pgr_analyzeGraph¶
Name¶
pgr_analyzeGraph — Analyzes the network topology.
Synopsis¶
The function returns:
- OK after the analysis has finished.
- FAIL when the analysis was not completed due to an error.
varchar pgr_analyzeGraph(text edge_table, double precision tolerance,
text the_geom:='the_geom', text id:='id',
text source:='source',text target:='target',text rows_where:='true')
Description¶
Prerequisites
The edge table to be analyzed must contain a source column and a target column filled with id’s of the vertices of the segments and the corresponding vertices table <edge_table>_vertices_pgr that stores the vertices information.
- Use pgr_createVerticesTable to create the vertices table.
- Use pgr_createTopology to create the topology and the vertices table.
Parameters
The analyze graph function accepts the following parameters:
edge_table: | text Network table name. (may contain the schema name as well) |
---|---|
tolerance: | float8 Snapping tolerance of disconnected edges. (in projection unit) |
the_geom: | text Geometry column name of the network table. Default value is the_geom. |
id: | text Primary key column name of the network table. Default value is id. |
source: | text Source column name of the network table. Default value is source. |
target: | text Target column name of the network table. Default value is target. |
rows_where: | text Condition to select a subset or rows. Default value is true to indicate all rows. |
The function returns:
- OK after the analysis has finished.
- Uses the vertices table: <edge_table>_vertices_pgr.
- Fills completly the cnt and chk columns of the vertices table.
- Returns the analysis of the section of the network defined by rows_where
- FAIL when the analysis was not completed due to an error.
- The vertices table is not found.
- A required column of the Network table is not found or is not of the appropriate type.
- The condition is not well formed.
- The names of source , target or id are the same.
- The SRID of the geometry could not be determined.
The Vertices Table
The vertices table can be created with pgr_createVerticesTable or pgr_createTopology
The structure of the vertices table is:
id: | bigint Identifier of the vertex. |
---|---|
cnt: | integer Number of vertices in the edge_table that reference this vertex. |
chk: | integer Indicator that the vertex might have a problem. |
ein: | integer Number of vertices in the edge_table that reference this vertex as incoming. See pgr_analyzeOneway. |
eout: | integer Number of vertices in the edge_table that reference this vertex as outgoing. See pgr_analyzeOneway. |
the_geom: | geometry Point geometry of the vertex. |
History
- New in version 2.0.0
Usage when the edge table’s columns MATCH the default values:¶
The simplest way to use pgr_analyzeGraph is:
SELECT pgr_createTopology('edge_table',0.001);
SELECT pgr_analyzeGraph('edge_table',0.001);
When the arguments are given in the order described in the parameters:
SELECT pgr_analyzeGraph('edge_table',0.001,'the_geom','id','source','target');
We get the same result as the simplest way to use the function.
Warning
When using the named notation
The order of the parameters do not matter:
SELECT pgr_analyzeGraph('edge_table',0.001,the_geom:='the_geom',id:='id',source:='source',target:='target');
SELECT pgr_analyzeGraph('edge_table',0.001,source:='source',id:='id',target:='target',the_geom:='the_geom');
Parameters defined with a default value can be ommited, as long as the value matches the default:
SELECT pgr_analyzeGraph('edge_table',0.001,source:='source');
Selecting rows using rows_where parameter
Selecting rows based on the id. Displays the analysis a the section of the network.
SELECT pgr_analyzeGraph('edge_table',0.001,rows_where:='id < 10');
Selecting the rows where the geometry is near the geometry of row with id =5 .
SELECT pgr_analyzeGraph('edge_table',0.001,rows_where:='the_geom && (SELECT st_buffer(the_geom,0.05) FROM edge_table WHERE id=5)');
Selecting the rows where the geometry is near the geometry of the row with gid =100 of the table othertable.
