Dear All,
we are proud to announce that GeoSolutions will be present at the INSPIRE Helsinki 2019 Event which will be held in Helsinki from 22nd to 24th of October 2019.
If you are interested in learning about how we can help you achieving your goals with our Open Source products and professional services, make sure to visit us and talk to Nuno, he is a nice guy :).
Since porting the Maestro API over to target .net standard and making the library truly cross-platform, the SDK story of the Maestro API was left in an somewhat undefined state. If you wanted to use the Maestro API for your own applications, where do you start?
For many milestones since that migration, I have intentionally side-stepped from answering that question until now. For the next milestone of MapGuide Maestro we'll be re-activating the Maestro SDK story in the form of a separate repository that contains:
Various code samples using the Maestro API
Source code template for the "Local Native" connection provider that wraps the official MapGuide .net API with instructions on how to roll your own build of this provider
So as a result, I've been re-vamping some of the code samples, especially usage in your own web applications. The last time I touched this code, it was all ASP.net Web Forms, not exactly a shining example of how best to use the Maestro API in your own web application in our current year.
Obviously, this means we need code samples that demonstrate usage of the Maestro API in ASP.net core. So in the process of building this modern code sample, I found some interesting challenges.
Firstly, an ASP.net core application runs on its own webserver (Kestrel or IIS express). Our mapagent and built-in viewers are hosted on Apache or your local IIS. Even though in development they would both be on localhost, the web servers listen on different ports, meaning the same-origin policy is in play, complicating integration.
After some deliberation, I've decided that rather than try to embed the existing AJAX viewer in an iframe (which is what the old webforms sample did), I'll eat my own dogfood and just use the mapguide-react-layout as the viewer for the new asp.net core sample and set it up to talk to the existing mapagent of your MapGuide installation. This approach requires enabling CORS to make the mapagent accessible from a different origin. I figured out how this is actually done, which I'll show you in another blog post.
So with this main challenge addressed, I launched the work-in-progress asp.net core sample with the mapguide-react-layout viewer, and I get this problem.
For some context, this code sample does the following:
Create a new session id
Create a new web layout on-the-fly that sets up the task pane to point to our custom landing page of code samples
Save this web layout into a session repository and then render the MVC view instructing the embedded mapguide-react-layout viewer to load from this weblayout and session id
It turns out that mapguide-react-layout misinterpreted this initial state and tries to load the viewer as though the user manually refreshed the browser (the URL state recovery feature introduced in 0.11) and assumes that a runtime map already exists
This was clearly a bug and since I needed this viewer to behave properly in the context of a new code sample for a re-activated SDK story for the next milestone release of MapGuide Maestro, this has been the longest block of text to segue into ...
... Announcing a new bugfix release of mapguide-react-layout :)
Today, at the Spatial Data Science Conference, we presented the recently launched Data Observatory 2.0 (DO). A new platform to discover and consume location data for spatia...
Quero convidá-los a participarem do Curso Online de GeoServer que estarei ministrando pela GEOCURSOS. O objetivo do curso é que você aprenda a disponibilizar, compartilhar e editar dados geográficos na internet com o GeoServer.
No curso serão abordados tópicos como: configuração de dados, criação de estilo com SLD, padrões OGC, interface administrativa (web), visualização cartográfica com OpenLayers, REST API, Segurança, entre outros.
O curso ocorrerá entre os dias 03 e 12 de dezembro (terças, quartas e quintas) das 20:00 as 22:00 (horário de Brasília).
Aqueles que poderem divulgar para seus contatos, agradeço. Quem quiser saber mais informações sobre o curso, pode obtê-las nos seguintes links:
Global maps based on OpenStreetMap in WGS84 map projection are available on MapTiler Cloud via maps API. This complements the already existing maps in Web Mercator projection, which is de-facto the industry standard.
Why there are so many map projections?
Earth is not flat. Therefore, we need to mathematically solve the issue of projecting a globe into 2D space. It is possible to do in many ways, but all solutions, which are called map projections, have pros and cons.
Over time, Web Mercator become de-facto the industry standard. However, like any other map projections, it also has downsides: the most visible one is the distortion of sizes. Areas near poles are displayed much bigger while equatorial zone appears much smaller than in reality.
