C# (CSharp) Microsoft.Boogie.SMTLib SMTLibProverOptions.AddWeakSmtOption示例

示例#1

        public static void SetDefaultOptions(SMTLibProverOptions options)
        {
            options.AddWeakSmtOption("smt.mbqi", "false"); // default: true

            // {:captureState} does not work with compressed models
            options.AddWeakSmtOption("model.compact", "false"); // default: false
            options.AddWeakSmtOption("model.v2", "true");       // default: false

            // Make sure we get something that is parsable as a bitvector
            options.AddWeakSmtOption("pp.bv_literals", "false"); // default: true
        }

示例#2

文件： SMTInterpol.cs 项目： xurongchen/fse20

        public static void SetupOptions(SMTLibProverOptions options)
        {
            FindExecutable();

            //options.AddWeakSmtOption("produce-unsat-cores", "true");
            //options.AddWeakSmtOption("smt-lib-version", "2.0");
            //options.AddWeakSmtOption("produce-models", "true");
            options.AddWeakSmtOption("produce-proofs", "true");
        }

示例#3

        public static void SetupOptions(SMTLibProverOptions options)
        {
            FindExecutable();
            int major, minor;

            GetVersion(out major, out minor);
            if (major > 4 || major == 4 && minor >= 3)
            {
                bool fp = false; // CommandLineOptions.Clo.FixedPointEngine != null;

                // don't bother with auto-config - it would disable explicit settings for eager threshold and so on
                if (!fp)
                {
                    options.AddWeakSmtOption("AUTO_CONFIG", "false");
                }

                //options.AddWeakSmtOption("MODEL_PARTIAL", "true");
                //options.WeakAddSmtOption("MODEL_VALUE_COMPLETION", "false");

                // options.AddWeakSmtOption("MODEL_HIDE_UNUSED_PARTITIONS", "false"); TODO: what does this do?

                // Make sure we get something that is parsable as a bitvector
                options.AddWeakSmtOption("pp.bv_literals", "false");
                if (!CommandLineOptions.Clo.UseSmtOutputFormat)
                {
                    options.AddWeakSmtOption("MODEL.V2", "true");
                }
                //options.AddWeakSmtOption("ASYNC_COMMANDS", "false"); TODO: is this needed?

                if (!options.OptimizeForBv)
                {
                    // Phase selection means to always try the negative literal polarity first, seems to be good for Boogie.
                    // The restart parameters change the restart behavior to match Z3 v1, which also seems to be good.
                    options.AddWeakSmtOption("smt.PHASE_SELECTION", "0");
                    options.AddWeakSmtOption("smt.RESTART_STRATEGY", "0");
                    options.AddWeakSmtOption("smt.RESTART_FACTOR", "|1.5|");

                    // Make the integer model more diverse by default, speeds up some benchmarks a lot.
                    options.AddWeakSmtOption("smt.ARITH.RANDOM_INITIAL_VALUE", "true");

                    // The left-to-right structural case-splitting strategy.
                    //options.AddWeakSmtOption("SORT_AND_OR", "false"); // always false now

                    if (!fp)
                    {
                        options.AddWeakSmtOption("smt.CASE_SPLIT", "3");
                    }

                    // In addition delay adding unit conflicts.
                    options.AddWeakSmtOption("smt.DELAY_UNITS", "true");
                    //options.AddWeakSmtOption("DELAY_UNITS_THRESHOLD", "16"); TODO: what?
                }

                // This is used by VCC, but could be also useful for others, if sk_hack(foo(x)) is included as trigger,
                // the foo(x0) will be activated for e-matching when x is skolemized to x0.
                options.AddWeakSmtOption("NNF.SK_HACK", "true");

                // don't use model-based quantifier instantiation; it never finishes on non-trivial Boogie problems
                options.AddWeakSmtOption("smt.MBQI", "false");

                // More or less like MAM=0.
                options.AddWeakSmtOption("smt.QI.EAGER_THRESHOLD", "100");
                // Complex proof attempts in VCC (and likely elsewhere) require matching depth of 20 or more.