DROP TABLE IF EXISTS otherTable;
CREATE TABLE otherTable AS (SELECT 100 AS gid, st_point(2.5,2.5) AS other_geom) ;
SELECT pgr_analyzeGraph('edge_table',0.001,rows_where:='the_geom && (SELECT st_buffer(other_geom,1) FROM otherTable WHERE gid=100)');
Usage when the edge table’s columns DO NOT MATCH the default values:¶
For the following table
DROP TABLE IF EXISTS mytable;
CREATE TABLE mytable AS (SELECT id AS gid, source AS src ,target AS tgt , the_geom AS mygeom FROM edge_table);
SELECT pgr_createTopology('mytable',0.001,'mygeom','gid','src','tgt');
Using positional notation:
The arguments need to be given in the order described in the parameters:
SELECT pgr_analyzeGraph('mytable',0.001,'mygeom','gid','src','tgt');
Warning
When using the named notation
The order of the parameters do not matter:
SELECT pgr_analyzeGraph('mytable',0.001,the_geom:='mygeom',id:='gid',source:='src',target:='tgt');
SELECT pgr_analyzeGraph('mytable',0.001,source:='src',id:='gid',target:='tgt',the_geom:='mygeom');
In this scenario omitting a parameter would create an error because the default values for the column names do not match the column names of the table.
Selecting rows using rows_where parameter
Selecting rows based on the id.
SELECT pgr_analyzeGraph('mytable',0.001,'mygeom','gid','src','tgt',rows_where:='gid < 10');
SELECT pgr_analyzeGraph('mytable',0.001,source:='src',id:='gid',target:='tgt',the_geom:='mygeom',rows_where:='gid < 10');
Selecting the rows WHERE the geometry is near the geometry of row with id =5 .
SELECT pgr_analyzeGraph('mytable',0.001,'mygeom','gid','src','tgt',
rows_where:='mygeom && (SELECT st_buffer(mygeom,1) FROM mytable WHERE gid=5)');
SELECT pgr_analyzeGraph('mytable',0.001,source:='src',id:='gid',target:='tgt',the_geom:='mygeom',
rows_where:='mygeom && (SELECT st_buffer(mygeom,1) FROM mytable WHERE gid=5)');
Selecting the rows WHERE the geometry is near the place=’myhouse’ of the table othertable. (note the use of quote_literal)
DROP TABLE IF EXISTS otherTable;
CREATE TABLE otherTable AS (SELECT 'myhouse'::text AS place, st_point(2.5,2.5) AS other_geom) ;
SELECT pgr_analyzeGraph('mytable',0.001,'mygeom','gid','src','tgt',
rows_where:='mygeom && (SELECT st_buffer(other_geom,1) FROM otherTable WHERE place='||quote_literal('myhouse')||')');
SELECT pgr_analyzeGraph('mytable',0.001,source:='src',id:='gid',target:='tgt',the_geom:='mygeom',
rows_where:='mygeom && (SELECT st_buffer(other_geom,1) FROM otherTable WHERE place='||quote_literal('myhouse')||')');
Examples¶
SELECT pgr_createTopology('edge_table',0.001);
SELECT pgr_analyzeGraph('edge_table', 0.001);
NOTICE: PROCESSING:
NOTICE: pgr_analyzeGraph('edge_table',0.001,'the_geom','id','source','target','true')
NOTICE: Performing checks, pelase wait...
NOTICE: Analyzing for dead ends. Please wait...
NOTICE: Analyzing for gaps. Please wait...
NOTICE: Analyzing for isolated edges. Please wait...
NOTICE: Analyzing for ring geometries. Please wait...
NOTICE: Analyzing for intersections. Please wait...
NOTICE: ANALYSIS RESULTS FOR SELECTED EDGES:
NOTICE: Isolated segments: 2
NOTICE: Dead ends: 7
NOTICE: Potential gaps found near dead ends: 1
NOTICE: Intersections detected: 1
NOTICE: Ring geometries: 0
pgr_analyzeGraph
--------------------
OK
(1 row)
SELECT pgr_analyzeGraph('edge_table',0.001,rows_where:='id < 10');
NOTICE: PROCESSING:
NOTICE: pgr_analyzeGraph('edge_table',0.001,'the_geom','id','source','target','id < 10')
NOTICE: Performing checks, pelase wait...
NOTICE: Analyzing for dead ends. Please wait...
NOTICE: Analyzing for gaps. Please wait...
NOTICE: Analyzing for isolated edges. Please wait...
NOTICE: Analyzing for ring geometries. Please wait...
NOTICE: Analyzing for intersections. Please wait...
