Skip to main content

A package for calculating RIM between three spatial objects

Project description

RIM

This is the code repository for the Python implementation of the Ray Intersection Model (RIM) - for analyzing spatial relationships (e.g. betweenness, intervisibility) of triplets of spatial objects.

RIM is used to describe the spatial relationship of three spatial objects. It evaluates rays cast between two peripheral spatial objects, and their topological relations with the core object to determine its relative position with respect to the peripheral objects. The interpretation of relationships described with RIM (e.g. core object is between/not between the peripheral objects) is left to the user and application context.

Getting started

Prerequisites

The package has been tested with the following requirements:

  • Python >= 3.6
  • numpy >= 1.17.4
  • Shapely >= 1.6.4

Note that Shapely requires GDAL to be installed. More information on how to install GDAL can be found at https://gdal.org/download.html, and at https://pypi.org/project/GDAL/.

$ pip3 install numpy>=1.17.4
$ pip3 install Shapely>=1.6.4

Installing

The rim Python package can be installed via pip

$ pip3 install rim

Usage

Here is an example of a simple Python script where RIM is used to analyze spatial relationships of three polygon geometries.

#!/usr/bin/python3
from rim import RIM

A = 'POLYGON((1 1, 1 5, 3 5, 3 1, 1 1))'
B = 'POLYGON((7 1, 7 5, 9 5, 9 1, 7 1))'
O = 'POLYGON((4 0, 4 6, 6 6, 6 0, 4 0))'

rimobject = RIM(A,B,O)

print(rimobject.rim)
# prints 'RIM 13'
print(rimobject.rim_matrix)
# prints [[1.0, 1.0, 1.0, 0.0, 0.0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0, 1.0]]
print(rimobject.rays)
# prints ['ray5']

if 'ray1' in rimobject.rays or 'ray8' in rimobject.rays:
    B_visible_from_A = 'is'
else:
    B_visible_from_A = 'is not'

print('According to the RIM model, B %s visible from A!' %B_visible_from_A)
# prints 'According to the RIM model, B is not visible from A!'

Here is a docstring of the RIM class, explaining how the RIM object is created and which attributes it has:

A RIM object is created from three spatial objects - A, B, and O,
provided as WKT strings. A and B are peripheral objects, and O is
a core object which is being analyzed for being in between A and B.

Attributes
----------
A : str
    a WKT representation of peripheral object A
B : str
    a WKT representation of peripheral object B
O : str
    a WKT representation of core object O
rays : list of str
    a list of all rays that exist between peripheral
    objects A and B in this specific RIM scenario;
    ray in this case is a straight line that shares
    exactly one point with each A and B;
    rays are encoded as ray1-ray8 since there are 8
    distinct rays that can theoretically occur
extreme_rays : list of str
    a list of extreme rays that exist between peripheral
    objects A and B in this specific RIM scenario,
    extreme rays are encoded as ray1-ray8, and all extreme
    rays are present in the 'rays' attribute as well
ray_area : list of dict
    a list of dictionary entries where each entry describes a part of the
    ray area with its WKT geometry (key 'ray area') and a list of extreme
    rays WKT geometries (key 'extreme rays'); ray area is the area between
    peripheral objects A and B that is covered by all rays that exist
    between them; in case of the ray area with a single-part geometry
    there will be only 1 element in the 'ray_area'
rim_matrix : 2D numpy array
    a matrix representation of this specific RIM scenario;
    the 3 columns represent the interior, boundary, and exterior
    of the core object O, while the 4 rows represent interiors
    of all rays, boundaries of all rays, interiors of extreme rays,
    and boundaries of extreme rays; the value 0 stands for 'none of
    the rays have this intersection', 0-1 stands for 'some of the rays
    have this intersection', and 1 stands for 'all of the rays have
    this intersection'
rim : str
    a string representation of the rim in this specific scenario (A,B,O);
    if the resulting rim is one of the 29 rims that were previously defined
    in studies, the value will be in range 'rim1' - 'rim29', otherwise the
    value will be string representation of the rim_matrix

Authors

  • Ivan Majic - Initial work

See also the list of contributors who participated in this project.

License

This project is licensed under the MIT License - see the LICENSE.md file for details

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

rim-0.3.14.tar.gz (97.1 kB view hashes)

Uploaded Source

Built Distribution

rim-0.3.14-py3-none-any.whl (11.7 kB view hashes)

Uploaded Python 3

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page