Various local/national coordinate systems were created because many maps were historically showing only limited territory. Therefore, they use projection which fits best to a specific territory. Local coordinate systems are still used by governments and required for official maps.
To fulfill specific needs, MapTiler Cloud is now adding base maps derived from OpenStreetMap in alternative coordinate systems. Base maps are available in WGS84.
There is an OpenLayers 6 vector viewer code snippet, raster tiles rendered on-demand, WMTS service for use in desktop GIS software and static maps API.
Maps in Lambert, Rijksdriehoekstelsel and other national coordinate systems
The program of the 15th International gvSIG Conference is now available. It includes a a great number of presentations and several free workshops for both users and developers.
Conference will take place from November 6th to 8th at School of Engineering in Geodesy, Cartography and Surveying (Universitat Politècnica de València, Spain), and registrations have to be done from the form available at the event website.
Registration for workshops will be independent, and they will be able to be made from October 15th. All the workshops information will be published at gvSIG Blog soon.
El programa de las 15as Jornadas Internacionales gvSIG está ya disponible con una gran variedad de ponencias y varios talleres gratuitos, tanto para usuarios como para desarrolladores.
Las jornadas tendrán lugar del 6 al 8 de noviembre en la Escuela Técnica Superior de Ingeniería Geodésica, Cartográfica y Topográfica (Universitat Politècnica de València, España), y para poder asistir es necesario inscribirse previamente desde el formulario habilitado en la web del evento. Se recomienda no esperar al último momento, ya que las salas cuentan con un aforo limitado.
Para los talleres gratuitos se deberá realizar una inscripción independiente, que podrá realizarse a partir del día 15 de octubre. Toda la información relativa a los mismos la podréis encontrar en el blog de gvSIG.
Over the past few years, I’ve played around with developing ordered rivers networks for different projects. I am not an expert in hydrology, but I can get close for cartographic purposes. I am an expert; however, in asking for help from those who know best and I rely on a lot of very smart people to guide me on my journey.
The rivers vis project made me wonder if I could build this base dataset myself using some of the recently released elevation data sets via the LINZ Data Service. The short answer to my question is “sorta”. Doing it open source is not an issue, but building an accurate ordered river centerline network is another story. This is a task I cannot take on as a solo project right now, but I could do a little experimentation. Below, I’ll offer some of methods and things I learned along the way.
Tools and Data
The method I tested used TauDEM and a 1m DEM raster accessed from the LINZ Data Service. I down sampled the DEM to 2m and 5m resolutions and used small areas for testing. Finding and open source tool was easy. I sorted through a few available methods and finally landed on “Terrain Analysis Using Digital Elevation Models” (TauDEM). There are additional methods through GRASS and SAGA GIS. I chose TauDEM because I never used it before.
Method Tested
To my knowledge, there is no open source tool where a person can put in a DEM and get a networked rivers centerline vector out the other side. It requires a number of steps to achieve your goal.
The basic run down to process the DEM is to:
Fill sinks
Determine flow directions
Determine watersheds
Determine flow accumulation
Stream classification
Export to vector
TauDEM does require a few extra steps to complete the process, but these steps are explained in the documentation of the tool. It was more about keeping all my variables in the right places and using them at the right time. I recommend using the variable names TauDEM provides.
Click the arrow to the left to view the full BASH script below:
#!bin/bash
#Rough sketch for building river centerlines. Rasters have been clipped prior
BASEPATH=/dir/path/to/base
raster_list=$( find $BASEPATH -name "*.tif" )
taudem_outputs=/dir/path/to/outputs
reso=resolution_number
for i in $raster_list
do
The script is a rough sketch, but does get results.
Challenges in the Process
One major challenge for this project was the size of the input DEM and my computers available RAM. I work primarily off a laptop. It’s a good machine but no match for a proper server set up with some spacious RAM. My laptop struggled with the large hi-resolution DEMs, so I needed to down-sample the images and choose a smaller test area to get it to work.
Clip the tiff with gdal_translate -projwin and down sample with -tr
The second challenge came up because I used a bounding box to clip my test regions. I recommend not doing this and instead clip your regions using a watershed boundary. Having square shapes for your test regions will give you very inaccurate and unhelpful results. For example, major channels in your DEM will be cut at the edges of your raster. You will not get accurate results.
