tests/test_plot_utils.py - platform/external/trappy - Git at Google

 #    Copyright 2015-2017 ARM Limited
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #


 import unittest
 import matplotlib
 import pandas as pd

 from test_thermal import BaseTestThermal
 import trappy
 import plot_utils

 class TestPlotUtils(unittest.TestCase):
     def test_normalize_title(self):
         """Test normalize_title"""
         self.assertEquals(plot_utils.normalize_title("Foo", ""), "Foo")
         self.assertEquals(plot_utils.normalize_title("Foo", "Bar"), "Bar - Foo")

     def test_set_lim(self):
         """Test set_lim()"""

         class GetSet(object):
             def __init__(self):
                 self.min = 1
                 self.max = 2

             def get(self):
                 return (self.min, self.max)

             def set(self, minimum, maximum):
                 self.min = minimum
                 self.max = maximum

         gs = GetSet()

         plot_utils.set_lim("default", gs.get, gs.set)
         self.assertEquals(gs.min, 1)
         self.assertEquals(gs.max, 2)

         plot_utils.set_lim("range", gs.get, gs.set)
         self.assertEquals(gs.min, 0.9)
         self.assertEquals(gs.max, 2.1)

         plot_utils.set_lim((0, 100), gs.get, gs.set)
         self.assertEquals(gs.min, 0)
         self.assertEquals(gs.max, 100)

     def test_set_ylim(self):
         """Test that set_ylim() doesn't bomb"""

         _, ax = matplotlib.pyplot.subplots()

         plot_utils.set_ylim(ax, "default")
         plot_utils.set_ylim(ax, (0, 5))

     def test_set_xlim(self):
         """Test that set_xlim() doesn't bomb"""

         _, ax = matplotlib.pyplot.subplots()

         plot_utils.set_xlim(ax, "default")
         plot_utils.set_xlim(ax, (0, 5))

     def test_pre_plot_setup(self):
         """Test that plot_utils.pre_plot_setup() doesn't bomb"""
         plot_utils.pre_plot_setup(None, None)
         plot_utils.pre_plot_setup(height=9, width=None)
         plot_utils.pre_plot_setup(height=None, width=9)
         plot_utils.pre_plot_setup(3, 9)

         axis = plot_utils.pre_plot_setup(ncols=2)
         self.assertEquals(len(axis), 2)

         axis = plot_utils.pre_plot_setup(nrows=2, ncols=3)
         self.assertEquals(len(axis), 2)
         self.assertEquals(len(axis[0]), 3)
         self.assertEquals(len(axis[1]), 3)

     def test_post_plot_setup(self):
         """Test that post_plot_setup() doesn't bomb"""

         _, ax = matplotlib.pyplot.subplots()

         plot_utils.post_plot_setup(ax)
         plot_utils.post_plot_setup(ax, title="Foo")
         plot_utils.post_plot_setup(ax, ylim=(0, 72))
         plot_utils.post_plot_setup(ax, ylim="range")
         plot_utils.post_plot_setup(ax, xlabel="Bar")
         plot_utils.post_plot_setup(ax, xlim=(0, 100))
         plot_utils.post_plot_setup(ax, xlim="default")

     def test_plot_hist(self):
         """Test that plost_hist doesn't bomb"""
         data = pd.Series([1, 1, 2, 4])

         _, ax = matplotlib.pyplot.subplots()
         plot_utils.plot_hist(data, ax, "Foo", "m", 20, "numbers", (0, 4), "default")

 class TestPlotUtilsNeedTrace(BaseTestThermal):
     def __init__(self, *args, **kwargs):
         super(TestPlotUtilsNeedTrace, self).__init__(*args, **kwargs)
         self.map_label = {"00000000,00000039": "A53", "00000000,00000006": "A57"}
         self.actor_order = ["GPU", "A57", "A53"]

     def test_number_freq_plots(self):
         """Calculate the number of frequency plots correctly"""
         trace_out = ""

         trace = trappy.FTrace()
         self.assertEquals(plot_utils.number_freq_plots([trace], self.map_label),
                           3)

         # Strip out devfreq traces
         with open("trace.txt") as fin:
             for line in fin:
                 if ("thermal_power_devfreq_get_power:" not in line) and \
                    ("thermal_power_devfreq_limit:" not in line):
                     trace_out += line

         with open("trace.txt", "w") as fout:
             fout.write(trace_out)

