Actions — Add some custom buttons triggering PostgreSQL queries
Principle
This module allows to add one or several actions in web interface. The concept has been inspired by QGIS actions, which can be used to run scripts inside QGIS.
Example of a feature action:
At present, the only engine for Lizmap actions is PostgreSQL queries (Python will not be supported). You can use PostgreSQL and PostGIS power to add specific logic in your web map.
Advertencia
Lizmap actions are therefore different than QGIS native actions and are not compatible each other.
When the user clicks on an action button, a query is sent by Lizmap Web Client to the PostgreSQL database, with the current context data (map extent, feature ID, etc.).
A specific function lizmap_get_data
is called with these parameters, and returns
a GeoJSON response containing one or several features generated by the SQL query
for the given action.
Lizmap Web Client will then run some callbacks from this response:
zoom or center to the returned geometry,
select features of another layer intersecting the returned geometry,
display a message, etc.
Three action scopes are supported :
project
: an action menu item is added on the left menu bar when the map has at least one project action. The new panel shows an action selector and a button to trigger the selected action.layer
: the action selector is shown in the layer Informations panel visible by clicking the (i) button right the the layer name.feature
: action buttons are added in the popup toolbar for the layer features, allowing to trigger an action specific to each feature.
Truco
For the project
scope, the default database is used (file profiles.ini.php
in the
configuration chapter.
Example action selector:
Demonstration
You can check the demo about fire hydrants on the demo website.
Click on a fire hydrant and
Either select buildings which are within 150m
Or find the closest fire station
Prerrequisitos
Some knowledge in
SQL
andJSON
To use the
select
callback, your layer must have the selection enabled for the layer. See Attribute table — Configure the attribute table and the vector selectionThe layer must be published as WFS (see WFS/OAPI) and the primary key must be published as well in the Layer properties.
Configuring the tool
At present, the actions cannot be configured from Lizmap plugin in QGIS. A specific JSON configuration file must be written and placed aside the QGIS project in the same directory. This file lists the PostgreSQL actions to be added in the map.
Advertencia
In Lizmap 3.7, the JSON syntax has changed.
If you use the old JSON syntax, you will have a warning in Lizmap, inviting you to migrate to a newer version of the syntax.
- Each action is characterized by a
name
, atitle
, ascope
,layers
, anicon
, some optionaloptions
, style
,callbacks
andconfirm
property can be used.
An action can be proposed for a list of
layers
: QGIS layer IDs should be used in thelayers
arrayAn action can have a list of
callbacks
Example of a JSON configuration file, name fire_hydrant_actions.qgs.action
if the QGIS project file is named
fire_hydrant_actions.qgs
. In this project, there is a vector layer called Fire hydrants
with the internal
layer ID emergency_fire_hydrant_04132268_86fb_4d5e_a426_ce3133494091
.
You can get the QGIS layer internal ID with the QGIS expression @layer_id
.
[
{
"name": "buffer_150",
"title": "Buildings in the fire hydrant area (150m)",
"scope": "feature",
"layers" : [
"emergency_fire_hydrant_04132268_86fb_4d5e_a426_ce3133494091"
],
"confirm": "Do you want to select buildings within 150m from this fire hydrant ?",
"icon": "icon-home",
"options": {
"buffer_size": 150,
"other_param": "yes"
},
"style": {
"graphicName": "circle",
"pointRadius": 6,
"fill": true,
"fillColor": "lightred",
"fillOpacity": 0.3,
"stroke": true,
"strokeWidth": 4,
"strokeColor": "red",
"strokeOpacity": 0.8
},
"callbacks": [
{"method": "zoom"},
{"method": "select", "layerId": "building_90f7692a_0ae2_4a7d_91de_b63cddb92963"}
]
},
{
"name": "closest_fire_station",
"title": "Find the closest fire station from this fire hydrant",
"scope": "feature",
"layers" : [
"emergency_fire_hydrant_04132268_86fb_4d5e_a426_ce3133494091"
],
"confirm": "Do you want to select the closest fire station from this fire hydrant ?",
"icon": "icon-resize-small",
"options": {},
"style": {
"graphicName": "circle",
"pointRadius": 6,
"fill": true,
"fillColor": "lightred",
"fillOpacity": 0.3,
"stroke": true,
"strokeWidth": 4,
"strokeColor": "red",
"strokeOpacity": 0.8
},
"callbacks": [
{"method": "zoom"},
{"method": "select", "layerId": "stations_1a71d61f_cb99_4ac4_8bd4_86304af9be44"}
]
}
]
The JSON configuration file lists the declared actions.
