pgr_withPointsKSP
 Find the K shortest paths using Yen’s algorithm.
Warning
Proposed functions for next mayor release.
Availability: 2.2.0
Modifies the graph to include the points defined in the points_sql
and
using Yen algorithm, finds the K shortest paths.
pgr_withPointsKSP(edges_sql, points_sql, start_pid, end_pid, K)
pgr_withPointsKSP(edges_sql, points_sql, start_pid, end_pid, K, directed, heap_paths, driving_side, details)
RETURNS SET OF (seq, path_id, path_seq, node, edge, cost, agg_cost)
pgr_withPointsKSP(edges_sql, points_sql, start_pid, end_pid, K)
RETURNS SET OF (seq, path_id, path_seq, node, edge, cost, agg_cost)
Example: 

SELECT * FROM pgr_withPointsKSP(
'SELECT id, source, target, cost, reverse_cost FROM edge_table ORDER BY id',
'SELECT pid, edge_id, fraction, side from pointsOfInterest',
1, 2, 2);
seq  path_id  path_seq  node  edge  cost  agg_cost
++++++
1  1  1  1  1  0.6  0
2  1  2  2  4  1  0.6
3  1  3  5  8  1  1.6
4  1  4  6  9  1  2.6
5  1  5  9  15  0.4  3.6
6  1  6  2  1  0  4
7  2  1  1  1  0.6  0
8  2  2  2  4  1  0.6
9  2  3  5  8  1  1.6
10  2  4  6  11  1  2.6
11  2  5  11  13  1  3.6
12  2  6  12  15  0.6  4.6
13  2  7  2  1  0  5.2
(13 rows)
Finds the K shortest paths depending on the optional parameters setup.
pgr_withPointsKSP(edges_sql, points_sql, start_pid, end_pid, K,
directed:=true, heap_paths:=false, driving_side:='b', details:=false)
RETURNS SET OF (seq, path_id, path_seq, node, edge, cost, agg_cost)
Example:  With details. 

SELECT * FROM pgr_withPointsKSP(
'SELECT id, source, target, cost, reverse_cost FROM edge_table ORDER BY id',
'SELECT pid, edge_id, fraction, side from pointsOfInterest',
1, 6, 2, details := true);
seq  path_id  path_seq  node  edge  cost  agg_cost
++++++
1  1  1  1  1  0.6  0
2  1  2  2  4  0.7  0.6
3  1  3  6  4  0.3  1.3
4  1  4  5  8  1  1.6
5  1  5  6  1  0  2.6
6  2  1  1  1  0.6  0
7  2  2  2  4  0.7  0.6
8  2  3  6  4  0.3  1.3
9  2  4  5  10  1  1.6
10  2  5  10  12  0.6  2.6
11  2  6  3  12  0.4  3.2
12  2  7  11  13  1  3.6
13  2  8  12  15  0.6  4.6
14  2  9  2  15  0.4  5.2
15  2  10  9  9  1  5.6
16  2  11  6  1  0  6.6
(16 rows)
edges_sql:  an SQL query, which should return a set of rows with the following columns: 

Column  Type  Default  Description 

id  ANYINTEGER 
Identifier of the edge.  
source  ANYINTEGER 
Identifier of the first end point vertex of the edge.  
target  ANYINTEGER 
Identifier of the second end point vertex of the edge.  
cost  ANYNUMERICAL 
Weight of the edge (source, target)


reverse_cost  ANYNUMERICAL 
1  Weight of the edge (target, source),

Where:
ANYINTEGER:  SMALLINT, INTEGER, BIGINT 

ANYNUMERICAL:  SMALLINT, INTEGER, BIGINT, REAL, FLOAT 
points_sql:  an SQL query, which should return a set of rows with the following columns: 

Column  Type  Description 

pid  ANYINTEGER 
(optional) Identifier of the point.

edge_id  ANYINTEGER 
Identifier of the “closest” edge to the point. 
fraction  ANYNUMERICAL 
Value in <0,1> that indicates the relative postition from the first end point of the edge. 
side  CHAR 
(optional) Value in [‘b’, ‘r’, ‘l’, NULL] indicating if the point is:

