def set_notes(model, notes): """ Set notes information on model. :param model: Model :param notes: notes information (xml string) :return: """ factory.set_notes(model, notes)
def xpp2sbml( xpp_file: Path, sbml_file: Path, force_lower: bool = False, validate: bool = True, debug: bool = False, ): """Reads given xpp_file and converts to SBML file. :param xpp_file: xpp input ode file :param sbml_file: sbml output file :param force_lower: force lower case for all lines :param validate: perform validation on the generated SBML file :return: """ print("-" * 80) print("xpp2sbml: ", xpp_file, "->", sbml_file) print("-" * 80) doc = libsbml.SBMLDocument(3, 1) model = doc.createModel() parameters = [] initial_assignments = [] rate_rules = [] assignment_rules = [] functions = [ # definition of min and max fac.Function("max", "lambda(x,y, piecewise(x,gt(x,y),y) )", name="minimum"), fac.Function("min", "lambda(x,y, piecewise(x,lt(x,y),y) )", name="maximum"), # heav (heavyside) fac.Function( "heav", "lambda(x, piecewise(0,lt(x,0), 0.5, eq(x, 0), 1,gt(x,0), 0))", name="heavyside", ), # mod (modulo) fac.Function("mod", "lambda(x,y, x % y)", name="modulo"), ] function_definitions = [] events = [] def replace_fdef(): """ Replace all arguments within the formula definitions.""" changes = False for k, fdata in enumerate(function_definitions): for i in range(len(function_definitions)): if i != k: # replace i with k formula = function_definitions[i]["formula"] new_formula = xpp_helpers.replace_formula( formula, fid=function_definitions[k]["fid"], old_args=function_definitions[k]["old_args"], new_args=function_definitions[k]["new_args"], ) if new_formula != formula: function_definitions[i]["formula"] = new_formula function_definitions[i]["new_args"] = list( sorted( set(function_definitions[i]["new_args"] + function_definitions[k]["new_args"]))) changes = True return changes def create_initial_assignment(sid, value): """ Helper for creating initial assignments """ # check if valid identifier if "(" in sid: warnings.warn( "sid is not valid: {}. Initial assignment is not generated". format(sid)) return try: f_value = float(value) parameters.append( fac.Parameter( sid=sid, value=f_value, name="{} = {}".format(sid, value), constant=False, )) except ValueError: """ Initial data are optional, XPP sets them to zero by default (many xpp model don't write the p(0)=0. """ parameters.append( fac.Parameter(sid=sid, value=0.0, name=sid, constant=False)) initial_assignments.append( fac.InitialAssignment(sid=sid, value=value, name="{} = {}".format(sid, value))) ########################################################################### # First iteration to parse relevant lines and get the replacement patterns ########################################################################### parsed_lines = [] # with open(xpp_file, encoding="utf-8") as f: with open(xpp_file) as f: lines = f.readlines() # add info to sbml text = escape_string("".join(lines)) fac.set_notes(model, NOTES.format(text)) old_line = None for line in lines: if force_lower: line = line.lower() # clean up the ends line = line.rstrip("\n").strip() # handle douple continuation characters in some models line = line.replace("\\\\", "\\") # handle semicolons line = line.rstrip(";") # join continuation if old_line: line = old_line + line old_line = None # empty line if len(line) == 0: continue # comment line if line[0] in XPP_COMMENT_CHARS: continue # xpp setting if line.startswith(XPP_SETTING_CHAR): continue # end word if line == XPP_END_WORD: continue # line continuation if line.endswith(XPP_CONTINUATION_CHAR): old_line = line.rstrip(XPP_CONTINUATION_CHAR) continue # handle the power function line = line.replace("**", "^") # handle if(...)then(...)else() pattern_ite = re.compile( r"if\s*\((.*)\)\s*then\s*\((.*)\)\s*else\s*\((.*)\)") pattern_ite_sub = re.compile( r"if\s*\(.*\)\s*then\s*\(.*\)\s*else\s*\(.*\)") groups = re.findall(pattern_ite, line) for group in groups: condition = group[0] assignment = group[1] otherwise = group[2] f_piecewise = "piecewise({}, {}, {})".format( assignment, condition, otherwise) line = re.sub(pattern_ite_sub, f_piecewise, line) ################################ # Function definitions ################################ """ Functions are defined in xpp via fid(arguments) = formula f(x,y) = x^2/(x^2+y^2) They can have up to 9 arguments. The difference to SBML functions is that xpp functions have access to the global parameter values """ f_pattern = re.compile(r"(.