blacken test code

4 files changed, 1089 insertions, 704 deletions

diff --git a/test/test_codegen.py b/test/test_codegen.py
index 981117b..ce565d6 100755
--- a/test/test_codegen.py
+++ b/test/test_codegen.py
@@ -5,84 +5,74 @@ from dfatool.codegen import get_simulated_accountingmethod
 import unittest
 
 example_json_1 = {
-    'parameters': ['datarate', 'txbytes', 'txpower'],
-    'initial_param_values': [None, None, None],
-    'state': {
-        'IDLE': {
-            'power': {
-                'static': 5,
-            }
-        },
-        'TX': {
-            'power': {
-                'static': 100,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * parameter(txpower)',
-                    'regression_args': [100, 2]
+    "parameters": ["datarate", "txbytes", "txpower"],
+    "initial_param_values": [None, None, None],
+    "state": {
+        "IDLE": {"power": {"static": 5,}},
+        "TX": {
+            "power": {
+                "static": 100,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)"
+                    " * parameter(txpower)",
+                    "regression_args": [100, 2],
                 },
             }
         },
     },
-    'transitions': [
+    "transitions": [
         {
-            'name': 'init',
-            'origin': ['UNINITIALIZED', 'IDLE'],
-            'destination': 'IDLE',
-            'duration': {
-                'static': 50000,
-            },
-            'set_param': {
-                'txpower': 10
-            },
+            "name": "init",
+            "origin": ["UNINITIALIZED", "IDLE"],
+            "destination": "IDLE",
+            "duration": {"static": 50000,},
+            "set_param": {"txpower": 10},
         },
         {
-            'name': 'setTxPower',
-            'origin': 'IDLE',
-            'destination': 'IDLE',
-            'duration': {'static': 120},
-            'energy ': {'static': 10000},
-            'arg_to_param_map': {0: 'txpower'},
-            'argument_values': [[10, 20, 30]],
+            "name": "setTxPower",
+            "origin": "IDLE",
+            "destination": "IDLE",
+            "duration": {"static": 120},
+            "energy ": {"static": 10000},
+            "arg_to_param_map": {0: "txpower"},
+            "argument_values": [[10, 20, 30]],
         },
         {
-            'name': 'send',
-            'origin': 'IDLE',
-            'destination': 'TX',
-            'duration': {
-                'static': 10,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * function_arg(1)',
-                    'regression_args': [48, 8],
+            "name": "send",
+            "origin": "IDLE",
+            "destination": "TX",
+            "duration": {
+                "static": 10,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)" " * function_arg(1)",
+                    "regression_args": [48, 8],
                 },
             },
-            'energy': {
-                'static': 3,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * function_arg(1)',
-                    'regression_args': [3, 5],
+            "energy": {
+                "static": 3,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)" " * function_arg(1)",
+                    "regression_args": [3, 5],
                 },
             },
-            'arg_to_param_map': {1: 'txbytes'},
-            'argument_values': [['"foo"', '"hodor"'], [3, 5]],
-            'argument_combination': 'zip',
+            "arg_to_param_map": {1: "txbytes"},
+            "argument_values": [['"foo"', '"hodor"'], [3, 5]],
+            "argument_combination": "zip",
         },
         {
-            'name': 'txComplete',
-            'origin': 'TX',
-            'destination': 'IDLE',
-            'is_interrupt': 1,
-            'timeout': {
-                'static': 2000,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * parameter(txbytes)',
-                    'regression_args': [500, 16],
+            "name": "txComplete",
+            "origin": "TX",
+            "destination": "IDLE",
+            "is_interrupt": 1,
+            "timeout": {
+                "static": 2000,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)"
+                    " * parameter(txbytes)",
+                    "regression_args": [500, 16],
                 },
             },
-        }
+        },
     ],
 }
 
@@ -91,9 +81,11 @@ class TestCG(unittest.TestCase):
     def test_statetransition_immediate(self):
         pta = PTA.from_json(example_json_1)
         pta.set_random_energy_model()
-        pta.state['IDLE'].power.value = 9
-        cg = get_simulated_accountingmethod('static_statetransition_immediate')(pta, 1000000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint8_t')
-        cg.current_state = pta.state['IDLE']
+        pta.state["IDLE"].power.value = 9
+        cg = get_simulated_accountingmethod("static_statetransition_immediate")(
+            pta, 1000000, "uint8_t", "uint8_t", "uint8_t", "uint8_t"
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(7)
         self.assertEqual(cg.get_energy(), 9 * 7)
         pta.transitions[1].energy.value = 123
@@ -102,8 +94,10 @@ class TestCG(unittest.TestCase):
         cg.pass_transition(pta.transitions[1])
         self.assertEqual(cg.get_energy(), (9 * 7 + 123 + 123) % 256)
 
-        cg = get_simulated_accountingmethod('static_statetransition_immediate')(pta, 100000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint8_t')
-        cg.current_state = pta.state['IDLE']
+        cg = get_simulated_accountingmethod("static_statetransition_immediate")(
+            pta, 100000, "uint8_t", "uint8_t", "uint8_t", "uint8_t"
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(7)
         self.assertEqual(cg.get_energy(), 0)
         cg.sleep(15)
@@ -111,8 +105,10 @@ class TestCG(unittest.TestCase):
         cg.sleep(90)
         self.assertEqual(cg.get_energy(), 900 % 256)
 
-        cg = get_simulated_accountingmethod('static_statetransition_immediate')(pta, 100000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint16_t')
-        cg.current_state = pta.state['IDLE']
+        cg = get_simulated_accountingmethod("static_statetransition_immediate")(
+            pta, 100000, "uint8_t", "uint8_t", "uint8_t", "uint16_t"
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(7)
         self.assertEqual(cg.get_energy(), 0)
         cg.sleep(15)
@@ -120,10 +116,12 @@ class TestCG(unittest.TestCase):
         cg.sleep(90)
         self.assertEqual(cg.get_energy(), 900)
 
-        pta.state['IDLE'].power.value = 9  # -> 90 uW
+        pta.state["IDLE"].power.value = 9  # -> 90 uW
         pta.transitions[1].energy.value = 1  # -> 100 pJ
-        cg = get_simulated_accountingmethod('static_statetransition_immediate')(pta, 1000000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint8_t', 1e-5, 1e-5, 1e-10)
-        cg.current_state = pta.state['IDLE']
+        cg = get_simulated_accountingmethod("static_statetransition_immediate")(
+            pta, 1000000, "uint8_t", "uint8_t", "uint8_t", "uint8_t", 1e-5, 1e-5, 1e-10
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(10)  # 10 us
         self.assertEqual(cg.get_energy(), 90 * 10)
         cg.pass_transition(pta.transitions[1])
@@ -134,9 +132,11 @@ class TestCG(unittest.TestCase):
     def test_statetransition(self):
         pta = PTA.from_json(example_json_1)
         pta.set_random_energy_model()
-        pta.state['IDLE'].power.value = 9
-        cg = get_simulated_accountingmethod('static_statetransition')(pta, 1000000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint8_t')
-        cg.current_state = pta.state['IDLE']
+        pta.state["IDLE"].power.value = 9
+        cg = get_simulated_accountingmethod("static_statetransition")(
+            pta, 1000000, "uint8_t", "uint8_t", "uint8_t", "uint8_t"
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(7)
         self.assertEqual(cg.get_energy(), 9 * 7)
         pta.transitions[1].energy.value = 123
@@ -148,9 +148,11 @@ class TestCG(unittest.TestCase):
     def test_state_immediate(self):
         pta = PTA.from_json(example_json_1)
         pta.set_random_energy_model()
-        pta.state['IDLE'].power.value = 9
-        cg = get_simulated_accountingmethod('static_state_immediate')(pta, 1000000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint8_t')
-        cg.current_state = pta.state['IDLE']
+        pta.state["IDLE"].power.value = 9
+        cg = get_simulated_accountingmethod("static_state_immediate")(
+            pta, 1000000, "uint8_t", "uint8_t", "uint8_t", "uint8_t"
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(7)
         self.assertEqual(cg.get_energy(), 9 * 7)
         pta.transitions[1].energy.value = 123
@@ -162,9 +164,11 @@ class TestCG(unittest.TestCase):
     def test_state(self):
         pta = PTA.from_json(example_json_1)
         pta.set_random_energy_model()
-        pta.state['IDLE'].power.value = 9
-        cg = get_simulated_accountingmethod('static_state')(pta, 1000000, 'uint8_t', 'uint8_t', 'uint8_t', 'uint8_t')
-        cg.current_state = pta.state['IDLE']
+        pta.state["IDLE"].power.value = 9
+        cg = get_simulated_accountingmethod("static_state")(
+            pta, 1000000, "uint8_t", "uint8_t", "uint8_t", "uint8_t"
+        )
+        cg.current_state = pta.state["IDLE"]
         cg.sleep(7)
         self.assertEqual(cg.get_energy(), 9 * 7)
         pta.transitions[1].energy.value = 123
@@ -173,8 +177,10 @@ class TestCG(unittest.TestCase):
         cg.pass_transition(pta.transitions[1])
         self.assertEqual(cg.get_energy(), 9 * 7)
 
-        cg = get_simulated_accountingmethod('static_state')(pta, 1000000, 'uint8_t', 'uint16_t', 'uint16_t', 'uint16_t')
+        cg = get_simulated_accountingmethod("static_state")(
+            pta, 1000000, "uint8_t", "uint16_t", "uint16_t", "uint16_t"
+        )
 
 
-if __name__ == '__main__':
+if __name__ == "__main__":
     unittest.main()
diff --git a/test/test_pta.py b/test/test_pta.py
index 9f0778d..d43e702 100755
--- a/test/test_pta.py
+++ b/test/test_pta.py
@@ -5,88 +5,79 @@ import unittest
 import yaml
 
 example_json_1 = {
-    'parameters': ['datarate', 'txbytes', 'txpower'],
-    'initial_param_values': [None, None, None],
-    'state': {
-        'IDLE': {
-            'power': {
-                'static': 5,
-            }
-        },
-        'TX': {
-            'power': {
-                'static': 10000,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * parameter(txpower)',
-                    'regression_args': [10000, 2]
+    "parameters": ["datarate", "txbytes", "txpower"],
+    "initial_param_values": [None, None, None],
+    "state": {
+        "IDLE": {"power": {"static": 5,}},
+        "TX": {
+            "power": {
+                "static": 10000,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)"
+                    " * parameter(txpower)",
+                    "regression_args": [10000, 2],
                 },
             }
         },
     },
-    'transitions': [
+    "transitions": [
         {
-            'name': 'init',
-            'origin': ['UNINITIALIZED', 'IDLE'],
-            'destination': 'IDLE',
-            'duration': {
-                'static': 50000,
-            },
-            'set_param': {
-                'txpower': 10
-            },
+            "name": "init",
+            "origin": ["UNINITIALIZED", "IDLE"],
+            "destination": "IDLE",
+            "duration": {"static": 50000,},
+            "set_param": {"txpower": 10},
         },
         {
-            'name': 'setTxPower',
-            'origin': 'IDLE',
-            'destination': 'IDLE',
-            'duration': {'static': 120},
-            'energy ': {'static': 10000},
-            'arg_to_param_map': {0: 'txpower'},
-            'argument_values': [[10, 20, 30]],
+            "name": "setTxPower",
+            "origin": "IDLE",
+            "destination": "IDLE",
+            "duration": {"static": 120},
+            "energy ": {"static": 10000},
+            "arg_to_param_map": {0: "txpower"},
+            "argument_values": [[10, 20, 30]],
         },
         {
-            'name': 'send',
-            'origin': 'IDLE',
-            'destination': 'TX',
-            'duration': {
-                'static': 10,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * function_arg(1)',
-                    'regression_args': [48, 8],
+            "name": "send",
+            "origin": "IDLE",
+            "destination": "TX",
+            "duration": {
+                "static": 10,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)" " * function_arg(1)",
+                    "regression_args": [48, 8],
                 },
             },
-            'energy': {
-                'static': 3,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * function_arg(1)',
-                    'regression_args': [3, 5],
+            "energy": {
+                "static": 3,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)" " * function_arg(1)",
+                    "regression_args": [3, 5],
                 },
             },
-            'arg_to_param_map': {1: 'txbytes'},
-            'argument_values': [['"foo"', '"hodor"'], [3, 5]],
-            'argument_combination': 'zip',
+            "arg_to_param_map": {1: "txbytes"},
+            "argument_values": [['"foo"', '"hodor"'], [3, 5]],
+            "argument_combination": "zip",
         },
         {
-            'name': 'txComplete',
-            'origin': 'TX',
-            'destination': 'IDLE',
-            'is_interrupt': 1,
-            'timeout': {
-                'static': 2000,
-                'function': {
-                    'raw': 'regression_arg(0) + regression_arg(1)'
-                    ' * parameter(txbytes)',
-                    'regression_args': [500, 16],
+            "name": "txComplete",
+            "origin": "TX",
+            "destination": "IDLE",
+            "is_interrupt": 1,
+            "timeout": {
+                "static": 2000,
+                "function": {
+                    "raw": "regression_arg(0) + regression_arg(1)"
+                    " * parameter(txbytes)",
+                    "regression_args": [500, 16],
                 },
             },
-        }
+        },
     ],
 }
 
