Restructuring code to remove duplicates and reduce flash size

Software/src/devboard/mqtt/mqtt.cpp

@@ -44,48 +44,44 @@ struct SensorConfig {
   const char* device_class;
 };
 
-SensorConfig sensorConfigs[] = {
-    {"SOC", "SOC (scaled)", "{{ value_json.SOC }}", "%", "battery"},
-    {"SOC_real", "SOC (real)", "{{ value_json.SOC_real }}", "%", "battery"},
-    {"state_of_health", "State Of Health", "{{ value_json.state_of_health }}", "%", "battery"},
-    {"temperature_min", "Temperature Min", "{{ value_json.temperature_min }}", "°C", "temperature"},
-    {"temperature_max", "Temperature Max", "{{ value_json.temperature_max }}", "°C", "temperature"},
-    {"stat_batt_power", "Stat Batt Power", "{{ value_json.stat_batt_power }}", "W", "power"},
-    {"battery_current", "Battery Current", "{{ value_json.battery_current }}", "A", "current"},
-    {"cell_max_voltage", "Cell Max Voltage", "{{ value_json.cell_max_voltage }}", "V", "voltage"},
-    {"cell_min_voltage", "Cell Min Voltage", "{{ value_json.cell_min_voltage }}", "V", "voltage"},
-    {"battery_voltage", "Battery Voltage", "{{ value_json.battery_voltage }}", "V", "voltage"},
-    {"total_capacity", "Battery Total Capacity", "{{ value_json.total_capacity }}", "Wh", "energy"},
-    {"remaining_capacity", "Battery Remaining Capacity (scaled)", "{{ value_json.remaining_capacity }}", "Wh",
-     "energy"},
-    {"remaining_capacity_real", "Battery Remaining Capacity (real)", "{{ value_json.remaining_capacity_real }}", "Wh",
-     "energy"},
-    {"max_discharge_power", "Battery Max Discharge Power", "{{ value_json.max_discharge_power }}", "W", "power"},
-    {"max_charge_power", "Battery Max Charge Power", "{{ value_json.max_charge_power }}", "W", "power"},
-    {"bms_status", "BMS Status", "{{ value_json.bms_status }}", "", ""},
-    {"pause_status", "Pause Status", "{{ value_json.pause_status }}", "", ""},
+SensorConfig sensorConfigTemplate[] = {
+    {"SOC", "SOC (Scaled)", "", "%", "battery"},
+    {"SOC_real", "SOC (real)", "", "%", "battery"},
+    {"state_of_health", "State Of Health", "", "%", "battery"},
+    {"temperature_min", "Temperature Min", "", "°C", "temperature"},
+    {"temperature_max", "Temperature Max", "", "°C", "temperature"},
+    {"stat_batt_power", "Stat Batt Power", "", "W", "power"},
+    {"battery_current", "Battery Current", "", "A", "current"},
+    {"cell_max_voltage", "Cell Max Voltage", "", "V", "voltage"},
+    {"cell_min_voltage", "Cell Min Voltage", "", "V", "voltage"},
+    {"battery_voltage", "Battery Voltage", "", "V", "voltage"},
+    {"total_capacity", "Battery Total Capacity", "", "Wh", "energy"},
+    {"remaining_capacity", "Battery Remaining Capacity (scaled)", "", "Wh", "energy"},
+    {"remaining_capacity_real", "Battery Remaining Capacity (real)", "", "Wh", "energy"},