Clipping a raster using a shapefile, like a watershed boundary, can be achieved using gdalwarp.
gdalwarp –cutline input.shp input.tif output.tif
Results
I ran my process and QCed the results against Aerial Imagery and a hillshade I developed from the DEM. The first run gave me good enough results to know I have a lot of work to do, but I did manage to develop a process I was happy with. The tool did a great job, but the accuracy of the DEM was a little more challenging. It’s a start. I captured a good number of river channels despite my incorrect usage of a square DEM, learned a lot about how DEM resolution affects outputs, and gained knowledge around how to spot troublesome artifacts.
Img 1: River capture in well defined channel.
From this experiment, there are a few ideas I’d like to explore further:
1. Accuracy of the DEM. The particular DEM I worked with had a number of ‘dams’ in the flows. Notably, bridges, culverts, vegetation artifacts, and other general errors that caused water to flow in interesting directions. When working with a data set like this, I am curious how manage these artifacts.
Img 1: River diversion at road.
Img 1: River diversion at culvert or bridge.
2. How to go beyond borders. This analysis can be broken down by watershed, but it will be necessary to link the outflows of those watersheds to the next for accurate results.
Img 1: Flow not captured at edge.
3. As DEMs are released with better resolution, there is a need for scaled up computing power. The process needs a large amount of RAM. What is the best computational set up for capturing the largest area?
4. Did I do this correctly? I perform this task about once every two years and usually weekends when the surf is flat and the garden is weeded, so I am not an expert. There is a lot more research to be done to determine if I am using the tools to the best of their abilities.
Data is an essential ingredient for spatial analysis—which is predicated on access to your own data, plus useful third-party data. In the end, spatial analysis is about put...
Today, perhaps more than ever before, people are on the move. Transitioning between roles as consumers, parents, employees, tourists, and more means making a lot of stops i...
QGIS-versioning is a QGIS and PostGIS plugin dedicated to data versioning and history management. It supports :
Keeping full table history with all modifications
Transparent access to current data
Versioning tables with branches
Work offline
Work on a data subset
Conflict management with a GUI
QGIS versioning conflict management
In a previous blog article we detailed how QGIS versioning can manage data history, branches, and work offline with PostGIS-stored data and QGIS. We recently added foreign key support to QGIS versioning so you can now historize any complex database schema.
When a user decides to historize its PostgreSQL database with QGIS-versioning, the plugin alters the existing database schema and adds new fields in order to track down the different versions of a single table row. Every access to these versioned tables are subsequently made through updatable views in order to automatically fill in the new versioning fields.
Up to now, it was not possible to deal with primary keys and foreign keys : the original tables had to be constraints-free. This limitation has been lifted thanks to this contribution.
To make it simple, the solution is to remove all constraints from the original database and transform them into a set of SQL check triggers installed on the working copy databases (SQLite or PostgreSQL). As verifications are made on the client side, it’s impossible to propagate invalid modifications on your base server when you “commit” updates.
Behind the curtains
When you choose to historize an existing database, a few fields are added to the existing table. Among these fields, versioning_ididentifies one specific version of a row. For one existing row, there are several versions of this row, each with a different versioning_id but with the same original primary key field. As a consequence, that field cannot satisfy the unique constraint, so it cannot be a key, therefore no foreign key neither.
We therefore have to drop the primary key and foreign key constraints when historizing the table. Before removing them, constraints definitions are stored in a dedicated table so that these constraints can be checked later.
When the user checks out a specific table on a specific branch, QGIS-versioning uses that constraint table to build constraint checking triggers in the working copy. The way constraints are built depends on the checkout type (you can checkout in a SQLite file, in the master PostgreSQL database or in another PostgreSQL database).
What do we check ?
That’s where the fun begins ! The first thing we have to check is key uniqueness or foreign key referencing an existing key on insert or update. Remember that there are no primary key and foreign key anymore, we dropped them when activating historization. We keep the term for better understanding.
You also have to deal with deleting or updating a referenced row and the different ways of propagating the modification : cascade, set default, set null, or simply failure, as explained in PostgreSQL Foreign keys documentation .
Nevermind all that, this problem has been solved for you and everything is done automatically in QGIS-versioning. Before you ask, yes foreign keys spanning on multiple fields are also supported.
What’s new in QGIS ?
