2 * Copyright (c) 2010-2023 Contributors to the openHAB project
4 * See the NOTICE file(s) distributed with this work for additional
7 * This program and the accompanying materials are made available under the
8 * terms of the Eclipse Public License 2.0 which is available at
9 * http://www.eclipse.org/legal/epl-2.0
11 * SPDX-License-Identifier: EPL-2.0
13 package org.openhab.binding.daikin.internal.api.airbase;
15 import java.util.HashMap;
17 import java.util.Optional;
19 import org.eclipse.jdt.annotation.NonNullByDefault;
20 import org.openhab.binding.daikin.internal.api.InfoParser;
21 import org.openhab.binding.daikin.internal.api.airbase.AirbaseEnums.AirbaseFanMovement;
22 import org.openhab.binding.daikin.internal.api.airbase.AirbaseEnums.AirbaseFanSpeed;
23 import org.openhab.binding.daikin.internal.api.airbase.AirbaseEnums.AirbaseMode;
24 import org.slf4j.Logger;
25 import org.slf4j.LoggerFactory;
28 * Class for holding the set of parameters used by set and get control info.
30 * @author Tim Waterhouse - Initial Contribution
31 * @author Paul Smedley - Mods for Daikin Airbase Units
35 public class AirbaseControlInfo {
36 private static final Logger LOGGER = LoggerFactory.getLogger(AirbaseControlInfo.class);
38 public String ret = "";
39 public boolean power = false;
40 public AirbaseMode mode = AirbaseMode.AUTO;
41 /** Degrees in Celsius. */
42 public Optional<Double> temp = Optional.empty();
43 public AirbaseFanSpeed fanSpeed = AirbaseFanSpeed.LEVEL_1;
44 public AirbaseFanMovement fanMovement = AirbaseFanMovement.STOPPED;
45 /* Not supported by all units. Sets the target humidity for dehumidifying. */
46 public Optional<Integer> targetHumidity = Optional.empty();
48 private AirbaseControlInfo() {
51 public static AirbaseControlInfo parse(String response) {
52 LOGGER.trace("Parsing string: \"{}\"", response);
54 Map<String, String> responseMap = InfoParser.parse(response);
56 AirbaseControlInfo info = new AirbaseControlInfo();
57 info.ret = Optional.ofNullable(responseMap.get("ret")).orElse("");
58 info.power = "1".equals(responseMap.get("pow"));
59 info.mode = Optional.ofNullable(responseMap.get("mode")).flatMap(value -> InfoParser.parseInt(value))
60 .map(value -> AirbaseMode.fromValue(value)).orElse(AirbaseMode.AUTO);
61 info.temp = Optional.ofNullable(responseMap.get("stemp")).flatMap(value -> InfoParser.parseDouble(value));
62 int fRate = Optional.ofNullable(responseMap.get("f_rate")).flatMap(value -> InfoParser.parseInt(value))
64 boolean fAuto = "1".equals(responseMap.getOrDefault("f_auto", "0"));
65 boolean fAirside = "1".equals(responseMap.getOrDefault("f_airside", "0"));
66 info.fanSpeed = AirbaseFanSpeed.fromValue(fRate, fAuto, fAirside);
67 info.fanMovement = Optional.ofNullable(responseMap.get("f_dir")).flatMap(value -> InfoParser.parseInt(value))
68 .map(value -> AirbaseFanMovement.fromValue(value)).orElse(AirbaseFanMovement.STOPPED);
69 info.targetHumidity = Optional.ofNullable(responseMap.get("shum")).flatMap(value -> InfoParser.parseInt(value));
73 public Map<String, String> getParamString() {
74 Map<String, String> params = new HashMap<>();
75 params.put("pow", power ? "1" : "0");
76 params.put("mode", Integer.toString(mode.getValue()));
77 params.put("f_rate", Integer.toString(fanSpeed.getLevel()));
78 params.put("f_auto", fanSpeed.getAuto() ? "1" : "0");
79 params.put("f_airside", fanSpeed.getAirside() ? "1" : "0");
80 params.put("f_dir", Integer.toString(fanMovement.getValue()));
81 params.put("stemp", temp.orElse(20.0).toString());
82 params.put("shum", targetHumidity.map(value -> value.toString()).orElse(""));
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