+    {"max_discharge_power", "Battery Max Discharge Power", "", "W", "power"},
+    {"max_charge_power", "Battery Max Charge Power", "", "W", "power"},
+    {"bms_status", "BMS Status", "", "", ""},
+    {"pause_status", "Pause Status", "", "", ""}};
+
 #ifdef DOUBLE_BATTERY
-    {"SOC_2", "SOC 2 (scaled)", "{{ value_json.SOC_2 }}", "%", "battery"},
-    {"SOC_real_2", "SOC 2 (real)", "{{ value_json.SOC_real_2 }}", "%", "battery"},
-    {"state_of_health_2", "State Of Health 2", "{{ value_json.state_of_health_2 }}", "%", "battery"},
-    {"temperature_min_2", "Temperature Min 2", "{{ value_json.temperature_min_2 }}", "°C", "temperature"},
-    {"temperature_max_2", "Temperature Max 2", "{{ value_json.temperature_max_2 }}", "°C", "temperature"},
-    {"stat_batt_power_2", "Stat Batt Power 2", "{{ value_json.stat_batt_power_2 }}", "W", "power"},
-    {"battery_current_2", "Battery 2 Current", "{{ value_json.battery_current_2 }}", "A", "current"},
-    {"cell_max_voltage_2", "Cell Max Voltage 2", "{{ value_json.cell_max_voltage_2 }}", "V", "voltage"},
-    {"cell_min_voltage_2", "Cell Min Voltage 2", "{{ value_json.cell_min_voltage_2 }}", "V", "voltage"},
-    {"battery_voltage_2", "Battery 2 Voltage", "{{ value_json.battery_voltage_2 }}", "V", "voltage"},
-    {"total_capacity_2", "Battery 2 Total Capacity", "{{ value_json.total_capacity_2 }}", "Wh", "energy"},
-    {"remaining_capacity_2", "Battery 2 Remaining Capacity (scaled)", "{{ value_json.remaining_capacity_2 }}", "Wh",
-     "energy"},
-    {"remaining_capacity_real_2", "Battery 2 Remaining Capacity (real)", "{{ value_json.remaining_capacity_real_2 }}",
-     "Wh", "energy"},
-    {"max_discharge_power_2", "Battery 2 Max Discharge Power", "{{ value_json.max_discharge_power_2 }}", "W", "power"},
-    {"max_charge_power_2", "Battery 2 Max Charge Power", "{{ value_json.max_charge_power_2 }}", "W", "power"},
-    {"bms_status_2", "BMS 2 Status", "{{ value_json.bms_status_2 }}", "", ""},
-    {"pause_status_2", "Pause Status 2", "{{ value_json.pause_status_2 }}", "", ""},
+SensorConfig sensorConfigs[34];
+#else
+SensorConfig sensorConfigs[17];
 #endif  // DOUBLE_BATTERY
-};
+
+void create_sensor_configs() {
+  for (int i = 0; i < sizeof(sensorConfigTemplate) / sizeof(sensorConfigTemplate[0]); i++) {
+    SensorConfig& config = sensorConfigTemplate[i];
+    config.value_template = ("{{ value_json." + String(config.object_id) + " }}").c_str();
+    sensorConfigs[i] = config;
+#ifdef DOUBLE_BATTERY
+    sensorConfigs[i + 17] = config;
+    sensorConfigs[i + 17].object_id = String(config.object_id + String("_2")).c_str();
+    String temp_value_template = "{{ value_json." + String(sensorConfigs[i + 17].object_id) + " }}";
+    sensorConfigs[i + 17].value_template = temp_value_template.c_str();
+#endif  // DOUBLE_BATTERY
+  }
+}
 
