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Simulate graph states in the browser
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  1. # ABP server

  2. 

  3. This server does a few things:

  4. 

  5. - Keeps a graph state in memory using a data structure that is compatible with `abp`

  6. - Serves a JSON representation of that object 

  7. - Accepts updates to that object via POST requests 

  8. - Displays a 3D representation of the state 

  9. - Randomly updates the state every five seconds

  10. 

  11. ## Endpoints

  12. 

  13. - `/`: Displays the state using Three.js

  14. - `graph/`:

  15.     - `GET` returns JSON representing the state

  16.     - `POST` accepts JSON in the same format and overwrites the state in memory

  17. - `doc/`: Shows this page

  18. 

  19. 

  20. ## Data format

  21. 

  22. If you do an HTTPS GET against `/graph`, you will receive some JSON.

  23. 

  24.     :::bash

  25.     $ curl https://abv.peteshadbolt.co.uk/graph

  26. 

  27. outputs

  28. 

  29.     :::python

  30.     {"node": 

  31.         {"30": 

  32.             {"position": 

  33.                 {"y": 3.245091885135617, "x": -1.0335390368621762, "z": 0.12485495696298532}, "vop": 0}, "28": 

  34.             {"position": 

  35.                 {"y": 0.1811335599620998, "x": 3.7102305790943295, "z": 0.3375519427305571}, "vop": 0}, "29": 

  36.             {"position": 

  37.                 {"y": -1.834182888403804, "x": 1.5968911365745622, "z": 2.8585980299131886 

  38.     ...

  39. 

  40. The top-level keys are `node` and `adj`. These model the node metadata and adjacency matrix respectively.

  41. 

  42. Each `node` has 

  43. 

  44. - a `position` (`{x:<> y:<> z:<>}`) 

  45. - a `vop` (integer, ignore for now) 

  46. - and could also have a `color`, `label`, etc.

  47. 

  48. `adj` uses the same data structure as `networkx` to efficiently represent sparse adjacency matrices. For each key `i` in `adj`, the value of `adj[i]` is itself a map whose keys `j` correspond to the ids of nodes connected to `i`. The value of `adj[i][j]` is a map which is usually empty but which could be used to store metadata about the edge.

  49. 

  50. Here's an example of a graph `(A-B C)`:

  51. 

  52.     :::python

  53.     {'adj': {0: {1: {}}, 1: {0: {}}, 2: {}},

  54.      'node': {

  55.       0: {'position': {'x': 0, 'y': 0, 'z': 0}, 'vop': 0},

  56.       1: {'position': {'x': 1, 'y': 0, 'z': 0}, 'vop': 0},

  57.       2: {'position': {'x': 2, 'y': 0, 'z': 0}, 'vop': 10}}}

  58. 

  59. ## ABP

  60. 

  61. The underlying graph library is based on Anders' and Briegel's method. Full docs for the Python library are [here](https://peteshadbolt.co.uk/static/abp/).

  62.