-example_yaml_1 = yaml.safe_load("""
+example_yaml_1 = yaml.safe_load(
+    """
 codegen:
   instance: cc1200
 
@@ -124,9 +115,11 @@ transition:
     src: [TX]
     dst: IDLE
     is_interrupt: true
-""")
+"""
+)
 
-example_yaml_2 = yaml.safe_load("""
+example_yaml_2 = yaml.safe_load(
+    """
 codegen:
   instance: cc1200
 
@@ -169,9 +162,11 @@ transition:
     src: [TX]
     dst: IDLE
     is_interrupt: true
-""")
+"""
+)
 
-example_yaml_3 = yaml.safe_load("""
+example_yaml_3 = yaml.safe_load(
+    """
 codegen:
   instance: nrf24l01
   includes: ['driver/nrf24l01.h']
@@ -260,12 +255,17 @@ transition:
       - name: blocking
         values: [1, 1, 1, 1, 1, 1]
     argument_combination: zip
-""")
+"""
+)
 
 
-def dfs_tran_to_name(runs: list, with_args: bool = False, with_param: bool = False) -> list:
+def dfs_tran_to_name(
+    runs: list, with_args: bool = False, with_param: bool = False
+) -> list:
     if with_param:
-        return list(map(lambda run: list(map(lambda x: (x[0].name, x[1], x[2]), run)), runs))
+        return list(
+            map(lambda run: list(map(lambda x: (x[0].name, x[1], x[2]), run)), runs)
+        )
     if with_args:
         return list(map(lambda run: list(map(lambda x: (x[0].name, x[1]), run)), runs))
     return list(map(lambda run: list(map(lambda x: (x[0].name), run)), runs))
@@ -273,117 +273,175 @@ def dfs_tran_to_name(runs: list, with_args: bool = False, with_param: bool = Fal
 
 class TestPTA(unittest.TestCase):
     def test_dfs(self):
-        pta = PTA(['IDLE', 'TX'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'TX', 'send')
-        pta.add_transition('TX', 'IDLE', 'txComplete')
-        self.assertEqual(dfs_tran_to_name(pta.dfs(0), False), [['init']])
-        self.assertEqual(dfs_tran_to_name(pta.dfs(1), False), [['init', 'send']])
-        self.assertEqual(dfs_tran_to_name(pta.dfs(2), False), [['init', 'send', 'txComplete']])
-        self.assertEqual(dfs_tran_to_name(pta.dfs(3), False), [['init', 'send', 'txComplete', 'send']])
-
-        pta = PTA(['IDLE'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'IDLE', 'set1')
-        pta.add_transition('IDLE', 'IDLE', 'set2')
-        self.assertEqual(dfs_tran_to_name(pta.dfs(0), False), [['init']])
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(1), False)), [['init', 'set1'], ['init', 'set2']])
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(2), False)), [['init', 'set1', 'set1'],
-                                                                       ['init', 'set1', 'set2'],
-                                                                       ['init', 'set2', 'set1'],
-                                                                       ['init', 'set2', 'set2']])
+        pta = PTA(["IDLE", "TX"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "TX", "send")
+        pta.add_transition("TX", "IDLE", "txComplete")
+        self.assertEqual(dfs_tran_to_name(pta.dfs(0), False), [["init"]])
+        self.assertEqual(dfs_tran_to_name(pta.dfs(1), False), [["init", "send"]])
+        self.assertEqual(
+            dfs_tran_to_name(pta.dfs(2), False), [["init", "send", "txComplete"]]
+        )
+        self.assertEqual(
+            dfs_tran_to_name(pta.dfs(3), False),
+            [["init", "send", "txComplete", "send"]],
+        )
+
+        pta = PTA(["IDLE"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "IDLE", "set1")
+        pta.add_transition("IDLE", "IDLE", "set2")
+        self.assertEqual(dfs_tran_to_name(pta.dfs(0), False), [["init"]])
+        self.assertEqual(
+            sorted(dfs_tran_to_name(pta.dfs(1), False)),
+            [["init", "set1"], ["init", "set2"]],
+        )
+        self.assertEqual(
+            sorted(dfs_tran_to_name(pta.dfs(2), False)),
+            [
+                ["init", "set1", "set1"],
+                ["init", "set1", "set2"],
+                ["init", "set2", "set1"],
+                ["init", "set2", "set2"],
+            ],
+        )
 
     def test_dfs_trace_filter(self):
-        pta = PTA(['IDLE'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'IDLE', 'set1')
-        pta.add_transition('IDLE', 'IDLE', 'set2')
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(2, trace_filter=[['init', 'set1', 'set2'], ['init', 'set2', 'set1']]), False)),
-                         [['init', 'set1', 'set2'], ['init', 'set2', 'set1']])
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(2, trace_filter=[['init', 'set1', '$'], ['init', 'set2', '$']]), False)),
-                         [['init', 'set1'], ['init', 'set2']])
+        pta = PTA(["IDLE"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "IDLE", "set1")
+        pta.add_transition("IDLE", "IDLE", "set2")
+        self.assertEqual(
+            sorted(
+                dfs_tran_to_name(
+                    pta.dfs(
+                        2,
+                        trace_filter=[
+                            ["init", "set1", "set2"],
+                            ["init", "set2", "set1"],
+                        ],
+                    ),
+                    False,
+                )
+            ),
+            [["init", "set1", "set2"], ["init", "set2", "set1"]],
+        )
+        self.assertEqual(
+            sorted(
+                dfs_tran_to_name(
+                    pta.dfs(
+                        2, trace_filter=[["init", "set1", "$"], ["init", "set2", "$"]]
+                    ),
+                    False,
+                )
+            ),
+            [["init", "set1"], ["init", "set2"]],
+        )
 
     def test_dfs_accepting(self):
-        pta = PTA(['IDLE', 'TX'], accepting_states=['IDLE'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'TX', 'send')
-        pta.add_transition('TX', 'IDLE', 'txComplete')
-        self.assertEqual(dfs_tran_to_name(pta.dfs(0), False), [['init']])
+        pta = PTA(["IDLE", "TX"], accepting_states=["IDLE"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "TX", "send")
+        pta.add_transition("TX", "IDLE", "txComplete")
+        self.assertEqual(dfs_tran_to_name(pta.dfs(0), False), [["init"]])
         self.assertEqual(dfs_tran_to_name(pta.dfs(1), False), [])
-        self.assertEqual(dfs_tran_to_name(pta.dfs(2), False), [['init', 'send', 'txComplete']])
+        self.assertEqual(
+            dfs_tran_to_name(pta.dfs(2), False), [["init", "send", "txComplete"]]
+        )
         self.assertEqual(dfs_tran_to_name(pta.dfs(3), False), [])
 
     def test_dfs_objects(self):
-        pta = PTA(['IDLE', 'TX'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'TX', 'send')
-        pta.add_transition('TX', 'IDLE', 'txComplete')
+        pta = PTA(["IDLE", "TX"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "TX", "send")
+        pta.add_transition("TX", "IDLE", "txComplete")
         traces = list(pta.dfs(2))
         self.assertEqual(len(traces), 1)
         trace = traces[0]
         self.assertEqual(len(trace), 3)
-        self.assertEqual(trace[0][0].name, 'init')
-        self.assertEqual(trace[1][0].name, 'send')
-        self.assertEqual(trace[2][0].name, 'txComplete')
+        self.assertEqual(trace[0][0].name, "init")
+        self.assertEqual(trace[1][0].name, "send")
+        self.assertEqual(trace[2][0].name, "txComplete")
         self.assertEqual(pta.get_transition_id(trace[0][0]), 0)
         self.assertEqual(pta.get_transition_id(trace[1][0]), 1)
         self.assertEqual(pta.get_transition_id(trace[2][0]), 2)
 
     def test_dfs_with_sleep(self):
-        pta = PTA(['IDLE', 'TX'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'TX', 'send')
-        pta.add_transition('TX', 'IDLE', 'txComplete')
+        pta = PTA(["IDLE", "TX"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "TX", "send")
+        pta.add_transition("TX", "IDLE", "txComplete")
         traces = list(pta.dfs(2, sleep=10))
         self.assertEqual(len(traces), 1)
         trace = traces[0]
         self.assertEqual(len(trace), 6)
         self.assertIsNone(trace[0][0])
-        self.assertEqual(trace[1][0].name, 'init')
+        self.assertEqual(trace[1][0].name, "init")
         self.assertIsNone(trace[2][0])
-        self.assertEqual(trace[3][0].name, 'send')
+        self.assertEqual(trace[3][0].name, "send")
         self.assertIsNone(trace[4][0])
-        self.assertEqual(trace[5][0].name, 'txComplete')
+        self.assertEqual(trace[5][0].name, "txComplete")
         self.assertEqual(pta.get_transition_id(trace[1][0]), 0)
         self.assertEqual(pta.get_transition_id(trace[3][0]), 1)
         self.assertEqual(pta.get_transition_id(trace[5][0]), 2)
 
