void xml_symbol_convertt::convert(const symbolt& sym, xmlt &root) { xmlt &xmlsym = root.new_element("symbol"); irepcache.push_back(irept()); sym.to_irep(irepcache.back()); irepconverter.reference_convert(irepcache.back(), xmlsym); }
void convert(const symbolt& sym, xmlt &root) { xmlt &xmlsym = root.new_element("symbol"); xmlsym.set_attribute("name", id2string(sym.name)); xmlt &xmltype = xmlsym.new_element("type"); convert(sym.type, xmltype); xmlt &xmlval = xmlsym.new_element("value"); if(!sym.is_type && sym.type.id() == "code" && !sym.value.is_nil()) xmlval.data = "compiled"; // only for implemented functions else convert(sym.value, xmlval); xmlt &flags = xmlsym.new_element("flags"); flags.set_attribute_bool("lvalue", sym.is_lvalue); flags.set_attribute_bool("static_lifetime", sym.is_static_lifetime); flags.set_attribute_bool("file_local", sym.is_file_local); flags.set_attribute_bool("theorem", sym.is_property); flags.set_attribute_bool("thread_local", sym.is_thread_local); flags.set_attribute_bool("type", sym.is_type); flags.set_attribute_bool("extern", sym.is_extern); flags.set_attribute_bool("input", sym.is_input); flags.set_attribute_bool("output", sym.is_output); flags.set_attribute_bool("macro", sym.is_macro); //flags.set_attribute_bool("actual", sym.is_actual); //flags.set_attribute_bool("binding", sym.binding); //flags.set_attribute_bool("free_var", sym.free_var); flags.set_attribute_bool("statevar", sym.is_state_var); xmlt &mode = flags.new_element("mode"); mode.data = id2string(sym.mode); flags.new_element("base_name").data=id2string(sym.base_name); flags.new_element("module").data=id2string(sym.module); if (sym.pretty_name.size()>0) flags.new_element("pretty_name").data=id2string(sym.pretty_name); xmlt &xmlloc = xmlsym.new_element("location"); convert(sym.location, xmlloc); xmlloc.name = "location"; // convert overwrote this }
void convert(const goto_programt &goto_program, xmlt &xml) { std::stringstream tmp; // std::cout << "TNO: " << goto_program.target_numbers.size() << std::endl; for(const auto &inst : goto_program.instructions) { xmlt &ins=xml.new_element("instruction"); if(!inst.location.is_nil()) { convert(inst.location, ins.new_element("location")); } if(!inst.labels.empty()) { xmlt &lbl=ins.new_element("labels"); for(goto_programt::instructiont::labelst::const_iterator l_it=inst.labels.begin(); l_it!=inst.labels.end(); l_it++) { lbl.new_element("label").set_attribute("name", id2string(*l_it)); } } if(inst.target_number!=0) { // std::cout << "Targetlabel found!" << std::endl; tmp.str(""); tmp << inst.target_number; ins.set_attribute("targetlabel", tmp.str()); } switch(inst.type) { case GOTO: { ins.name="goto"; if(!inst.guard.is_true()) { xmlt &g=ins.new_element("guard"); convert(inst.guard, g); } xmlt &tgt=ins.new_element("targets"); for(goto_programt::instructiont::targetst::const_iterator gt_it=inst.targets.begin(); gt_it!=inst.targets.end(); gt_it++) { tmp.str(""); tmp << (*gt_it)->target_number; tgt.new_element("target").data=tmp.str(); } break; } case ASSUME: { ins.name="assume"; xmlt &g=ins.new_element("guard"); convert(inst.guard, g); const irep_idt &comment=inst.location.get("comment"); if(comment!="") ins.new_element("comment").data=id2string(comment); break; } case ASSERT: { ins.name="assert"; xmlt &g=ins.new_element("guard"); convert(inst.guard, g); const irep_idt &comment=inst.location.get("comment"); if(comment!="") ins.new_element("comment").data=id2string(comment); break; } case SKIP: ins.name="skip"; break; case END_FUNCTION: ins.name="end_function"; break; case LOCATION: ins.name="location"; break; case DEAD: ins.name="dead"; break; case ATOMIC_BEGIN: ins.name="atomic_begin"; break; case ATOMIC_END: ins.name="atomic_end"; break; case RETURN: { ins.name="return"; xmlt &c=ins.new_element("code"); convert(inst.code, c); break; } case OTHER: { ins.name="instruction"; xmlt &c=ins.new_element("code"); convert(inst.code, c); break; } case ASSIGN: { ins.name="assign"; xmlt &c=ins.new_element("code"); convert(inst.code, c); break; } case FUNCTION_CALL: { ins.name="functioncall"; xmlt &c=ins.new_element("code"); convert(inst.code, c); break; } case START_THREAD: { ins.name="thread_start"; xmlt &tgt=ins.new_element("targets"); if(inst.targets.size()==1) { tmp.str(""); tmp << inst.targets.front()->target_number; tgt.new_element("target").data=tmp.str(); } break; } case END_THREAD: ins.name="thread_end"; break; default: ins.name="unknown"; break; } if(inst.function!="") { xmlt &fnc=ins.new_element("function"); fnc.data=id2string(inst.function); } } }
