TerraHS: Difference between revisions
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[[Category:Packages]] [[Category:Libraries]] [[Category:Graphics]] | |||
== What is it ? == | == What is it ? == | ||
[[Image:Logo terrahs.png]] is a software component that enables the development of geographical applications in a functional language, using the data handling capabilities of [http://www.terralib.org/ TerraLib]. TerraLib is a C++ library that supports different spatial database management systems, and that includes a large number of spatial algorithms. As a result, we get a combination of the good features of both programming paradigms. | [[Image:Logo terrahs.png]] is a software component that enables the development of geographical applications in a functional language, using the data handling capabilities and spatial operations of [http://www.terralib.org/ TerraLib]. TerraLib is a C++ library that supports different spatial database management systems, and that includes a large number of spatial algorithms. As a result, we get a combination of the good features of both programming paradigms. | ||
*[[ | *[[Why to use Haskell for GIS programming ? ]] | ||
== Features == | == Features == | ||
*'''Input and output formats:''' Layers or themes from TerraLib databases (just MySQL), Esri Shape File (*.shp), TIFF file. | *'''Input and output formats:''' Layers or themes from TerraLib databases (just MySQL), Esri Shape File (*.shp), TIFF file. | ||
| Line 16: | Line 15: | ||
*'''Metrical operations:''' perimeter, area, distance, centroid, shapeindex, compacity, fractal | *'''Metrical operations:''' perimeter, area, distance, centroid, shapeindex, compacity, fractal | ||
== Demos == | == Demos == | ||
Example of vector data that can be exported to a TerraLib database, and then it can be visualised with [http://www.dpi.inpe.br/terraview_eng/index.php TerraView]. | |||
[[Image:Terraview.png|TerraView]] | [[Image:Terraview.png|TerraView]] | ||
The pattern for a main program in TerraHS has the | The pattern for a main program in TerraHS has the following structure: | ||
<haskell> | <haskell> | ||
| Line 62: | Line 62: | ||
#ghci SpatialOper.hs | #ghci SpatialOper.hs | ||
</pre> | </pre> | ||
Printing some test values, e.g.: | |||
<pre> | <pre> | ||
| Line 94: | Line 94: | ||
We have developed some specific libraries to support some functionalities for TerraHS. | We have developed some specific libraries to support some functionalities for TerraHS. | ||
'''Translib''', a library for translation among different geographic format files (no database connection), based in the TerraLib library. This library is required for TerraHS to deal whith shape files (*.shp). '''Terralib4c''' is a library that maps c++ Terralib functions and classes to C functions. | *'''Translib''', a library for translation among different geographic format files (no database connection), based in the TerraLib library. This library is required for TerraHS to deal whith shape files (*.shp). | ||
*'''Terralib4c''' is a library that maps c++ Terralib functions and classes to C functions. | |||
Other requirements are: GHC-6.8.3(or newer version) and MySQL-5.0.41. | |||
=== Installation notes for Windows === | |||
First, is necessary to install MySQL 5.0, and optionaly TerraView: | |||
[[Image:Logo-win.png]][http://www.dpi.inpe.br/terraview/dow/terraView330.exe TerraView-3.3.0 for Windows] | |||
Other | Other libraries are available in: | ||
[[Image:Logo-win.png]][http://www.dpi.inpe.br/~scosta/softwares/terrahs/terrahsextlib.exe TerraHSdependecies install for Windows (TerraLIB+Terralib4C+Translib)] | |||
After that, download [http://www.dpi.inpe.br/~scosta/softwares/terrahs/terrahs-0.8.zip TerraHS] and unzip the archive. From a prompt, move into the created directory and run the following commands: | |||
runhaskell Setup configure --extra-lib-dirs: C:\TerraHSExtLibs | |||
runhaskell Setup build | |||
runhaskell Setup install | |||
The extra-lib-dirs depend of the path where was installed the TerraHSdependencies. | |||
=== Installation notes for Debian distributions === | === Installation notes for Debian distributions === | ||
| Line 104: | Line 122: | ||
For debian distributions, is possible to install they from debian packages: | For debian distributions, is possible to install they from debian packages: | ||
Ubuntu 9.04 (i386) | |||
[[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/ | [[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/terralib-3.3.0.deb TerraLib-3.3.0 for (Ubuntu 9.04 (i386))] | ||
[[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/terrahsdependecies-0.1.deb TerraHSdependecies (TerraLib4c | [[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/terraview-3.3.0.deb TerraView-3.3.0 for (Ubuntu 9.04 (i386))] | ||
