Source code for pysmt.smtlib.script

# This file is part of pySMT.
#   Copyright 2014 Andrea Micheli and Marco Gario
#   Licensed under the Apache License, Version 2.0 (the "License");
#   you may not use this file except in compliance with the License.
#   You may obtain a copy of the License at
#   Unless required by applicable law or agreed to in writing, software
#   distributed under the License is distributed on an "AS IS" BASIS,
#   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#   See the License for the specific language governing permissions and
#   limitations under the License.

import warnings
from collections import namedtuple
from six.moves import cStringIO
from six.moves import xrange

import pysmt.smtlib.commands as smtcmd
from pysmt.exceptions import (UnknownSmtLibCommandError, NoLogicAvailableError,
                              UndefinedLogicError, PysmtValueError)
from pysmt.smtlib.printers import SmtPrinter, SmtDagPrinter, quote
from pysmt.oracles import get_logic
from pysmt.logics import get_closer_smtlib_logic, Logic, SMTLIB2_LOGICS
from pysmt.environment import get_env

[docs]def check_sat_filter(log): """ Returns the result of the check-sat command from a log. Raises errors in case a unique check-sat command cannot be located. """ filtered = [(x,y) for x,y in log if x == smtcmd.CHECK_SAT] assert len(filtered) == 1 return filtered[0][1]
[docs]class SmtLibCommand(namedtuple('SmtLibCommand', ['name', 'args'])):
[docs] def serialize(self, outstream=None, printer=None, daggify=True): """Serializes the SmtLibCommand into outstream using the given printer. Exactly one of outstream or printer must be specified. When specifying the printer, the associated outstream will be used. If printer is not specified, daggify controls the printer to be created. If true a daggified formula is produced, otherwise a tree printing is done. """ if (outstream is None) and (printer is not None): outstream = elif (outstream is not None) and (printer is None): if daggify: printer = SmtDagPrinter(outstream) else: printer = SmtPrinter(outstream) else: assert (outstream is not None and printer is not None) or \ (outstream is None and printer is None), \ "Exactly one of outstream and printer must be set." if == smtcmd.SET_OPTION: outstream.write("(%s %s %s)" % (,self.args[0],self.args[1])) elif == smtcmd.SET_INFO: outstream.write("(%s %s %s)" % (,self.args[0], quote(self.args[1]))) elif == smtcmd.ASSERT: outstream.write("(%s " % printer.printer(self.args[0]) outstream.write(")") elif == smtcmd.GET_VALUE: outstream.write("(%s (" % for a in self.args: printer.printer(a) outstream.write(" ") outstream.write("))") elif in [smtcmd.CHECK_SAT, smtcmd.EXIT, smtcmd.RESET_ASSERTIONS, smtcmd.GET_UNSAT_CORE, smtcmd.GET_ASSIGNMENT, smtcmd.GET_MODEL]: outstream.write("(%s)" % elif == smtcmd.SET_LOGIC: outstream.write("(%s %s)" % (, self.args[0])) elif in [smtcmd.DECLARE_FUN, smtcmd.DECLARE_CONST]: symbol = self.args[0] type_str = symbol.symbol_type().as_smtlib() outstream.write("(%s %s %s)" % (, quote(symbol.symbol_name()), type_str)) elif == smtcmd.DEFINE_FUN: name = self.args[0] params_list = self.args[1] params = " ".join(["(%s %s)" % (v, v.symbol_type()) for v in params_list]) rtype = self.args[2] expr = self.args[3] outstream.write("(%s %s (%s) %s " % (, name, params, rtype)) printer.printer(expr) outstream.write(")") elif in [smtcmd.PUSH, smtcmd.POP]: outstream.write("(%s %d)" % (, self.args[0])) elif == smtcmd.DEFINE_SORT: name = self.args[0] params_list = self.args[1] params = " ".join(params_list) rtype = self.args[2] outstream.write("(%s %s (%s) %s)" % (, name, params, rtype)) elif == smtcmd.DECLARE_SORT: type_decl = self.args[0] outstream.write("(%s %s %d)" % (,, type_decl.arity)) elif in smtcmd.ALL_COMMANDS: raise NotImplementedError("'%s' is a valid SMT-LIB command "\ "but it is currently not supported. "\ "Please open a bug-report." % else: raise UnknownSmtLibCommandError(
def serialize_to_string(self, daggify=True): buf = cStringIO() self.serialize(buf, daggify=daggify) return buf.getvalue()
