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Gemini-Search/node_modules/drizzle-kit/utils.mjs
Ammaar Reshi d6025af146 Initial commit
2025-01-04 14:06:53 +00:00

5876 lines
177 KiB
JavaScript
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#!/usr/bin/env node
var __create = Object.create;
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __getProtoOf = Object.getPrototypeOf;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __require = /* @__PURE__ */ ((x) => typeof require !== "undefined" ? require : typeof Proxy !== "undefined" ? new Proxy(x, {
get: (a, b) => (typeof require !== "undefined" ? require : a)[b]
}) : x)(function(x) {
if (typeof require !== "undefined")
return require.apply(this, arguments);
throw Error('Dynamic require of "' + x + '" is not supported');
});
var __commonJS = (cb, mod) => function __require2() {
return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports;
};
var __copyProps = (to, from, except, desc) => {
if (from && typeof from === "object" || typeof from === "function") {
for (let key of __getOwnPropNames(from))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
}
return to;
};
var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps(
// If the importer is in node compatibility mode or this is not an ESM
// file that has been converted to a CommonJS file using a Babel-
// compatible transform (i.e. "__esModule" has not been set), then set
// "default" to the CommonJS "module.exports" for node compatibility.
isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target,
mod
));
// ../node_modules/.pnpm/hanji@0.0.5/node_modules/hanji/readline.js
var require_readline = __commonJS({
"../node_modules/.pnpm/hanji@0.0.5/node_modules/hanji/readline.js"(exports) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.prepareReadLine = void 0;
var prepareReadLine = () => {
const stdin = process.stdin;
const stdout = process.stdout;
const readline = __require("readline");
const rl = readline.createInterface({
input: stdin,
escapeCodeTimeout: 50
});
readline.emitKeypressEvents(stdin, rl);
return {
stdin,
stdout,
closable: rl
};
};
exports.prepareReadLine = prepareReadLine;
}
});
// ../node_modules/.pnpm/sisteransi@1.0.5/node_modules/sisteransi/src/index.js
var require_src = __commonJS({
"../node_modules/.pnpm/sisteransi@1.0.5/node_modules/sisteransi/src/index.js"(exports, module) {
"use strict";
var ESC = "\x1B";
var CSI = `${ESC}[`;
var beep = "\x07";
var cursor = {
to(x, y) {
if (!y)
return `${CSI}${x + 1}G`;
return `${CSI}${y + 1};${x + 1}H`;
},
move(x, y) {
let ret = "";
if (x < 0)
ret += `${CSI}${-x}D`;
else if (x > 0)
ret += `${CSI}${x}C`;
if (y < 0)
ret += `${CSI}${-y}A`;
else if (y > 0)
ret += `${CSI}${y}B`;
return ret;
},
up: (count = 1) => `${CSI}${count}A`,
down: (count = 1) => `${CSI}${count}B`,
forward: (count = 1) => `${CSI}${count}C`,
backward: (count = 1) => `${CSI}${count}D`,
nextLine: (count = 1) => `${CSI}E`.repeat(count),
prevLine: (count = 1) => `${CSI}F`.repeat(count),
left: `${CSI}G`,
hide: `${CSI}?25l`,
show: `${CSI}?25h`,
save: `${ESC}7`,
restore: `${ESC}8`
};
var scroll = {
up: (count = 1) => `${CSI}S`.repeat(count),
down: (count = 1) => `${CSI}T`.repeat(count)
};
var erase = {
screen: `${CSI}2J`,
up: (count = 1) => `${CSI}1J`.repeat(count),
down: (count = 1) => `${CSI}J`.repeat(count),
line: `${CSI}2K`,
lineEnd: `${CSI}K`,
lineStart: `${CSI}1K`,
lines(count) {
let clear = "";
for (let i = 0; i < count; i++)
clear += this.line + (i < count - 1 ? cursor.up() : "");
if (count)
clear += cursor.left;
return clear;
}
};
module.exports = { cursor, scroll, erase, beep };
}
});
// ../node_modules/.pnpm/hanji@0.0.5/node_modules/hanji/utils.js
var require_utils = __commonJS({
"../node_modules/.pnpm/hanji@0.0.5/node_modules/hanji/utils.js"(exports) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.clear = void 0;
var sisteransi_1 = require_src();
var strip = (str) => {
const pattern = [
"[\\u001B\\u009B][[\\]()#;?]*(?:(?:(?:(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]+)*|[a-zA-Z\\d]+(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]*)*)?\\u0007)",
"(?:(?:\\d{1,4}(?:;\\d{0,4})*)?[\\dA-PRZcf-ntqry=><~]))"
].join("|");
const RGX = new RegExp(pattern, "g");
return typeof str === "string" ? str.replace(RGX, "") : str;
};
var stringWidth = (str) => [...strip(str)].length;
var clear = function(prompt, perLine) {
if (!perLine)
return sisteransi_1.erase.line + sisteransi_1.cursor.to(0);
let rows = 0;
const lines = prompt.split(/\r?\n/);
for (let line of lines) {
rows += 1 + Math.floor(Math.max(stringWidth(line) - 1, 0) / perLine);
}
return sisteransi_1.erase.lines(rows);
};
exports.clear = clear;
}
});
// ../node_modules/.pnpm/lodash.throttle@4.1.1/node_modules/lodash.throttle/index.js
var require_lodash = __commonJS({
"../node_modules/.pnpm/lodash.throttle@4.1.1/node_modules/lodash.throttle/index.js"(exports, module) {
var FUNC_ERROR_TEXT = "Expected a function";
var NAN = 0 / 0;
var symbolTag = "[object Symbol]";
var reTrim = /^\s+|\s+$/g;
var reIsBadHex = /^[-+]0x[0-9a-f]+$/i;
var reIsBinary = /^0b[01]+$/i;
var reIsOctal = /^0o[0-7]+$/i;
var freeParseInt = parseInt;
var freeGlobal = typeof global == "object" && global && global.Object === Object && global;
var freeSelf = typeof self == "object" && self && self.Object === Object && self;
var root = freeGlobal || freeSelf || Function("return this")();
var objectProto = Object.prototype;
var objectToString = objectProto.toString;
var nativeMax = Math.max;
var nativeMin = Math.min;
var now = function() {
return root.Date.now();
};
function debounce(func, wait, options) {
var lastArgs, lastThis, maxWait, result, timerId, lastCallTime, lastInvokeTime = 0, leading = false, maxing = false, trailing = true;
if (typeof func != "function") {
throw new TypeError(FUNC_ERROR_TEXT);
}
wait = toNumber(wait) || 0;
if (isObject(options)) {
leading = !!options.leading;
maxing = "maxWait" in options;
maxWait = maxing ? nativeMax(toNumber(options.maxWait) || 0, wait) : maxWait;
trailing = "trailing" in options ? !!options.trailing : trailing;
}
function invokeFunc(time) {
var args = lastArgs, thisArg = lastThis;
lastArgs = lastThis = void 0;
lastInvokeTime = time;
result = func.apply(thisArg, args);
return result;
}
function leadingEdge(time) {
lastInvokeTime = time;
timerId = setTimeout(timerExpired, wait);
return leading ? invokeFunc(time) : result;
}
function remainingWait(time) {
var timeSinceLastCall = time - lastCallTime, timeSinceLastInvoke = time - lastInvokeTime, result2 = wait - timeSinceLastCall;
return maxing ? nativeMin(result2, maxWait - timeSinceLastInvoke) : result2;
}
function shouldInvoke(time) {
var timeSinceLastCall = time - lastCallTime, timeSinceLastInvoke = time - lastInvokeTime;
return lastCallTime === void 0 || timeSinceLastCall >= wait || timeSinceLastCall < 0 || maxing && timeSinceLastInvoke >= maxWait;
}
function timerExpired() {
var time = now();
if (shouldInvoke(time)) {
return trailingEdge(time);
}
timerId = setTimeout(timerExpired, remainingWait(time));
}
function trailingEdge(time) {
timerId = void 0;
if (trailing && lastArgs) {
return invokeFunc(time);
}
lastArgs = lastThis = void 0;
return result;
}
function cancel() {
if (timerId !== void 0) {
clearTimeout(timerId);
}
lastInvokeTime = 0;
lastArgs = lastCallTime = lastThis = timerId = void 0;
}
function flush() {
return timerId === void 0 ? result : trailingEdge(now());
}
function debounced() {
var time = now(), isInvoking = shouldInvoke(time);
lastArgs = arguments;
lastThis = this;
lastCallTime = time;
if (isInvoking) {
if (timerId === void 0) {
return leadingEdge(lastCallTime);
}
if (maxing) {
timerId = setTimeout(timerExpired, wait);
return invokeFunc(lastCallTime);
}
}
if (timerId === void 0) {
timerId = setTimeout(timerExpired, wait);
}
return result;
}
debounced.cancel = cancel;
debounced.flush = flush;
return debounced;
}
function throttle(func, wait, options) {
var leading = true, trailing = true;
if (typeof func != "function") {
throw new TypeError(FUNC_ERROR_TEXT);
}
if (isObject(options)) {
leading = "leading" in options ? !!options.leading : leading;
trailing = "trailing" in options ? !!options.trailing : trailing;
}
return debounce(func, wait, {
"leading": leading,
"maxWait": wait,
"trailing": trailing
});
}
function isObject(value) {
var type = typeof value;
return !!value && (type == "object" || type == "function");
}
function isObjectLike(value) {
return !!value && typeof value == "object";
}
function isSymbol(value) {
return typeof value == "symbol" || isObjectLike(value) && objectToString.call(value) == symbolTag;
}
function toNumber(value) {
if (typeof value == "number") {
return value;
}
if (isSymbol(value)) {
return NAN;
}
if (isObject(value)) {
var other = typeof value.valueOf == "function" ? value.valueOf() : value;
value = isObject(other) ? other + "" : other;
}
if (typeof value != "string") {
return value === 0 ? value : +value;
}
value = value.replace(reTrim, "");
var isBinary = reIsBinary.test(value);
return isBinary || reIsOctal.test(value) ? freeParseInt(value.slice(2), isBinary ? 2 : 8) : reIsBadHex.test(value) ? NAN : +value;
}
module.exports = throttle;
}
});
// ../node_modules/.pnpm/hanji@0.0.5/node_modules/hanji/index.js
var require_hanji = __commonJS({
"../node_modules/.pnpm/hanji@0.0.5/node_modules/hanji/index.js"(exports) {
"use strict";
var __awaiter = exports && exports.__awaiter || function(thisArg, _arguments, P, generator) {
function adopt(value) {
return value instanceof P ? value : new P(function(resolve) {
resolve(value);
});
}
return new (P || (P = Promise))(function(resolve, reject) {
function fulfilled(value) {
try {
step(generator.next(value));
} catch (e) {
reject(e);
}
}
function rejected(value) {
try {
step(generator["throw"](value));
} catch (e) {
reject(e);
}
}
function step(result) {
result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected);
}
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __importDefault = exports && exports.__importDefault || function(mod) {
return mod && mod.__esModule ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", { value: true });
exports.onTerminate = exports.renderWithTask = exports.render = exports.TaskTerminal = exports.TaskView = exports.Terminal = exports.deferred = exports.SelectState = exports.Prompt = void 0;
var readline_1 = require_readline();
var sisteransi_1 = require_src();
var utils_1 = require_utils();
var lodash_throttle_1 = __importDefault(require_lodash());
var Prompt2 = class {
constructor() {
this.attachCallbacks = [];
this.detachCallbacks = [];
this.inputCallbacks = [];
}
requestLayout() {
this.terminal.requestLayout();
}
on(type, callback) {
if (type === "attach") {
this.attachCallbacks.push(callback);
} else if (type === "detach") {
this.detachCallbacks.push(callback);
} else if (type === "input") {
this.inputCallbacks.push(callback);
}
}
attach(terminal) {
this.terminal = terminal;
this.attachCallbacks.forEach((it) => it(terminal));
}
detach(terminal) {
this.detachCallbacks.forEach((it) => it(terminal));
this.terminal = void 0;
}
input(str, key) {
this.inputCallbacks.forEach((it) => it(str, key));
}
};
exports.Prompt = Prompt2;
var SelectState2 = class {
constructor(items) {
this.items = items;
this.selectedIdx = 0;
}
bind(prompt) {
prompt.on("input", (str, key) => {
const invalidate = this.consume(str, key);
if (invalidate)
prompt.requestLayout();
});
}
consume(str, key) {
if (!key)
return false;
if (key.name === "down") {
this.selectedIdx = (this.selectedIdx + 1) % this.items.length;
return true;
}
if (key.name === "up") {
this.selectedIdx -= 1;
this.selectedIdx = this.selectedIdx < 0 ? this.items.length - 1 : this.selectedIdx;
return true;
}
return false;
}
};
exports.SelectState = SelectState2;
var deferred = () => {
let resolve;
let reject;
const promise = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
return {
resolve,
reject,
promise
};
};
exports.deferred = deferred;
var Terminal = class {
constructor(view4, stdin, stdout, closable) {
this.view = view4;
this.stdin = stdin;
this.stdout = stdout;
this.closable = closable;
this.text = "";
this.status = "idle";
if (this.stdin.isTTY)
this.stdin.setRawMode(true);
const keypress = (str, key) => {
if (key.name === "c" && key.ctrl === true) {
this.requestLayout();
this.view.detach(this);
this.tearDown(keypress);
if (terminateHandler) {
terminateHandler(this.stdin, this.stdout);
return;
}
this.stdout.write(`
^C
`);
process.exit(1);
}
if (key.name === "escape") {
this.status = "aborted";
this.requestLayout();
this.view.detach(this);
this.tearDown(keypress);
this.resolve({ status: "aborted", data: void 0 });
return;
}
if (key.name === "return") {
this.status = "submitted";
this.requestLayout();
this.view.detach(this);
this.tearDown(keypress);
this.resolve({ status: "submitted", data: this.view.result() });
return;
}
view4.input(str, key);
};
this.stdin.on("keypress", keypress);
this.view.attach(this);
const { resolve, promise } = (0, exports.deferred)();
this.resolve = resolve;
this.promise = promise;
this.renderFunc = (0, lodash_throttle_1.default)((str) => {
this.stdout.write(str);
});
}
tearDown(keypress) {
this.stdout.write(sisteransi_1.cursor.show);
this.stdin.removeListener("keypress", keypress);
if (this.stdin.isTTY)
this.stdin.setRawMode(false);
this.closable.close();
}
result() {
return this.promise;
}
toggleCursor(state) {
if (state === "hide") {
this.stdout.write(sisteransi_1.cursor.hide);
} else {
this.stdout.write(sisteransi_1.cursor.show);
}
}
requestLayout() {
const string = this.view.render(this.status);
const clearPrefix = this.text ? (0, utils_1.clear)(this.text, this.stdout.columns) : "";
this.text = string;
this.renderFunc(`${clearPrefix}${string}`);
}
};
exports.Terminal = Terminal;
var TaskView2 = class {
constructor() {
this.attachCallbacks = [];
this.detachCallbacks = [];
}
requestLayout() {
this.terminal.requestLayout();
}
attach(terminal) {
this.terminal = terminal;
this.attachCallbacks.forEach((it) => it(terminal));
}
detach(terminal) {
this.detachCallbacks.forEach((it) => it(terminal));
this.terminal = void 0;
}
on(type, callback) {
if (type === "attach") {
this.attachCallbacks.push(callback);
} else if (type === "detach") {
this.detachCallbacks.push(callback);
}
}
};
exports.TaskView = TaskView2;
var TaskTerminal = class {
constructor(view4, stdout) {
this.view = view4;
this.stdout = stdout;
this.text = "";
this.view.attach(this);
}
requestLayout() {
const string = this.view.render("pending");
const clearPrefix = this.text ? (0, utils_1.clear)(this.text, this.stdout.columns) : "";
this.text = string;
this.stdout.write(`${clearPrefix}${string}`);
}
clear() {
const string = this.view.render("done");
this.view.detach(this);
const clearPrefix = this.text ? (0, utils_1.clear)(this.text, this.stdout.columns) : "";
this.stdout.write(`${clearPrefix}${string}`);
}
};
exports.TaskTerminal = TaskTerminal;
function render2(view4) {
const { stdin, stdout, closable } = (0, readline_1.prepareReadLine)();
if (view4 instanceof Prompt2) {
const terminal = new Terminal(view4, stdin, stdout, closable);
terminal.requestLayout();
return terminal.result();
}
stdout.write(`${view4}
`);
closable.close();
return;
}
exports.render = render2;
function renderWithTask(view4, task) {
return __awaiter(this, void 0, void 0, function* () {
const terminal = new TaskTerminal(view4, process.stdout);
terminal.requestLayout();
const result = yield task;
terminal.clear();
return result;
});
}
exports.renderWithTask = renderWithTask;
var terminateHandler;
function onTerminate(callback) {
terminateHandler = callback;
}
exports.onTerminate = onTerminate;
}
});
// ../node_modules/.pnpm/chalk@5.3.0/node_modules/chalk/source/vendor/ansi-styles/index.js
var ANSI_BACKGROUND_OFFSET = 10;
var wrapAnsi16 = (offset = 0) => (code) => `\x1B[${code + offset}m`;
var wrapAnsi256 = (offset = 0) => (code) => `\x1B[${38 + offset};5;${code}m`;
var wrapAnsi16m = (offset = 0) => (red, green, blue) => `\x1B[${38 + offset};2;${red};${green};${blue}m`;
var styles = {
modifier: {
reset: [0, 0],
// 21 isn't widely supported and 22 does the same thing
bold: [1, 22],
dim: [2, 22],
italic: [3, 23],
underline: [4, 24],
overline: [53, 55],
inverse: [7, 27],
hidden: [8, 28],
strikethrough: [9, 29]
},
color: {
black: [30, 39],
red: [31, 39],
green: [32, 39],
yellow: [33, 39],
blue: [34, 39],
magenta: [35, 39],
cyan: [36, 39],
white: [37, 39],
// Bright color
blackBright: [90, 39],
gray: [90, 39],
// Alias of `blackBright`
grey: [90, 39],
// Alias of `blackBright`
redBright: [91, 39],
greenBright: [92, 39],
yellowBright: [93, 39],
blueBright: [94, 39],
magentaBright: [95, 39],
cyanBright: [96, 39],
whiteBright: [97, 39]
},
bgColor: {
bgBlack: [40, 49],
bgRed: [41, 49],
bgGreen: [42, 49],
bgYellow: [43, 49],
bgBlue: [44, 49],
bgMagenta: [45, 49],
bgCyan: [46, 49],
bgWhite: [47, 49],
// Bright color
bgBlackBright: [100, 49],
bgGray: [100, 49],
// Alias of `bgBlackBright`
bgGrey: [100, 49],
// Alias of `bgBlackBright`
bgRedBright: [101, 49],
bgGreenBright: [102, 49],
bgYellowBright: [103, 49],
bgBlueBright: [104, 49],
bgMagentaBright: [105, 49],
bgCyanBright: [106, 49],
bgWhiteBright: [107, 49]
}
};
var modifierNames = Object.keys(styles.modifier);
var foregroundColorNames = Object.keys(styles.color);
var backgroundColorNames = Object.keys(styles.bgColor);
var colorNames = [...foregroundColorNames, ...backgroundColorNames];
function assembleStyles() {
const codes = /* @__PURE__ */ new Map();
for (const [groupName, group] of Object.entries(styles)) {
for (const [styleName, style] of Object.entries(group)) {
styles[styleName] = {
open: `\x1B[${style[0]}m`,
close: `\x1B[${style[1]}m`
};
group[styleName] = styles[styleName];
codes.set(style[0], style[1]);
}
Object.defineProperty(styles, groupName, {
value: group,
enumerable: false
});
}
Object.defineProperty(styles, "codes", {
value: codes,
enumerable: false
});
styles.color.close = "\x1B[39m";
styles.bgColor.close = "\x1B[49m";
styles.color.ansi = wrapAnsi16();
styles.color.ansi256 = wrapAnsi256();
styles.color.ansi16m = wrapAnsi16m();
styles.bgColor.ansi = wrapAnsi16(ANSI_BACKGROUND_OFFSET);
