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[modbus_controller] Clang fixes (#7899)
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This commit is contained in:
parent
83d6834e27
commit
edd847ea40
10 changed files with 80 additions and 78 deletions
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@ -152,11 +152,11 @@ void ModbusController::on_modbus_read_registers(uint8_t function_code, uint16_t
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}
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SensorSet ModbusController::find_sensors_(ModbusRegisterType register_type, uint16_t start_address) const {
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auto reg_it = find_if(begin(register_ranges_), end(register_ranges_), [=](RegisterRange const &r) {
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auto reg_it = find_if(begin(this->register_ranges_), end(this->register_ranges_), [=](RegisterRange const &r) {
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return (r.start_address == start_address && r.register_type == register_type);
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});
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if (reg_it == register_ranges_.end()) {
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if (reg_it == this->register_ranges_.end()) {
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ESP_LOGE(TAG, "No matching range for sensor found - start_address : 0x%X", start_address);
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} else {
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return reg_it->sensors;
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@ -240,18 +240,18 @@ void ModbusController::update() {
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// walk through the sensors and determine the register ranges to read
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size_t ModbusController::create_register_ranges_() {
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register_ranges_.clear();
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if (this->parent_->role == modbus::ModbusRole::CLIENT && sensorset_.empty()) {
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this->register_ranges_.clear();
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if (this->parent_->role == modbus::ModbusRole::CLIENT && this->sensorset_.empty()) {
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ESP_LOGW(TAG, "No sensors registered");
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return 0;
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}
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// iterator is sorted see SensorItemsComparator for details
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auto ix = sensorset_.begin();
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auto ix = this->sensorset_.begin();
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RegisterRange r = {};
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uint8_t buffer_offset = 0;
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SensorItem *prev = nullptr;
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while (ix != sensorset_.end()) {
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while (ix != this->sensorset_.end()) {
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SensorItem *curr = *ix;
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ESP_LOGV(TAG, "Register: 0x%X %d %d %d offset=%u skip=%u addr=%p", curr->start_address, curr->register_count,
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@ -278,12 +278,12 @@ size_t ModbusController::create_register_ranges_() {
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// this register can re-use the data from the previous register
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// remove this sensore because start_address is changed (sort-order)
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ix = sensorset_.erase(ix);
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ix = this->sensorset_.erase(ix);
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curr->start_address = r.start_address;
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curr->offset += prev->offset;
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sensorset_.insert(curr);
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this->sensorset_.insert(curr);
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// move iterator backwards because it will be incremented later
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ix--;
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@ -293,14 +293,14 @@ size_t ModbusController::create_register_ranges_() {
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// this register can extend the current range
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// remove this sensore because start_address is changed (sort-order)
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ix = sensorset_.erase(ix);
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ix = this->sensorset_.erase(ix);
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curr->start_address = r.start_address;
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curr->offset += buffer_offset;
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buffer_offset += curr->get_register_size();
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r.register_count += curr->register_count;
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sensorset_.insert(curr);
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this->sensorset_.insert(curr);
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// move iterator backwards because it will be incremented later
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ix--;
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@ -327,7 +327,7 @@ size_t ModbusController::create_register_ranges_() {
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ix++;
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} else {
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ESP_LOGV(TAG, "Add range 0x%X %d skip:%d", r.start_address, r.register_count, r.skip_updates);
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register_ranges_.push_back(r);
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this->register_ranges_.push_back(r);
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r = {};
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buffer_offset = 0;
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// do not increment the iterator here because the current sensor has to be re-evaluated
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@ -339,10 +339,10 @@ size_t ModbusController::create_register_ranges_() {
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if (r.register_count > 0) {
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// Add the last range
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ESP_LOGV(TAG, "Add last range 0x%X %d skip:%d", r.start_address, r.register_count, r.skip_updates);