         # Without devfreq there should only be two plots
         trace = trappy.FTrace()
         self.assertEquals(plot_utils.number_freq_plots([trace], self.map_label),
                           2)

     def test_plot_temperature(self):
         """Test that plot_utils.plot_temperature() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_temperature(traces, ylim="default")
         matplotlib.pyplot.close('all')

     def test_plot_load(self):
         """Test that plot_utils.plot_load() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_load(traces, self.map_label, height=5)
         matplotlib.pyplot.close('all')

     def test_plot_load_single_trace(self):
         """plot_utils.plot_load() can be used with a single trace"""
         trace = trappy.FTrace()

         plot_utils.plot_load([trace], self.map_label)
         matplotlib.pyplot.close('all')

     def test_plot_allfreqs(self):
         """Test that plot_utils.plot_allfreqs() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_allfreqs(traces, self.map_label, width=20)
         matplotlib.pyplot.close('all')

     def test_plot_allfreqs_single_trace(self):
         """plot_utils.plot_allfreqs() can be used with a single trace"""
         trace = trappy.FTrace()

         plot_utils.plot_allfreqs([trace], self.map_label)
         matplotlib.pyplot.close('all')

     def test_plot_allfreqs_one_actor(self):
         """plot_utils.plot_allfreqs work when there is only one actor"""

         in_data = """     kworker/4:1-397   [004]   720.741349: thermal_power_cpu_get: cpus=00000000,00000006 freq=1400000 raw_cpu_power=189 load={23, 12} power=14
      kworker/4:1-397   [004]   720.741679: thermal_power_cpu_limit: cpus=00000000,00000006 freq=1400000 cdev_state=1 power=14"""

         with open("trace.txt", "w") as fout:
             fout.write(in_data)

         traces = [trappy.FTrace(name="first"), trappy.FTrace(name="second")]
         map_label = {"00000000,00000006": "A57"}

         plot_utils.plot_allfreqs(traces, map_label)
         matplotlib.pyplot.close("all")

     def test_plot_controller(self):
         """plot_utils.plot_controller() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_controller(traces, height=5)
         matplotlib.pyplot.close('all')

     def test_plot_input_power(self):
         """plot_utils.plot_input_power() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_input_power(traces, self.actor_order, width=20)
         matplotlib.pyplot.close('all')

     def test_plot_output_power(self):
         """plot_utils.plot_output_power() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_output_power(traces, self.actor_order, width=20)
         matplotlib.pyplot.close('all')

     def test_plot_freq_hists(self):
         """plot_utils.plot_freq_hists() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_freq_hists(traces, self.map_label)
         matplotlib.pyplot.close('all')

     def test_plot_freq_hists_single_trace(self):
         """plot_utils.plot_freq_hists() works with a single trace"""

         trace = trappy.FTrace()

         plot_utils.plot_freq_hists([trace], self.map_label)
         matplotlib.pyplot.close('all')

     def test_plot_temperature_hist(self):
         """plot_utils.plot_temperature_hist() doesn't bomb"""

         trace1 = trappy.FTrace(name="first")
         trace2 = trappy.FTrace(name="second")
         traces = [trace1, trace2]

         plot_utils.plot_temperature_hist(traces)
         matplotlib.pyplot.close('all')
	# Copyright 2015-2017 ARM Limited
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#


	import unittest
	import matplotlib
	import pandas as pd

	from test_thermal import BaseTestThermal
	import trappy
	import plot_utils

	class TestPlotUtils(unittest.TestCase):
	def test_normalize_title(self):
	"""Test normalize_title"""
	self.assertEquals(plot_utils.normalize_title("Foo", ""), "Foo")
	self.assertEquals(plot_utils.normalize_title("Foo", "Bar"), "Bar - Foo")

	def test_set_lim(self):
	"""Test set_lim()"""

	class GetSet(object):
	def __init__(self):
	self.min = 1
	self.max = 2

	def get(self):
	return (self.min, self.max)

	def set(self, minimum, maximum):
	self.min = minimum
	self.max = maximum

	gs = GetSet()

	plot_utils.set_lim("default", gs.get, gs.set)
	self.assertEquals(gs.min, 1)
	self.assertEquals(gs.max, 2)

	plot_utils.set_lim("range", gs.get, gs.set)
	self.assertEquals(gs.min, 0.9)
	self.assertEquals(gs.max, 2.1)

	plot_utils.set_lim((0, 100), gs.get, gs.set)
	self.assertEquals(gs.min, 0)
	self.assertEquals(gs.max, 100)

	def test_set_ylim(self):
	"""Test that set_ylim() doesn't bomb"""

	_, ax = matplotlib.pyplot.subplots()

	plot_utils.set_ylim(ax, "default")
	plot_utils.set_ylim(ax, (0, 5))

	def test_set_xlim(self):
	"""Test that set_xlim() doesn't bomb"""

	_, ax = matplotlib.pyplot.subplots()

	plot_utils.set_xlim(ax, "default")
	plot_utils.set_xlim(ax, (0, 5))

	def test_pre_plot_setup(self):
	"""Test that plot_utils.pre_plot_setup() doesn't bomb"""
	plot_utils.pre_plot_setup(None, None)
	plot_utils.pre_plot_setup(height=9, width=None)
	plot_utils.pre_plot_setup(height=None, width=9)
	plot_utils.pre_plot_setup(3, 9)

	axis = plot_utils.pre_plot_setup(ncols=2)
	self.assertEquals(len(axis), 2)

	axis = plot_utils.pre_plot_setup(nrows=2, ncols=3)
	self.assertEquals(len(axis), 2)
	self.assertEquals(len(axis[0]), 3)
	self.assertEquals(len(axis[1]), 3)

	def test_post_plot_setup(self):
	"""Test that post_plot_setup() doesn't bomb"""