styles.bgColor.ansi256 = wrapAnsi256(ANSI_BACKGROUND_OFFSET);
styles.bgColor.ansi16m = wrapAnsi16m(ANSI_BACKGROUND_OFFSET);
Object.defineProperties(styles, {
rgbToAnsi256: {
value(red, green, blue) {
if (red === green && green === blue) {
if (red < 8) {
return 16;
}
if (red > 248) {
return 231;
}
return Math.round((red - 8) / 247 * 24) + 232;
}
return 16 + 36 * Math.round(red / 255 * 5) + 6 * Math.round(green / 255 * 5) + Math.round(blue / 255 * 5);
},
enumerable: false
},
hexToRgb: {
value(hex) {
const matches = /[a-f\d]{6}|[a-f\d]{3}/i.exec(hex.toString(16));
if (!matches) {
return [0, 0, 0];
}
let [colorString] = matches;
if (colorString.length === 3) {
colorString = [...colorString].map((character) => character + character).join("");
}
const integer = Number.parseInt(colorString, 16);
return [
/* eslint-disable no-bitwise */
integer >> 16 & 255,
integer >> 8 & 255,
integer & 255
/* eslint-enable no-bitwise */
];
},
enumerable: false
},
hexToAnsi256: {
value: (hex) => styles.rgbToAnsi256(...styles.hexToRgb(hex)),
enumerable: false
},
ansi256ToAnsi: {
value(code) {
if (code < 8) {
return 30 + code;
}
if (code < 16) {
return 90 + (code - 8);
}
let red;
let green;
let blue;
if (code >= 232) {
red = ((code - 232) * 10 + 8) / 255;
green = red;
blue = red;
} else {
code -= 16;
const remainder = code % 36;
red = Math.floor(code / 36) / 5;
green = Math.floor(remainder / 6) / 5;
blue = remainder % 6 / 5;
}
const value = Math.max(red, green, blue) * 2;
if (value === 0) {
return 30;
}
let result = 30 + (Math.round(blue) << 2 | Math.round(green) << 1 | Math.round(red));
if (value === 2) {
result += 60;
}
return result;
},
enumerable: false
},
rgbToAnsi: {
value: (red, green, blue) => styles.ansi256ToAnsi(styles.rgbToAnsi256(red, green, blue)),
enumerable: false
},
hexToAnsi: {
value: (hex) => styles.ansi256ToAnsi(styles.hexToAnsi256(hex)),
enumerable: false
}
});
return styles;
}
var ansiStyles = assembleStyles();
var ansi_styles_default = ansiStyles;
// ../node_modules/.pnpm/chalk@5.3.0/node_modules/chalk/source/vendor/supports-color/index.js
import process2 from "node:process";
import os from "node:os";
import tty from "node:tty";
function hasFlag(flag, argv = globalThis.Deno ? globalThis.Deno.args : process2.argv) {
const prefix = flag.startsWith("-") ? "" : flag.length === 1 ? "-" : "--";
const position = argv.indexOf(prefix + flag);
const terminatorPosition = argv.indexOf("--");
return position !== -1 && (terminatorPosition === -1 || position < terminatorPosition);
}
var { env } = process2;
var flagForceColor;
if (hasFlag("no-color") || hasFlag("no-colors") || hasFlag("color=false") || hasFlag("color=never")) {
flagForceColor = 0;
} else if (hasFlag("color") || hasFlag("colors") || hasFlag("color=true") || hasFlag("color=always")) {
flagForceColor = 1;
}
function envForceColor() {
if ("FORCE_COLOR" in env) {
if (env.FORCE_COLOR === "true") {
return 1;
}
if (env.FORCE_COLOR === "false") {
return 0;
}
return env.FORCE_COLOR.length === 0 ? 1 : Math.min(Number.parseInt(env.FORCE_COLOR, 10), 3);
}
}
function translateLevel(level) {
if (level === 0) {
return false;
}
return {
level,
hasBasic: true,
has256: level >= 2,
has16m: level >= 3
};
}
function _supportsColor(haveStream, { streamIsTTY, sniffFlags = true } = {}) {
const noFlagForceColor = envForceColor();
if (noFlagForceColor !== void 0) {
flagForceColor = noFlagForceColor;
}
const forceColor = sniffFlags ? flagForceColor : noFlagForceColor;
if (forceColor === 0) {
return 0;
}
if (sniffFlags) {
if (hasFlag("color=16m") || hasFlag("color=full") || hasFlag("color=truecolor")) {
return 3;
}
if (hasFlag("color=256")) {
return 2;
}
}
if ("TF_BUILD" in env && "AGENT_NAME" in env) {
return 1;
}
if (haveStream && !streamIsTTY && forceColor === void 0) {
return 0;
}
const min = forceColor || 0;
if (env.TERM === "dumb") {
return min;
}
if (process2.platform === "win32") {
const osRelease = os.release().split(".");
if (Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10586) {
return Number(osRelease[2]) >= 14931 ? 3 : 2;
}
return 1;
}
if ("CI" in env) {
if ("GITHUB_ACTIONS" in env || "GITEA_ACTIONS" in env) {
return 3;
}
if (["TRAVIS", "CIRCLECI", "APPVEYOR", "GITLAB_CI", "BUILDKITE", "DRONE"].some((sign) => sign in env) || env.CI_NAME === "codeship") {
return 1;
}
return min;
}
if ("TEAMCITY_VERSION" in env) {
return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env.TEAMCITY_VERSION) ? 1 : 0;
}
if (env.COLORTERM === "truecolor") {
return 3;
}
if (env.TERM === "xterm-kitty") {
return 3;
}
if ("TERM_PROGRAM" in env) {
const version = Number.parseInt((env.TERM_PROGRAM_VERSION || "").split(".")[0], 10);
switch (env.TERM_PROGRAM) {
case "iTerm.app": {
return version >= 3 ? 3 : 2;
}
case "Apple_Terminal": {
return 2;
}
}
}
if (/-256(color)?$/i.test(env.TERM)) {
return 2;
}
if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env.TERM)) {
return 1;
}
if ("COLORTERM" in env) {
return 1;
}
return min;
}
function createSupportsColor(stream, options = {}) {
const level = _supportsColor(stream, {
streamIsTTY: stream && stream.isTTY,
...options
});
return translateLevel(level);
}
var supportsColor = {
stdout: createSupportsColor({ isTTY: tty.isatty(1) }),
stderr: createSupportsColor({ isTTY: tty.isatty(2) })
};
var supports_color_default = supportsColor;
// ../node_modules/.pnpm/chalk@5.3.0/node_modules/chalk/source/utilities.js
function stringReplaceAll(string, substring, replacer) {
let index4 = string.indexOf(substring);
if (index4 === -1) {
return string;
}
const substringLength = substring.length;
let endIndex = 0;
let returnValue = "";
do {
returnValue += string.slice(endIndex, index4) + substring + replacer;
endIndex = index4 + substringLength;
index4 = string.indexOf(substring, endIndex);
} while (index4 !== -1);
returnValue += string.slice(endIndex);
return returnValue;
}
function stringEncaseCRLFWithFirstIndex(string, prefix, postfix, index4) {
let endIndex = 0;
let returnValue = "";
do {
const gotCR = string[index4 - 1] === "\r";
returnValue += string.slice(endIndex, gotCR ? index4 - 1 : index4) + prefix + (gotCR ? "\r\n" : "\n") + postfix;
endIndex = index4 + 1;
index4 = string.indexOf("\n", endIndex);
} while (index4 !== -1);
returnValue += string.slice(endIndex);
return returnValue;
}
// ../node_modules/.pnpm/chalk@5.3.0/node_modules/chalk/source/index.js
var { stdout: stdoutColor, stderr: stderrColor } = supports_color_default;
var GENERATOR = Symbol("GENERATOR");
var STYLER = Symbol("STYLER");
var IS_EMPTY = Symbol("IS_EMPTY");
var levelMapping = [
"ansi",
"ansi",
"ansi256",
"ansi16m"
];
var styles2 = /* @__PURE__ */ Object.create(null);
var applyOptions = (object, options = {}) => {
if (options.level && !(Number.isInteger(options.level) && options.level >= 0 && options.level <= 3)) {
throw new Error("The `level` option should be an integer from 0 to 3");
}
const colorLevel = stdoutColor ? stdoutColor.level : 0;
object.level = options.level === void 0 ? colorLevel : options.level;
};
var chalkFactory = (options) => {
const chalk2 = (...strings) => strings.join(" ");
applyOptions(chalk2, options);
Object.setPrototypeOf(chalk2, createChalk.prototype);
return chalk2;
};
function createChalk(options) {
return chalkFactory(options);
}
Object.setPrototypeOf(createChalk.prototype, Function.prototype);
for (const [styleName, style] of Object.entries(ansi_styles_default)) {
styles2[styleName] = {
get() {
const builder = createBuilder(this, createStyler(style.open, style.close, this[STYLER]), this[IS_EMPTY]);
Object.defineProperty(this, styleName, { value: builder });
return builder;
}
};
}
styles2.visible = {
get() {
const builder = createBuilder(this, this[STYLER], true);
Object.defineProperty(this, "visible", { value: builder });
return builder;
}
};
var getModelAnsi = (model, level, type, ...arguments_) => {
if (model === "rgb") {
if (level === "ansi16m") {
return ansi_styles_default[type].ansi16m(...arguments_);
}
if (level === "ansi256") {
return ansi_styles_default[type].ansi256(ansi_styles_default.rgbToAnsi256(...arguments_));
}
return ansi_styles_default[type].ansi(ansi_styles_default.rgbToAnsi(...arguments_));
}
if (model === "hex") {
return getModelAnsi("rgb", level, type, ...ansi_styles_default.hexToRgb(...arguments_));
}
return ansi_styles_default[type][model](...arguments_);
};
var usedModels = ["rgb", "hex", "ansi256"];
for (const model of usedModels) {
styles2[model] = {
get() {
const { level } = this;
return function(...arguments_) {
const styler = createStyler(getModelAnsi(model, levelMapping[level], "color", ...arguments_), ansi_styles_default.color.close, this[STYLER]);
return createBuilder(this, styler, this[IS_EMPTY]);
};
}
};
const bgModel = "bg" + model[0].toUpperCase() + model.slice(1);
styles2[bgModel] = {
get() {
const { level } = this;
return function(...arguments_) {
const styler = createStyler(getModelAnsi(model, levelMapping[level], "bgColor", ...arguments_), ansi_styles_default.bgColor.close, this[STYLER]);
return createBuilder(this, styler, this[IS_EMPTY]);
};
}
};
}
var proto = Object.defineProperties(() => {
}, {
...styles2,
level: {
enumerable: true,
get() {
return this[GENERATOR].level;
},
set(level) {
this[GENERATOR].level = level;
}
}
});
var createStyler = (open, close, parent) => {
let openAll;
let closeAll;
if (parent === void 0) {
openAll = open;
closeAll = close;
} else {
openAll = parent.openAll + open;
closeAll = close + parent.closeAll;
}
return {
open,
close,
openAll,
closeAll,
parent
};
};
var createBuilder = (self2, _styler, _isEmpty) => {
const builder = (...arguments_) => applyStyle(builder, arguments_.length === 1 ? "" + arguments_[0] : arguments_.join(" "));
Object.setPrototypeOf(builder, proto);
builder[GENERATOR] = self2;
builder[STYLER] = _styler;
builder[IS_EMPTY] = _isEmpty;
return builder;
};
var applyStyle = (self2, string) => {
if (self2.level <= 0 || !string) {
return self2[IS_EMPTY] ? "" : string;
}
let styler = self2[STYLER];
if (styler === void 0) {
return string;
}
const { openAll, closeAll } = styler;
if (string.includes("\x1B")) {
while (styler !== void 0) {
string = stringReplaceAll(string, styler.close, styler.open);
styler = styler.parent;
}
}
const lfIndex = string.indexOf("\n");
if (lfIndex !== -1) {
string = stringEncaseCRLFWithFirstIndex(string, closeAll, openAll, lfIndex);
}
return openAll + string + closeAll;
};
Object.defineProperties(createChalk.prototype, styles2);
var chalk = createChalk();
var chalkStderr = createChalk({ level: stderrColor ? stderrColor.level : 0 });
var source_default = chalk;
// src/utils.ts
import { existsSync, mkdirSync, readdirSync, readFileSync, writeFileSync } from "fs";
import { join } from "path";
import { parse } from "url";
// src/cli/views.ts
var import_hanji = __toESM(require_hanji());
var info = (msg, greyMsg = "") => {
return `${source_default.blue.bold("Info:")} ${msg} ${greyMsg ? source_default.grey(greyMsg) : ""}`.trim();
};
// src/global.ts
var originUUID = "00000000-0000-0000-0000-000000000000";
var snapshotVersion = "7";
function assertUnreachable(x) {
throw new Error("Didn't expect to get here");
}
// ../node_modules/.pnpm/zod@3.23.7/node_modules/zod/lib/index.mjs
var util;
(function(util2) {
util2.assertEqual = (val) => val;
function assertIs(_arg) {
}
util2.assertIs = assertIs;
function assertNever(_x) {
throw new Error();
}
util2.assertNever = assertNever;
util2.arrayToEnum = (items) => {
const obj = {};
for (const item of items) {
obj[item] = item;
}
return obj;
};
util2.getValidEnumValues = (obj) => {
const validKeys = util2.objectKeys(obj).filter((k) => typeof obj[obj[k]] !== "number");
const filtered = {};
for (const k of validKeys) {
filtered[k] = obj[k];
}
return util2.objectValues(filtered);
};
util2.objectValues = (obj) => {
return util2.objectKeys(obj).map(function(e) {
return obj[e];
});
};
util2.objectKeys = typeof Object.keys === "function" ? (obj) => Object.keys(obj) : (object) => {
const keys = [];
for (const key in object) {
if (Object.prototype.hasOwnProperty.call(object, key)) {
keys.push(key);
}
}
return keys;
};
util2.find = (arr, checker) => {
for (const item of arr) {
if (checker(item))
return item;
}
return void 0;
};
util2.isInteger = typeof Number.isInteger === "function" ? (val) => Number.isInteger(val) : (val) => typeof val === "number" && isFinite(val) && Math.floor(val) === val;
function joinValues(array, separator = " | ") {
return array.map((val) => typeof val === "string" ? `'${val}'` : val).join(separator);
}
util2.joinValues = joinValues;
util2.jsonStringifyReplacer = (_, value) => {
if (typeof value === "bigint") {
return value.toString();
}
return value;
};
})(util || (util = {}));
var objectUtil;
(function(objectUtil2) {
objectUtil2.mergeShapes = (first, second) => {
return {
...first,
...second
// second overwrites first
};
};
})(objectUtil || (objectUtil = {}));
var ZodParsedType = util.arrayToEnum([
"string",
"nan",
"number",
"integer",
"float",
"boolean",
"date",
"bigint",
"symbol",
"function",
"undefined",
"null",
"array",
"object",
"unknown",
"promise",
"void",
"never",
"map",
"set"
]);
var getParsedType = (data) => {
const t = typeof data;
switch (t) {
case "undefined":
return ZodParsedType.undefined;
case "string":
return ZodParsedType.string;
case "number":
return isNaN(data) ? ZodParsedType.nan : ZodParsedType.number;
case "boolean":
return ZodParsedType.boolean;
case "function":
return ZodParsedType.function;
case "bigint":
return ZodParsedType.bigint;
case "symbol":
return ZodParsedType.symbol;
case "object":
if (Array.isArray(data)) {
return ZodParsedType.array;
}
if (data === null) {
return ZodParsedType.null;
}
if (data.then && typeof data.then === "function" && data.catch && typeof data.catch === "function") {
return ZodParsedType.promise;
}
if (typeof Map !== "undefined" && data instanceof Map) {
return ZodParsedType.map;
}
if (typeof Set !== "undefined" && data instanceof Set) {
return ZodParsedType.set;
}
if (typeof Date !== "undefined" && data instanceof Date) {
return ZodParsedType.date;
}
return ZodParsedType.object;
default:
return ZodParsedType.unknown;
}
};
var ZodIssueCode = util.arrayToEnum([
"invalid_type",
"invalid_literal",
"custom",
"invalid_union",
"invalid_union_discriminator",
"invalid_enum_value",
"unrecognized_keys",
"invalid_arguments",
"invalid_return_type",
"invalid_date",
"invalid_string",
"too_small",
"too_big",
"invalid_intersection_types",
"not_multiple_of",
"not_finite"
]);
var ZodError = class _ZodError extends Error {
constructor(issues) {
super();
this.issues = [];
this.addIssue = (sub) => {
this.issues = [...this.issues, sub];
};
this.addIssues = (subs = []) => {
this.issues = [...this.issues, ...subs];
};
const actualProto = new.target.prototype;
if (Object.setPrototypeOf) {
Object.setPrototypeOf(this, actualProto);
} else {
this.__proto__ = actualProto;
}
this.name = "ZodError";
this.issues = issues;
}
get errors() {
return this.issues;
}
format(_mapper) {
const mapper = _mapper || function(issue) {
return issue.message;
};
const fieldErrors = { _errors: [] };
const processError = (error) => {
for (const issue of error.issues) {
if (issue.code === "invalid_union") {
issue.unionErrors.map(processError);
} else if (issue.code === "invalid_return_type") {
processError(issue.returnTypeError);
} else if (issue.code === "invalid_arguments") {
processError(issue.argumentsError);
} else if (issue.path.length === 0) {
fieldErrors._errors.push(mapper(issue));
} else {
let curr = fieldErrors;
let i = 0;
while (i < issue.path.length) {
const el = issue.path[i];
const terminal = i === issue.path.length - 1;
if (!terminal) {
curr[el] = curr[el] || { _errors: [] };
} else {
curr[el] = curr[el] || { _errors: [] };
curr[el]._errors.push(mapper(issue));
}
curr = curr[el];
i++;
}
}
}
};
processError(this);
return fieldErrors;
}
static assert(value) {
if (!(value instanceof _ZodError)) {
throw new Error(`Not a ZodError: ${value}`);
}
}
toString() {
return this.message;
}
get message() {
return JSON.stringify(this.issues, util.jsonStringifyReplacer, 2);
}
get isEmpty() {
return this.issues.length === 0;
}
flatten(mapper = (issue) => issue.message) {
const fieldErrors = {};
const formErrors = [];
for (const sub of this.issues) {
if (sub.path.length > 0) {
fieldErrors[sub.path[0]] = fieldErrors[sub.path[0]] || [];
fieldErrors[sub.path[0]].push(mapper(sub));
} else {
formErrors.push(mapper(sub));
}
}
return { formErrors, fieldErrors };
}
get formErrors() {
return this.flatten();
}
};
ZodError.create = (issues) => {
const error = new ZodError(issues);
return error;
};
var errorMap = (issue, _ctx) => {
let message;
switch (issue.code) {
case ZodIssueCode.invalid_type:
if (issue.received === ZodParsedType.undefined) {
message = "Required";
} else {
message = `Expected ${issue.expected}, received ${issue.received}`;
}
break;
case ZodIssueCode.invalid_literal:
message = `Invalid literal value, expected ${JSON.stringify(issue.expected, util.jsonStringifyReplacer)}`;
break;
case ZodIssueCode.unrecognized_keys:
message = `Unrecognized key(s) in object: ${util.joinValues(issue.keys, ", ")}`;
break;
case ZodIssueCode.invalid_union:
message = `Invalid input`;
break;
case ZodIssueCode.invalid_union_discriminator:
message = `Invalid discriminator value. Expected ${util.joinValues(issue.options)}`;
break;
case ZodIssueCode.invalid_enum_value:
message = `Invalid enum value. Expected ${util.joinValues(issue.options)}, received '${issue.received}'`;
break;
case ZodIssueCode.invalid_arguments:
message = `Invalid function arguments`;
break;
case ZodIssueCode.invalid_return_type:
message = `Invalid function return type`;
break;
case ZodIssueCode.invalid_date:
message = `Invalid date`;
break;
case ZodIssueCode.invalid_string:
if (typeof issue.validation === "object") {
if ("includes" in issue.validation) {
message = `Invalid input: must include "${issue.validation.includes}"`;
if (typeof issue.validation.position === "number") {
message = `${message} at one or more positions greater than or equal to ${issue.validation.position}`;
}
} else if ("startsWith" in issue.validation) {
message = `Invalid input: must start with "${issue.validation.startsWith}"`;
