pgmapcss is Mapnik for OpenStreetMap on steroids :-) Writing Mapnik stylesheets is a tedious work, requiring you to write stylesheets in XML with complex database queries. Even when using pre-processors like Cascadenik or CartoCSS you still need to have some knowledge in SQL.
MapCSS takes away all this pain. It's simple and declarative: You define what should be rendered how, using CSS-like language. MapCSS is very powerful as it allows calculations. MapCSS is a somehow standardized language as there are many different renderers supporting it (although each dialect is a little different).
pgmapcss compiles MapCSS styles into a database function. Mapnik just needs to call this database function and render the processed data.
Alternatively there's a standalone mode, where the MapCSS style is compiled into an executable, which can be run from the command line. The executable will not render an image but create GeoJSON output instead. See below for details.
Since version 0.10 you don't even need a local database import (a local database is needed nonetheless), as the new default data source is Overpass API. Alternatively, osm2pgsql and osmosis pgsnapshot are supported. See doc/database.md for details.
Stable version: 0.10.5 (CHANGELOG), development versions: 0.11-dev (open issues) resp. NG-dev(open issues).
line|z15-[highway=primary] {
color: #ffff00;
width: 6;
casing-color: #303030;
casing-width: 1.5;
text: name;
text-color: blue;
text-halo-color: rgb(1.0, 1.0, 0);
text-halo-radius: 1;
text-position: line;
}
Every line with highway=primary should be displayed with a yellow 6px wide line with a 1.5px darkgrey casing (on both sides). Additional the value of the 'name'-tag should be shown on top of the line in the CSS3 color blue. This style is valid from zoom level 15 on.
See MapCSS Documentation for general documentation (e.g. which selectors are supported) about pgmapcss' dialect of the MapCSS language and the list of available properties for possible style parameters for your installed Mapnik release:
- Mapnik 2.0
- Mapnik 2.2
- Mapnik 2.3
- Mapnik 3.0 (Mapnik interface still changes, so it's important to use a fairly new version)
You can embed MapCSS syntax in a Mapnik file with <style type='text/mapcss'>
. See basemap_example.mapcss.
Using eval(), values for properties can be calculated. Even geometric modifications are possible as many PostGIS functions are exposed. Examples:
line|z15-[highway=primary] {
/* print "ref - name" as text, e.g. "B1 - Wienerstraße". */
text: eval(tag("ref") . " - " . tag("name"));
/* Adds the length of the line in Pixels, e.g. "B1 - Wienerstraße: 5.43" */
text: eval(prop("text") . ": " . line_length(prop("geo")));
/* Only the first 20px of the line should be rendered */
geo: eval(line_part(prop("geo"), 0, 20));
/* Width: Render the line 30m wide - ATTENTION: this statement works only with Mapnik >= 3.0 */
width: eval(metric("30m"));
}
In fact you can write the last line as "width: 30m;" as pgmapcss supports other units than pixels. On the other hand this does not work, as pgmapcss needs to figure out most Mapnik parameters at compile-time (for Mapnik versions < 3.0). As 30m depends not only on the zoom level but also the geographic location, any value would be possible. pgmapcss will raise a warning when compiling the stylesheet.
Starting with version 0.7, pgmapcss does not require eval(...) to be wrapped around expressions, but for compatibility with other MapCSS implementations you should write it out. Also, pgmapcss tries to figure out possible results of an eval()-statement (which is important for Mapnik version < 3.0, see above), e.g. '2 * 3' => always 6; 'zoom() / 2' => zoom() may be a value between 0 and 20, divided by 2: 0, 0.5, 1, 1.5, ... 10; 'cond(something, "red", "blue")' => either "red" or "blue".
See the "eval" documentation for a complete list of functions.
Often it makes sense to combine similar features, e.g. streets which are split into short parts due to changes in their street layout. This results in missing street names as the parts are too small. With pgmapcss you can combine those map features, so that the name can span the whole street.
Set neighbouring map features into relation. Map features don't exist independent from their surroundings. This can be done using the "near" link syntax. This is a pgmapcss specific enhancement.
Example → Try it online!:
/* This selector selects the closest highway for each restaurant. These
selectors always need the be read from right to left, as the last object is the
one the selector shapes (as in normal CSS) */
line[highway] near[index=0] point[amenity=restaurant] {
/* Prints the name of the restaurant plus "near" plus the name of the highway
plus the distance to the highway in meters in brackets. */
text: eval(
tag("name") . " near " .
parent_tag("name") .
"\n" . metric(link_tag("distance"), "m") . "m"
);
}
pgmapcss includes the Mapbox Maki Icon Set. So for simple styles you don't need to create own icons.
Example → Try it online!:
node|z14-[amenity=bicycle_parking] {
icon-image: bicycle;
icon-width: 18; /* default: 24; valid values: 12, 18, 24 */
icon-color: #ff0000; /* default #404040 */
}
Current limitations: Only the widths 12, 18 and 24 are supported right now, which are the sizes of the icon set. Scaling for icons (also custom icons) is not implemented right now.
List of currently available icons. If an icon is missing, Mapbox Maki is Open Source; you can contribute icons, they will be included in the next pgmapcss release.
Optimized database queries: Only those map features which are visible in the current zoom level are requested from the database.
The compiled database function uses PL/Python3 database language, which makes execution efficient and powerful.
As Mapnik 2.x can't read symbolizer values (like color, width, ...) from database columns, the mapnik pre-processor has to create style rules for all possible value combinations. The more complex the style sheet, the larger the mapnik style files and therefore rendering can take a long time. The up-coming Mapnik 3.0 should solve these issues.
Version 0.9 introduces the option, to compile a MapCSS style into a standalone executable. Running this executable (either from command line or as CGI script) will produce GeoJSON output.
Let's take the following MapCSS style:
node[place=city] {
text: tag('name') . ' (' . tag('population') ')';
icon: circle;
}
The compiled executable will produced an output similar to this (it has been shortened for readability):
{ "type": "FeatureCollection", "features": [
{
"type": "Feature"
"properties": {
"results": [
{
"icon": "circle",
"text": "Salzburg (149201)", // <- here's the result of property "text"
"pseudo_element": "default",
}
],
"place": "city",
"name:en": "Salzburg",
"name": "Salzburg",
"population": "149201",
},
"geometry": {
"type": "Point",
"coordinates": [
13.041059114220452,
47.800197658773016
]
},
}
,
{
"type": "Feature"
"properties": {
"results": [
{
"icon": "circle",
"text": "Wien (1626440)", // <- here's the result of property "text"
"pseudo_element": "default",
}
],
"place": "city",
"name": "Wien",
"name:en": "Vienna",
"population": "1626440",
},
"geometry": {
"type": "Point",
"coordinates": [
16.373090794897276,
48.20846703584975
]
},
}
]}
Two possible uses for the standalone mode:
- Quality assurance by building a tagchecker, see doc/tagchecker.md.
- Interactive rendering using a JavaScript library frontend, e.g. ol4pgm. See doc/ol4pgm.md.
Find installation instructions in Install with Mapnik 3.0.
There's a file test.mapcss which you can use to build upon. You can try it online!