add tests in a consistent way

src/analogsensor.cpp

@@ -333,10 +333,10 @@ void AnalogSensor::loop() {
 }
 
 // update analog information name and offset
-// a type of -1 is used to delete the sensor
+// a type value of -1 is used to delete the sensor
 bool AnalogSensor::update(uint8_t gpio, const std::string & name, double offset, double factor, uint8_t uom, int8_t type, bool deleted) {
-    boolean found_sensor = false; // see if we can find the sensor in our customization list
-
+    // first see if we can find the sensor in our customization list
+    bool found_sensor = false;
     EMSESP::webCustomizationService.update(
         [&](WebCustomization & settings) {
             for (auto & AnalogCustomization : settings.analogCustomizations) {
@@ -374,7 +374,7 @@ bool AnalogSensor::update(uint8_t gpio, const std::string & name, double offset,
         remove_ha_topic(type, gpio); // the GPIO
     }
 
-    // we didn't find it, it's new, so create and store it
+    // we didn't find it, it's new, so create and store it in the customization list
     if (!found_sensor) {
         EMSESP::webCustomizationService.update(
             [&](WebCustomization & settings) {
@@ -856,15 +856,4 @@ bool AnalogSensor::command_commands(const char * value, const int8_t id, JsonObj
     return Command::list(EMSdevice::DeviceType::ANALOGSENSOR, output);
 }
 
-// hard coded tests
-#ifdef EMSESP_TEST
-void AnalogSensor::test() {
-    sensors_.emplace_back(36, "test12", 0, 0.1, 17, AnalogType::ADC);
-    sensors_.back().set_value(12.4);
-
-    sensors_.emplace_back(37, "test13", 0, 0, 0, AnalogType::DIGITAL_IN);
-    sensors_.back().set_value(13);
-}
-#endif
-
 } // namespace emsesp

src/analogsensor.h

@@ -158,11 +158,6 @@ class AnalogSensor {
 
     bool command_info(const char * value, const int8_t id, JsonObject output) const;
 
-
-#if defined(EMSESP_TEST)
-    void test();
-#endif
-
   private:
     static constexpr uint8_t  MAX_SENSORS             = 20;
     static constexpr uint32_t MEASURE_ANALOG_INTERVAL = 500;

src/temperaturesensor.cpp

@@ -640,16 +640,18 @@ bool TemperatureSensor::Sensor::apply_customization() {
 #if defined(EMSESP_TEST)
 void TemperatureSensor::test() {
     // add 2 temperature sensors
+    // Sensor ID: 01-0203-0405-0607
     uint8_t addr[ADDR_LEN] = {1, 2, 3, 4, 5, 6, 7, 8};
     sensors_.emplace_back(addr);
-    // sensors_.back().apply_customization();
+    sensors_.back().apply_customization();
     sensors_.back().temperature_c = 123;
     sensors_.back().read          = true;
     publish_sensor(sensors_.back()); // call publish single
 
+    // Sensor ID: 0B-0C0D-0E0F-1011
     uint8_t addr2[ADDR_LEN] = {11, 12, 13, 14, 15, 16, 17, 18};
     sensors_.emplace_back(addr2);
-    // sensors_.back().apply_customization();
+    sensors_.back().apply_customization();
     sensors_.back().temperature_c = 456;
     sensors_.back().read          = true;
     publish_sensor(sensors_.back()); // call publish single

src/web/WebCustomEntityService.cpp

@@ -626,6 +626,7 @@ bool WebCustomEntityService::get_value(std::shared_ptr<const Telegram> telegram)
 void WebCustomEntityService::test() {
     update(
         [&](WebCustomEntity & webCustomEntity) {
+            webCustomEntity.customEntityItems.clear();
             // test 1
             auto entityItem       = CustomEntityItem();
             entityItem.ram        = 0;
@@ -642,15 +643,15 @@ void WebCustomEntityService::test() {
 