} else if ("endsWith" in issue.validation) {
message = `Invalid input: must end with "${issue.validation.endsWith}"`;
} else {
util.assertNever(issue.validation);
}
} else if (issue.validation !== "regex") {
message = `Invalid ${issue.validation}`;
} else {
message = "Invalid";
}
break;
case ZodIssueCode.too_small:
if (issue.type === "array")
message = `Array must contain ${issue.exact ? "exactly" : issue.inclusive ? `at least` : `more than`} ${issue.minimum} element(s)`;
else if (issue.type === "string")
message = `String must contain ${issue.exact ? "exactly" : issue.inclusive ? `at least` : `over`} ${issue.minimum} character(s)`;
else if (issue.type === "number")
message = `Number must be ${issue.exact ? `exactly equal to ` : issue.inclusive ? `greater than or equal to ` : `greater than `}${issue.minimum}`;
else if (issue.type === "date")
message = `Date must be ${issue.exact ? `exactly equal to ` : issue.inclusive ? `greater than or equal to ` : `greater than `}${new Date(Number(issue.minimum))}`;
else
message = "Invalid input";
break;
case ZodIssueCode.too_big:
if (issue.type === "array")
message = `Array must contain ${issue.exact ? `exactly` : issue.inclusive ? `at most` : `less than`} ${issue.maximum} element(s)`;
else if (issue.type === "string")
message = `String must contain ${issue.exact ? `exactly` : issue.inclusive ? `at most` : `under`} ${issue.maximum} character(s)`;
else if (issue.type === "number")
message = `Number must be ${issue.exact ? `exactly` : issue.inclusive ? `less than or equal to` : `less than`} ${issue.maximum}`;
else if (issue.type === "bigint")
message = `BigInt must be ${issue.exact ? `exactly` : issue.inclusive ? `less than or equal to` : `less than`} ${issue.maximum}`;
else if (issue.type === "date")
message = `Date must be ${issue.exact ? `exactly` : issue.inclusive ? `smaller than or equal to` : `smaller than`} ${new Date(Number(issue.maximum))}`;
else
message = "Invalid input";
break;
case ZodIssueCode.custom:
message = `Invalid input`;
break;
case ZodIssueCode.invalid_intersection_types:
message = `Intersection results could not be merged`;
break;
case ZodIssueCode.not_multiple_of:
message = `Number must be a multiple of ${issue.multipleOf}`;
break;
case ZodIssueCode.not_finite:
message = "Number must be finite";
break;
default:
message = _ctx.defaultError;
util.assertNever(issue);
}
return { message };
};
var overrideErrorMap = errorMap;
function getErrorMap() {
return overrideErrorMap;
}
var makeIssue = (params) => {
const { data, path, errorMaps, issueData } = params;
const fullPath = [...path, ...issueData.path || []];
const fullIssue = {
...issueData,
path: fullPath
};
if (issueData.message !== void 0) {
return {
...issueData,
path: fullPath,
message: issueData.message
};
}
let errorMessage = "";
const maps = errorMaps.filter((m) => !!m).slice().reverse();
for (const map of maps) {
errorMessage = map(fullIssue, { data, defaultError: errorMessage }).message;
}
return {
...issueData,
path: fullPath,
message: errorMessage
};
};
function addIssueToContext(ctx, issueData) {
const overrideMap = getErrorMap();
const issue = makeIssue({
issueData,
data: ctx.data,
path: ctx.path,
errorMaps: [
ctx.common.contextualErrorMap,
ctx.schemaErrorMap,
overrideMap,
overrideMap === errorMap ? void 0 : errorMap
// then global default map
].filter((x) => !!x)
});
ctx.common.issues.push(issue);
}
var ParseStatus = class _ParseStatus {
constructor() {
this.value = "valid";
}
dirty() {
if (this.value === "valid")
this.value = "dirty";
}
abort() {
if (this.value !== "aborted")
this.value = "aborted";
}
static mergeArray(status, results) {
const arrayValue = [];
for (const s of results) {
if (s.status === "aborted")
return INVALID;
if (s.status === "dirty")
status.dirty();
arrayValue.push(s.value);
}
return { status: status.value, value: arrayValue };
}
static async mergeObjectAsync(status, pairs) {
const syncPairs = [];
for (const pair of pairs) {
const key = await pair.key;
const value = await pair.value;
syncPairs.push({
key,
value
});
}
return _ParseStatus.mergeObjectSync(status, syncPairs);
}
static mergeObjectSync(status, pairs) {
const finalObject = {};
for (const pair of pairs) {
const { key, value } = pair;
if (key.status === "aborted")
return INVALID;
if (value.status === "aborted")
return INVALID;
if (key.status === "dirty")
status.dirty();
if (value.status === "dirty")
status.dirty();
if (key.value !== "__proto__" && (typeof value.value !== "undefined" || pair.alwaysSet)) {
finalObject[key.value] = value.value;
}
}
return { status: status.value, value: finalObject };
}
};
var INVALID = Object.freeze({
status: "aborted"
});
var DIRTY = (value) => ({ status: "dirty", value });
var OK = (value) => ({ status: "valid", value });
var isAborted = (x) => x.status === "aborted";
var isDirty = (x) => x.status === "dirty";
var isValid = (x) => x.status === "valid";
var isAsync = (x) => typeof Promise !== "undefined" && x instanceof Promise;
function __classPrivateFieldGet(receiver, state, kind, f) {
if (kind === "a" && !f)
throw new TypeError("Private accessor was defined without a getter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot read private member from an object whose class did not declare it");
return kind === "m" ? f : kind === "a" ? f.call(receiver) : f ? f.value : state.get(receiver);
}
function __classPrivateFieldSet(receiver, state, value, kind, f) {
if (kind === "m")
throw new TypeError("Private method is not writable");
if (kind === "a" && !f)
throw new TypeError("Private accessor was defined without a setter");
if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver))
throw new TypeError("Cannot write private member to an object whose class did not declare it");
return kind === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value), value;
}
var errorUtil;
(function(errorUtil2) {
errorUtil2.errToObj = (message) => typeof message === "string" ? { message } : message || {};
errorUtil2.toString = (message) => typeof message === "string" ? message : message === null || message === void 0 ? void 0 : message.message;
})(errorUtil || (errorUtil = {}));
var _ZodEnum_cache;
var _ZodNativeEnum_cache;
var ParseInputLazyPath = class {
constructor(parent, value, path, key) {
this._cachedPath = [];
this.parent = parent;
this.data = value;
this._path = path;
this._key = key;
}
get path() {
if (!this._cachedPath.length) {
if (this._key instanceof Array) {
this._cachedPath.push(...this._path, ...this._key);
} else {
this._cachedPath.push(...this._path, this._key);
}
}
return this._cachedPath;
}
};
var handleResult = (ctx, result) => {
if (isValid(result)) {
return { success: true, data: result.value };
} else {
if (!ctx.common.issues.length) {
throw new Error("Validation failed but no issues detected.");
}
return {
success: false,
get error() {
if (this._error)
return this._error;
const error = new ZodError(ctx.common.issues);
this._error = error;
return this._error;
}
};
}
};
function processCreateParams(params) {
if (!params)
return {};
const { errorMap: errorMap2, invalid_type_error, required_error, description } = params;
if (errorMap2 && (invalid_type_error || required_error)) {
throw new Error(`Can't use "invalid_type_error" or "required_error" in conjunction with custom error map.`);
}
if (errorMap2)
return { errorMap: errorMap2, description };
const customMap = (iss, ctx) => {
var _a, _b;
const { message } = params;
if (iss.code === "invalid_enum_value") {
return { message: message !== null && message !== void 0 ? message : ctx.defaultError };
}
if (typeof ctx.data === "undefined") {
return { message: (_a = message !== null && message !== void 0 ? message : required_error) !== null && _a !== void 0 ? _a : ctx.defaultError };
}
if (iss.code !== "invalid_type")
return { message: ctx.defaultError };
return { message: (_b = message !== null && message !== void 0 ? message : invalid_type_error) !== null && _b !== void 0 ? _b : ctx.defaultError };
};
return { errorMap: customMap, description };
}
var ZodType = class {
constructor(def) {
this.spa = this.safeParseAsync;
this._def = def;
this.parse = this.parse.bind(this);
this.safeParse = this.safeParse.bind(this);
this.parseAsync = this.parseAsync.bind(this);
this.safeParseAsync = this.safeParseAsync.bind(this);
this.spa = this.spa.bind(this);
this.refine = this.refine.bind(this);
this.refinement = this.refinement.bind(this);
this.superRefine = this.superRefine.bind(this);
this.optional = this.optional.bind(this);
this.nullable = this.nullable.bind(this);
this.nullish = this.nullish.bind(this);
this.array = this.array.bind(this);
this.promise = this.promise.bind(this);
this.or = this.or.bind(this);
this.and = this.and.bind(this);
this.transform = this.transform.bind(this);
this.brand = this.brand.bind(this);
this.default = this.default.bind(this);
this.catch = this.catch.bind(this);
this.describe = this.describe.bind(this);
this.pipe = this.pipe.bind(this);
this.readonly = this.readonly.bind(this);
this.isNullable = this.isNullable.bind(this);
this.isOptional = this.isOptional.bind(this);
}
get description() {
return this._def.description;
}
_getType(input) {
return getParsedType(input.data);
}
_getOrReturnCtx(input, ctx) {
return ctx || {
common: input.parent.common,
data: input.data,
parsedType: getParsedType(input.data),
schemaErrorMap: this._def.errorMap,
path: input.path,
parent: input.parent
};
}
_processInputParams(input) {
return {
status: new ParseStatus(),
ctx: {
common: input.parent.common,
data: input.data,
parsedType: getParsedType(input.data),
schemaErrorMap: this._def.errorMap,
path: input.path,
parent: input.parent
}
};
}
_parseSync(input) {
const result = this._parse(input);
if (isAsync(result)) {
throw new Error("Synchronous parse encountered promise.");
}
return result;
}
_parseAsync(input) {
const result = this._parse(input);
return Promise.resolve(result);
}
parse(data, params) {
const result = this.safeParse(data, params);
if (result.success)
return result.data;
throw result.error;
}
safeParse(data, params) {
var _a;
const ctx = {
common: {
issues: [],
async: (_a = params === null || params === void 0 ? void 0 : params.async) !== null && _a !== void 0 ? _a : false,
contextualErrorMap: params === null || params === void 0 ? void 0 : params.errorMap
},
path: (params === null || params === void 0 ? void 0 : params.path) || [],
schemaErrorMap: this._def.errorMap,
parent: null,
data,
parsedType: getParsedType(data)
};
const result = this._parseSync({ data, path: ctx.path, parent: ctx });
return handleResult(ctx, result);
}
async parseAsync(data, params) {
const result = await this.safeParseAsync(data, params);
if (result.success)
return result.data;
throw result.error;
}
async safeParseAsync(data, params) {
const ctx = {
common: {
issues: [],
contextualErrorMap: params === null || params === void 0 ? void 0 : params.errorMap,
async: true
},
path: (params === null || params === void 0 ? void 0 : params.path) || [],
schemaErrorMap: this._def.errorMap,
parent: null,
data,
parsedType: getParsedType(data)
};
const maybeAsyncResult = this._parse({ data, path: ctx.path, parent: ctx });
const result = await (isAsync(maybeAsyncResult) ? maybeAsyncResult : Promise.resolve(maybeAsyncResult));
return handleResult(ctx, result);
}
refine(check, message) {
const getIssueProperties = (val) => {
if (typeof message === "string" || typeof message === "undefined") {
return { message };
} else if (typeof message === "function") {
return message(val);
} else {
return message;
}
};
return this._refinement((val, ctx) => {
const result = check(val);
const setError = () => ctx.addIssue({
code: ZodIssueCode.custom,
...getIssueProperties(val)
});
if (typeof Promise !== "undefined" && result instanceof Promise) {
return result.then((data) => {
if (!data) {
setError();
return false;
} else {
return true;
}
});
}
if (!result) {
setError();
return false;
} else {
return true;
}
});
}
refinement(check, refinementData) {
return this._refinement((val, ctx) => {
if (!check(val)) {
ctx.addIssue(typeof refinementData === "function" ? refinementData(val, ctx) : refinementData);
return false;
} else {
return true;
}
});
}
_refinement(refinement) {
return new ZodEffects({
schema: this,
typeName: ZodFirstPartyTypeKind.ZodEffects,
effect: { type: "refinement", refinement }
});
}
superRefine(refinement) {
return this._refinement(refinement);
}
optional() {
return ZodOptional.create(this, this._def);
}
nullable() {
return ZodNullable.create(this, this._def);
}
nullish() {
return this.nullable().optional();
}
array() {
return ZodArray.create(this, this._def);
}
promise() {
return ZodPromise.create(this, this._def);
}
or(option) {
return ZodUnion.create([this, option], this._def);
}
and(incoming) {
return ZodIntersection.create(this, incoming, this._def);
}
transform(transform) {
return new ZodEffects({
...processCreateParams(this._def),
schema: this,
typeName: ZodFirstPartyTypeKind.ZodEffects,
effect: { type: "transform", transform }
});
}
default(def) {
const defaultValueFunc = typeof def === "function" ? def : () => def;
return new ZodDefault({
...processCreateParams(this._def),
innerType: this,
defaultValue: defaultValueFunc,
typeName: ZodFirstPartyTypeKind.ZodDefault
});
}
brand() {
return new ZodBranded({
typeName: ZodFirstPartyTypeKind.ZodBranded,
type: this,
...processCreateParams(this._def)
});
}
catch(def) {
const catchValueFunc = typeof def === "function" ? def : () => def;
return new ZodCatch({
...processCreateParams(this._def),
innerType: this,
catchValue: catchValueFunc,
typeName: ZodFirstPartyTypeKind.ZodCatch
});
}
describe(description) {
const This = this.constructor;
return new This({
...this._def,
description
});
}
pipe(target) {
return ZodPipeline.create(this, target);
}
readonly() {
return ZodReadonly.create(this);
}
isOptional() {
return this.safeParse(void 0).success;
}
isNullable() {
return this.safeParse(null).success;
}
};
var cuidRegex = /^c[^\s-]{8,}$/i;
var cuid2Regex = /^[0-9a-z]+$/;
var ulidRegex = /^[0-9A-HJKMNP-TV-Z]{26}$/;
var uuidRegex = /^[0-9a-fA-F]{8}\b-[0-9a-fA-F]{4}\b-[0-9a-fA-F]{4}\b-[0-9a-fA-F]{4}\b-[0-9a-fA-F]{12}$/i;
var nanoidRegex = /^[a-z0-9_-]{21}$/i;
var durationRegex = /^[-+]?P(?!$)(?:(?:[-+]?\d+Y)|(?:[-+]?\d+[.,]\d+Y$))?(?:(?:[-+]?\d+M)|(?:[-+]?\d+[.,]\d+M$))?(?:(?:[-+]?\d+W)|(?:[-+]?\d+[.,]\d+W$))?(?:(?:[-+]?\d+D)|(?:[-+]?\d+[.,]\d+D$))?(?:T(?=[\d+-])(?:(?:[-+]?\d+H)|(?:[-+]?\d+[.,]\d+H$))?(?:(?:[-+]?\d+M)|(?:[-+]?\d+[.,]\d+M$))?(?:[-+]?\d+(?:[.,]\d+)?S)?)??$/;
var emailRegex = /^(?!\.)(?!.*\.\.)([A-Z0-9_'+\-\.]*)[A-Z0-9_+-]@([A-Z0-9][A-Z0-9\-]*\.)+[A-Z]{2,}$/i;
var _emojiRegex = `^(\\p{Extended_Pictographic}|\\p{Emoji_Component})+$`;
var emojiRegex;
var ipv4Regex = /^(?:(?:25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[1-9][0-9]|[0-9])\.){3}(?:25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[1-9][0-9]|[0-9])$/;
var ipv6Regex = /^(([a-f0-9]{1,4}:){7}|::([a-f0-9]{1,4}:){0,6}|([a-f0-9]{1,4}:){1}:([a-f0-9]{1,4}:){0,5}|([a-f0-9]{1,4}:){2}:([a-f0-9]{1,4}:){0,4}|([a-f0-9]{1,4}:){3}:([a-f0-9]{1,4}:){0,3}|([a-f0-9]{1,4}:){4}:([a-f0-9]{1,4}:){0,2}|([a-f0-9]{1,4}:){5}:([a-f0-9]{1,4}:){0,1})([a-f0-9]{1,4}|(((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2}))\.){3}((25[0-5])|(2[0-4][0-9])|(1[0-9]{2})|([0-9]{1,2})))$/;
var base64Regex = /^([0-9a-zA-Z+/]{4})*(([0-9a-zA-Z+/]{2}==)|([0-9a-zA-Z+/]{3}=))?$/;
var dateRegexSource = `((\\d\\d[2468][048]|\\d\\d[13579][26]|\\d\\d0[48]|[02468][048]00|[13579][26]00)-02-29|\\d{4}-((0[13578]|1[02])-(0[1-9]|[12]\\d|3[01])|(0[469]|11)-(0[1-9]|[12]\\d|30)|(02)-(0[1-9]|1\\d|2[0-8])))`;
var dateRegex = new RegExp(`^${dateRegexSource}$`);
function timeRegexSource(args) {
let regex = `([01]\\d|2[0-3]):[0-5]\\d:[0-5]\\d`;
if (args.precision) {
regex = `${regex}\\.\\d{${args.precision}}`;
} else if (args.precision == null) {
regex = `${regex}(\\.\\d+)?`;
}
return regex;
}
function timeRegex(args) {
return new RegExp(`^${timeRegexSource(args)}$`);
}
function datetimeRegex(args) {
let regex = `${dateRegexSource}T${timeRegexSource(args)}`;
const opts = [];
opts.push(args.local ? `Z?` : `Z`);
if (args.offset)
opts.push(`([+-]\\d{2}:?\\d{2})`);
regex = `${regex}(${opts.join("|")})`;
return new RegExp(`^${regex}$`);
}
function isValidIP(ip, version) {
if ((version === "v4" || !version) && ipv4Regex.test(ip)) {
return true;
}
if ((version === "v6" || !version) && ipv6Regex.test(ip)) {
return true;
}
return false;
}
var ZodString = class _ZodString extends ZodType {
_parse(input) {
if (this._def.coerce) {
input.data = String(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.string) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.string,
received: ctx2.parsedType
});
return INVALID;
}
const status = new ParseStatus();
let ctx = void 0;
for (const check of this._def.checks) {
if (check.kind === "min") {
if (input.data.length < check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: check.value,
type: "string",
inclusive: true,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "max") {
if (input.data.length > check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: check.value,
type: "string",
inclusive: true,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "length") {
const tooBig = input.data.length > check.value;
const tooSmall = input.data.length < check.value;
if (tooBig || tooSmall) {
ctx = this._getOrReturnCtx(input, ctx);
if (tooBig) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: check.value,
type: "string",
inclusive: true,
exact: true,
message: check.message
});
} else if (tooSmall) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: check.value,
type: "string",
inclusive: true,
exact: true,
message: check.message
});
}
status.dirty();
}
} else if (check.kind === "email") {
if (!emailRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "email",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "emoji") {
if (!emojiRegex) {
emojiRegex = new RegExp(_emojiRegex, "u");
}
if (!emojiRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "emoji",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "uuid") {
