skinrComponentCategories.jsonl
Schema
_key(required): integer
Range: 1 .. 3name(required): enum
Enum values:Material,Pattern,Metallic
Code snippets
// <auto-generated />
//
// To parse this JSON data, add NuGet 'Newtonsoft.Json' then do:
//
// using QuickType;
//
// var skinrComponentCategorie = SkinrComponentCategorie.FromJson(jsonString);
namespace QuickType
{
using System;
using System.Collections.Generic;
using System.Globalization;
using Newtonsoft.Json;
using Newtonsoft.Json.Converters;
public partial class SkinrComponentCategorie
{
[JsonProperty("_key")]
public long Key { get; set; }
[JsonProperty("name")]
public Name Name { get; set; }
}
public enum Name { Material, Metallic, Pattern };
public partial class SkinrComponentCategorie
{
public static SkinrComponentCategorie FromJson(string json) => JsonConvert.DeserializeObject<SkinrComponentCategorie>(json, QuickType.Converter.Settings);
}
public static class Serialize
{
public static string ToJson(this SkinrComponentCategorie self) => JsonConvert.SerializeObject(self, QuickType.Converter.Settings);
}
internal static class Converter
{
public static readonly JsonSerializerSettings Settings = new JsonSerializerSettings
{
MetadataPropertyHandling = MetadataPropertyHandling.Ignore,
DateParseHandling = DateParseHandling.None,
Converters =
{
NameConverter.Singleton,
new IsoDateTimeConverter { DateTimeStyles = DateTimeStyles.AssumeUniversal }
},
};
}
internal class NameConverter : JsonConverter
{
public override bool CanConvert(Type t) => t == typeof(Name) || t == typeof(Name?);
public override object ReadJson(JsonReader reader, Type t, object existingValue, JsonSerializer serializer)
{
if (reader.TokenType == JsonToken.Null) return null;
var value = serializer.Deserialize<string>(reader);
switch (value)
{
case "Material":
return Name.Material;
case "Metallic":
return Name.Metallic;
case "Pattern":
return Name.Pattern;
}
throw new Exception("Cannot unmarshal type Name");
}
public override void WriteJson(JsonWriter writer, object untypedValue, JsonSerializer serializer)
{
if (untypedValue == null)
{
serializer.Serialize(writer, null);
return;
}
var value = (Name)untypedValue;
switch (value)
{
case Name.Material:
serializer.Serialize(writer, "Material");
return;
case Name.Metallic:
serializer.Serialize(writer, "Metallic");
return;
case Name.Pattern:
serializer.Serialize(writer, "Pattern");
return;
}
throw new Exception("Cannot marshal type Name");
}
public static readonly NameConverter Singleton = new NameConverter();
}
}
// Code generated from JSON Schema using quicktype. DO NOT EDIT.
// To parse and unparse this JSON data, add this code to your project and do:
//
// skinrComponentCategorie, err := UnmarshalSkinrComponentCategorie(bytes)
// bytes, err = skinrComponentCategorie.Marshal()
package model
import "encoding/json"
func UnmarshalSkinrComponentCategorie(data []byte) (SkinrComponentCategorie, error) {
var r SkinrComponentCategorie
err := json.Unmarshal(data, &r)
return r, err
}
func (r *SkinrComponentCategorie) Marshal() ([]byte, error) {
return json.Marshal(r)
}
type SkinrComponentCategorie struct {
Key int64 `json:"_key"`
Name Name `json:"name"`
}
type Name string
const (
Material Name = "Material"
Metallic Name = "Metallic"
Pattern Name = "Pattern"
)
// To parse the JSON, install kotlin's serialization plugin and do:
//
// val json = Json { allowStructuredMapKeys = true }
// val skinrComponentCategorie = json.parse(SkinrComponentCategorie.serializer(), jsonString)
package model
import kotlinx.serialization.*
import kotlinx.serialization.json.*
import kotlinx.serialization.descriptors.*
import kotlinx.serialization.encoding.*
