# Installation

SymPy Plotting Backends can be installed with pip or conda. By default, only basic plotting with Numpy and Matplotlib will be installed:

```
pip install sympy_plot_backends
```

Or:

```
conda install -c conda-forge sympy_plot_backends
```

To install the complete requirements in order to get adaptive algorithm, interactive plots, bokeh, plotly, k3d, vtk, control ,execute the following command:

```
pip install sympy_plot_backends[all]
```

If you are using zshell, the above pip command is going to fail. Use the following instead:

```
pip install "sympy_plot_backends[all]"
```

To install the complete requirements with conda:

```
conda install -c conda-forge sympy_plot_backends
# scipy gives more numerical functions, notebook install the
# Jupyter Notebook (enabling interactivity)
conda install -c anaconda scipy notebook
# to install the adaptive algorithm:
conda install -c conda-forge adaptive
# to install interactive widgets with holoviz's Panel
conda install -c conda-forge panel
# to install interactive widgets with ipywidgets
conda install -c anaconda ipywidgets
conda install -c conda-forge ipympl
conda install -c bokeh ipywidgets_bokeh
# colorcet gives more colormaps
conda install -c conda-forge colorcet
# to install K3D-Jupyter
conda install -c conda-forge k3d msgpack-python
# to install Plotly
conda install -c plotly plotly
# to enable 3D streamlines plots with matplotlib and K3D-Jupyter
conda install -c conda-forge vtk
# to install the python-control module, for control system plotting
conda install -c conda-forge control slycot
```

## Verify the installation

After installation, it is best to verify that the freshly-installed SymPy Plotting Backends work. To do this, start up Python and import the necessary functionalities, as shown below. To improve typing experience, the actual name of the module has been set to spb:

```
$ python
>>> from sympy import *
>>> from spb import *
```

From here, execute some simple statements like the ones below:

```
>>> x = Symbol('x')
>>> plot(sin(x), cos(x))
```

If the additional requirements have been installed, try the following:

```
from sympy import *
from spb import *
x, a, b, c = symbols("x, a, b, c")
plot(
(cos(a * x + b) * exp(-c * x), "oscillator"),
(exp(-c * x), "upper limit", {"line_dash": "dotted"}),
(-exp(-c * x), "lower limit", {"line_dash": "dotted"}),
(x, 0, 2 * pi),
params={
a: (1, 0, 10), # frequency
b: (0, 0, 2 * pi), # phase
c: (0.25, 0, 1) # damping
},
ylim=(-1.25, 1.25),
backend=BB,
servable=True
)
```

It is also the perfect time to verify that K3D-Jupyter is working:

launch

`jupyter notebook`

.open a notebook.

run the following code:

from sympy import * from spb import * var("x, y") plot3d(cos(x**2 + y**2), (x, -2, 2), (y, -2, 2), backend=KB)

If no figure is visible in the output cell, follow this procedure:

Save the Notebook.

Close Jupyter server.

Run the following commands, which are going to install the Jupyter extension for K3D:

`jupyter nbextension install --user --py k3d`

`jupyter nbextension enable --user --py k3d`

Restart

`jupyter notebook`

Open the previous notebook and execute the plot command.

Refer 2D general plotting to explore visualize the output of some of the plotting functions, or to the Tutorials for a starter guide on using the plotting backends.

## Installing Mayavi

This plotting module comes with `MayaviBackend`

. Mayavi is a 3D plotting
library which can be used on any Python interpreter.
However, it is not the easiest to install.

If you are interested in using it, please follow Mayavi’s installation instruction.

## About Matplotlib

If you are doing development work on this module, Matplotlib 3.4.2 is required for tests to pass!