Metadata-Version: 2.1
Name: SumoNetVis
Version: 1.3.0
Summary: A python library to render Sumo network files and trajectories with matplotlib or as an OBJ file.
Home-page: https://github.com/patmalcolm91/SumoNetVis
Author: Patrick Malcolm
Author-email: patmalcolm91@gmail.com
License: MIT
Download-URL: https://github.com/patmalcolm91/SumoNetVis/archive/v1.3.0.tar.gz
Description: # SumoNetVis
        A Python library for visualizing a Sumo network and trajectories with matplotlib or as an OBJ file.
        
        ![Example plot of an intersection with trajectory colored by speed](Example_Plot.png)
        ![Example plot of a road network](Example_Plot_2.png)
        ![Example plot of aroad network (US-style markings)](Example_Plot_2_US.png)
        ![Example animation](Example_Animation.gif)
        
        Basic trajectory plotting from FCD outputs is built in, but it is also possible to plot custom data and graphics on
        top of the network with the full flexibility and power of matplotlib and other compatible libraries, such as seaborn.
        
        3D geometry for a network can be generated and saved as a Wavefront-OBJ file.
        ![Example_rendering of OBJ export of an intersection](Example_OBJ_Export.png)
        
        ## Installation
        This package can be installed via pip with the command ```pip install SumoNetVis```.
        You can then import the library with:
        
        ```python
        import SumoNetVis
        ```
        
        ### Dependencies
        * shapely (>=1.7.0 for OBJ export)
        * matplotlib
        * numpy
        
        ## Usage
        To plot a Sumo net file and trajectories, you can use the following code:
        
        ```python
        import SumoNetVis
        import matplotlib.pyplot as plt
        # Plot Sumo Network
        net = SumoNetVis.Net("path/to/yourfile.net.xml")
        net.plot()
        # Plot trajectories
        trajectories = SumoNetVis.Trajectories("path/to/fcd-output.xml")
        trajectories["vehicle_id"].assign_colors_speed()
        trajectories["vehicle_id"].plot()
        # Show figure
        plt.show()
        ```
        
        the Net.plot() function takes the following optional parameters:
        * ax: matplotlib Axes object (defaults to currently active Axes)
        * clip_to_limits: if True, only objects visible in the current view extents will be drawn
        * zoom_to_extents: auto-zoom to Net extents (defaults to True)
        * style: lane marking style to use ("USA" or "EUR")
        * stripe_width_scale: scale factor for lane marking widths (defaults to 1)
        
        ### Animation
        Instead of visualizing Trajectories as lines, an animation can be generated using the ```matplotlib.animation``` module.
        
        ```python
        import matplotlib.animation as animation
        trajectories = SumoNetVis.Trajectories("path/to/fcd-output.xml")
        fig, ax = plt.subplots()
        a = animation.FuncAnimation(fig, trajectories.plot_points, frames=trajectories.timestep_range(), repeat=False,
                                    interval=1000*trajectories.timestep, fargs=(ax,), blit=True)
        plt.show()
        ```
        
        The plot settings for each vehicle can be customized and the color of each point can be animated, as shown in the
        following example.
        
        ```python
        for trajectory in trajectories:
                trajectory.assign_colors_speed()
                trajectory.point_plot_kwargs["ms"] = 8  # set marker size. Can set any kwargs taken by matplotlib.pyplot.plot().
        ```
        
        In order to animate the color of the points based on the assigned color scheme, an additional farg must be passed
        when creating the animation.
        
        ```python
        a = animation.FuncAnimation(fig, trajectories.plot_points, frames=trajectories.timestep_range(), repeat=False,
                                    interval=1000*trajectories.timestep, fargs=(ax, True), blit=True)
        ```
        
        ### OBJ Export
        
        The Wavefront-OBJ format is a text-based file format. The ```Net.generate_obj_text()``` method generates the contents
        of this file for the given Sumo network. In order to save an OBJ file, do the following:
        
        ```python
        with open("model.obj", "w") as f:
            f.write(net.generate_obj_text())
        ```
        
        The axis configuration in the generated file is Y-Forward, Z-Up. Check these settings if the orientation of the model
        is incorrect when importing the file into a 3D modelling program.
        
        Each type of object is defined with a corresponding material (i.e. all bike lanes have the same material, all sidewalks,
        and so on), making it easy to quickly set the desired material properties before rendering.
        
        ## Documentation
        API documentation can be found [here](https://patmalcolm91.github.io/SumoNetVis/SumoNetVis.html)
        
        ## Contribution
        Issues and pull requests are welcome.
        
Keywords: sumo,network,visualize,plot,matplotlib,traffic
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: Intended Audience :: Science/Research
Classifier: Topic :: Scientific/Engineering
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.4
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Description-Content-Type: text/markdown