@Serializable
data class SkinrComponentCategorie (
@SerialName("_key")
val key: Long,
val name: Name
)
@Serializable
enum class Name(val value: String) {
@SerialName("Material") Material("Material"),
@SerialName("Metallic") Metallic("Metallic"),
@SerialName("Pattern") Pattern("Pattern");
}
<?php
// This is a autogenerated file:SkinrComponentCategorie
class SkinrComponentCategorie {
private int $key; // json:_key Required
private Name $name; // json:name Required
/**
* @param int $key
* @param Name $name
*/
public function __construct(int $key, Name $name) {
$this->key = $key;
$this->name = $name;
}
/**
* @param int $value
* @throws Exception
* @return int
*/
public static function fromKey(int $value): int {
return $value; /*int*/
}
/**
* @throws Exception
* @return int
*/
public function toKey(): int {
if (SkinrComponentCategorie::validateKey($this->key)) {
return $this->key; /*int*/
}
throw new Exception('never get to this SkinrComponentCategorie::key');
}
/**
* @param int
* @return bool
* @throws Exception
*/
public static function validateKey(int $value): bool {
if (!is_integer($value)) {
throw new Exception("Attribute Error:SkinrComponentCategorie::key");
}
return true;
}
/**
* @throws Exception
* @return int
*/
public function getKey(): int {
if (SkinrComponentCategorie::validateKey($this->key)) {
return $this->key;
}
throw new Exception('never get to getKey SkinrComponentCategorie::key');
}
/**
* @return int
*/
public static function sampleKey(): int {
return 31; /*31:key*/
}
/**
* @param string $value
* @throws Exception
* @return Name
*/
public static function fromName(string $value): Name {
return Name::from($value); /*enum*/
}
/**
* @throws Exception
* @return string
*/
public function toName(): string {
if (SkinrComponentCategorie::validateName($this->name)) {
return Name::to($this->name); /*enum*/
}
throw new Exception('never get to this SkinrComponentCategorie::name');
}
/**
* @param Name
* @return bool
* @throws Exception
*/
public static function validateName(Name $value): bool {
Name::to($value);
return true;
}
/**
* @throws Exception
* @return Name
*/
public function getName(): Name {
if (SkinrComponentCategorie::validateName($this->name)) {
return $this->name;
}
throw new Exception('never get to getName SkinrComponentCategorie::name');
}
/**
* @return Name
*/
public static function sampleName(): Name {
return Name::sample(); /*enum*/
}
/**
* @throws Exception
* @return bool
*/
public function validate(): bool {
return SkinrComponentCategorie::validateKey($this->key)
|| SkinrComponentCategorie::validateName($this->name);
}
/**
* @return stdClass
* @throws Exception
*/
public function to(): stdClass {
$out = new stdClass();
$out->{'_key'} = $this->toKey();
$out->{'name'} = $this->toName();
return $out;
}
/**
* @param stdClass $obj
* @return SkinrComponentCategorie
* @throws Exception
*/
public static function from(stdClass $obj): SkinrComponentCategorie {
return new SkinrComponentCategorie(
SkinrComponentCategorie::fromKey($obj->{'_key'})
,SkinrComponentCategorie::fromName($obj->{'name'})
);
}
/**
* @return SkinrComponentCategorie
*/
public static function sample(): SkinrComponentCategorie {
return new SkinrComponentCategorie(
SkinrComponentCategorie::sampleKey()
,SkinrComponentCategorie::sampleName()
);
}
}
// This is a autogenerated file:Name
class Name {
public static Name $MATERIAL;
public static Name $METALLIC;
public static Name $PATTERN;
public static function init() {
Name::$MATERIAL = new Name('Material');
Name::$METALLIC = new Name('Metallic');
Name::$PATTERN = new Name('Pattern');
}
private string $enum;
public function __construct(string $enum) {
$this->enum = $enum;
