Vehicle-Anti-Theft-Face-Recognition-System/venv/Lib/site-packages/skimage/graph/tests/test_connect.py

import numpy as np
import skimage.graph.mcp as mcp
# import stentseg.graph._mcp as mcp

from skimage._shared.testing import assert_array_equal


a = np.ones((8, 8), dtype=np.float32)
count = 0


class MCP(mcp.MCP_Connect):
    def _reset(self):
        """ Reset the id map.
        """
        mcp.MCP_Connect._reset(self)
        self._conn = {}
        self._bestconn = {}
    
    def create_connection(self, id1, id2, pos1, pos2, cost1, cost2):
        # Process data
        hash = min(id1, id2), max(id1, id2)
        val = min(pos1, pos2), max(pos1, pos2)
        cost = min(cost1, cost2)
        # Add to total list 
        self._conn.setdefault(hash, []).append(val)
        # Keep track of connection with lowest cost
        curcost = self._bestconn.get(hash, (np.inf,))[0]
        if cost < curcost:
            self._bestconn[hash] = (cost,) + val


def test_connections():
    # Create MCP object with three seed points
    mcp = MCP(a)
    costs, traceback = mcp.find_costs([(1, 1), (7, 7), (1, 7)])
    
    # Test that all three seed points are connected
    connections = set(mcp._conn.keys())
    assert (0, 1) in connections
    assert (1, 2) in connections
    assert (0, 2) in connections
    
    # Test that any two neighbors have only been connected once
    for position_tuples in mcp._conn.values():
        n1 = len(position_tuples)
        n2 = len(set(position_tuples))
        assert n1 == n2
    
    # For seed 0 and 1
    cost, pos1, pos2 = mcp._bestconn[(0, 1)]
    # Test meeting points
    assert (pos1, pos2) == ((3, 3), (4, 4))
    # Test the whole path
    path = mcp.traceback(pos1) + list(reversed(mcp.traceback(pos2)))
    assert_array_equal(
        path, [(1, 1), (2, 2), (3, 3), (4, 4), (5, 5), (6, 6), (7, 7)])
    
    # For seed 1 and 2
    cost, pos1, pos2 = mcp._bestconn[(1, 2)]
    # Test meeting points
    assert (pos1, pos2) == ((3, 7), (4, 7))
    # Test the whole path
    path = mcp.traceback(pos1) + list(reversed(mcp.traceback(pos2)))
    assert_array_equal(
        path, [(1, 7), (2, 7), (3, 7), (4, 7), (5, 7), (6, 7), (7, 7)])
    
    # For seed 0 and 2
    cost, pos1, pos2 = mcp._bestconn[(0, 2)]
    # Test meeting points
    assert (pos1, pos2) == ((1, 3), (1, 4))
    # Test the whole path
    path = mcp.traceback(pos1) + list(reversed(mcp.traceback(pos2)))
    assert_array_equal(
        path, [(1, 1), (1, 2), (1, 3), (1, 4), (1, 5), (1, 6), (1, 7)])