"""A legacy version of the Modelverse kernel. This kernel can be used as a baseline for the performance of newer kernels.""" import modelverse_kernel.primitives as primitive_functions import modelverse_kernel.compiled_legacy as compiled_functions from collections import defaultdict import sys import time if sys.version > '3': # pragma: no cover string_types = (str,) else: string_types = (str, unicode) class ModelverseKernel(object): def __init__(self, root): self.root = root self.primitives = {} self.compiled = {} self.returnvalue = None self.success = True self.generators = {} self.allow_compiled = True #self.allow_compiled = False self.debug_info = defaultdict(list) def execute_yields(self, taskname, operation, params, reply): try: self.success = True self.taskname = taskname if taskname not in self.generators: self.generators[taskname] = {} if operation not in self.generators[taskname]: # Create the generator for the function to execute self.generators[taskname][operation] = getattr(self, operation)(taskname, *params) if reply is not None: return self.generators[taskname][operation].send(reply) else: return self.generators[taskname][operation].next() except StopIteration: # Done, so remove the generator del self.generators[taskname][operation] return None except: print("Unknown error @ %s" % self.debug_info[taskname]) raise def execute_rule(self, taskname): task_root, = yield [("RD", [self.root, taskname])] if task_root is None: self.success = False self.returnvalue = None yield None else: task_frame, = yield [("RD", [task_root, "frame"])] self.inst, phase = yield [("RD", [task_frame, "IP"]), ("RD", [task_frame, "phase"]), ] self.new_debug, self.phase_v, inst_v = \ yield [("RD", [self.inst, "__debug"]), ("RV", [phase]), ("RV", [self.inst]), ] if self.new_debug is not None: if self.debug_info[taskname]: self.debug_info[taskname][-1], = yield [("RV", [self.new_debug])] if self.phase_v == "finish": gen = self.helper_init(task_root) elif self.inst is None: raise Exception("Instruction pointer could not be found!") elif isinstance(self.phase_v, string_types): if self.phase_v == "init" and self.inst in self.compiled: #print("%-30s(%s)" % ("COMPILED " + str(self.compiled[self.inst]), self.phase_v)) gen = self.execute_primitive(task_root, self.inst, taskname) elif inst_v is None: raise Exception("%s: error understanding command (%s, %s)" % (self.debug_info[taskname], inst_v, self.phase_v)) else: #print("%-30s(%s) -- %s" % (inst_v["value"], self.phase_v, taskname)) gen = getattr(self, "%s_%s" % (inst_v["value"], self.phase_v))(task_root) elif inst_v is None: raise Exception("%s: error understanding command (%s, %s)" % (self.debug_info[taskname], inst_v, self.phase_v)) elif inst_v["value"] == "call": #print("%-30s(%s)" % ("call", "param")) gen = self.call_param(task_root) else: raise Exception("%s: error understanding command (%s, %s)" % (self.debug_info[taskname], inst_v, self.phase_v)) try: inp = None while 1: inp = yield gen.send(inp) except StopIteration: pass ########################## ### Process primitives ### ########################## def load_primitives(self, taskname): hierarchy, = yield [("RD", [self.root, "__hierarchy"])] primitives, = yield [("RD", [hierarchy, "primitives"])] keys, = yield [("RDK", [primitives])] function_names = yield [("RV", [f]) for f in keys] signatures = yield [("RDN", [primitives, f]) for f in keys] bodies = yield [("RD", [f, "body"]) for f in signatures] for i in range(len(keys)): self.primitives[bodies[i]] = getattr(primitive_functions, function_names[i]) self.compiled.update(self.primitives) def execute_primitive(self, task_root, inst, taskname): # execute_primitive task_frame, = yield [("RD", [task_root, "frame"])] symbols, = yield [("RD", [task_frame, "symbols"])] all_links, = yield [("RO", [symbols])] containers = yield [("RE", [v]) for v in all_links] outgoings = yield [("RO", [v]) for v in all_links] dict_values = yield [("RD", [v[1], "value"]) for v in containers] formals_1 = yield [("RE", [v[0]]) for v in outgoings] dict_keys_ref = yield [("RD", [v[1], "name"]) for v in formals_1] dict_keys = yield [("RV", [v]) for v in dict_keys_ref] parameters = dict(zip(dict_keys, dict_values)) parameters["root"] = self.root parameters["task_root"] = task_root parameters["taskname"] = taskname parameters["mvk"] = self # prim is a generator itself! try: # Forward the message we get to this generator # Sometimes it might not even be a generator, in which case this should already be in the except block (i.e., for the Read Root operation) prim = self.compiled[inst](**parameters) inp = None while 1: inp = yield prim.send(inp) except StopIteration: # Execution has ended without return value, so we have no idea what to do raise Exception("%s: primitive finished without returning a value!" % (self.debug_info[taskname])) except primitive_functions.PrimitiveFinished as e: # Execution has ended with a returnvalue, so read it out from the exception being thrown result = e.result #if result is None: # raise Exception("Primitive raised exception: value of None for operation %s with parameters %s" % (self.compiled[inst], str(parameters))) # Clean up the current stack, as if a return happened old_frame, = yield [("RD", [task_frame, "prev"])] lnk, = yield [("RDE", [old_frame, "returnvalue"])] _, _, _, _ = yield [("CD", [old_frame, "returnvalue", result]), ("CD", [task_root, "frame", old_frame]), ("DE", [lnk]), ("DN", [task_frame]), ] if self.debug_info[self.taskname]: self.debug_info[self.taskname].pop() ######################################## ### Execute input and output methods ### ######################################## def get_output(self, taskname): task_root, = yield [("RD", [self.root, taskname])] first_output, = yield [("RD", [task_root, "output"])] next_output, rv = yield [("RD", [first_output, "next"]), ("RD", [first_output, "value"]), ] if next_output is None: self.success = False self.returnvalue = None else: rv_value, = yield [("RV", [rv])] _, _ = yield [("CD", [task_root, "output", next_output]), ("DN", [first_output]), ] self.returnvalue = rv_value def set_input(self, taskname, value): task_root, = yield [("RD", [self.root, taskname])] old_input, link = yield [("RD", [task_root, "last_input"]), ("RDE", [task_root, "last_input"]), ] new_input, = yield [("CN", [])] _, _ = yield [("CD", [task_root, "last_input", new_input]), ("CD", [old_input, "next", new_input]), ] new_value, = yield [("CNV", [value])] _, _ = yield [("CD", [old_input, "value", new_value]), ("DE", [link]) ] self.returnvalue = {"id": 100, "value": "success"} ############################################# ### Transformation rules for instructions ### ############################################# def continue_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] while_inst, = yield [("RD", [inst, "while"])] old_evalstack_link, old_phase_link, evalstack_roots = \ yield [("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "phase"]), ("RRD", [while_inst, "inst"]), ] if len(evalstack_roots) == 1: evalstack_root = evalstack_roots[0] else: raise Exception("Could not process continue statement!") prev_evalstack_roots, old_evalstack_phase_link = \ yield [("RRD", [evalstack_root, "prev"]), ("RDE", [evalstack_root, "phase"]), ] if len(prev_evalstack_roots) == 1: prev_evalstack_root = prev_evalstack_roots[0] else: raise Exception("Could not process continue statement!") new_evalstack_root, new_phase_while, new_phase_inst, prev_evalstack_root_link = \ yield [("CN", []), ("CNV", ["init"]), ("CNV", ["finish"]), ("RDE", [prev_evalstack_root, "prev"]), ] _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack_root]), ("CD", [new_evalstack_root, "prev", evalstack_root]), ("CD", [task_frame, "phase", new_phase_inst]), ("CD", [evalstack_root, "phase", new_phase_while]), ("DE", [old_evalstack_link]), ("DE", [prev_evalstack_root_link]), ("DE", [old_phase_link]), ("DE", [old_evalstack_phase_link]), ] def break_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] while_inst, = yield [("RD", [inst, "while"])] old_evalstack_link, old_phase_link, evalstack_roots = \ yield [("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "phase"]), ("RRD", [while_inst, "inst"]), ] if len(evalstack_roots) == 1: evalstack_root = evalstack_roots[0] else: raise Exception("Could not process break statement!") prev_evalstack_roots, old_evalstack_phase_link = \ yield [("RRD", [evalstack_root, "prev"]), ("RDE", [evalstack_root, "phase"]), ] if len(prev_evalstack_roots) == 1: prev_evalstack_root = prev_evalstack_roots[0] else: raise Exception("Could not process break statement!") new_evalstack_root, new_phase_while, new_phase_inst, prev_evalstack_root_link = \ yield [("CN", []), ("CNV", ["finish"]), ("CNV", ["finish"]), ("RDE", [prev_evalstack_root, "prev"]), ] _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack_root]), ("CD", [new_evalstack_root, "prev", evalstack_root]), ("CD", [task_frame, "phase", new_phase_inst]), ("CD", [evalstack_root, "phase", new_phase_while]), ("DE", [old_evalstack_link]), ("DE", [prev_evalstack_root_link]), ("DE", [old_phase_link]), ("DE", [old_evalstack_phase_link]), ] def if_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] evalstack, evalstack_link = \ yield [("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ] inst, ip_link = yield [("RD", [task_frame, "IP"]), ("RDE", [task_frame, "IP"]), ] cond, = yield [("RD", [inst, "cond"])] new_evalstack, new_phase = \ yield [("CN", []), ("CNV", ["cond"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [task_frame, "IP", cond]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", new_phase]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def if_cond(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] returnvalue, inst = yield [("RD", [task_frame, "returnvalue"]), ("RD", [task_frame, "IP"]), ] returnvalue_v, = yield [("RV", [returnvalue])] _else, = yield [("RD", [inst, "else"])] if returnvalue_v: phase_link, evalstack, evalstack_link, ip_link, _then, new_evalstack, evalstack_phase, new_phase = \ yield [("RDE", [task_frame, "phase"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [inst, "then"]), ("CN", []), ("CNV", ["finish"]), ("CNV", ["init"]), ] _, _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [task_frame, "IP", _then]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("CD", [task_frame, "phase", new_phase]), ("DE", [evalstack_link]), ("DE", [ip_link]), ("DE", [phase_link]), ] elif _else is None: phase_link, new_phase = \ yield [("RDE", [task_frame, "phase"]), ("CNV", ["finish"]), ] _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("DE", [phase_link]), ] else: phase_link, evalstack, evalstack_link, ip_link = \ yield [("RDE", [task_frame, "phase"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ] new_evalstack, new_phase, evalstack_phase = \ yield [("CN", []), ("CNV", ["init"]), ("CNV", ["finish"]), ] _, _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [task_frame, "IP", _else]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("CD", [task_frame, "phase", new_phase]), ("DE", [evalstack_link]), ("DE", [ip_link]), ("DE", [phase_link]), ] def while_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] evalstack, evalstack_link, ip_link, inst = \ yield [("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] cond, new_evalstack, new_phase = \ yield [("RD", [inst, "cond"]), ("CN", []), ("CNV", ["cond"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [task_frame, "IP", cond]), ("CD", [evalstack, "phase", new_phase]), ("CD", [evalstack, "inst", inst]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def while_cond(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] returnvalue, = yield [("RD", [task_frame, "returnvalue"])] returnvalue_v, = yield [("RV", [returnvalue])] if returnvalue_v: phase_link, evalstack, evalstack_link, ip_link, inst = \ yield [("RDE", [task_frame, "phase"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] body, = yield [("RD", [inst, "body"])] new_evalstack, new_phase, evalstack_phase = \ yield [("CN", []), ("CNV", ["init"]), ("CNV", ["init"]), ] _, _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "IP", body]), ("CD", [task_frame, "phase", new_phase]), ("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("DE", [evalstack_link]), ("DE", [ip_link]), ("DE", [phase_link]), ] else: phase_link, new_phase = \ yield [("RDE", [task_frame, "phase"]), ("CNV", ["finish"]), ] _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("DE", [phase_link]) ] def access_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] evalstack, evalstack_link, inst, ip_link = \ yield [("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RD", [task_frame, "IP"]), ("RDE", [task_frame, "IP"]), ] var, new_evalstack, new_phase = \ yield [("RD", [inst, "var"]), ("CN", []), ("CNV", ["eval"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "IP", var]), ("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", new_phase]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def access_eval(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] phase_link, returnvalue_link, returnvalue = \ yield [("RDE", [task_frame, "phase"]), ("RDE", [task_frame, "returnvalue"]), ("RD", [task_frame, "returnvalue"]), ] value, new_phase = yield [("RD", [returnvalue, "value"]), ("CNV", ["finish"]), ] _, _, _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("CD", [task_frame, "returnvalue", value]), ("DE", [phase_link]), ("DE", [returnvalue_link]), ] def resolve_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] symbols, evalstack, evalstack_link, ip_link, inst = \ yield [("RD", [task_frame, "symbols"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] var, = yield [("RD", [inst, "var"])] variable, = yield [("RDN", [symbols, var])] if variable is None: phase_link, returnvalue_link, _globals, var_name = \ yield [("RDE", [task_frame, "phase"]), ("RDE", [task_frame, "returnvalue"]), ("RD", [task_root, "globals"]), ("RV", [var]), ] variable, new_phase = \ yield [("RD", [_globals, var_name]), ("CNV", ["finish"]), ] if variable is None: raise Exception("Not found as global: %s" % var_name) # Resolved a global, so this is a string # Potentially, this might even be a function that we have precompiled already! # So check whether this is the case or not if self.allow_compiled: compiled_function = getattr(compiled_functions, var_name, None) if compiled_function is not None: # We have a compiled function ready! # Now we have to bind the ID to the compiled functions # For this, we read out the body of the resolved data compiler_val, = yield [("RD", [variable, "value"])] compiler_body, = yield [("RD", [compiler_val, "body"])] self.compiled[compiler_body] = compiled_function else: phase_link, returnvalue_link, new_phase = \ yield [("RDE", [task_frame, "phase"]), ("RDE", [task_frame, "returnvalue"]), ("CNV", ["finish"]), ] _, _, _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("CD", [task_frame, "returnvalue", variable]), ("DE", [phase_link]), ("DE", [returnvalue_link]), ] def assign_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] evalstack, evalstack_link, ip_link, inst = \ yield [("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] var, new_evalstack, new_phase = \ yield [("RD", [inst, "var"]), ("CN", []), ("CNV", ["value"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "IP", var]), ("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", new_phase]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def assign_value(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] phase_link, evalstack, returnvalue, evalstack_link, ip_link, inst = \ yield [("RDE", [task_frame, "phase"]), ("RD", [task_frame, "evalstack"]), ("RD", [task_frame, "returnvalue"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] value, new_evalstack, new_phase, evalstack_phase = \ yield [("RD", [inst, "value"]), ("CN", []), ("CNV", ["init"]), ("CNV", ["assign"]), ] _, _, _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "variable", returnvalue]), ("CD", [task_frame, "phase", new_phase]), ("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("CD", [task_frame, "IP", value]), ("DE", [evalstack_link]), ("DE", [phase_link]), ("DE", [ip_link]), ] def assign_assign(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] phase_link, returnvalue, variable_link, variable = \ yield [("RDE", [task_frame, "phase"]), ("RD", [task_frame, "returnvalue"]), ("RDE", [task_frame, "variable"]), ("RD", [task_frame, "variable"]), ] value_link, new_phase = \ yield [("RDE", [variable, "value"]), ("CNV", ["finish"]), ] _, _, _, _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("CD", [variable, "value", returnvalue]), ("DE", [variable_link]), ("DE", [value_link]), ("DE", [phase_link]), ] def