 SensorConfig buttonConfigs[] = {{"BMSRESET", "Reset BMS", "", "", ""}};
 
@@ -109,6 +105,49 @@ static String generateButtonAutoConfigTopic(const char* subtype) {
   return generateButtonTopic(subtype) + "/config";
 }
 
+void set_common_discovery_attributes(JsonDocument& doc) {
+  doc["device"]["identifiers"][0] = ha_device_id;
+  doc["device"]["manufacturer"] = "DalaTech";
+  doc["device"]["model"] = "BatteryEmulator";
+  doc["origin"]["name"] = "BatteryEmulator";
+  doc["origin"]["sw"] = String(version_number) + "-mqtt";
+  doc["origin"]["url"] = "https://github.com/dalathegreat/Battery-Emulator";
+}
+
+void set_battery_attributes(JsonDocument& doc, const DATALAYER_BATTERY_TYPE& battery, const String& suffix) {
+  doc["SOC" + suffix] = ((float)battery.status.reported_soc) / 100.0;
+  doc["SOC_real" + suffix] = ((float)battery.status.real_soc) / 100.0;
+  doc["state_of_health" + suffix] = ((float)battery.status.soh_pptt) / 100.0;
+  doc["temperature_min" + suffix] = ((float)((int16_t)battery.status.temperature_min_dC)) / 10.0;
+  doc["temperature_max" + suffix] = ((float)((int16_t)battery.status.temperature_max_dC)) / 10.0;
+  doc["stat_batt_power" + suffix] = ((float)((int32_t)battery.status.active_power_W));
+  doc["battery_current" + suffix] = ((float)((int16_t)battery.status.current_dA)) / 10.0;
+  doc["battery_voltage" + suffix] = ((float)battery.status.voltage_dV) / 10.0;
+  if (battery.info.number_of_cells != 0u && battery.status.cell_voltages_mV[battery.info.number_of_cells - 1] != 0u) {
+    doc["cell_max_voltage" + suffix] = ((float)battery.status.cell_max_voltage_mV) / 1000.0;
+    doc["cell_min_voltage" + suffix] = ((float)battery.status.cell_min_voltage_mV) / 1000.0;
+  }
+  doc["total_capacity" + suffix] = ((float)battery.info.total_capacity_Wh);
+  doc["remaining_capacity_real" + suffix] = ((float)battery.status.remaining_capacity_Wh);
+  doc["remaining_capacity" + suffix] = ((float)battery.status.reported_remaining_capacity_Wh);
+  doc["max_discharge_power" + suffix] = ((float)battery.status.max_discharge_power_W);
+  doc["max_charge_power" + suffix] = ((float)battery.status.max_charge_power_W);
+}
+
+void set_battery_voltage_attributes(JsonDocument& doc, int i, int cellNumber, const String& state_topic,
+                                    const String& object_id_prefix) {
+  doc["name"] = "Battery Cell Voltage " + String(cellNumber);
+  doc["object_id"] = object_id_prefix + "battery_voltage_cell" + String(cellNumber);
+  doc["unique_id"] = topic_name + "_battery_voltage_cell" + String(cellNumber);
+  doc["device_class"] = "voltage";
+  doc["state_class"] = "measurement";
+  doc["state_topic"] = state_topic;
+  doc["unit_of_measurement"] = "V";
+  doc["enabled_by_default"] = true;
+  doc["expire_after"] = 240;
+  doc["value_template"] = "{{ value_json.cell_voltages[" + String(i) + "] }}";
+}
+
 #endif  // HA_AUTODISCOVERY
 
 static std::vector<EventData> order_events;
@@ -137,13 +176,7 @@ static void publish_common_info(void) {
       }
       doc["enabled_by_default"] = true;
       doc["expire_after"] = 240;
-      doc["device"]["identifiers"][0] = ha_device_id;
-      doc["device"]["manufacturer"] = "DalaTech";
-      doc["device"]["model"] = "BatteryEmulator";
-      doc["device"]["name"] = device_name;
-      doc["origin"]["name"] = "BatteryEmulator";
-      doc["origin"]["sw"] = String(version_number) + "-mqtt";
-      doc["origin"]["url"] = "https://github.com/dalathegreat/Battery-Emulator";
+      set_common_discovery_attributes(doc);
       serializeJson(doc, mqtt_msg);
       mqtt_publish(generateCommonInfoAutoConfigTopic(config.object_id).c_str(), mqtt_msg, true);
       doc.clear();
@@ -156,48 +189,12 @@ static void publish_common_info(void) {
 
