# Combining Graph Traversals

## Finding the start vertex via a geo query

Our first example will locate the start vertex for a graph traversal via a geo index. We use the city graph and its geo indices:

```arangosh> var examples = require("@arangodb/graph-examples/example-graph.js");

We search all german cities in a range of 400 km around the ex-capital Bonn: Hamburg and Cologne. We won’t find Paris since its in the `frenchCity` collection.

```FOR startCity IN germanCity
RETURN startCity._key```
Bind Parameters:
```{
"bonn": [
7.0998,
50.734
],
}```
Result:
```[
"Cologne",
"Hamburg"
]```

Lets revalidate that the geo indices are actually used:

```FOR startCity IN germanCity
RETURN startCity._key```
Bind Parameters:
```{
"bonn": [
7.0998,
50.734
],
}```
Explain:
```Query String (119 chars, cacheable: true):
FOR startCity IN germanCity
RETURN startCity._key

Execution plan:
Id   NodeType          Est.   Comment
1   SingletonNode        1   * ROOT
7   IndexNode            3     - FOR startCity IN germanCity   /* geo index scan, projections: `_key` */
5   CalculationNode      3       - LET #3 = startCity.`_key`   /* attribute expression */   /* collections used: startCity : germanCity */
6   ReturnNode           3       - RETURN #3

Indexes used:
By   Name                      Type   Collection   Unique   Sparse   Selectivity   Fields           Ranges
7   idx_1731372599077765122   geo    germanCity   false    true             n/a   [ `geometry` ]   (GEO_DISTANCE([ 7.0998, 50.734 ], startCity.`geometry`) < 400000)

Optimization rules applied:
Id   RuleName
1   move-calculations-up
2   move-filters-up
3   move-calculations-up-2
4   move-filters-up-2
5   geo-index-optimizer
6   remove-unnecessary-calculations-2
7   reduce-extraction-to-projection```

And now combine this with a graph traversal:

```FOR startCity IN germanCity
FOR v, e, p IN 1..1 OUTBOUND startCity
GRAPH 'routeplanner'
RETURN {startcity: startCity._key, traversedCity: v._key}```
Bind Parameters:
```{
"bonn": [
7.0998,
50.734
],
}```
Result:
```[
{
"startcity": "Cologne",
"traversedCity": "Lyon"
},
{
"startcity": "Cologne",
"traversedCity": "Paris"
},
{
"startcity": "Hamburg",
"traversedCity": "Cologne"
},
{
"startcity": "Hamburg",
"traversedCity": "Paris"
},
{
"startcity": "Hamburg",
"traversedCity": "Lyon"
}
]```

The geo index query returns us `startCity` (Cologne and Hamburg) which we then use as starting point for our graph traversal. For simplicity we only return their direct neighbours. We format the return result so we can see from which `startCity` the traversal came.

Alternatively we could use a `LET` statement with a subquery to group the traversals by their `startCity` efficiently:

```FOR startCity IN germanCity
LET oneCity = (
FOR v, e, p IN 1..1 OUTBOUND startCity
GRAPH 'routeplanner' RETURN v._key
)
RETURN {startCity: startCity._key, connectedCities: oneCity}```
Bind Parameters:
```{
"bonn": [
7.0998,
50.734
],
}```
Result:
```[
{
"startCity": "Cologne",
"connectedCities": [
"Lyon",
"Paris"
]
},
{
"startCity": "Hamburg",
"connectedCities": [
"Cologne",
"Paris",
"Lyon"
]
}
]```

Finally, we clean up again:

`arangosh> examples.dropGraph("routeplanner");`