# abp 0.4.20

Python port of Anders and Briegel' s [method](https://arxiv.org/abs/quant-ph/0504117) for fast simulation of Clifford circuits. You can read the full documentation [here](https://peteshadbolt.co.uk/abp/).

## Installation

It's easiest to install with `pip`:

```shell
$ pip install --user abp==0.4.20
```

Or clone and install in `develop` mode:

```shell
$ git clone https://github.com/peteshadbolt/abp.git
$ cd abp
$ python setup.py develop --user
$ python setup.py develop --user --prefix=  # Might be required on OSX
```

## Visualization

`abp` comes with a tool to visualize graph states in a web browser. It uses a client-server architecture.

First, run `abpserver` in a terminal:

```shell
$ abpserver
Listening on port 5000 for clients..
```
Then browse to `http://localhost:5001/`. Alternatively, `abpserver -v` will automatically pop a browser window.

Now, in another terminal, use `abp.fancy.GraphState` to run a Clifford circuit:

```python
>>> from abp.fancy import GraphState
>>> g = GraphState(10)
>>> for i in range(10):
...     g.act_hadamard(i)
... 
>>> g.update()
>>> for i in range(9):
...     g.act_cz(i, i+1)
... 
>>> g.update()
```

And you should see a visualization of the state.

## Testing

`abp` has a bunch of tests. You can run them all with `nose`:

```shell
$ nosetests
53 tests run in 39.5 seconds (53 tests passed)
```

Currently I use some reference implementations of `chp` and `graphsim` which you won't have installed, so some tests will be skipped. That's expected.