                // the following will make the :weight option more usable
                // KLM: this QI cost function is the default
                // if (!fp) options.AddWeakSmtOption("smt.QI.COST", "|(+ weight generation)|"); // TODO: this doesn't seem to work

                //if (options.Inspector != null)
                //  options.WeakAddSmtOption("PROGRESS_SAMPLING_FREQ", "100");

                options.AddWeakSmtOption("TYPE_CHECK", "true");
                options.AddWeakSmtOption("smt.BV.REFLECT", "true");

                if (options.TimeLimit > 0)
                {
                    options.AddWeakSmtOption("TIMEOUT", options.TimeLimit.ToString());
                    options.AddWeakSmtOption("fixedpoint.TIMEOUT", options.TimeLimit.ToString());
                    // This kills the Z3 *instance* after the specified time, not a particular query, so we cannot use it.
                    // options.AddSolverArgument("/T:" + (options.TimeLimit + 1000) / 1000);
                }

                if (options.Inspector != null)
                {
                    options.AddWeakSmtOption("PROGRESS_SAMPLING_FREQ", "200");
                }

                if (CommandLineOptions.Clo.WeakArrayTheory)
                {
                    options.AddWeakSmtOption("smt.array.weak", "true");
                    options.AddWeakSmtOption("smt.array.extensional", "false");
                }

                if (CommandLineOptions.Clo.PrintConjectures != null)
                {
                    options.AddWeakSmtOption("fixedpoint.conjecture_file", CommandLineOptions.Clo.PrintConjectures + ".tmp");
                }
            }
            else
            {
                // don't bother with auto-config - it would disable explicit settings for eager threshold and so on
                options.AddWeakSmtOption("AUTO_CONFIG", "false");

                //options.AddWeakSmtOption("MODEL_PARTIAL", "true");
                //options.WeakAddSmtOption("MODEL_VALUE_COMPLETION", "false");
                options.AddWeakSmtOption("MODEL_HIDE_UNUSED_PARTITIONS", "false");
                options.AddWeakSmtOption("ASYNC_COMMANDS", "false");

                if (CommandLineOptions.Clo.UseSmtOutputFormat)
                {
                    options.AddWeakSmtOption("pp-bv-literals", "false");;
                }
                else
                {
                    options.AddWeakSmtOption("MODEL_V2", "true");
                }

                if (!options.OptimizeForBv)
                {
                    // Phase selection means to always try the negative literal polarity first, seems to be good for Boogie.
                    // The restart parameters change the restart behavior to match Z3 v1, which also seems to be good.
                    options.AddWeakSmtOption("PHASE_SELECTION", "0");
                    options.AddWeakSmtOption("RESTART_STRATEGY", "0");
                    options.AddWeakSmtOption("RESTART_FACTOR", "|1.5|");

                    // Make the integer model more diverse by default, speeds up some benchmarks a lot.
                    options.AddWeakSmtOption("ARITH_RANDOM_INITIAL_VALUE", "true");

                    // The left-to-right structural case-splitting strategy.
                    //options.AddWeakSmtOption("SORT_AND_OR", "false"); // always false now
                    options.AddWeakSmtOption("CASE_SPLIT", "3");

                    // In addition delay adding unit conflicts.
                    options.AddWeakSmtOption("DELAY_UNITS", "true");
                    options.AddWeakSmtOption("DELAY_UNITS_THRESHOLD", "16");
                }

                // This is used by VCC, but could be also useful for others, if sk_hack(foo(x)) is included as trigger,
                // the foo(x0) will be activated for e-matching when x is skolemized to x0.
                options.AddWeakSmtOption("NNF_SK_HACK", "true");

                // don't use model-based quantifier instantiation; it never finishes on non-trivial Boogie problems
                options.AddWeakSmtOption("MBQI", "false");

                // More or less like MAM=0.
                options.AddWeakSmtOption("QI_EAGER_THRESHOLD", "100");
                // Complex proof attempts in VCC (and likely elsewhere) require matching depth of 20 or more.

                // the following will make the :weight option more usable
                options.AddWeakSmtOption("QI_COST", "|\"(+ weight generation)\"|");

                //if (options.Inspector != null)
                //  options.WeakAddSmtOption("PROGRESS_SAMPLING_FREQ", "100");

                options.AddWeakSmtOption("TYPE_CHECK", "true");
                options.AddWeakSmtOption("BV_REFLECT", "true");

                if (options.TimeLimit > 0)
                {
                    options.AddWeakSmtOption("SOFT_TIMEOUT", options.TimeLimit.ToString());
                    // This kills the Z3 *instance* after the specified time, not a particular query, so we cannot use it.
                    // options.AddSolverArgument("/T:" + (options.TimeLimit + 1000) / 1000);
                }

                if (options.Inspector != null)
                {
                    options.AddWeakSmtOption("PROGRESS_SAMPLING_FREQ", "200");
                }

                if (CommandLineOptions.Clo.WeakArrayTheory)
                {
                    options.AddWeakSmtOption("ARRAY_WEAK", "true");
                    options.AddWeakSmtOption("ARRAY_EXTENSIONAL", "false");
                }

                options.AddWeakSmtOption("MODEL_ON_TIMEOUT", "true");
            }

            // KLM: don't add Z3 options here. The options are different in different Z3 versions.
            // Add options in the above condition for the appropriate version.