             // test 2
             entityItem.ram        = 0;
-            entityItem.device_id  = 8;
-            entityItem.type_id    = 18;
-            entityItem.offset     = 0;
+            entityItem.device_id  = 24;
+            entityItem.type_id    = 677;
+            entityItem.offset     = 3;
             entityItem.factor     = 1;
             entityItem.name       = "test_read_only";
-            entityItem.uom        = 3;
+            entityItem.uom        = 0;
             entityItem.value_type = 2;
             entityItem.writeable  = false;
-            entityItem.data       = "12";
+            entityItem.data       = "48";
             webCustomEntity.customEntityItems.push_back(entityItem);
 
             // test 2

src/web/WebCustomizationService.cpp

@@ -89,19 +89,6 @@ void WebCustomization::read(WebCustomization & customizations, JsonObject root)
 // call on initialization and also when the page is saved via web UI
 // this loads the data into the internal class
 StateUpdateResult WebCustomization::update(JsonObject root, WebCustomization & customizations) {
-#ifdef EMSESP_STANDALONE
-    // invoke some fake data for testing
-    const char * json = "{\"ts\":[],\"as\":[],\"masked_entities\":[{\"product_id\":123,\"device_id\":8,\"entity_ids\":[\"08heatingactive|my custom "
-                        "name for heating active (HS1)\",\"08tapwateractive\"]}]}";
-    JsonDocument doc;
-    deserializeJson(doc, json);
-    root = doc.as<JsonObject>();
-    Serial.print(COLOR_BRIGHT_MAGENTA);
-    Serial.print(" Using fake customization file: ");
-    serializeJson(root, Serial);
-    Serial.println(COLOR_RESET);
-#endif
-
     // Temperature Sensor customization
     customizations.sensorCustomizations.clear();
     if (root["ts"].is<JsonArray>()) {
@@ -120,35 +107,36 @@ StateUpdateResult WebCustomization::update(JsonObject root, WebCustomization & c
     if (root["as"].is<JsonArray>()) {
         for (const JsonObject analogJson : root["as"].as<JsonArray>()) {
             // create each of the sensor, overwriting any previous settings
-            auto sensor   = AnalogCustomization();
-            sensor.gpio   = analogJson["gpio"];
-            sensor.name   = analogJson["name"].as<std::string>();
-            sensor.offset = analogJson["offset"];
-            sensor.factor = analogJson["factor"];
-            sensor.uom    = analogJson["uom"];
-            sensor.type   = analogJson["type"];
-            if (_start && sensor.type == EMSESP::analogsensor_.AnalogType::DIGITAL_OUT && sensor.uom > DeviceValue::DeviceValueUOM::NONE) {
-                sensor.offset = sensor.uom - 1;
+            auto analog   = AnalogCustomization();
+            analog.gpio   = analogJson["gpio"];
+            analog.name   = analogJson["name"].as<std::string>();
+            analog.offset = analogJson["offset"];
+            analog.factor = analogJson["factor"];
+            analog.uom    = analogJson["uom"];
+            analog.type   = analogJson["type"];
+            if (_start && analog.type == EMSESP::analogsensor_.AnalogType::DIGITAL_OUT && analog.uom > DeviceValue::DeviceValueUOM::NONE) {
+                analog.offset = analog.uom - 1;
             }
-            customizations.analogCustomizations.push_back(sensor); // add to list
+            customizations.analogCustomizations.push_back(analog); // add to list
         }
     }
+
     _start = false;
     // load array of entities id's with masks, building up the object class
     customizations.entityCustomizations.clear();
     if (root["masked_entities"].is<JsonArray>()) {
         for (const JsonObject masked_entities : root["masked_entities"].as<JsonArray>()) {
-            auto new_entry       = EntityCustomization();
-            new_entry.product_id = masked_entities["product_id"];
-            new_entry.device_id  = masked_entities["device_id"];
+            auto emsEntity       = EntityCustomization();
+            emsEntity.product_id = masked_entities["product_id"];
+            emsEntity.device_id  = masked_entities["device_id"];
 
             for (const JsonVariant masked_entity_id : masked_entities["entity_ids"].as<JsonArray>()) {
                 if (masked_entity_id.is<std::string>()) {
-                    new_entry.entity_ids.push_back(masked_entity_id.as<std::string>()); // add entity list
+                    emsEntity.entity_ids.push_back(masked_entity_id.as<std::string>()); // add entity list
                 }
             }
 
