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Tag Archives: QGIS

Browsing Spatial Data with QGIS Browser

By
2011-06-16
QGIS
12 Comments

QGIS trunk now comes with a separate tool called “QGIS Browser”. It enables the user to browse through all spatial data files on the system as well as all WMS configured in QGIS. Both files and WMS layers are listed in a tree widget on the left side while metadata, attributes and a preview can be seen on the right.

WMS preview in QGIS Browser

This is a great way for example to check through all layers of a WMS fast and without having to go through the “Add WMS Layer” dialog in QGIS all the time.

Multi-line Labels in QGIS

By
2011-06-15
GIS, QGIS
10 Comments

Ever wondered how to create multi-line labels in QGIS? The new labeling engine has a “Multiline labels” option but it’s not so obvious how to create a usable labeling attribute. Here is how it works (credits to @nhopton on QGIS forum):

  1. Create a big enough text field (if the data doesn’t contain any yet).
  2. In Layer Properties – Fields, chose a “Text edit” edit widget for the label field.
  3. Enter the multi-line text into the label field. You can do this using Attribute Table or Feature Form.

    A feature form with "Text edit" widget

  4. Activate labeling. You’ll have to tick “Multiline labels” option in Layer Labeling Settings – Advanced – Options. That’s it:

    Simple multi-line label example

A common use case is the wish to show multiple attribute values in a feature’s label. Using Field Calculator, you can combine them into multi-line labels. All you need is to combine the fields with the || operator and add ‘\n’ (newline) wherever there should be a line break:

Field1 || '\n' || Field2

Populating a multi-line label field using Field Calculator

And finally, the result:

Multi-line labels displaying city name and population

A First Glimpse at the QGIS Processing Framework

By
2011-06-04
GIS, QGIS

The aim of QGIS Processing Framework developed by Polymeris is to provide a generic framework for accessing existing geo-processing functionality of e.g. SAGA, GRASS, Orfeo Toolbox, etc. This should enable users to script their geo-processing work in python console and allow development of a tool to graphically build workflows using VisTrails an “open-source scientific workflow and provenance management system”.

For a first impression, Polymeris has published some screenshots of QGIS with SAGA modules loaded: [1],[2]

This project is big and if it turns out well, QGIS will profit enormously from it. Both scriptable geoprocessing functionality and a graphic workflow builder can improve user experience a lot if they are implemented well. You can follow further development on the project homepage on GitHub.

Converting MXD to QGIS Project File

By
2011-05-27
GIS, QGIS
5 Comments

On Wednesday, Allan Maungu announced MXD2QGS, a converter that exports layers from an Arcmap 10 document into a Quantum GIS project file. The tool is built as an ArcToolbox and can be downloaded from the blog.

I’d be very interested to hear whether this tool works for you.

Fast SQL Layer for QGIS

By
2011-05-25
GIS, PostgreSQL, QGIS, SpatiaLite
5 Comments

For everyone working with spatial databases in QGIS there comes a time when “Add PostGIS/SpatiaLite Layer” and “RT Sql Layer” start to be annoying. You always have to retype or copy-paste your SQL queries into the user interface if you need to change the tiniest thing in the layer’s definition.

This is where “Fast SQL Layer” can be a real time saver. Fast SQL Layer is a new plugin for QGIS by Pablo T. Carreira. It basically adds an SQL console for loading layers from PostGIS/SpatiaLite into QGIS. And it even comes with syntax highlighting!

Installation

Fast SQL Layer comes with one dependency: Pygments, which is used for syntax highlighting.

On Ubuntu, all you have to do is install it with apt-get:

sudo apt-get install python-pygments

For Windows with OSGeo4W, @Mike_Toews posted this on gis.stackexchange:

I downloaded and extracted Pygments-1.4.tar.gz, then in an OSGeo4W shell within the Pygments-1.4 directory, type python setup.py build then python setup.py install

Usage

When you activate the plugin in plugin manager, a dock widget will appear which contains the console and some fields for specifying the database connection that should be used. Then, you can simply write your SQL query and load the results with one click.

Fast SQL plugin

In this example, I renamed “gid” to “id”, but you can actually edit the values in the drop down boxes to adjust the column names for id and geometry:

A second layer loaded using Fast SQL plugin

It certainly needs some polishing on the user interface side but I really like it.

Catchment Areas with pgRouting driving_distance()

By
2011-05-13
GIS, PostGIS, QGIS
7 Comments

In a previous post, I’ve described how to create catchment areas with pgRouting shortest_path() function. The solution described there calculates costs from the starting node (aka vertex) to all other nodes in the network. Depending on the network size, this can take a long time. Especially, if you are only interested in relatively small catchment areas (e.g. 50 km around a node in a network covering 10,000 km) there is a lot of unnecessary calculation going on. This is where you might want to use driving_distance() instead.

Driving_distance() offers a parameter for maximum distance/cost and will stop calculations when the costs exceed this limit. But let’s start at the beginning: installing the necessary functions.

Installation

If you have followed my guide to installing pgRouting, you already have some routing functions installed – but not driving_distance(). Weirdly, the necessary SQL scripts are not shipped with the .zip file available on pgRouting’s download page. You need:

routing_dd.sql
routing_dd_wrappers.sql

Both are available through the project repository at Github. Get them and execute them in your pgRouting-enabled database. Now, you should be ready.

Calculating driving distances

To calculate driving distances, we need a query very similar to shortest_path():

CREATE OR REPLACE FUNCTION driving_distance(
sql text,
source_id integer,
distance float8,
directed boolean,
has_reverse_cost boolean)
RETURNS SETOF path_result

The only new value is “distance”. That’s the maximum distance/cost you want to be contained in the result set. “distance” has to be specified in the same units as the cost attribute (which is specified in the “sql” text parameter).

