Inspecting queries
Before a Cypher query is executed, it is converted into an internal form suitable for execution, known as a plan. A plan is a tree-like data structure describing a pipeline of operations which will be performed on the database in order to yield the results for a given query. Every node within a plan is known as a logical operator and describes a particular operation.
Because a plan represents a pipeline, the logical operators are iteratively executed as data passes from one logical operator to the other. Every logical operator pulls data from the logical operator(s) preceding it, processes it and passes it onto the logical operator next in the pipeline for further processing.
Using the EXPLAIN
operator, it is possible for the user to inspect the
produced plan and gain insight into the execution of a query. Currently, the
various logical operators aren't fully documented as their behavior is subject
to change. However, the behavior of most of them can be deduced from their name.
In the future, additional information might be added to the output of the
EXPLAIN
operator.
As an example, let's inspect the plan produced for a simple query:
EXPLAIN MATCH (n) RETURN n;
+----------------+
| QUERY PLAN |
+----------------+
| * Produce {n} |
| * ScanAll (n) |
| * Once |
+----------------+
The output of the EXPLAIN
query is a representation of the produced plan. Every
logical operator within the plan starts with an asterisk character (*
) and is
followed by its name (and sometimes additional information). The execution of
the query proceeds iteratively (generating one entry of the result set at a
time), with data flowing from the bottom-most logical operator(s) (the start of
the pipeline) to the top-most logical operator(s) (the end of the pipeline).
In the example above, the resulting plan is a pipeline of 3 logical operators.
Once
is the identity logical operator which does nothing and is always found
at the start of the pipeline; ScanAll
is a logical operator which iteratively
produces all of the nodes in the graph; and Produce
is a logical operator
which takes data produced by another logical operator and produces data for the
query's result set.
A slightly more complicated example would be:
EXPLAIN MATCH (n :Node)-[:Edge]-(m :Node) WHERE n.prop = 42 RETURN *;
+--------------------------------+
| QUERY PLAN |
+--------------------------------+
| * Produce {m, n} |
| * Filter |
| * Expand (m)-[anon1:Edge]-(n) |
| * ScanAllByLabel (n :Node) |
| * ScanAllByLabel (m :Node) |
| * Once |
+--------------------------------+
In this example, the Filter
logical operator is used to filter the matched
nodes because of the WHERE n.prop = 42
construct. The Expand
logical
operator is used to find an edge between two nodes, in this case m
and n
which were matched previously using the ScanAllByLabel
logical operator (a
variant of the ScanAll
logical operator mentioned previously).
The execution of the query proceeds iteratively as follows. First, two vertices
of type :Node
are found as the result of the two scans. Then, we try to find a
path that consists of the two vertices and an edge between them. If a path is
found, it is further filtered based on a property of one of the vertices.
Finally, if the path satisfied the filter, its two vertices are added to the
query's result set.
A simple example showcasing the fully general tree structure of the plan could be:
EXPLAIN MERGE (n) RETURN n;
+------------------+
| QUERY PLAN |
+------------------+
| * Produce {n} |
| * Accumulate |
| * Merge |
| |\ On Match |
| | * ScanAll (n) |
| | * Once |
| |\ On Create |
| | * CreateNode |
| | * Once |
| * Once |
+------------------+
The Merge
logical operator (constructed as a result of the MERGE
construct)
can take input from up to 3 places. The On Match
and On Create
branches are
"pulled from" only if a match was found or if a new vertex has to be created,
respectively.
Where to next?​
To learn more about Memgraph's functionalities, visit the Reference guide. For real-world examples of how to use Memgraph, we strongly suggest going through one of the available Tutorials.