*)\s*\((.*)\)\s*=\s*(.*)") groups = re.findall(f_pattern, line) if groups: # function definitions found fid, args, formula = groups[0] # handles the initial assignments which look like function definitions if args == "0": parsed_lines.append(line) continue # necessary to find the additional arguments from the ast_node ast = libsbml.parseL3Formula(formula) names = set(xpp_helpers.find_names_in_ast(ast)) old_args = [t.strip() for t in args.split(",")] new_args = [a for a in names if a not in old_args] # handle special functions if fid == "power": warnings.warn( "power function cannot be added to model, rename function." ) else: # store functions with additional arguments function_definitions.append({ "fid": fid, "old_args": old_args, "new_args": new_args, "formula": formula, }) # don't append line, function definition has been handeled continue parsed_lines.append(line) if debug: print("\n\nFUNCTION_DEFINITIONS") pprint(function_definitions) # functions can use functions so this also must be replaced changes = True while changes: changes = replace_fdef() # clean the new arguments for fdata in function_definitions: fdata["new_args"] = list(sorted(set(fdata["new_args"]))) if debug: print("\nREPLACED FUNCTION_DEFINITIONS") pprint(function_definitions) # Create function definitions for k, fdata in enumerate(function_definitions): fid = fdata["fid"] formula = fdata["formula"] arguments = ",".join(fdata["old_args"] + fdata["new_args"]) functions.append( fac.Function(fid, "lambda({}, {})".format(arguments, formula)), ) ########################################################################### # Second iteration ########################################################################### if debug: print("\nPARSED LINES") pprint(parsed_lines) print("\n\n") for line in parsed_lines: # replace function definitions in lines new_line = line for fdata in function_definitions: new_line = xpp_helpers.replace_formula(new_line, fdata["fid"], fdata["old_args"], fdata["new_args"]) if new_line != line: if False: print("\nReplaced FD", fdata["fid"], ":", new_line) print("->", new_line, "\n") line = new_line if debug: # line after function replacements print("*" * 3, line, "*" * 3) ################################ # Start parsing the given line ################################ # check for the equal sign tokens = line.split("=") tokens = [t.strip() for t in tokens] ####################### # Line without '=' sign ####################### # wiener if len(tokens) == 1: items = [t.strip() for t in tokens[0].split(" ") if len(t) > 0] # keyword, value if len(items) == 2: xid, sid = items[0], items[1] xpp_type = parse_keyword(xid) # wiener if xpp_type == XPP_WIE: """Wiener parameters are normally distributed numbers with zero mean and unit standard deviation. They are useful in stochastic simulations since they automatically scale with change in the integration time step. Their names are listed separated by commas or spaces.""" # FIXME: this should be encoded using dist parameters.append(fac.Parameter(sid=sid, value=0.0)) continue # line finished else: warnings.warn("XPP line not parsed: '{}'".format(line)) ##################### # Line with '=' sign ##################### # parameter, aux, ode, initial assignments elif len(tokens) >= 2: left = tokens[0] items = [t.strip() for t in left.split(" ") if len(t) > 0] # keyword based information, i.e 2 items are on the left of the first '=' sign if len(items) == 2: xid = items[0] # xpp keyword xpp_type = parse_keyword(xid) expression = (" ".join(items[1:]) + "=" + "=".join(tokens[1:]) ) # full expression after keyword parts = parts_from_expression(expression) if False: print("xid:", xid) print("expression:", expression) print("parts:", parts) # parameter & numbers if xpp_type in [XPP_PAR, XPP_NUM]: """Parameter values are optional; if not they are set to zero. Number declarations are like parameter declarations, except that they cannot be changed within the program and do not appear in the parameter window.""" for part in parts: sid, value = sid_value_from_part(part) create_initial_assignment(sid, value) # aux elif xpp_type == XPP_AUX: """Auxiliary quantities are expressions that depend on all of your dynamic variables which you want to keep track of. Energy is one such example. They are declared like fixed quantities, but are prefaced by aux .""" for part in