cimal will convert the floating-point number to aĭecimal text representation, and build a BigDecimal based on that.īigDecimal.binary will expand the binary fraction to the requested or default Three explicit schemes are available forĬonversion. The binary fraction representation of Double and Float does not easilyĬonvert into a decimal representation. When creating a BigDecimal from a Double or Float, care must be taken as In efficiently computing both the decimal representation in BigDecimal and the HashCode of BigInt and BigDecimal is allowed to diverge due to difficulty That range–numbers with more than 4934 digits when written out in full–the Of IEEE binary128 numbers, BigDecimal will agree with BigInt for bothĮquality and hash codes (and will agree with primitive types as well). Point numbers (34 decimal digits, HALF_EVEN rounding mode). Displaying Raster and Vector Cadastre Over 3D Data: fuse two 3D models of Jenstejn village in storage and overlay them with both raster and styled vector cadastre sourced from MBtiles final class BigDecimal extends ScalaNumber with ScalaNumericConversions with Serializable with Ordered īigDecimal represents decimal floating-point numbers of arbitrary precision.īy default, the precision approximately matches that of IEEE 128-bit floating.
#MAPPROXY RETINA DRIVERS#
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Land Use: Open Landuse Maps over 3D Data: use free layers to combine 2D land use data with 3D city in eye-pleasing way.Land Use: Copernicus DEM with Urbanatlas and Corine Land Cover WMS: combine maps available through WMS with open Copernicus DEM using mapproxy.The Peaks and Valleys of Mars, Part 2: Searchable Nomenclature: add and style vector nomenclature labels and set up search functionality for the previous tutorial.The Peaks and Valleys of Mars: set up an interactive 3D globe using local data on your drive (DEM and imagery) and mapproxy.Setting up Your Own VTS Backend Environment: essential basic setup of VTS, most other backend tutorials build atop of it.It is a must-read if you plan to serve your own data through VTS. Introduction to VTS-Browser-CPP: building sample application with the c++ library.īackend tutorials are focused on setting up the VTS Backend environment, preprocessing your data and configuring the VTS streaming servers to serve the data to the client.Some of them are referenced from previous tutorials but there is a lot more worth to check. List of JSFiddle live examples: extensive list of live examples focused on single feature of VTS-Browser-JS.Importing OBJ Models with VTS-Browser-JS: place OBJ models from arbitrary source into your map and get more in-depth view to the rendering pipeline.Land Use: Adding Legend and Layer Switch to The Map: enhance the map with interactive layer control and a legend.GeoJSON: Hover Events in VTS-Browser-JS: create interactive application by use of hover events and style switching.GeoJSON: Import and Extending with VTS-Browser-JS: display geodata programmatically generated at frontend, do more advanced styling.
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Frontend tutorials are focused on building apps on top of the VTS browser API, describing various parts of its functionality.