pgr_transitiveClosure - Experimental

pgr_transitiveClosure - Returns the transitive closure graph of the input graph. In particular, the transitive closure algorithm implemented by Boost.Graph.

images/boost-inside.jpeg

Boost Graph Inside

Warning

Possible server crash

  • These functions might create a server crash

Warning

Experimental functions

  • They are not officially of the current release.

  • They likely will not be officially be part of the next release:

    • The functions might not make use of ANY-INTEGER and ANY-NUMERICAL

    • Name might change.

    • Signature might change.

    • Functionality might change.

    • pgTap tests might be missing.

    • Might need c/c++ coding.

    • May lack documentation.

    • Documentation if any might need to be rewritten.

    • Documentation examples might need to be automatically generated.

    • Might need a lot of feedback from the comunity.

    • Might depend on a proposed function of pgRouting

    • Might depend on a deprecated function of pgRouting

Availability

  • Version 3.0.0

    • New experimental function

Description

The transitive_closure() function transforms the input graph g into the transitive closure graph tc.

This implementation can only be used with a directed graph with no cycles i.e. directed acyclic graph.

The main characteristics are:
  • Process is valid for directed acyclic graphs only. otherwise it will throw warnings.

  • The returned values are not ordered:

  • Running time: \(O(VE)\)

Signatures

Summary

The pgr_transitiveClosure function has the following signature:

pgr_transitiveClosure(Edges SQL)
RETURNS SETOF (id, vid, target_array)
Example :

Complete Graph of 3 vertexs

SELECT * FROM pgr_transitiveclosure(
  'SELECT id,source,target,cost,reverse_cost FROM edge_table1'
);
 seq  vid  target_array
-----+-----+--------------
   1    0  {1,3,2}
   2    1  {3,2}
   3    3  {2}
   4    2  {}
(4 rows)

Parameters

Column

Type

Description

Edges SQL

TEXT

SQL query as described in Inner query

Inner query

Column

Type

Default

Description

id

ANY-INTEGER

Identifier of the edge.

source

ANY-INTEGER

Identifier of the first end point vertex of the edge.

target

ANY-INTEGER

Identifier of the second end point vertex of the edge.

cost

ANY-NUMERICAL

Weight of the edge (source, target)

  • When negative: edge (source, target) does not exist, therefore it’s not part of the graph.

reverse_cost

ANY-NUMERICAL

-1

Weight of the edge (target, source) ,

  • When negative: edge (target, source) does not exist, therefore it’s not part of the graph.

Where:

ANY-INTEGER :

SMALLINT, INTEGER, BIGINT

ANY-NUMERICAL :

SMALLINT, INTEGER, BIGINT, REAL, FLOAT

Result Columns

RETURNS SETOF (seq, vid, target_array)

The function returns a single row. The columns of the row are:

Column

Type

Description

seq

INTEGER

Sequential value starting from 1 .

vid

BIGINT

Identifier of the vertex.

target_array

ARRAY[BIGINT]

Array of identifiers of the vertices that are reachable from vertex v.

Additional Examples

Example :

Some sub graphs of the sample data

SELECT * FROM pgr_transitiveclosure(
  'SELECT id,source,target,cost,reverse_cost FROM edge_table where id=2'
);
 seq  vid  target_array
-----+-----+--------------
   1    2  {}
   2    3  {2}
(2 rows)

SELECT * FROM pgr_transitiveclosure(
  'SELECT id,source,target,cost,reverse_cost FROM edge_table where id=3'
);
 seq  vid  target_array
-----+-----+--------------
   1    3  {}
   2    4  {3}
(2 rows)

SELECT * FROM pgr_transitiveclosure(
  'SELECT id,source,target,cost,reverse_cost FROM edge_table where id=2 or id=3'
);
 seq  vid  target_array
-----+-----+--------------
   1    2  {}
   2    3  {2}
   3    4  {3,2}
(3 rows)

SELECT * FROM pgr_transitiveclosure(
  'SELECT id,source,target,cost,reverse_cost FROM edge_table where id=11'
);
 seq  vid  target_array
-----+-----+--------------
   1    6  {11}
   2   11  {}
(2 rows)

/* -- q3 */
SELECT * FROM pgr_transitiveclosure(
  'SELECT id,source,target,cost,reverse_cost FROM edge_table where cost=-1 or reverse_cost=-1'
);
 seq  vid  target_array
-----+-----+---------------
   1    2  {}
   2    3  {11,12,6,2}
   3    4  {11,12,3,6,2}
   4    6  {11,12}
   5   11  {12}
   6   10  {11,12}
   7   12  {}
(7 rows)

See Also

Indices and tables