You will get a new message you probably already know about, when you try to make an invalid modification committing your changes to the master database
Error when foreign key constraint is violated
Partial checkout
One existing Qgis-versioning feature is partial checkout. It allows a user to select a subset of data to checkout in its working copy. It avoids downloading gigabytes of data you do not care about. You can, for instance, checkout features within a given spatial extent.
So far, so good. But if you have only a part of your data, you cannot ensure that modifying a data field as primary key will keep uniqueness. In this particular case, QGIS-versioning will trigger errors on commit, pointing out the invalid rows you have to modify so the unique constraint remains valid.
Error when committing non unique key after a partial checkout
Tests
There is a lot to check when you intend to replace the existing constraint system with your own constraint system based on triggers. In order to ensure QGIS-Versioning stability and reliability, we put some special effort on building a test set that cover all use cases and possible exceptions.
What’s next
There is now no known limitations on using QGIS-versioning on any of your database. If you think about a missing feature or just want to know more about QGIS and QGIS-versioning, feel free to contact us at infos+data@oslandia.com. And please have a look at our support offering for QGIS.
Many thanks to eHealth Africa who helped us develop these new features. eHealth Africa is a non-governmental organization based in Nigeria. Their mission is to build stronger health systems through the design and implementation of data-driven solutions.
The survey is available in English, Spanish, Portuguese, French, Ukrainian, and Indonesian. If you want to help us translate user questions into more languages, please get in touch on the community mailing list!
FOSS4GUK (https://uk.osgeo.org/foss4guk2019/) came and went a week or so ago, in Edinburgh, and to my mind it was a game-changer for our UK events. This is not going to be a detailed post about how great it was (yes it was great), and how good the venue was (also great), but a reflection on how it was different.
For one, there were 250 attendees, which is a step up from previous events.
Ontem, por volta das 22h Tim Schaub anunciou no GitHub do OpenLayers que a tão aguardada (pelo menos por mim) versão 6.0 está disponível oficialmente. Foram mais de 1.780 commits e 540 pull requests desde a versão 5.3.
Dentre as novidades, um recurso importante nesta versão é a capacidade de compor camadas com diferentes tipos de renderizador. Anteriormente, o mapa usava uma única estratégia de renderização, e todas as camadas do seu mapa tinham que implementar essa estratégia.
Agora é possível ter um mapa com camadas que usam diferentes tecnologias de renderização. Isso possibilita, por exemplo, que a camada Canvas (2D) seja composta junto com uma camada baseada em WebGL no mesmo mapa. Também é possível criar camadas com renderizadores personalizados. Portanto, você pode ter um mapa que use outra biblioteca (como d3) para renderizar uma camada e usar o OpenLayers para renderizar as outras camadas.
Além disso, a versão 6.0 inclui várias melhorias na renderização de vector tiles e deve consumir um quantidade menor de memória em geral. A versão também inclui vários recursos experimentais que ainda não fazem parte da API estável, como um novo renderizador baseado em WebGL e a função experimental useGeographic().
Esta versão inclui várias alterações incompatíveis com versões anteriores. Desta forma é importante ler as notas do release para verificar o que mudou a partir da versão 5.3.
The 3rd annual Spatial Data Science Conference is just three weeks away and we couldn’t be more excited. Being held at Columbia University, this year’s iteration of the for...
Tips about the Semi-Automatic Classification Plugin for QGIS
Processing satellite images requires a large amount of disk space for temporary files (required for processing but deleted afterward). In case your system disk has low space available, you can change the SCP temporary directory to a different location with large disk space available.
For any comment or question, join the Facebook group about the Semi-Automatic Classification Plugin.
Did you know that MapGuide uses CS-Map, a coordinate system transformation library with support for many thousands of coordinate systems out of the box? No matter how esoteric the map projection your data is in, MapGuide can re-project geospatial data in and out of it thanks to this library.
So it is quite a shame that for the longest time, MapGuide's powerful coordinate system transformation capabilities has zero representation in any part of the mapagent (the HTTP API provided by MapGuide).
To use MgCooordinateSystem and friends (the classes that wrap the CS-Map library) requires building a your own MapGuide application using the MapGuide Web API in one of our supported languages (.net, Java or PHP) and having your client application call into your own MapGuide application. There is nothing out of the box in the mapagent for a client map viewer application to do a basic HTTP request for transforming coordinates or requesting feature data to be transformed to a certain coordinate system.
