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Innovenergy_trunk/csharp/lib/Wireformat/ts/VictronV1/Device.ts

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test
2023-02-16 12:57:06 +00:00
/* eslint-disable */
import Long from "long";
import _m0 from "protobufjs/minimal";
import { BatteryStatus48TL } from "../VictronV1/BatteryStatus48TL";
export const protobufPackage = "";
export enum DeviceType {
UnknownDevice = 0,
Grid = 1,
Shore = 2,
AcInBus = 3,
AcOutBus = 4,
AcBus = 5,
DcBus = 6,
Inverter = 7,
Battery48TL200 = 8,
PvInverter = 9,
Mppt = 10,
Generator = 11,
AcLoad = 12,
DcLoad = 13,
Losses = 14,
BatteryHeater = 15,
UNRECOGNIZED = -1,
}
export function deviceTypeFromJSON(object: any): DeviceType {
switch (object) {
case 0:
case "UnknownDevice":
return DeviceType.UnknownDevice;
case 1:
case "Grid":
return DeviceType.Grid;
case 2:
case "Shore":
return DeviceType.Shore;
case 3:
case "AcInBus":
return DeviceType.AcInBus;
case 4:
case "AcOutBus":
return DeviceType.AcOutBus;
case 5:
case "AcBus":
return DeviceType.AcBus;
case 6:
case "DcBus":
return DeviceType.DcBus;
case 7:
case "Inverter":
return DeviceType.Inverter;
case 8:
case "Battery48TL200":
return DeviceType.Battery48TL200;
case 9:
case "PvInverter":
return DeviceType.PvInverter;
case 10:
case "Mppt":
return DeviceType.Mppt;
case 11:
case "Generator":
return DeviceType.Generator;
case 12:
case "AcLoad":
return DeviceType.AcLoad;
case 13:
case "DcLoad":
return DeviceType.DcLoad;
case 14:
case "Losses":
return DeviceType.Losses;
case 15:
case "BatteryHeater":
return DeviceType.BatteryHeater;
case -1:
case "UNRECOGNIZED":
default:
return DeviceType.UNRECOGNIZED;
}
}
export function deviceTypeToJSON(object: DeviceType): string {
switch (object) {
case DeviceType.UnknownDevice:
return "UnknownDevice";
case DeviceType.Grid:
return "Grid";
case DeviceType.Shore:
return "Shore";
case DeviceType.AcInBus:
return "AcInBus";
case DeviceType.AcOutBus:
return "AcOutBus";
case DeviceType.AcBus:
return "AcBus";
case DeviceType.DcBus:
return "DcBus";
case DeviceType.Inverter:
return "Inverter";
case DeviceType.Battery48TL200:
return "Battery48TL200";
case DeviceType.PvInverter:
return "PvInverter";
case DeviceType.Mppt:
return "Mppt";
case DeviceType.Generator:
return "Generator";
case DeviceType.AcLoad:
return "AcLoad";
case DeviceType.DcLoad:
return "DcLoad";
case DeviceType.Losses:
return "Losses";
case DeviceType.BatteryHeater:
return "BatteryHeater";
default:
return "UNKNOWN";
}
}
export interface Phase {
voltage: number;
current: number;
power: number;
}
export interface Device {
type: DeviceType;
phases: Phase[];
devices: Device[];
batteryData: BatteryStatus48TL | undefined;
}
function createBasePhase(): Phase {
return { voltage: 0, current: 0, power: 0 };
}
export const Phase = {
encode(message: Phase, writer: _m0.Writer = _m0.Writer.create()): _m0.Writer {
if (message.voltage !== 0) {
writer.uint32(13).float(message.voltage);
}
if (message.current !== 0) {
writer.uint32(21).float(message.current);
}
if (message.power !== 0) {
writer.uint32(29).float(message.power);
}
return writer;
},
decode(input: _m0.Reader | Uint8Array, length?: number): Phase {
const reader = input instanceof _m0.Reader ? input : new _m0.Reader(input);
let end = length === undefined ? reader.len : reader.pos + length;
const message = createBasePhase();
while (reader.pos < end) {
const tag = reader.uint32();
switch (tag >>> 3) {
case 1:
message.voltage = reader.float();
break;
case 2:
message.current = reader.float();
break;
case 3:
message.power = reader.float();
break;
default:
reader.skipType(tag & 7);
break;
}
}
return message;
},
fromJSON(object: any): Phase {
return {
voltage: isSet(object.voltage) ? Number(object.voltage) : 0,
current: isSet(object.current) ? Number(object.current) : 0,
power: isSet(object.power) ? Number(object.power) : 0,
};
},
toJSON(message: Phase): unknown {