if (!uuidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "uuid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "nanoid") {
if (!nanoidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "nanoid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "cuid") {
if (!cuidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "cuid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "cuid2") {
if (!cuid2Regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "cuid2",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "ulid") {
if (!ulidRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "ulid",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "url") {
try {
new URL(input.data);
} catch (_a) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "url",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "regex") {
check.regex.lastIndex = 0;
const testResult = check.regex.test(input.data);
if (!testResult) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "regex",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "trim") {
input.data = input.data.trim();
} else if (check.kind === "includes") {
if (!input.data.includes(check.value, check.position)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: { includes: check.value, position: check.position },
message: check.message
});
status.dirty();
}
} else if (check.kind === "toLowerCase") {
input.data = input.data.toLowerCase();
} else if (check.kind === "toUpperCase") {
input.data = input.data.toUpperCase();
} else if (check.kind === "startsWith") {
if (!input.data.startsWith(check.value)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: { startsWith: check.value },
message: check.message
});
status.dirty();
}
} else if (check.kind === "endsWith") {
if (!input.data.endsWith(check.value)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: { endsWith: check.value },
message: check.message
});
status.dirty();
}
} else if (check.kind === "datetime") {
const regex = datetimeRegex(check);
if (!regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: "datetime",
message: check.message
});
status.dirty();
}
} else if (check.kind === "date") {
const regex = dateRegex;
if (!regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: "date",
message: check.message
});
status.dirty();
}
} else if (check.kind === "time") {
const regex = timeRegex(check);
if (!regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_string,
validation: "time",
message: check.message
});
status.dirty();
}
} else if (check.kind === "duration") {
if (!durationRegex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "duration",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "ip") {
if (!isValidIP(input.data, check.version)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "ip",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else if (check.kind === "base64") {
if (!base64Regex.test(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
validation: "base64",
code: ZodIssueCode.invalid_string,
message: check.message
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return { status: status.value, value: input.data };
}
_regex(regex, validation, message) {
return this.refinement((data) => regex.test(data), {
validation,
code: ZodIssueCode.invalid_string,
...errorUtil.errToObj(message)
});
}
_addCheck(check) {
return new _ZodString({
...this._def,
checks: [...this._def.checks, check]
});
}
email(message) {
return this._addCheck({ kind: "email", ...errorUtil.errToObj(message) });
}
url(message) {
return this._addCheck({ kind: "url", ...errorUtil.errToObj(message) });
}
emoji(message) {
return this._addCheck({ kind: "emoji", ...errorUtil.errToObj(message) });
}
uuid(message) {
return this._addCheck({ kind: "uuid", ...errorUtil.errToObj(message) });
}
nanoid(message) {
return this._addCheck({ kind: "nanoid", ...errorUtil.errToObj(message) });
}
cuid(message) {
return this._addCheck({ kind: "cuid", ...errorUtil.errToObj(message) });
}
cuid2(message) {
return this._addCheck({ kind: "cuid2", ...errorUtil.errToObj(message) });
}
ulid(message) {
return this._addCheck({ kind: "ulid", ...errorUtil.errToObj(message) });
}
base64(message) {
return this._addCheck({ kind: "base64", ...errorUtil.errToObj(message) });
}
ip(options) {
return this._addCheck({ kind: "ip", ...errorUtil.errToObj(options) });
}
datetime(options) {
var _a, _b;
if (typeof options === "string") {
return this._addCheck({
kind: "datetime",
precision: null,
offset: false,
local: false,
message: options
});
}
return this._addCheck({
kind: "datetime",
precision: typeof (options === null || options === void 0 ? void 0 : options.precision) === "undefined" ? null : options === null || options === void 0 ? void 0 : options.precision,
offset: (_a = options === null || options === void 0 ? void 0 : options.offset) !== null && _a !== void 0 ? _a : false,
local: (_b = options === null || options === void 0 ? void 0 : options.local) !== null && _b !== void 0 ? _b : false,
...errorUtil.errToObj(options === null || options === void 0 ? void 0 : options.message)
});
}
date(message) {
return this._addCheck({ kind: "date", message });
}
time(options) {
if (typeof options === "string") {
return this._addCheck({
kind: "time",
precision: null,
message: options
});
}
return this._addCheck({
kind: "time",
precision: typeof (options === null || options === void 0 ? void 0 : options.precision) === "undefined" ? null : options === null || options === void 0 ? void 0 : options.precision,
...errorUtil.errToObj(options === null || options === void 0 ? void 0 : options.message)
});
}
duration(message) {
return this._addCheck({ kind: "duration", ...errorUtil.errToObj(message) });
}
regex(regex, message) {
return this._addCheck({
kind: "regex",
regex,
...errorUtil.errToObj(message)
});
}
includes(value, options) {
return this._addCheck({
kind: "includes",
value,
position: options === null || options === void 0 ? void 0 : options.position,
...errorUtil.errToObj(options === null || options === void 0 ? void 0 : options.message)
});
}
startsWith(value, message) {
return this._addCheck({
kind: "startsWith",
value,
...errorUtil.errToObj(message)
});
}
endsWith(value, message) {
return this._addCheck({
kind: "endsWith",
value,
...errorUtil.errToObj(message)
});
}
min(minLength, message) {
return this._addCheck({
kind: "min",
value: minLength,
...errorUtil.errToObj(message)
});
}
max(maxLength, message) {
return this._addCheck({
kind: "max",
value: maxLength,
...errorUtil.errToObj(message)
});
}
length(len, message) {
return this._addCheck({
kind: "length",
value: len,
...errorUtil.errToObj(message)
});
}
/**
* @deprecated Use z.string().min(1) instead.
* @see {@link ZodString.min}
*/
nonempty(message) {
return this.min(1, errorUtil.errToObj(message));
}
trim() {
return new _ZodString({
...this._def,
checks: [...this._def.checks, { kind: "trim" }]
});
}
toLowerCase() {
return new _ZodString({
...this._def,
checks: [...this._def.checks, { kind: "toLowerCase" }]
});
}
toUpperCase() {
return new _ZodString({
...this._def,
checks: [...this._def.checks, { kind: "toUpperCase" }]
});
}
get isDatetime() {
return !!this._def.checks.find((ch) => ch.kind === "datetime");
}
get isDate() {
return !!this._def.checks.find((ch) => ch.kind === "date");
}
get isTime() {
return !!this._def.checks.find((ch) => ch.kind === "time");
}
get isDuration() {
return !!this._def.checks.find((ch) => ch.kind === "duration");
}
get isEmail() {
return !!this._def.checks.find((ch) => ch.kind === "email");
}
get isURL() {
return !!this._def.checks.find((ch) => ch.kind === "url");
}
get isEmoji() {
return !!this._def.checks.find((ch) => ch.kind === "emoji");
}
get isUUID() {
return !!this._def.checks.find((ch) => ch.kind === "uuid");
}
get isNANOID() {
return !!this._def.checks.find((ch) => ch.kind === "nanoid");
}
get isCUID() {
return !!this._def.checks.find((ch) => ch.kind === "cuid");
}
get isCUID2() {
return !!this._def.checks.find((ch) => ch.kind === "cuid2");
}
get isULID() {
return !!this._def.checks.find((ch) => ch.kind === "ulid");
}
get isIP() {
return !!this._def.checks.find((ch) => ch.kind === "ip");
}
get isBase64() {
return !!this._def.checks.find((ch) => ch.kind === "base64");
}
get minLength() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min;
}
get maxLength() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max;
}
};
ZodString.create = (params) => {
var _a;
return new ZodString({
checks: [],
typeName: ZodFirstPartyTypeKind.ZodString,
coerce: (_a = params === null || params === void 0 ? void 0 : params.coerce) !== null && _a !== void 0 ? _a : false,
...processCreateParams(params)
});
};
function floatSafeRemainder(val, step) {
const valDecCount = (val.toString().split(".")[1] || "").length;
const stepDecCount = (step.toString().split(".")[1] || "").length;
const decCount = valDecCount > stepDecCount ? valDecCount : stepDecCount;
const valInt = parseInt(val.toFixed(decCount).replace(".", ""));
const stepInt = parseInt(step.toFixed(decCount).replace(".", ""));
return valInt % stepInt / Math.pow(10, decCount);
}
var ZodNumber = class _ZodNumber extends ZodType {
constructor() {
super(...arguments);
this.min = this.gte;
this.max = this.lte;
this.step = this.multipleOf;
}
_parse(input) {
if (this._def.coerce) {
input.data = Number(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.number) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.number,
received: ctx2.parsedType
});
return INVALID;
}
let ctx = void 0;
const status = new ParseStatus();
for (const check of this._def.checks) {
if (check.kind === "int") {
if (!util.isInteger(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: "integer",
received: "float",
message: check.message
});
status.dirty();
}
} else if (check.kind === "min") {
const tooSmall = check.inclusive ? input.data < check.value : input.data <= check.value;
if (tooSmall) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: check.value,
type: "number",
inclusive: check.inclusive,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "max") {
const tooBig = check.inclusive ? input.data > check.value : input.data >= check.value;
if (tooBig) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: check.value,
type: "number",
inclusive: check.inclusive,
exact: false,
message: check.message
});
status.dirty();
}
} else if (check.kind === "multipleOf") {
if (floatSafeRemainder(input.data, check.value) !== 0) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.not_multiple_of,
multipleOf: check.value,
message: check.message
});
status.dirty();
}
} else if (check.kind === "finite") {
if (!Number.isFinite(input.data)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.not_finite,
message: check.message
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return { status: status.value, value: input.data };
}
gte(value, message) {
return this.setLimit("min", value, true, errorUtil.toString(message));
}
gt(value, message) {
return this.setLimit("min", value, false, errorUtil.toString(message));
}
lte(value, message) {
return this.setLimit("max", value, true, errorUtil.toString(message));
}
lt(value, message) {
return this.setLimit("max", value, false, errorUtil.toString(message));
}
setLimit(kind, value, inclusive, message) {
return new _ZodNumber({
...this._def,
checks: [
...this._def.checks,
{
kind,
value,
inclusive,
message: errorUtil.toString(message)
}
]
});
}
_addCheck(check) {
return new _ZodNumber({
...this._def,
checks: [...this._def.checks, check]
});
}
int(message) {
return this._addCheck({
kind: "int",
message: errorUtil.toString(message)
});
}
positive(message) {
return this._addCheck({
kind: "min",
value: 0,
inclusive: false,
message: errorUtil.toString(message)
});
}
negative(message) {
return this._addCheck({
kind: "max",
value: 0,
inclusive: false,
message: errorUtil.toString(message)
});
}
nonpositive(message) {
return this._addCheck({
kind: "max",
value: 0,
inclusive: true,
message: errorUtil.toString(message)
});
}
nonnegative(message) {
return this._addCheck({
kind: "min",
value: 0,
inclusive: true,
message: errorUtil.toString(message)
});
}
multipleOf(value, message) {
return this._addCheck({
kind: "multipleOf",
value,
message: errorUtil.toString(message)
});
}
finite(message) {
return this._addCheck({
kind: "finite",
message: errorUtil.toString(message)
});
}
safe(message) {
return this._addCheck({
kind: "min",
inclusive: true,
value: Number.MIN_SAFE_INTEGER,
message: errorUtil.toString(message)
})._addCheck({
kind: "max",
inclusive: true,
value: Number.MAX_SAFE_INTEGER,
message: errorUtil.toString(message)
});
}
get minValue() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min;
}
get maxValue() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max;
}
get isInt() {
return !!this._def.checks.find((ch) => ch.kind === "int" || ch.kind === "multipleOf" && util.isInteger(ch.value));
}
get isFinite() {
let max = null, min = null;
for (const ch of this._def.checks) {
if (ch.kind === "finite" || ch.kind === "int" || ch.kind === "multipleOf") {
return true;
} else if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
} else if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return Number.isFinite(min) && Number.isFinite(max);
}
};
ZodNumber.create = (params) => {
return new ZodNumber({
checks: [],
typeName: ZodFirstPartyTypeKind.ZodNumber,
coerce: (params === null || params === void 0 ? void 0 : params.coerce) || false,
...processCreateParams(params)
});
};
var ZodBigInt = class _ZodBigInt extends ZodType {
constructor() {
super(...arguments);
this.min = this.gte;
this.max = this.lte;
}
_parse(input) {
if (this._def.coerce) {
input.data = BigInt(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.bigint) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.bigint,
received: ctx2.parsedType
});
return INVALID;
}
let ctx = void 0;
const status = new ParseStatus();
for (const check of this._def.checks) {
if (check.kind === "min") {
const tooSmall = check.inclusive ? input.data < check.value : input.data <= check.value;
if (tooSmall) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
type: "bigint",
minimum: check.value,
inclusive: check.inclusive,
message: check.message
});
status.dirty();
}
} else if (check.kind === "max") {
const tooBig = check.inclusive ? input.data > check.value : input.data >= check.value;
if (tooBig) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
type: "bigint",
maximum: check.value,
inclusive: check.inclusive,
message: check.message
});
status.dirty();
}
} else if (check.kind === "multipleOf") {
if (input.data % check.value !== BigInt(0)) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.not_multiple_of,
multipleOf: check.value,
message: check.message
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return { status: status.value, value: input.data };
}
gte(value, message) {
return this.setLimit("min", value, true, errorUtil.toString(message));
}
gt(value, message) {
return this.setLimit("min", value, false, errorUtil.toString(message));
}
lte(value, message) {
return this.setLimit("max", value, true, errorUtil.toString(message));
}
lt(value, message) {
return this.setLimit("max", value, false, errorUtil.toString(message));
}
setLimit(kind, value, inclusive, message) {
return new _ZodBigInt({
...this._def,
checks: [
...this._def.checks,
{
kind,
value,
inclusive,
message: errorUtil.toString(message)
}
]
});
}
_addCheck(check) {
return new _ZodBigInt({
...this._def,
checks: [...this._def.checks, check]
});
}
positive(message) {
return this._addCheck({
kind: "min",
value: BigInt(0),
inclusive: false,
message: errorUtil.toString(message)
});
}
negative(message) {
return this._addCheck({
kind: "max",
value: BigInt(0),
inclusive: false,
message: errorUtil.toString(message)
});
}
nonpositive(message) {
return this._addCheck({
kind: "max",
value: BigInt(0),
inclusive: true,
message: errorUtil.toString(message)
});
}
nonnegative(message) {
return this._addCheck({
kind: "min",
value: BigInt(0),
inclusive: true,
message: errorUtil.toString(message)
});
}
multipleOf(value, message) {
return this._addCheck({
kind: "multipleOf",
value,
message: errorUtil.toString(message)
});
}
get minValue() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min;
}
get maxValue() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max;
}
};
ZodBigInt.create = (params) => {
var _a;
return new ZodBigInt({
checks: [],
typeName: ZodFirstPartyTypeKind.ZodBigInt,
coerce: (_a = params === null || params === void 0 ? void 0 : params.coerce) !== null && _a !== void 0 ? _a : false,
...processCreateParams(params)
});
};
var ZodBoolean = class extends ZodType {
_parse(input) {
if (this._def.coerce) {
input.data = Boolean(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.boolean) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.boolean,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodBoolean.create = (params) => {
return new ZodBoolean({
typeName: ZodFirstPartyTypeKind.ZodBoolean,
coerce: (params === null || params === void 0 ? void 0 : params.coerce) || false,
...processCreateParams(params)
});
};
var ZodDate = class _ZodDate extends ZodType {
_parse(input) {
if (this._def.coerce) {
input.data = new Date(input.data);
}
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.date) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.date,
received: ctx2.parsedType
});
return INVALID;
}
if (isNaN(input.data.getTime())) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_date
});
return INVALID;
}
const status = new ParseStatus();
let ctx = void 0;
for (const check of this._def.checks) {
if (check.kind === "min") {
if (input.data.getTime() < check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
message: check.message,
inclusive: true,
exact: false,
minimum: check.value,
type: "date"
});
status.dirty();
}
} else if (check.kind === "max") {
if (input.data.getTime() > check.value) {
ctx = this._getOrReturnCtx(input, ctx);
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
message: check.message,
inclusive: true,
exact: false,
maximum: check.value,
type: "date"
});
status.dirty();
}
} else {
util.assertNever(check);
}
}
return {
status: status.value,
value: new Date(input.data.getTime())