Each action is an object defined by:
a
name
which is the action identifier.a
title
which is used as a label in Lizmap interfacea
scope
which can be:project
,layer
orfeature
an
icon
which is displayed on the action button (See the Bootstrap documentation). An SVG icon can be used instead of a bootstrap icon as a background of the popup action buttons. Use a relative media path (Media).an optional
confirm
property, containing some text. If set, a confirmation dialog will be shown to the user to ask if the action should really be launched or not. Use it if the action can modify some data in your database.an
options
object, giving some additional parameters for this action. You can add any needed parameters. Note that this parameters are hard coded and cannot be changed by the user.a
style
object allowing to configure the returned geometry style. It follows OpenLayers styling attributes.a
callbacks
object allows to trigger some actions after the generated geometry is returned. They are defined by amethod
name, which can at present be:zoom
: zoom to the returned geometryselect
: select the features from a given layer intersecting the returned geometry. The target layer QGIS internal ID must be added in thelayerId
property. In the example, the features of the layer containing buildings, IDbuilding_90f7692a_0ae2_4a7d_91de_b63cddb92963
will be selected.redraw
: redraw (refresh) a given layer in the map. The target layer QGIS ID must be added in thelayerId
property.
How Lizmap uses this configuration file to launch actions
Lizmap detects the presence of this configuration file, and adds the needed logic when the map loads.
For example, for feature
scoped actions, when the users clicks on an object
of one of the action layer in the map, the popup panel shows the feature data.
At the top of each popup item, a toolbar shows one button per each layer action.
The action title
will be displayed on hovering the action button.
Each button triggers the corresponding action, if it is not yet active (else it deactivates and erases the geometry in the map):
Lizmap backend checks if the action is well configured,
creates the PostgreSQL query
SELECT public.lizmap_get_data(json)
with the parameters written in JSON, and executes it in the layer PostgreSQL database. (See example below)This query returns a GeoJSON which is then displayed on the map.
If some
callbacks
have been configured, they are launched (selection
,zoom
,redraw
)A Lizmap event
actionResultReceived
is emitted with the returned data and action properties. This allow user-defined Javascript scripts to use the action results.
The created PostgreSQL query is built up by Lizmap Web Client and
uses the PostgreSQL function lizmap_get_data(json)
which must be created beforehand in the PostgreSQL table database.
This function also uses a more generic function query_to_geojson(text)
which transforms any PostgreSQL query string into a GeoJSON output.
Here is an example below of the query executed in the PostgreSQL database by Lizmap Web Client internally,
for the example configuration given above,
when the users clicks on the button action buffer_150,
for the feature with id
2592251664
of the layerFire hydrants
corresponding to the PostgreSQL table
fire_hydrant_actions.emergency_fire_hydrant
:
SELECT public.lizmap_get_data('{
"lizmap_repository": "features",
"lizmap_project": "fire_hydrant_actions",
"action_name": "buffer_150",
"action_scop": "feature",
"layer_name": "Fire hydrant",
"layer_schema": "fire_hydrant_actions",
"layer_table": "emergency_fire_hydrant",
"feature_id": 2592251664,
"map_center": "POINT(3.4345918 43.63399141565576)",
"map_extent": "POLYGON((3.429635077741169 43.63175113378633,3.439548522258832 43.63175113378633,3.439548522258832 43.63623161401291,3.429635077741169 43.63623161401291,3.429635077741169 43.63175113378633))",
"wkt": "",
"buffer_size":150,
"other_param": "yes"
}') AS data;
You can see that Lizmap creates a JSON parameter with all needed information
and run the PostgreSQL function lizmap_get_data(text)
.