     def test_bfs(self):
-        pta = PTA(['IDLE', 'TX'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'TX', 'send')
-        pta.add_transition('TX', 'IDLE', 'txComplete')
-        self.assertEqual(dfs_tran_to_name(pta.bfs(0), False), [['init']])
-        self.assertEqual(dfs_tran_to_name(pta.bfs(1), False), [['init'], ['init', 'send']])
-        self.assertEqual(dfs_tran_to_name(pta.bfs(2), False), [['init'], ['init', 'send'], ['init', 'send', 'txComplete']])
-        self.assertEqual(dfs_tran_to_name(pta.bfs(3), False), [['init'], ['init', 'send'], ['init', 'send', 'txComplete'], ['init', 'send', 'txComplete', 'send']])
-
-        pta = PTA(['IDLE'])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init')
-        pta.add_transition('IDLE', 'IDLE', 'set1')
-        pta.add_transition('IDLE', 'IDLE', 'set2')
-        self.assertEqual(dfs_tran_to_name(pta.bfs(0), False), [['init']])
-        self.assertEqual(sorted(dfs_tran_to_name(pta.bfs(1), False)), [['init'], ['init', 'set1'], ['init', 'set2']])
-        self.assertEqual(sorted(dfs_tran_to_name(pta.bfs(2), False)), [['init'],
-                                                                       ['init', 'set1'],
-                                                                       ['init', 'set1', 'set1'],
-                                                                       ['init', 'set1', 'set2'],
-                                                                       ['init', 'set2'],
-                                                                       ['init', 'set2', 'set1'],
-                                                                       ['init', 'set2', 'set2']])
+        pta = PTA(["IDLE", "TX"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "TX", "send")
+        pta.add_transition("TX", "IDLE", "txComplete")
+        self.assertEqual(dfs_tran_to_name(pta.bfs(0), False), [["init"]])
+        self.assertEqual(
+            dfs_tran_to_name(pta.bfs(1), False), [["init"], ["init", "send"]]
+        )
+        self.assertEqual(
+            dfs_tran_to_name(pta.bfs(2), False),
+            [["init"], ["init", "send"], ["init", "send", "txComplete"]],
+        )
+        self.assertEqual(
+            dfs_tran_to_name(pta.bfs(3), False),
+            [
+                ["init"],
+                ["init", "send"],
+                ["init", "send", "txComplete"],
+                ["init", "send", "txComplete", "send"],
+            ],
+        )
+
+        pta = PTA(["IDLE"])
+        pta.add_transition("UNINITIALIZED", "IDLE", "init")
+        pta.add_transition("IDLE", "IDLE", "set1")
+        pta.add_transition("IDLE", "IDLE", "set2")
+        self.assertEqual(dfs_tran_to_name(pta.bfs(0), False), [["init"]])
+        self.assertEqual(
+            sorted(dfs_tran_to_name(pta.bfs(1), False)),
+            [["init"], ["init", "set1"], ["init", "set2"]],
+        )
+        self.assertEqual(
+            sorted(dfs_tran_to_name(pta.bfs(2), False)),
+            [
+                ["init"],
+                ["init", "set1"],
+                ["init", "set1", "set1"],
+                ["init", "set1", "set2"],
+                ["init", "set2"],
+                ["init", "set2", "set1"],
+                ["init", "set2", "set2"],
+            ],
+        )
 
     def test_from_json(self):
         pta = PTA.from_json(example_json_1)
-        self.assertEqual(pta.parameters, ['datarate', 'txbytes', 'txpower'])
-        self.assertEqual(pta.state['UNINITIALIZED'].name, 'UNINITIALIZED')
-        self.assertEqual(pta.state['IDLE'].name, 'IDLE')
-        self.assertEqual(pta.state['TX'].name, 'TX')
+        self.assertEqual(pta.parameters, ["datarate", "txbytes", "txpower"])
+        self.assertEqual(pta.state["UNINITIALIZED"].name, "UNINITIALIZED")
+        self.assertEqual(pta.state["IDLE"].name, "IDLE")
+        self.assertEqual(pta.state["TX"].name, "TX")
         self.assertEqual(len(pta.transitions), 5)
-        self.assertEqual(pta.transitions[0].name, 'init')
-        self.assertEqual(pta.transitions[1].name, 'init')
-        self.assertEqual(pta.transitions[2].name, 'setTxPower')
-        self.assertEqual(pta.transitions[3].name, 'send')
-        self.assertEqual(pta.transitions[4].name, 'txComplete')
+        self.assertEqual(pta.transitions[0].name, "init")
+        self.assertEqual(pta.transitions[1].name, "init")
+        self.assertEqual(pta.transitions[2].name, "setTxPower")
+        self.assertEqual(pta.transitions[3].name, "send")
+        self.assertEqual(pta.transitions[4].name, "txComplete")
 
     # def test_to_json(self):
     #    pta = PTA.from_json(example_json_1)
@@ -394,368 +452,471 @@ class TestPTA(unittest.TestCase):
 
     def test_from_json_dfs_arg(self):
         pta = PTA.from_json(example_json_1)
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(1), False)), [['init', 'init'], ['init', 'send'], ['init', 'setTxPower']])
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(1, with_arguments=True), True)),
-                         [
-            [('init', ()), ('init', ())],
-            [('init', ()), ('send', ('"foo"', 3))],
-            [('init', ()), ('send', ('"hodor"', 5))],
-            [('init', ()), ('setTxPower', (10,))],
-            [('init', ()), ('setTxPower', (20,))],
-            [('init', ()), ('setTxPower', (30,))],
-        ]
+        self.assertEqual(
+            sorted(dfs_tran_to_name(pta.dfs(1), False)),
+            [["init", "init"], ["init", "send"], ["init", "setTxPower"]],
+        )
+        self.assertEqual(
+            sorted(dfs_tran_to_name(pta.dfs(1, with_arguments=True), True)),
+            [
+                [("init", ()), ("init", ())],
+                [("init", ()), ("send", ('"foo"', 3))],
+                [("init", ()), ("send", ('"hodor"', 5))],
+                [("init", ()), ("setTxPower", (10,))],
+                [("init", ()), ("setTxPower", (20,))],
+                [("init", ()), ("setTxPower", (30,))],
+            ],
         )
 
     def test_from_json_dfs_param(self):
         pta = PTA.from_json(example_json_1)
         no_param = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 10,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 10,
         }
         param_tx3 = {
-            'datarate': None,
-            'txbytes': 3,
-            'txpower': 10,
+            "datarate": None,
+            "txbytes": 3,
+            "txpower": 10,
         }
         param_tx5 = {
-            'datarate': None,
-            'txbytes': 5,
-            'txpower': 10,
+            "datarate": None,
+            "txbytes": 5,
+            "txpower": 10,
         }
         param_txp10 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 10,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 10,
         }
         param_txp20 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 20,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 20,
         }
         param_txp30 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 30,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 30,
         }
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(1, with_arguments=True, with_parameters=True), True, True)),
-                         [
-            [('init', (), no_param), ('init', (), no_param)],
-            [('init', (), no_param), ('send', ('"foo"', 3), param_tx3)],
-            [('init', (), no_param), ('send', ('"hodor"', 5), param_tx5)],
-            [('init', (), no_param), ('setTxPower', (10,), param_txp10)],
-            [('init', (), no_param), ('setTxPower', (20,), param_txp20)],
-            [('init', (), no_param), ('setTxPower', (30,), param_txp30)],
-        ]
+        self.assertEqual(
+            sorted(
+                dfs_tran_to_name(
+                    pta.dfs(1, with_arguments=True, with_parameters=True), True, True
+                )
+            ),
+            [
+                [("init", (), no_param), ("init", (), no_param)],
+                [("init", (), no_param), ("send", ('"foo"', 3), param_tx3)],
+                [("init", (), no_param), ("send", ('"hodor"', 5), param_tx5)],
+                [("init", (), no_param), ("setTxPower", (10,), param_txp10)],
+                [("init", (), no_param), ("setTxPower", (20,), param_txp20)],
+                [("init", (), no_param), ("setTxPower", (30,), param_txp30)],
+            ],
         )
 
     def test_from_json_function(self):
         pta = PTA.from_json(example_json_1)
-        self.assertEqual(pta.state['TX'].get_energy(1000, {'datarate': 10, 'txbytes': 6, 'txpower': 10}), 1000 * (10000 + 2 * 10))
-        self.assertEqual(pta.transitions[4].get_timeout({'datarate': 10, 'txbytes': 6, 'txpower': 10}), 500 + 16 * 6)
+        self.assertEqual(
+            pta.state["TX"].get_energy(
+                1000, {"datarate": 10, "txbytes": 6, "txpower": 10}
+            ),
+            1000 * (10000 + 2 * 10),
+        )
+        self.assertEqual(
+            pta.transitions[4].get_timeout(
+                {"datarate": 10, "txbytes": 6, "txpower": 10}
+            ),
+            500 + 16 * 6,
+        )
 
     def test_from_yaml_dfs_param(self):
         pta = PTA.from_yaml(example_yaml_1)
         no_param = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': None,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": None,
         }
         param_tx3 = {
-            'datarate': None,
-            'txbytes': 3,
-            'txpower': None,
+            "datarate": None,
+            "txbytes": 3,
+            "txpower": None,
         }
         param_tx5 = {
-            'datarate': None,
-            'txbytes': 5,
-            'txpower': None,
+            "datarate": None,
+            "txbytes": 5,
+            "txpower": None,
         }
         param_txp10 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 10,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 10,
         }
         param_txp20 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 20,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 20,
         }
         param_txp30 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 30,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 30,
         }
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(1, with_arguments=True, with_parameters=True), True, True)),
-                         [
-            [('init', (), no_param), ('init', (), no_param)],
-            [('init', (), no_param), ('send', ('"foo"', 3), param_tx3)],
-            [('init', (), no_param), ('send', ('"hodor"', 5), param_tx5)],
-            [('init', (), no_param), ('setTxPower', (10,), param_txp10)],
-            [('init', (), no_param), ('setTxPower', (20,), param_txp20)],
-            [('init', (), no_param), ('setTxPower', (30,), param_txp30)],
-        ]
+        self.assertEqual(
+            sorted(
+                dfs_tran_to_name(
+                    pta.dfs(1, with_arguments=True, with_parameters=True), True, True
+                )
+            ),
+            [
+                [("init", (), no_param), ("init", (), no_param)],
+                [("init", (), no_param), ("send", ('"foo"', 3), param_tx3)],
+                [("init", (), no_param), ("send", ('"hodor"', 5), param_tx5)],
+                [("init", (), no_param), ("setTxPower", (10,), param_txp10)],
+                [("init", (), no_param), ("setTxPower", (20,), param_txp20)],
+                [("init", (), no_param), ("setTxPower", (30,), param_txp30)],
+            ],
         )
 
     def test_normalization(self):
         pta = PTA.from_yaml(example_yaml_2)
         no_param = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': None,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": None,
         }
         param_tx3 = {
-            'datarate': None,
-            'txbytes': 3,
-            'txpower': None,
+            "datarate": None,
+            "txbytes": 3,
+            "txpower": None,
         }
         param_tx6 = {
-            'datarate': None,
-            'txbytes': 6,
-            'txpower': None,
+            "datarate": None,
+            "txbytes": 6,
+            "txpower": None,
         }
         param_txp10 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': -6,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": -6,
         }
         param_txp20 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 4,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 4,
         }
         param_txp30 = {
-            'datarate': None,
-            'txbytes': None,
-            'txpower': 14,
+            "datarate": None,
+            "txbytes": None,
+            "txpower": 14,
         }
-        self.assertEqual(sorted(dfs_tran_to_name(pta.dfs(1, with_arguments=True, with_parameters=True), True, True)),
-                         [
-            [('init', (), no_param), ('init', (), no_param)],
-            [('init', (), no_param), ('send', ('FOO',), param_tx3)],
-            [('init', (), no_param), ('send', ('LONGER',), param_tx6)],
-            [('init', (), no_param), ('setTxPower', (10,), param_txp10)],
-            [('init', (), no_param), ('setTxPower', (20,), param_txp20)],
-            [('init', (), no_param), ('setTxPower', (30,), param_txp30)],
-        ]
+        self.assertEqual(
+            sorted(
+                dfs_tran_to_name(
+                    pta.dfs(1, with_arguments=True, with_parameters=True), True, True
+                )
+            ),
+            [
+                [("init", (), no_param), ("init", (), no_param)],
+                [("init", (), no_param), ("send", ("FOO",), param_tx3)],
+                [("init", (), no_param), ("send", ("LONGER",), param_tx6)],
+                [("init", (), no_param), ("setTxPower", (10,), param_txp10)],
+                [("init", (), no_param), ("setTxPower", (20,), param_txp20)],
+                [("init", (), no_param), ("setTxPower", (30,), param_txp30)],
+            ],
         )
 