[[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/terrahsdependecies-0.1.deb TerraHSdependecies (TerraLib4c + Translib) for Ubuntu 9.04 (i386)] | |||
The TerraLib4c and Translib can be downloaded in separated way: | The TerraLib4c and Translib can be downloaded in separated way: | ||
[[Image:Ubuntu-icon.png]][https://sourceforge.net/projects/translib/files/ | [[Image:Ubuntu-icon.png]][https://sourceforge.net/projects/translib/files/translib-0.1.deb/download Translib for Ubuntu 9.04 (i386)] | ||
[[Image:Ubuntu-icon.png]][https://sourceforge.net/projects/terralib4c/files/terralib4c-0.1.deb/download Terralib4c for Ubuntu 9.04 (i386)] | |||
Ubuntu 9.04 (amd64) | |||
[[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/terralib-3.3.0_64bits.deb TerraLib-3.3.0 for (Ubuntu 9.04 (amd_64))] | |||
[[Image:Ubuntu-icon.png]][http://www.dpi.inpe.br/~scosta/softwares/debian_packages/terrahsdependecies-0.1_64bits.deb TerraHSdependecies (TerraLib4c + Translib) for Ubuntu 9.04 (amd_64)] | |||
The installation procedure: | The installation procedure: | ||
| Line 128: | Line 155: | ||
runhaskell Setup configure | runhaskell Setup configure | ||
runhaskell Setup build | runhaskell Setup build | ||
runhaskell Setup install | sudo runhaskell Setup install | ||
It is done. | It is done. | ||
| Line 139: | Line 166: | ||
*[http://www.dpi.inpe.br/terraview_eng/index.php TerraView]. | *[http://www.dpi.inpe.br/terraview_eng/index.php TerraView]. | ||
TerraLib4c and Translib are available as usual source Linux package in: | |||
[[Image:Linux-icon.png]][https://sourceforge.net/projects/translib/files/translib-0.1.tar.gz/download Translib Source] | |||
[[Image:Linux-icon.png]][https://sourceforge.net/projects/terralib4c/files/Source/terralib4c-0.1.tar.gz/download TerraLib4c Source] | |||
The installation procedure: | The installation procedure: | ||
#tar xvzf package.tar.gz | #tar xvzf package.tar.gz | ||
| Line 177: | Line 183: | ||
#cd package | #cd package | ||
#sudo make uninstall | #sudo make uninstall | ||
The installation of TerraHS is the same of Debian distribution: | |||
runhaskell Setup configure | |||
runhaskell Setup build | |||
sudo runhaskell Setup install | |||
== Papers, thesis and Reports == | == Papers, thesis and Reports == | ||
Some papers and thesis that use TerraHS: | Some papers and thesis that use TerraHS: | ||
* Sérgio Costa, Gilberto Câmara, et.al. '''Prototyping GIS Application in Functional Programming'''. In: GeoPantanal, 2009, Corumbá. Anais do II Geopantanal, 2009. [http://www. | * Sérgio Costa, Gilberto Câmara, et.al. '''Prototyping GIS Application in Functional Programming'''. In: GeoPantanal, 2009, Corumbá. Anais do II Geopantanal, 2009. [http://www.geopantanal2009.cnptia.embrapa.br/cd/pdf/p23.pdf download] | ||
*Costa, S. S., Câmara, G., & Palomo, D. (2007). TerraHS: Integration of Functional Programming and Spatial Databases for GIS Application Development. (pp. 127-149).''' Advances in Geoinformatics'''. Springer. [http://www.springerlink.com/content/ur1266l1j371554h/ link] | *Costa, S. S., Câmara, G., & Palomo, D. (2007). TerraHS: Integration of Functional Programming and Spatial Databases for GIS Application Development. (pp. 127-149).''' Advances in Geoinformatics'''. Springer. [http://www.springerlink.com/content/ur1266l1j371554h/ link] | ||
Latest revision as of 22:49, 29 June 2021
What is it ?
is a software component that enables the development of geographical applications in a functional language, using the data handling capabilities and spatial operations of TerraLib. TerraLib is a C++ library that supports different spatial database management systems, and that includes a large number of spatial algorithms. As a result, we get a combination of the good features of both programming paradigms.
Features
- Input and output formats: Layers or themes from TerraLib databases (just MySQL), Esri Shape File (*.shp), TIFF file.
- Data types: Raster or image (just 8 bits), Vectors (Point, Line, Polygon and Cell), Temporal (DateTime, Interval)
- Topological operators: intersects, within, touches, crosses ...
- Geometric operations: intersection, union, difference, rotation.
- Metrical operations: perimeter, area, distance, centroid, shapeindex, compacity, fractal
Demos
Example of vector data that can be exported to a TerraLib database, and then it can be visualised with TerraView.
The pattern for a main program in TerraHS has the following structure:
module Main(main) where
import TerraHS
host = "localhost";
dbname = "demo_terrahs";
user = "root";
password = "root";
main:: IO()
main = do
-- loading a vector data from a shape file
gos <- loadVectorFile "MG_MUN96.shp"
-- open a connection
db <- open (TeMySQL host user password dbname)
-- saving in a database layer
store db "layer_name" gos
print "saved"Two different outcomes from a image data and theirs respective operations (a)input image, (b) inverted image and (c) reverse image.