The current map extent and map center are also sent as parameters
in WKT format (projection EPSG:4326
) and can be used in the PostgreSQL function.
Mandatory PostgreSQL functions
You need to create this PostgreSQL functions:
query_to_geojson(text)
which returns a valid GeoJSON text from any SELECT querylizmap_get_data(text)
which is the «control tower» of Lizmap actions: it creates a specific query for each action based on the parameters and then run the query and returns the GeoJSON
The following SQL code is an example to help you create the needed functions. Obviously, you must adapt them to fit your needs.
-- Returns a valid GeoJSON from any query
CREATE OR REPLACE FUNCTION query_to_geojson(datasource text)
RETURNS json AS
$$
DECLARE
sqltext text;
ajson json;
BEGIN
sqltext:= format('
SELECT jsonb_build_object(
''type'', ''FeatureCollection'',
''features'', jsonb_agg(features.feature)
)::json
FROM (
SELECT jsonb_build_object(
''type'', ''Feature'',
''id'', id,
''geometry'', ST_AsGeoJSON(ST_Transform(geom, 4326))::jsonb,
''properties'', to_jsonb(inputs) - ''geom''
) AS feature
FROM (
SELECT * FROM (%s) foo
) AS inputs
) AS features
', datasource);
RAISE NOTICE 'SQL = %s', sqltext;
EXECUTE sqltext INTO ajson;
RETURN ajson;
END;
$$
LANGUAGE 'plpgsql'
IMMUTABLE STRICT;
COMMENT ON FUNCTION query_to_geojson(text) IS 'Generate a valid GEOJSON from a given SQL text query.';
-- Create a query depending on the action, layer and feature and returns a GeoJSON.
CREATE OR REPLACE FUNCTION public.lizmap_get_data(parameters json)
RETURNS json AS
$$
DECLARE
feature_id varchar;
layer_name text;
layer_table text;
layer_schema text;
action_name text;
sqltext text;
datasource text;
ajson json;
BEGIN
action_name:= parameters->>'action_name';
feature_id:= (parameters->>'feature_id')::varchar;
layer_name:= parameters->>'layer_name';
layer_schema:= parameters->>'layer_schema';
layer_table:= parameters->>'layer_table';
-- Action buffer_150
-- Performs a buffer on the geometry
IF action_name = 'buffer_150' THEN
datasource:= format('
SELECT %1$s AS id,
''Buildings within 150m of the fire hydrant have been selected'' AS message,
ST_Buffer(geom, 150) AS geom
FROM "%2$s"."%3$s"
WHERE osm_id = ''%1$s''
',
feature_id,
layer_schema,
layer_table
);
ELSEIF action_name = 'closest_fire_station' THEN
-- Draw a line to the closest fire station
datasource:= format('
WITH tmp_hydrant AS (
SELECT geom FROM fire_hydrant_actions.emergency_fire_hydrant WHERE osm_id = ''%1$s''
)
SELECT
id, name, ST_Distance(hydrant.geom, stations.geom),
''The closest is : '' || stations.name || '', '' || ST_Distance(hydrant.geom, stations.geom)::integer || ''m, flying air distance'' AS message,
ST_MakeLine(stations.geom, hydrant.geom) AS geom,
stations.id AS station_id
FROM
fire_hydrant_actions.stations stations,
tmp_hydrant hydrant
ORDER BY ST_Distance(hydrant.geom, stations.geom)
LIMIT 1
',
feature_id
);
ELSE
-- Default : return geometry
datasource:= format('
SELECT
%1$s AS id,
''The geometry of the object have been displayed in the map'' AS message
geom
FROM "%2$s"."%3$s"
WHERE id = %1$s
',
feature_id,
layer_schema,
layer_table
);
END IF;
SELECT query_to_geojson(datasource)
INTO ajson
;
RETURN ajson;
END;
$$
LANGUAGE 'plpgsql'
IMMUTABLE STRICT;
COMMENT ON FUNCTION public.lizmap_get_data(json) IS 'Generate a valid GeoJSON from an action described by a name, PostgreSQL schema and table name of the source data, a QGIS layer name, a feature id and additional options.';
The function
lizmap_get_data(json)
is provided here as an example. Since it is the key entry point, you need to adapt it to fit your needs. It aims to create a query for each action name, dynamically created for the given parameters, and return a GeoJSON representation of the query result data. You should have only one feature returned: use aggregation if needed. In the example above, we use theformat
