std::string PicoJsonIF::getString(const picojson::value& value, std::string name) { picojson::value objString = value.get(name); if (objString.is<std::string>()) { return (objString.to_str()); } else throw JsonFormatException("PicoJsonIF::getString() found illegal format : property name = " + name); }
static void extract(picojson::value* super, picojson::value& v, std::vector<action>& action_storage) { if (v.is<picojson::object>()) { if(v.contains("action") && super != nullptr) { action a; a.link = &v; std::string type = v.get("action").get<std::string>(); if(type == "loop") { a.t = loop; a.begin = v.get("begin").get<double>(); a.step = v.get("step").get<double>(); a.end = v.get("end").get<double>(); action_storage.push_back(a); } else if(type == "each") { a.t = each; for(const auto& d : v.get("values").get<picojson::array>()) a.values.push_back(d); action_storage.push_back(a); } else if(type == "pipe") { a.t = pipe; a.data_id = v.get("data_id").get<std::string>(); a.sink = v.get("sink").get<std::string>(); if(v.contains("log_id")) { a.log_id = v.get("log_id").get<std::string>(); action_storage.push_back(a); } } } else { for(picojson::object::value_type& i : v.get<picojson::object>()) { action_extractor::extract(&v, i.second, action_storage); } } } else if(v.is<picojson::array>()) { for(picojson::value& i : v.get<picojson::array>()) { action_extractor::extract(&v, i, action_storage); } } }
picojson::array PicoJsonIF::getArray(const picojson::value& value, std::string name) { picojson::value obj = value.get(name); if (obj.is<picojson::array>()) { picojson::array arrayObj = obj.get<picojson::array>(); return arrayObj; } else { throw JsonFormatException("PicoJsonIF::getArray() found illegal format : property name = " + name); } }
picojson::value PicoJsonIF::getObject(const picojson::value& value, std::string name) { picojson::value object = value.get(name); if (object.is<picojson::object>()) { return object; } else { throw JsonFormatException("PicoJsonIF::getObject() found illegal format : property name = " + name); } }
std::shared_ptr<AbstractPropertyType> amb::jsonToProperty(const picojson::value &json) { std::string name = json.get("name").to_str(); std::string type = json.get("type").to_str(); auto t = VehicleProperty::getPropertyTypeForPropertyNameValue(name); if(!t) { bool ret = VehicleProperty::registerProperty(name, [name, type]() -> AbstractPropertyType* { if(type == amb::BasicTypes::UInt16Str) { return new BasicPropertyType<uint16_t>(name, 0); } else if(type == amb::BasicTypes::Int16Str) { return new BasicPropertyType<int16_t>(name, 0); } else if(type == amb::BasicTypes::UInt32Str) { return new BasicPropertyType<uint32_t>(name, 0); } else if(type == amb::BasicTypes::Int32Str) { return new BasicPropertyType<int32_t>(name, 0); } else if(type == amb::BasicTypes::StringStr) { return new StringPropertyType(name); } else if(type == amb::BasicTypes::DoubleStr) { return new BasicPropertyType<double>(name, 0); } else if(type == amb::BasicTypes::BooleanStr) { return new BasicPropertyType<bool>(name, false); } DebugOut(DebugOut::Warning) << "Unknown or unsupported type: " << type << endl; return nullptr; }); if(!ret) { DebugOut(DebugOut::Error) << "failed to register property: " << name << endl; return nullptr; } t = VehicleProperty::getPropertyTypeForPropertyNameValue(name); } t->fromJson(json); return std::shared_ptr<AbstractPropertyType>(t); }
bool JsonActionResolver::getObject(picojson::value v, std::string key, picojson::value &value) { if (!v.contains(key)) { std::cout << "Object does not contain any " << key << std::endl; return false; } picojson::value result = v.get(key); if (!result.is<picojson::object>()) { std::cout << key << " is not an object" << std::endl; return false; } value = result; return true; }
bool JsonActionResolver::getInt(picojson::value v, std::string key, int &value) { if (!v.contains(key)) { std::cout << "Object does not contain any " << key << std::endl; return false; } picojson::value result = v.get(key); if (!result.is<double>()) { std::cout << key << " is not an int" << std::endl; return false; } value = result.get<double>(); return true; }
void WifiInstance::HandleDisconnect( const picojson::value& message ) { disconnect_callback_id_ = message.get( "reply_id" ).to_str(); if ( service_proxy_ ) { g_dbus_proxy_call( service_proxy_, "Disconnect", NULL, // parameters G_DBUS_CALL_FLAGS_NONE, // flags 20000, // timeout NULL, NULL, NULL ); } }
void WifiInstance::HandleScan( const picojson::value& message ) { scan_callback_id_ = message.get( "reply_id" ).to_str(); if ( tech_proxy_ ) { g_dbus_proxy_call( tech_proxy_, "Scan", NULL, // parameters G_DBUS_CALL_FLAGS_NONE, // flags 20000, // timeout NULL, NULL, NULL ); } }
void WifiInstance::HandleDeactivate( const picojson::value& message ) { deactivate_callback_id_ = message.get( "reply_id" ).to_str(); if ( tech_proxy_ ) { g_dbus_proxy_call( tech_proxy_, "SetProperty", g_variant_new( "sb", "Powered", "FALSE" ), G_DBUS_CALL_FLAGS_NONE, 20000, NULL, NULL, NULL ); } }
void WifiInstance::HandleGetServices( const picojson::value& message ) { connect_callback_id_ = message.get( "reply_id" ).to_str(); if ( manager_proxy_ ) { g_dbus_proxy_call( manager_proxy_, "GetServices", NULL, // parameters G_DBUS_CALL_FLAGS_NONE, // flags 20000, // timeout NULL, OnGetServicesThunk, NULL ); } }
Vector2 ParseVertex(const picojson::value& vertices, const picojson::value& id) { const auto& vertex = vertices.get(id.to_str()); const auto& position = vertex.get("Position"); return ParseVector(position); }
Vector2 ParseVector(const picojson::value& xyPair) { return { xyPair.get("X").get<double>(), xyPair.get("Y").get<double>() }; }