void print_statistics(cmd_context& ctx) { if (m_params.get_bool(":print-statistics", false)) { statistics st; datalog::context& dlctx = m_dl_ctx->get_dl_context(); unsigned long long max_mem = memory::get_max_used_memory(); unsigned long long mem = memory::get_allocation_size(); dlctx.collect_statistics(st); st.update("time", ctx.get_seconds()); st.update("memory", static_cast<double>(mem)/static_cast<double>(1024*1024)); st.update("max-memory", static_cast<double>(max_mem)/static_cast<double>(1024*1024)); st.display_smt2(ctx.regular_stream()); } }
virtual void execute(cmd_context & ctx) { if (m_target == 0) throw cmd_exception("invalid simplify command, argument expected"); expr_ref r(ctx.m()); proof_ref pr(ctx.m()); if (m_params.get_bool("som", false)) m_params.set_bool("flat", true); th_rewriter s(ctx.m(), m_params); unsigned cache_sz; unsigned num_steps = 0; unsigned timeout = m_params.get_uint("timeout", UINT_MAX); bool failed = false; cancel_eh<th_rewriter> eh(s); { scoped_ctrl_c ctrlc(eh); scoped_timer timer(timeout, &eh); cmd_context::scoped_watch sw(ctx); try { s(m_target, r, pr); } catch (z3_error & ex) { throw ex; } catch (z3_exception & ex) { ctx.regular_stream() << "(error \"simplifier failed: " << ex.msg() << "\")" << std::endl; failed = true; r = m_target; } cache_sz = s.get_cache_size(); num_steps = s.get_num_steps(); s.cleanup(); } if (m_params.get_bool("print", true)) { ctx.display(ctx.regular_stream(), r); ctx.regular_stream() << std::endl; } if (!failed && m_params.get_bool("print_proofs", false)) { ast_smt_pp pp(ctx.m()); pp.set_logic(ctx.get_logic().str().c_str()); pp.display_expr_smt2(ctx.regular_stream(), pr.get()); ctx.regular_stream() << std::endl; } if (m_params.get_bool("print_statistics", false)) { shared_occs s1(ctx.m()); if (!failed) s1(r); unsigned long long max_mem = memory::get_max_used_memory(); unsigned long long mem = memory::get_allocation_size(); ctx.regular_stream() << "(:time " << std::fixed << std::setprecision(2) << ctx.get_seconds() << " :num-steps " << num_steps << " :memory " << std::fixed << std::setprecision(2) << static_cast<double>(mem)/static_cast<double>(1024*1024) << " :max-memory " << std::fixed << std::setprecision(2) << static_cast<double>(max_mem)/static_cast<double>(1024*1024) << " :cache-size: " << cache_sz << " :num-nodes-before " << get_num_exprs(m_target); if (!failed) ctx.regular_stream() << " :num-shared " << s1.num_shared() << " :num-nodes " << get_num_exprs(r); ctx.regular_stream() << ")" << std::endl; } }