// Code generated by protoc-gen-ts_proto. DO NOT EDIT.
// versions:
//   protoc-gen-ts_proto  v2.6.1
//   protoc               unknown
// source: cosmos_proto/cosmos.proto

/* eslint-disable */
import { BinaryReader, BinaryWriter } from "@bufbuild/protobuf/wire";

export enum ScalarType {
  SCALAR_TYPE_UNSPECIFIED = 0,
  SCALAR_TYPE_STRING = 1,
  SCALAR_TYPE_BYTES = 2,
  UNRECOGNIZED = -1,
}

export function scalarTypeFromJSON(object: any): ScalarType {
  switch (object) {
    case 0:
    case "SCALAR_TYPE_UNSPECIFIED":
      return ScalarType.SCALAR_TYPE_UNSPECIFIED;
    case 1:
    case "SCALAR_TYPE_STRING":
      return ScalarType.SCALAR_TYPE_STRING;
    case 2:
    case "SCALAR_TYPE_BYTES":
      return ScalarType.SCALAR_TYPE_BYTES;
    case -1:
    case "UNRECOGNIZED":
    default:
      return ScalarType.UNRECOGNIZED;
  }
}

export function scalarTypeToJSON(object: ScalarType): string {
  switch (object) {
    case ScalarType.SCALAR_TYPE_UNSPECIFIED:
      return "SCALAR_TYPE_UNSPECIFIED";
    case ScalarType.SCALAR_TYPE_STRING:
      return "SCALAR_TYPE_STRING";
    case ScalarType.SCALAR_TYPE_BYTES:
      return "SCALAR_TYPE_BYTES";
    case ScalarType.UNRECOGNIZED:
    default:
      return "UNRECOGNIZED";
  }
}

/**
 * InterfaceDescriptor describes an interface type to be used with
 * accepts_interface and implements_interface and declared by declare_interface.
 */
export interface InterfaceDescriptor {
  /**
   * name is the name of the interface. It should be a short-name (without
   * a period) such that the fully qualified name of the interface will be
   * package.name, ex. for the package a.b and interface named C, the
   * fully-qualified name will be a.b.C.
   */
  name: string;
  /**
   * description is a human-readable description of the interface and its
   * purpose.
   */
  description: string;
}

/**
 * ScalarDescriptor describes an scalar type to be used with
 * the scalar field option and declared by declare_scalar.
 * Scalars extend simple protobuf built-in types with additional
 * syntax and semantics, for instance to represent big integers.
 * Scalars should ideally define an encoding such that there is only one
 * valid syntactical representation for a given semantic meaning,
 * i.e. the encoding should be deterministic.
 */
export interface ScalarDescriptor {
  /**
   * name is the name of the scalar. It should be a short-name (without
   * a period) such that the fully qualified name of the scalar will be
   * package.name, ex. for the package a.b and scalar named C, the
   * fully-qualified name will be a.b.C.
   */
  name: string;
  /**
   * description is a human-readable description of the scalar and its
   * encoding format. For instance a big integer or decimal scalar should
   * specify precisely the expected encoding format.
   */
  description: string;
  /**
   * field_type is the type of field with which this scalar can be used.
   * Scalars can be used with one and only one type of field so that
   * encoding standards and simple and clear. Currently only string and
   * bytes fields are supported for scalars.
   */
  fieldType: ScalarType[];
}

function createBaseInterfaceDescriptor(): InterfaceDescriptor {
  return { name: "", description: "" };
}

export const InterfaceDescriptor: MessageFns<InterfaceDescriptor> = {
  encode(message: InterfaceDescriptor, writer: BinaryWriter = new BinaryWriter()): BinaryWriter {
    if (message.name !== "") {
      writer.uint32(10).string(message.name);
    }
    if (message.description !== "") {
      writer.uint32(18).string(message.description);
    }
    return writer;
  },

  decode(input: BinaryReader | Uint8Array, length?: number): InterfaceDescriptor {
    const reader = input instanceof BinaryReader ? input : new BinaryReader(input);
    let end = length === undefined ? reader.len : reader.pos + length;
    const message = createBaseInterfaceDescriptor();
    while (reader.pos < end) {
      const tag = reader.uint32();
      switch (tag >>> 3) {
        case 1: {
          if (tag !== 10) {
            break;
          }

          message.name = reader.string();
          continue;
        }
        case 2: {
          if (tag !== 18) {
            break;
          }

