Extended README.md and added example.png to introduce the graphviz tool

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Ämin on ThinkPad 2023-05-11 14:34:12 +02:00
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@ -7,12 +7,13 @@ SPDX-License-Identifier: GPL-3.0-or-later
# SOC Observation Code
## Description
SOC stands for **S**OC **O**bservation **C**ode, and is composed of two C programs:
SOC stands for **S**OC **O**bservation **C**ode, and is composed of three C programs:
- One, `SOCgen`, to generate SOC graphs (here, SOC stands for Siblings-on-Cycles),
- and another, `SOCadmissible`, to verify the admissibility of these graphs as quantum causal structures.
- and another, `SOCadmissible`, to verify the admissibility of these graphs as quantum causal structures,
- and the last, `SOCgraphviz`, to translate adjancency matrices into the [Graphviz language](https://graphviz.org/).
These programs are used in support of Conjecture 1 in the article [Admissible Causal Structures and Correlations, arXiv:2210.12796 \[quant-ph\]](https://arxiv.org/abs/2210.12796).
The first two programs are used in support of Conjecture 1 in the article [Admissible Causal Structures and Correlations, arXiv:2210.12796 \[quant-ph\]](https://arxiv.org/abs/2210.12796).
## Installation
First, clone this repository, and then simply run
@ -22,7 +23,7 @@ $ cd soc-observation-code/
$ make
```
This compiles the two programs as `SOCgen` and `SOCadmissible`.
This compiles the programs `SOCgen`, `SOCadmissible`, and `SOCgraphviz`.
## Usage
To display help and exit, run the respective program without command-line arguments.
@ -60,7 +61,21 @@ Usage: ./SOCadmissible <filename> [<startline> [<endline> | +<count>]]
This program verifies the admissibility of simple directed graphs.
```
### Example
### SOCgraphviz
```
$ ./SOCgraphviz
Usage: ./SOCgraphviz <filename>
<filename> File name with adjacency matrices of simple directed graphs
[FILE FORMAT]
Each line in `filename' must contain the adjacency matrix of a simple directed graph in the format
{{a00,a01,...},{a10,a11,...},...} where aij=1 if and only if the graph has the edge i -> j
The file `filename' may contain graphs with different order (number of vertices)
This program translates to adjacency matrices into the Graphviz format, and prints them to stdout.
```
### Examples
To generate all SOCs with three nodes, and save them in the file `3.soc`, run:
```
$ ./SOCgen -n 3 > 3.soc
@ -76,13 +91,23 @@ Verifying the admissibility of 6 graphs in the file `3.soc' (line 1 to line 6)
These graphs are admissible
```
The SOCs generated can easily be displayed with Mathematica using the following:
The SOCs generated can easily be displayed with the [Graphviz](https://graphviz.org/) tools:
```
SOCs = DirectedGraph[AdjacencyGraph[#]] & /@ ToExpression[Import["./3.soc", "List"]];
./SOCgraphviz 3.soc | dot | gvpack | circo -Nshape=point -Tx11
```
or in [Wolfram Mathematica](https://www.wolfram.com/mathematica/) using:
```
SOCs = AdjacencyGraph[#] & /@ ToExpression[Import["./3.soc", "List"]];
SOCs = DeleteDuplicatesBy[SOCs, CanonicalGraph];
SOCs
```
To generate all SOCs with four nodes, and to display them using Graphviz, you may run:
```
./SOCgen -n 4 | ./SOCgraphviz /dev/stdin | dot | gvpack | circo -Nshape=point -Tx11
```
![All SOCs with four nodes](./example.png "SOCs with four nodes")
## Limitations
In `SOCgen`, each simple directed graph is represented by a 64bit unsigned integer:
This integer is interpreted as a vector of bits, where each bit specifies the absence or presence of a directed edge from one node to another.

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