method to set the query text, and the functionquery_to_geojson
to return the GeoJSON for this query.You can use all the given parameters (action name, source data schema and table name, feature id, QGIS layer name) to create the appropriate query for your action(s), by using the PostgreSQL
IF THEN ELSIF ELSE
clauses. See the content of theparameters
variable in the example above, containing some of the JSON configuration file properties, and some properties of the QGIS layer:Lizmap repository and project keys of the map:
lizmap_repository
&lizmap_project
the action name
action_name
, for examplebuffer_150
. You should use a simple word with only letters, digits and_
,the action scope
action_scope
, for examplefeature
,QGIS layer name (as in QGIS legend):
layer_name
, for exampleFire hydrant
, only forfeature
actions,the PostgreSQL table schema
layer_schema
and table namelayer_table
for the layer, only forfeature
andlayer
scoped actionsthe object feature id
feature_id
, which corresponds to the value of the primary key field for the popup object, only forfeature
actions,the other properties given in the JSON configuration file, in the
options
property, such asbuffer_size
which is150
in the examplethe map center
map_center
and map extentmap_extent
The
IF ELSE
is used to do a different query, built in thedatasource
variable, by checking the action nameIf the return data contains a
message
field, such as shown in the example above, the text contained in this field will be displayed in the map in a message bubble.The geometry returned by the function will be displayed on the map.
You could use your function to edit some data in your database, before returning a GeoJSON. To do so, you need to replace the
IMMUTABLE
property parVOLATILE
. Please USE IT WITH CARE !
Actions and user-defined JavaScript scripts
Since Lizmap Web Client triggers an event actionResultReceived
any time the user clicks on an action button,
and data is returned (in the same time as the result geometry is drawn on the map), you could use your own JavaScript
code to add some logic after the result is shown.
Ver también
Chapter Adding your own JavaScript
For example, here we just write in the browser console the content received:
lizMap.events.on({
actionResultReceived: function(e) {
// QGIS Layer id
var layerId = e.layerId;
console.log('Layer ID = ' + layerId);
// Feature ID, which means the value of the primary key field
var featureId = e.featureId;
console.log('Feature ID = ' + featureId);
// Action item with its name and other properties: name, title, options, styles, etc.
var action = e.action;
console.log('Action properties = ');
console.log(action);
// Features returned by the action
var features = e.features;
console.log('Returned object = ');
console.log(features);
}
});
You could use these data as you like in your JS code.
Actions can also be run from external JavaScript scripts: you can use the actions public methods to run an action, or reset the active action:
// Run an action
lizMap.mainLizmap.action.runLizmapAction(actionName, scope = 'feature', layerId = null, featureId = null, wkt = null);
// Reset the action
lizMap.mainLizmap.action.resetLizmapAction()
A WKT geometry, in EPSG:4326
, can also be sent as an additional parameter.
This is only possible when running the action with JavaScript.
This allows to send a geometry to be used by the PostgreSQL action function lizmap_get_data
as a property of the parameters
SQL variable.
(for example to get data from another table with geometries intersecting this passed WKT geometry)