Note: In my opinion, the name “(driving) distance” is misleading. While you can use distance as a cost attribute, you’re not limited to distances. You can use any cost attribute you like, e.g. travel time, fuel consumption, co2 emissions, …

The actual query for a catchment area of 100 km around node # 2000 looks like this:

SELECT * FROM driving_distance('
      SELECT gid AS id,
          start_id::int4 AS source,
          end_id::int4 AS target,
          shape_leng::float8 AS cost
      FROM network',
      2000,
      100000,
      false,
      false)

Interpreting the result

These are the first lines of the result set:

vertex_id;edge_id;cost
294;7262;97400.433506144
297;7236;98012.620979231
335;1095;96849.456306244
347;7263;93617.693852324
364;7098;93573.849081386
366;2551;92702.443434779
378;7263;91994.328368081

The cost attribute contains the total cost of travel from the starting node to the vertex_id node.
We will only be using vertex_id and cost. The use of edge_id is a mystery to me.

Visualizing the result

The easiest way to visualize driving_distance() results is using RT Sql Layer plugin. We need to join the results of driving_distance() with the table containing node geometries:

SELECT *
   FROM node
   JOIN
   (SELECT * FROM driving_distance('
      SELECT gid AS id,
          start_id::int4 AS source,
          end_id::int4 AS target,
          shape_leng::float8 AS cost
      FROM network',
      2000,
      100000,
      false,
      false)) AS route
   ON
   node.id = route.vertex_id

If you color the nodes based on the cost attribute, it will look something like this:

result of pgRouting driving_distance() visualized in QGIS

Google Summer of Code 2011 – Accepted Projects

By
2011-04-26
GeoServer, GIS, GRASS, Mapserver, QGIS

This year, three QGIS projects made it into Google Summer of Code. Congratulations to all successful students!

These are the accepted OSGEO projects:

QGIS

GRASS

  • GRASS WXGUI WMS service rendering
  • Completion of wxGUI Nviz extension for 3D data visualization in GRASS GIS
  • r.in.modis for GRASS GIS
  • Graphical User Interface for the hydrological tools r.stream* in GRASS GIS

pgRouting

  • Multi-modal public transit routing for pgRouting
  • Time Dependent \ Dynamic Shortest Path Algorithm Implementation for pgRouting

gvSIG

  • Add support to vector data formats for gvSIG Mini
  • Design and implement an API for tiled vectorial support of geo-location data services for gvSIG Mini
    Integration of GGL2 into gvSIG

Opticks

  • Development of a ship detection and classification toolkit for SAR imagery in Opticks
  • Astronomical processing tools for Opticks
  • Photography processing tools for Opticks

Geoserver

  • Enhancing Geoserver Authentication

uDig

  • Catalog View of uDig
  • OSM data mining and editing capabilities in uDig and Geotools

MapServer

  • INSPIRE View Service for MapServer

Others

  • Geoprocessing with Neo4j Spatial
  • PyOSSIM: Python bindings for OSSIM libraries

For a full list including student names check http://www.google-melange.com/gsoc/org/google/gsoc2011/osgeo.

QGIS Tutorial: Raster-based Terrain Analysis Plugin

By
2011-04-22
GIS, QGIS

Gistutor.com features a nice tutorial covering raster-based terrain analysis techniques with QGIS and “Raster based terrain analysis” plugin.

Topics covered include: slope analysis, aspect analysis, ruggedness index analysis, total curvature analysis, and shaded relief.

Kudos to Mapperz on gis.stackexchange.com for the pointer.

QGIS Video Tutorials

By
2011-03-29
QGIS

QGIS wiki now has it’s own section listing QGIS video tutorials.
If you know of any tutorials not listed yet, leave a comment and I’ll add them.

Together with the newly started “How to I do that in QGIS” tutorial collection, this will hopefully become the number one reference for both new users doing their first GIS-related work and advanced uses interested in the latest QGIS features.

How to Label Only Selected Features in QGIS

By
2011-03-11
GIS, QGIS
4 Comments

Please read the updated version for QGIS 2.8 and up!

The aim of this post is to describe a method for labeling of a subset of features within a layer using new labeling functionality.

The problem

Often, we want to label only a few features in a layer. Of course we can export those features to a new layer and label them that way, but that requires creation of additional files and layers within your project. Things will start to get messy fast.

Another approach is to delete unwanted label texts from the attribute table. This either means that you have to duplicate a “name” attribute and then start deleting from the newly created attribute table column or that you actually delete values in the original column. Both approaches are problematic. Either you produce redundancy that gets difficult to maintain (two attributes have to be updated if the name of a feature changes) or you loose information from the attribute table.

The suggested solution

Let me present a different approach using new labeling tools. The idea is based on moving unwanted labels out of view. This approach avoids duplication of features and duplication/deletion of label texts. And this is the workflow:

  1. Select the features you want to label
  2. Open attribute table
  3. If you don’t have label attributes ready yet: Add two type “real” columns called e.g. “label_x” and “label_y”
  4. Invert the selection (3rd button in attribute table window)
  5. Open field calculator and fill “label_x” and “label_y” fields of the selected features with 0 values (or any coordinates outside your map extent)
  6. Close field calculator and attribute table
  7. Save your edits
  8. Open the labeling dialog and set “data defined settings” – “x coordinate” and “y coordinate”
  9. Enable “Label this layer” and specify the label field
  10. Done

If you change your mind about a feature and want to label it later on: Simply delete the values in “label_x” and “label_y” fields (so they read NULL).

This works quite well for me but I’m aware that it’s still not optimal. Another “data defined setting” like “show this label (true/false)” would be more intuitive.

Have you found better solutions to this problem? Please, post them!