};
}
_addCheck(check) {
return new _ZodDate({
...this._def,
checks: [...this._def.checks, check]
});
}
min(minDate, message) {
return this._addCheck({
kind: "min",
value: minDate.getTime(),
message: errorUtil.toString(message)
});
}
max(maxDate, message) {
return this._addCheck({
kind: "max",
value: maxDate.getTime(),
message: errorUtil.toString(message)
});
}
get minDate() {
let min = null;
for (const ch of this._def.checks) {
if (ch.kind === "min") {
if (min === null || ch.value > min)
min = ch.value;
}
}
return min != null ? new Date(min) : null;
}
get maxDate() {
let max = null;
for (const ch of this._def.checks) {
if (ch.kind === "max") {
if (max === null || ch.value < max)
max = ch.value;
}
}
return max != null ? new Date(max) : null;
}
};
ZodDate.create = (params) => {
return new ZodDate({
checks: [],
coerce: (params === null || params === void 0 ? void 0 : params.coerce) || false,
typeName: ZodFirstPartyTypeKind.ZodDate,
...processCreateParams(params)
});
};
var ZodSymbol = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.symbol) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.symbol,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodSymbol.create = (params) => {
return new ZodSymbol({
typeName: ZodFirstPartyTypeKind.ZodSymbol,
...processCreateParams(params)
});
};
var ZodUndefined = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.undefined) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.undefined,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodUndefined.create = (params) => {
return new ZodUndefined({
typeName: ZodFirstPartyTypeKind.ZodUndefined,
...processCreateParams(params)
});
};
var ZodNull = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.null) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.null,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodNull.create = (params) => {
return new ZodNull({
typeName: ZodFirstPartyTypeKind.ZodNull,
...processCreateParams(params)
});
};
var ZodAny = class extends ZodType {
constructor() {
super(...arguments);
this._any = true;
}
_parse(input) {
return OK(input.data);
}
};
ZodAny.create = (params) => {
return new ZodAny({
typeName: ZodFirstPartyTypeKind.ZodAny,
...processCreateParams(params)
});
};
var ZodUnknown = class extends ZodType {
constructor() {
super(...arguments);
this._unknown = true;
}
_parse(input) {
return OK(input.data);
}
};
ZodUnknown.create = (params) => {
return new ZodUnknown({
typeName: ZodFirstPartyTypeKind.ZodUnknown,
...processCreateParams(params)
});
};
var ZodNever = class extends ZodType {
_parse(input) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.never,
received: ctx.parsedType
});
return INVALID;
}
};
ZodNever.create = (params) => {
return new ZodNever({
typeName: ZodFirstPartyTypeKind.ZodNever,
...processCreateParams(params)
});
};
var ZodVoid = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.undefined) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.void,
received: ctx.parsedType
});
return INVALID;
}
return OK(input.data);
}
};
ZodVoid.create = (params) => {
return new ZodVoid({
typeName: ZodFirstPartyTypeKind.ZodVoid,
...processCreateParams(params)
});
};
var ZodArray = class _ZodArray extends ZodType {
_parse(input) {
const { ctx, status } = this._processInputParams(input);
const def = this._def;
if (ctx.parsedType !== ZodParsedType.array) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.array,
received: ctx.parsedType
});
return INVALID;
}
if (def.exactLength !== null) {
const tooBig = ctx.data.length > def.exactLength.value;
const tooSmall = ctx.data.length < def.exactLength.value;
if (tooBig || tooSmall) {
addIssueToContext(ctx, {
code: tooBig ? ZodIssueCode.too_big : ZodIssueCode.too_small,
minimum: tooSmall ? def.exactLength.value : void 0,
maximum: tooBig ? def.exactLength.value : void 0,
type: "array",
inclusive: true,
exact: true,
message: def.exactLength.message
});
status.dirty();
}
}
if (def.minLength !== null) {
if (ctx.data.length < def.minLength.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: def.minLength.value,
type: "array",
inclusive: true,
exact: false,
message: def.minLength.message
});
status.dirty();
}
}
if (def.maxLength !== null) {
if (ctx.data.length > def.maxLength.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: def.maxLength.value,
type: "array",
inclusive: true,
exact: false,
message: def.maxLength.message
});
status.dirty();
}
}
if (ctx.common.async) {
return Promise.all([...ctx.data].map((item, i) => {
return def.type._parseAsync(new ParseInputLazyPath(ctx, item, ctx.path, i));
})).then((result2) => {
return ParseStatus.mergeArray(status, result2);
});
}
const result = [...ctx.data].map((item, i) => {
return def.type._parseSync(new ParseInputLazyPath(ctx, item, ctx.path, i));
});
return ParseStatus.mergeArray(status, result);
}
get element() {
return this._def.type;
}
min(minLength, message) {
return new _ZodArray({
...this._def,
minLength: { value: minLength, message: errorUtil.toString(message) }
});
}
max(maxLength, message) {
return new _ZodArray({
...this._def,
maxLength: { value: maxLength, message: errorUtil.toString(message) }
});
}
length(len, message) {
return new _ZodArray({
...this._def,
exactLength: { value: len, message: errorUtil.toString(message) }
});
}
nonempty(message) {
return this.min(1, message);
}
};
ZodArray.create = (schema3, params) => {
return new ZodArray({
type: schema3,
minLength: null,
maxLength: null,
exactLength: null,
typeName: ZodFirstPartyTypeKind.ZodArray,
...processCreateParams(params)
});
};
function deepPartialify(schema3) {
if (schema3 instanceof ZodObject) {
const newShape = {};
for (const key in schema3.shape) {
const fieldSchema = schema3.shape[key];
newShape[key] = ZodOptional.create(deepPartialify(fieldSchema));
}
return new ZodObject({
...schema3._def,
shape: () => newShape
});
} else if (schema3 instanceof ZodArray) {
return new ZodArray({
...schema3._def,
type: deepPartialify(schema3.element)
});
} else if (schema3 instanceof ZodOptional) {
return ZodOptional.create(deepPartialify(schema3.unwrap()));
} else if (schema3 instanceof ZodNullable) {
return ZodNullable.create(deepPartialify(schema3.unwrap()));
} else if (schema3 instanceof ZodTuple) {
return ZodTuple.create(schema3.items.map((item) => deepPartialify(item)));
} else {
return schema3;
}
}
var ZodObject = class _ZodObject extends ZodType {
constructor() {
super(...arguments);
this._cached = null;
this.nonstrict = this.passthrough;
this.augment = this.extend;
}
_getCached() {
if (this._cached !== null)
return this._cached;
const shape = this._def.shape();
const keys = util.objectKeys(shape);
return this._cached = { shape, keys };
}
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.object) {
const ctx2 = this._getOrReturnCtx(input);
addIssueToContext(ctx2, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.object,
received: ctx2.parsedType
});
return INVALID;
}
const { status, ctx } = this._processInputParams(input);
const { shape, keys: shapeKeys } = this._getCached();
const extraKeys = [];
if (!(this._def.catchall instanceof ZodNever && this._def.unknownKeys === "strip")) {
for (const key in ctx.data) {
if (!shapeKeys.includes(key)) {
extraKeys.push(key);
}
}
}
const pairs = [];
for (const key of shapeKeys) {
const keyValidator = shape[key];
const value = ctx.data[key];
pairs.push({
key: { status: "valid", value: key },
value: keyValidator._parse(new ParseInputLazyPath(ctx, value, ctx.path, key)),
alwaysSet: key in ctx.data
});
}
if (this._def.catchall instanceof ZodNever) {
const unknownKeys = this._def.unknownKeys;
if (unknownKeys === "passthrough") {
for (const key of extraKeys) {
pairs.push({
key: { status: "valid", value: key },
value: { status: "valid", value: ctx.data[key] }
});
}
} else if (unknownKeys === "strict") {
if (extraKeys.length > 0) {
addIssueToContext(ctx, {
code: ZodIssueCode.unrecognized_keys,
keys: extraKeys
});
status.dirty();
}
} else if (unknownKeys === "strip")
;
else {
throw new Error(`Internal ZodObject error: invalid unknownKeys value.`);
}
} else {
const catchall = this._def.catchall;
for (const key of extraKeys) {
const value = ctx.data[key];
pairs.push({
key: { status: "valid", value: key },
value: catchall._parse(
new ParseInputLazyPath(ctx, value, ctx.path, key)
//, ctx.child(key), value, getParsedType(value)
),
alwaysSet: key in ctx.data
});
}
}
if (ctx.common.async) {
return Promise.resolve().then(async () => {
const syncPairs = [];
for (const pair of pairs) {
const key = await pair.key;
const value = await pair.value;
syncPairs.push({
key,
value,
alwaysSet: pair.alwaysSet
});
}
return syncPairs;
}).then((syncPairs) => {
return ParseStatus.mergeObjectSync(status, syncPairs);
});
} else {
return ParseStatus.mergeObjectSync(status, pairs);
}
}
get shape() {
return this._def.shape();
}
strict(message) {
errorUtil.errToObj;
return new _ZodObject({
...this._def,
unknownKeys: "strict",
...message !== void 0 ? {
errorMap: (issue, ctx) => {
var _a, _b, _c, _d;
const defaultError = (_c = (_b = (_a = this._def).errorMap) === null || _b === void 0 ? void 0 : _b.call(_a, issue, ctx).message) !== null && _c !== void 0 ? _c : ctx.defaultError;
if (issue.code === "unrecognized_keys")
return {
message: (_d = errorUtil.errToObj(message).message) !== null && _d !== void 0 ? _d : defaultError
};
return {
message: defaultError
};
}
} : {}
});
}
strip() {
return new _ZodObject({
...this._def,
unknownKeys: "strip"
});
}
passthrough() {
return new _ZodObject({
...this._def,
unknownKeys: "passthrough"
});
}
// const AugmentFactory =
// <Def extends ZodObjectDef>(def: Def) =>
// <Augmentation extends ZodRawShape>(
// augmentation: Augmentation
// ): ZodObject<
// extendShape<ReturnType<Def["shape"]>, Augmentation>,
// Def["unknownKeys"],
// Def["catchall"]
// > => {
// return new ZodObject({
// ...def,
// shape: () => ({
// ...def.shape(),
// ...augmentation,
// }),
// }) as any;
// };
extend(augmentation) {
return new _ZodObject({
...this._def,
shape: () => ({
...this._def.shape(),
...augmentation
})
});
}
/**
* Prior to zod@1.0.12 there was a bug in the
* inferred type of merged objects. Please
* upgrade if you are experiencing issues.
*/
merge(merging) {
const merged = new _ZodObject({
unknownKeys: merging._def.unknownKeys,
catchall: merging._def.catchall,
shape: () => ({
...this._def.shape(),
...merging._def.shape()
}),
typeName: ZodFirstPartyTypeKind.ZodObject
});
return merged;
}
// merge<
// Incoming extends AnyZodObject,
// Augmentation extends Incoming["shape"],
// NewOutput extends {
// [k in keyof Augmentation | keyof Output]: k extends keyof Augmentation
// ? Augmentation[k]["_output"]
// : k extends keyof Output
// ? Output[k]
// : never;
// },
// NewInput extends {
// [k in keyof Augmentation | keyof Input]: k extends keyof Augmentation
// ? Augmentation[k]["_input"]
// : k extends keyof Input
// ? Input[k]
// : never;
// }
// >(
// merging: Incoming
// ): ZodObject<
// extendShape<T, ReturnType<Incoming["_def"]["shape"]>>,
// Incoming["_def"]["unknownKeys"],
// Incoming["_def"]["catchall"],
// NewOutput,
// NewInput
// > {
// const merged: any = new ZodObject({
// unknownKeys: merging._def.unknownKeys,
// catchall: merging._def.catchall,
// shape: () =>
// objectUtil.mergeShapes(this._def.shape(), merging._def.shape()),
// typeName: ZodFirstPartyTypeKind.ZodObject,
// }) as any;
// return merged;
// }
setKey(key, schema3) {
return this.augment({ [key]: schema3 });
}
// merge<Incoming extends AnyZodObject>(
// merging: Incoming
// ): //ZodObject<T & Incoming["_shape"], UnknownKeys, Catchall> = (merging) => {
// ZodObject<
// extendShape<T, ReturnType<Incoming["_def"]["shape"]>>,
// Incoming["_def"]["unknownKeys"],
// Incoming["_def"]["catchall"]
// > {
// // const mergedShape = objectUtil.mergeShapes(
// // this._def.shape(),
// // merging._def.shape()
// // );
// const merged: any = new ZodObject({
// unknownKeys: merging._def.unknownKeys,
// catchall: merging._def.catchall,
// shape: () =>
// objectUtil.mergeShapes(this._def.shape(), merging._def.shape()),
// typeName: ZodFirstPartyTypeKind.ZodObject,
// }) as any;
// return merged;
// }
catchall(index4) {
return new _ZodObject({
...this._def,
catchall: index4
});
}
pick(mask) {
const shape = {};
util.objectKeys(mask).forEach((key) => {
if (mask[key] && this.shape[key]) {
shape[key] = this.shape[key];
}
});
return new _ZodObject({
...this._def,
shape: () => shape
});
}
omit(mask) {
const shape = {};
util.objectKeys(this.shape).forEach((key) => {
if (!mask[key]) {
shape[key] = this.shape[key];
}
});
return new _ZodObject({
...this._def,
shape: () => shape
});
}
/**
* @deprecated
*/
deepPartial() {
return deepPartialify(this);
}
partial(mask) {
const newShape = {};
util.objectKeys(this.shape).forEach((key) => {
const fieldSchema = this.shape[key];
if (mask && !mask[key]) {
newShape[key] = fieldSchema;
} else {
newShape[key] = fieldSchema.optional();
}
});
return new _ZodObject({
...this._def,
shape: () => newShape
});
}
required(mask) {
const newShape = {};
util.objectKeys(this.shape).forEach((key) => {
if (mask && !mask[key]) {
newShape[key] = this.shape[key];
} else {
const fieldSchema = this.shape[key];
let newField = fieldSchema;
while (newField instanceof ZodOptional) {
newField = newField._def.innerType;
}
newShape[key] = newField;
}
});
return new _ZodObject({
...this._def,
shape: () => newShape
});
}
keyof() {
return createZodEnum(util.objectKeys(this.shape));
}
};
ZodObject.create = (shape, params) => {
return new ZodObject({
shape: () => shape,
unknownKeys: "strip",
catchall: ZodNever.create(),
typeName: ZodFirstPartyTypeKind.ZodObject,
...processCreateParams(params)
});
};
ZodObject.strictCreate = (shape, params) => {
return new ZodObject({
shape: () => shape,
unknownKeys: "strict",
catchall: ZodNever.create(),
typeName: ZodFirstPartyTypeKind.ZodObject,
...processCreateParams(params)
});
};
ZodObject.lazycreate = (shape, params) => {
return new ZodObject({
shape,
unknownKeys: "strip",
catchall: ZodNever.create(),
typeName: ZodFirstPartyTypeKind.ZodObject,
...processCreateParams(params)
});
};
var ZodUnion = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
const options = this._def.options;
function handleResults(results) {
for (const result of results) {
if (result.result.status === "valid") {
return result.result;
}
}
for (const result of results) {
if (result.result.status === "dirty") {
ctx.common.issues.push(...result.ctx.common.issues);
return result.result;
}
}
const unionErrors = results.map((result) => new ZodError(result.ctx.common.issues));
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_union,
unionErrors
});
return INVALID;
}
if (ctx.common.async) {
return Promise.all(options.map(async (option) => {
const childCtx = {
...ctx,
common: {
...ctx.common,
issues: []
},
parent: null
};
return {
result: await option._parseAsync({
data: ctx.data,
path: ctx.path,
parent: childCtx
}),
ctx: childCtx
};
})).then(handleResults);
} else {
let dirty = void 0;
const issues = [];
for (const option of options) {
const childCtx = {
...ctx,
common: {
...ctx.common,
issues: []
},
parent: null
};
const result = option._parseSync({
data: ctx.data,
path: ctx.path,
parent: childCtx
});
if (result.status === "valid") {
return result;
} else if (result.status === "dirty" && !dirty) {
dirty = { result, ctx: childCtx };
}
if (childCtx.common.issues.length) {
issues.push(childCtx.common.issues);
}
}
if (dirty) {
ctx.common.issues.push(...dirty.ctx.common.issues);
return dirty.result;
}
const unionErrors = issues.map((issues2) => new ZodError(issues2));
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_union,
unionErrors
});
return INVALID;
}
}
get options() {
return this._def.options;
}
};
ZodUnion.create = (types, params) => {
return new ZodUnion({
options: types,
typeName: ZodFirstPartyTypeKind.ZodUnion,
...processCreateParams(params)
});
};
var getDiscriminator = (type) => {
if (type instanceof ZodLazy) {
return getDiscriminator(type.schema);
} else if (type instanceof ZodEffects) {
return getDiscriminator(type.innerType());
} else if (type instanceof ZodLiteral) {
return [type.value];
} else if (type instanceof ZodEnum) {
return type.options;
} else if (type instanceof ZodNativeEnum) {
return util.objectValues(type.enum);
} else if (type instanceof ZodDefault) {
return getDiscriminator(type._def.innerType);
} else if (type instanceof ZodUndefined) {
return [void 0];
} else if (type instanceof ZodNull) {
return [null];
} else if (type instanceof ZodOptional) {
return [void 0, ...getDiscriminator(type.unwrap())];
} else if (type instanceof ZodNullable) {
return [null, ...getDiscriminator(type.unwrap())];
} else if (type instanceof ZodBranded) {
return getDiscriminator(type.unwrap());
} else if (type instanceof ZodReadonly) {
return getDiscriminator(type.unwrap());
} else if (type instanceof ZodCatch) {
return getDiscriminator(type._def.innerType);
} else {
return [];
}
};
var ZodDiscriminatedUnion = class _ZodDiscriminatedUnion extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.object) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.object,
received: ctx.parsedType
});
return INVALID;
}
const discriminator = this.discriminator;
const discriminatorValue = ctx.data[discriminator];
const option = this.optionsMap.get(discriminatorValue);
if (!option) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_union_discriminator,
options: Array.from(this.optionsMap.keys()),
path: [discriminator]
});
return INVALID;
}
if (ctx.common.async) {
return option._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
} else {
return option._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
}
}
get discriminator() {
return this._def.discriminator;
}
get options() {
return this._def.options;
}
get optionsMap() {
return this._def.optionsMap;
}
/**
* The constructor of the discriminated union schema. Its behaviour is very similar to that of the normal z.union() constructor.
* However, it only allows a union of objects, all of which need to share a discriminator property. This property must
* have a different value for each object in the union.
