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- <class name="MvKController">
- <relationships>
- <association name="to_mvi" class="Server" min="1" max="1"/>
- </relationships>
- <constructor>
- <parameter name="params"/>
- <body>
- <![CDATA[
- self.mvs = ModelverseState("../bootstrap/bootstrap.m.gz")
- # Enable Garbage Collection
- self.mvs.GC = True
- self.root = self.mvs.read_root()[0]
- # Instantiate the kernel.
- self.mvk = ModelverseKernel(self.root)
- # Parse kernel-related options
- default_kernel_type = 'adaptive-jit'
- kernel_opts = [default_kernel_type]
- for parameter in params:
- if parameter.startswith('--kernel='):
- kernel_opts = parameter[len('--kernel='):].split(',')
- for opt in kernel_opts:
- if opt == 'legacy-interpreter':
- self.mvk = LegacyModelverseKernel(self.root)
- elif opt == 'interpreter':
- self.mvk.jit.set_jit_enabled(False)
- elif opt == 'no-thunks':
- self.mvk.jit.enable_thunks(False)
- elif opt == 'thunks':
- self.mvk.jit.enable_thunks()
- elif opt == 'no-source-maps':
- self.mvk.jit.enable_source_maps(False)
- elif opt == 'source-maps':
- self.mvk.jit.enable_source_maps()
- elif opt == 'no-insert-nops':
- self.mvk.jit.enable_nop_insertion(False)
- elif opt == 'insert-nops':
- self.mvk.jit.enable_nop_insertion()
- elif opt == 'trace':
- self.mvk.jit.enable_tracing()
- elif opt == 'fast-jit':
- self.mvk.jit.set_function_body_compiler(jit.compile_function_body_fast)
- elif opt == 'baseline-jit':
- self.mvk.jit.set_function_body_compiler(jit.compile_function_body_baseline)
- elif opt == 'adaptive-jit-favor-large-functions':
- self.mvk.jit.set_function_body_compiler(
- lambda *args: jit.compile_function_body_adaptive(
- *args, temperature_heuristic=jit.favor_large_functions))
- elif opt == 'adaptive-jit-favor-small-functions':
- self.mvk.jit.set_function_body_compiler(
- lambda *args: jit.compile_function_body_adaptive(
- *args, temperature_heuristic=jit.favor_small_functions))
- elif opt == 'adaptive-jit' or opt == 'adaptive-jit-favor-loops':
- self.mvk.jit.set_function_body_compiler(
- lambda *args: jit.compile_function_body_adaptive(
- *args, temperature_heuristic=jit.favor_loops))
- else:
- print("warning: unknown kernel option '%s'." % opt)
- self.all_failed = False
- self.timeout = False
- self.init_time = time.time()
- self.tasks = set()
- self.input_queue = defaultdict(list)
- self.output_queue = defaultdict(list)
- self.source = None
- self.port = int(sys.argv[1])
- self.count = 0
-
- self.debugged_tasks = set()
- self.debug_info = {}
- self.done_something = False
- self.mvs_operations = {
- "CN": self.mvs.create_node,
- "CE": self.mvs.create_edge,
- "CNV": self.mvs.create_nodevalue,
- "CD": self.mvs.create_dict,
- "RV": self.mvs.read_value,
- "RO": self.mvs.read_outgoing,
- "RI": self.mvs.read_incoming,
- "RE": self.mvs.read_edge,
- "RD": self.mvs.read_dict,
- "RDN": self.mvs.read_dict_node,
- "RDNE": self.mvs.read_dict_node_edge,
- "RDE": self.mvs.read_dict_edge,
- "RRD": self.mvs.read_reverse_dict,
- "RR": self.mvs.read_root,
- "RDK": self.mvs.read_dict_keys,
- "DE": self.mvs.delete_edge,
- "DN": self.mvs.delete_node,
- }
- self.execute_modelverse("", "load_primitives", [])
- ]]>
- </body>
- </constructor>
- <method name="execute_modelverse">
- <parameter name="taskname"/>
- <parameter name="operation"/>
- <parameter name="params"/>
- <body>
- <![CDATA[
- reply = None
- commands = []
- try:
- while 1:
- commands = self.mvk.execute_yields(taskname, operation, params, reply)
- if commands is None:
- break
- reply = [self.mvs_operations[command[0]](*(command[1]))[0] for command in commands]
- #for c, r in zip(commands, reply):
- # print("%s --> %s" % (c, r))
- except:
- print("ERROR: " + str(self.mvk.debug_info.get(taskname, "Unknown taskname")))
- raise
- ]]>
- </body>
- </method>
- <scxml initial="init_server">
- <state id="init_server">
- <onentry>
- <raise scope="cd" event="create_instance">
- <parameter expr="'to_mvi'"/>
- <parameter expr="'Server'"/>
- <parameter expr="''"/>
- <parameter expr="self.port"/>
- </raise>
- </onentry>
- <transition event="instance_created" target="../running">
- <parameter name="instancename"/>
- <raise scope="cd" event="start_instance">
- <parameter expr="instancename"/>
- </raise>
- </transition>
- </state>
- <parallel id="running">
- <state id="wait_for_requests">
- <state id="wait">
- <transition event="from_mvi" target=".">
- <parameter name="source"/>
- <parameter name="data"/>
- <script>