     def test_shrink(self):
         pta = PTA.from_yaml(example_yaml_3)
         pta.shrink_argument_values()
-        self.assertEqual(pta.transitions[0].name, 'setAutoAck')
-        self.assertEqual(pta.transitions[1].name, 'setPALevel')
-        self.assertEqual(pta.transitions[2].name, 'setRetries')
-        self.assertEqual(pta.transitions[3].name, 'setup')
-        self.assertEqual(pta.transitions[4].name, 'setup')
-        self.assertEqual(pta.transitions[5].name, 'write')
+        self.assertEqual(pta.transitions[0].name, "setAutoAck")
+        self.assertEqual(pta.transitions[1].name, "setPALevel")
+        self.assertEqual(pta.transitions[2].name, "setRetries")
+        self.assertEqual(pta.transitions[3].name, "setup")
+        self.assertEqual(pta.transitions[4].name, "setup")
+        self.assertEqual(pta.transitions[5].name, "write")
         self.assertEqual(pta.transitions[0].argument_values, [[0, 1]])
-        self.assertEqual(pta.transitions[1].argument_values, [['Nrf24l01::RF24_PA_MIN', 'Nrf24l01::RF24_PA_MAX']])
+        self.assertEqual(
+            pta.transitions[1].argument_values,
+            [["Nrf24l01::RF24_PA_MIN", "Nrf24l01::RF24_PA_MAX"]],
+        )
         self.assertEqual(pta.transitions[2].argument_values, [[0, 15], [0, 15]])
-        self.assertEqual(pta.transitions[5].argument_values, [['"foo"', '"foo"', '"foofoofoo"', '"foofoofoo"', '"123456789012345678901234567890"',
-                                                               '"123456789012345678901234567890"'], [3, 3, 9, 9, 30, 30], [0, 1, 0, 1, 0, 1], [1, 1, 1, 1, 1, 1]])
+        self.assertEqual(
+            pta.transitions[5].argument_values,
+            [
+                [
+                    '"foo"',
+                    '"foo"',
+                    '"foofoofoo"',
+                    '"foofoofoo"',
+                    '"123456789012345678901234567890"',
+                    '"123456789012345678901234567890"',
+                ],
+                [3, 3, 9, 9, 30, 30],
+                [0, 1, 0, 1, 0, 1],
+                [1, 1, 1, 1, 1, 1],
+            ],
+        )
 
     def test_simulation(self):
         pta = PTA()
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', duration=50000)
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10)
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True)
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition("UNINITIALIZED", "IDLE", "init", duration=50000)
+        pta.add_transition("IDLE", "TX", "send", energy=3, duration=10)
+        pta.add_transition("TX", "IDLE", "txComplete", timeout=2000, is_interrupt=True)
         trace = [
-            ['init'],
+            ["init"],
             [None, 10000000],
-            ['send', 'foo', 3],
+            ["send", "foo", 3],
             [None, 5000000],
-            ['send', 'foo', 3]
+            ["send", "foo", 3],
         ]
-        expected_energy = 5. * 10000000 + 3 + 100 * 2000 + 5 * 5000000 + 3 + 100 * 2000
+        expected_energy = 5.0 * 10000000 + 3 + 100 * 2000 + 5 * 5000000 + 3 + 100 * 2000
         expected_duration = 50000 + 10000000 + 10 + 2000 + 5000000 + 10 + 2000
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
+        self.assertEqual(result.end_state.name, "IDLE")
         self.assertEqual(result.parameters, {})
 
     def test_simulation_param_none(self):
-        pta = PTA(parameters=['txpower', 'length'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000)
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10)
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True)
+        pta = PTA(parameters=["txpower", "length"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition(
+            "UNINITIALIZED", "IDLE", "init", energy=500000, duration=50000
+        )
+        pta.add_transition("IDLE", "TX", "send", energy=3, duration=10)
+        pta.add_transition("TX", "IDLE", "txComplete", timeout=2000, is_interrupt=True)
         trace = [
-            ['init'],
+            ["init"],
         ]
         expected_energy = 500000
         expected_duration = 50000
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': None,
-            'length': None
-        })
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": None, "length": None})
 
     def test_simulation_param_update_function(self):
-        pta = PTA(parameters=['txpower', 'length'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000)
-        pta.add_transition('IDLE', 'IDLE', 'setTxPower', energy=10000, duration=120,
-                           param_update_function=lambda param, arg: {**param, 'txpower': arg[0]})
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10)
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True)
-        trace = [
-            ['init'],
-            ['setTxPower', 10]
-        ]
+        pta = PTA(parameters=["txpower", "length"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition(
+            "UNINITIALIZED", "IDLE", "init", energy=500000, duration=50000
+        )
+        pta.add_transition(
+            "IDLE",
+            "IDLE",
+            "setTxPower",
+            energy=10000,
+            duration=120,
+            param_update_function=lambda param, arg: {**param, "txpower": arg[0]},
+        )
+        pta.add_transition("IDLE", "TX", "send", energy=3, duration=10)
+        pta.add_transition("TX", "IDLE", "txComplete", timeout=2000, is_interrupt=True)
+        trace = [["init"], ["setTxPower", 10]]
         expected_energy = 510000
         expected_duration = 50120
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': 10,
-            'length': None
-        })
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": 10, "length": None})
 
     def test_simulation_arg_to_param_map(self):
-        pta = PTA(parameters=['txpower', 'length'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000)
-        pta.add_transition('IDLE', 'IDLE', 'setTxPower', energy=10000, duration=120,
-                           arg_to_param_map={0: 'txpower'})
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10)
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True)
-        trace = [
-            ['init'],
-            ['setTxPower', 10]
-        ]
+        pta = PTA(parameters=["txpower", "length"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition(
+            "UNINITIALIZED", "IDLE", "init", energy=500000, duration=50000
+        )
+        pta.add_transition(
+            "IDLE",
+            "IDLE",
+            "setTxPower",
+            energy=10000,
+            duration=120,
+            arg_to_param_map={0: "txpower"},
+        )
+        pta.add_transition("IDLE", "TX", "send", energy=3, duration=10)
+        pta.add_transition("TX", "IDLE", "txComplete", timeout=2000, is_interrupt=True)
+        trace = [["init"], ["setTxPower", 10]]
         expected_energy = 510000
         expected_duration = 50120
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': 10,
-            'length': None
-        })
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": 10, "length": None})
 
     def test_simulation_set_param(self):
-        pta = PTA(parameters=['txpower', 'length'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000, set_param={'txpower': 10})
+        pta = PTA(parameters=["txpower", "length"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition(
+            "UNINITIALIZED",
+            "IDLE",
+            "init",
+            energy=500000,
+            duration=50000,
+            set_param={"txpower": 10},
+        )
         trace = [
-            ['init'],
+            ["init"],
         ]
         expected_energy = 500000
         expected_duration = 50000
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': 10,
-            'length': None
-        })
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": 10, "length": None})
 
     def test_simulation_arg_function(self):
-        pta = PTA(parameters=['txpower', 'length'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000)
-        pta.add_transition('IDLE', 'IDLE', 'setTxPower', energy=10000, duration=120,
-                           param_update_function=lambda param, arg: {**param, 'txpower': arg[0]})
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10,
-                           energy_function=lambda param, arg: 3 + 5 * arg[1],
-                           duration_function=lambda param, arg: 48 + 8 * arg[1])
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True)
+        pta = PTA(parameters=["txpower", "length"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition(
+            "UNINITIALIZED", "IDLE", "init", energy=500000, duration=50000
+        )
+        pta.add_transition(
+            "IDLE",
+            "IDLE",
+            "setTxPower",
+            energy=10000,
+            duration=120,
+            param_update_function=lambda param, arg: {**param, "txpower": arg[0]},
+        )
+        pta.add_transition(
+            "IDLE",
+            "TX",
+            "send",
+            energy=3,
+            duration=10,
+            energy_function=lambda param, arg: 3 + 5 * arg[1],
+            duration_function=lambda param, arg: 48 + 8 * arg[1],
+        )
+        pta.add_transition("TX", "IDLE", "txComplete", timeout=2000, is_interrupt=True)
         trace = [
-            ['init'],
-            ['setTxPower', 10],
-            ['send', 'foo', 3],
+            ["init"],
+            ["setTxPower", 10],
+            ["send", "foo", 3],
         ]
         expected_energy = 500000 + 10000 + (3 + 5 * 3) + (2000 * 100)
         expected_duration = 50000 + 120 + (48 + 8 * 3) + 2000
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': 10,
-            'length': None
-        })
-
-        pta = PTA(parameters=['txpower', 'length'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100)
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000)
-        pta.add_transition('IDLE', 'IDLE', 'setTxPower', energy=10000, duration=120,
-                           param_update_function=lambda param, arg: {**param, 'txpower': arg[0]})
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10,
-                           energy_function=lambda param, arg: 3 + 5 * arg[1],
-                           duration_function=lambda param, arg: 48 + 8 * arg[1])
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True)
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": 10, "length": None})
+
+        pta = PTA(parameters=["txpower", "length"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state("TX", power=100)
+        pta.add_transition(
+            "UNINITIALIZED", "IDLE", "init", energy=500000, duration=50000
+        )
+        pta.add_transition(
+            "IDLE",
+            "IDLE",
+            "setTxPower",
+            energy=10000,
+            duration=120,
+            param_update_function=lambda param, arg: {**param, "txpower": arg[0]},
+        )
+        pta.add_transition(
+            "IDLE",
+            "TX",
+            "send",
+            energy=3,
+            duration=10,
+            energy_function=lambda param, arg: 3 + 5 * arg[1],
+            duration_function=lambda param, arg: 48 + 8 * arg[1],
+        )
+        pta.add_transition("TX", "IDLE", "txComplete", timeout=2000, is_interrupt=True)
         trace = [
-            ['init'],
-            ['setTxPower', 10],
-            ['send', 'foobar', 6],
+            ["init"],
+            ["setTxPower", 10],
+            ["send", "foobar", 6],
         ]
         expected_energy = 500000 + 10000 + (3 + 5 * 6) + (2000 * 100)
         expected_duration = 50000 + 120 + (48 + 8 * 6) + 2000
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': 10,
-            'length': None
-        })
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": 10, "length": None})
 
