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Update server, some small docs

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Pete Shadbolt 8 anos atrás
pai
commit
9f715aa713
3 arquivos alterados com 12 adições e 7 exclusões
  1. +4
    -4
      abp/clifford.py
  2. +6
    -2
      bin/abpserver
  3. +2
    -1
      doc/index.rst

+ 4
- 4
abp/clifford.py Ver arquivo

@@ -13,9 +13,9 @@ The complete set of aliases for single-qubit Cliffords is as follows:
Index Aliases
======= =========================
0 ``IA, identity, identity_h``
1 ``px, XA, px_h``
2 ``py, YA, py_h``
3 ``pz, ZA, pz_h``
1 ``XA, px, px_h``
2 ``YA, py, py_h``
3 ``ZA, pz, pz_h``
4 ``IB``
5 ``XB, sqz, msqz_h, phase_h``
6 ``YB, msqz, sqz_h, phase``
@@ -61,7 +61,7 @@ def human_name(i):
return choices[-1]

def is_diagonal(v):
""" TODO: remove this. Checks if a VOP is diagonal or not """
""" Checks if a VOP is diagonal or not """
return v in {0, 3, 5, 6}




+ 6
- 2
bin/abpserver Ver arquivo

@@ -1,4 +1,9 @@
#!/usr/bin/python
"""
This is a simple websocket relay server that facilitates realtime visualization of GraphStates.
It doesn't do much except echo websocket messages to all connected clients, and serve some static content over HTTP.
"""

from websocket_server import WebsocketServer
from SimpleHTTPServer import SimpleHTTPRequestHandler
from BaseHTTPServer import HTTPServer
@@ -11,7 +16,6 @@ from pkg_resources import resource_filename

clients = []


def new_message(client, server, message):
print "Received update from client {}.".format(client["id"])
server.send_message_to_all(message)
@@ -29,7 +33,7 @@ class ThreadedHTTPServer(ThreadingMixIn, HTTPServer):

if __name__ == '__main__':
parser = argparse.ArgumentParser(description = "ABP websocket server")
parser.add_argument("-v", action="store_false", help="Launch browser")
parser.add_argument("-v", action="store_true", help="Launch browser")
args = parser.parse_args()

# Change to the right working dir


+ 2
- 1
doc/index.rst Ver arquivo

@@ -130,8 +130,9 @@ Now, in another terminal, use ``abp.fancy.GraphState`` to run a Clifford circuit
>>> g = GraphState(range(10))
>>> g.act_circuit([(i, "hadamard") for i in range(10)])
>>> g.act_circuit([((i, i+1), "cz") for i in range(9)])
>>> g.update()

And you should see a 3D visualization of the state.
And you should see a 3D visualization of the state. You can call ``update()`` in a loop to see an animation.

.. image:: ../examples/viz.png



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