NOTICE: ANALYSIS RESULTS FOR SELECTED EDGES:
NOTICE: Isolated segments: 0
NOTICE: Dead ends: 4
NOTICE: Potential gaps found near dead ends: 0
NOTICE: Intersections detected: 0
NOTICE: Ring geometries: 0
pgr_analyzeGraph
--------------------
OK
(1 row)
SELECT pgr_analyzeGraph('edge_table',0.001,rows_where:='id >= 10');
NOTICE: PROCESSING:
NOTICE: pgr_analyzeGraph('edge_table',0.001,'the_geom','id','source','target','id >= 10')
NOTICE: Performing checks, pelase wait...
NOTICE: Analyzing for dead ends. Please wait...
NOTICE: Analyzing for gaps. Please wait...
NOTICE: Analyzing for isolated edges. Please wait...
NOTICE: Analyzing for ring geometries. Please wait...
NOTICE: Analyzing for intersections. Please wait...
NOTICE: ANALYSIS RESULTS FOR SELECTED EDGES:
NOTICE: Isolated segments: 2
NOTICE: Dead ends: 8
NOTICE: Potential gaps found near dead ends: 1
NOTICE: Intersections detected: 1
NOTICE: Ring geometries: 0
pgr_analyzeGraph
--------------------
OK
(1 row)
-- Simulate removal of edges
SELECT pgr_createTopology('edge_table', 0.001,rows_where:='id <17');
SELECT pgr_analyzeGraph('edge_table', 0.001);
NOTICE: PROCESSING:
NOTICE: pgr_analyzeGraph('edge_table',0.001,'the_geom','id','source','target','true')
NOTICE: Performing checks, pelase wait...
NOTICE: Analyzing for dead ends. Please wait...
NOTICE: Analyzing for gaps. Please wait...
NOTICE: Analyzing for isolated edges. Please wait...
NOTICE: Analyzing for ring geometries. Please wait...
NOTICE: Analyzing for intersections. Please wait...
NOTICE: ANALYSIS RESULTS FOR SELECTED EDGES:
NOTICE: Isolated segments: 0
NOTICE: Dead ends: 3
NOTICE: Potential gaps found near dead ends: 0
NOTICE: Intersections detected: 0
NOTICE: Ring geometries: 0
pgr_analyzeGraph
--------------------
OK
(1 row)
SELECT pgr_createTopology('edge_table', 0.001,rows_where:='id <17');
NOTICE: PROCESSING:
NOTICE: pgr_createTopology('edge_table',0.001,'the_geom','id','source','target','id <17')
NOTICE: Performing checks, pelase wait .....
NOTICE: Creating Topology, Please wait...
NOTICE: -------------> TOPOLOGY CREATED FOR 16 edges
NOTICE: Rows with NULL geometry or NULL id: 0
NOTICE: Vertices table for table public.edge_table is: public.edge_table_vertices_pgr
NOTICE: ----------------------------------------------
pgr_analyzeGraph
--------------------
OK
(1 row)
SELECT pgr_analyzeGraph('edge_table', 0.001);
NOTICE: PROCESSING:
NOTICE: pgr_analyzeGraph('edge_table',0.001,'the_geom','id','source','target','true')
NOTICE: Performing checks, pelase wait...
NOTICE: Analyzing for dead ends. Please wait...
NOTICE: Analyzing for gaps. Please wait...
NOTICE: Analyzing for isolated edges. Please wait...
NOTICE: Analyzing for ring geometries. Please wait...
NOTICE: Analyzing for intersections. Please wait...
NOTICE: ANALYSIS RESULTS FOR SELECTED EDGES:
NOTICE: Isolated segments: 0
NOTICE: Dead ends: 3
NOTICE: Potential gaps found near dead ends: 0
NOTICE: Intersections detected: 0
NOTICE: Ring geometries: 0
pgr_analyzeGraph
--------------------
OK
(1 row)
The examples use the Sample Data network.
See Also¶
- Routing Topology for an overview of a topology for routing algorithms.
- pgr_analyzeOneway to analyze directionality of the edges.
- pgr_createVerticesTable to reconstruct the vertices table based on the source and target information.
- pgr_nodeNetwork to create nodes to a not noded edge table.