<put algorithm description here>
Input layer
[vector: any]SQL
[string]<put parameter description here>
Default: (not set)
SQL result
[vector]processing.runalg('gdalogr:executesql', input, sql, output)
Imports vector layers inside a PostGIS database on the basis of an available connection. The connection has to be defined properly with the ‘Add PostGIS Table(s)’ dialog before. Use the ‘Edit’ button to define the connection. Be aware that the checkboxes ‘Save Username’ and ‘Save Password’ are activated. Then you can use the algorithm. The algorithm is derived from the ogr2ogr utility .
Database (connection name)
[selection]Requires the database (connection) name.
Options:
Default: 0
Input layer
[vector: any]Output geometry type
[selection]Defines the output geometry type. By default this is Polygon.
Options:
Default: 5
Input CRS (EPSG Code)
[crs]CRS of the input vector layer.
Default: EPSG:4326
Output CRS (EPSG Code)
[crs]Defines the output CRS of the database table.
Default: EPSG:4326
Schema name
[string]Optional.
Defines the schema to which the database table will be assigned to. By default, ‘public’ is chosen.
Default: public
Table name, leave blank to use input name
[string]Optional.
Defines a name for the table that will be imported into the database. By default the table name is the name of the input vector file.
Default: (not set)
Primary Key
[string]Optional.
Defines which attribute field will be the primary key of the database table. By default this is ‘id’.
Default: id
Geometry column name
[string]Optional.
Defines in which attribute field of the database there will be the geometry information. By default it will be taken from the ‘geom’ column.
Default: geom
Vector dimensions
[selection]Defines if the vector file to be imported has 2-D or 3-D data.
Options:
Default: 0
Distance tolerance for simplification
[string]Optional.
Defines a distance tolerance for the simplification of the vector geometries to be imported. By default no simplification there is no simplification.
Default: (not set)
Maximum distance between 2 nodes (densification)
[string]Optional.
The maximum distance between two nodes. Used to create intermediate points. By default there is no maximum distance.
Default: (not set)
Select features by extent (defined in input layer CRS)
[extent]You can select features from a given extent that will be in the output table.
Default: 0,1,0,1
Clip the input layer using the above (rectangle) extent
[boolean]The input layer will be clipped by the extent you defined before.
Default: False
Select features using a SQL "WHERE" statement (Ex: column="value")
[string]Optional.
Defines with a SQL “WHERE” statement which features should be selected for the output table.
Default: (not set)
Group "n" features per transaction (Default: 20000)
[string]Optional.
You can group the input features in transactions where “n” defines the size. By default “n” limits the transaction size to 20000 features.
Default: (not set)
Overwrite existing table?
[boolean]If there is a table with the same name in the database, it won’t be overwritten. By default this takes place.
Default: True
Append to existing table?
[boolean]<put parameter description here>
Default: False
Append and add new fields to existing table?
[boolean]If activated the vector data will be appended to an existing table, there won’t be created a new table. By default a new table will be created.
Default: False
Do not launder columns/table name/s?
[boolean]With this option you can prevent processing from converting column names to lowercase, from removing spaces and other invalid characters.
Default: False
Do not create Spatial Index?
[boolean]Prevents that a spatial index in the output table will be created.
Default: False
Continue after a failure, skipping the failed feature
[boolean]<put parameter description here>
Default: False
Additional creation options
[string]Optional.
<put parameter description here>
Default: (not set)
processing.runalg('gdalogr:importvectorintopostgisdatabaseavailableconnections', database, input_layer, gtype, s_srs, t_srs, schema, table, pk, geocolumn, dim, simplify, segmentize, spat, clip, where, gt, overwrite, append, addfields, launder, index, skipfailures, options)
Imports vector layers inside a PostGIS database. A new connection to the PostGIS database must be created. The algorithm is derived from the ogr2ogr utility .
Input layer
[vector: any]Output geometry type
[selection]<put parameter description here>
Options:
Default: 5
Input CRS (EPSG Code)
[crs]<put parameter description here>
Default: EPSG:4326
Output CRS (EPSG Code)
[crs]<put parameter description here>
Default: EPSG:4326
Host
[string]<put parameter description here>
Default: localhost
Port
[string]<put parameter description here>
Default: 5432
Username
[string]<put parameter description here>
Default: (not set)
Database Name
[string]<put parameter description here>
Default: (not set)
Password
[string]<put parameter description here>
Default: (not set)
Schema name
[string]Optional.
<put parameter description here>
Default: public
Table name, leave blank to use input name
[string]Optional.
<put parameter description here>
Default: (not set)
Primary Key
[string]Optional.
<put parameter description here>
Default: id
Geometry column name
[string]Optional.
<put parameter description here>
Default: geom
Vector dimensions
[selection]<put parameter description here>
Options:
Default: 0
Distance tolerance for simplification
[string]Optional.
<put parameter description here>
Default: (not set)
Maximum distance between 2 nodes (densification)
[string]Optional.
<put parameter description here>
Default: (not set)
Select features by extent (defined in input layer CRS)
[extent]<put parameter description here>
Default: 0,1,0,1
Clip the input layer using the above (rectangle) extent
[boolean]<put parameter description here>
Default: False
Select features using a SQL "WHERE" statement (Ex: column="value")
[string]Optional.
<put parameter description here>
Default: (not set)
Group "n" features per transaction (Default: 20000)
[string]Optional.
<put parameter description here>
Default: (not set)
Overwrite existing table?
[boolean]<put parameter description here>
Default: True
Append to existing table?
[boolean]<put parameter description here>
Default: False
Append and add new fields to existing table?
[boolean]<put parameter description here>
Default: False
Do not launder columns/table name/s?
[boolean]<put parameter description here>
Default: False
Do not create Spatial Index?
[boolean]<put parameter description here>
Default: False
Continue after a failure, skipping the failed feature
[boolean]<put parameter description here>
Default: False
Additional creation options
[string]Optional.
<put parameter description here>
Default: (not set)
processing.runalg('gdalogr:importvectorintopostgisdatabasenewconnection', input_layer, gtype, s_srs, t_srs, host, port, user, dbname, password, schema, table, pk, geocolumn, dim, simplify, segmentize, spat, clip, where, gt, overwrite, append, addfields, launder, index, skipfailures, options)
Creates an information file that lists information about an OGR-supported data source. The output will be shown in a ‘Result’ window and can be written into a HTML-file. The information includes the geometry type, feature count, the spatial extent, the projection information and many more.
Input layer
[vector: any]Layer information
[html]processing.runalg('gdalogr:information', input, output)