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authorasteroide <thomas.duval@orange.com>2017-06-03 22:20:51 +0200
committerasteroide <thomas.duval@orange.com>2017-06-03 22:20:51 +0200
commit8039214d0caedfec5456bd8ee0898a1b9a55629a (patch)
treee7a4ab92ac1e79e22ca674a3eba5de9c1e6cd012 /moonv4/moon_interface/tests/apitests
parent739f67b914a354e858e629d854a4860aaebabbdf (diff)
Add the multigraph option
Change-Id: If91f405721f4d5eeecf7b8dfec1cae2051ad2adb
Diffstat (limited to 'moonv4/moon_interface/tests/apitests')
-rw-r--r--moonv4/moon_interface/tests/apitests/set_authz.py100
1 files changed, 46 insertions, 54 deletions
diff --git a/moonv4/moon_interface/tests/apitests/set_authz.py b/moonv4/moon_interface/tests/apitests/set_authz.py
index 6a4ae5d5..2e9d5b95 100644
--- a/moonv4/moon_interface/tests/apitests/set_authz.py
+++ b/moonv4/moon_interface/tests/apitests/set_authz.py
@@ -19,6 +19,8 @@ logger = None
HOST = None
PORT = None
+lock = threading.Lock()
+
def init():
global logger, HOST, PORT
@@ -95,13 +97,11 @@ class AsyncGet(threading.Thread):
current_request = dict()
current_request['url'] = self.url
try:
- current_request['start'] = time.time()
- logger.info("{} start {}".format(self.uuid, current_request['start']))
- r = requests.get(self.url, **self.kwargs)
- current_request['end'] = time.time()
- logger.info("{} end {}".format(self.uuid, current_request['end']))
- current_request['delta'] = current_request["end"] - current_request["start"]
- logger.info("{} delta {}".format(self.uuid, current_request['delta']))
+ with lock:
+ current_request['start'] = time.time()
+ r = requests.get(self.url, **self.kwargs)
+ current_request['end'] = time.time()
+ current_request['delta'] = current_request["end"] - current_request["start"]
except requests.exceptions.ConnectionError:
logger.warning("Unable to connect to server")
return {}
@@ -171,13 +171,36 @@ def write_graph(time_data, legend=None, input=None, image_file=None, html_file=N
legends = legend.split(",")
result_data = []
time_delta, time_delta_average1 = get_delta(time_data)
- # time_delta = list()
- # time_delta_sum1 = 0
- # for key in time_data:
- # time_delta.append(time_data[key]['delta'])
- # time_delta_sum1 += time_data[key]['delta']
- # time_delta_average1 = time_delta_sum1 / len(time_data.keys())
- current_legend = legends.pop()
+ time_delta_average2 = None
+ if input:
+ for _input in input.split(","):
+ current_legend = legends.pop(0)
+ time_data2 = json.load(open(_input))
+ time_delta2, time_delta_average2 = get_delta(time_data2)
+ for key in time_data.keys():
+ if key in time_data2:
+ time_delta2.append(time_data2[key]['delta'])
+ else:
+ time_delta2.append(None)
+ data2 = Scatter(
+ x=list(range(len(time_data.keys()))),
+ y=time_delta2,
+ name=current_legend,
+ line=dict(
+ color='rgb(255, 192, 118)',
+ shape='spline')
+ )
+ result_data.append(data2)
+ data2_a = Scatter(
+ x=list(range(len(time_data.keys()))),
+ y=[time_delta_average2 for x in range(len(time_data.keys()))],
+ name=current_legend + " average",
+ line=dict(
+ color='rgb(255, 152, 33)',
+ shape='spline')
+ )
+ result_data.append(data2_a)
+ current_legend = legends.pop(0)
data1 = Scatter(
x=list(range(len(time_data.keys()))),
y=time_delta,
@@ -196,40 +219,6 @@ def write_graph(time_data, legend=None, input=None, image_file=None, html_file=N
shape='spline')
)
result_data.append(data1_a)
- time_delta_average2 = None
- if input:
- current_legend = legends.pop()
- time_data2 = json.load(open(input))
- time_delta2, time_delta_average2 = get_delta(time_data2)
- # time_delta2 = list()
- # time_delta_sum2 = 0
- # for key in time_data2:
- # time_delta.append(time_data2[key]['delta'])
- # time_delta_sum2 += time_data2[key]['delta']
- # time_delta_average2 = time_delta_sum2 / len(time_data2.keys())
- for key in time_data.keys():
- if key in time_data2:
- time_delta2.append(time_data2[key]['delta'])
- else:
- time_delta2.append(None)
- data2 = Scatter(
- x=list(range(len(time_data.keys()))),
- y=time_delta2,
- name=current_legend,
- line=dict(
- color='rgb(255, 192, 118)',
- shape='spline')
- )
- result_data.append(data2)
- data2_a = Scatter(
- x=list(range(len(time_data.keys()))),
- y=[time_delta_average2 for x in range(len(time_data.keys()))],
- name=current_legend + " average",
- line=dict(
- color='rgb(255, 152, 33)',
- shape='spline')
- )
- result_data.append(data2_a)
if image_file:
plotly.offline.plot(
@@ -268,17 +257,20 @@ def write_graph(time_data, legend=None, input=None, image_file=None, html_file=N
def write_distgraph(time_data, legend=None, input=None, image_file=None, html_file=None):
logger.info("Writing graph")
- legends = legend.split(",")[::-1]
+ legends = legend.split(",")
result_data = []
- time_delta, time_delta_average1 = get_delta(time_data)
- result_data.append(time_delta)
time_delta_average2 = None
if input:
- time_data2 = json.load(open(input))
- time_delta2, time_delta_average2 = get_delta(time_data2)
- result_data.append(time_delta2)
+ for _input in input.split(","):
+ logger.info("Analysing input {}".format(_input))
+ time_data2 = json.load(open(_input))
+ time_delta2, time_delta_average2 = get_delta(time_data2)
+ result_data.append(time_delta2)
+
+ time_delta, time_delta_average1 = get_delta(time_data)
+ result_data.append(time_delta)
# Create distplot with custom bin_size
fig = ff.create_distplot(result_data, legends, bin_size=.2)