* @param discriminator the name of the discriminator property
* @param types an array of object schemas
* @param params
*/
static create(discriminator, options, params) {
const optionsMap = /* @__PURE__ */ new Map();
for (const type of options) {
const discriminatorValues = getDiscriminator(type.shape[discriminator]);
if (!discriminatorValues.length) {
throw new Error(`A discriminator value for key \`${discriminator}\` could not be extracted from all schema options`);
}
for (const value of discriminatorValues) {
if (optionsMap.has(value)) {
throw new Error(`Discriminator property ${String(discriminator)} has duplicate value ${String(value)}`);
}
optionsMap.set(value, type);
}
}
return new _ZodDiscriminatedUnion({
typeName: ZodFirstPartyTypeKind.ZodDiscriminatedUnion,
discriminator,
options,
optionsMap,
...processCreateParams(params)
});
}
};
function mergeValues(a, b) {
const aType = getParsedType(a);
const bType = getParsedType(b);
if (a === b) {
return { valid: true, data: a };
} else if (aType === ZodParsedType.object && bType === ZodParsedType.object) {
const bKeys = util.objectKeys(b);
const sharedKeys = util.objectKeys(a).filter((key) => bKeys.indexOf(key) !== -1);
const newObj = { ...a, ...b };
for (const key of sharedKeys) {
const sharedValue = mergeValues(a[key], b[key]);
if (!sharedValue.valid) {
return { valid: false };
}
newObj[key] = sharedValue.data;
}
return { valid: true, data: newObj };
} else if (aType === ZodParsedType.array && bType === ZodParsedType.array) {
if (a.length !== b.length) {
return { valid: false };
}
const newArray = [];
for (let index4 = 0; index4 < a.length; index4++) {
const itemA = a[index4];
const itemB = b[index4];
const sharedValue = mergeValues(itemA, itemB);
if (!sharedValue.valid) {
return { valid: false };
}
newArray.push(sharedValue.data);
}
return { valid: true, data: newArray };
} else if (aType === ZodParsedType.date && bType === ZodParsedType.date && +a === +b) {
return { valid: true, data: a };
} else {
return { valid: false };
}
}
var ZodIntersection = class extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
const handleParsed = (parsedLeft, parsedRight) => {
if (isAborted(parsedLeft) || isAborted(parsedRight)) {
return INVALID;
}
const merged = mergeValues(parsedLeft.value, parsedRight.value);
if (!merged.valid) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_intersection_types
});
return INVALID;
}
if (isDirty(parsedLeft) || isDirty(parsedRight)) {
status.dirty();
}
return { status: status.value, value: merged.data };
};
if (ctx.common.async) {
return Promise.all([
this._def.left._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
}),
this._def.right._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
})
]).then(([left, right]) => handleParsed(left, right));
} else {
return handleParsed(this._def.left._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
}), this._def.right._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
}));
}
}
};
ZodIntersection.create = (left, right, params) => {
return new ZodIntersection({
left,
right,
typeName: ZodFirstPartyTypeKind.ZodIntersection,
...processCreateParams(params)
});
};
var ZodTuple = class _ZodTuple extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.array) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.array,
received: ctx.parsedType
});
return INVALID;
}
if (ctx.data.length < this._def.items.length) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: this._def.items.length,
inclusive: true,
exact: false,
type: "array"
});
return INVALID;
}
const rest = this._def.rest;
if (!rest && ctx.data.length > this._def.items.length) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: this._def.items.length,
inclusive: true,
exact: false,
type: "array"
});
status.dirty();
}
const items = [...ctx.data].map((item, itemIndex) => {
const schema3 = this._def.items[itemIndex] || this._def.rest;
if (!schema3)
return null;
return schema3._parse(new ParseInputLazyPath(ctx, item, ctx.path, itemIndex));
}).filter((x) => !!x);
if (ctx.common.async) {
return Promise.all(items).then((results) => {
return ParseStatus.mergeArray(status, results);
});
} else {
return ParseStatus.mergeArray(status, items);
}
}
get items() {
return this._def.items;
}
rest(rest) {
return new _ZodTuple({
...this._def,
rest
});
}
};
ZodTuple.create = (schemas, params) => {
if (!Array.isArray(schemas)) {
throw new Error("You must pass an array of schemas to z.tuple([ ... ])");
}
return new ZodTuple({
items: schemas,
typeName: ZodFirstPartyTypeKind.ZodTuple,
rest: null,
...processCreateParams(params)
});
};
var ZodRecord = class _ZodRecord extends ZodType {
get keySchema() {
return this._def.keyType;
}
get valueSchema() {
return this._def.valueType;
}
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.object) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.object,
received: ctx.parsedType
});
return INVALID;
}
const pairs = [];
const keyType = this._def.keyType;
const valueType = this._def.valueType;
for (const key in ctx.data) {
pairs.push({
key: keyType._parse(new ParseInputLazyPath(ctx, key, ctx.path, key)),
value: valueType._parse(new ParseInputLazyPath(ctx, ctx.data[key], ctx.path, key)),
alwaysSet: key in ctx.data
});
}
if (ctx.common.async) {
return ParseStatus.mergeObjectAsync(status, pairs);
} else {
return ParseStatus.mergeObjectSync(status, pairs);
}
}
get element() {
return this._def.valueType;
}
static create(first, second, third) {
if (second instanceof ZodType) {
return new _ZodRecord({
keyType: first,
valueType: second,
typeName: ZodFirstPartyTypeKind.ZodRecord,
...processCreateParams(third)
});
}
return new _ZodRecord({
keyType: ZodString.create(),
valueType: first,
typeName: ZodFirstPartyTypeKind.ZodRecord,
...processCreateParams(second)
});
}
};
var ZodMap = class extends ZodType {
get keySchema() {
return this._def.keyType;
}
get valueSchema() {
return this._def.valueType;
}
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.map) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.map,
received: ctx.parsedType
});
return INVALID;
}
const keyType = this._def.keyType;
const valueType = this._def.valueType;
const pairs = [...ctx.data.entries()].map(([key, value], index4) => {
return {
key: keyType._parse(new ParseInputLazyPath(ctx, key, ctx.path, [index4, "key"])),
value: valueType._parse(new ParseInputLazyPath(ctx, value, ctx.path, [index4, "value"]))
};
});
if (ctx.common.async) {
const finalMap = /* @__PURE__ */ new Map();
return Promise.resolve().then(async () => {
for (const pair of pairs) {
const key = await pair.key;
const value = await pair.value;
if (key.status === "aborted" || value.status === "aborted") {
return INVALID;
}
if (key.status === "dirty" || value.status === "dirty") {
status.dirty();
}
finalMap.set(key.value, value.value);
}
return { status: status.value, value: finalMap };
});
} else {
const finalMap = /* @__PURE__ */ new Map();
for (const pair of pairs) {
const key = pair.key;
const value = pair.value;
if (key.status === "aborted" || value.status === "aborted") {
return INVALID;
}
if (key.status === "dirty" || value.status === "dirty") {
status.dirty();
}
finalMap.set(key.value, value.value);
}
return { status: status.value, value: finalMap };
}
}
};
ZodMap.create = (keyType, valueType, params) => {
return new ZodMap({
valueType,
keyType,
typeName: ZodFirstPartyTypeKind.ZodMap,
...processCreateParams(params)
});
};
var ZodSet = class _ZodSet extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.set) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.set,
received: ctx.parsedType
});
return INVALID;
}
const def = this._def;
if (def.minSize !== null) {
if (ctx.data.size < def.minSize.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_small,
minimum: def.minSize.value,
type: "set",
inclusive: true,
exact: false,
message: def.minSize.message
});
status.dirty();
}
}
if (def.maxSize !== null) {
if (ctx.data.size > def.maxSize.value) {
addIssueToContext(ctx, {
code: ZodIssueCode.too_big,
maximum: def.maxSize.value,
type: "set",
inclusive: true,
exact: false,
message: def.maxSize.message
});
status.dirty();
}
}
const valueType = this._def.valueType;
function finalizeSet(elements2) {
const parsedSet = /* @__PURE__ */ new Set();
for (const element of elements2) {
if (element.status === "aborted")
return INVALID;
if (element.status === "dirty")
status.dirty();
parsedSet.add(element.value);
}
return { status: status.value, value: parsedSet };
}
const elements = [...ctx.data.values()].map((item, i) => valueType._parse(new ParseInputLazyPath(ctx, item, ctx.path, i)));
if (ctx.common.async) {
return Promise.all(elements).then((elements2) => finalizeSet(elements2));
} else {
return finalizeSet(elements);
}
}
min(minSize, message) {
return new _ZodSet({
...this._def,
minSize: { value: minSize, message: errorUtil.toString(message) }
});
}
max(maxSize, message) {
return new _ZodSet({
...this._def,
maxSize: { value: maxSize, message: errorUtil.toString(message) }
});
}
size(size, message) {
return this.min(size, message).max(size, message);
}
nonempty(message) {
return this.min(1, message);
}
};
ZodSet.create = (valueType, params) => {
return new ZodSet({
valueType,
minSize: null,
maxSize: null,
typeName: ZodFirstPartyTypeKind.ZodSet,
...processCreateParams(params)
});
};
var ZodFunction = class _ZodFunction extends ZodType {
constructor() {
super(...arguments);
this.validate = this.implement;
}
_parse(input) {
const { ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.function) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.function,
received: ctx.parsedType
});
return INVALID;
}
function makeArgsIssue(args, error) {
return makeIssue({
data: args,
path: ctx.path,
errorMaps: [
ctx.common.contextualErrorMap,
ctx.schemaErrorMap,
getErrorMap(),
errorMap
].filter((x) => !!x),
issueData: {
code: ZodIssueCode.invalid_arguments,
argumentsError: error
}
});
}
function makeReturnsIssue(returns, error) {
return makeIssue({
data: returns,
path: ctx.path,
errorMaps: [
ctx.common.contextualErrorMap,
ctx.schemaErrorMap,
getErrorMap(),
errorMap
].filter((x) => !!x),
issueData: {
code: ZodIssueCode.invalid_return_type,
returnTypeError: error
}
});
}
const params = { errorMap: ctx.common.contextualErrorMap };
const fn = ctx.data;
if (this._def.returns instanceof ZodPromise) {
const me = this;
return OK(async function(...args) {
const error = new ZodError([]);
const parsedArgs = await me._def.args.parseAsync(args, params).catch((e) => {
error.addIssue(makeArgsIssue(args, e));
throw error;
});
const result = await Reflect.apply(fn, this, parsedArgs);
const parsedReturns = await me._def.returns._def.type.parseAsync(result, params).catch((e) => {
error.addIssue(makeReturnsIssue(result, e));
throw error;
});
return parsedReturns;
});
} else {
const me = this;
return OK(function(...args) {
const parsedArgs = me._def.args.safeParse(args, params);
if (!parsedArgs.success) {
throw new ZodError([makeArgsIssue(args, parsedArgs.error)]);
}
const result = Reflect.apply(fn, this, parsedArgs.data);
const parsedReturns = me._def.returns.safeParse(result, params);
if (!parsedReturns.success) {
throw new ZodError([makeReturnsIssue(result, parsedReturns.error)]);
}
return parsedReturns.data;
});
}
}
parameters() {
return this._def.args;
}
returnType() {
return this._def.returns;
}
args(...items) {
return new _ZodFunction({
...this._def,
args: ZodTuple.create(items).rest(ZodUnknown.create())
});
}
returns(returnType) {
return new _ZodFunction({
...this._def,
returns: returnType
});
}
implement(func) {
const validatedFunc = this.parse(func);
return validatedFunc;
}
strictImplement(func) {
const validatedFunc = this.parse(func);
return validatedFunc;
}
static create(args, returns, params) {
return new _ZodFunction({
args: args ? args : ZodTuple.create([]).rest(ZodUnknown.create()),
returns: returns || ZodUnknown.create(),
typeName: ZodFirstPartyTypeKind.ZodFunction,
...processCreateParams(params)
});
}
};
var ZodLazy = class extends ZodType {
get schema() {
return this._def.getter();
}
_parse(input) {
const { ctx } = this._processInputParams(input);
const lazySchema = this._def.getter();
return lazySchema._parse({ data: ctx.data, path: ctx.path, parent: ctx });
}
};
ZodLazy.create = (getter, params) => {
return new ZodLazy({
getter,
typeName: ZodFirstPartyTypeKind.ZodLazy,
...processCreateParams(params)
});
};
var ZodLiteral = class extends ZodType {
_parse(input) {
if (input.data !== this._def.value) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
received: ctx.data,
code: ZodIssueCode.invalid_literal,
expected: this._def.value
});
return INVALID;
}
return { status: "valid", value: input.data };
}
get value() {
return this._def.value;
}
};
ZodLiteral.create = (value, params) => {
return new ZodLiteral({
value,
typeName: ZodFirstPartyTypeKind.ZodLiteral,
...processCreateParams(params)
});
};
function createZodEnum(values, params) {
return new ZodEnum({
values,
typeName: ZodFirstPartyTypeKind.ZodEnum,
...processCreateParams(params)
});
}
var ZodEnum = class _ZodEnum extends ZodType {
constructor() {
super(...arguments);
_ZodEnum_cache.set(this, void 0);
}
_parse(input) {
if (typeof input.data !== "string") {
const ctx = this._getOrReturnCtx(input);
const expectedValues = this._def.values;
addIssueToContext(ctx, {
expected: util.joinValues(expectedValues),
received: ctx.parsedType,
code: ZodIssueCode.invalid_type
});
return INVALID;
}
if (!__classPrivateFieldGet(this, _ZodEnum_cache, "f")) {
__classPrivateFieldSet(this, _ZodEnum_cache, new Set(this._def.values), "f");
}
if (!__classPrivateFieldGet(this, _ZodEnum_cache, "f").has(input.data)) {
const ctx = this._getOrReturnCtx(input);
const expectedValues = this._def.values;
addIssueToContext(ctx, {
received: ctx.data,
code: ZodIssueCode.invalid_enum_value,
options: expectedValues
});
return INVALID;
}
return OK(input.data);
}
get options() {
return this._def.values;
}
get enum() {
const enumValues = {};
for (const val of this._def.values) {
enumValues[val] = val;
}
return enumValues;
}
get Values() {
const enumValues = {};
for (const val of this._def.values) {
enumValues[val] = val;
}
return enumValues;
}
get Enum() {
const enumValues = {};
for (const val of this._def.values) {
enumValues[val] = val;
}
return enumValues;
}
extract(values, newDef = this._def) {
return _ZodEnum.create(values, {
...this._def,
...newDef
});
}
exclude(values, newDef = this._def) {
return _ZodEnum.create(this.options.filter((opt) => !values.includes(opt)), {
...this._def,
...newDef
});
}
};
_ZodEnum_cache = /* @__PURE__ */ new WeakMap();
ZodEnum.create = createZodEnum;
var ZodNativeEnum = class extends ZodType {
constructor() {
super(...arguments);
_ZodNativeEnum_cache.set(this, void 0);
}
_parse(input) {
const nativeEnumValues = util.getValidEnumValues(this._def.values);
const ctx = this._getOrReturnCtx(input);
if (ctx.parsedType !== ZodParsedType.string && ctx.parsedType !== ZodParsedType.number) {
const expectedValues = util.objectValues(nativeEnumValues);
addIssueToContext(ctx, {
expected: util.joinValues(expectedValues),
received: ctx.parsedType,
code: ZodIssueCode.invalid_type
});
return INVALID;
}
if (!__classPrivateFieldGet(this, _ZodNativeEnum_cache, "f")) {
__classPrivateFieldSet(this, _ZodNativeEnum_cache, new Set(util.getValidEnumValues(this._def.values)), "f");
}
if (!__classPrivateFieldGet(this, _ZodNativeEnum_cache, "f").has(input.data)) {
const expectedValues = util.objectValues(nativeEnumValues);
addIssueToContext(ctx, {
received: ctx.data,
code: ZodIssueCode.invalid_enum_value,
options: expectedValues
});
return INVALID;
}
return OK(input.data);
}
get enum() {
return this._def.values;
}
};
_ZodNativeEnum_cache = /* @__PURE__ */ new WeakMap();
ZodNativeEnum.create = (values, params) => {
return new ZodNativeEnum({
values,
typeName: ZodFirstPartyTypeKind.ZodNativeEnum,
...processCreateParams(params)
});
};
var ZodPromise = class extends ZodType {
unwrap() {
return this._def.type;
}
_parse(input) {
const { ctx } = this._processInputParams(input);
if (ctx.parsedType !== ZodParsedType.promise && ctx.common.async === false) {
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.promise,
received: ctx.parsedType
});
return INVALID;
}
const promisified = ctx.parsedType === ZodParsedType.promise ? ctx.data : Promise.resolve(ctx.data);
return OK(promisified.then((data) => {
return this._def.type.parseAsync(data, {
path: ctx.path,
errorMap: ctx.common.contextualErrorMap
});
}));
}
};
ZodPromise.create = (schema3, params) => {
return new ZodPromise({
type: schema3,
typeName: ZodFirstPartyTypeKind.ZodPromise,
...processCreateParams(params)
});
};
var ZodEffects = class extends ZodType {
innerType() {
return this._def.schema;
}
sourceType() {
return this._def.schema._def.typeName === ZodFirstPartyTypeKind.ZodEffects ? this._def.schema.sourceType() : this._def.schema;
}
_parse(input) {
const { status, ctx } = this._processInputParams(input);
const effect = this._def.effect || null;
const checkCtx = {
addIssue: (arg) => {
addIssueToContext(ctx, arg);
if (arg.fatal) {
status.abort();
} else {
status.dirty();
}
},
get path() {
return ctx.path;
}
};
checkCtx.addIssue = checkCtx.addIssue.bind(checkCtx);
if (effect.type === "preprocess") {
const processed = effect.transform(ctx.data, checkCtx);
if (ctx.common.async) {
return Promise.resolve(processed).then(async (processed2) => {
if (status.value === "aborted")
return INVALID;
const result = await this._def.schema._parseAsync({
data: processed2,
path: ctx.path,
parent: ctx
});
if (result.status === "aborted")
return INVALID;
if (result.status === "dirty")
return DIRTY(result.value);
if (status.value === "dirty")
return DIRTY(result.value);
return result;
});
} else {
if (status.value === "aborted")
return INVALID;
const result = this._def.schema._parseSync({
data: processed,
path: ctx.path,
parent: ctx
});
if (result.status === "aborted")
return INVALID;
if (result.status === "dirty")
return DIRTY(result.value);
if (status.value === "dirty")
return DIRTY(result.value);
return result;
}
}
if (effect.type === "refinement") {
const executeRefinement = (acc) => {
const result = effect.refinement(acc, checkCtx);
if (ctx.common.async) {
return Promise.resolve(result);
}
if (result instanceof Promise) {
throw new Error("Async refinement encountered during synchronous parse operation. Use .parseAsync instead.");
}
return acc;
};
if (ctx.common.async === false) {
const inner = this._def.schema._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (inner.status === "aborted")
return INVALID;
if (inner.status === "dirty")
status.dirty();
executeRefinement(inner.value);
return { status: status.value, value: inner.value };
} else {
return this._def.schema._parseAsync({ data: ctx.data, path: ctx.path, parent: ctx }).then((inner) => {
if (inner.status === "aborted")
return INVALID;
if (inner.status === "dirty")
status.dirty();
return executeRefinement(inner.value).then(() => {
return { status: status.value, value: inner.value };
});
});
}
}
if (effect.type === "transform") {
if (ctx.common.async === false) {
const base = this._def.schema._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (!isValid(base))
return base;
const result = effect.transform(base.value, checkCtx);
