def test_plotStates_single_row():
simple = pd.DataFrame([
{
"time": 0,
"node": "hb1",
"state": "S",
"total": 15.0
},
{
"time": 0,
"node": "hb2",
"state": "S",
"total": 21.0
},
{
"time": 1,
"node": "hb1",
"state": "S",
"total": 10.0
},
{
"time": 1,
"node": "hb2",
"state": "S",
"total": 5.0
},
])
compare_mpl_plots(vis.plot_nodes(pd.DataFrame(simple)))
def test_plotStates_single_row():
simple = pd.DataFrame([
{"date": "2020-04-12", "node": "hb1", "state": "S", "std": 0.0, "mean": 15.0},
{"date": "2020-04-12", "node": "hb2", "state": "S", "std": 0.0, "mean": 21.0},
{"date": "2020-04-13", "node": "hb1", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-13", "node": "hb2", "state": "S", "std": 0.0, "mean": 5.0},
])
compare_mpl_plots(vis.plot_nodes(pd.DataFrame(simple)))
def test_plotStates_three_rows():
simple = pd.DataFrame([
{"date": "2020-04-12", "node": "hb1", "state": "S", "std": 0.0, "mean": 15.0},
{"date": "2020-04-12", "node": "hb2", "state": "S", "std": 0.0, "mean": 21.0},
{"date": "2020-04-12", "node": "hb3", "state": "S", "std": 0.0, "mean": 20.0},
{"date": "2020-04-12", "node": "hb3", "state": "E", "std": 0.0, "mean": 0.0},
{"date": "2020-04-12", "node": "hb4", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-12", "node": "hb5", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-12", "node": "hb6", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-12", "node": "hb7", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-13", "node": "hb1", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-13", "node": "hb2", "state": "S", "std": 0.0, "mean": 5.0},
{"date": "2020-04-13", "node": "hb3", "state": "S", "std": 0.0, "mean": 5.0},
{"date": "2020-04-13", "node": "hb3", "state": "E", "std": 0.0, "mean": 15.0},
{"date": "2020-04-13", "node": "hb4", "state": "S", "std": 0.0, "mean": 0.0},
{"date": "2020-04-13", "node": "hb5", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-13", "node": "hb6", "state": "S", "std": 0.0, "mean": 10.0},
{"date": "2020-04-13", "node": "hb7", "state": "S", "std": 0.0, "mean": 10.0},
])
compare_mpl_plots(vis.plot_nodes(pd.DataFrame(simple)))
def test_plotStates_three_rows():
simple = pd.DataFrame([
{
"time": 0,
"node": "hb1",
"state": "S",
"total": 15.0
},
{
"time": 0,
"node": "hb2",
"state": "S",
"total": 21.0
},
{
"time": 0,
"node": "hb3",
"state": "S",
"total": 20.0
},
{
"time": 0,
"node": "hb3",
"state": "E",
"total": 0.0
},
{
"time": 0,
"node": "hb4",
"state": "S",
"total": 10.0
},
{
"time": 0,
"node": "hb5",
"state": "S",
"total": 10.0
},
{
"time": 0,
"node": "hb6",
"state": "S",
"total": 10.0
},
{
"time": 0,
"node": "hb7",
"state": "S",
"total": 10.0
},
{
"time": 1,
"node": "hb1",
"state": "S",
"total": 10.0
},
{
"time": 1,
"node": "hb2",
"state": "S",
"total": 5.0
},
{
"time": 1,
"node": "hb3",
"state": "S",
"total": 5.0
},
{
"time": 1,
"node": "hb3",
"state": "E",
"total": 15.0
},
{
"time": 1,
"node": "hb4",
"state": "S",
"total": 0.0
},
{
"time": 1,
"node": "hb5",
"state": "S",
"total": 10.0
},
{
"time": 1,
"node": "hb6",
"state": "S",
"total": 10.0
},
{
"time": 1,
"node": "hb7",
"state": "S",
"total": 10.0
},
])
compare_mpl_plots(vis.plot_nodes(pd.DataFrame(simple)))