def __init__(self):
QtGui.QMainWindow.__init__(self)
pathcandidates = [
os.path.curdir,
os.path.join(os.path.pardir, "qt"),
os.path.join(imp.find_module("mtb")[1], "qt")
]
self.gui = None
for path in pathcandidates:
try:
uifile = os.path.join(path, "task_frontend.ui")
self.gui = uic.loadUi(uifile)
print "loaded " + uifile
break
except IOError:
pass
if self.gui is None:
raise IOError("could not find task_frontend.ui")
self.__lastrow = -1
self.__lastvar = None
self.__enable_cell_checks = False
self.__enable_sink_checks = False
for s in TYPE_STRINGS:
self.gui.param_type.addItem(s)
self.connect(self.gui.open_json, SIGNAL("activated()"),
lambda: self.load_json_file())
self.connect(self.gui.save_json, SIGNAL("activated()"),
lambda: self.save_json_file())
self.connect(self.gui.import_tb, SIGNAL("activated()"),
lambda: self.import_tb())
self.connect(self.gui.import_grc, SIGNAL("activated()"),
lambda: self.import_grc())
self.connect(self.gui.variable_table, SIGNAL("cellClicked(int,int)"),
lambda row, col: self._cell_clicked(row, col))
self.connect(self.gui.variable_table, SIGNAL("cellActivated(int,int)"),
lambda row, col: self._cell_clicked(row, col))
self.connect(self.gui.variable_table, SIGNAL("cellChanged(int,int)"),
lambda row, col: self._cell_changed(row, col))
self.connect(self.gui.sink_table, SIGNAL("cellChanged(int,int)"),
lambda row, col: self._sink_changed(row, col))
self.connect(self.gui.add_button, SIGNAL("clicked()"),
lambda: self._add_var())
self.connect(self.gui.add_sink_button, SIGNAL("clicked()"),
lambda: self._add_sink())
self.connect(self.gui.del_sink_button, SIGNAL("clicked()"),
lambda: self._del_sink())
self.connect(self.gui.run_task, SIGNAL("activated()"),
lambda: self.run_task())
self.connect(self.gui.param_type, SIGNAL("currentIndexChanged(int)"),
lambda idx: self._type_changed(idx))
self.connect(self.gui.task_type, SIGNAL("currentIndexChanged(int)"),
lambda idx: self._task_type_changed(idx))
self.gui.show()
self.task = task()
self.__enable_cell_checks = True
def test_009_grid(self):
task = benchmarking_task.task()
ns = [5, 7, 13]
for n in ns:
task.set_parametrization("var_range_"+str(n), benchmarking_task.parametrization(benchmarking_task.LIN_RANGE, (0,1,n)))
ns.append(2)
task.set_parametrization("var_list", benchmarking_task.parametrization(benchmarking_task.LIST, [0,1]))
ns.append(1)
task.set_parametrization("var_static", benchmarking_task.parametrization(benchmarking_task.STATIC, numpy.pi))
total_should = reduce(lambda x,y: x*y, ns, 1)
grid, constants, names = task.get_parameter_set()
self.assertEqual(len(grid) , total_should)
self.assertSequenceEqual(constants, [task.variables["var_static"].get_values()])
def test_005_task_json_save(self):
task = benchmarking_task.task("class", "module")
task.set_parametrization("static_test_variable",
benchmarking_task.parametrization(benchmarking_task.STATIC,numpy.pi, numpy.dtype("float32").type))
task.set_parametrization("range_test_variable",
benchmarking_task.parametrization(benchmarking_task.LIN_RANGE, self.range_spec) )
task.set_parametrization("list_test_variable",
benchmarking_task.parametrization(benchmarking_task.LIST, [10,20,30], int) )
task.sinks = self.ref_task_dic["sinks"]
outfile = tempfile.NamedTemporaryFile(delete=False,suffix=".json")
task.save(outfile)
outfile.close()
infile = open(outfile.name)
resdic = json.load(infile)
self.assert_(helpers.comp_dict(resdic, self.ref_task_dic))