For MapGuide 4.0, we've exposed the coordinate system transformation capabilities in APIs where it makes sense. Such as our SELECTFEATURES APIs for returning feature data. In my previous showcase post, I've shown how appending VERSION=4.0.0 and CLEAN=1 now gives you an intuitive GeoJSON result for this API.
The coordinates are based on the coordinate system of the data source it comes from. In the above screenshot, this is latitude/longitudes (code: LL84, epsg: 4326).
Suppose you want this data in web mercator (code: WGS84.PseudoMercator, epsg: 3857) so you can easily plonk this GeoJSON onto a slippy map with OpenStreetMap or your own XYZ tiles, which would also be in web mercator. With MapGuide 4.0, you can now also include a TRANSFORMTO=WGS84.PseudoMercator parameter to your HTTP request and that GeoJSON data will be transformed to web mercator.
The other major capability gap is that the mapagent offers no API over the mapagent for transforming a series of coordinates from one coordinate system to another. For MapGuide 4.0, there's now a dedicated API for doing this: The CS.TRANSFORMCOORDINATES operation.
With this operation, simply feed it:
A comma-separated list of space-separated coordinate pairs (COORDINATES)
The CS-Map code of the source coordinate system the above coordinates are in (SOURCE)
The CS-Map code of the target coordinate system to transform to (TARGET)
Your desired output format of JSON or XML (FORMAT)
Invoking the operation will give you back a collection of transformed coordinates.
A place where this new API is sorely needed is MapGuide Maestro, which previously required kludgy workarounds for transforming bounding boxes in Map Definitions (when adding layers in different coordinate systems, or re-computing extents):
Tapping into the MgCoordinateSystem APIs of the local connection mode (if available)
Using an alternate library for transformation with less reliability due to smaller range of supported coordinate systems.
The next milestone of MapGuide Maestro will now take advantage of this new API for transformation when connected to a MapGuide 4.0 or newer server.
As we round the corner into the latter half of 2019, the retail apocalypse continues. Business Insider is projecting more than 8,000 store closures in 2019, with major bran...
Getting your data connected is usually the first step in working with the CARTO platform. That data might be in files, databases, URLs, services, etc. The options are numer...
La componente geográfica es cada vez más reconocida como un atributo fundamental de la información. La realidad se expresa en el territorio. Herramientas que nos permitan gestionar el territorio nos permitirán gestionar mejor la realidad.
“Un sistema de información geográfica (SIG) es un conjunto de herramientas que integra y relaciona diversos componentes (usuarios, hardware, software, procesos) que permiten la organización, almacenamiento, manipulación, análisis y modelización de grandes cantidades de datos procedentes del mundo real que están vinculados a una referencia espacial, facilitando la incorporación de aspectos sociales-culturales, económicos y ambientales que conducen a la toma de decisiones de una manera más eficaz.
En el sentido más estricto, es cualquier sistema de información capaz de integrar, almacenar, editar, analizar, compartir y mostrar la información geográficamente referenciada. En un sentido más genérico, los SIG son herramientas que permiten a los usuarios crear consultas interactivas, analizar la información espacial, editar datos, mapas y presentar los resultados de todas estas operaciones.” (Wikipedia)
No todos los ingenieros utilizan SIG, pero es una herramienta cada vez más útil para más tipos de proyectos. Realiza alguno de estos cursos online gratuitos y mejora tus competencias. Empieza hoy mismo a formarte con gvSIG. ¡Vamos allá!
This is a maintenance release recommended for production. This release is made in conjunction with GeoTools 21.3 and GeoWebCache 1.15.3. Thanks to everyone who contributed to this release.
GeoTools 21.3 released
The GeoTools team is happy to announce the release of GeoTools 21.3:
geotools-21.3-bin.zip
geotools-21.3-doc.zip
geotools-21.3-project.zip
geotools-21.3-userguide.zip
maven repository
This release is a stable release and is recommend for new development and production systems.
This release is made in conjunction with GeoServer 2.15.3.
Improvements
XS DateTime
So in my previous post, it turns out I had mis-configured the tile grid property of the OL vector tile source in this example, namely the tile size. Is it not the default 256x256, but 4096x4096.