}
/**
* @param Name
* @return string
* @throws Exception
*/
public static function to(Name $obj): string {
switch ($obj->enum) {
case Name::$MATERIAL->enum: return 'Material';
case Name::$METALLIC->enum: return 'Metallic';
case Name::$PATTERN->enum: return 'Pattern';
}
throw new Exception('the give value is not an enum-value.');
}
/**
* @param mixed
* @return Name
* @throws Exception
*/
public static function from($obj): Name {
switch ($obj) {
case 'Material': return Name::$MATERIAL;
case 'Metallic': return Name::$METALLIC;
case 'Pattern': return Name::$PATTERN;
}
throw new Exception("Cannot deserialize Name");
}
/**
* @return Name
*/
public static function sample(): Name {
return Name::$MATERIAL;
}
}
Name::init();
from enum import Enum
from typing import Any, TypeVar, Type, cast
T = TypeVar("T")
EnumT = TypeVar("EnumT", bound=Enum)
def from_int(x: Any) -> int:
assert isinstance(x, int) and not isinstance(x, bool)
return x
def to_enum(c: Type[EnumT], x: Any) -> EnumT:
assert isinstance(x, c)
return x.value
def to_class(c: Type[T], x: Any) -> dict:
assert isinstance(x, c)
return cast(Any, x).to_dict()
class Name(Enum):
MATERIAL = "Material"
METALLIC = "Metallic"
PATTERN = "Pattern"
class SkinrComponentCategorie:
key: int
name: Name
def __init__(self, key: int, name: Name) -> None:
self.key = key
self.name = name
@staticmethod
def from_dict(obj: Any) -> 'SkinrComponentCategorie':
assert isinstance(obj, dict)
key = from_int(obj.get("_key"))
name = Name(obj.get("name"))
return SkinrComponentCategorie(key, name)
def to_dict(self) -> dict:
result: dict = {}
result["_key"] = from_int(self.key)
result["name"] = to_enum(Name, self.name)
return result
def skinr_component_categorie_from_dict(s: Any) -> SkinrComponentCategorie:
return SkinrComponentCategorie.from_dict(s)
def skinr_component_categorie_to_dict(x: SkinrComponentCategorie) -> Any:
return to_class(SkinrComponentCategorie, x)
// To parse this data:
//
// import { Convert, SkinrComponentCategorie } from "./file";
//
// const skinrComponentCategorie = Convert.toSkinrComponentCategorie(json);
//
// These functions will throw an error if the JSON doesn't
// match the expected interface, even if the JSON is valid.
export interface SkinrComponentCategorie {
_key: number;
name: Name;
[property: string]: any;
}
export enum Name {
Material = "Material",
Metallic = "Metallic",
Pattern = "Pattern",
}
// Converts JSON strings to/from your types
// and asserts the results of JSON.parse at runtime
export class Convert {
public static toSkinrComponentCategorie(json: string): SkinrComponentCategorie {
return cast(JSON.parse(json), r("SkinrComponentCategorie"));
}
public static skinrComponentCategorieToJson(value: SkinrComponentCategorie): string {
return JSON.stringify(uncast(value, r("SkinrComponentCategorie")), null, 2);
}
}
function invalidValue(typ: any, val: any, key: any, parent: any = ''): never {
const prettyTyp = prettyTypeName(typ);
const parentText = parent ? ` on ${parent}` : '';
const keyText = key ? ` for key "${key}"` : '';
throw Error(`Invalid value${keyText}${parentText}. Expected ${prettyTyp} but got ${JSON.stringify(val)}`);
}
function prettyTypeName(typ: any): string {
if (Array.isArray(typ)) {
if (typ.length === 2 && typ[0] === undefined) {
return `an optional ${prettyTypeName(typ[1])}`;
} else {
return `one of [${typ.map(a => { return prettyTypeName(a); }).join(", ")}]`;
}
} else if (typeof typ === "object" && typ.literal !== undefined) {
return typ.literal;
} else {
return typeof typ;
}
}
function jsonToJSProps(typ: any): any {
if (typ.jsonToJS === undefined) {
const map: any = {};
