// access to all fields bool EnoceanDevice::accessField(PropertyAccessMode aMode, ApiValuePtr aPropValue, PropertyDescriptorPtr aPropertyDescriptor) { if (aPropertyDescriptor->hasObjectKey(enoceanDevice_key)) { if (aMode==access_read) { // read properties switch (aPropertyDescriptor->fieldKey()) { case profileVariants_key: aPropValue->setType(apivalue_object); // make object (incoming object is NULL) return getProfileVariants(aPropValue); case profile_key: aPropValue->setInt32Value(getEEProfile()); return true; case packetage_key: // Note lastPacketTime is set to now at startup, so additionally check lastRSSI if (lastPacketTime==Never || lastRSSI<=-999) aPropValue->setNull(); else aPropValue->setDoubleValue((double)(MainLoop::now()-lastPacketTime)/Second); return true; case rssi_key: if (lastRSSI<=-999) aPropValue->setNull(); else aPropValue->setInt32Value(lastRSSI); return true; case repeaterCount_key: if (lastRSSI<=-999) aPropValue->setNull(); else aPropValue->setUint8Value(lastRepeaterCount); return true; } } else { // write properties switch (aPropertyDescriptor->fieldKey()) { case profile_key: setProfileVariant(aPropValue->int32Value()); return true; } } } // not my field, let base class handle it return inherited::accessField(aMode, aPropValue, aPropertyDescriptor); }
bool SensorBehaviour::accessField(PropertyAccessMode aMode, ApiValuePtr aPropValue, PropertyDescriptorPtr aPropertyDescriptor) { if (aPropertyDescriptor->hasObjectKey(sensor_key)) { if (aMode==access_read) { // read properties switch (aPropertyDescriptor->fieldKey()) { // Description properties case sensorType_key+descriptions_key_offset: aPropValue->setUint16Value(sensorType); return true; case sensorUsage_key+descriptions_key_offset: aPropValue->setUint16Value(sensorUsage); return true; case min_key+descriptions_key_offset: aPropValue->setDoubleValue(min); return true; case max_key+descriptions_key_offset: aPropValue->setDoubleValue(max); return true; case resolution_key+descriptions_key_offset: aPropValue->setDoubleValue(resolution); return true; case updateInterval_key+descriptions_key_offset: aPropValue->setDoubleValue((double)updateInterval/Second); return true; case aliveSignInterval_key+descriptions_key_offset: aPropValue->setDoubleValue((double)aliveSignInterval/Second); return true; // Settings properties case group_key+settings_key_offset: aPropValue->setUint16Value(sensorGroup); return true; case minPushInterval_key+settings_key_offset: aPropValue->setDoubleValue((double)minPushInterval/Second); return true; case changesOnlyInterval_key+settings_key_offset: aPropValue->setDoubleValue((double)changesOnlyInterval/Second); return true; // States properties case value_key+states_key_offset: // value if (lastUpdate==Never) aPropValue->setNull(); else aPropValue->setDoubleValue(currentValue); return true; case age_key+states_key_offset: // age if (lastUpdate==Never) aPropValue->setNull(); else aPropValue->setDoubleValue((double)(MainLoop::now()-lastUpdate)/Second); return true; } } else { // write properties switch (aPropertyDescriptor->fieldKey()) { // Settings properties case group_key+settings_key_offset: setPVar(sensorGroup, (DsGroup)aPropValue->int32Value()); return true; case minPushInterval_key+settings_key_offset: setPVar(minPushInterval, (MLMicroSeconds)(aPropValue->doubleValue()*Second)); return true; case changesOnlyInterval_key+settings_key_offset: setPVar(changesOnlyInterval, (MLMicroSeconds)(aPropValue->doubleValue()*Second)); return true; } } } // not my field, let base class handle it return inherited::accessField(aMode, aPropValue, aPropertyDescriptor); }
bool OutputBehaviour::accessField(PropertyAccessMode aMode, ApiValuePtr aPropValue, PropertyDescriptorPtr aPropertyDescriptor) { if (aPropertyDescriptor->hasObjectKey(output_groups_key)) { if (aMode==access_read) { // read group membership if (isMember((DsGroup)aPropertyDescriptor->fieldKey())) { aPropValue->setBoolValue(true); return true; } return false; } else { // write group setGroupMembership((DsGroup)aPropertyDescriptor->fieldKey(), aPropValue->boolValue()); return true; } } else if (aPropertyDescriptor->hasObjectKey(output_key)) { if (aMode==access_read) { // read properties switch (aPropertyDescriptor->fieldKey()) { // Description properties case outputFunction_key+descriptions_key_offset: aPropValue->setUint8Value(outputFunction); return true; case outputUsage_key+descriptions_key_offset: aPropValue->setUint16Value(outputUsage); return true; case variableRamp_key+descriptions_key_offset: aPropValue->setBoolValue(variableRamp); return true; case maxPower_key+descriptions_key_offset: aPropValue->setDoubleValue(maxPower); return true; // Settings properties case mode_key+settings_key_offset: aPropValue->setUint8Value(actualOutputMode()); // return actual mode, never outputmode_default return true; case pushChanges_key+settings_key_offset: aPropValue->setBoolValue(pushChanges); return true; // State properties case localPriority_key+states_key_offset: aPropValue->setBoolValue(localPriority); return true; } } else { // write properties switch (aPropertyDescriptor->fieldKey()) { // Settings properties case mode_key+settings_key_offset: setOutputMode((DsOutputMode)aPropValue->int32Value()); return true; case pushChanges_key+settings_key_offset: setPVar(pushChanges, aPropValue->boolValue()); return true; // State properties case localPriority_key+states_key_offset: setPVar(localPriority, aPropValue->boolValue()); return true; } } } // not my field, let base class handle it return inherited::accessField(aMode, aPropValue, aPropertyDescriptor); }