A JavaScript library to display 360° panoramas
A React wrapper for Photo Sphere Viewer, to display 360° panoramas with ease.
Photo Sphere Viewer plugin to display various markers/hotspots on the viewer.
Photo Sphere Viewer plugin that adds a setting to choose between multiple resolutions of the panorama.
Photo Sphere Viewer plugin to add video controls.
Photo Sphere Viewer adapter to display equirectangular videos.
Photo Sphere Viewer configurable plugin that adds a button to access various settings.
Exact arithmetic test to check if point is contained in sphere
Photo Sphere Viewer plugin to create virtual tours by linking multiple panoramas.
Photo Sphere Viewer plugin to add an automatic rotation of the panorama.
Photo Sphere Viewer plugin to add gyroscope controls on mobile devices.
Photo Sphere Viewer adapter to display cubemaps.
Photo Sphere Viewer plugin to add a stereo view on mobile devices.
Photo Sphere Viewer plugin to add a gallery of multiple panoramas.
Photo Sphere Viewer plugin to add a compass to represent which portion of the sphere is currently visible.
Photo Sphere Viewer adapter to display tiled panoramas.
a sphere mesh with normals, texture coordinates and indices
Photo Sphere Viewer plugin to lock the visible angles.
Photo Sphere Viewer adapter to display tiled cubemaps.
Import and export products to and from a commercetools project.
Photo Sphere Viewer plugin to add a minimap with the panorama location.
search for k nearest neighbors on a sphere
Photo Sphere Viewer plugin to add a geographic map (via Leaftlet).
Photo Sphere Viewer adapter to display cubemap videos.
Sphere primitives for the RustUse geometry workspace
Higher-dimensional sphere primitives for the RustUse geometry workspace
Facade crate for the RustUse geometry workspace.
Converts latitude and longitude to Google S2 Cells. Useful for geo stuff. A better description of S2 cells can be found here: http://blog.christianperone.com/2015/08/googles-s2-geometry-on-the-sphere-cells-and-hilbert-curve/
An implementation of the quadrilateralised spherical cube, an approximately equal-area projection of the sphere onto the faces of a cube. It is useful for storing data collected on a spherical surface, and for general mapmaking.
* Vincenty wrote an algorithm for calculating the bearing and distance between two coordinates on the earth and an algorithm for finding a second coordinate, given a starting coordinate, bearing and destination. The algorithms model the earth as an ellipsoid, using the WGS-84 model. This is the common GPS model for mapping to latitudes and longitudes. This is a Ruby implementation of Vincenty's algorithms, and the Vincenty class includes two methods for modeling the earth as a sphere. These were added as a reference for testing the Vincenty algorithm, but could be used on their own. The package also makes use of several other classes that may be useful in their own Right. These include class Angle, class Latitude (subclass of Angle), class Longitude (subclass of Angle), class TrackAndBearing and class coordinate (which class Vincenty is a subclass) Angle requires extensions to Numeric and String to provide to_radians (to_r) and to_degrees (to_d). String also includes a to_decimal_degrees(), which converts most string forms of Latitude and Longitude to decimal form. These extensions are included in the package in core_extensions.rb. Float has also been extended to change round to have an optional argument specifying the number of decimal places to round to. This is fully compatible with the Float.round, as the default is to round to 0 decimal places. * The Vincenty code is based on the wikipedia presentation of the Vincenty algorithm http://en.wikipedia.org/wiki/Vincenty%27s_formulae . * The algorithm was modified to include changes I found at http://www.movable-type.co.uk/scripts/latlong-vincenty-direct.html. * I also altered the formulae to correctly return the bearing for angles greater than 180. * Vincenty's original publication ** T Vincenty, "Direct and Inverse Solutions of Geodesics on the Ellipsoid with application of nested equations", Survey Review, vol XXII no 176, 1975 http://www.ngs.noaa.gov/PUBS_LIB/inverse.pdf
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