void convert( const namespacet &ns, const goto_tracet &goto_trace, xmlt &dest) { dest=xmlt("goto_trace"); source_locationt previous_source_location; for(const auto & it : goto_trace.steps) { const source_locationt &source_location=it.pc->source_location; xmlt xml_location; if(source_location.is_not_nil() && source_location.get_file()!="") xml_location=xml(source_location); switch(it.type) { case goto_trace_stept::ASSERT: if(!it.cond_value) { irep_idt property_id; if(it.pc->is_assert()) property_id=source_location.get_property_id(); else if(it.pc->is_goto()) // unwinding, we suspect { property_id= id2string(it.pc->source_location.get_function())+".unwind."+ i2string(it.pc->loop_number); } xmlt &xml_failure=dest.new_element("failure"); xml_failure.set_attribute_bool("hidden", it.hidden); xml_failure.set_attribute("thread", i2string(it.thread_nr)); xml_failure.set_attribute("step_nr", i2string(it.step_nr)); xml_failure.set_attribute("reason", id2string(it.comment)); xml_failure.set_attribute("property", id2string(property_id)); if(xml_location.name!="") xml_failure.new_element().swap(xml_location); } break; case goto_trace_stept::ASSIGNMENT: case goto_trace_stept::DECL: { irep_idt identifier=it.lhs_object.get_identifier(); xmlt &xml_assignment=dest.new_element("assignment"); if(xml_location.name!="") xml_assignment.new_element().swap(xml_location); std::string value_string, binary_string, type_string, full_lhs_string, full_lhs_value_string; if(it.lhs_object_value.is_not_nil()) value_string=from_expr(ns, identifier, it.lhs_object_value); if(it.full_lhs.is_not_nil()) full_lhs_string=from_expr(ns, identifier, it.full_lhs); if(it.full_lhs_value.is_not_nil()) full_lhs_value_string=from_expr(ns, identifier, it.full_lhs_value); if(it.lhs_object_value.type().is_not_nil()) type_string=from_type(ns, identifier, it.lhs_object_value.type()); const symbolt *symbol; irep_idt base_name, display_name; if(!ns.lookup(identifier, symbol)) { base_name=symbol->base_name; display_name=symbol->display_name(); if(type_string=="") type_string=from_type(ns, identifier, symbol->type); xml_assignment.set_attribute("mode", id2string(symbol->mode)); } xml_assignment.new_element("type").data=type_string; xml_assignment.new_element("full_lhs").data=full_lhs_string; xml_assignment.new_element("full_lhs_value").data=full_lhs_value_string; xml_assignment.new_element("value").data=value_string; xml_assignment.set_attribute_bool("hidden", it.hidden); xml_assignment.set_attribute("thread", i2string(it.thread_nr)); xml_assignment.set_attribute("identifier", id2string(identifier)); xml_assignment.set_attribute("base_name", id2string(base_name)); xml_assignment.set_attribute("display_name", id2string(display_name)); xml_assignment.set_attribute("step_nr", i2string(it.step_nr)); xml_assignment.set_attribute("assignment_type", it.assignment_type==goto_trace_stept::ACTUAL_PARAMETER?"actual_parameter": "state"); if(it.lhs_object_value.is_not_nil()) xml_assignment.new_element("value_expression").new_element(xml(it.lhs_object_value, ns)); } break; case goto_trace_stept::OUTPUT: { printf_formattert printf_formatter(ns); printf_formatter(id2string(it.format_string), it.io_args); std::string text=printf_formatter.as_string(); xmlt &xml_output=dest.new_element("output"); xml_output.new_element("text").data=text; xml_output.set_attribute_bool("hidden", it.hidden); xml_output.set_attribute("thread", i2string(it.thread_nr)); xml_output.set_attribute("step_nr", i2string(it.step_nr)); if(xml_location.name!="") xml_output.new_element().swap(xml_location); for(const auto l_it : it.io_args) { xml_output.new_element("value").data=from_expr(ns, "", l_it); xml_output.new_element("value_expression"). new_element(xml(l_it, ns)); } } break; case goto_trace_stept::INPUT: { xmlt &xml_input=dest.new_element("input"); xml_input.new_element("input_id").data=id2string(it.io_id); xml_input.set_attribute_bool("hidden", it.hidden); xml_input.set_attribute("thread", i2string(it.thread_nr)); xml_input.set_attribute("step_nr", i2string(it.step_nr)); for(const auto & l_it : it.io_args) { xml_input.new_element("value").data=from_expr(ns, "", l_it); xml_input.new_element("value_expression"). new_element(xml(l_it, ns)); } if(xml_location.name!="") xml_input.new_element().swap(xml_location); } break; case goto_trace_stept::FUNCTION_CALL: case goto_trace_stept::FUNCTION_RETURN: { std::string tag= (it.type==goto_trace_stept::FUNCTION_CALL)?"function_call":"function_return"; xmlt &xml_call_return=dest.new_element(tag); xml_call_return.set_attribute_bool("hidden", it.hidden); xml_call_return.set_attribute("thread", i2string(it.thread_nr)); xml_call_return.set_attribute("step_nr", i2string(it.step_nr)); const symbolt &symbol=ns.lookup(it.identifier); xmlt &xml_function=xml_call_return.new_element("function"); xml_function.set_attribute("display_name", id2string(symbol.display_name())); xml_function.set_attribute("identifier", id2string(it.identifier)); xml_function.new_element()=xml(symbol.location); if(xml_location.name!="") xml_call_return.new_element().swap(xml_location); } break; default: if(source_location!=previous_source_location) { // just the source location if(xml_location.name!="") { xmlt &xml_location_only=dest.new_element("location-only"); xml_location_only.set_attribute_bool("hidden", it.hidden); xml_location_only.set_attribute("thread", i2string(it.thread_nr)); xml_location_only.set_attribute("step_nr", i2string(it.step_nr)); xml_location_only.new_element().swap(xml_location); } } } if(source_location.is_not_nil() && source_location.get_file()!="") previous_source_location=source_location; } }