            // legacy option handling
            if (!CommandLineOptions.Clo.z3AtFlag)
            {
                options.MultiTraces = true;
            }


            foreach (string opt in CommandLineOptions.Clo.Z3Options)
            {
                Contract.Assert(opt != null);
                int eq = opt.IndexOf("=");
                if (eq > 0 && 'A' <= opt[0] && opt[0] <= 'Z' && !commandLineOnly.Contains(opt.Substring(0, eq)))
                {
                    options.AddSmtOption(opt.Substring(0, eq), opt.Substring(eq + 1));
                }
                else
                {
                    options.AddSolverArgument(opt);
                }
            }
        }

示例#4

文件： Z3.cs 项目： Chenguang-Zhu/ICE-C5

        public static void SetupOptions(SMTLibProverOptions options)
        {
            FindExecutable();
              int major, minor;
              GetVersion(out major, out minor);
              if (major > 4 || major == 4 && minor >= 3)
              {

            // don't bother with auto-config - it would disable explicit settings for eager threshold and so on
            options.AddWeakSmtOption("AUTO_CONFIG", "false");

            //options.AddWeakSmtOption("MODEL_PARTIAL", "true");
            //options.WeakAddSmtOption("MODEL_VALUE_COMPLETION", "false");

            // options.AddWeakSmtOption("MODEL_HIDE_UNUSED_PARTITIONS", "false"); TODO: what does this do?

            options.AddWeakSmtOption("MODEL.V2", "true");
            //options.AddWeakSmtOption("ASYNC_COMMANDS", "false"); TODO: is this needed?

            if (!options.OptimizeForBv)
            {
              // Phase selection means to always try the negative literal polarity first, seems to be good for Boogie.
              // The restart parameters change the restart behavior to match Z3 v1, which also seems to be good.
              options.AddWeakSmtOption("smt.PHASE_SELECTION", "0");
              options.AddWeakSmtOption("smt.RESTART_STRATEGY", "0");
              options.AddWeakSmtOption("smt.RESTART_FACTOR", "|1.5|");

              // Make the integer model more diverse by default, speeds up some benchmarks a lot.
              options.AddWeakSmtOption("smt.ARITH.RANDOM_INITIAL_VALUE", "true");

              // The left-to-right structural case-splitting strategy.
              //options.AddWeakSmtOption("SORT_AND_OR", "false"); // always false now
              options.AddWeakSmtOption("smt.CASE_SPLIT", "3");

              // In addition delay adding unit conflicts.
              options.AddWeakSmtOption("smt.DELAY_UNITS", "true");
              //options.AddWeakSmtOption("DELAY_UNITS_THRESHOLD", "16"); TODO: what?
            }

            // This is used by VCC, but could be also useful for others, if sk_hack(foo(x)) is included as trigger,
            // the foo(x0) will be activated for e-matching when x is skolemized to x0.
            options.AddWeakSmtOption("NNF.SK_HACK", "true");

            // don't use model-based quantifier instantiation; it never finishes on non-trivial Boogie problems
            options.AddWeakSmtOption("smt.MBQI", "false");

            // More or less like MAM=0.
            options.AddWeakSmtOption("smt.QI.EAGER_THRESHOLD", "100");
            // Complex proof attempts in VCC (and likely elsewhere) require matching depth of 20 or more.

            // the following will make the :weight option more usable
            options.AddWeakSmtOption("smt.QI.COST", "|\"(+ weight generation)\"|"); // TODO: this doesn't seem to work

            //if (options.Inspector != null)
            //  options.WeakAddSmtOption("PROGRESS_SAMPLING_FREQ", "100");

            options.AddWeakSmtOption("TYPE_CHECK", "true");
            options.AddWeakSmtOption("smt.BV.REFLECT", "true");

            if (options.TimeLimit > 0)
            {
              options.AddWeakSmtOption("TIMEOUT", options.TimeLimit.ToString());
                    options.AddWeakSmtOption("fixedpoint.TIMEOUT", options.TimeLimit.ToString());
              // This kills the Z3 *instance* after the specified time, not a particular query, so we cannot use it.
              // options.AddSolverArgument("/T:" + (options.TimeLimit + 1000) / 1000);
            }

            if (options.Inspector != null)
              options.AddWeakSmtOption("PROGRESS_SAMPLING_FREQ", "200");

            if (CommandLineOptions.Clo.WeakArrayTheory)
            {
              options.AddWeakSmtOption("smt.array.weak", "true");
              options.AddWeakSmtOption("smt.array.extensional", "false");
            }
              }
              else
              {
            // don't bother with auto-config - it would disable explicit settings for eager threshold and so on
            options.AddWeakSmtOption("AUTO_CONFIG", "false");