Once I fixed the tile size, everything beautifully snaps into place!
Del 1 al 3 del próximo mes de octubre, Feria Valencia acoge una nueva cita de Ecofira y Efiaqua, dos certámenes de referencia en torno a la gestión sostenible y el medio ambiente que este año ponen el foco en los servicios urbanos y la eficiencia tecnológica. En este sentido, desde ambas ferias han propuesta una completa agenda de conferencias y actividades. Así, la agenda de Ecofira abordará aspectos como la economía circular, el cambio climático o los avances tecnológicos para las ciudades inteligentes. Por su parte, Efiaqua ha programado una ambiciosa agenda en torno a las directivas y gobernanza del agua, la gestión sostenible del agua en el municipio o la digitalización en el sector. Además, junto a ambos eventos, también se celebrará Iberflora, el gran evento profesional del sector verde en Europa y referente entre las ferias de jardinería.
Durante el evento, en la zona showcasing, la Asociación gvSIG estará presente en el stand de AVAESEN, donde se podrá consultar cualquier duda sobre las soluciones gvSIG y ver demostraciones referentes al uso de los Sistemas de Información Geográfica en la gestión municipal y su importancia en las denominadas Ciudades Inteligentes o Smart Cities. Geomática libre al servicio de todos.
we are putting together in this post all presentations that were given by our staff during this year FOSS4G in Bucharest, Romania.
Here is the complete list. Enjoy!
State of GeoServer 2019GeoServer feature frenzyGeoServer WFS3: introduction to the RESTful, schemaless, JSON first download serviceCreating Stunning Maps in GeoServer, with SLD, CSS, YSLD and MBStylesStanding up a OSM clone with GeoServer and CSS Crunching Data In GeoServer : Mastering Rendering Transformations, WPS Processes And SQL Views.Mapping the world beyond Web MercatorUsing the OGC Web Processing Service (WPS) to move business logic to the serverState of JAIIntroduction to MapStore, mashups made simpleOne Geonode, many GeonodesState of GeoNode
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The latest PDAL release (Point Data Abstraction Library, http://www.pdal.io/, version 2.0.1) has now been packaged for Fedora Linux.
I have cleaned up the dependencies (also the annoying former installation bug with PDAL-devel has been resolved).
The installation is as simple as this (the repository is located at Fedora’s COPR):
# enable and install PDAL
sudo dnf copr enable neteler/pdal
sudo dnf install PDAL PDAL-libs PDAL-vdatums
# if you want to compile other software like GRASS GIS with PDAL support, then you also need
sudo dnf install PDAL-devel
# Now, run PDAL:
pdal-config --version
pdal --help
If you've ever worked with the HTTP-based mapagent API, you should be aware that most of the APIs responses in the mapagent generally come back in 2 forms:
XML
JSON
However, if you ever look at the JSON responses, you'll be accustomed to dealing with ugly monstrosities like this (eg. A JSON version of a Layer Definition):
Or heaven forbid, you want to explore the structure of a Feature Source and so you need the JSON version of a FDO feature schema:
Good luck trying to parse and comprehend that!
Why is the JSON so horrible? The answer is XML is the canonical response format for all non-image/binary mapagent operations (MapGuide Open Source's inception was in 2004 after all, when XML was king and JSON probably didn't exist yet), so the JSON version is a literal translation of whatever its XML form would be. While there is nothing wrong with that, the way this JSON translation was done is the most lowest-common-denominator approach:
Treat every XML element as a JSON array.
Treat every XML element text body as a JSON string.
As a result, as evidenced by the above screenshots that means that all JSON responses are nothing but a series of JSON arrays (of possible more JSON arrays) of strings.
But there is a reason for such laziness. The JSON translation knows nothing about the content model of whatever XML it's trying to translate, so it really has no choice in the matter. Such content models are defined in the various XML schemas that are shipped with MapGuide. But working with XML schemas in C++ sounds like a nightmare in and of itself, so there is another way to determine the content model: Just manually hard-code the list of all possible XML xpaths that are:
Repeating (ie. Should be converted to actual JSON arrays)
Not a string
Using the existing XML schemas as the reference, this list only required a one-off painstaking translation of this xpath list. The end result isn't exactly pretty, but it gets the job done. With this hard-coded list now in our JSON converter, it means we now have the means to output JSON that is much easier to comprehend and intuitive!