     def test_simulation_param_function(self):
-        pta = PTA(parameters=['length', 'txpower'])
-        pta.add_state('IDLE', power=5)
-        pta.add_state('TX', power=100,
-                      power_function=lambda param, arg: 1000 + 2 * param[1])
-        pta.add_transition('UNINITIALIZED', 'IDLE', 'init', energy=500000, duration=50000)
-        pta.add_transition('IDLE', 'IDLE', 'setTxPower', energy=10000, duration=120,
-                           param_update_function=lambda param, arg: {**param, 'txpower': arg[0]})
-        pta.add_transition('IDLE', 'TX', 'send', energy=3, duration=10,
-                           energy_function=lambda param, arg: 3 + 5 * arg[1],
-                           param_update_function=lambda param, arg: {**param, 'length': arg[1]})
-        pta.add_transition('TX', 'IDLE', 'txComplete', timeout=2000, is_interrupt=True,
-                           timeout_function=lambda param, arg: 500 + 16 * param[0])
+        pta = PTA(parameters=["length", "txpower"])
+        pta.add_state("IDLE", power=5)
+        pta.add_state(
+            "TX", power=100, power_function=lambda param, arg: 1000 + 2 * param[1]
+        )
+        pta.add_transition(
+            "UNINITIALIZED", "IDLE", "init", energy=500000, duration=50000
+        )
+        pta.add_transition(
+            "IDLE",
+            "IDLE",
+            "setTxPower",
+            energy=10000,
+            duration=120,
+            param_update_function=lambda param, arg: {**param, "txpower": arg[0]},
+        )
+        pta.add_transition(
+            "IDLE",
+            "TX",
+            "send",
+            energy=3,
+            duration=10,
+            energy_function=lambda param, arg: 3 + 5 * arg[1],
+            param_update_function=lambda param, arg: {**param, "length": arg[1]},
+        )
+        pta.add_transition(
+            "TX",
+            "IDLE",
+            "txComplete",
+            timeout=2000,
+            is_interrupt=True,
+            timeout_function=lambda param, arg: 500 + 16 * param[0],
+        )
         trace = [
-            ['init'],
-            ['setTxPower', 10],
-            ['send', 'foo', 3],
+            ["init"],
+            ["setTxPower", 10],
+            ["send", "foo", 3],
         ]
-        expected_energy = 500000 + 10000 + (3 + 5 * 3) + (1000 + 2 * 10) * (500 + 16 * 3)
+        expected_energy = (
+            500000 + 10000 + (3 + 5 * 3) + (1000 + 2 * 10) * (500 + 16 * 3)
+        )
         expected_duration = 50000 + 120 + 10 + (500 + 16 * 3)
         result = pta.simulate(trace)
         self.assertAlmostEqual(result.energy, expected_energy * 1e-12, places=12)
         self.assertAlmostEqual(result.duration, expected_duration * 1e-6, places=6)
-        self.assertEqual(result.end_state.name, 'IDLE')
-        self.assertEqual(result.parameters, {
-            'txpower': 10,
-            'length': 3
-        })
+        self.assertEqual(result.end_state.name, "IDLE")
+        self.assertEqual(result.parameters, {"txpower": 10, "length": 3})
 
     def test_get_X_expensive_state(self):
         pta = PTA.from_json(example_json_1)
-        self.assertEqual(pta.get_least_expensive_state(), pta.state['IDLE'])
-        self.assertEqual(pta.get_most_expensive_state(), pta.state['TX'])
+        self.assertEqual(pta.get_least_expensive_state(), pta.state["IDLE"])
+        self.assertEqual(pta.get_most_expensive_state(), pta.state["TX"])
         # self.assertAlmostEqual(pta.min_duration_until_energy_overflow(), (2**32 - 1) * 1e-12 / 10e-3, places=9)
         # self.assertAlmostEqual(pta.min_duration_until_energy_overflow(energy_granularity=1e-9), (2**32 - 1) * 1e-9 / 10e-3, places=9)
-        self.assertAlmostEqual(pta.max_duration_until_energy_overflow(), (2**32 - 1) * 1e-12 / 5e-6, places=9)
-        self.assertAlmostEqual(pta.max_duration_until_energy_overflow(energy_granularity=1e-9), (2**32 - 1) * 1e-9 / 5e-6, places=9)
+        self.assertAlmostEqual(
+            pta.max_duration_until_energy_overflow(),
+            (2 ** 32 - 1) * 1e-12 / 5e-6,
+            places=9,
+        )
+        self.assertAlmostEqual(
+            pta.max_duration_until_energy_overflow(energy_granularity=1e-9),
+            (2 ** 32 - 1) * 1e-9 / 5e-6,
+            places=9,
+        )
 
 
-if __name__ == '__main__':
+if __name__ == "__main__":
     unittest.main()
diff --git a/test/test_ptamodel.py b/test/test_ptamodel.py
index 7e398bd..3237450 100755
--- a/test/test_ptamodel.py
+++ b/test/test_ptamodel.py
@@ -8,241 +8,384 @@ import pytest
 
 class TestModels(unittest.TestCase):
     def test_model_singlefile_rf24(self):
-        raw_data = RawData(['test-data/20170220_164723_RF24_int_A.tar'])
+        raw_data = RawData(["test-data/20170220_164723_RF24_int_A.tar"])
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = PTAModel(by_name, parameters, arg_count)
-        self.assertEqual(model.states(), 'POWERDOWN RX STANDBY1 TX'.split(' '))
-        self.assertEqual(model.transitions(), 'begin epilogue powerDown powerUp setDataRate_num setPALevel_num startListening stopListening write_nb'.split(' '))
+        self.assertEqual(model.states(), "POWERDOWN RX STANDBY1 TX".split(" "))
+        self.assertEqual(
+            model.transitions(),
+            "begin epilogue powerDown powerUp setDataRate_num setPALevel_num startListening stopListening write_nb".split(
+                " "
+            ),
+        )
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('POWERDOWN', 'power'), 0, places=0)
-        self.assertAlmostEqual(static_model('RX', 'power'), 52254, places=0)
-        self.assertAlmostEqual(static_model('STANDBY1', 'power'), 7, places=0)
-        self.assertAlmostEqual(static_model('TX', 'power'), 18414, places=0)
-        self.assertAlmostEqual(static_model('begin', 'energy'), 1652249, places=0)
-        self.assertAlmostEqual(static_model('epilogue', 'energy'), 15449, places=0)
-        self.assertAlmostEqual(static_model('powerDown', 'energy'), 4547, places=0)
-        self.assertAlmostEqual(static_model('powerUp', 'energy'), 1641765, places=0)
-        self.assertAlmostEqual(static_model('setDataRate_num', 'energy'), 7749, places=0)
-        self.assertAlmostEqual(static_model('setPALevel_num', 'energy'), 4700, places=0)
-        self.assertAlmostEqual(static_model('startListening', 'energy'), 4309602, places=0)
-        self.assertAlmostEqual(static_model('stopListening', 'energy'), 193775, places=0)
-        self.assertAlmostEqual(static_model('write_nb', 'energy'), 218339, places=0)
-        self.assertAlmostEqual(static_model('begin', 'rel_energy_prev'), 1649571, places=0)
-        self.assertAlmostEqual(static_model('epilogue', 'rel_energy_prev'), -744114, places=0)
-        self.assertAlmostEqual(static_model('powerDown', 'rel_energy_prev'), 3854, places=0)
-        self.assertAlmostEqual(static_model('powerUp', 'rel_energy_prev'), 1641381, places=0)
-        self.assertAlmostEqual(static_model('setDataRate_num', 'rel_energy_prev'), 6777, places=0)
-        self.assertAlmostEqual(static_model('setPALevel_num', 'rel_energy_prev'), 3728, places=0)
-        self.assertAlmostEqual(static_model('startListening', 'rel_energy_prev'), 4307769, places=0)
-        self.assertAlmostEqual(static_model('stopListening', 'rel_energy_prev'), -13533693, places=0)
-        self.assertAlmostEqual(static_model('write_nb', 'rel_energy_prev'), 214618, places=0)
-        self.assertAlmostEqual(static_model('begin', 'duration'), 19830, places=0)
-        self.assertAlmostEqual(static_model('epilogue', 'duration'), 40, places=0)
-        self.assertAlmostEqual(static_model('powerDown', 'duration'), 90, places=0)
-        self.assertAlmostEqual(static_model('powerUp', 'duration'), 10030, places=0)
-        self.assertAlmostEqual(static_model('setDataRate_num', 'duration'), 140, places=0)
-        self.assertAlmostEqual(static_model('setPALevel_num', 'duration'), 90, places=0)
-        self.assertAlmostEqual(static_model('startListening', 'duration'), 260, places=0)
-        self.assertAlmostEqual(static_model('stopListening', 'duration'), 260, places=0)
-        self.assertAlmostEqual(static_model('write_nb', 'duration'), 510, places=0)
-
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('POWERDOWN', 'power', 'datarate'), 0, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('POWERDOWN', 'power', 'txbytes'), 0, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('POWERDOWN', 'power', 'txpower'), 0, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('RX', 'power', 'datarate'), 0.99, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('RX', 'power', 'txbytes'), 0, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('RX', 'power', 'txpower'), 0.01, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('STANDBY1', 'power', 'datarate'), 0.04, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('STANDBY1', 'power', 'txbytes'), 0.35, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('STANDBY1', 'power', 'txpower'), 0.32, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('TX', 'power', 'datarate'), 1, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('TX', 'power', 'txbytes'), 0.09, places=2)
-        self.assertAlmostEqual(model.stats.param_dependence_ratio('TX', 'power', 'txpower'), 1, places=2)
+        self.assertAlmostEqual(static_model("POWERDOWN", "power"), 0, places=0)
+        self.assertAlmostEqual(static_model("RX", "power"), 52254, places=0)
+        self.assertAlmostEqual(static_model("STANDBY1", "power"), 7, places=0)
+        self.assertAlmostEqual(static_model("TX", "power"), 18414, places=0)
+        self.assertAlmostEqual(static_model("begin", "energy"), 1652249, places=0)
+        self.assertAlmostEqual(static_model("epilogue", "energy"), 15449, places=0)
+        self.assertAlmostEqual(static_model("powerDown", "energy"), 4547, places=0)
+        self.assertAlmostEqual(static_model("powerUp", "energy"), 1641765, places=0)
+        self.assertAlmostEqual(
+            static_model("setDataRate_num", "energy"), 7749, places=0
+        )
+        self.assertAlmostEqual(static_model("setPALevel_num", "energy"), 4700, places=0)
+        self.assertAlmostEqual(
+            static_model("startListening", "energy"), 4309602, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("stopListening", "energy"), 193775, places=0
+        )
+        self.assertAlmostEqual(static_model("write_nb", "energy"), 218339, places=0)
+        self.assertAlmostEqual(
+            static_model("begin", "rel_energy_prev"), 1649571, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("epilogue", "rel_energy_prev"), -744114, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("powerDown", "rel_energy_prev"), 3854, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("powerUp", "rel_energy_prev"), 1641381, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("setDataRate_num", "rel_energy_prev"), 6777, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("setPALevel_num", "rel_energy_prev"), 3728, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("startListening", "rel_energy_prev"), 4307769, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("stopListening", "rel_energy_prev"), -13533693, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("write_nb", "rel_energy_prev"), 214618, places=0
+        )
+        self.assertAlmostEqual(static_model("begin", "duration"), 19830, places=0)
+        self.assertAlmostEqual(static_model("epilogue", "duration"), 40, places=0)
+        self.assertAlmostEqual(static_model("powerDown", "duration"), 90, places=0)
+        self.assertAlmostEqual(static_model("powerUp", "duration"), 10030, places=0)
+        self.assertAlmostEqual(
+            static_model("setDataRate_num", "duration"), 140, places=0
+        )
+        self.assertAlmostEqual(static_model("setPALevel_num", "duration"), 90, places=0)
+        self.assertAlmostEqual(
+            static_model("startListening", "duration"), 260, places=0
+        )
+        self.assertAlmostEqual(static_model("stopListening", "duration"), 260, places=0)
+        self.assertAlmostEqual(static_model("write_nb", "duration"), 510, places=0)
+
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("POWERDOWN", "power", "datarate"),
+            0,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("POWERDOWN", "power", "txbytes"),
+            0,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("POWERDOWN", "power", "txpower"),
+            0,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("RX", "power", "datarate"),
+            0.99,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("RX", "power", "txbytes"), 0, places=2
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("RX", "power", "txpower"), 0.01, places=2
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("STANDBY1", "power", "datarate"),
+            0.04,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("STANDBY1", "power", "txbytes"),
+            0.35,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("STANDBY1", "power", "txpower"),
+            0.32,
+            places=2,
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("TX", "power", "datarate"), 1, places=2
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("TX", "power", "txbytes"), 0.09, places=2
+        )
+        self.assertAlmostEqual(
+            model.stats.param_dependence_ratio("TX", "power", "txpower"), 1, places=2
+        )
 