- # No JSON encoding necessary, as it is not complex
- try:
- self.done_something = False
- if data["op"] == "set_input":
- if "value" in data:
- value = [json.loads(data["value"])]
- else:
- value = json.loads(data["data"])
- self.input_queue[data["taskname"]].append((source, value))
- elif data["op"] == "get_output":
- self.output_queue[data["taskname"]].append(source)
- elif data["op"] == "attach_debugger":
- self.debugged_tasks.add(data["taskname"])
- self.done_something = True
- self.source = source
- self.debug_info[data["taskname"]] = {'state': 'running', 'breakpoints': []}
- elif data["op"] == "detach_debugger":
- self.debugged_tasks.discard(data["taskname"])
- self.done_something = True
- self.source = source
- del self.debug_info[data["taskname"]]
- elif data["op"] == "pause":
- if data["taskname"] in self.debugged_tasks:
- self.debug_info[data["taskname"]]['state'] = 'paused'
- self.done_something = True
- self.source = source
- elif data["op"] == "resume":
- if data["taskname"] in self.debugged_tasks:
- self.debug_info[data["taskname"]]['state'] = 'running'
- self.done_something = True
- self.source = source
- elif data["op"] == "step_over":
- pass
- self.done_something = True
- self.source = source
- elif data["op"] == "step_into":
- pass
- self.done_something = True
- self.source = source
- else:
- raise Exception("DROPPING unknown operation: " + str(data["op"]))
- except ValueError:
- print("Error when deserializing request: " + str(data))
- raise
- </script>
- </transition>
- <transition cond="self.done_something" target=".">
- <raise event="HTTP_input" scope="narrow" target="'to_mvi/%s' % self.source">
- <parameter expr="json.dumps(True)"/>
- </raise>
- <script>
- self.done_something = False
- </script>
- </transition>
- </state>
- </state>
- <state id="execution">
- <state id="execution">
- <onentry>
- <script>
- self.timeout = False
- self.destination = None
- if self.tasks:
- task = self.tasks.pop()
- if not task in self.debugged_tasks or self.debug_info[task]['state'] == 'running':
- # Check if there are values to input
- if self.input_queue[task]:
- source, args = self.input_queue[task].pop(0)
- for args_entry in args:
- self.execute_modelverse(task, "set_input", [args_entry])
- self.destination = source
- self.value = "OK"
- self.all_failed = False
- nr_of_steps = 1 if task in self.debugged_tasks else 100
- # Now process for some steps, or until we are again blocked for input
- for x in xrange(nr_of_steps):
- self.execute_modelverse(task, "execute_rule", [])
- if not self.mvk.success:
- # Blocking or broken, so quit already to stop wasting CPU
- break
- # Could at least execute one instruction, so mark it as "not failed"
- self.all_failed = False
- # Check that we don't have anything to output yet, otherwise we wait
- if self.destination is None:
- # Perform output if there is anything
- if self.output_queue[task]:
- self.execute_modelverse(task, "get_output", [])
- if self.mvk.success:
- self.destination = self.output_queue[task].pop(0)
- self.value = self.mvk.returnvalue
- self.all_failed = False
- else:
- if self.count >= 2000:
- self.count = 0
- self.mvs.purge()
- else:
- self.count += 1
- self.mvs.garbage_collect()
- out = self.mvs.read_outgoing(self.root)[0]
- for m in out:
- src, task = self.mvs.read_edge(m)[0]
- outgoing = self.mvs.read_outgoing(m)[0]
- first = self.mvs.read_edge(outgoing[0])[0]
- dest = first[1]
- name = self.mvs.read_value(dest)[0]
- if name.startswith("__"):
- continue
- self.tasks.add(name)
- self.timeout = self.all_failed
- self.all_failed = True
- </script>
- </onentry>
- <transition cond="self.destination is not None" after="self.sccd_yield()" target=".">
- <raise event="HTTP_input" scope="narrow" target="'to_mvi/%s' % self.destination">
- <parameter expr="json.dumps(self.value)"/>
- </raise>
- </transition>
- <transition cond="self.timeout and self.destination is None" after="self.sccd_yield() + 0.10" target="."/>
- <transition cond="not self.timeout and self.destination is None" after="self.sccd_yield()" target="."/>
- </state>
- </state>
- <state id="remove_sockets">
- <state id="remove_sockets">
- <transition event="delete_socket" target=".">
- <parameter name="socket"/>
- <script>
- for task in self.output_queue.keys():
- self.output_queue[task] = [s for s in self.output_queue[task] if s != socket]
- </script>
- </transition>
- </state>
- </state>
- </parallel>
- </scxml>
- </class>
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