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[![Left: station-to-station path of a single train through Switzerland obtained from schedule timetable data. Right: path of the same train map-matched by pfaedle. ](geo/schweiz_ex_res.png?raw=true )](geo/schweiz_ex.png?raw=true)
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*Left: station-to-station path of a single train through Switzerland obtained from official schedule data. Right: path of the same train map-matched by pfaedle.*
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[![Left: station-to-station path of a single bus through Stuttgart obtained from official schedule data. Right: path of the same bus map-matched by pfaedle. ](geo/stuttgart_ex_res.png?raw=true )](geo/stuttgart_ex.png?raw=true)
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*Left: station-to-station path of a single bus through Stuttgart obtained from official schedule data. Right: path of the same bus map-matched by pfaedle.*
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[![Build
Status](https://travis-ci.org/ad-freiburg/pfaedle.svg?branch=master)](https://travis-ci.org/ad-freiburg/pfaedle)
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# pfaedle
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Precise map-matching for public transit schedules (GTFS data).
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## Requirements
* `cmake`
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* `gcc >= 4.8` (or `clang >= 5.0` )
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## Building and Installation
Fetch this repository and init submodules:
```
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git clone --recurse-submodules https://github.com/ad-freiburg/pfaedle
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```
```
mkdir build & & cd build
cmake ..
make -j
```
To install, type
```
make install
```
# General Usage
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## Generating shapes for a GTFS feed
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```
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pfaedle -x < OSM FILE > < GTFS INPUT FOLDER >
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```
A shape'd version of the input GTFS feed will be written to `./gtfs-out` .
By default, shapes are only calculated for trips that don't have a shape in the
input feed. To drop all existing shapes, use the `-D` flag.
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For example, you may generate (and replace existing, see -D parameter) shapes for the GTFS dataset for Freiburg like this:
```
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$ wget https://fritz.freiburg.de/csv_Downloads/VAGFR.zip & & unzip VAGFR.zip
$ wget http://download.geofabrik.de/europe/germany/baden-wuerttemberg/freiburg-regbez-latest.osm.bz2 & & bunzip2 freiburg-regbez-latest.osm.bz2
$ pfaedle -D -x freiburg-regbez-latest.osm .
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```
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## Generating shapes for a specific MOT
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To generate shapes only for a specific mot, use the `-m` option. Possible
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values are either `tram` , `bus` , `coach` , `rail` , `subway` , `ferry` , `funicular` ,
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`gondola` , `all` (default) or GTFS vehicle type codes (0, 1, 2, 3, 4, 5, 6, 7).
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Multiple values can be specified (comma separated).
## OSM filtering
`pfaedle` comes with the ability to filter OpenStreetMap data. If you specify
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the `-X` flag, `pfaedle` will filter the input OSM file and output a new OSM
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file which contains exactly the data needed to calculate the shapes for the
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input GTFS feed and the input configuration.
This can be used to avoid parsing (for example) the entire world.osm on each
run.
## Debugging
The following flags may be useful for debugging:
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* `-T <GTFS TRIP ID>` only calculate shape for a single trip (specified via its GTFS trip id) and output it as GeoJSON to
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`<dbg-path>/path.json`
* `--write-graph` write the graph used for routing as GeoJSON to
`<dbg-path>/graph.json`
* `--write-cgraph` if `-T` is set, write the combination graph used for
routing as GeoJSON to `<dbg-path>/combgraph.json`
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* `--write-trgraph` write the complete network graph to `<dbg-path>/trgraph.json`
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# Configuration
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A default configuration file `pfaedle.cfg` can be found in this repo and will be installed with `make install` . Custom configuration files can be specified with the `-c` flag. If no `-c` flag is set, `pfaedle` will parse and merge the following cfg files in the given order (if present): `<install prefix>/etc/pfaedle/pfaedle.cfg` , `$HOME/.config/pfaedle/pfaedle.cfg` , `<CWD>/pfaedle.cfg` . Values given in later files will overwrite earlier defined values.
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# Evaluation
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You may run an entire evaluation of our testing datasets Vitoria-Gasteiz, Paris, Switzerland and
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Stuttgart with
```
mkdir build & & cd build
cmake ..
make -j
make eval
```
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*Notes:*
* this will download, and filter, the entire OSM files for Spain, the
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Stuttgart region. Make sure you have enough space left on your hard drive.
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* in evaluation mode, pfaedle needs significantly more time, because the
calculation of the similarity measurements between shapes are expensive
* if you are only interested in the end results of a single dataset, run
`make <dataset>.lighteval` in `/eval` . For example, `make paris.lighteval`
generates a shaped version of the paris dataset, without doing extensive
comparisons to the ground truth.
* similarily, if you want to run the extensive evaluation for a single dataset,
run `make <dataset>.eval` in `/eval` .
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## Evaluation requirements
* zlib
On Debianesque systems, type
```
sudo apt-get install zlib1g-dev
```
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to install the dependencies.