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register_ranges_.push_back(r);
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this->register_ranges_.push_back(r);
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}
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return register_ranges_.size();
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return this->register_ranges_.size();
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}
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void ModbusController::dump_config() {
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@ -352,18 +352,18 @@ void ModbusController::dump_config() {
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ESP_LOGCONFIG(TAG, " Offline Skip Updates: %d", this->offline_skip_updates_);
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#if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_VERBOSE
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ESP_LOGCONFIG(TAG, "sensormap");
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for (auto &it : sensorset_) {
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for (auto &it : this->sensorset_) {
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ESP_LOGCONFIG(TAG, " Sensor type=%zu start=0x%X offset=0x%X count=%d size=%d",
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static_cast<uint8_t>(it->register_type), it->start_address, it->offset, it->register_count,
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it->get_register_size());
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}
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ESP_LOGCONFIG(TAG, "ranges");
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for (auto &it : register_ranges_) {
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for (auto &it : this->register_ranges_) {
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ESP_LOGCONFIG(TAG, " Range type=%zu start=0x%X count=%d skip_updates=%d", static_cast<uint8_t>(it.register_type),
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it.start_address, it.register_count, it.skip_updates);
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}
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ESP_LOGCONFIG(TAG, "server registers");
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for (auto &r : server_registers_) {
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for (auto &r : this->server_registers_) {
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ESP_LOGCONFIG(TAG, " Address=0x%02X value_type=%zu register_count=%u", r->address,
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static_cast<uint8_t>(r->value_type), r->register_count);
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}
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@ -372,11 +372,11 @@ void ModbusController::dump_config() {
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void ModbusController::loop() {
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// Incoming data to process?
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if (!incoming_queue_.empty()) {
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auto &message = incoming_queue_.front();
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if (!this->incoming_queue_.empty()) {
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auto &message = this->incoming_queue_.front();
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if (message != nullptr)
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process_modbus_data_(message.get());
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incoming_queue_.pop();
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this->incoming_queue_.pop();
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} else {
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// all messages processed send pending commands
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@ -391,7 +391,7 @@ void ModbusController::on_write_register_response(ModbusRegisterType register_ty
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void ModbusController::dump_sensors_() {
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ESP_LOGV(TAG, "sensors");
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for (auto &it : sensorset_) {
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for (auto &it : this->sensorset_) {
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ESP_LOGV(TAG, " Sensor start=0x%X count=%d size=%d offset=%d", it->start_address, it->register_count,
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it->get_register_size(), it->offset);
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}
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@ -240,14 +240,14 @@ class SensorItem {
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}
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// Override register size for modbus devices not using 1 register for one dword
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void set_register_size(uint8_t register_size) { response_bytes = register_size; }
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ModbusRegisterType register_type;
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SensorValueType sensor_value_type;
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uint16_t start_address;
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uint32_t bitmask;
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uint8_t offset;
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uint8_t register_count;
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ModbusRegisterType register_type{ModbusRegisterType::CUSTOM};
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SensorValueType sensor_value_type{SensorValueType::RAW};
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uint16_t start_address{0};
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uint32_t bitmask{0};
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uint8_t offset{0};
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uint8_t register_count{0};
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uint8_t response_bytes{0};
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uint16_t skip_updates;
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uint16_t skip_updates{0};
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std::vector<uint8_t> custom_data{};
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bool force_new_range{false};
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};
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@ -261,9 +261,9 @@ class ServerRegister {
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this->register_count = register_count;
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this->read_lambda = std::move(read_lambda);
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}
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uint16_t address;
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SensorValueType value_type;
