4. Feições
QGIS offers a wealth of GIS functions, provided by core features and plugins. The locator bar makes it easy to search for functions, datasets and more.
A short summary of six general categories of features and plugins is presented below, followed by first insights into the integrated Python console.
4.1. Visualização de dados
You can view combinations of vector and raster data (in 2D or 3D) in different formats and projections without conversion to an internal or common format. Supported formats include:
Spatially-enabled tables and views using PostGIS, SpatiaLite and MS SQL Spatial, Oracle Spatial, vector formats supported by the installed OGR library, including GeoPackage, ESRI Shapefile, MapInfo, SDTS, GML and many more. See section Trabalhando com Dados Vetoriais.
Formatos de imagens e Raster suportados pela biblioteca GDAL instalada (Geospatial Data Abstraction Library), como GeoTIFF, ERDAS IMG, ArcInfo ASCII GRID, JPEG, PNG e muitos mais. Consulte a seção Trabalhando com Dados Raster.
Mesh data (TINs and regular grids are supported). See Working with Mesh Data.
Vector tiles
Dados vetoriais e raster GRASS para base de dados GRASS (location.mapset). Ver seção Integração com SIG GRASS.
Online spatial data served as OGC Web Services, including WMS, WMTS, WCS, WFS, and WFS-T. See section Working with OGC / ISO protocols.
The QGIS authentication infrastructure helps you manage user/password, certificates and keys for web services and other resources.
Spreadsheets (ODS / XLSX)
Temporal data are supported.
4.2. Exploração de dados e compositores de mapas
Você pode compor mapas e interativamente explorar dados espaciais com uma interface gráfica amigável. As muitas ferramentas úteis disponíveis na GUI incluem:
QGIS browser
Reprojeção On-the-fly
Gerenciador BD
Print layout
Report
Painel de Vista Global
Marcadores espaciais
Ferramentas de anotação
Identificar/selecionar feições
Editar/ver/procurar atributos
Data-defined feature labeling
Ferramentas de simbologia raster e vetorial dado definido
Compositor de Atlas com camada grade
North arrow, scale bar and copyright label for maps
Suporte para salvamento e restauração de projetos
4.3. Criar, editar, gerir e exportar dados
You can create, edit, manage and export vector and raster layers in several formats. QGIS offers the following:
Vector digitizing tools
Ability to create and edit multiple file formats and GRASS vector layers
Complemento Georreferenciador para geocodificar imagens
GPS tools to import and export GPX format, and convert other GPS formats to GPX or down/upload directly to a GPS unit (on Linux, usb: has been added to list of GPS devices)
Suporte para visualização e edição de dados OpenStreetMap
Ability to create spatial database tables from files with the DB Manager plugin
Tratamento melhorado de tabelas de bases de dados espaciais
Ferramentas para gerenciamento de tabelas de atributos vetoriais
Opção para salvar as imagens como imagens georreferenciadas
ferramenta de exportação DXF com recursos aprimorados para exportar estilos e complementos para executar funções CAD-like
4.4. Analyze data
You can perform spatial data analysis on spatial databases and other OGR-supported formats. QGIS currently offers vector analysis, raster analysis, sampling, geoprocessing, geometry and database management tools. You can also use the integrated GRASS tools, which include the complete GRASS functionality of more than 400 modules (see section Integração com SIG GRASS). Or, you can work with the Processing plugin, which provides a powerful geospatial analysis framework to call native and third-party algorithms from QGIS, such as GDAL, SAGA, GRASS, R, and more (see section Introdução). All analysis functions are run in the background, allowing you to continue your work before the processing has finished.
The graphical modeller allows you to combine / chain functions into a complete workflow in an intuitive graphical environment.
4.5. Publicação de mapas na internet
QGIS can be used as a WMS, WMTS, WMS-C or WFS and WFS-T client (see section Working with OGC / ISO protocols), and QGIS Server (see the QGIS Server Guide/Manual) allows you to publish your data through the WMS, WCS and WFS protocols on the Internet using a webserver.
4.6. Extend QGIS functionality through plugins
QGIS can be adapted to your special needs with the extensible plugin architecture and libraries that can be used to create plugins. You can even create new applications with C++ or Python!
4.6.1. Complementos Core
Complementos incluídos no programa
DB Manager (exchange, edit and view layers and tables from/to databases; execute SQL queries)
Geometry Checker (check geometries for errors)
Georeferencer GDAL (add projection information to rasters using GDAL)
GPS Tools (load and import GPS data)
GRASS 7 (integrate GRASS GIS)
MetaSearch Catalogue Client (interacting with metadata catalog services supporting the OGC Catalog Service for the Web (CSW) standard)
Offline Editing (allow offline editing and synchronizing with databases)
Processing (the spatial data processing framework for QGIS)
Topology Checker (find topological errors in vector layers)
4.6.2. Complementos Externos Python
QGIS offers a growing number of external Python plugins that are provided by the community. These plugins reside in the official Plugins Repository and can be easily installed using the Python Plugin Installer. See Section Diálogo de Complementos.
4.7. Console Python
For scripting, it is possible to take advantage of an integrated
Python console, which can be opened with: qgis.utils.iface
variable, which is an instance of
QgisInterface
. This interface provides access to the map canvas,
menus, toolbars and other parts of the QGIS application. You can create
a script, then drag and drop it into the QGIS window and it will be
executed automatically.
For further information about working with the Python console and programming QGIS plugins and applications, please refer to Terminal Python QGIS and Passo-a-passo para desenvolvedor PyQGIS.
4.8. Problemas conhecidos
4.8.1. Limitação no número de arquivos abertos
Se você está abrindo um grande projeto QGIS e você tem certeza de que todas as camadas são válidas, mas algumas camadas são sinalizadas como ruim, você provavelmente irá se confrontar com esta questão. O Linux (e outros sistemas operacionais, da mesma forma) tem um limite de arquivos abertos por processo. Limites de recursos por processo e hereditária. O comando ulimit
, que é um shell integrado, muda os limites apenas para o processo de shell atual; o novo limite será herdado por quaisquer processos filhos.
You can see all current ulimit info by typing:
$ ulimit -aS
You can see the current allowed number of opened files per process with the following command on a console:
$ ulimit -Sn
To change the limits for an existing session, you may be able to use something like:
$ ulimit -Sn #number_of_allowed_open_files
$ ulimit -Sn
$ qgis
Para fixar isso sempre
Na maioria dos sistemas Linux, limites de recursos são definidos no login pelo módulo pam_limits
de acordo com as definições contidas no /etc/security/limits.conf
ou /etc/security/limits.d/*.conf
. Você será capaz de editar os arquivos, se você tem privilégios de root (também via sudo), mas você vai precisar fazer login novamente para que as alterações tenham efeito.
Mais informações:
https://www.cyberciti.biz/faq/linux-increase-the-maximum-number-of-open-files/ https://linuxaria.com/article/open-files-in-linux