import { BinaryReader, BinaryWriter } from "@bufbuild/protobuf/wire";
import Long from "long";
/**
 * Possible signal encodings. The value must match the kvadblib value.
 *
 * NOTE (known proto3 deviation): The zero value is SIGNAL_ENCODING_INTEL rather than
 * SIGNAL_ENCODING_UNSPECIFIED because the values are mapped directly to kvadblib constants
 * (0 = Intel/little-endian). Changing the zero value would require cascading changes
 * across the service implementation.
 */
export declare enum SignalEncoding {
    /** SIGNAL_ENCODING_INTEL - Intel / little endian encoding */
    SIGNAL_ENCODING_INTEL = 0,
    /** SIGNAL_ENCODING_MOTOROLA - Motorola / big endian encoding */
    SIGNAL_ENCODING_MOTOROLA = 1,
    UNRECOGNIZED = -1
}
export declare function signalEncodingFromJSON(object: any): SignalEncoding;
export declare function signalEncodingToJSON(object: SignalEncoding): string;
/**
 * Possible signal types. The value must match the kvadblib value.
 *
 * NOTE (known proto3 deviation): The zero value is SIGNAL_TYPE_INVALID rather than
 * SIGNAL_TYPE_UNSPECIFIED because the values are mapped directly to kvadblib constants
 * (0 = invalid/unrecognised type). Changing the zero value would require cascading
 * changes across the service implementation.
 */
export declare enum SignalType {
    SIGNAL_TYPE_INVALID = 0,
    /** SIGNAL_TYPE_SIGNED - Signed integer */
    SIGNAL_TYPE_SIGNED = 1,
    /** SIGNAL_TYPE_UNSIGNED - Unsigned integer */
    SIGNAL_TYPE_UNSIGNED = 2,
    /** SIGNAL_TYPE_FLOAT - Float, strictly 32 bit long */
    SIGNAL_TYPE_FLOAT = 3,
    /** SIGNAL_TYPE_DOUBLE - Double, strictly 64 bit long */
    SIGNAL_TYPE_DOUBLE = 4,
    UNRECOGNIZED = -1
}
export declare function signalTypeFromJSON(object: any): SignalType;
export declare function signalTypeToJSON(object: SignalType): string;
/** A message that holds information about a signal. */
export interface SignalDefinition {
    /** The name of the signal. */
    name: string;
    /** The qualified name of the signal. This includes the database name and the message name as a prefix and it can be used to uniquely identify the signal. */
    qualifiedName: string;
    /** A comment for the signal. */
    comment: string;
    /** The encoding of the signal. */
    encoding: SignalEncoding;
    /** The data type of the signal. */
    dataType: SignalType;
    /** The start bit of the signal within the message. */
    startbit: number;
    /** The length of the signal in bits. */
    length: number;
    /** The unit of the signal. */
    unit: string;
    /** The scaling factor for the signal. */
    factor: number;
    /** The offset for the signal. */
    offset: number;
    /** The minimum value of the signal. */
    minValue: number;
    /** The maximum value of the signal. */
    maxValue: number;
    /** The enumeration values for the signal, if it is an enumerated type. */
    enumValues: {
        [key: number]: string;
    };
    /** Whether the signal is the multiplexer signal within a message. */
    isMultiplexer: boolean;
    /** Whether the signal is multiplexed within a message. */
    isMultiplexed: boolean;
    /** The multiplex value for the signal, if it is multiplexed. */
    multiplexValue?: number | undefined;
}
export interface SignalDefinition_EnumValuesEntry {
    key: number;
    value: string;
}
/** A collection of signal definitions. */
export interface SignalDefinitions {
    /** A list of signal definitions. */
    items: SignalDefinition[];
}
export declare const SignalDefinition: MessageFns<SignalDefinition>;
export declare const SignalDefinition_EnumValuesEntry: MessageFns<SignalDefinition_EnumValuesEntry>;
export declare const SignalDefinitions: MessageFns<SignalDefinitions>;
type Builtin = Date | Function | Uint8Array | string | number | boolean | undefined;
type DeepPartial<T> = T extends Builtin ? T : T extends Long ? string | number | Long : T extends globalThis.Array<infer U> ? globalThis.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;
type Exact<P, I extends P> = P extends Builtin ? P : P & {
    [K in keyof P]: Exact<P[K], I[K]>;
} & {
    [K in Exclude<keyof I, KeysOfUnion<P>>]: never;
};
interface MessageFns<T> {
    encode(message: T, writer?: BinaryWriter): BinaryWriter;
    decode(input: BinaryReader | Uint8Array, length?: number): T;
    fromJSON(object: any): T;
    toJSON(message: T): unknown;
    create<I extends Exact<DeepPartial<T>, I>>(base?: I): T;
    fromPartial<I extends Exact<DeepPartial<T>, I>>(object: I): T;
}
export {};