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uint8_t register_count;
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uint16_t address{0};
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SensorValueType value_type{SensorValueType::RAW};
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uint8_t register_count{0};
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std::function<float()> read_lambda;
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};
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@ -312,11 +312,11 @@ struct RegisterRange {
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class ModbusCommandItem {
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public:
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static const size_t MAX_PAYLOAD_BYTES = 240;
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ModbusController *modbusdevice;
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uint16_t register_address;
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uint16_t register_count;
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ModbusFunctionCode function_code;
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ModbusRegisterType register_type;
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ModbusController *modbusdevice{nullptr};
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uint16_t register_address{0};
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uint16_t register_count{0};
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ModbusFunctionCode function_code{ModbusFunctionCode::CUSTOM};
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ModbusRegisterType register_type{ModbusRegisterType::CUSTOM};
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std::function<void(ModbusRegisterType register_type, uint16_t start_address, const std::vector<uint8_t> &data)>
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on_data_func;
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std::vector<uint8_t> payload = {};
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@ -493,23 +493,23 @@ class ModbusController : public PollingComponent, public modbus::ModbusDevice {
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/// Collection of all sensors for this component
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SensorSet sensorset_;
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/// Collection of all server registers for this component
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std::vector<ServerRegister *> server_registers_;
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std::vector<ServerRegister *> server_registers_{};
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/// Continuous range of modbus registers
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std::vector<RegisterRange> register_ranges_;
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std::vector<RegisterRange> register_ranges_{};
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/// Hold the pending requests to be sent
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std::list<std::unique_ptr<ModbusCommandItem>> command_queue_;
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/// modbus response data waiting to get processed
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std::queue<std::unique_ptr<ModbusCommandItem>> incoming_queue_;
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/// if duplicate commands can be sent
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bool allow_duplicate_commands_;
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bool allow_duplicate_commands_{false};
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/// when was the last send operation
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uint32_t last_command_timestamp_;
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uint32_t last_command_timestamp_{0};
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/// min time in ms between sending modbus commands
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uint16_t command_throttle_;
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uint16_t command_throttle_{0};
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/// if module didn't respond the last command
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bool module_offline_;
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bool module_offline_{false};
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/// how many updates to skip if module is offline
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uint16_t offline_skip_updates_;
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uint16_t offline_skip_updates_{0};
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/// How many times we will retry a command if we get no response
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uint8_t max_cmd_retries_{4};
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/// Command sent callback
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@ -8,7 +8,7 @@ namespace modbus_controller {
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static const char *const TAG = "modbus.number";
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void ModbusNumber::parse_and_publish(const std::vector<uint8_t> &data) {
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float result = payload_to_float(data, *this) / multiply_by_;
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float result = payload_to_float(data, *this) / this->multiply_by_;
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// Is there a lambda registered
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// call it with the pre converted value and the raw data array
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@ -43,7 +43,7 @@ void ModbusNumber::control(float value) {
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return;
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}
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} else {
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write_value = multiply_by_ * write_value;
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write_value = this->multiply_by_ * write_value;
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}
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if (!data.empty()) {
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@ -63,21 +63,21 @@ void ModbusNumber::control(float value) {
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// Create and send the write command
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if (this->register_count == 1 && !this->use_write_multiple_) {
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// since offset is in bytes and a register is 16 bits we get the start by adding offset/2
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write_cmd =
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ModbusCommandItem::create_write_single_command(parent_, this->start_address + this->offset / 2, data[0]);