parts: sid, value = sid_value_from_part(part) if sid == value: # avoid circular dependencies (no information in statement) pass else: assignment_rules.append( fac.AssignmentRule(sid=sid, value=value)) # init elif xpp_type == XPP_INIT: for part in parts: sid, value = sid_value_from_part(part) create_initial_assignment(sid, value) # table elif xpp_type == XPP_TAB: """The Table declaration allows the user to specify a function of 1 variable in terms of a lookup table which uses linear interpolation. The name of the function follows the declaration and this is followed by (i) a filename (ii) or a function of "t".""" warnings.warn( "XPP_TAB not supported: XPP line not parsed: '{}'". format(line)) else: warnings.warn("XPP line not parsed: '{}'".format(line)) elif len(items) >= 2: xid = items[0] xpp_type = parse_keyword(xid) # global if xpp_type == XPP_GLO: """Global flags are expressions that signal events when they change sign, from less than to greater than zero if sign=1 , greater than to less than if sign=-1 or either way if sign=0. The condition should be delimited by braces {} The events are of the form variable=expression, are delimited by braces, and separated by semicolons. When the condition occurs all the variables in the event set are changed possibly discontinuously. """ # global sign {condition} {name1 = form1; ...} pattern_global = re.compile( r"([+,-]{0,1}\d{1})\s+\{{0,1}(.*)\{{0,1}\s+\{(.*)\}") groups = re.findall(pattern_global, line) if groups: g = groups[0] sign = int(g[0]) trigger = g[1] # FIXME: handle sign=-1, sign=0, sign=+1 if sign == -1: trigger = g[1] + ">= 0" elif sign == 1: trigger = g[1] + ">= 0" elif sign == 0: trigger = g[1] + ">= 0" assignment_parts = [t.strip() for t in g[2].split(";")] assignments = {} for p in assignment_parts: key, value = p.split("=") assignments[key] = value events.append( fac.Event( sid="e{}".format(len(events)), trigger=trigger, assignments=assignments, )) else: warnings.warn( "global expression could not be parsed: {}".format( line)) else: warnings.warn("XPP line not parsed: '{}'".format(line)) # direct assignments elif len(items) == 1: right = tokens[1] # init if left.endswith("(0)"): sid, value = left[0:-3], right create_initial_assignment(sid, value) # difference equations elif left.endswith("(t+1)"): warnings.warn( "Difference Equations not supported: XPP line not parsed: '{}'" .format(line)) # ode elif left.endswith("'"): sid = left[0:-1] rate_rules.append(fac.RateRule(sid=sid, value=right)) elif left.endswith("/dt"): sid = left[1:-3] rate_rules.append(fac.RateRule(sid=sid, value=right)) # assignment rules else: assignment_rules.append( fac.AssignmentRule(sid=left, value=right)) else: warnings.warn("XPP line not parsed: '{}'".format(line)) # add time assignment_rules.append( fac.AssignmentRule(sid="t", value="time", name="model time")) # create SBML objects objects = (parameters + initial_assignments + functions + rate_rules + assignment_rules + events) fac.create_objects(model, obj_iter=objects, debug=False) """ Parameter values are optional; if not they are set to zero in xpp. Many models do not encode the initial zeros. """ for p in doc.getModel().getListOfParameters(): if not p.isSetValue(): p.setValue(0.0) sbml.write_sbml( doc, sbml_file, validate=validate, program_name="sbmlutils", program_version=__version__, units_consistency=False, )
def create_sbml(self, sbml_level=SBML_LEVEL, sbml_version=SBML_VERSION): """ Create the SBML model :return: :rtype: """ from sbmlutils.validation import check logging.info('*'*40) logging.info(self.model_id) logging.info('*' * 40) # create core model sbmlns = libsbml.SBMLNamespaces(sbml_level, sbml_version) # add all the packages # FIXME: only add packages which are required for the model sbmlns.addPackageNamespace("fbc", 2) sbmlns.addPackageNamespace("comp", 1) # sbmlns.addPackageNamespace("distrib", 1) self.doc = libsbml.SBMLDocument(sbmlns) self.doc.setPackageRequired("comp", True) self.doc.setPackageRequired("fbc", False) # self.doc.setPackageRequired("distrib", True) self.model = self.doc.createModel() fbc_plugin = self.model.getPlugin("fbc") fbc_plugin.setStrict(False) # name & id check(self.model.setId(self.model_id), 'set id') check(self.model.setName(self.model_id), 'set name') # notes if hasattr(self, 'notes') and self.notes is not None: factory.set_notes(self.model, self.notes) # history if hasattr(self, 'creators'): history.set_model_history(self.model, self.creators) # model units if hasattr(self, 'model_units'): factory.set_model_units(self.model, self.model_units) # lists ofs for attr in [ 'externalModelDefinitions', 'submodels', 'units', 'functions', 'parameters', 'compartments', 'species', 'assignments', 'rules', 'rate_rules', 'reactions', 'events', 'constraints', 'ports', 'replacedElements', 'deletions', 'objectives', 'layouts' ]: # create the respective objects if hasattr(self, attr): objects = getattr(self, attr) if objects: factory.create_objects(self.model, obj_iter=objects, key=attr) else: logging.warning("Not defined: <{}> ".format(attr))