Where:
ANYINTEGER:  smallint, int, bigint 

ANYNUMERICAL:  smallint, int, bigint, real, float 
Parameter  Type  Description 

edges_sql  TEXT 
Edges SQL query as described above. 
points_sql  TEXT 
Points SQL query as described above. 
start_pid  ANYINTEGER 
Starting point id. 
end_pid  ANYINTEGER 
Ending point id. 
K  INTEGER 
Number of shortest paths. 
directed  BOOLEAN 
(optional). When false the graph is considered as Undirected. Default is true which considers the graph as Directed. 
heap_paths  BOOLEAN 
(optional). When true the paths calculated to get the shortests paths will be returned also. Default is false only the K shortest paths are returned. 
driving_side  CHAR 

details  BOOLEAN 
(optional). When true the results will include the driving distance to the points with in the distance .
Default is false which ignores other points of the points_sql. 
Returns set of (seq, path_id, path_seq, node, edge, cost, agg_cost)
Column  Type  Description 

seq  INTEGER 
Row sequence. 
path_seq  INTEGER 
Relative position in the path of node and edge. Has value 1 for the beginning of a path. 
path_id  INTEGER 
Path identifier. The ordering of the paths: For two paths i, j if i < j then agg_cost(i) <= agg_cost(j). 
node  BIGINT 
Identifier of the node in the path. Negative values are the identifiers of a point. 
edge  BIGINT 

cost  FLOAT 

agg_cost  FLOAT 

Example:  Left side driving topology with details. 

SELECT * FROM pgr_withPointsKSP(
'SELECT id, source, target, cost, reverse_cost FROM edge_table ORDER BY id',
'SELECT pid, edge_id, fraction, side from pointsOfInterest',
1, 2, 2,
driving_side := 'l', details := true);
seq  path_id  path_seq  node  edge  cost  agg_cost
++++++
1  1  1  1  1  0.6  0
2  1  2  2  4  0.7  0.6
3  1  3  6  4  0.3  1.3
4  1  4  5  8  1  1.6
5  1  5  6  9  1  2.6
6  1  6  9  15  1  3.6
7  1  7  12  15  0.6  4.6
8  1  8  2  1  0  5.2
9  2  1  1  1  0.6  0
10  2  2  2  4  0.7  0.6
11  2  3  6  4  0.3  1.3
12  2  4  5  8  1  1.6
13  2  5  6  11  1  2.6
14  2  6  11  13  1  3.6
15  2  7  12  15  0.6  4.6
16  2  8  2  1  0  5.2
(16 rows)
Example:  Right side driving topology with heap paths and details. 

SELECT * FROM pgr_withPointsKSP(
'SELECT id, source, target, cost, reverse_cost FROM edge_table ORDER BY id',
'SELECT pid, edge_id, fraction, side from pointsOfInterest',
1, 2, 2,
heap_paths := true, driving_side := 'r', details := true);
seq  path_id  path_seq  node  edge  cost  agg_cost
++++++
1  1  1  1  1  0.4  0
2  1  2  1  1  1  0.4
3  1  3  2  4  0.7  1.4
4  1  4  6  4  0.3  2.1
5  1  5  5  8  1  2.4
6  1  6  6  9  1  3.4
7  1  7  9  15  0.4  4.4
8  1  8  2  1  0  4.8
9  2  1  1  1  0.4  0
10  2  2  1  1  1  0.4
11  2  3  2  4  0.7  1.4
12  2  4  6  4  0.3  2.1
13  2  5  5  8  1  2.4
14  2  6  6  11  1  3.4
15  2  7  11  13  1  4.4
16  2  8  12  15  1  5.4
17  2  9  9  15  0.4  6.4
18  2  10  2  1  0  6.8
19  3  1  1  1  0.4  0
20  3  2  1  1  1  0.4
21  3  3  2  4  0.7  1.4
22  3  4  6  4  0.3  2.1
23  3  5  5  10  1  2.4
24  3  6  10  12  0.6  3.4
25  3  7  3  12  0.4  4
26  3  8  11  13  1  4.4
27  3  9  12  15  1  5.4
28  3  10  9  15  0.4  6.4
29  3  11  2  1  0  6.8
(29 rows)
The queries use the Sample Data network.
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