const obj: any = {};
message.voltage !== undefined && (obj.voltage = message.voltage);
message.current !== undefined && (obj.current = message.current);
message.power !== undefined && (obj.power = message.power);
return obj;
},
fromPartial<I extends Exact<DeepPartial<Phase>, I>>(object: I): Phase {
const message = createBasePhase();
message.voltage = object.voltage ?? 0;
message.current = object.current ?? 0;
message.power = object.power ?? 0;
return message;
},
};
function createBaseDevice(): Device {
return { type: 0, phases: [], devices: [], batteryData: undefined };
}
export const Device = {
encode(
message: Device,
writer: _m0.Writer = _m0.Writer.create()
): _m0.Writer {
if (message.type !== 0) {
writer.uint32(8).int32(message.type);
}
for (const v of message.phases) {
Phase.encode(v!, writer.uint32(34).fork()).ldelim();
}
for (const v of message.devices) {
Device.encode(v!, writer.uint32(42).fork()).ldelim();
}
if (message.batteryData !== undefined) {
BatteryStatus48TL.encode(
message.batteryData,
writer.uint32(82).fork()
).ldelim();
}
return writer;
},
decode(input: _m0.Reader | Uint8Array, length?: number): Device {
const reader = input instanceof _m0.Reader ? input : new _m0.Reader(input);
let end = length === undefined ? reader.len : reader.pos + length;
const message = createBaseDevice();
while (reader.pos < end) {
const tag = reader.uint32();
switch (tag >>> 3) {
case 1:
message.type = reader.int32() as any;
break;
case 4:
message.phases.push(Phase.decode(reader, reader.uint32()));
break;
case 5:
message.devices.push(Device.decode(reader, reader.uint32()));
break;
case 10:
message.batteryData = BatteryStatus48TL.decode(
reader,
reader.uint32()
);
break;
default:
reader.skipType(tag & 7);
break;
}
}
return message;
},
fromJSON(object: any): Device {
return {
type: isSet(object.type) ? deviceTypeFromJSON(object.type) : 0,
phases: Array.isArray(object?.phases)
? object.phases.map((e: any) => Phase.fromJSON(e))
: [],
devices: Array.isArray(object?.devices)
? object.devices.map((e: any) => Device.fromJSON(e))
: [],
batteryData: isSet(object.batteryData)
? BatteryStatus48TL.fromJSON(object.batteryData)
: undefined,
};
},
toJSON(message: Device): unknown {
const obj: any = {};
message.type !== undefined && (obj.type = deviceTypeToJSON(message.type));
if (message.phases) {
obj.phases = message.phases.map((e) => (e ? Phase.toJSON(e) : undefined));
} else {
obj.phases = [];
}
if (message.devices) {
obj.devices = message.devices.map((e) =>
e ? Device.toJSON(e) : undefined
);
} else {
obj.devices = [];
}
message.batteryData !== undefined &&
(obj.batteryData = message.batteryData
? BatteryStatus48TL.toJSON(message.batteryData)
: undefined);
return obj;
},
fromPartial<I extends Exact<DeepPartial<Device>, I>>(object: I): Device {
const message = createBaseDevice();
message.type = object.type ?? 0;
message.phases = object.phases?.map((e) => Phase.fromPartial(e)) || [];
message.devices = object.devices?.map((e) => Device.fromPartial(e)) || [];
message.batteryData =
object.batteryData !== undefined && object.batteryData !== null
? BatteryStatus48TL.fromPartial(object.batteryData)
: undefined;
return message;
},
};
type Builtin =
| Date
| Function
| Uint8Array
| string
| number
| boolean
| undefined;
export type DeepPartial<T> = T extends Builtin
? T
: T extends Array<infer U>
? Array<DeepPartial<U>>
: T extends ReadonlyArray<infer U>
? ReadonlyArray<DeepPartial<U>>
: T extends {}
? { [K in keyof T]?: DeepPartial<T[K]> }
: Partial<T>;
type KeysOfUnion<T> = T extends T ? keyof T : never;
export type Exact<P, I extends P> = P extends Builtin
? P
: P & { [K in keyof P]: Exact<P[K], I[K]> } & Record<
Exclude<keyof I, KeysOfUnion<P>>,
never
>;
if (_m0.util.Long !== Long) {
_m0.util.Long = Long as any;
_m0.configure();
}
function isSet(value: any): boolean {
return value !== null && value !== undefined;
}