	_, ax = matplotlib.pyplot.subplots()

	plot_utils.post_plot_setup(ax)
	plot_utils.post_plot_setup(ax, title="Foo")
	plot_utils.post_plot_setup(ax, ylim=(0, 72))
	plot_utils.post_plot_setup(ax, ylim="range")
	plot_utils.post_plot_setup(ax, xlabel="Bar")
	plot_utils.post_plot_setup(ax, xlim=(0, 100))
	plot_utils.post_plot_setup(ax, xlim="default")

	def test_plot_hist(self):
	"""Test that plost_hist doesn't bomb"""
	data = pd.Series([1, 1, 2, 4])

	_, ax = matplotlib.pyplot.subplots()
	plot_utils.plot_hist(data, ax, "Foo", "m", 20, "numbers", (0, 4), "default")

	class TestPlotUtilsNeedTrace(BaseTestThermal):
	def __init__(self, args, *kwargs):
	super(TestPlotUtilsNeedTrace, self).__init__(args, *kwargs)
	self.map_label = {"00000000,00000039": "A53", "00000000,00000006": "A57"}
	self.actor_order = ["GPU", "A57", "A53"]

	def test_number_freq_plots(self):
	"""Calculate the number of frequency plots correctly"""
	trace_out = ""

	trace = trappy.FTrace()
	self.assertEquals(plot_utils.number_freq_plots([trace], self.map_label),
	3)

	# Strip out devfreq traces
	with open("trace.txt") as fin:
	for line in fin:
	if ("thermal_power_devfreq_get_power:" not in line) and \
	("thermal_power_devfreq_limit:" not in line):
	trace_out += line

	with open("trace.txt", "w") as fout:
	fout.write(trace_out)

	# Without devfreq there should only be two plots
	trace = trappy.FTrace()
	self.assertEquals(plot_utils.number_freq_plots([trace], self.map_label),
	2)

	def test_plot_temperature(self):
	"""Test that plot_utils.plot_temperature() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_temperature(traces, ylim="default")
	matplotlib.pyplot.close('all')

	def test_plot_load(self):
	"""Test that plot_utils.plot_load() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_load(traces, self.map_label, height=5)
	matplotlib.pyplot.close('all')

	def test_plot_load_single_trace(self):
	"""plot_utils.plot_load() can be used with a single trace"""
	trace = trappy.FTrace()

	plot_utils.plot_load([trace], self.map_label)
	matplotlib.pyplot.close('all')

	def test_plot_allfreqs(self):
	"""Test that plot_utils.plot_allfreqs() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_allfreqs(traces, self.map_label, width=20)
	matplotlib.pyplot.close('all')

	def test_plot_allfreqs_single_trace(self):
	"""plot_utils.plot_allfreqs() can be used with a single trace"""
	trace = trappy.FTrace()

	plot_utils.plot_allfreqs([trace], self.map_label)
	matplotlib.pyplot.close('all')

	def test_plot_allfreqs_one_actor(self):
	"""plot_utils.plot_allfreqs work when there is only one actor"""

	in_data = """ kworker/4:1-397 [004] 720.741349: thermal_power_cpu_get: cpus=00000000,00000006 freq=1400000 raw_cpu_power=189 load={23, 12} power=14
	kworker/4:1-397 [004] 720.741679: thermal_power_cpu_limit: cpus=00000000,00000006 freq=1400000 cdev_state=1 power=14"""

	with open("trace.txt", "w") as fout:
	fout.write(in_data)

	traces = [trappy.FTrace(name="first"), trappy.FTrace(name="second")]
	map_label = {"00000000,00000006": "A57"}

	plot_utils.plot_allfreqs(traces, map_label)
	matplotlib.pyplot.close("all")

	def test_plot_controller(self):
	"""plot_utils.plot_controller() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_controller(traces, height=5)
	matplotlib.pyplot.close('all')

	def test_plot_input_power(self):
	"""plot_utils.plot_input_power() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_input_power(traces, self.actor_order, width=20)
	matplotlib.pyplot.close('all')

	def test_plot_output_power(self):
	"""plot_utils.plot_output_power() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_output_power(traces, self.actor_order, width=20)
	matplotlib.pyplot.close('all')

	def test_plot_freq_hists(self):
	"""plot_utils.plot_freq_hists() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_freq_hists(traces, self.map_label)
	matplotlib.pyplot.close('all')

	def test_plot_freq_hists_single_trace(self):
	"""plot_utils.plot_freq_hists() works with a single trace"""

	trace = trappy.FTrace()

	plot_utils.plot_freq_hists([trace], self.map_label)
	matplotlib.pyplot.close('all')

	def test_plot_temperature_hist(self):
	"""plot_utils.plot_temperature_hist() doesn't bomb"""

	trace1 = trappy.FTrace(name="first")
	trace2 = trappy.FTrace(name="second")
	traces = [trace1, trace2]

	plot_utils.plot_temperature_hist(traces)
	matplotlib.pyplot.close('all')