For MGOS 4.0, for any mapagent operation that returns JSON, if you specify VERSION=4.0.0 and CLEAN=1 in the request parameters you will now get a JSON format that actually makes sense!
Now for some mapagent operations, finally having a "clean" JSON version still isn't enough because the clean JSON response is still mostly clunky and unusable. Consider the FDO feature schema example. The original JSON version is an unworkable monstrosity, and the "clean" version would've just been lipstick on a pig because at the end of the day, it is still a literal JSON translation of an XML schema!
So as a result, for this set of APIs, a new simpler XML response format is introduced for schema and class definitions by including SIMPLE=1 to your VERSION=4.0.0 request:
From which its JSON equivalent (I hope you'll agree) is much more easier to comprehend!
There is another class of operations that have received a similar treatment. Operations that return geometric/feature data. Consider the XML form of selecting features (the ugly schema section collapsed for brevity):
This is what the "ugly" JSON version would've looked like (schema parts again collapsed for brevity).
Even if we prettied this up with content-model-aware conversion, the JSON is still mostly unremarkable. Because, if we're serving JSON feature data out to clients, then there's really only one format we should care about supporting:
GeoJSON is the de-facto format for serving out JSON-based feature data, and is universally supported by any mapping/GIS product/tool/library/viewer worth a damn, so if we have the opportunity for MapGuide to return clean JSON data for geometries/features, forget about the literal conversion from XML approach! Just go ahead and make GeoJSON output a first-class citizen
So for MGOS 4.0, if you run any mapagent operation that returns geometry/feature data and you ask for VERSION=4.0.0 and CLEAN=1 you will now get GeoJSON!
Which (due to GeoJSON's ubiquity) can be plugged directly into your web mapping library of choice for display if you so choose.
If you are building your own server-side MapGuide applications with the MapGuide Web API, there's a new MgGeoJsonWriter class is available for you to convert MgFeatureReaders to GeoJSON data.
With MapGuide Open Source 4.0, JSON support is no longer an afterthought, it's actually usable!
Recently I was looking at improving the performance of rendering a Space Syntax OpenMapping layer in MapServer. The openmapping_gb_v1 table is in a PostGIS database with an index on the geometry column. The original MapServer DATA configuration looked like this:
DATA "wkb_geometry from (select meridian_class_scale * 10 as line_width, * from openmapping …
Tips about the Semi-Automatic Classification Plugin for QGIS
Activating the Classification preview pointer you can display a preview with a left click on the image. Also, with a right click you can display the Algorithm raster that represents the minimum spectral distance (calculated by the algorithm) of a pixel signature to any training spectral signature. Dark pixels are more distant to any spectral signature and possibly a new ROI should be collected for these pixels.
For any comment or question, join the Facebook group about the Semi-Automatic Classification Plugin.
We are happy to announce the release of GeoServer 2.16.0. Downloads are available (zip and war) along with docs and extensions.
This is a GeoServer release candidate made in conjunction with GeoTools 22.0.
Faster map rendering of complex styles
If you have very complex styles, with lots of rules and complex filtering conditions you’ll be pleased to hear that GeoServer 2.16.x can locate the right symbolizer much quicker than previous versions. This is useful, for example, in the GeoServer home page demo map, rendered from OSM data using a OSM Bright clone built with the CSS module.
The GeoSolutions offices in Massarosa (Viareggio), Italy, in the geoserver.org demo map
Dynamic densification on reprojection
GeoServer has always reprojected data “point by point”, this typically caused long lines represented by just two points to be turn into straight lines, instead of curves, as they were supposed to.
In GeoServer there is a new “advanced projection handling” option in WMS enabling on the fly densification of data, the rendering engine computes how much deformation the projection applies in the area being rendered, and densifies the long lines before reprojection, resulting in eye pleasing curves in output. See a “before and after” comparison here:
Reprojection, original point by point versus densified mode in 2.16.x
EPSG database updated to v 9.6
Thanks to the sponsorship of GeoScience Australia the EPSG database has been updated to version 9.6, including roughly a thousand more codes than the previous version available in GeoServer. The code has also been updated to ensure the NTv2 grid shift files between GDA94 and GDA2020 work properly.