-            customizations.entityCustomizations.push_back(new_entry); // save the new object
+            customizations.entityCustomizations.push_back(emsEntity); // save the new object
         }
     }
 
@@ -256,6 +244,7 @@ void WebCustomizationService::customization_entities(AsyncWebServerRequest * req
                         }
                         // emsesp::EMSESP::logger().info(id.as<const char *>());
                     }
+
                     // add deleted entities from file
                     read([&](WebCustomization & settings) {
                         for (EntityCustomization entityCustomization : settings.entityCustomizations) {
@@ -282,6 +271,7 @@ void WebCustomizationService::customization_entities(AsyncWebServerRequest * req
                             }
                         }
                     });
+
                     // get list of entities that have masks set or a custom fullname
                     emsdevice->getCustomizationEntities(entity_ids);
 
@@ -326,4 +316,61 @@ void WebCustomizationService::begin() {
     _fsPersistence.readFromFS();
 }
 
-} // namespace emsesp
+
+// hard coded tests
+#ifdef EMSESP_TEST
+void WebCustomizationService::test() {
+    update(
+        [&](WebCustomization & webCustomization) {
+            // Temperature sensors
+            webCustomization.sensorCustomizations.clear();
+            auto sensor   = SensorCustomization();
+            sensor.id     = "01-0203-0405-0607";
+            sensor.name   = "test_sensor1";
+            sensor.offset = 0;
+            webCustomization.sensorCustomizations.push_back(sensor);
+
+            sensor        = SensorCustomization();
+            sensor.id     = "0B-0C0D-0E0F-1011";
+            sensor.name   = "test_sensor2";
+            sensor.offset = 4;
+            webCustomization.sensorCustomizations.push_back(sensor);
+
+            // Analog sensors
+            // This actually adds the sensors as we use customizations to store them
+            webCustomization.analogCustomizations.clear();
+            auto analog   = AnalogCustomization();
+            analog.gpio   = 36;
+            analog.name   = "test_analog1";
+            analog.offset = 0;
+            analog.factor = 0.1;
+            analog.uom    = 17;
+            analog.type   = 3;
+            webCustomization.analogCustomizations.push_back(analog);
+
+            analog        = AnalogCustomization();
+            analog.gpio   = 37;
+            analog.name   = "test_analog2";
+            analog.offset = 0;
+            analog.factor = 1;
+            analog.uom    = 0;
+            analog.type   = 1;
+            webCustomization.analogCustomizations.push_back(analog);
+
+            // EMS entities
+            webCustomization.entityCustomizations.clear();
+            auto emsEntity       = EntityCustomization();
+            emsEntity.product_id = 123;
+            emsEntity.device_id  = 8;
+            emsEntity.entity_ids.push_back("08heatingactive|is my heating on?");
+            webCustomization.entityCustomizations.push_back(emsEntity);
+
+            return StateUpdateResult::CHANGED; // persist the changes
+        },
+        "local");
+
+    EMSESP::analogsensor_.reload(); // this is needed to active the analog sensors
+}
+#endif
+
+} // namespace emsesp

src/web/WebCustomizationService.h

@@ -83,6 +83,10 @@ class WebCustomizationService : public StatefulService<WebCustomization> {
 
     void begin();
 
+#if defined(EMSESP_TEST)
+    void test();
+#endif
+
 // make all functions public so we can test in the debug and standalone mode
 #ifndef EMSESP_STANDALONE
   private:

src/web/WebSchedulerService.cpp

@@ -419,12 +419,13 @@ void WebSchedulerService::loop() {
 void WebSchedulerService::test() {
     update(
         [&](WebScheduler & webScheduler) {
+            webScheduler.scheduleItems.clear();
             // test 1
             auto si        = ScheduleItem();
             si.active      = true;
             si.flags       = 1;
             si.time        = "12:00";
-            si.cmd         = "test";
+            si.cmd         = "system/fetch";
             si.value       = "10";
             si.name        = "test_scheduler";
             si.elapsed_min = 0;