typ.props.forEach((p: any) => map[p.json] = { key: p.js, typ: p.typ });
typ.jsonToJS = map;
}
return typ.jsonToJS;
}
function jsToJSONProps(typ: any): any {
if (typ.jsToJSON === undefined) {
const map: any = {};
typ.props.forEach((p: any) => map[p.js] = { key: p.json, typ: p.typ });
typ.jsToJSON = map;
}
return typ.jsToJSON;
}
function transform(val: any, typ: any, getProps: any, key: any = '', parent: any = ''): any {
function transformPrimitive(typ: string, val: any): any {
if (typeof typ === typeof val) return val;
return invalidValue(typ, val, key, parent);
}
function transformUnion(typs: any[], val: any): any {
// val must validate against one typ in typs
const l = typs.length;
for (let i = 0; i < l; i++) {
const typ = typs[i];
try {
return transform(val, typ, getProps);
} catch (_) {}
}
return invalidValue(typs, val, key, parent);
}
function transformEnum(cases: string[], val: any): any {
if (cases.indexOf(val) !== -1) return val;
return invalidValue(cases.map(a => { return l(a); }), val, key, parent);
}
function transformArray(typ: any, val: any): any {
// val must be an array with no invalid elements
if (!Array.isArray(val)) return invalidValue(l("array"), val, key, parent);
return val.map(el => transform(el, typ, getProps));
}
function transformDate(val: any): any {
if (val === null) {
return null;
}
const d = new Date(val);
if (isNaN(d.valueOf())) {
return invalidValue(l("Date"), val, key, parent);
}
return d;
}
function transformObject(props: { [k: string]: any }, additional: any, val: any): any {
if (val === null || typeof val !== "object" || Array.isArray(val)) {
return invalidValue(l(ref || "object"), val, key, parent);
}
const result: any = {};
Object.getOwnPropertyNames(props).forEach(key => {
const prop = props[key];
const v = Object.prototype.hasOwnProperty.call(val, key) ? val[key] : undefined;
result[prop.key] = transform(v, prop.typ, getProps, key, ref);
});
Object.getOwnPropertyNames(val).forEach(key => {
if (!Object.prototype.hasOwnProperty.call(props, key)) {
result[key] = transform(val[key], additional, getProps, key, ref);
}
});
return result;
}
if (typ === "any") return val;
if (typ === null) {
if (val === null) return val;
return invalidValue(typ, val, key, parent);
}
if (typ === false) return invalidValue(typ, val, key, parent);
let ref: any = undefined;
while (typeof typ === "object" && typ.ref !== undefined) {
ref = typ.ref;
typ = typeMap[typ.ref];
}
if (Array.isArray(typ)) return transformEnum(typ, val);
if (typeof typ === "object") {
return typ.hasOwnProperty("unionMembers") ? transformUnion(typ.unionMembers, val)
: typ.hasOwnProperty("arrayItems") ? transformArray(typ.arrayItems, val)
: typ.hasOwnProperty("props") ? transformObject(getProps(typ), typ.additional, val)
: invalidValue(typ, val, key, parent);
}
// Numbers can be parsed by Date but shouldn't be.
if (typ === Date && typeof val !== "number") return transformDate(val);
return transformPrimitive(typ, val);
}
function cast<T>(val: any, typ: any): T {
return transform(val, typ, jsonToJSProps);
}
function uncast<T>(val: T, typ: any): any {
return transform(val, typ, jsToJSONProps);
}
function l(typ: any) {
return { literal: typ };
}
function a(typ: any) {
return { arrayItems: typ };
}
function u(...typs: any[]) {
return { unionMembers: typs };
}
function o(props: any[], additional: any) {
return { props, additional };
}
function m(additional: any) {
return { props: [], additional };
}
function r(name: string) {
return { ref: name };
}
const typeMap: any = {
"SkinrComponentCategorie": o([
{ json: "_key", js: "_key", typ: 0 },
{ json: "name", js: "name", typ: r("Name") },
], "any"),
"Name": [
"Material",
"Metallic",
"Pattern",
],
};