return_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] value, = yield [("RD", [inst, "value"])] if value is None: prev_frame, = yield [("RD", [task_frame, "prev"])] if prev_frame is None: _, = yield [("DN", [task_root])] del self.debug_info[self.taskname] else: if self.debug_info[self.taskname]: self.debug_info[self.taskname].pop() _, _ = yield [("CD", [task_root, "frame", prev_frame]), ("DN", [task_frame]), ] else: evalstack, evalstack_link, ip_link, new_evalstack, evalstack_phase = \ yield [("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("CN", []), ("CNV", ["eval"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("CD", [task_frame, "IP", value]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def return_eval(self, task_root): if self.debug_info[self.taskname]: self.debug_info[self.taskname].pop() task_frame, = yield [("RD", [task_root, "frame"])] prev_frame, = yield [("RD", [task_frame, "prev"])] if prev_frame is None: _, = yield [("DN", [task_root])] del self.debug_info[self.taskname] else: returnvalue, old_returnvalue_link = \ yield [("RD", [task_frame, "returnvalue"]), ("RDE", [prev_frame, "returnvalue"]), ] _, _, _, _ = yield [("CD", [task_root, "frame", prev_frame]), ("CD", [prev_frame, "returnvalue", returnvalue]), ("DE", [old_returnvalue_link]), ("DN", [task_frame]), ] def constant_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] phase_link, returnvalue_link, inst = \ yield [("RDE", [task_frame, "phase"]), ("RDE", [task_frame, "returnvalue"]), ("RD", [task_frame, "IP"]), ] node, new_phase = yield [("RD", [inst, "node"]), ("CNV", ["finish"]), ] _, _, _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("CD", [task_frame, "returnvalue", node]), ("DE", [returnvalue_link]), ("DE", [phase_link]), ] def helper_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] next, = yield [("RD", [inst, "next"])] if next is None: ip_link, phase_link, evalstack_top = \ yield [("RDE", [task_frame, "IP"]), ("RDE", [task_frame, "phase"]), ("RD", [task_frame, "evalstack"]), ] evalstack, = yield [("RD", [evalstack_top, "prev"])] evalstack_inst, evalstack_phase, evalstack_inst_link, evalstack_phase_link = \ yield [("RD", [evalstack, "inst"]), ("RD", [evalstack, "phase"]), ("RDE", [evalstack, "inst"]), ("RDE", [evalstack, "phase"]), ] _, _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", evalstack]), ("CD", [task_frame, "IP", evalstack_inst]), ("CD", [task_frame, "phase", evalstack_phase]), ("DE", [ip_link]), ("DE", [phase_link]), ("DE", [evalstack_inst_link]), ("DE", [evalstack_phase_link]), ("DN", [evalstack_top]), ] else: ip_link, phase_link, new_phase = \ yield [("RDE", [task_frame, "IP"]), ("RDE", [task_frame, "phase"]), ("CNV", ["init"]), ] _, _, _, _ = yield [("CD", [task_frame, "IP", next]), ("CD", [task_frame, "phase", new_phase]), ("DE", [ip_link]), ("DE", [phase_link]), ] def call_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] symbols, evalstack, evalstack_link, ip_link, inst = \ yield [("RD", [task_frame, "symbols"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] func, params = yield [("RD", [inst, "func"]), ("RD", [inst, "params"]), ] if params is None: new_evalstack, evalstack_phase = \ yield [("CN", []), ("CNV", ["call"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("CD", [task_frame, "IP", func]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] else: new_evalstack,= yield [("CN", [])] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", params]), ("CD", [task_frame, "IP", func]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def call_call(self, task_root): self.debug_info[self.taskname].append("None") task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] param, = yield [("RD", [inst, "last_param"])] if param is None: returnvalue, = yield [("RD", [task_frame, "returnvalue"])] body, phase_link, frame_link, prev_phase, new_phase, new_frame, new_evalstack, new_symbols, new_returnvalue = \ yield [("RD", [returnvalue, "body"]), ("RDE", [task_frame, "phase"]), ("RDE", [task_root, "frame"]), ("CNV", ["finish"]), ("CNV", ["init"]), ("CN", []), ("CN", []), ("CN", []), ("CN", []), ] _, _, _, _, _, _, _, _, _, _, _ = \ yield [("CD", [task_root, "frame", new_frame]), ("CD", [new_frame, "evalstack", new_evalstack]), ("CD", [new_frame, "symbols", new_symbols]), ("CD", [new_frame, "returnvalue", new_returnvalue]), ("CD", [new_frame, "caller", inst]), ("CD", [new_frame, "phase", new_phase]), ("CD", [new_frame, "IP", body]), ("CD", [new_frame, "prev", task_frame]), ("CD", [task_frame, "phase", prev_phase]), ("DE", [phase_link]), ("DE", [frame_link]), ] else: newer_frames, invoking_frames = \ yield [("RRD", [task_frame, "prev"]), ("RRD", [inst, "caller"]), ] new_frame = self.find_overlapping(newer_frames, invoking_frames) phase_link, frame_link, new_symbols, new_IP = \ yield [("RDE", [task_frame, "phase"]), ("RDE", [task_root, "frame"]), ("RD", [new_frame, "symbols"]), ("RD", [new_frame, "IP"]), ] signature, = yield [("RRD", [new_IP, "body"])] signature = signature[0] sig_params, last_param = \ yield [("RD", [signature, "params"]), ("RD", [inst, "last_param"]), ] name, = yield [("RD", [last_param, "name"])] name_value, = yield [("RV", [name])] returnvalue, formal_parameter, new_phase, variable = \ yield [("RD", [task_frame, "returnvalue"]), ("RD", [sig_params, name_value]), ("CNV", ["finish"]), ("CN", []), ] _, _, _, t1 = yield [("CD", [task_root, "frame", new_frame]), ("CD", [task_frame, "phase", new_phase]), ("CD", [variable, "value", returnvalue]), ("CE", [new_symbols, variable]), ] _, _, _ = yield [("CE", [t1, formal_parameter]), ("DE", [frame_link]), ("DE", [phase_link]), ] def find_overlapping(self, a, b): newer_frames = set(a) invoking_frames = set(b) matches = list(newer_frames.intersection(invoking_frames)) if len(matches) == 1: return matches[0] elif len(matches) > 1: raise Exception("Error: multiple overlapping elements") else: raise Exception("Error: could not find any overlap") def call_param(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, phase = yield [("RD", [task_frame, "IP"]), ("RD", [task_frame, "phase"]), ] params, last_param = \ yield [("RD", [inst, "params"]), ("RD", [inst, "last_param"]), ] next_param, = yield [("RD", [params, "next_param"])] if params == phase: phase_link, ip_link, returnvalue, param_value, evalstack, evalstack_link = \ yield [("RDE", [task_frame, "phase"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "returnvalue"]), ("RD", [params, "value"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ] body, = yield [("RD", [returnvalue, "body"])] new_frame, prev_evalstack, new_phase, prev_phase, new_evalstack, new_symbols, new_returnvalue = \ yield [("CN", []), ("CN", []), ("CNV", ["init"]), ("CNV", ["init"]), ("CN", []), ("CN", []), ("CN", []), ] _, _, _, _, _, _, _, _, _, _, _, _, _, _, _ = \ yield [("CD", [new_frame, "evalstack", new_evalstack]), ("CD", [new_frame, "symbols", new_symbols]), ("CD", [new_frame, "returnvalue", new_returnvalue]), ("CD", [new_frame, "caller", inst]), ("CD", [new_frame, "phase", new_phase]), ("CD", [new_frame, "IP", body]), ("CD", [new_frame, "prev", task_frame]), ("CD", [task_frame, "phase", prev_phase]), ("CD", [task_frame, "IP", param_value]), ("CD", [prev_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [task_frame, "evalstack", prev_evalstack]), ("DE", [evalstack_link]), ("DE", [ip_link]), ("DE", [phase_link]), ] if next_param is not None: _ = yield [("CD", [evalstack, "phase", next_param])] else: evalstack_phase, = \ yield [("CNV", ["call"])] _ = yield [("CD", [evalstack, "phase", evalstack_phase])] else: frame_link, phase_link, newer_frames, invoking_frames = \ yield [("RDE", [task_root, "frame"]), ("RDE", [task_frame, "phase"]), ("RRD", [task_frame, "prev"]), ("RRD", [inst, "caller"]), ] new_frame = self.find_overlapping(newer_frames, invoking_frames) ip_link, evalstack, evalstack_link, new_symbols, new_IP = \ yield [("RDE", [task_frame, "IP"]), ("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RD", [new_frame, "symbols"]), ("RD", [new_frame, "IP"]), ] signature, = yield [("RRD", [new_IP, "body"])] signature = signature[0] sig_params, = yield [("RD", [signature, "params"])] if last_param == phase: prev_param, = \ yield [("RRD", [last_param, "next_param"])] prev_param = prev_param[0] name, = yield [("RD", [prev_param, "name"])] name_value, = \ yield [("RV", [name])] evalstack_phase, = \ yield [("CNV", ["call"])] _ = yield [("CD", [evalstack, "phase", evalstack_phase])] formal_parameter, param_value = \ yield [("RD", [sig_params, name_value]), ("RD", [last_param, "value"]), ] else: param_b, = yield [("RD", [task_frame, "phase"])] param_c, param_a = \ yield [("RD", [param_b, "next_param"]), ("RRD", [param_b, "next_param"]), ] param_a = param_a[0] name, param_value = \ yield [("RD", [param_a, "name"]), ("RD", [param_b, "value"]), ] name_value, = \ yield [("RV", [name])] formal_parameter, _ = \ yield [("RD", [sig_params, name_value]), ("CD", [evalstack, "phase", param_c]), ] new_phase, new_evalstack, variable, returnvalue = \ yield [("CNV", ["init"]), ("CN", []), ("CN", []), ("RD", [task_frame, "returnvalue"]), ] _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [task_frame, "phase", new_phase]), ("CD", [task_frame, "IP", param_value]), ("CD", [variable, "value", returnvalue]), ] t1, = yield [("CE", [new_symbols, variable])] _, _, _, _ = \ yield [("CE", [t1, formal_parameter]), ("DE", [phase_link]), ("DE", [ip_link]), ("DE", [evalstack_link]), ] def input_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] returnvalue_link, _input = \ yield [("RDE", [task_frame, "returnvalue"]), ("RD", [task_root, "input"]), ] value, next, phase_link = \ yield [("RD", [_input, "value"]), ("RD", [_input, "next"]), ("RDE", [task_frame, "phase"]), ] if value is not None: v = yield [("RV", [value])] _, _, finish = \ yield [("CD", [task_frame, "returnvalue", value]), ("CD", [task_root, "input", next]), ("CNV", ["finish"]), ] _, _, _, _ = \ yield [("CD", [task_frame, "phase", finish]), ("DN", [_input]), ("DE", [returnvalue_link]), ("DE", [phase_link]), ] self.input_value = value else: # No input yet, so just wait and don't advance IP or phase self.input_value = None self.success = False def output_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] evalstack, evalstack_link, ip_link, inst = \ yield [("RD", [task_frame, "evalstack"]), ("RDE", [task_frame, "evalstack"]), ("RDE", [task_frame, "IP"]), ("RD", [task_frame, "IP"]), ] value, new_evalstack, evalstack_phase = \ yield [("RD", [inst, "value"]), ("CN", []), ("CNV", ["output"]), ] _, _, _, _, _, _, _ = \ yield [("CD", [task_frame, "evalstack", new_evalstack]), ("CD", [new_evalstack, "prev", evalstack]), ("CD", [evalstack, "inst", inst]), ("CD", [evalstack, "phase", evalstack_phase]), ("CD", [task_frame, "IP", value]), ("DE", [evalstack_link]), ("DE", [ip_link]), ] def output_output(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] returnvalue_link, returnvalue, last_output, phase_link, last_output_link, new_last_output, finish = \ yield [("RDE", [task_frame, "returnvalue"]), ("RD", [task_frame, "returnvalue"]), ("RD", [task_root, "last_output"]), ("RDE", [task_frame, "phase"]), ("RDE", [task_root, "last_output"]), ("CN", []), ("CNV", ["finish"]), ] _, _, _, _, _, _ = \ yield [("CD", [last_output, "value", returnvalue]), ("CD", [last_output, "next", new_last_output]), ("CD", [task_root, "last_output", new_last_output]), ("CD", [task_frame, "phase", finish]), ("DE", [last_output_link]), ("DE", [phase_link]), ] def declare_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] new_var, symbols, phase_link, empty_node, new_phase = \ yield [("RD", [inst, "var"]), ("RD", [task_frame, "symbols"]), ("RDE", [task_frame, "phase"]), ("CN", []), ("CNV", ["finish"]), ] exists, = yield [("RDN", [symbols, new_var])] if exists is None: new_edge, = yield [("CE", [symbols, empty_node])] _ = yield [("CE", [new_edge, new_var])] _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("DE", [phase_link]), ] def global_init(self, task_root): task_frame, = yield [("RD", [task_root, "frame"])] inst, = yield [("RD", [task_frame, "IP"])] new_var, global_symbols, phase_link, empty_node, new_phase = \ yield [("RD", [inst, "var"]), ("RD", [task_root, "globals"]), ("RDE", [task_frame, "phase"]), ("CN", []), ("CNV", ["finish"]), ] value, = yield [("RV", [new_var])] exists, = yield [("RD", [global_symbols, value])] if exists is None: yield [("CD", [global_symbols, value, empty_node])] _, _ = yield [("CD", [task_frame, "phase", new_phase]), ("DE", [phase_link]) ]