23.2.8. Vector miscellaneous¶
23.2.8.1. Execute SQL¶
Runs a simple or complex query with SQL syntax on the source layer. The result of the query will be added as a new layer.
This algorithm is derived from the GDAL ogr2ogr utility.
23.2.8.1.1. Parametri¶
Etichetă |
Nume |
Tipul |
Descriere |
---|---|---|---|
Input layer |
|
[vector: any] |
OGR-supported input vector layer |
SQL expression |
|
[string] |
Defines the SQL query, for example
|
SQL dialect |
|
[enumeration] Default: 0 |
SQL dialect to use. One of:
|
Additional creation options (optional) |
|
[string] Default: «» (no additional options) |
Additional GDAL creation options. |
SQL result |
|
[vector: any] |
Specification of the output layer. One of:
The file encoding can also be changed here. For |
23.2.8.1.2. Rezultat¶
Etichetă |
Nume |
Tipul |
Descriere |
---|---|---|---|
SQL result |
|
[vector: any] |
Vector layer created by the query |
23.2.8.1.3. Python code¶
Algorithm ID: gdal:executesql
import processing
processing.run("algorithm_id", {parameter_dictionary})
ID-ul algoritmului se afișează atunci când treceți peste algoritmul din caseta instrumentelor de procesare. Dicționarul parametrilor furnizează valorile și NUMELE parametrilor. Pentru detalii despre rularea algoritmilor de procesare din consola Python, parcurgeți Utilizarea algoritmilor de procesare din consolă.
23.2.8.2. Export to PostgreSQL (available connections)¶
Imports vector layers inside a PostgreSqL database on the basis of an available connection. The connection has to be defined properly beforehand. Be aware that the checkboxes «Save Username» and «Save Password» are activated. Then you can use the algorithm.
This algorithm is derived from the GDAL ogr2ogr utility.
23.2.8.2.1. Parametri¶
Etichetă |
Nume |
Tipul |
Descriere |
---|---|---|---|
Database (connection name) |
|
[string] |
The PostgreSQL database to connect to |
Input layer |
|
[vector: any] |
OGR-supported vector layer to export to the database |
Shape encoding Opţional |
|
[string] Default: «» |
Sets the encoding to apply to the data |
Output geometry type |
|
[enumeration] Default: 0 |
Defines the output geometry type. One of:
|
Assign an output CRS Opţional |
|
[crs] Default: None |
Defines the output CRS of the database table |
Reproject to this CRS on output Opţional |
|
[crs] Default: None |
Reprojects/transforms to this CRS on output |
Override source CRS Opţional |
|
[crs] Default: None |
Overrides the input layer CRS |
Schema (schema name) Opţional |
|
[string] Default: «public» |
Defines the schema for the database table |
Table to export to (leave blank to use layer name) Opţional |
|
[string] Default: «» |
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. |
Primary Key (new field) Opţional |
|
[string] Default: «id» |
Defines which attribute field will be the primary key of the database table |
Primary Key (existing field, used if the above option is left empty) Opţional |
|
[tablefield: any] Default: None |
Defines which attribute field in the exported layer will be the primary key of the database table |
Geometry column name Opţional |
|
[string] Default: «geom» |
Defines in which attribute field of the database there will be the geometry information |
Vector dimensions Opţional |
|
[enumeration] Default: 0 (2D) |
Defines if the vector file to be imported has 2D or 3D data. One of:
|
Distance tolerance for simplification Opţional |
|
[string] Default: «» |
Defines a distance tolerance for the simplification of the vector geometries to be imported. By default there is no simplification. |
Maximum distance between 2 nodes (densification) Opţional |
|
[string] Default: «» |
The maximum distance between two nodes. Used to create intermediate points. By default there is no densification. |
Select features by extent (defined in input layer CRS) Opţional |
|
[extent] Default: None |
You can select features from a given extent that will be in the output table. |
Clip the input layer using the above (rectangle) extent Opţional |
|
[boolean] Default: False |
The input layer will be clipped by the extent you defined before |
Select features using a SQL „WHERE” statement (Ex: column=”value”) Opţional |
|
[string] Default: «» |
Defines with a SQL „WHERE” statement which features should be selected from the input layer |
Group N features per transaction (Default: 2000) Opţional |
|
[string] Default: «» |
You can group the input features in transactions where N defines the size. By default N limits the transaction size to 20000 features. |