The following examples use this data:
- Opening and saving shape file
- Opening a shape file and saving in database
- Opening and save tiff image files
- Simple spatial operations demo
- Understanding how to create a geoobject data type
- Opening a raster data from database
- Opening a tiff file and saving in database
- Loading geoobjects from a database and saving a shape file
Its possible to run in the ghci:
#ghci SpatialOper.hs
Printing some test values, e.g.:
Main> main Loading package syb ... linking ... done. Loading package base-3.0.3.0 ... linking ... done. Loading package terrahs-0.8 ... linking ... done. TePoint (12.5,10.0) TeLine2D [(1.0,1.0),(1.0,2.0),(1.0,7.0)] TePolygon [TeLine2D [(1.0,1.0),(1.0,2.0),(3.0,2.0),(3.0,1.0),(1.0,1.0)]] False True False 2.0
or compile and run:
#ghc SpatialOper.hs -package terrahs-0.8 -o main #main
More details about the api in source documentation - online (HTML)
Download and Installation
TerraHS is a Haskell GIS application built using the TerraLib GIS library. In below, is available a debian packages for TerraLib. TerraHS-0.8 uses the TerraLib-3.3.0 version.
Optional, but is recommended to install the TerraView application.TerraView is a GIS application based on TerraLib, a GIS library to handle vector and raster data in geographical DBMS such as Access, PostgreSQL, MySQL and Oracle Spatial.
We have developed some specific libraries to support some functionalities for TerraHS.
- Translib, a library for translation among different geographic format files (no database connection), based in the TerraLib library. This library is required for TerraHS to deal whith shape files (*.shp).
- Terralib4c is a library that maps c++ Terralib functions and classes to C functions.
Other requirements are: GHC-6.8.3(or newer version) and MySQL-5.0.41.
Installation notes for Windows
First, is necessary to install MySQL 5.0, and optionaly TerraView:
Other libraries are available in:
TerraHSdependecies install for Windows (TerraLIB+Terralib4C+Translib)
After that, download TerraHS and unzip the archive. From a prompt, move into the created directory and run the following commands:
runhaskell Setup configure --extra-lib-dirs: C:\TerraHSExtLibs runhaskell Setup build runhaskell Setup install
The extra-lib-dirs depend of the path where was installed the TerraHSdependencies.
Installation notes for Debian distributions
The MySQL is usualy available in the Linux package of your distribution, you just check if it already installed.
For debian distributions, is possible to install they from debian packages:
Ubuntu 9.04 (i386)
TerraLib-3.3.0 for (Ubuntu 9.04 (i386))
TerraView-3.3.0 for (Ubuntu 9.04 (i386))
TerraHSdependecies (TerraLib4c + Translib) for Ubuntu 9.04 (i386)
The TerraLib4c and Translib can be downloaded in separated way:
Translib for Ubuntu 9.04 (i386)
Terralib4c for Ubuntu 9.04 (i386)
Ubuntu 9.04 (amd64)
TerraLib-3.3.0 for (Ubuntu 9.04 (amd_64))
TerraHSdependecies (TerraLib4c + Translib) for Ubuntu 9.04 (amd_64)
The installation procedure:
#sudo dpkg -i package.deb
The uninstallation procedure:
#sudo dpkg -r package
After that, download TerraHS in cabal package from Hackage and unzip the archive. From a prompt, move into the created directory and run the following commands:
runhaskell Setup configure runhaskell Setup build sudo runhaskell Setup install
It is done.
Installation notes for generic Linux
The TerraLib and TerraView source files and instalation notes:
TerraLib4c and Translib are available as usual source Linux package in:
The installation procedure:
#tar xvzf package.tar.gz #cd package #./configure #make #sudo make install
The uninstallation procedure:
#cd package #sudo make uninstall
The installation of TerraHS is the same of Debian distribution:
runhaskell Setup configure runhaskell Setup build sudo runhaskell Setup install
Papers, thesis and Reports
Some papers and thesis that use TerraHS:
- Sérgio Costa, Gilberto Câmara, et.al. Prototyping GIS Application in Functional Programming. In: GeoPantanal, 2009, Corumbá. Anais do II Geopantanal, 2009. download
- Costa, S. S., Câmara, G., & Palomo, D. (2007). TerraHS: Integration of Functional Programming and Spatial Databases for GIS Application Development. (pp. 127-149). Advances in Geoinformatics. Springer. link
- Sergio Costa, Gilberto Câmara, Danilo Palomo. TerraHS: Integration of Functional Programming and Spatial Databases for GIS Application Development. VIII Brazilian Symposium in Geoinformatics, GeoInfo 2006, Campos do Jordão, 2006. download
- Olga Bittencourt, Gilberto Câmara, Lúbia Vinhas, Joice Mota. Rule-based Evolution of Typed Spatio-temporal Objects. IX Brazilian Symposium in Geoinformatics, GeoInfo 2007, Campos do Jordão, 2007.download
- Sérgio Rosim. Estrutura baseada em grafos para representação unificada de fluxos locais para modelagem hidrológica distribuída. PhD Thesis in Computer Science at INPE, 2008.download