pgr_bdDijkstraCostMatrix

pgr_bdDijkstraCostMatrix - Calculates a cost matrix using pgr_bdDijkstra.

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Availability

  • Versión 3.0.0

    • Función oficial

  • Versión 2.5.0

    • Nueva función propuesta

Descripción

Using bidirectional Dijkstra algorithm, calculate and return a cost matrix.

  • El proceso se realiza sólo en las aristas con costos positivos.

    • A negative value on a cost column is interpreted as the edge does not exist.

  • Valores son regresados cuando hay una ruta.

  • When there is no path:

    • When the starting vertex and ending vertex are the same.

      • The aggregate cost of the non included values \((v, v)\) is \(0\)

    • Cuando el vértice inicial y el vértice final son diferentes y no hay camino:

      • The aggregate cost the non included values \((u, v)\) is \(\infty\)

  • For optimization purposes, any duplicated value in the starting vertices or on the ending vertices are ignored.

  • Tiempo de ejecución (peor de los casos): \(O((V \log V + E))\)

  • Para grandes gráficos donde hay un camino entre el vértice inicial y el vértice final:

    • Se espera que termine más rápido que pgr_dijkstra

The main Characteristics are:

  • Can be used as input to pgr_TSP.

    • Use directly when the resulting matrix is symmetric and there is no \(\infty\) value.

    • It will be the users responsibility to make the matrix symmetric.

      • By using geometric or harmonic average of the non symmetric values.

      • By using max or min the non symmetric values.

      • By setting the upper triangle to be the mirror image of the lower triangle.

      • By setting the lower triangle to be the mirror image of the upper triangle.

    • It is also the users responsibility to fix an \(\infty\) value.

  • Each function works as part of the family it belongs to.

  • It does not return a path.

  • Returns the sum of the costs of the shortest path for pair combination of nodes in the graph.

  • El proceso se realiza sólo en las aristas con costos positivos.

  • Valores son regresados cuando hay una ruta.

    • Cuando el vértice inicial y el vértice final son iguales, no hay camino.

      • The aggregate cost in the non included values (v, v) is 0.

    • When the starting vertex and ending vertex are the different and there is no path.

      • The aggregate cost in the non included values (u, v) is \(\infty\).

  • Let be the case the values returned are stored in a table:

    • The unique index would be the pair: (start_vid, end_vid).

  • Depending on the function and its parameters, the results can be symmetric.

    • The aggregate cost of (u, v) is the same as for (v, u).

  • Any duplicated value in the start vids are ignored.

  • The returned values are ordered:

    • start_vid ascending

    • end_vid ascending

Firmas

Resumen

pgr_bdDijkstraCostMatrix(Edges SQL, start vids [, directed])
RETURNS SET OF (start_vid, end_vid, agg_cost)
Ejemplo

Matriz de costos simétrica para vértices \(\{1, 2, 3, 4\}\) en un grafo no dirigido

SELECT * FROM pgr_bdDijkstraCostMatrix(
  'SELECT id, source, target, cost, reverse_cost FROM edge_table',
  (SELECT array_agg(id) FROM edge_table_vertices_pgr WHERE id < 5),
  false);
 start_vid | end_vid | agg_cost
-----------+---------+----------
         1 |       2 |        1
         1 |       3 |        2
         1 |       4 |        3
         2 |       1 |        1
         2 |       3 |        1
         2 |       4 |        2
         3 |       1 |        2
         3 |       2 |        1
         3 |       4 |        1
         4 |       1 |        3
         4 |       2 |        2
         4 |       3 |        1
(12 rows)

Parámetros

Columna

Tipo

Descripción

Edges SQL

TEXT

Edges SQL as described below

start vids

ARRAY[BIGINT]

Array of identifiers of starting vertices.

Optional parameters

Columna

Tipo

default

Descripción

directed

BOOLEAN

true

  • When true the graph is considered Directed

  • When false the graph is considered as Undirected.

Inner queries

Edges SQL

Columna

Tipo

x Defecto

Descripción

id

ANY-INTEGER

Identificador de la arista.

source

ANY-INTEGER

Identificador del primer vértice extremo de la arista.

target

ANY-INTEGER

Identificador del segundo vértice extremo de la arista.

cost

ANY-NUMERICAL

Weight of the edge (source, target)

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.

Donde:

ANY-INTEGER

SMALLINT, INTEGER, BIGINT

ANY-NUMERICAL

SMALLINT, INTEGER, BIGINT, REAL, FLOAT

Return Columns

Set of (start_vid, end_vid, agg_cost)

Columna

Tipo

Descripción

start_vid

BIGINT

Identificador del vértice inicial.

end_vid

BIGINT

Identificador del vértice final.

agg_cost

FLOAT

Coste agregado de start_vid a end_vid.

Ejemplos Adicionales

Ejemplo

Use with pgr_TSP.

SELECT * FROM pgr_TSP(
  $$
  SELECT * FROM pgr_bdDijkstraCostMatrix(
    'SELECT id, source, target, cost, reverse_cost FROM edge_table',
    (SELECT array_agg(id) FROM edge_table_vertices_pgr WHERE id < 5),
    false)
  $$);
NOTICE:  pgr_TSP no longer solving with simulated annaeling
HINT:  Ignoring annaeling parameters
 seq | node | cost | agg_cost
-----+------+------+----------
   1 |    1 |    0 |        0
   2 |    2 |    1 |        1
   3 |    3 |    1 |        2
   4 |    4 |    1 |        3
   5 |    1 |    3 |        6
(5 rows)

Ver también

Índices y tablas