         param_model, param_info = model.get_fitted()
-        self.assertEqual(param_info('POWERDOWN', 'power'), None)
-        self.assertEqual(param_info('RX', 'power')['function']._model_str,
-                         '0 + regression_arg(0) + regression_arg(1) * np.sqrt(parameter(datarate))')
-        self.assertAlmostEqual(param_info('RX', 'power')['function']._regression_args[0], 48530.7, places=0)
-        self.assertAlmostEqual(param_info('RX', 'power')['function']._regression_args[1], 117, places=0)
-        self.assertEqual(param_info('STANDBY1', 'power'), None)
-        self.assertEqual(param_info('TX', 'power')['function']._model_str,
-                         '0 + regression_arg(0) + regression_arg(1) * 1/(parameter(datarate)) + regression_arg(2) * parameter(txpower) + regression_arg(3) * 1/(parameter(datarate)) * parameter(txpower)')
-        self.assertEqual(param_info('epilogue', 'timeout')['function']._model_str,
-                         '0 + regression_arg(0) + regression_arg(1) * 1/(parameter(datarate))')
-        self.assertEqual(param_info('stopListening', 'duration')['function']._model_str,
-                         '0 + regression_arg(0) + regression_arg(1) * 1/(parameter(datarate))')
-
-        self.assertAlmostEqual(param_model('RX', 'power', param=[1, None, None]), 48647, places=-1)
+        self.assertEqual(param_info("POWERDOWN", "power"), None)
+        self.assertEqual(
+            param_info("RX", "power")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * np.sqrt(parameter(datarate))",
+        )
+        self.assertAlmostEqual(
+            param_info("RX", "power")["function"]._regression_args[0], 48530.7, places=0
+        )
+        self.assertAlmostEqual(
+            param_info("RX", "power")["function"]._regression_args[1], 117, places=0
+        )
+        self.assertEqual(param_info("STANDBY1", "power"), None)
+        self.assertEqual(
+            param_info("TX", "power")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * 1/(parameter(datarate)) + regression_arg(2) * parameter(txpower) + regression_arg(3) * 1/(parameter(datarate)) * parameter(txpower)",
+        )
+        self.assertEqual(
+            param_info("epilogue", "timeout")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * 1/(parameter(datarate))",
+        )
+        self.assertEqual(
+            param_info("stopListening", "duration")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * 1/(parameter(datarate))",
+        )
+
+        self.assertAlmostEqual(
+            param_model("RX", "power", param=[1, None, None]), 48647, places=-1
+        )
 
     def test_model_singlefile_mmparam(self):
-        raw_data = RawData(['test-data/20161221_123347_mmparam.tar'])
+        raw_data = RawData(["test-data/20161221_123347_mmparam.tar"])
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = PTAModel(by_name, parameters, arg_count)
-        self.assertEqual(model.states(), 'OFF ON'.split(' '))
-        self.assertEqual(model.transitions(), 'off setBrightness'.split(' '))
+        self.assertEqual(model.states(), "OFF ON".split(" "))
+        self.assertEqual(model.transitions(), "off setBrightness".split(" "))
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('OFF', 'power'), 7124, places=0)
-        self.assertAlmostEqual(static_model('ON', 'power'), 17866, places=0)
-        self.assertAlmostEqual(static_model('off', 'energy'), 268079197, places=0)
-        self.assertAlmostEqual(static_model('setBrightness', 'energy'), 168912773, places=0)
-        self.assertAlmostEqual(static_model('off', 'rel_energy_prev'), 105040198, places=0)
-        self.assertAlmostEqual(static_model('setBrightness', 'rel_energy_prev'), 103745586, places=0)
-        self.assertAlmostEqual(static_model('off', 'duration'), 9130, places=0)
-        self.assertAlmostEqual(static_model('setBrightness', 'duration'), 9130, places=0)
+        self.assertAlmostEqual(static_model("OFF", "power"), 7124, places=0)
+        self.assertAlmostEqual(static_model("ON", "power"), 17866, places=0)
+        self.assertAlmostEqual(static_model("off", "energy"), 268079197, places=0)
+        self.assertAlmostEqual(
+            static_model("setBrightness", "energy"), 168912773, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("off", "rel_energy_prev"), 105040198, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("setBrightness", "rel_energy_prev"), 103745586, places=0
+        )
+        self.assertAlmostEqual(static_model("off", "duration"), 9130, places=0)
+        self.assertAlmostEqual(
+            static_model("setBrightness", "duration"), 9130, places=0
+        )
 
         param_lut_model = model.get_param_lut()
-        self.assertAlmostEqual(param_lut_model('OFF', 'power', param=[None, None]), 7124, places=0)
+        self.assertAlmostEqual(
+            param_lut_model("OFF", "power", param=[None, None]), 7124, places=0
+        )
         with self.assertRaises(KeyError):
-            param_lut_model('ON', 'power', param=[None, None])
-            param_lut_model('ON', 'power', param=['a'])
-            param_lut_model('ON', 'power', param=[0])
-        self.assertTrue(param_lut_model('ON', 'power', param=[0, 0]))
+            param_lut_model("ON", "power", param=[None, None])
+            param_lut_model("ON", "power", param=["a"])
+            param_lut_model("ON", "power", param=[0])
+        self.assertTrue(param_lut_model("ON", "power", param=[0, 0]))
         param_lut_model = model.get_param_lut(fallback=True)
-        self.assertAlmostEqual(param_lut_model('ON', 'power', param=[None, None]), 17866, places=0)
+        self.assertAlmostEqual(
+            param_lut_model("ON", "power", param=[None, None]), 17866, places=0
+        )
 
     def test_model_multifile_lm75x(self):
         testfiles = [
-            'test-data/20170116_124500_LM75x.tar',
-            'test-data/20170116_131306_LM75x.tar',
+            "test-data/20170116_124500_LM75x.tar",
+            "test-data/20170116_131306_LM75x.tar",
         ]
         raw_data = RawData(testfiles)
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = PTAModel(by_name, parameters, arg_count)
-        self.assertEqual(model.states(), 'ACTIVE POWEROFF'.split(' '))
-        self.assertEqual(model.transitions(), 'getTemp setHyst setOS shutdown start'.split(' '))
+        self.assertEqual(model.states(), "ACTIVE POWEROFF".split(" "))
+        self.assertEqual(
+            model.transitions(), "getTemp setHyst setOS shutdown start".split(" ")
+        )
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('ACTIVE', 'power'), 332, places=0)
-        self.assertAlmostEqual(static_model('POWEROFF', 'power'), 7, places=0)
-        self.assertAlmostEqual(static_model('getTemp', 'energy'), 26016748, places=0)
-        self.assertAlmostEqual(static_model('setHyst', 'energy'), 22082226, places=0)
-        self.assertAlmostEqual(static_model('setOS', 'energy'), 21774238, places=0)
-        self.assertAlmostEqual(static_model('shutdown', 'energy'), 11808160, places=0)
-        self.assertAlmostEqual(static_model('start', 'energy'), 12445302, places=0)
-        self.assertAlmostEqual(static_model('getTemp', 'rel_energy_prev'), 21722720, places=0)
-        self.assertAlmostEqual(static_model('setHyst', 'rel_energy_prev'), 19001499, places=0)
-        self.assertAlmostEqual(static_model('setOS', 'rel_energy_prev'), 18693283, places=0)
-        self.assertAlmostEqual(static_model('shutdown', 'rel_energy_prev'), 11746224, places=0)
-        self.assertAlmostEqual(static_model('start', 'rel_energy_prev'), 12391462, places=0)
-        self.assertAlmostEqual(static_model('getTemp', 'duration'), 12740, places=0)
-        self.assertAlmostEqual(static_model('setHyst', 'duration'), 9140, places=0)
-        self.assertAlmostEqual(static_model('setOS', 'duration'), 9140, places=0)
-        self.assertAlmostEqual(static_model('shutdown', 'duration'), 6980, places=0)
-        self.assertAlmostEqual(static_model('start', 'duration'), 6980, places=0)
+        self.assertAlmostEqual(static_model("ACTIVE", "power"), 332, places=0)
+        self.assertAlmostEqual(static_model("POWEROFF", "power"), 7, places=0)
+        self.assertAlmostEqual(static_model("getTemp", "energy"), 26016748, places=0)
+        self.assertAlmostEqual(static_model("setHyst", "energy"), 22082226, places=0)
+        self.assertAlmostEqual(static_model("setOS", "energy"), 21774238, places=0)
+        self.assertAlmostEqual(static_model("shutdown", "energy"), 11808160, places=0)
+        self.assertAlmostEqual(static_model("start", "energy"), 12445302, places=0)
+        self.assertAlmostEqual(
+            static_model("getTemp", "rel_energy_prev"), 21722720, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("setHyst", "rel_energy_prev"), 19001499, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("setOS", "rel_energy_prev"), 18693283, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("shutdown", "rel_energy_prev"), 11746224, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("start", "rel_energy_prev"), 12391462, places=0
+        )
+        self.assertAlmostEqual(static_model("getTemp", "duration"), 12740, places=0)
+        self.assertAlmostEqual(static_model("setHyst", "duration"), 9140, places=0)
+        self.assertAlmostEqual(static_model("setOS", "duration"), 9140, places=0)
+        self.assertAlmostEqual(static_model("shutdown", "duration"), 6980, places=0)
+        self.assertAlmostEqual(static_model("start", "duration"), 6980, places=0)
 