     //only publish these values if BMS is active and we are comunication  with the battery (can send CAN messages to the battery)
     if (datalayer.battery.status.CAN_battery_still_alive && allowed_to_send_CAN && millis() > BOOTUP_TIME) {
-      doc["SOC"] = ((float)datalayer.battery.status.reported_soc) / 100.0;
-      doc["SOC_real"] = ((float)datalayer.battery.status.real_soc) / 100.0;
-      doc["state_of_health"] = ((float)datalayer.battery.status.soh_pptt) / 100.0;
-      doc["temperature_min"] = ((float)((int16_t)datalayer.battery.status.temperature_min_dC)) / 10.0;
-      doc["temperature_max"] = ((float)((int16_t)datalayer.battery.status.temperature_max_dC)) / 10.0;
-      doc["stat_batt_power"] = ((float)((int32_t)datalayer.battery.status.active_power_W));
-      doc["battery_current"] = ((float)((int16_t)datalayer.battery.status.current_dA)) / 10.0;
-      doc["battery_voltage"] = ((float)datalayer.battery.status.voltage_dV) / 10.0;
-      // publish only if cell voltages have been populated...
-      if (datalayer.battery.info.number_of_cells != 0u &&
-          datalayer.battery.status.cell_voltages_mV[datalayer.battery.info.number_of_cells - 1] != 0u) {
-        doc["cell_max_voltage"] = ((float)datalayer.battery.status.cell_max_voltage_mV) / 1000.0;
-        doc["cell_min_voltage"] = ((float)datalayer.battery.status.cell_min_voltage_mV) / 1000.0;
-      }
-      doc["total_capacity"] = ((float)datalayer.battery.info.total_capacity_Wh);
-      doc["remaining_capacity_real"] = ((float)datalayer.battery.status.remaining_capacity_Wh);
-      doc["remaining_capacity"] = ((float)datalayer.battery.status.reported_remaining_capacity_Wh);
-      doc["max_discharge_power"] = ((float)datalayer.battery.status.max_discharge_power_W);
-      doc["max_charge_power"] = ((float)datalayer.battery.status.max_charge_power_W);
+      set_battery_attributes(doc, datalayer.battery, "");
     }
 #ifdef DOUBLE_BATTERY
     //only publish these values if BMS is active and we are comunication  with the battery (can send CAN messages to the battery)
     if (datalayer.battery2.status.CAN_battery_still_alive && allowed_to_send_CAN && millis() > BOOTUP_TIME) {
-      doc["SOC_2"] = ((float)datalayer.battery2.status.reported_soc) / 100.0;
-      doc["SOC_real_2"] = ((float)datalayer.battery2.status.real_soc) / 100.0;
-      doc["state_of_health_2"] = ((float)datalayer.battery2.status.soh_pptt) / 100.0;
-      doc["temperature_min_2"] = ((float)((int16_t)datalayer.battery2.status.temperature_min_dC)) / 10.0;
-      doc["temperature_max_2"] = ((float)((int16_t)datalayer.battery2.status.temperature_max_dC)) / 10.0;
-      doc["stat_batt_power_2"] = ((float)((int32_t)datalayer.battery2.status.active_power_W));
-      doc["battery_current_2"] = ((float)((int16_t)datalayer.battery2.status.current_dA)) / 10.0;
-      doc["battery_voltage_2"] = ((float)datalayer.battery2.status.voltage_dV) / 10.0;
-      // publish only if cell voltages have been populated...
-      if (datalayer.battery2.info.number_of_cells != 0u &&
-          datalayer.battery2.status.cell_voltages_mV[datalayer.battery2.info.number_of_cells - 1] != 0u) {
-        doc["cell_max_voltage_2"] = ((float)datalayer.battery2.status.cell_max_voltage_mV) / 1000.0;
-        doc["cell_min_voltage_2"] = ((float)datalayer.battery2.status.cell_min_voltage_mV) / 1000.0;
-      }
-      doc["total_capacity_2"] = ((float)datalayer.battery2.info.total_capacity_Wh);
-      doc["remaining_capacity_real_2"] = ((float)datalayer.battery2.status.remaining_capacity_Wh);
-      doc["remaining_capacity_2"] = ((float)datalayer.battery2.status.reported_remaining_capacity_Wh);
-      doc["max_discharge_power_2"] = ((float)datalayer.battery2.status.max_discharge_power_W);
-      doc["max_charge_power_2"] = ((float)datalayer.battery2.status.max_charge_power_W);
+      set_battery_attributes(doc, datalayer.battery2, "_2");
     }
 #endif  // DOUBLE_BATTERY
     serializeJson(doc, mqtt_msg);
@@ -232,23 +229,8 @@ static void publish_cell_voltages(void) {
 
       for (int i = 0; i < datalayer.battery.info.number_of_cells; i++) {
         int cellNumber = i + 1;
-        doc["name"] = "Battery Cell Voltage " + String(cellNumber);
-        doc["object_id"] = object_id_prefix + "battery_voltage_cell" + String(cellNumber);
-        doc["unique_id"] = topic_name + "_battery_voltage_cell" + String(cellNumber);
-        doc["device_class"] = "voltage";
-        doc["state_class"] = "measurement";
-        doc["state_topic"] = state_topic;
-        doc["unit_of_measurement"] = "V";
-        doc["enabled_by_default"] = true;
-        doc["expire_after"] = 240;
-        doc["value_template"] = "{{ value_json.cell_voltages[" + String(i) + "] }}";
-        doc["device"]["identifiers"][0] = ha_device_id;
-        doc["device"]["manufacturer"] = "DalaTech";
-        doc["device"]["model"] = "BatteryEmulator";
-        doc["device"]["name"] = device_name;
-        doc["origin"]["name"] = "BatteryEmulator";
-        doc["origin"]["sw"] = String(version_number) + "-mqtt";
-        doc["origin"]["url"] = "https://github.com/dalathegreat/Battery-Emulator";
+        set_battery_voltage_attributes(doc, i, cellNumber, state_topic, object_id_prefix);
+        set_common_discovery_attributes(doc);
 