infile.close()
def test_008_total_points(self):
task = benchmarking_task.task()
l_noise = 100
l_signal = 13
task.set_parametrization("noise_power", benchmarking_task.parametrization(benchmarking_task.LIST, range(l_noise), int))
task.set_parametrization("signal_power", benchmarking_task.parametrization(benchmarking_task.LIN_RANGE, (0,10,l_signal)))
task.set_parametrization("sample_rate", benchmarking_task.parametrization())
task.set_parametrization("threshold", benchmarking_task.parametrization(benchmarking_task.STATIC, 1.0/numpy.pi))
points = task.get_total_points()
self.assertEqual(points, l_noise*l_signal * 1 * 1)
n = 20
tasks = task.split(n)
self.assertEqual(len(tasks), 20)
self.assertEqual(sum([t.get_total_points() for t in tasks]), points)
def test_005_task_json_save(self):
task = benchmarking_task.task("class", "module")
task.set_parametrization(
"static_test_variable",
benchmarking_task.parametrization(benchmarking_task.STATIC,
numpy.pi,
numpy.dtype("float32").type))
task.set_parametrization(
"range_test_variable",
benchmarking_task.parametrization(benchmarking_task.LIN_RANGE,
self.range_spec))
task.set_parametrization(
"list_test_variable",
benchmarking_task.parametrization(benchmarking_task.LIST,
[10, 20, 30], int))
outfile = StringIO.StringIO()
task.save(outfile)
outfile.seek(0)
resdic = json.load(outfile)
self.assert_(helpers.comp_dict(resdic, self.ref_task_dic))
def __init__(self):
QtGui.QMainWindow.__init__(self)
pathcandidates = [os.path.curdir, os.path.join(os.path.pardir, "qt"), os.path.join(imp.find_module("mtb")[1], "qt")]
self.gui = None
for path in pathcandidates:
try:
uifile = os.path.join(path, "task_frontend.ui")
self.gui = uic.loadUi(uifile)
print "loaded "+uifile
break
except IOError:
pass
if self.gui is None:
raise IOError("could not find task_frontend.ui")
self.__lastrow = -1
self.__lastvar = None
self.__enable_cell_checks = False
self.__enable_sink_checks = False
for s in TYPE_STRINGS:
self.gui.param_type.addItem(s)
self.connect(self.gui.open_json, SIGNAL("activated()"), lambda: self.load_json_file())
self.connect(self.gui.save_json, SIGNAL("activated()"), lambda: self.save_json_file())
self.connect(self.gui.import_tb, SIGNAL("activated()"), lambda: self.import_tb())
self.connect(self.gui.import_grc, SIGNAL("activated()"), lambda: self.import_grc())
self.connect(self.gui.variable_table, SIGNAL("cellClicked(int,int)"), lambda row, col: self._cell_clicked(row,col))
self.connect(self.gui.variable_table, SIGNAL("cellActivated(int,int)"), lambda row, col: self._cell_clicked(row,col))
self.connect(self.gui.variable_table, SIGNAL("cellChanged(int,int)"), lambda row, col: self._cell_changed(row,col))
self.connect(self.gui.sink_table, SIGNAL("cellChanged(int,int)"), lambda row, col: self._sink_changed(row,col))
self.connect(self.gui.add_button, SIGNAL("clicked()"), lambda: self._add_var())
self.connect(self.gui.add_sink_button, SIGNAL("clicked()"), lambda: self._add_sink())
self.connect(self.gui.del_sink_button, SIGNAL("clicked()"), lambda: self._del_sink())
self.connect(self.gui.run_task, SIGNAL("activated()"), lambda: self.run_task())
self.connect(self.gui.param_type, SIGNAL("currentIndexChanged(int)"), lambda idx: self._type_changed(idx))
self.connect(self.gui.task_type, SIGNAL("currentIndexChanged(int)"), lambda idx: self._task_type_changed(idx))
self.gui.show()
self.task = task()
self.__enable_cell_checks = True