Overwrite existing table Opţional |
|
[boolean] Default: True |
If there is a table with the same name in the database, and if this option is set to True, the table will be overwritten. |
Append to existing table Opţional |
|
[boolean] Default: False |
If checked / True the vector data will be appended to an existing table. New fields found in the input layer are ignored. By default a new table will be created. |
Append and add new fields to existing table Opţional |
|
[boolean] Default: False |
If activated the vector data will be appended to an existing table, there won’t be a new table created. New fields found in input layer are added to the table. By default a new table will be created. |
Do not launder columns/table names Opţional |
|
[boolean] Default: False |
With this option checked you can prevent the default behaviour (converting column names to lowercase, removing spaces and other invalid characters). |
Do not create Spatial Index Opţional |
|
[boolean] Default: False |
Prevents a spatial index for the output table from being created. By default, a spatial index is added. |
Continue after a failure, skipping the failed feature Opţional |
|
[boolean] Default: False |
|
Promote to Multipart Opţional |
|
[boolean] Default: True |
Casts features geometry type to multipart in the output table |
Keep width and precision of input attributes Opţional |
|
[boolean] Default: True |
Avoids modifying column attributes to comply with input data |
Additional creation options (optional) |
|
[string] Default: «» (no additional options) |
Additional GDAL creation options. |
23.2.8.2.2. Rezultat¶
This algorithm has no output.
23.2.8.2.3. Python code¶
Algorithm ID: gdal:importvectorintopostgisdatabaseavailableconnections
import processing
processing.run("algorithm_id", {parameter_dictionary})
ID-ul algoritmului se afișează atunci când treceți peste algoritmul din caseta instrumentelor de procesare. Dicționarul parametrilor furnizează valorile și NUMELE parametrilor. Pentru detalii despre rularea algoritmilor de procesare din consola Python, parcurgeți Utilizarea algoritmilor de procesare din consolă.
23.2.8.3. Export to PostgreSQL (new connection)¶
Imports vector layers inside a PostGreSQL database. A new connection to the PostGIS database must be created.
This algorithm is derived from the GDAL ogr2ogr utility.
23.2.8.3.1. Parametri¶
Etichetă |
Nume |
Tipul |
Descriere |
---|---|---|---|
Input layer |
|
[vector: any] |
OGR-supported vector layer to export to the database |
Shape encoding Opţional |
|
[string] Default: «» |
Sets the encoding to apply to the data |
Output geometry type |
|
[enumeration] Default: 0 |
Defines the output geometry type. One of:
|
Assign an output CRS Opţional |
|
[crs] Default: None |
Defines the output CRS of the database table |
Reproject to this CRS on output Opţional |
|
[crs] Default: None |
Reprojects/transforms to this CRS on output |
Override source CRS Opţional |
|
[crs] Default: None |
Overrides the input layer CRS |
Host Opţional |
|
[string] Default: «localhost» |
Name of the database host |
Port Opţional |
|
[string] Default: «5432» |
Port number the PostgreSQL database server listens on |
Username Opţional |
|
[string] Default: «» |
User name used to log in to the database |
Database name Opţional |
|
[string] Default: «» |
Name of the database |
Password Opţional |
|
[string] Default: «» |
Password used with Username to connect to the database |
Schema (schema name) Opţional |
|
[string] Default: «public» |
Defines the schema for the database table |
Table name, leave blank to use input name Opţional |
|
[string] Default: «» |
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. |
Primary Key (new field) Opţional |
|
[string] Default: «id» |
Defines which attribute field will be the primary key of the database table |
Primary Key (existing field, used if the above option is left empty) Opţional |
|
[tablefield: any] Default: None |
Defines which attribute field in the exported layer will be the primary key of the database table |
Geometry column name Opţional |
|
[string] Default: «geom» |
Defines in which attribute field to store the geometry information |
Vector dimensions Opţional |
|
[enumeration] Default: 0 (2D) |
Defines if the vector file to be imported has 2D or 3D data. One of:
|
Distance tolerance for simplification Opţional |
|
[string] Default: «» |
Defines a distance tolerance for the simplification of the vector geometries to be imported. By default no simplification there is no simplification. |