if (result instanceof Promise) {
throw new Error(`Asynchronous transform encountered during synchronous parse operation. Use .parseAsync instead.`);
}
return { status: status.value, value: result };
} else {
return this._def.schema._parseAsync({ data: ctx.data, path: ctx.path, parent: ctx }).then((base) => {
if (!isValid(base))
return base;
return Promise.resolve(effect.transform(base.value, checkCtx)).then((result) => ({ status: status.value, value: result }));
});
}
}
util.assertNever(effect);
}
};
ZodEffects.create = (schema3, effect, params) => {
return new ZodEffects({
schema: schema3,
typeName: ZodFirstPartyTypeKind.ZodEffects,
effect,
...processCreateParams(params)
});
};
ZodEffects.createWithPreprocess = (preprocess, schema3, params) => {
return new ZodEffects({
schema: schema3,
effect: { type: "preprocess", transform: preprocess },
typeName: ZodFirstPartyTypeKind.ZodEffects,
...processCreateParams(params)
});
};
var ZodOptional = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType === ZodParsedType.undefined) {
return OK(void 0);
}
return this._def.innerType._parse(input);
}
unwrap() {
return this._def.innerType;
}
};
ZodOptional.create = (type, params) => {
return new ZodOptional({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodOptional,
...processCreateParams(params)
});
};
var ZodNullable = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType === ZodParsedType.null) {
return OK(null);
}
return this._def.innerType._parse(input);
}
unwrap() {
return this._def.innerType;
}
};
ZodNullable.create = (type, params) => {
return new ZodNullable({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodNullable,
...processCreateParams(params)
});
};
var ZodDefault = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
let data = ctx.data;
if (ctx.parsedType === ZodParsedType.undefined) {
data = this._def.defaultValue();
}
return this._def.innerType._parse({
data,
path: ctx.path,
parent: ctx
});
}
removeDefault() {
return this._def.innerType;
}
};
ZodDefault.create = (type, params) => {
return new ZodDefault({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodDefault,
defaultValue: typeof params.default === "function" ? params.default : () => params.default,
...processCreateParams(params)
});
};
var ZodCatch = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
const newCtx = {
...ctx,
common: {
...ctx.common,
issues: []
}
};
const result = this._def.innerType._parse({
data: newCtx.data,
path: newCtx.path,
parent: {
...newCtx
}
});
if (isAsync(result)) {
return result.then((result2) => {
return {
status: "valid",
value: result2.status === "valid" ? result2.value : this._def.catchValue({
get error() {
return new ZodError(newCtx.common.issues);
},
input: newCtx.data
})
};
});
} else {
return {
status: "valid",
value: result.status === "valid" ? result.value : this._def.catchValue({
get error() {
return new ZodError(newCtx.common.issues);
},
input: newCtx.data
})
};
}
}
removeCatch() {
return this._def.innerType;
}
};
ZodCatch.create = (type, params) => {
return new ZodCatch({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodCatch,
catchValue: typeof params.catch === "function" ? params.catch : () => params.catch,
...processCreateParams(params)
});
};
var ZodNaN = class extends ZodType {
_parse(input) {
const parsedType = this._getType(input);
if (parsedType !== ZodParsedType.nan) {
const ctx = this._getOrReturnCtx(input);
addIssueToContext(ctx, {
code: ZodIssueCode.invalid_type,
expected: ZodParsedType.nan,
received: ctx.parsedType
});
return INVALID;
}
return { status: "valid", value: input.data };
}
};
ZodNaN.create = (params) => {
return new ZodNaN({
typeName: ZodFirstPartyTypeKind.ZodNaN,
...processCreateParams(params)
});
};
var BRAND = Symbol("zod_brand");
var ZodBranded = class extends ZodType {
_parse(input) {
const { ctx } = this._processInputParams(input);
const data = ctx.data;
return this._def.type._parse({
data,
path: ctx.path,
parent: ctx
});
}
unwrap() {
return this._def.type;
}
};
var ZodPipeline = class _ZodPipeline extends ZodType {
_parse(input) {
const { status, ctx } = this._processInputParams(input);
if (ctx.common.async) {
const handleAsync = async () => {
const inResult = await this._def.in._parseAsync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (inResult.status === "aborted")
return INVALID;
if (inResult.status === "dirty") {
status.dirty();
return DIRTY(inResult.value);
} else {
return this._def.out._parseAsync({
data: inResult.value,
path: ctx.path,
parent: ctx
});
}
};
return handleAsync();
} else {
const inResult = this._def.in._parseSync({
data: ctx.data,
path: ctx.path,
parent: ctx
});
if (inResult.status === "aborted")
return INVALID;
if (inResult.status === "dirty") {
status.dirty();
return {
status: "dirty",
value: inResult.value
};
} else {
return this._def.out._parseSync({
data: inResult.value,
path: ctx.path,
parent: ctx
});
}
}
}
static create(a, b) {
return new _ZodPipeline({
in: a,
out: b,
typeName: ZodFirstPartyTypeKind.ZodPipeline
});
}
};
var ZodReadonly = class extends ZodType {
_parse(input) {
const result = this._def.innerType._parse(input);
const freeze = (data) => {
if (isValid(data)) {
data.value = Object.freeze(data.value);
}
return data;
};
return isAsync(result) ? result.then((data) => freeze(data)) : freeze(result);
}
unwrap() {
return this._def.innerType;
}
};
ZodReadonly.create = (type, params) => {
return new ZodReadonly({
innerType: type,
typeName: ZodFirstPartyTypeKind.ZodReadonly,
...processCreateParams(params)
});
};
var late = {
object: ZodObject.lazycreate
};
var ZodFirstPartyTypeKind;
(function(ZodFirstPartyTypeKind2) {
ZodFirstPartyTypeKind2["ZodString"] = "ZodString";
ZodFirstPartyTypeKind2["ZodNumber"] = "ZodNumber";
ZodFirstPartyTypeKind2["ZodNaN"] = "ZodNaN";
ZodFirstPartyTypeKind2["ZodBigInt"] = "ZodBigInt";
ZodFirstPartyTypeKind2["ZodBoolean"] = "ZodBoolean";
ZodFirstPartyTypeKind2["ZodDate"] = "ZodDate";
ZodFirstPartyTypeKind2["ZodSymbol"] = "ZodSymbol";
ZodFirstPartyTypeKind2["ZodUndefined"] = "ZodUndefined";
ZodFirstPartyTypeKind2["ZodNull"] = "ZodNull";
ZodFirstPartyTypeKind2["ZodAny"] = "ZodAny";
ZodFirstPartyTypeKind2["ZodUnknown"] = "ZodUnknown";
ZodFirstPartyTypeKind2["ZodNever"] = "ZodNever";
ZodFirstPartyTypeKind2["ZodVoid"] = "ZodVoid";
ZodFirstPartyTypeKind2["ZodArray"] = "ZodArray";
ZodFirstPartyTypeKind2["ZodObject"] = "ZodObject";
ZodFirstPartyTypeKind2["ZodUnion"] = "ZodUnion";
ZodFirstPartyTypeKind2["ZodDiscriminatedUnion"] = "ZodDiscriminatedUnion";
ZodFirstPartyTypeKind2["ZodIntersection"] = "ZodIntersection";
ZodFirstPartyTypeKind2["ZodTuple"] = "ZodTuple";
ZodFirstPartyTypeKind2["ZodRecord"] = "ZodRecord";
ZodFirstPartyTypeKind2["ZodMap"] = "ZodMap";
ZodFirstPartyTypeKind2["ZodSet"] = "ZodSet";
ZodFirstPartyTypeKind2["ZodFunction"] = "ZodFunction";
ZodFirstPartyTypeKind2["ZodLazy"] = "ZodLazy";
ZodFirstPartyTypeKind2["ZodLiteral"] = "ZodLiteral";
ZodFirstPartyTypeKind2["ZodEnum"] = "ZodEnum";
ZodFirstPartyTypeKind2["ZodEffects"] = "ZodEffects";
ZodFirstPartyTypeKind2["ZodNativeEnum"] = "ZodNativeEnum";
ZodFirstPartyTypeKind2["ZodOptional"] = "ZodOptional";
ZodFirstPartyTypeKind2["ZodNullable"] = "ZodNullable";
ZodFirstPartyTypeKind2["ZodDefault"] = "ZodDefault";
ZodFirstPartyTypeKind2["ZodCatch"] = "ZodCatch";
ZodFirstPartyTypeKind2["ZodPromise"] = "ZodPromise";
ZodFirstPartyTypeKind2["ZodBranded"] = "ZodBranded";
ZodFirstPartyTypeKind2["ZodPipeline"] = "ZodPipeline";
ZodFirstPartyTypeKind2["ZodReadonly"] = "ZodReadonly";
})(ZodFirstPartyTypeKind || (ZodFirstPartyTypeKind = {}));
var stringType = ZodString.create;
var numberType = ZodNumber.create;
var nanType = ZodNaN.create;
var bigIntType = ZodBigInt.create;
var booleanType = ZodBoolean.create;
var dateType = ZodDate.create;
var symbolType = ZodSymbol.create;
var undefinedType = ZodUndefined.create;
var nullType = ZodNull.create;
var anyType = ZodAny.create;
var unknownType = ZodUnknown.create;
var neverType = ZodNever.create;
var voidType = ZodVoid.create;
var arrayType = ZodArray.create;
var objectType = ZodObject.create;
var strictObjectType = ZodObject.strictCreate;
var unionType = ZodUnion.create;
var discriminatedUnionType = ZodDiscriminatedUnion.create;
var intersectionType = ZodIntersection.create;
var tupleType = ZodTuple.create;
var recordType = ZodRecord.create;
var mapType = ZodMap.create;
var setType = ZodSet.create;
var functionType = ZodFunction.create;
var lazyType = ZodLazy.create;
var literalType = ZodLiteral.create;
var enumType = ZodEnum.create;
var nativeEnumType = ZodNativeEnum.create;
var promiseType = ZodPromise.create;
var effectsType = ZodEffects.create;
var optionalType = ZodOptional.create;
var nullableType = ZodNullable.create;
var preprocessType = ZodEffects.createWithPreprocess;
var pipelineType = ZodPipeline.create;
// src/serializer/mysqlSchema.ts
var index = objectType({
name: stringType(),
columns: stringType().array(),
isUnique: booleanType(),
using: enumType(["btree", "hash"]).optional(),
algorithm: enumType(["default", "inplace", "copy"]).optional(),
lock: enumType(["default", "none", "shared", "exclusive"]).optional()
}).strict();
var fk = objectType({
name: stringType(),
tableFrom: stringType(),
columnsFrom: stringType().array(),
tableTo: stringType(),
columnsTo: stringType().array(),
onUpdate: stringType().optional(),
onDelete: stringType().optional()
}).strict();
var column = objectType({
name: stringType(),
type: stringType(),
primaryKey: booleanType(),
notNull: booleanType(),
autoincrement: booleanType().optional(),
default: anyType().optional(),
onUpdate: anyType().optional(),
generated: objectType({
type: enumType(["stored", "virtual"]),
as: stringType()
}).optional()
}).strict();
var tableV3 = objectType({
name: stringType(),
columns: recordType(stringType(), column),
indexes: recordType(stringType(), index),
foreignKeys: recordType(stringType(), fk)
}).strict();
var compositePK = objectType({
name: stringType(),
columns: stringType().array()
}).strict();
var uniqueConstraint = objectType({
name: stringType(),
columns: stringType().array()
}).strict();
var checkConstraint = objectType({
name: stringType(),
value: stringType()
}).strict();
var tableV4 = objectType({
name: stringType(),
schema: stringType().optional(),
columns: recordType(stringType(), column),
indexes: recordType(stringType(), index),
foreignKeys: recordType(stringType(), fk)
}).strict();
var table = objectType({
name: stringType(),
columns: recordType(stringType(), column),
indexes: recordType(stringType(), index),
foreignKeys: recordType(stringType(), fk),
compositePrimaryKeys: recordType(stringType(), compositePK),
uniqueConstraints: recordType(stringType(), uniqueConstraint).default({}),
checkConstraint: recordType(stringType(), checkConstraint).default({})
}).strict();
var viewMeta = objectType({
algorithm: enumType(["undefined", "merge", "temptable"]),
sqlSecurity: enumType(["definer", "invoker"]),
withCheckOption: enumType(["local", "cascaded"]).optional()
}).strict();
var view = objectType({
name: stringType(),
columns: recordType(stringType(), column),
definition: stringType().optional(),
isExisting: booleanType()
}).strict().merge(viewMeta);
var kitInternals = objectType({
tables: recordType(
stringType(),
objectType({
columns: recordType(
stringType(),
objectType({ isDefaultAnExpression: booleanType().optional() }).optional()
)
}).optional()
).optional(),
indexes: recordType(
stringType(),
objectType({
columns: recordType(
stringType(),
objectType({ isExpression: booleanType().optional() }).optional()
)
}).optional()
).optional()
}).optional();
var dialect = literalType("mysql");
var schemaHash = objectType({
id: stringType(),
prevId: stringType()
});
var schemaInternalV3 = objectType({
version: literalType("3"),
dialect,
tables: recordType(stringType(), tableV3)
}).strict();
var schemaInternalV4 = objectType({
version: literalType("4"),
dialect,
tables: recordType(stringType(), tableV4),
schemas: recordType(stringType(), stringType())
}).strict();
var schemaInternalV5 = objectType({
version: literalType("5"),
dialect,
tables: recordType(stringType(), table),
schemas: recordType(stringType(), stringType()),
_meta: objectType({
schemas: recordType(stringType(), stringType()),
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals
}).strict();
var schemaInternal = objectType({
version: literalType("5"),
dialect,
tables: recordType(stringType(), table),
views: recordType(stringType(), view).default({}),
_meta: objectType({
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals
}).strict();
var schemaV3 = schemaInternalV3.merge(schemaHash);
var schemaV4 = schemaInternalV4.merge(schemaHash);
var schemaV5 = schemaInternalV5.merge(schemaHash);
var schema = schemaInternal.merge(schemaHash);
var tableSquashedV4 = objectType({
name: stringType(),
schema: stringType().optional(),
columns: recordType(stringType(), column),
indexes: recordType(stringType(), stringType()),
foreignKeys: recordType(stringType(), stringType())
}).strict();
var tableSquashed = objectType({
name: stringType(),
columns: recordType(stringType(), column),
indexes: recordType(stringType(), stringType()),
foreignKeys: recordType(stringType(), stringType()),
compositePrimaryKeys: recordType(stringType(), stringType()),
uniqueConstraints: recordType(stringType(), stringType()).default({}),
checkConstraints: recordType(stringType(), stringType()).default({})
}).strict();
var viewSquashed = view.omit({
algorithm: true,
sqlSecurity: true,
withCheckOption: true
}).extend({ meta: stringType() });
var schemaSquashed = objectType({
version: literalType("5"),
dialect,
tables: recordType(stringType(), tableSquashed),
views: recordType(stringType(), viewSquashed)
}).strict();
var schemaSquashedV4 = objectType({
version: literalType("4"),
dialect,
tables: recordType(stringType(), tableSquashedV4),
schemas: recordType(stringType(), stringType())
}).strict();
var mysqlSchema = schema;
var mysqlSchemaV5 = schemaV5;
var backwardCompatibleMysqlSchema = unionType([mysqlSchemaV5, schema]);
var dryMySql = mysqlSchema.parse({
version: "5",
dialect: "mysql",
id: originUUID,
prevId: "",
tables: {},
schemas: {},
views: {},
_meta: {
schemas: {},
tables: {},
columns: {}
}
});
// src/serializer/pgSchema.ts
var indexV2 = objectType({
name: stringType(),
columns: recordType(
stringType(),
objectType({
name: stringType()
})
),
isUnique: booleanType()
}).strict();
var columnV2 = objectType({
name: stringType(),
type: stringType(),
primaryKey: booleanType(),
notNull: booleanType(),
default: anyType().optional(),
references: stringType().optional()
}).strict();
var tableV2 = objectType({
name: stringType(),
columns: recordType(stringType(), columnV2),
indexes: recordType(stringType(), indexV2)
}).strict();
var enumSchemaV1 = objectType({
name: stringType(),
values: recordType(stringType(), stringType())
}).strict();
var enumSchema = objectType({
name: stringType(),
schema: stringType(),
values: stringType().array()
}).strict();
var pgSchemaV2 = objectType({
version: literalType("2"),
tables: recordType(stringType(), tableV2),
enums: recordType(stringType(), enumSchemaV1)
}).strict();
var references = objectType({
foreignKeyName: stringType(),
table: stringType(),
column: stringType(),
onDelete: stringType().optional(),
onUpdate: stringType().optional()
}).strict();
var columnV1 = objectType({
name: stringType(),
type: stringType(),
primaryKey: booleanType(),
notNull: booleanType(),
default: anyType().optional(),
references: references.optional()
}).strict();
var tableV1 = objectType({
name: stringType(),
columns: recordType(stringType(), columnV1),
indexes: recordType(stringType(), indexV2)
}).strict();
var pgSchemaV1 = objectType({
version: literalType("1"),
tables: recordType(stringType(), tableV1),
enums: recordType(stringType(), enumSchemaV1)
}).strict();
var indexColumn = objectType({
expression: stringType(),
isExpression: booleanType(),
asc: booleanType(),
nulls: stringType().optional(),
opclass: stringType().optional()
});
var index2 = objectType({
name: stringType(),
columns: indexColumn.array(),
isUnique: booleanType(),
with: recordType(stringType(), anyType()).optional(),
method: stringType().default("btree"),
where: stringType().optional(),
concurrently: booleanType().default(false)
}).strict();
var indexV4 = objectType({
name: stringType(),
columns: stringType().array(),
isUnique: booleanType(),
with: recordType(stringType(), stringType()).optional(),
method: stringType().default("btree"),
where: stringType().optional(),
concurrently: booleanType().default(false)
}).strict();
var indexV5 = objectType({
name: stringType(),
columns: stringType().array(),
isUnique: booleanType(),
with: recordType(stringType(), stringType()).optional(),
method: stringType().default("btree"),
where: stringType().optional(),
concurrently: booleanType().default(false)
}).strict();
var indexV6 = objectType({
name: stringType(),
columns: stringType().array(),
isUnique: booleanType(),
with: recordType(stringType(), stringType()).optional(),
method: stringType().default("btree"),
where: stringType().optional(),
concurrently: booleanType().default(false)
}).strict();
var fk2 = objectType({
name: stringType(),
tableFrom: stringType(),
columnsFrom: stringType().array(),
tableTo: stringType(),
schemaTo: stringType().optional(),
columnsTo: stringType().array(),
onUpdate: stringType().optional(),
onDelete: stringType().optional()
}).strict();
var sequenceSchema = objectType({
name: stringType(),
increment: stringType().optional(),
minValue: stringType().optional(),
maxValue: stringType().optional(),
startWith: stringType().optional(),
cache: stringType().optional(),
cycle: booleanType().optional(),
schema: stringType()
}).strict();
var roleSchema = objectType({
name: stringType(),
createDb: booleanType().optional(),
createRole: booleanType().optional(),
inherit: booleanType().optional()
}).strict();
var sequenceSquashed = objectType({
name: stringType(),
schema: stringType(),
values: stringType()
}).strict();
var columnV7 = objectType({
name: stringType(),
type: stringType(),
typeSchema: stringType().optional(),
primaryKey: booleanType(),
notNull: booleanType(),
default: anyType().optional(),
isUnique: anyType().optional(),
uniqueName: stringType().optional(),
nullsNotDistinct: booleanType().optional()
}).strict();
var column2 = objectType({
name: stringType(),
type: stringType(),
typeSchema: stringType().optional(),
primaryKey: booleanType(),
notNull: booleanType(),
default: anyType().optional(),
isUnique: anyType().optional(),
uniqueName: stringType().optional(),
nullsNotDistinct: booleanType().optional(),
generated: objectType({
type: literalType("stored"),
as: stringType()
}).optional(),
identity: sequenceSchema.merge(objectType({ type: enumType(["always", "byDefault"]) })).optional()
}).strict();
var checkConstraint2 = objectType({
name: stringType(),
value: stringType()
}).strict();
var columnSquashed = objectType({
name: stringType(),
type: stringType(),
typeSchema: stringType().optional(),
primaryKey: booleanType(),
notNull: booleanType(),
default: anyType().optional(),
isUnique: anyType().optional(),
uniqueName: stringType().optional(),
nullsNotDistinct: booleanType().optional(),