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write_cmd = ModbusCommandItem::create_write_single_command(this->parent_, this->start_address + this->offset / 2,
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data[0]);
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} else {
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write_cmd = ModbusCommandItem::create_write_multiple_command(parent_, this->start_address + this->offset / 2,
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this->register_count, data);
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write_cmd = ModbusCommandItem::create_write_multiple_command(
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this->parent_, this->start_address + this->offset / 2, this->register_count, data);
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}
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// publish new value
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write_cmd.on_data_func = [this, write_cmd, value](ModbusRegisterType register_type, uint16_t start_address,
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const std::vector<uint8_t> &data) {
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// gets called when the write command is ack'd from the device
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parent_->on_write_register_response(write_cmd.register_type, start_address, data);
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this->parent_->on_write_register_response(write_cmd.register_type, start_address, data);
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this->publish_state(value);
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};
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}
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parent_->queue_command(write_cmd);
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this->parent_->queue_command(write_cmd);
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this->publish_state(value);
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}
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void ModbusNumber::dump_config() { LOG_NUMBER(TAG, "Modbus Number", this); }
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@ -29,7 +29,7 @@ class ModbusNumber : public number::Number, public Component, public SensorItem
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void parse_and_publish(const std::vector<uint8_t> &data) override;
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float get_setup_priority() const override { return setup_priority::HARDWARE; }
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void set_parent(ModbusController *parent) { this->parent_ = parent; }
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void set_write_multiply(float factor) { multiply_by_ = factor; }
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void set_write_multiply(float factor) { this->multiply_by_ = factor; }
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using transform_func_t = std::function<optional<float>(ModbusNumber *, float, const std::vector<uint8_t> &)>;
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using write_transform_func_t = std::function<optional<float>(ModbusNumber *, float, std::vector<uint16_t> &)>;
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@ -39,9 +39,9 @@ class ModbusNumber : public number::Number, public Component, public SensorItem
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protected:
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void control(float value) override;
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optional<transform_func_t> transform_func_;
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optional<write_transform_func_t> write_transform_func_;
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ModbusController *parent_;
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optional<transform_func_t> transform_func_{nullopt};
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optional<write_transform_func_t> write_transform_func_{nullopt};
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ModbusController *parent_{nullptr};
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float multiply_by_{1.0};
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bool use_write_multiple_{false};
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};
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@ -27,7 +27,7 @@ void ModbusFloatOutput::write_state(float value) {
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return;
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}
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} else {
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value = multiply_by_ * value;
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value = this->multiply_by_ * value;
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}
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// lambda didn't set payload
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if (data.empty()) {
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@ -40,12 +40,13 @@ void ModbusFloatOutput::write_state(float value) {
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// Create and send the write command
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ModbusCommandItem write_cmd;
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if (this->register_count == 1 && !this->use_write_multiple_) {
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write_cmd = ModbusCommandItem::create_write_single_command(parent_, this->start_address + this->offset, data[0]);
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write_cmd =
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ModbusCommandItem::create_write_single_command(this->parent_, this->start_address + this->offset, data[0]);
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} else {
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write_cmd = ModbusCommandItem::create_write_multiple_command(parent_, this->start_address + this->offset,
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write_cmd = ModbusCommandItem::create_write_multiple_command(this->parent_, this->start_address + this->offset,
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this->register_count, data);
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}
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parent_->queue_command(write_cmd);
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this->parent_->queue_command(write_cmd);
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}
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void ModbusFloatOutput::dump_config() {
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@ -90,9 +91,9 @@ void ModbusBinaryOutput::write_state(bool state) {
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// offset for coil and discrete inputs is the coil/register number not bytes
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if (this->use_write_multiple_) {