Maximum distance between 2 nodes (densification) Opţional |
|
[string] Default: «» |
The maximum distance between two nodes. Used to create intermediate points. By default there is no densification. |
Select features by extent (defined in input layer CRS) Opţional |
|
[extent] Default: None |
You can select features from a given extent that will be in the output table. |
Clip the input layer using the above (rectangle) extent Opţional |
|
[boolean] Default: False |
The input layer will be clipped by the extent you defined before |
Fields to include (leave empty to use all fields) Opţional |
|
[string] [list] Default: [] |
Defines fields to keep from the imported vector file. If none is selected, all the fields are imported. |
Select features using a SQL „WHERE” statement (Ex: column=”value”) Opţional |
|
[string] Default: «» |
Defines with a SQL „WHERE” statement which features should be selected for the output table |
Group N features per transaction (Default: 2000) Opţional |
|
[string] Default: «» |
You can group the input features in transactions where N defines the size. By default N limits the transaction size to 20000 features. |
Overwrite existing table Opţional |
|
[boolean] Default: True |
If there is a table with the same name in the database, and if this option is set to True, the table will be overwritten. |
Append to existing table Opţional |
|
[boolean] Default: False |
If checked / True the vector data will be appended to an existing table. New fields found in the input layer are ignored. By default a new table will be created. |
Append and add new fields to existing table Opţional |
|
[boolean] Default: False |
If activated the vector data will be appended to an existing table, there won’t be created a new table. New fields found in input layer are added to the table. By default a new table will be created. |
Do not launder columns/table names Opţional |
|
[boolean] Default: False |
With this option checked you can prevent the default behaviour (converting column names to lowercase, removing spaces and other invalid characters). |
Do not create Spatial Index Opţional |
|
[boolean] Default: False |
Prevents a spatial index for the output table from being created. By default, a spatial index is added. |
Continue after a failure, skipping the failed feature Opţional |
|
[boolean] Default: False |
|
Promote to Multipart Opţional |
|
[boolean] Default: True |
Casts features geometry type to multipart in the output table |
Keep width and precision of input attributes Opţional |
|
[boolean] Default: True |
Avoids modifying column attributes to comply with input data |
Additional creation options (optional) |
|
[string] Default: «» (no additional options) |
Additional GDAL creation options. |
23.2.8.3.2. Rezultat¶
This algorithm has no output.
23.2.8.3.3. Python code¶
Algorithm ID: gdal:importvectorintopostgisdatabasenewconnection
import processing
processing.run("algorithm_id", {parameter_dictionary})
ID-ul algoritmului se afișează atunci când treceți peste algoritmul din caseta instrumentelor de procesare. Dicționarul parametrilor furnizează valorile și NUMELE parametrilor. Pentru detalii despre rularea algoritmilor de procesare din consola Python, parcurgeți Utilizarea algoritmilor de procesare din consolă.
23.2.8.4. Vector Information¶
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.
This algorithm is derived from the GDAL ogrinfo utility.
23.2.8.4.1. Parametri¶
Etichetă |
Nume |
Tipul |
Descriere |
---|---|---|---|
Input layer |
|
[vector: any] |
Input vector layer |
Summary output only Opţional |
|
[boolean] Default: True |
|
Suppress metadata info Opţional |
|
[boolean] Default: False |
|
Layer information |
|
[html] Default: |
Specify the output HTML file that includes the file information. One of:
The file encoding can also be changed here. If no HTML-file is defined the output will be written to a temporary file |
23.2.8.4.2. Rezultat¶
Etichetă |
Nume |
Tipul |
Descriere |
---|---|---|---|
Layer information |
|
[html] |
The output HTML-file that includes the file information. |
23.2.8.4.3. Python code¶
Algorithm ID: gdal:ogrinfo
import processing
processing.run("algorithm_id", {parameter_dictionary})
ID-ul algoritmului se afișează atunci când treceți peste algoritmul din caseta instrumentelor de procesare. Dicționarul parametrilor furnizează valorile și NUMELE parametrilor. Pentru detalii despre rularea algoritmilor de procesare din consola Python, parcurgeți Utilizarea algoritmilor de procesare din consolă.