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MapServer Quickstart

MapServer is an Open Source server based application that allows you to publish geographic map images and vector data through to internet using OGC standards such as WMS and WFS.

This Quick Start describes how to:

Configure MapServer using the “mapfile” configuration file

Note

What will I learn ? In this section, you will learn what is a mapfile and how to configure it to allow MapServer to serve a shapefile as images using a WMS request.

What is a MapFile ?

The Mapfile is the configuration file that MapServer uses to render geospatial data as images or vector data. Its main purpose is to define the layers it can draw- how to read necessary data and how to render it (e.g. color, symbol, label, etc...).

Creating of my first MapFile

  1. Open any text editor (Mousepad is the default text editor on the live dvd: Applications ‣ Accessories ‣ Mousepad).
  2. Create the file “mapserver_quickstart.map” in your home directory: /home/user/mapserver_quickstart.map

Put the following content in it:

MAP
  NAME "MAPSERVER QUICKSTART"
  EXTENT -137 29 -53 88
  UNITS DD
  SHAPEPATH "/home/user/data/natural_earth/"
  SIZE 800 600

  IMAGETYPE PNG24

  PROJECTION
    "init=epsg:4326"
  END

  WEB
    METADATA
      ows_enable_request "*"
    END
  END

  LAYER
    NAME "Admin Countries"
    STATUS ON
    TYPE POLYGON
    DATA "10m_admin_0_countries"
    CLASS
      STYLE
        COLOR 246 241 223
        OUTLINECOLOR 0 0 0
      END
    END
  END

END

Note

The example uses the natural earth dataset, which is already installed on the live dvd: ~/data/natural_earth (a short cut to /usr/local/share/data/natural_earth)

Each object in a mapfile start with its name (for example MAP) and ends with an END. A mapfile always start with the MAP object and should contains a list of LAYER objects the mapfile can read and draw. In our mapfile, we currently have only one layer defined.

Let’s take a look at some of the objects (and properties) defined in our mapfile :
  • EXTENT : sets the default geospatial bounding box for this configuration.
  • LAYER : defines access and display properties for a spatial dataset. We’ll add an other layer later.
  • SHAPEPATH : sets a base path for file-based data (e.g. shapefiles or tiff images).
If we look closer at the LAYER in our mapfile, we’ll see that it contains a bunch of properties and objects too. Among the ones it has :
  • STATUS : whether the layer can be drawn (ON), can’t be drawn (OFF) or is always drawn (DEFAULT).
  • TYPE : the geometry type that MapServer should use when rendering the data as an image. In our mapfile, the data will be drawn as polygons.
  • DATA : the name of the spatial data file this layer use, in this case a shapefile.
  • CLASS : determines how to draw a layer (styling). We’ll cover this object in more detail later.

Note

A complete list of the available objects and properties a Mapfile can have can be found in the MapServer documentation page.

Render a map image with MapServer using the command line

Although MapServer is geared towards web applications, it can also produce images on the command line. This can be useful if you are looking for repetitive mapping, or while debugging.

Open a terminal (Applications/Accessories/Terminal Emulator) and type

shp2img -m mapserver_quickstart.map -o mymap.png

If this command runs successfully, you are able to see your rendered map at file:///home/user/mymap.png .

Render an map image with MapServer using a WMS GetMap request

Note

What will I learn ? You will learn how to use to render an image with layers from a mapfile with MapServer using an OGC WMS request.

Open the web browser and enter the following URL:

http://localhost/cgi-bin/mapserv?map=/home/user/mapserver_quickstart.map&SERVICE=WMS&REQUEST=Getmap&VERSION=1.1.1&LAYERS=Admin%20Countries&SRS=EPSG:4326&BBOX=-137,29,-53,88&FORMAT=PNG&WIDTH=800&HEIGHT=600

What does the above mean ? If we put it in simple words, it’s a Web Map Service (WMS) GetMap request that tells mapserver to “use the following mapfile to render the specified layers as a png image based on some user-supplied parameters such as iamge size, geographical extent, projection, etc.“. All layers specified in the “&LAYERS=...” property having STATUS ON in the mapfile in addition to all layers with STATUS DEFAULT will be rendered. The result should look like the following :

../../_images/mapserver_map.png

Note

All parameters of the request are WMS-specific, except “?map=/home/user/mapserver_quickstart.map“, which is MapServer-specific.

Add a new layer to the “mapfile” to serve a local shapefile

Note

What will I learn ? You will learn how to add a new layer object definition to your mapfile.

We will now add a new layer to our mapfile. Before last END statement in the mapfile, add the following layer configuration:

LAYER
  NAME "Lakes"
  STATUS ON
  TYPE POLYGON
  DATA "10m_lakes"
  CLASS
    STYLE
      COLOR 153 179 204
    END
  END
 END

Now we have 2 layer definitions in our MapFile. Note that this new one we just added has the “STATUS ON” property. That means that unless we specifically request it, it won’t be rendered.

Let’s take our previous WMS GetMap request and add our new “Lakes” layer to the image rendered. We simply need to add the new layer name to the “LAYERS” property list, as such:

http://localhost/cgi-bin/mapserv?map=/home/user/mapserver_quickstart.map&SERVICE=WMS&REQUEST=Getmap&VERSION=1.1.1&LAYERS=Admin%20Countries,Lakes&SRS=EPSG:4326&BBOX=-137,29,-53,88&FORMAT=PNG&WIDTH=800&HEIGHT=600

The image rendered by MapServer look like our previous map, but with addition of the lakes from our new layer:

../../_images/mapserver_lakes.png

Style a layer using “mapfile” configurations

Note

What will I learn ? You will see an example of styling elements inside a layer depending on some of its data properties.

In a MapFile, a LAYER object can contain an infinite number of CLASS object. These are used to style the elements contained in the spatial data file (DATA). For example, if we look closer at our “10m_lakes” data file using a tool such as ogrinfo, we’ll see the geometry and attribute definitions it contains. These attribute values can be used as a way to draw the elements inside a dataset differently using multiple CLASS objects.

In our “10m_lakes” dataset, we have a ScaleRank attribute, which seems to be related ot the size of the lake. We can use this as a way to render the lakes differently. In the LAYER object, we’ll add an other CLASS object just before our current one, as such:

LAYER
 NAME "Lakes"
 STATUS DEFAULT
 TYPE POLYGON
 DATA "10m_lakes"
 CLASSITEM "ScaleRank"
 CLASS
   EXPRESSION /0|1/
   STYLE
     COLOR 153 179 204
     OUTLINECOLOR 0 0 0
   END
 END
 CLASS
   STYLE
     COLOR 153 179 204
   END
 END
END

What does our new CLASS object do? It’s basically tells MapServer to draw the elements having the “ScaleRank” property equal to “0” or “1” with a black outline. Class objects are always read from the top to the bottom for each feature to be drawn. When a feature matches the “EXPRESSION” specified in a class, that class used to render the feature. If the feature does not match a class the next class is checked. If a feature does not match any class then it is not rendered and if the last class in a layer contains no EXPRESSION then that class acts as a default. The LAYER “CLASSITEM” property tells MapServer which attribute to use when evaluating EXPRESSIONs defined in the CLASS objects.

The result of this new addition should make the big lakes in our map image render with a black outline, as such:

../../_images/mapserver_lakes_scalerank.png

Note

Learn more about EXPRESSIONS in MapServer.

What Next?

This is a simple example, but you can do much, much more. The MapServer project website contains many resources to help you get started. Here’s a few resources to check out next:

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