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std::vector<bool> states{state};
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cmd = ModbusCommandItem::create_write_multiple_coils(parent_, this->start_address + this->offset, states);
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cmd = ModbusCommandItem::create_write_multiple_coils(this->parent_, this->start_address + this->offset, states);
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} else {
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cmd = ModbusCommandItem::create_write_single_coil(parent_, this->start_address + this->offset, state);
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cmd = ModbusCommandItem::create_write_single_coil(this->parent_, this->start_address + this->offset, state);
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}
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}
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this->parent_->queue_command(cmd);
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@ -25,7 +25,7 @@ class ModbusFloatOutput : public output::FloatOutput, public Component, public S
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void dump_config() override;
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void set_parent(ModbusController *parent) { this->parent_ = parent; }
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void set_write_multiply(float factor) { multiply_by_ = factor; }
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void set_write_multiply(float factor) { this->multiply_by_ = factor; }
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// Do nothing
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void parse_and_publish(const std::vector<uint8_t> &data) override{};
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@ -37,9 +37,9 @@ class ModbusFloatOutput : public output::FloatOutput, public Component, public S
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void write_state(float value) override;
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optional<write_transform_func_t> write_transform_func_{nullopt};
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ModbusController *parent_;
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ModbusController *parent_{nullptr};
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float multiply_by_{1.0};
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bool use_write_multiple_;
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bool use_write_multiple_{false};
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};
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class ModbusBinaryOutput : public output::BinaryOutput, public Component, public SensorItem {
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@ -68,8 +68,8 @@ class ModbusBinaryOutput : public output::BinaryOutput, public Component, public
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void write_state(bool state) override;
|
||||
optional<write_transform_func_t> write_transform_func_{nullopt};
|
||||
|
||||
ModbusController *parent_;
|
||||
bool use_write_multiple_;
|
||||
ModbusController *parent_{nullptr};
|
||||
bool use_write_multiple_{false};
|
||||
};
|
||||
|
||||
} // namespace modbus_controller
|
||||
|
|
|
@ -74,12 +74,13 @@ void ModbusSelect::control(const std::string &value) {
|
|||
const uint16_t write_address = this->start_address + this->offset / 2;
|
||||
ModbusCommandItem write_cmd;
|
||||
if ((this->register_count == 1) && (!this->use_write_multiple_)) {
|
||||
write_cmd = ModbusCommandItem::create_write_single_command(parent_, write_address, data[0]);
|
||||
write_cmd = ModbusCommandItem::create_write_single_command(this->parent_, write_address, data[0]);
|
||||
} else {
|
||||
write_cmd = ModbusCommandItem::create_write_multiple_command(parent_, write_address, this->register_count, data);
|
||||
write_cmd =
|
||||
ModbusCommandItem::create_write_multiple_command(this->parent_, write_address, this->register_count, data);
|
||||
}
|
||||
|
||||
parent_->queue_command(write_cmd);
|
||||
this->parent_->queue_command(write_cmd);
|
||||
|
||||
if (this->optimistic_)
|
||||
this->publish_state(value);
|
||||
|
|
|
@ -42,12 +42,12 @@ class ModbusSelect : public Component, public select::Select, public SensorItem
|
|||
void control(const std::string &value) override;
|
||||
|
||||
protected:
|
||||
std::vector<int64_t> mapping_;
|
||||
ModbusController *parent_;
|
||||
std::vector<int64_t> mapping_{};
|
||||
ModbusController *parent_{nullptr};
|
||||
bool use_write_multiple_{false};
|
||||
bool optimistic_{false};
|
||||
optional<transform_func_t> transform_func_;
|
||||
optional<write_transform_func_t> write_transform_func_;
|
||||
optional<transform_func_t> transform_func_{nullopt};
|
||||
optional<write_transform_func_t> write_transform_func_{nullopt};
|
||||
};
|
||||
|
||||
} // namespace modbus_controller
|
||||
|
|
|
@ -80,18 +80,18 @@ void ModbusSwitch::write_state(bool state) {
|
|||
// offset for coil and discrete inputs is the coil/register number not bytes
|
||||
if (this->use_write_multiple_) {
|
||||
std::vector<bool> states{state};
|
||||
cmd = ModbusCommandItem::create_write_multiple_coils(parent_, this->start_address + this->offset, states);
|
||||
cmd = ModbusCommandItem::create_write_multiple_coils(this->parent_, this->start_address + this->offset, states);
|
||||
} else {
|
||||
cmd = ModbusCommandItem::create_write_single_coil(parent_, this->start_address + this->offset, state);
|
||||
cmd = ModbusCommandItem::create_write_single_coil(this->parent_, this->start_address + this->offset, state);
|
||||
}
|
||||
} else {
|
||||
// since offset is in bytes and a register is 16 bits we get the start by adding offset/2
|
||||
if (this->use_write_multiple_) {
|
||||
std::vector<uint16_t> bool_states(1, state ? (0xFFFF & this->bitmask) : 0);
|
||||
cmd = ModbusCommandItem::create_write_multiple_command(parent_, this->start_address + this->offset / 2, 1,
|
||||
cmd = ModbusCommandItem::create_write_multiple_command(this->parent_, this->start_address + this->offset / 2, 1,
|
||||
bool_states);
|
||||
} else {
|
||||
cmd = ModbusCommandItem::create_write_single_command(parent_, this->start_address + this->offset / 2,
|
||||
cmd = ModbusCommandItem::create_write_single_command(this->parent_, this->start_address + this->offset / 2,
|
||||
state ? 0xFFFF & this->bitmask : 0u);
|
||||
}
|
||||
}
|
||||
|
|
|
@ -40,8 +40,8 @@ class ModbusSwitch : public Component, public switch_::Switch, public SensorItem
|
|||
void set_use_write_mutiple(bool use_write_multiple) { this->use_write_multiple_ = use_write_multiple; }
|
||||
|
||||
protected:
|
||||
ModbusController *parent_;
|
||||
bool use_write_multiple_;
|
||||
ModbusController *parent_{nullptr};
|
||||
bool use_write_multiple_{false};
|
||||
optional<transform_func_t> publish_transform_func_{nullopt};
|
||||
optional<write_transform_func_t> write_transform_func_{nullopt};
|
||||
};
|
||||
|
|
Loading…
Reference in a new issue