from constructors_visitor import ConstructorsVisitor import urllib import urllib2 timeout = 100 class ConstructorsObjectVisitor(ConstructorsVisitor): def __init__(self, args): ConstructorsVisitor.__init__(self, args) self.username = args[0] self.obj_file = args[1] self.real_file = args[2] self.address = args[3] self.object_symbols = {} with open(self.real_file, 'r') as f: import hashlib md5 = hashlib.md5() md5.update(f.read()) self.hash_file = md5.hexdigest() # Check if file is already compiled (with same hash) in Modelverse urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"%s"' % self.username, "username": "user_manager"}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '3', "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"is_defined"', "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"%s"' % self.obj_file, "username": self.username}))).read() v = urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "get_output", "username": self.username}))).read() v = v.split("=", 2)[2] simple_filename = self.real_file.rsplit("/")[-1] if v == "None": # Not defined, so recompile print("[COMPILE] %s" % simple_filename) else: # Is defined already, so let's compare hashes if v != self.hash_file: print("[COMPILE] %s" % simple_filename) # Remove in Modelverse and recompile urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '3', "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"remove_obj"', "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"%s"' % self.obj_file, "username": self.username}))).read() else: self.visit = lambda i: i self.dump = lambda: True print("[CACHED] %s" % simple_filename) def dump(self): v = ConstructorsVisitor.dump(self) import json # Set up interface urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '3', "username": self.username}))).read() # Start uploading the code urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"upload"', "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"%s"' % self.obj_file, "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '"%s"' % self.hash_file, "username": self.username}))).read() urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": 'true', "username": self.username}))).read() # Use new interface def flush_data(data): if data: urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "data": json.dumps(data), "username": self.username})), timeout=timeout).read() return [] var_list = {} data = [] for p in v: if isinstance(p, int): if p not in var_list: data = flush_data(data) val = urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "get_output", "username": self.username})), timeout=timeout).read() val = val.split("=", 2)[1].split("&", 1)[0] var_list[p] = val continue else: val = var_list[p] t = "R" else: val = p t = "V" data.append([t, val]) data = flush_data(data) # Upload symbol table data = [] for e, v in self.object_symbols.iteritems(): data.append(["V", "true"]) data.append(["V", '"%s"' % e]) data.append(["V", "true" if v else "false"]) urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "data": json.dumps(data), "username": self.username}))).read() # Finish the symbol table urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": 'false', "username": self.username}))).read() # Wait for kernel to signal that it finished urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "set_input", "element_type": "V", "value": '2', "username": self.username}))).read() v = urllib2.urlopen(urllib2.Request(self.address, urllib.urlencode({"op": "get_output", "username": self.username}))).read() v = v.split("=", 2)[2] if v == "DONE": return True else: return False def visit_definition(self, tree): for a in tree.get_children("ID"): name = a.get_tail()[0] self.object_symbols[name] = True return ConstructorsVisitor.visit_definition(self, tree) def visit_vardecl(self, tree): if len(tree.get_tail()) > 2: for a in tree.get_children("ID"): name = a.get_tail()[0] self.object_symbols.setdefault(name, False) return ConstructorsVisitor.visit_vardecl(self, tree) else: return ConstructorsVisitor.visit_vardecl(self, tree) def visit_funcdecl(self, tree): for a in tree.get_children("func_name"): for b in a.get_children("ID"): name = b.get_tail()[0] if tree.get_children("func_body") or tree.get_children("ASSIGN"): self.object_symbols[name] = True else: self.object_symbols.setdefault(name, False) return ConstructorsVisitor.visit_funcdecl(self, tree)