
# Speed mode:
# Its possible to speed up routing by doing a special graph preparation (Contraction Hierarchies, CH). This requires
# more RAM/disk space for holding the prepared graph but also means less memory usage per request. Using the following
# list you can define for which of the above routing profiles such preparation shall be performed. Note that to support
# profiles with `turn_costs: true` a more elaborate preparation is required (longer preparation time and more memory
# usage) and the routing will also be slower than with `turn_costs: false`.
profiles_ch:
- profile: car4wd
- profile: hike
- profile: mtb
# Hybrid mode:
# Similar to speed mode, the hybrid mode (Landmarks, LM) also speeds up routing by doing calculating auxiliary data
# in advance. Its not as fast as speed mode, but more flexible.
#
# Advanced usage: It is possible to use the same preparation for multiple profiles which saves memory and preparation
# time. To do this use e.g. `preparation_profile: my_other_profile` where `my_other_profile` is the name of another
# profile for which an LM profile exists. Important: This only will give correct routing results if the weights
# calculated for the profile are equal or larger (for every edge) than those calculated for the profile that was used
# for the preparation (`my_other_profile`)
profiles_lm: []
#### Vehicles ####
# The vehicle defines the base for how the routing of a profile behaves. It can be fine tuned using the options:
# name=mycustomvehicle,block_private=true,turn_costs=true,transportation_mode=MOTOR_VEHICLE (only for the roads vehicle)
# Still, it is recommended to avoid changing the vehicle settings and change the custom model instead.
graph.vehicles: roads|block_fords=false|block_barriers=false,car|block_fords=false|block_barriers=false,foot|block_fords=false,mtb|block_fords=false|block_barriers=false
# Other standard vehicles: foot,bike,mtb,racingbike,motorcycle,wheelchair
#### Encoded Values ####
# Add additional information to every edge. Used for path details (#1548) and custom models (docs/core/custom-models.md)
# Default values are: road_class,road_class_link,road_environment,max_speed,road_access
# More are: surface,smoothness,max_width,max_height,max_weight,hgv,max_axle_load,max_length,hazmat,hazmat_tunnel,hazmat_water,toll,track_type,
# mtb_rating, hike_rating,horse_rating,lanes
graph.encoded_values: road_class,road_class_link,road_environment,max_speed,road_access,track_type,surface,hike_rating,average_slope,max_slope
#### Speed, hybrid and flexible mode ####
# To make CH preparation faster for multiple profiles you can increase the default threads if you have enough RAM.
# Change this setting only if you know what you are doing and if the default worked for you.
# prepare.ch.threads: 1
# To tune the performance vs. memory usage for the hybrid mode use
# prepare.lm.landmarks: 16
# Make landmark preparation parallel if you have enough RAM. Change this only if you know what you are doing and if
# the default worked for you.
# prepare.lm.threads: 1
#### Elevation ####
# To populate your graph with elevation data use SRTM, default is noop (no elevation). Read more about it in docs/core/elevation.md
graph.elevation.provider: srtm
# default location for cache is /tmp/srtm
graph.elevation.cache_dir: /usr/src/app/elevation/
# If you have a slow disk or plenty of RAM change the default MMAP to:
graph.elevation.dataaccess: RAM_STORE
# To enable bilinear interpolation when sampling elevation at points (default uses nearest neighbor):
# graph.elevation.interpolate: bilinear
# Reduce ascend/descend per edge without changing the maximum slope:
# graph.elevation.edge_smoothing: ramer
# removes elevation fluctuations up to max_elevation (in meter) and replaces the elevation with a value based on the average slope
# graph.elevation.edge_smoothing.ramer.max_elevation: 5
# A potentially bigger reduction of ascend/descend is possible, but maximum slope will often increase (do not use when average_slope or maximum_slope shall be used in a custom_model)
# graph.elevation.edge_smoothing: moving_average
# To increase elevation profile resolution, use the following two parameters to tune the extra resolution you need
# against the additional storage space used for edge geometries. You should enable bilinear interpolation when using
# these features (see #1953 for details).
# - first, set the distance (in meters) at which elevation samples should be taken on long edges
# graph.elevation.long_edge_sampling_distance: 60
# - second, set the elevation tolerance (in meters) to use when simplifying polylines since the default ignores
# elevation and will remove the extra points that long edge sampling added
# graph.elevation.way_point_max_distance: 10
#### Urban density (built-up areas) ####
# This feature allows classifying roads into 'rural', 'residential' and 'city' areas (encoded value 'urban_density')
# Use 1 or more threads to enable the feature
# graph.urban_density.threads: 8
# Use higher/lower sensitivities if too little/many roads fall into the according categories.
# Using smaller radii will speed up the classification, but only change these values if you know what you are doing.
# If you do not need the (rather slow) city classification set city_radius to zero.
# graph.urban_density.residential_radius: 300
# graph.urban_density.residential_sensitivity: 60
# graph.urban_density.city_radius: 2000
# graph.urban_density.city_sensitivity: 30
#### Subnetworks ####
# In many cases the road network consists of independent components without any routes going in between. In
# the most simple case you can imagine an island without a bridge or ferry connection. The following parameter
# allows setting a minimum size (number of edges) for such detached components. This can be used to reduce the number
# of cases where a connection between locations might not be found.
prepare.min_network_size: 200
#### Routing ####
# You can define the maximum visited nodes when routing. This may result in not found connections if there is no
# connection between two points within the given visited nodes. The default is Integer.MAX_VALUE. Useful for flexibility mode
# routing.max_visited_nodes: 1000000
# Control how many active landmarks are picked per default, this can improve query performance
# routing.lm.active_landmarks: 4
# You can limit the max distance between two consecutive waypoints of flexible routing requests to be less or equal
# the given distance in meter. Default is set to 1000km.
routing.non_ch.max_waypoint_distance: 1000000
#### Storage ####
import.osm.ignored_highways:
# configure the memory access, use RAM_STORE for well equipped servers (default and recommended)
graph.dataaccess.default_type: RAM_STORE
# will write way names in the preferred language (language code as defined in ISO 639-1 or ISO 639-2):
# datareader.preferred_language: en
# Sort the graph after import to make requests roughly ~10% faster. Note that this requires significantly more RAM on import.
# graph.do_sort: true
#### Custom Areas ####
# GraphHopper reads GeoJSON polygon files including their properties from this directory and makes them available
# to all tag parsers and vehicles. Country borders (see countries.geojson) are always included automatically.
# custom_areas.directory: path/to/custom_areas
#### Country Rules ####
# GraphHopper applies country-specific routing rules during import (not enabled by default).
# You need to redo the import for changes to take effect.
# country_rules.enabled: true
# Dropwizard server configuration
server:
application_connectors:
- type: http
port: 8989
# for security reasons bind to localhost
bind_host: localhost
request_log:
appenders: []
admin_connectors:
- type: http
port: 8990
bind_host: localhost
# See https://www.dropwizard.io/en/latest/manual/core.html#logging
logging:
appenders:
- type: file
time_zone: UTC
current_log_filename: logs/graphhopper.log
log_format: "%d{yyyy-MM-dd HH:mm:ss.SSS} [%thread] %-5level %logger{36} - %msg%n"
archive: true
archived_log_filename_pattern: ./logs/graphhopper-%d.log.gz
archived_file_count: 30
never_block: true
- type: console
time_zone: UTC
log_format: "%d{yyyy-MM-dd HH:mm:ss.SSS} [%thread] %-5level %logger{36} - %msg%n"