            //options.AddWeakSmtOption("MODEL_PARTIAL", "true");
            //options.WeakAddSmtOption("MODEL_VALUE_COMPLETION", "false");
            options.AddWeakSmtOption("MODEL_HIDE_UNUSED_PARTITIONS", "false");
            options.AddWeakSmtOption("ASYNC_COMMANDS", "false");

            if (CommandLineOptions.Clo.UseSmtOutputFormat)
            {
              options.AddWeakSmtOption("pp-bv-literals", "false"); ;
            }
            else
            {
              options.AddWeakSmtOption("MODEL_V2", "true");
            }

            if (!options.OptimizeForBv)
            {
              // Phase selection means to always try the negative literal polarity first, seems to be good for Boogie.
              // The restart parameters change the restart behavior to match Z3 v1, which also seems to be good.
              options.AddWeakSmtOption("PHASE_SELECTION", "0");
              options.AddWeakSmtOption("RESTART_STRATEGY", "0");
              options.AddWeakSmtOption("RESTART_FACTOR", "|1.5|");

              // Make the integer model more diverse by default, speeds up some benchmarks a lot.
              options.AddWeakSmtOption("ARITH_RANDOM_INITIAL_VALUE", "true");

              // The left-to-right structural case-splitting strategy.
              //options.AddWeakSmtOption("SORT_AND_OR", "false"); // always false now
              options.AddWeakSmtOption("CASE_SPLIT", "3");

              // In addition delay adding unit conflicts.
              options.AddWeakSmtOption("DELAY_UNITS", "true");
              options.AddWeakSmtOption("DELAY_UNITS_THRESHOLD", "16");
            }

            // This is used by VCC, but could be also useful for others, if sk_hack(foo(x)) is included as trigger,
            // the foo(x0) will be activated for e-matching when x is skolemized to x0.
            options.AddWeakSmtOption("NNF_SK_HACK", "true");

            // don't use model-based quantifier instantiation; it never finishes on non-trivial Boogie problems
            options.AddWeakSmtOption("MBQI", "false");

            // More or less like MAM=0.
            options.AddWeakSmtOption("QI_EAGER_THRESHOLD", "100");
            // Complex proof attempts in VCC (and likely elsewhere) require matching depth of 20 or more.

            // the following will make the :weight option more usable
            options.AddWeakSmtOption("QI_COST", "|\"(+ weight generation)\"|");

            //if (options.Inspector != null)
            //  options.WeakAddSmtOption("PROGRESS_SAMPLING_FREQ", "100");

            options.AddWeakSmtOption("TYPE_CHECK", "true");
            options.AddWeakSmtOption("BV_REFLECT", "true");

            if (options.TimeLimit > 0)
            {
              options.AddWeakSmtOption("SOFT_TIMEOUT", options.TimeLimit.ToString());
              // This kills the Z3 *instance* after the specified time, not a particular query, so we cannot use it.
              // options.AddSolverArgument("/T:" + (options.TimeLimit + 1000) / 1000);
            }

            if (options.Inspector != null)
              options.AddWeakSmtOption("PROGRESS_SAMPLING_FREQ", "200");

            if (CommandLineOptions.Clo.WeakArrayTheory)
            {
              options.AddWeakSmtOption("ARRAY_WEAK", "true");
              options.AddWeakSmtOption("ARRAY_EXTENSIONAL", "false");
            }

            options.AddWeakSmtOption("MODEL_ON_TIMEOUT", "true");

              }

              // KLM: don't add Z3 options here. The options are different in different Z3 versions.
              // Add options in the above condition for the appropriate version.

              // legacy option handling
              if (!CommandLineOptions.Clo.z3AtFlag)
            options.MultiTraces = true;

              foreach (string opt in CommandLineOptions.Clo.Z3Options)
              {
            Contract.Assert(opt != null);
            int eq = opt.IndexOf("=");
            if (eq > 0 && 'A' <= opt[0] && opt[0] <= 'Z' && !commandLineOnly.Contains(opt.Substring(0, eq)))
            {
              options.AddSmtOption(opt.Substring(0, eq), opt.Substring(eq + 1));
            }
            else
            {
              options.AddSolverArgument(opt);
            }
              }
        }