         serializeJson(doc, mqtt_msg, sizeof(mqtt_msg));
         mqtt_publish(generateCellVoltageAutoConfigTopic(cellNumber, "").c_str(), mqtt_msg, true);
@@ -261,23 +243,8 @@ static void publish_cell_voltages(void) {
 
       for (int i = 0; i < datalayer.battery.info.number_of_cells; i++) {
         int cellNumber = i + 1;
-        doc["name"] = "Battery 2 Cell Voltage " + String(cellNumber);
-        doc["object_id"] = object_id_prefix + "battery_2_voltage_cell" + String(cellNumber);
-        doc["unique_id"] = topic_name + "_battery_2_voltage_cell" + String(cellNumber);
-        doc["device_class"] = "voltage";
-        doc["state_class"] = "measurement";
-        doc["state_topic"] = state_topic_2;
-        doc["unit_of_measurement"] = "V";
-        doc["enabled_by_default"] = true;
-        doc["expire_after"] = 240;
-        doc["value_template"] = "{{ value_json.cell_voltages[" + String(i) + "] }}";
-        doc["device"]["identifiers"][0] = ha_device_id;
-        doc["device"]["manufacturer"] = "DalaTech";
-        doc["device"]["model"] = "BatteryEmulator";
-        doc["device"]["name"] = device_name;
-        doc["origin"]["name"] = "BatteryEmulator";
-        doc["origin"]["sw"] = String(version_number) + "-mqtt";
-        doc["origin"]["url"] = "https://github.com/dalathegreat/Battery-Emulator";
+        set_battery_voltage_attributes(doc, i, cellNumber, state_topic_2, object_id_prefix + "2_");
+        set_common_discovery_attributes(doc);
 
         serializeJson(doc, mqtt_msg, sizeof(mqtt_msg));
         mqtt_publish(generateCellVoltageAutoConfigTopic(cellNumber, "_2_").c_str(), mqtt_msg, true);
@@ -350,13 +317,7 @@ void publish_events() {
     doc["json_attributes_topic"] = state_topic;
     doc["json_attributes_template"] = "{{ value_json | tojson }}";
     doc["enabled_by_default"] = true;
-    doc["device"]["identifiers"][0] = ha_device_id;
-    doc["device"]["manufacturer"] = "DalaTech";
-    doc["device"]["model"] = "BatteryEmulator";
-    doc["device"]["name"] = device_name;
-    doc["origin"]["name"] = "BatteryEmulator";
-    doc["origin"]["sw"] = String(version_number) + "-mqtt";
-    doc["origin"]["url"] = "https://github.com/dalathegreat/Battery-Emulator";
+    set_common_discovery_attributes(doc);
     serializeJson(doc, mqtt_msg);
     mqtt_publish(generateEventsAutoConfigTopic("event").c_str(), mqtt_msg, true);
 
@@ -425,13 +386,7 @@ static void publish_buttons_discovery(void) {
       doc["command_topic"] = generateButtonTopic(config.object_id);
       doc["enabled_by_default"] = true;
       doc["expire_after"] = 240;
-      doc["device"]["identifiers"][0] = ha_device_id;
-      doc["device"]["manufacturer"] = "DalaTech";
-      doc["device"]["model"] = "BatteryEmulator";
-      doc["device"]["name"] = device_name;
-      doc["origin"]["name"] = "BatteryEmulator";
-      doc["origin"]["sw"] = String(version_number) + "-mqtt";
-      doc["origin"]["url"] = "https://github.com/dalathegreat/Battery-Emulator";
+      set_common_discovery_attributes(doc);
       serializeJson(doc, mqtt_msg);
       mqtt_publish(generateButtonAutoConfigTopic(config.object_id).c_str(), mqtt_msg, true);
       doc.clear();
@@ -495,6 +450,7 @@ static void mqtt_event_handler(void* handler_args, esp_event_base_t base, int32_
 void init_mqtt(void) {
 
 #ifdef MQTT
+  create_sensor_configs();
 #ifdef MQTT_MANUAL_TOPIC_OBJECT_NAME
   // Use custom topic name, object ID prefix, and device name from user settings
   topic_name = mqtt_topic_name;