     def test_model_multifile_sharp(self):
         testfiles = [
-            'test-data/20170116_145420_sharpLS013B4DN.tar',
-            'test-data/20170116_151348_sharpLS013B4DN.tar',
+            "test-data/20170116_145420_sharpLS013B4DN.tar",
+            "test-data/20170116_151348_sharpLS013B4DN.tar",
         ]
         raw_data = RawData(testfiles)
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = PTAModel(by_name, parameters, arg_count)
-        self.assertEqual(model.states(), 'DISABLED ENABLED'.split(' '))
-        self.assertEqual(model.transitions(), 'clear disable enable ioInit sendLine toggleVCOM'.split(' '))
+        self.assertEqual(model.states(), "DISABLED ENABLED".split(" "))
+        self.assertEqual(
+            model.transitions(),
+            "clear disable enable ioInit sendLine toggleVCOM".split(" "),
+        )
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('DISABLED', 'power'), 22, places=0)
-        self.assertAlmostEqual(static_model('ENABLED', 'power'), 24, places=0)
-        self.assertAlmostEqual(static_model('clear', 'energy'), 14059, places=0)
-        self.assertAlmostEqual(static_model('disable', 'energy'), 0, places=0)
-        self.assertAlmostEqual(static_model('enable', 'energy'), 0, places=0)
-        self.assertAlmostEqual(static_model('ioInit', 'energy'), 0, places=0)
-        self.assertAlmostEqual(static_model('sendLine', 'energy'), 37874, places=0)
-        self.assertAlmostEqual(static_model('toggleVCOM', 'energy'), 30991, places=0)
-        self.assertAlmostEqual(static_model('clear', 'rel_energy_prev'), 13329, places=0)
-        self.assertAlmostEqual(static_model('disable', 'rel_energy_prev'), 0, places=0)
-        self.assertAlmostEqual(static_model('enable', 'rel_energy_prev'), 0, places=0)
-        self.assertAlmostEqual(static_model('ioInit', 'rel_energy_prev'), 0, places=0)
-        self.assertAlmostEqual(static_model('sendLine', 'rel_energy_prev'), 33447, places=0)
-        self.assertAlmostEqual(static_model('toggleVCOM', 'rel_energy_prev'), 30242, places=0)
-        self.assertAlmostEqual(static_model('clear', 'duration'), 30, places=0)
-        self.assertAlmostEqual(static_model('disable', 'duration'), 0, places=0)
-        self.assertAlmostEqual(static_model('enable', 'duration'), 0, places=0)
-        self.assertAlmostEqual(static_model('ioInit', 'duration'), 0, places=0)
-        self.assertAlmostEqual(static_model('sendLine', 'duration'), 180, places=0)
-        self.assertAlmostEqual(static_model('toggleVCOM', 'duration'), 30, places=0)
+        self.assertAlmostEqual(static_model("DISABLED", "power"), 22, places=0)
+        self.assertAlmostEqual(static_model("ENABLED", "power"), 24, places=0)
+        self.assertAlmostEqual(static_model("clear", "energy"), 14059, places=0)
+        self.assertAlmostEqual(static_model("disable", "energy"), 0, places=0)
+        self.assertAlmostEqual(static_model("enable", "energy"), 0, places=0)
+        self.assertAlmostEqual(static_model("ioInit", "energy"), 0, places=0)
+        self.assertAlmostEqual(static_model("sendLine", "energy"), 37874, places=0)
+        self.assertAlmostEqual(static_model("toggleVCOM", "energy"), 30991, places=0)
+        self.assertAlmostEqual(
+            static_model("clear", "rel_energy_prev"), 13329, places=0
+        )
+        self.assertAlmostEqual(static_model("disable", "rel_energy_prev"), 0, places=0)
+        self.assertAlmostEqual(static_model("enable", "rel_energy_prev"), 0, places=0)
+        self.assertAlmostEqual(static_model("ioInit", "rel_energy_prev"), 0, places=0)
+        self.assertAlmostEqual(
+            static_model("sendLine", "rel_energy_prev"), 33447, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("toggleVCOM", "rel_energy_prev"), 30242, places=0
+        )
+        self.assertAlmostEqual(static_model("clear", "duration"), 30, places=0)
+        self.assertAlmostEqual(static_model("disable", "duration"), 0, places=0)
+        self.assertAlmostEqual(static_model("enable", "duration"), 0, places=0)
+        self.assertAlmostEqual(static_model("ioInit", "duration"), 0, places=0)
+        self.assertAlmostEqual(static_model("sendLine", "duration"), 180, places=0)
+        self.assertAlmostEqual(static_model("toggleVCOM", "duration"), 30, places=0)
 
     def test_model_multifile_mmstatic(self):
         testfiles = [
-            'test-data/20170116_143516_mmstatic.tar',
-            'test-data/20170116_142654_mmstatic.tar',
+            "test-data/20170116_143516_mmstatic.tar",
+            "test-data/20170116_142654_mmstatic.tar",
         ]
         raw_data = RawData(testfiles)
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = PTAModel(by_name, parameters, arg_count)
-        self.assertEqual(model.states(), 'B G OFF R'.split(' '))
-        self.assertEqual(model.transitions(), 'blue green off red'.split(' '))
+        self.assertEqual(model.states(), "B G OFF R".split(" "))
+        self.assertEqual(model.transitions(), "blue green off red".split(" "))
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('B', 'power'), 29443, places=0)
-        self.assertAlmostEqual(static_model('G', 'power'), 29432, places=0)
-        self.assertAlmostEqual(static_model('OFF', 'power'), 7057, places=0)
-        self.assertAlmostEqual(static_model('R', 'power'), 49068, places=0)
-        self.assertAlmostEqual(static_model('blue', 'energy'), 374440955, places=0)
-        self.assertAlmostEqual(static_model('green', 'energy'), 372026027, places=0)
-        self.assertAlmostEqual(static_model('off', 'energy'), 372999554, places=0)
-        self.assertAlmostEqual(static_model('red', 'energy'), 378936634, places=0)
-        self.assertAlmostEqual(static_model('blue', 'rel_energy_prev'), 105535587, places=0)
-        self.assertAlmostEqual(static_model('green', 'rel_energy_prev'), 102999371, places=0)
-        self.assertAlmostEqual(static_model('off', 'rel_energy_prev'), 103613698, places=0)
-        self.assertAlmostEqual(static_model('red', 'rel_energy_prev'), 110474331, places=0)
-        self.assertAlmostEqual(static_model('blue', 'duration'), 9140, places=0)
-        self.assertAlmostEqual(static_model('green', 'duration'), 9140, places=0)
-        self.assertAlmostEqual(static_model('off', 'duration'), 9140, places=0)
-        self.assertAlmostEqual(static_model('red', 'duration'), 9140, places=0)
-
-    @pytest.mark.skipif('TEST_SLOW' not in os.environ, reason="slow test, set TEST_SLOW=1 to run")
+        self.assertAlmostEqual(static_model("B", "power"), 29443, places=0)
+        self.assertAlmostEqual(static_model("G", "power"), 29432, places=0)
+        self.assertAlmostEqual(static_model("OFF", "power"), 7057, places=0)
+        self.assertAlmostEqual(static_model("R", "power"), 49068, places=0)
+        self.assertAlmostEqual(static_model("blue", "energy"), 374440955, places=0)
+        self.assertAlmostEqual(static_model("green", "energy"), 372026027, places=0)
+        self.assertAlmostEqual(static_model("off", "energy"), 372999554, places=0)
+        self.assertAlmostEqual(static_model("red", "energy"), 378936634, places=0)
+        self.assertAlmostEqual(
+            static_model("blue", "rel_energy_prev"), 105535587, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("green", "rel_energy_prev"), 102999371, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("off", "rel_energy_prev"), 103613698, places=0
+        )
+        self.assertAlmostEqual(
+            static_model("red", "rel_energy_prev"), 110474331, places=0
+        )
+        self.assertAlmostEqual(static_model("blue", "duration"), 9140, places=0)
+        self.assertAlmostEqual(static_model("green", "duration"), 9140, places=0)
+        self.assertAlmostEqual(static_model("off", "duration"), 9140, places=0)
+        self.assertAlmostEqual(static_model("red", "duration"), 9140, places=0)
+
+    @pytest.mark.skipif(
+        "TEST_SLOW" not in os.environ, reason="slow test, set TEST_SLOW=1 to run"
+    )
     def test_model_multifile_cc1200(self):
         testfiles = [
-            'test-data/20170125_125433_cc1200.tar',
-            'test-data/20170125_142420_cc1200.tar',
-            'test-data/20170125_144957_cc1200.tar',
-            'test-data/20170125_151149_cc1200.tar',
-            'test-data/20170125_151824_cc1200.tar',
-            'test-data/20170125_154019_cc1200.tar',
+            "test-data/20170125_125433_cc1200.tar",
+            "test-data/20170125_142420_cc1200.tar",
+            "test-data/20170125_144957_cc1200.tar",
+            "test-data/20170125_151149_cc1200.tar",
+            "test-data/20170125_151824_cc1200.tar",
+            "test-data/20170125_154019_cc1200.tar",
         ]
         raw_data = RawData(testfiles)
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = PTAModel(by_name, parameters, arg_count)
-        self.assertEqual(model.states(), 'IDLE RX SLEEP SLEEP_EWOR SYNTH_ON TX XOFF'.split(' '))
-        self.assertEqual(model.transitions(), 'crystal_off eWOR idle init prepare_xmit receive send setSymbolRate setTxPower sleep txDone'.split(' '))
+        self.assertEqual(
+            model.states(), "IDLE RX SLEEP SLEEP_EWOR SYNTH_ON TX XOFF".split(" ")
+        )
+        self.assertEqual(
+            model.transitions(),
+            "crystal_off eWOR idle init prepare_xmit receive send setSymbolRate setTxPower sleep txDone".split(
+                " "
+            ),
+        )
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('IDLE', 'power'), 9500, places=0)
-        self.assertAlmostEqual(static_model('RX', 'power'), 85177, places=0)
-        self.assertAlmostEqual(static_model('SLEEP', 'power'), 143, places=0)
-        self.assertAlmostEqual(static_model('SLEEP_EWOR', 'power'), 81801, places=0)
-        self.assertAlmostEqual(static_model('SYNTH_ON', 'power'), 60036, places=0)
-        self.assertAlmostEqual(static_model('TX', 'power'), 92461, places=0)
-        self.assertAlmostEqual(static_model('XOFF', 'power'), 780, places=0)
-        self.assertAlmostEqual(static_model('crystal_off', 'energy'), 114658, places=0)
-        self.assertAlmostEqual(static_model('eWOR', 'energy'), 317556, places=0)
-        self.assertAlmostEqual(static_model('idle', 'energy'), 717713, places=0)
-        self.assertAlmostEqual(static_model('init', 'energy'), 23028941, places=0)
-        self.assertAlmostEqual(static_model('prepare_xmit', 'energy'), 378552, places=0)
-        self.assertAlmostEqual(static_model('receive', 'energy'), 380335, places=0)
-        self.assertAlmostEqual(static_model('send', 'energy'), 4282597, places=0)
-        self.assertAlmostEqual(static_model('setSymbolRate', 'energy'), 962060, places=0)
-        self.assertAlmostEqual(static_model('setTxPower', 'energy'), 288701, places=0)
-        self.assertAlmostEqual(static_model('sleep', 'energy'), 104445, places=0)
-        self.assertEqual(static_model('txDone', 'energy'), 0)
+        self.assertAlmostEqual(static_model("IDLE", "power"), 9500, places=0)
+        self.assertAlmostEqual(static_model("RX", "power"), 85177, places=0)
+        self.assertAlmostEqual(static_model("SLEEP", "power"), 143, places=0)
+        self.assertAlmostEqual(static_model("SLEEP_EWOR", "power"), 81801, places=0)
+        self.assertAlmostEqual(static_model("SYNTH_ON", "power"), 60036, places=0)
+        self.assertAlmostEqual(static_model("TX", "power"), 92461, places=0)
+        self.assertAlmostEqual(static_model("XOFF", "power"), 780, places=0)
+        self.assertAlmostEqual(static_model("crystal_off", "energy"), 114658, places=0)
+        self.assertAlmostEqual(static_model("eWOR", "energy"), 317556, places=0)
+        self.assertAlmostEqual(static_model("idle", "energy"), 717713, places=0)
+        self.assertAlmostEqual(static_model("init", "energy"), 23028941, places=0)
+        self.assertAlmostEqual(static_model("prepare_xmit", "energy"), 378552, places=0)
+        self.assertAlmostEqual(static_model("receive", "energy"), 380335, places=0)
+        self.assertAlmostEqual(static_model("send", "energy"), 4282597, places=0)
+        self.assertAlmostEqual(
+            static_model("setSymbolRate", "energy"), 962060, places=0
+        )
+        self.assertAlmostEqual(static_model("setTxPower", "energy"), 288701, places=0)
+        self.assertAlmostEqual(static_model("sleep", "energy"), 104445, places=0)
+        self.assertEqual(static_model("txDone", "energy"), 0)
 
         param_model, param_info = model.get_fitted()
-        self.assertEqual(param_info('IDLE', 'power'), None)
-        self.assertEqual(param_info('RX', 'power')['function']._model_str,
-                         '0 + regression_arg(0) + regression_arg(1) * np.log(parameter(symbolrate) + 1)')
-        self.assertEqual(param_info('SLEEP', 'power'), None)
-        self.assertEqual(param_info('SLEEP_EWOR', 'power'), None)
-        self.assertEqual(param_info('SYNTH_ON', 'power'), None)
-        self.assertEqual(param_info('XOFF', 'power'), None)
+        self.assertEqual(param_info("IDLE", "power"), None)
+        self.assertEqual(
+            param_info("RX", "power")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * np.log(parameter(symbolrate) + 1)",
+        )
+        self.assertEqual(param_info("SLEEP", "power"), None)
+        self.assertEqual(param_info("SLEEP_EWOR", "power"), None)
+        self.assertEqual(param_info("SYNTH_ON", "power"), None)
+        self.assertEqual(param_info("XOFF", "power"), None)
 