def create_sbml(self, sbml_level: int = SBML_LEVEL, sbml_version: int = SBML_VERSION) -> libsbml.SBMLDocument: """Create the SBML model. :return: :rtype: """ logger.info(f"create_sbml: '{self.model_id}'") # create core model sbmlns = libsbml.SBMLNamespaces(sbml_level, sbml_version) # add all the packages # FIXME: only add packages which are required for the model supported_packages = {"fbc", "comp", "distrib"} sbmlns.addPackageNamespace("comp", 1) for package in self.packages: if package not in supported_packages: raise ValueError( f"Supported packages are: '{supported_packages}', " f"but package '{package}' found.") if package == "fbc": sbmlns.addPackageNamespace("fbc", 2) if package == "distrib": sbmlns.addPackageNamespace("distrib", 1) self.doc = libsbml.SBMLDocument(sbmlns) self.model = self.doc.createModel() self.doc.setPackageRequired("comp", True) if "fbc" in self.packages: self.doc.setPackageRequired("fbc", False) fbc_plugin = self.model.getPlugin("fbc") fbc_plugin.setStrict(False) if "distrib" in self.packages: self.doc.setPackageRequired("distrib", True) # name & id if self.model_id: check(self.model.setId(self.model_id), "set id") check(self.model.setName(self.model_id), "set name") else: logger.warning("Model id 'mid' should be set on model") # notes if hasattr(self, "notes") and self.notes is not None: factory.set_notes(self.model, self.notes) # history if hasattr(self, "creators"): history.set_model_history(self.model, self.creators) # model units if hasattr(self, "model_units"): factory.ModelUnits.set_model_units( self.model, self.model_units) # type: ignore # lists ofs for attr in [ "externalModelDefinitions", "submodels", "units", "functions", "parameters", "compartments", "species", "assignments", "rules", "rate_rules", "reactions", "events", "constraints", "ports", "replacedElements", "deletions", "objectives", "layouts", ]: # create the respective objects if hasattr(self, attr): objects = getattr(self, attr) if objects: factory.create_objects(self.model, obj_iter=objects, key=attr) else: logger.debug(f"Not defined: <{attr}>") return self.doc
def create_sbml(self, sbml_level=SBML_LEVEL, sbml_version=SBML_VERSION): """ Create the SBML model :return: :rtype: """ from sbmlutils.validation import check logging.info('*' * 40) logging.info(self.model_id) logging.info('*' * 40) # create core model sbmlns = libsbml.SBMLNamespaces(sbml_level, sbml_version) # add all the packages # FIXME: only add packages which are required for the model sbmlns.addPackageNamespace("fbc", 2) sbmlns.addPackageNamespace("comp", 1) # sbmlns.addPackageNamespace("distrib", 1) self.doc = libsbml.SBMLDocument(sbmlns) self.doc.setPackageRequired("comp", True) self.doc.setPackageRequired("fbc", False) # self.doc.setPackageRequired("distrib", True) self.model = self.doc.createModel() fbc_plugin = self.model.getPlugin("fbc") fbc_plugin.setStrict(False) # name & id check(self.model.setId(self.model_id), 'set id') check(self.model.setName(self.model_id), 'set name') # notes if hasattr(self, 'notes') and self.notes is not None: factory.set_notes(self.model, self.notes) # history if hasattr(self, 'creators'): history.set_model_history(self.model, self.creators) # model units if hasattr(self, 'model_units'): factory.set_model_units(self.model, self.model_units) # lists ofs for attr in [ 'externalModelDefinitions', 'submodels', 'units', 'functions', 'parameters', 'compartments', 'species', 'assignments', 'rules', 'rate_rules', 'reactions', 'events', 'constraints', 'ports', 'replacedElements', 'deletions', 'objectives', 'layouts' ]: # create the respective objects if hasattr(self, attr): objects = getattr(self, attr) if objects: factory.create_objects(self.model, obj_iter=objects, key=attr) else: logging.info("Not defined: <{}> ".format(attr))