          message.description = reader.string();
          continue;
        }
      }
      if ((tag & 7) === 4 || tag === 0) {
        break;
      }
      reader.skip(tag & 7);
    }
    return message;
  },

  fromJSON(object: any): InterfaceDescriptor {
    return {
      name: isSet(object.name) ? globalThis.String(object.name) : "",
      description: isSet(object.description) ? globalThis.String(object.description) : "",
    };
  },

  toJSON(message: InterfaceDescriptor): unknown {
    const obj: any = {};
    if (message.name !== "") {
      obj.name = message.name;
    }
    if (message.description !== "") {
      obj.description = message.description;
    }
    return obj;
  },

  create<I extends Exact<DeepPartial<InterfaceDescriptor>, I>>(base?: I): InterfaceDescriptor {
    return InterfaceDescriptor.fromPartial(base ?? ({} as any));
  },
  fromPartial<I extends Exact<DeepPartial<InterfaceDescriptor>, I>>(object: I): InterfaceDescriptor {
    const message = createBaseInterfaceDescriptor();
    message.name = object.name ?? "";
    message.description = object.description ?? "";
    return message;
  },
};

function createBaseScalarDescriptor(): ScalarDescriptor {
  return { name: "", description: "", fieldType: [] };
}

export const ScalarDescriptor: MessageFns<ScalarDescriptor> = {
  encode(message: ScalarDescriptor, writer: BinaryWriter = new BinaryWriter()): BinaryWriter {
    if (message.name !== "") {
      writer.uint32(10).string(message.name);
    }
    if (message.description !== "") {
      writer.uint32(18).string(message.description);
    }
    writer.uint32(26).fork();
    for (const v of message.fieldType) {
      writer.int32(v);
    }
    writer.join();
    return writer;
  },

  decode(input: BinaryReader | Uint8Array, length?: number): ScalarDescriptor {
    const reader = input instanceof BinaryReader ? input : new BinaryReader(input);
    let end = length === undefined ? reader.len : reader.pos + length;
    const message = createBaseScalarDescriptor();
    while (reader.pos < end) {
      const tag = reader.uint32();
      switch (tag >>> 3) {
        case 1: {
          if (tag !== 10) {
            break;
          }

          message.name = reader.string();
          continue;
        }
        case 2: {
          if (tag !== 18) {
            break;
          }

          message.description = reader.string();
          continue;
        }
        case 3: {
          if (tag === 24) {
            message.fieldType.push(reader.int32() as any);

            continue;
          }

          if (tag === 26) {
            const end2 = reader.uint32() + reader.pos;
            while (reader.pos < end2) {
              message.fieldType.push(reader.int32() as any);
            }

            continue;
          }

          break;
        }
      }
      if ((tag & 7) === 4 || tag === 0) {
        break;
      }
      reader.skip(tag & 7);
    }
    return message;
  },

  fromJSON(object: any): ScalarDescriptor {
    return {
      name: isSet(object.name) ? globalThis.String(object.name) : "",
      description: isSet(object.description) ? globalThis.String(object.description) : "",
      fieldType: globalThis.Array.isArray(object?.fieldType)
        ? object.fieldType.map((e: any) => scalarTypeFromJSON(e))
        : [],
    };
  },

  toJSON(message: ScalarDescriptor): unknown {
    const obj: any = {};
    if (message.name !== "") {
      obj.name = message.name;
    }
    if (message.description !== "") {
      obj.description = message.description;
    }
    if (message.fieldType?.length) {
      obj.fieldType = message.fieldType.map((e) => scalarTypeToJSON(e));
    }
    return obj;
  },

  create<I extends Exact<DeepPartial<ScalarDescriptor>, I>>(base?: I): ScalarDescriptor {
    return ScalarDescriptor.fromPartial(base ?? ({} as any));
  },
  fromPartial<I extends Exact<DeepPartial<ScalarDescriptor>, I>>(object: I): ScalarDescriptor {
    const message = createBaseScalarDescriptor();
    message.name = object.name ?? "";
    message.description = object.description ?? "";
    message.fieldType = object.fieldType?.map((e) => e) || [];
    return message;
  },
};

type Builtin = Date | Function | Uint8Array | string | number | boolean | bigint | undefined;

type DeepPartial<T> = T extends Builtin ? T
  : 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 };

function isSet(value: any): boolean {
  return value !== null && value !== undefined;
}

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;
}