class SmtLibScript(object): def __init__(self): self.annotations = None self.commands = [] def add(self, name, args): """Adds a new SmtLibCommand with the given name and arguments.""" self.add_command(SmtLibCommand(name=name, args=args)) def add_command(self, command): self.commands.append(command) def evaluate(self, solver): log = [] for cmd in self.commands: r = evaluate_command(cmd, solver) log.append((, r)) return log def contains_command(self, command_name): return any( == command_name for x in self.commands) def count_command_occurrences(self, command_name): return sum(1 for cmd in self.commands if == command_name) def filter_by_command_name(self, command_name_set): return (cmd for cmd in self.commands if in command_name_set) def get_strict_formula(self, mgr=None): if self.contains_command(smtcmd.PUSH) or \ self.contains_command(smtcmd.POP): raise PysmtValueError("Was not expecting push-pop commands") if self.count_command_occurrences(smtcmd.CHECK_SAT) != 1: raise PysmtValueError("Was expecting exactly one check-sat command") _And = mgr.And if mgr else get_env().formula_manager.And assertions = [cmd.args[0] for cmd in self.filter_by_command_name([smtcmd.ASSERT])] return _And(assertions) def get_last_formula(self, mgr=None): """Returns the last formula of the execution of the Script. This coincides with the conjunction of the assertions that are left on the assertion stack at the end of the SMTLibScript. """ stack = [] backtrack = [] _And = mgr.And if mgr else get_env().formula_manager.And for cmd in self.commands: if == smtcmd.ASSERT: stack.append(cmd.args[0]) if == smtcmd.RESET_ASSERTIONS: stack = [] backtrack = [] elif == smtcmd.PUSH: for _ in xrange(cmd.args[0]): backtrack.append(len(stack)) elif == smtcmd.POP: for _ in xrange(cmd.args[0]): l = backtrack.pop() stack = stack[:l] return _And(stack) def to_file(self, fname, daggify=True): with open(fname, "w") as outstream: self.serialize(outstream, daggify=daggify) def serialize(self, outstream, daggify=True): """Serializes the SmtLibScript expanding commands""" if daggify: printer = SmtDagPrinter(outstream) else: printer = SmtPrinter(outstream) for cmd in self.commands: cmd.serialize(printer=printer) outstream.write("\n") def __len__(self): return len(self.commands) def __iter__(self): return iter(self.commands) def __str__(self): return "\n".join((str(cmd) for cmd in self.commands)) def smtlibscript_from_formula(formula, logic=None): script = SmtLibScript() if logic is None: # Get the simplest SmtLib logic that contains the formula f_logic = get_logic(formula) smt_logic = None try: smt_logic = get_closer_smtlib_logic(f_logic) except NoLogicAvailableError: warnings.warn("The logic %s is not reducible to any SMTLib2 " \ "standard logic. Proceeding with non-standard " \ "logic '%s'" % (f_logic, f_logic), stacklevel=3) smt_logic = f_logic elif not (isinstance(logic, Logic) or isinstance(logic, str)): raise UndefinedLogicError(str(logic)) else: if logic not in SMTLIB2_LOGICS: warnings.warn("The logic %s is not reducible to any SMTLib2 " \ "standard logic. Proceeding with non-standard " \ "logic '%s'" % (logic, logic), stacklevel=3) smt_logic = logic script.add(name=smtcmd.SET_LOGIC, args=[smt_logic]) # Declare all types types = get_env().typeso.get_types(formula, custom_only=True) for type_ in types: script.add(name=smtcmd.DECLARE_SORT, args=[type_.decl]) deps = formula.get_free_variables() # Declare all variables for symbol in deps: assert symbol.is_symbol() script.add(name=smtcmd.DECLARE_FUN, args=[symbol]) # Assert formula script.add_command(SmtLibCommand(name=smtcmd.ASSERT, args=[formula])) # check-sat script.add_command(SmtLibCommand(name=smtcmd.CHECK_SAT, args=[])) return script def evaluate_command(cmd, solver): if == smtcmd.SET_INFO: return solver.set_info(cmd.args[0], cmd.args[1]) if == smtcmd.SET_OPTION: return solver.set_option(cmd.args[0], cmd.args[1]) elif == smtcmd.ASSERT: return solver.assert_(cmd.args[0]) elif == smtcmd.CHECK_SAT: return solver.check_sat() elif == smtcmd.RESET_ASSERTIONS: return solver.reset_assertions() elif == smtcmd.GET_VALUE: return solver.get_values(cmd.args) elif == smtcmd.PUSH: return solver.push(cmd.args[0]) elif == smtcmd.POP: return solver.pop(cmd.args[0]) elif == smtcmd.EXIT: return solver.exit() elif == smtcmd.SET_LOGIC: name = cmd.args[0] return solver.set_logic(name) elif == smtcmd.DECLARE_FUN: return solver.declare_fun(cmd.args[0]) elif == smtcmd.DECLARE_CONST: return solver.declare_const(cmd.args[0]) elif == smtcmd.DEFINE_FUN: (var, formals, typename, body) = cmd.args return solver.define_fun(var, formals, typename, body) elif == smtcmd.ECHO: print(cmd.args[0]) return None elif == smtcmd.CHECK_SAT_ASSUMING: return solver.check_sat(cmd.args) elif == smtcmd.GET_UNSAT_CORE: return solver.get_unsat_core() elif == smtcmd.DECLARE_SORT: name = cmd.args[0].name arity = cmd.args[0].arity return solver.declare_sort(name, arity) elif in smtcmd.ALL_COMMANDS: raise NotImplementedError("'%s' is a valid SMT-LIB command "\ "but it is currently not supported. "\ "Please open a bug-report." % else: raise UnknownSmtLibCommandError(