-        self.assertAlmostEqual(param_info('RX', 'power')['function']._regression_args[0], 84415, places=0)
-        self.assertAlmostEqual(param_info('RX', 'power')['function']._regression_args[1], 206, places=0)
+        self.assertAlmostEqual(
+            param_info("RX", "power")["function"]._regression_args[0], 84415, places=0
+        )
+        self.assertAlmostEqual(
+            param_info("RX", "power")["function"]._regression_args[1], 206, places=0
+        )
 
 
-if __name__ == '__main__':
+if __name__ == "__main__":
     unittest.main()
diff --git a/test/test_timingharness.py b/test/test_timingharness.py
index 9c49b46..29e21f8 100755
--- a/test/test_timingharness.py
+++ b/test/test_timingharness.py
@@ -7,89 +7,164 @@ import unittest
 
 class TestModels(unittest.TestCase):
     def test_model_singlefile_rf24(self):
-        raw_data = TimingData(['test-data/20190815_111745_nRF24_no-rx.json'])
+        raw_data = TimingData(["test-data/20190815_111745_nRF24_no-rx.json"])
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         model = AnalyticModel(by_name, parameters, arg_count)
-        self.assertEqual(model.names, 'setPALevel setRetries setup write'.split(' '))
+        self.assertEqual(model.names, "setPALevel setRetries setup write".split(" "))
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('setPALevel', 'duration'), 146, places=0)
-        self.assertAlmostEqual(static_model('setRetries', 'duration'), 73, places=0)
-        self.assertAlmostEqual(static_model('setup', 'duration'), 6533, places=0)
-        self.assertAlmostEqual(static_model('write', 'duration'), 12634, places=0)
-
-        for transition in 'setPALevel setRetries setup write'.split(' '):
-            self.assertAlmostEqual(model.stats.param_dependence_ratio(transition, 'duration', 'channel'), 0, places=2)
+        self.assertAlmostEqual(static_model("setPALevel", "duration"), 146, places=0)
+        self.assertAlmostEqual(static_model("setRetries", "duration"), 73, places=0)
+        self.assertAlmostEqual(static_model("setup", "duration"), 6533, places=0)
+        self.assertAlmostEqual(static_model("write", "duration"), 12634, places=0)
+
+        for transition in "setPALevel setRetries setup write".split(" "):
+            self.assertAlmostEqual(
+                model.stats.param_dependence_ratio(transition, "duration", "channel"),
+                0,
+                places=2,
+            )
 
         param_model, param_info = model.get_fitted()
-        self.assertEqual(param_info('setPALevel', 'duration'), None)
-        self.assertEqual(param_info('setRetries', 'duration'), None)
-        self.assertEqual(param_info('setup', 'duration'), None)
-        self.assertEqual(param_info('write', 'duration')['function']._model_str, '0 + regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay)')
-
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[0], 1163, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[1], 464, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[2], 1, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[3], 1, places=0)
+        self.assertEqual(param_info("setPALevel", "duration"), None)
+        self.assertEqual(param_info("setRetries", "duration"), None)
+        self.assertEqual(param_info("setup", "duration"), None)
+        self.assertEqual(
+            param_info("write", "duration")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay)",
+        )
+
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[0],
+            1163,
+            places=0,
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[1],
+            464,
+            places=0,
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[2], 1, places=0
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[3], 1, places=0
+        )
 
     def test_dependent_parameter_pruning(self):
-        raw_data = TimingData(['test-data/20190815_103347_nRF24_no-rx.json'])
+        raw_data = TimingData(["test-data/20190815_103347_nRF24_no-rx.json"])
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
         prune_dependent_parameters(by_name, parameters)
         model = AnalyticModel(by_name, parameters, arg_count)
-        self.assertEqual(model.names, 'getObserveTx setPALevel setRetries setup write'.split(' '))
+        self.assertEqual(
+            model.names, "getObserveTx setPALevel setRetries setup write".split(" ")
+        )
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('getObserveTx', 'duration'), 75, places=0)
-        self.assertAlmostEqual(static_model('setPALevel', 'duration'), 146, places=0)
-        self.assertAlmostEqual(static_model('setRetries', 'duration'), 73, places=0)
-        self.assertAlmostEqual(static_model('setup', 'duration'), 6533, places=0)
-        self.assertAlmostEqual(static_model('write', 'duration'), 12634, places=0)
-
-        for transition in 'getObserveTx setPALevel setRetries setup write'.split(' '):
-            self.assertAlmostEqual(model.stats.param_dependence_ratio(transition, 'duration', 'channel'), 0, places=2)
+        self.assertAlmostEqual(static_model("getObserveTx", "duration"), 75, places=0)
+        self.assertAlmostEqual(static_model("setPALevel", "duration"), 146, places=0)
+        self.assertAlmostEqual(static_model("setRetries", "duration"), 73, places=0)
+        self.assertAlmostEqual(static_model("setup", "duration"), 6533, places=0)
+        self.assertAlmostEqual(static_model("write", "duration"), 12634, places=0)
+
+        for transition in "getObserveTx setPALevel setRetries setup write".split(" "):
+            self.assertAlmostEqual(
+                model.stats.param_dependence_ratio(transition, "duration", "channel"),
+                0,
+                places=2,
+            )
 
         param_model, param_info = model.get_fitted()
-        self.assertEqual(param_info('getObserveTx', 'duration'), None)
-        self.assertEqual(param_info('setPALevel', 'duration'), None)
-        self.assertEqual(param_info('setRetries', 'duration'), None)
-        self.assertEqual(param_info('setup', 'duration'), None)
-        self.assertEqual(param_info('write', 'duration')['function']._model_str, '0 + regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay)')
-
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[0], 1163, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[1], 464, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[2], 1, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[3], 1, places=0)
+        self.assertEqual(param_info("getObserveTx", "duration"), None)
+        self.assertEqual(param_info("setPALevel", "duration"), None)
+        self.assertEqual(param_info("setRetries", "duration"), None)
+        self.assertEqual(param_info("setup", "duration"), None)
+        self.assertEqual(
+            param_info("write", "duration")["function"]._model_str,
+            "0 + regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay)",
+        )
+
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[0],
+            1163,
+            places=0,
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[1],
+            464,
+            places=0,
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[2], 1, places=0
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[3], 1, places=0
+        )
 
     def test_function_override(self):
-        raw_data = TimingData(['test-data/20190815_122531_nRF24_no-rx.json'])
+        raw_data = TimingData(["test-data/20190815_122531_nRF24_no-rx.json"])
         preprocessed_data = raw_data.get_preprocessed_data()
         by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data)
-        model = AnalyticModel(by_name, parameters, arg_count, function_override={('write', 'duration'): '(parameter(auto_ack!) * (regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay))) + ((1 - parameter(auto_ack!)) * regression_arg(4))'})
-        self.assertEqual(model.names, 'setAutoAck setPALevel setRetries setup write'.split(' '))
+        model = AnalyticModel(
+            by_name,
+            parameters,
+            arg_count,
+            function_override={
+                (
+                    "write",
+                    "duration",
+                ): "(parameter(auto_ack!) * (regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay))) + ((1 - parameter(auto_ack!)) * regression_arg(4))"
+            },
+        )
+        self.assertEqual(
+            model.names, "setAutoAck setPALevel setRetries setup write".split(" ")
+        )
         static_model = model.get_static()
-        self.assertAlmostEqual(static_model('setAutoAck', 'duration'), 72, places=0)
-        self.assertAlmostEqual(static_model('setPALevel', 'duration'), 146, places=0)
-        self.assertAlmostEqual(static_model('setRetries', 'duration'), 73, places=0)
-        self.assertAlmostEqual(static_model('setup', 'duration'), 6533, places=0)
-        self.assertAlmostEqual(static_model('write', 'duration'), 1181, places=0)
-
-        for transition in 'setAutoAck setPALevel setRetries setup write'.split(' '):
-            self.assertAlmostEqual(model.stats.param_dependence_ratio(transition, 'duration', 'channel'), 0, places=2)
+        self.assertAlmostEqual(static_model("setAutoAck", "duration"), 72, places=0)
+        self.assertAlmostEqual(static_model("setPALevel", "duration"), 146, places=0)
+        self.assertAlmostEqual(static_model("setRetries", "duration"), 73, places=0)
+        self.assertAlmostEqual(static_model("setup", "duration"), 6533, places=0)
+        self.assertAlmostEqual(static_model("write", "duration"), 1181, places=0)
+
+        for transition in "setAutoAck setPALevel setRetries setup write".split(" "):
+            self.assertAlmostEqual(
+                model.stats.param_dependence_ratio(transition, "duration", "channel"),
+                0,
+                places=2,
+            )
 
         param_model, param_info = model.get_fitted()
-        self.assertEqual(param_info('setAutoAck', 'duration'), None)
-        self.assertEqual(param_info('setPALevel', 'duration'), None)
-        self.assertEqual(param_info('setRetries', 'duration'), None)
-        self.assertEqual(param_info('setup', 'duration'), None)
-        self.assertEqual(param_info('write', 'duration')['function']._model_str, '(parameter(auto_ack!) * (regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay))) + ((1 - parameter(auto_ack!)) * regression_arg(4))')
-
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[0], 1162, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[1], 464, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[2], 1, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[3], 1, places=0)
-        self.assertAlmostEqual(param_info('write', 'duration')['function']._regression_args[4], 1086, places=0)
-
-
-if __name__ == '__main__':
+        self.assertEqual(param_info("setAutoAck", "duration"), None)
+        self.assertEqual(param_info("setPALevel", "duration"), None)
+        self.assertEqual(param_info("setRetries", "duration"), None)
+        self.assertEqual(param_info("setup", "duration"), None)
+        self.assertEqual(
+            param_info("write", "duration")["function"]._model_str,
+            "(parameter(auto_ack!) * (regression_arg(0) + regression_arg(1) * parameter(max_retry_count) + regression_arg(2) * parameter(retry_delay) + regression_arg(3) * parameter(max_retry_count) * parameter(retry_delay))) + ((1 - parameter(auto_ack!)) * regression_arg(4))",
+        )
+
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[0],
+            1162,
+            places=0,
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[1],
+            464,
+            places=0,
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[2], 1, places=0
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[3], 1, places=0
+        )
+        self.assertAlmostEqual(
+            param_info("write", "duration")["function"]._regression_args[4],
+            1086,
+            places=0,
+        )
+
+
+if __name__ == "__main__":
     unittest.main()