Complex GeoJSON output changes
GeoServer WFS can already output GeoJSON out of complex features data sources (app-schema). However, the output can be less than pleasing at times, the following improvements have been made:
The property/element alternation typical of GML is preserved, causing deeply nested and ugly to look structures. Not everyone loves to write a “container.x.x” access to reach the x value, with 2.16.x the output skips one of the containers and exposes a direct “container.x” structure
XML attributes are now turned into plain JSON properties, and prefixed with a “@”
Feature and data types are not lost anymore in translations, preserved by a “@feaureType” and “@dataType” attributes
Full nested features are encoded as GeoJSON again, keeping their identifiers
The Status Monitoring module has been promoted to core, and is now included in the GeoServer status page by default!
This module adds a new tab to the Server Status page, with system statistics so that you can monitor the system which GeoServer is running on from the Web GUI.
Authentication key module graduated to extension
The “Authkey” module has been graduated to extension, allowing security unaware applications to access GeoServer. Reminder, in order to keep the system secure the keys should be managed as temporary session tokens by an external application (e.g. MapStore can do this).
PostGIS data store improvements
The PostGIS data store sees a few improvements, including:
TWKB encoding for geometries for all WMS/WMTS requests, reducing the amount of data travelling from the database to GeoServer
The JDBC driver used to transfer all data as ASCII, the code was modified to allow full binary transfer when prepared statements are enabled (driver limitation, binary can only be enabled in that case)
SSL encryption control, the driver defaults to have it on with a significant overhead, if the communication is in a trusted network the encryption can be disabled with benefit to performance
Improved encoding of “or-ed” filters, which now use the “in” operator where possible, increasing the likeliness that an eventual index o nthat column will be used
Native KNN nearest search when using the “nearest” filter function
OGC/GDAL stores updated to GDAL 2.x
The OGR datastore as well as the GDAL image readers have been updated and now work against GDAL 2.x official binaries, without requiring custom builds any longer.
The OGR datastore can open any vector data source and, in particular, it can use the native FileGBD library when using Windows. It’s also interesting to note that it can open Spatialite files, quite important now that the direct Spatialite store is gone.
Azure GWC blobstore
Tiles can now be stored in Azure blob containers, increasing GWC compatibility with cloud environments, after the already existing S3 support.
A warning though, Azure does not provide, unlike S3, a mass blob delete API, so on truncate GWC will have to go and remove tiles making a DELETE request for each (using parallel requests of course).
SLDService community module graduated to extension
The SLDService community module allowed to generated classified maps of vector data based on criterias such as equal interval, quantiles and unique values.
The same module has now graduated to extension, providing also data filtering based on standard deviation, equal area classification, and offering all the same services on raster data as well (with automatic sub-sampling when the source image is too large).
For example, creating a five classes quantile classification based on states persons over a custom color ramp can be achieved using the following:
WMTS styling module, which adds the ability to get/put a style on a per layer basis using restful resources exposed as ResourceURL
OGC API module, including implementations of the new OGC Web APIs for Features, Tiles and Styles (more to come in the upcoming months). Mind, these are cool but also prototypes based on specifications still in draft form, we have warned you, the API will likely have a few rounds of changes still before it stabilizes.
MapML community module. See this video for step by step installation instructions.
Other assorted improvements
There are many improvements to look at in the 2.16.0 release notes, as well as in the 2.16-RC release notes. Cherry picking a few, we hav:
Integrated GWC fails to seed layers if any data security is configured
Default Datastore Parameters panel does not allow https:// protocol values
Parameter Extractor plugin cannot mangle URL correctly if Monitor plugin is installed
Permit extensibility of Common Formats from Layer Preview page
Update name to id in OGC API Collection
Add support for configuring ACL in gwc-s3 community module
Enhance mongodb schema generation
About GeoServer 2.16
GeoServer 2.16 has been first released in September 2019.
Img 1: River capture in well defined channel. 
Img 1: River diversion at road. 
Img 1: River diversion at culvert or bridge. 
Img 1: Flow not captured at edge. 
The GeoSolutions offices in Massarosa (Viareggio), Italy, in the geoserver.org demo map 
Reprojection, original point by point versus densified mode in 2.16.x