generated: objectType({
type: literalType("stored"),
as: stringType()
}).optional(),
identity: stringType().optional()
}).strict();
var tableV32 = objectType({
name: stringType(),
columns: recordType(stringType(), column2),
indexes: recordType(stringType(), index2),
foreignKeys: recordType(stringType(), fk2)
}).strict();
var compositePK2 = objectType({
name: stringType(),
columns: stringType().array()
}).strict();
var uniqueConstraint2 = objectType({
name: stringType(),
columns: stringType().array(),
nullsNotDistinct: booleanType()
}).strict();
var policy = objectType({
name: stringType(),
as: enumType(["PERMISSIVE", "RESTRICTIVE"]).optional(),
for: enumType(["ALL", "SELECT", "INSERT", "UPDATE", "DELETE"]).optional(),
to: stringType().array().optional(),
using: stringType().optional(),
withCheck: stringType().optional(),
on: stringType().optional()
}).strict();
var policySquashed = objectType({
name: stringType(),
values: stringType()
}).strict();
var viewWithOption = objectType({
checkOption: enumType(["local", "cascaded"]).optional(),
securityBarrier: booleanType().optional(),
securityInvoker: booleanType().optional()
}).strict();
var matViewWithOption = objectType({
fillfactor: numberType().optional(),
toastTupleTarget: numberType().optional(),
parallelWorkers: numberType().optional(),
autovacuumEnabled: booleanType().optional(),
vacuumIndexCleanup: enumType(["auto", "off", "on"]).optional(),
vacuumTruncate: booleanType().optional(),
autovacuumVacuumThreshold: numberType().optional(),
autovacuumVacuumScaleFactor: numberType().optional(),
autovacuumVacuumCostDelay: numberType().optional(),
autovacuumVacuumCostLimit: numberType().optional(),
autovacuumFreezeMinAge: numberType().optional(),
autovacuumFreezeMaxAge: numberType().optional(),
autovacuumFreezeTableAge: numberType().optional(),
autovacuumMultixactFreezeMinAge: numberType().optional(),
autovacuumMultixactFreezeMaxAge: numberType().optional(),
autovacuumMultixactFreezeTableAge: numberType().optional(),
logAutovacuumMinDuration: numberType().optional(),
userCatalogTable: booleanType().optional()
}).strict();
var mergedViewWithOption = viewWithOption.merge(matViewWithOption).strict();
var view2 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), column2),
definition: stringType().optional(),
materialized: booleanType(),
with: mergedViewWithOption.optional(),
isExisting: booleanType(),
withNoData: booleanType().optional(),
using: stringType().optional(),
tablespace: stringType().optional()
}).strict();
var tableV42 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), column2),
indexes: recordType(stringType(), indexV4),
foreignKeys: recordType(stringType(), fk2)
}).strict();
var tableV5 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), column2),
indexes: recordType(stringType(), indexV5),
foreignKeys: recordType(stringType(), fk2),
compositePrimaryKeys: recordType(stringType(), compositePK2),
uniqueConstraints: recordType(stringType(), uniqueConstraint2).default({})
}).strict();
var tableV6 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), column2),
indexes: recordType(stringType(), indexV6),
foreignKeys: recordType(stringType(), fk2),
compositePrimaryKeys: recordType(stringType(), compositePK2),
uniqueConstraints: recordType(stringType(), uniqueConstraint2).default({})
}).strict();
var tableV7 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), columnV7),
indexes: recordType(stringType(), index2),
foreignKeys: recordType(stringType(), fk2),
compositePrimaryKeys: recordType(stringType(), compositePK2),
uniqueConstraints: recordType(stringType(), uniqueConstraint2).default({})
}).strict();
var table2 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), column2),
indexes: recordType(stringType(), index2),
foreignKeys: recordType(stringType(), fk2),
compositePrimaryKeys: recordType(stringType(), compositePK2),
uniqueConstraints: recordType(stringType(), uniqueConstraint2).default({}),
policies: recordType(stringType(), policy).default({}),
checkConstraints: recordType(stringType(), checkConstraint2).default({}),
isRLSEnabled: booleanType().default(false)
}).strict();
var schemaHash2 = objectType({
id: stringType(),
prevId: stringType()
});
var kitInternals2 = objectType({
tables: recordType(
stringType(),
objectType({
columns: recordType(
stringType(),
objectType({
isArray: booleanType().optional(),
dimensions: numberType().optional(),
rawType: stringType().optional(),
isDefaultAnExpression: booleanType().optional()
}).optional()
)
}).optional()
)
}).optional();
var pgSchemaInternalV3 = objectType({
version: literalType("3"),
dialect: literalType("pg"),
tables: recordType(stringType(), tableV32),
enums: recordType(stringType(), enumSchemaV1)
}).strict();
var pgSchemaInternalV4 = objectType({
version: literalType("4"),
dialect: literalType("pg"),
tables: recordType(stringType(), tableV42),
enums: recordType(stringType(), enumSchemaV1),
schemas: recordType(stringType(), stringType())
}).strict();
var pgSchemaInternalV5 = objectType({
version: literalType("5"),
dialect: literalType("pg"),
tables: recordType(stringType(), tableV5),
enums: recordType(stringType(), enumSchemaV1),
schemas: recordType(stringType(), stringType()),
_meta: objectType({
schemas: recordType(stringType(), stringType()),
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals2
}).strict();
var pgSchemaInternalV6 = objectType({
version: literalType("6"),
dialect: literalType("postgresql"),
tables: recordType(stringType(), tableV6),
enums: recordType(stringType(), enumSchema),
schemas: recordType(stringType(), stringType()),
_meta: objectType({
schemas: recordType(stringType(), stringType()),
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals2
}).strict();
var pgSchemaExternal = objectType({
version: literalType("5"),
dialect: literalType("pg"),
tables: arrayType(table2),
enums: arrayType(enumSchemaV1),
schemas: arrayType(objectType({ name: stringType() })),
_meta: objectType({
schemas: recordType(stringType(), stringType()),
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
})
}).strict();
var pgSchemaInternalV7 = objectType({
version: literalType("7"),
dialect: literalType("postgresql"),
tables: recordType(stringType(), tableV7),
enums: recordType(stringType(), enumSchema),
schemas: recordType(stringType(), stringType()),
sequences: recordType(stringType(), sequenceSchema),
_meta: objectType({
schemas: recordType(stringType(), stringType()),
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals2
}).strict();
var pgSchemaInternal = objectType({
version: literalType("7"),
dialect: literalType("postgresql"),
tables: recordType(stringType(), table2),
enums: recordType(stringType(), enumSchema),
schemas: recordType(stringType(), stringType()),
views: recordType(stringType(), view2).default({}),
sequences: recordType(stringType(), sequenceSchema).default({}),
roles: recordType(stringType(), roleSchema).default({}),
policies: recordType(stringType(), policy).default({}),
_meta: objectType({
schemas: recordType(stringType(), stringType()),
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals2
}).strict();
var tableSquashed2 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), columnSquashed),
indexes: recordType(stringType(), stringType()),
foreignKeys: recordType(stringType(), stringType()),
compositePrimaryKeys: recordType(stringType(), stringType()),
uniqueConstraints: recordType(stringType(), stringType()),
policies: recordType(stringType(), stringType()),
checkConstraints: recordType(stringType(), stringType()),
isRLSEnabled: booleanType().default(false)
}).strict();
var tableSquashedV42 = objectType({
name: stringType(),
schema: stringType(),
columns: recordType(stringType(), column2),
indexes: recordType(stringType(), stringType()),
foreignKeys: recordType(stringType(), stringType())
}).strict();
var pgSchemaSquashedV4 = objectType({
version: literalType("4"),
dialect: literalType("pg"),
tables: recordType(stringType(), tableSquashedV42),
enums: recordType(stringType(), enumSchemaV1),
schemas: recordType(stringType(), stringType())
}).strict();
var pgSchemaSquashedV6 = objectType({
version: literalType("6"),
dialect: literalType("postgresql"),
tables: recordType(stringType(), tableSquashed2),
enums: recordType(stringType(), enumSchema),
schemas: recordType(stringType(), stringType())
}).strict();
var pgSchemaSquashed = objectType({
version: literalType("7"),
dialect: literalType("postgresql"),
tables: recordType(stringType(), tableSquashed2),
enums: recordType(stringType(), enumSchema),
schemas: recordType(stringType(), stringType()),
views: recordType(stringType(), view2),
sequences: recordType(stringType(), sequenceSquashed),
roles: recordType(stringType(), roleSchema).default({}),
policies: recordType(stringType(), policySquashed).default({})
}).strict();
var pgSchemaV3 = pgSchemaInternalV3.merge(schemaHash2);
var pgSchemaV4 = pgSchemaInternalV4.merge(schemaHash2);
var pgSchemaV5 = pgSchemaInternalV5.merge(schemaHash2);
var pgSchemaV6 = pgSchemaInternalV6.merge(schemaHash2);
var pgSchemaV7 = pgSchemaInternalV7.merge(schemaHash2);
var pgSchema = pgSchemaInternal.merge(schemaHash2);
var backwardCompatiblePgSchema = unionType([
pgSchemaV5,
pgSchemaV6,
pgSchema
]);
var dryPg = pgSchema.parse({
version: snapshotVersion,
dialect: "postgresql",
id: originUUID,
prevId: "",
tables: {},
enums: {},
schemas: {},
policies: {},
roles: {},
sequences: {},
_meta: {
schemas: {},
tables: {},
columns: {}
}
});
// src/serializer/sqliteSchema.ts
var index3 = objectType({
name: stringType(),
columns: stringType().array(),
where: stringType().optional(),
isUnique: booleanType()
}).strict();
var fk3 = objectType({
name: stringType(),
tableFrom: stringType(),
columnsFrom: stringType().array(),
tableTo: stringType(),
columnsTo: stringType().array(),
onUpdate: stringType().optional(),
onDelete: stringType().optional()
}).strict();
var compositePK3 = objectType({
columns: stringType().array(),
name: stringType().optional()
}).strict();
var column3 = objectType({
name: stringType(),
type: stringType(),
primaryKey: booleanType(),
notNull: booleanType(),
autoincrement: booleanType().optional(),
default: anyType().optional(),
generated: objectType({
type: enumType(["stored", "virtual"]),
as: stringType()
}).optional()
}).strict();
var tableV33 = objectType({
name: stringType(),
columns: recordType(stringType(), column3),
indexes: recordType(stringType(), index3),
foreignKeys: recordType(stringType(), fk3)
}).strict();
var uniqueConstraint3 = objectType({
name: stringType(),
columns: stringType().array()
}).strict();
var checkConstraint3 = objectType({
name: stringType(),
value: stringType()
}).strict();
var table3 = objectType({
name: stringType(),
columns: recordType(stringType(), column3),
indexes: recordType(stringType(), index3),
foreignKeys: recordType(stringType(), fk3),
compositePrimaryKeys: recordType(stringType(), compositePK3),
uniqueConstraints: recordType(stringType(), uniqueConstraint3).default({}),
checkConstraints: recordType(stringType(), checkConstraint3).default({})
}).strict();
var view3 = objectType({
name: stringType(),
columns: recordType(stringType(), column3),
definition: stringType().optional(),
isExisting: booleanType()
}).strict();
var dialect2 = enumType(["sqlite"]);
var schemaHash3 = objectType({
id: stringType(),
prevId: stringType()
}).strict();
var schemaInternalV32 = objectType({
version: literalType("3"),
dialect: dialect2,
tables: recordType(stringType(), tableV33),
enums: objectType({})
}).strict();
var schemaInternalV42 = objectType({
version: literalType("4"),
dialect: dialect2,
tables: recordType(stringType(), table3),
views: recordType(stringType(), view3).default({}),
enums: objectType({})
}).strict();
var schemaInternalV52 = objectType({
version: literalType("5"),
dialect: dialect2,
tables: recordType(stringType(), table3),
enums: objectType({}),
_meta: objectType({
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
})
}).strict();
var kitInternals3 = objectType({
indexes: recordType(
stringType(),
objectType({
columns: recordType(
stringType(),
objectType({ isExpression: booleanType().optional() }).optional()
)
}).optional()
).optional()
}).optional();
var latestVersion = literalType("6");
var schemaInternal2 = objectType({
version: latestVersion,
dialect: dialect2,
tables: recordType(stringType(), table3),
views: recordType(stringType(), view3).default({}),
enums: objectType({}),
_meta: objectType({
tables: recordType(stringType(), stringType()),
columns: recordType(stringType(), stringType())
}),
internal: kitInternals3
}).strict();
var schemaV32 = schemaInternalV32.merge(schemaHash3).strict();
var schemaV42 = schemaInternalV42.merge(schemaHash3).strict();
var schemaV52 = schemaInternalV52.merge(schemaHash3).strict();
var schema2 = schemaInternal2.merge(schemaHash3).strict();
var tableSquashed3 = objectType({
name: stringType(),
columns: recordType(stringType(), column3),
indexes: recordType(stringType(), stringType()),
foreignKeys: recordType(stringType(), stringType()),
compositePrimaryKeys: recordType(stringType(), stringType()),
uniqueConstraints: recordType(stringType(), stringType()).default({}),
checkConstraints: recordType(stringType(), stringType()).default({})
}).strict();
var schemaSquashed2 = objectType({
version: latestVersion,
dialect: dialect2,
tables: recordType(stringType(), tableSquashed3),
views: recordType(stringType(), view3),
enums: anyType()
}).strict();
var drySQLite = schema2.parse({
version: "6",
dialect: "sqlite",
id: originUUID,
prevId: "",
tables: {},
views: {},
enums: {},
_meta: {
tables: {},
columns: {}
}
});
var sqliteSchemaV5 = schemaV52;
var backwardCompatibleSqliteSchema = unionType([sqliteSchemaV5, schema2]);
// src/utils.ts
var copy = (it) => {
return JSON.parse(JSON.stringify(it));
};
var objectValues = (obj) => {
return Object.values(obj);
};
var assertV1OutFolder = (out) => {
if (!existsSync(out))
return;
const oldMigrationFolders = readdirSync(out).filter(
(it) => it.length === 14 && /^\d+$/.test(it)
);
if (oldMigrationFolders.length > 0) {
console.log(
`Your migrations folder format is outdated, please run ${source_default.green.bold(
`drizzle-kit up`
)}`
);
process.exit(1);
}
};
var dryJournal = (dialect3) => {
return {
version: snapshotVersion,
dialect: dialect3,
entries: []
};
};
var prepareOutFolder = (out, dialect3) => {
const meta = join(out, "meta");
const journalPath = join(meta, "_journal.json");
if (!existsSync(join(out, "meta"))) {
mkdirSync(meta, { recursive: true });
writeFileSync(journalPath, JSON.stringify(dryJournal(dialect3)));
}
const journal = JSON.parse(readFileSync(journalPath).toString());
const snapshots = readdirSync(meta).filter((it) => !it.startsWith("_")).map((it) => join(meta, it));
snapshots.sort();
return { meta, snapshots, journal };
};
var validatorForDialect = (dialect3) => {
switch (dialect3) {
case "postgresql":
return { validator: backwardCompatiblePgSchema, version: 7 };
case "sqlite":
return { validator: backwardCompatibleSqliteSchema, version: 6 };
case "turso":
return { validator: backwardCompatibleSqliteSchema, version: 6 };
case "mysql":
return { validator: backwardCompatibleMysqlSchema, version: 5 };
}
};
var validateWithReport = (snapshots, dialect3) => {
const { validator, version } = validatorForDialect(dialect3);
const result = snapshots.reduce(
(accum, it) => {
const raw = JSON.parse(readFileSync(`./${it}`).toString());
accum.rawMap[it] = raw;
if (raw["version"] && Number(raw["version"]) > version) {
console.log(
info(
`${it} snapshot is of unsupported version, please update drizzle-kit`
)
);
process.exit(0);
}
const result2 = validator.safeParse(raw);
if (!result2.success) {
accum.malformed.push(it);
return accum;
}
const snapshot = result2.data;
if (snapshot.version !== String(version)) {
accum.nonLatest.push(it);
return accum;
}
const idEntry = accum.idsMap[snapshot["prevId"]] ?? {
parent: it,
snapshots: []
};
idEntry.snapshots.push(it);
accum.idsMap[snapshot["prevId"]] = idEntry;
return accum;
},
{
malformed: [],
nonLatest: [],
idToNameMap: {},
idsMap: {},
rawMap: {}
}
);
return result;
};
var prepareMigrationFolder = (outFolder = "drizzle", dialect3) => {
const { snapshots, journal } = prepareOutFolder(outFolder, dialect3);
const report = validateWithReport(snapshots, dialect3);
if (report.nonLatest.length > 0) {
console.log(
report.nonLatest.map((it) => {
return `${it}/snapshot.json is not of the latest version`;
}).concat(`Run ${source_default.green.bold(`drizzle-kit up`)}`).join("\n")
);
process.exit(0);
}
if (report.malformed.length) {
const message2 = report.malformed.map((it) => {
return `${it} data is malformed`;
}).join("\n");
console.log(message2);
}
const collisionEntries = Object.entries(report.idsMap).filter(
(it) => it[1].snapshots.length > 1
);
const message = collisionEntries.map((it) => {
const data = it[1];
return `[${data.snapshots.join(
", "
)}] are pointing to a parent snapshot: ${data.parent}/snapshot.json which is a collision.`;
}).join("\n").trim();
if (message) {
console.log(source_default.red.bold("Error:"), message);
}
const abort = report.malformed.length || collisionEntries.length > 0;
if (abort) {
process.exit(0);
}
return { snapshots, journal };
};
var prepareMigrationMeta = (schemas, tables, columns) => {
const _meta = {
schemas: {},
tables: {},
columns: {}
};
schemas.forEach((it) => {
const from = schemaRenameKey(it.from);
const to = schemaRenameKey(it.to);
_meta.schemas[from] = to;
});
tables.forEach((it) => {
const from = tableRenameKey(it.from);
const to = tableRenameKey(it.to);
_meta.tables[from] = to;
});
columns.forEach((it) => {
const from = columnRenameKey(it.from.table, it.from.schema, it.from.column);
const to = columnRenameKey(it.to.table, it.to.schema, it.to.column);
_meta.columns[from] = to;
});
return _meta;
};
var schemaRenameKey = (it) => {
return it;
};
var tableRenameKey = (it) => {
const out = it.schema ? `"${it.schema}"."${it.name}"` : `"${it.name}"`;
return out;
};
var columnRenameKey = (table4, schema3, column4) => {
const out = schema3 ? `"${schema3}"."${table4}"."${column4}"` : `"${table4}"."${column4}"`;
return out;
};
var kloudMeta = () => {
return {
pg: [5],
mysql: [],
sqlite: []
};
};
var normaliseSQLiteUrl = (it, type) => {
if (type === "libsql") {
if (it.startsWith("file:")) {
return it;
}
try {
const url = parse(it);
if (url.protocol === null) {
return `file:${it}`;
}
return it;
} catch (e) {
return `file:${it}`;
}
}
if (type === "better-sqlite") {
if (it.startsWith("file:")) {
return it.substring(5);
}
return it;
}
assertUnreachable(type);
};
var normalisePGliteUrl = (it) => {
if (it.startsWith("file:")) {
return it.substring(5);
}
return it;
};
function isPgArrayType(sqlType) {
return sqlType.match(/.*\[\d*\].*|.*\[\].*/g) !== null;
}
function findAddedAndRemoved(columnNames1, columnNames2) {
const set1 = new Set(columnNames1);
const set2 = new Set(columnNames2);
const addedColumns = columnNames2.filter((it) => !set1.has(it));
const removedColumns = columnNames1.filter((it) => !set2.has(it));
return { addedColumns, removedColumns };
}
export {
assertV1OutFolder,
columnRenameKey,
copy,
dryJournal,
findAddedAndRemoved,
isPgArrayType,
kloudMeta,
normalisePGliteUrl,
normaliseSQLiteUrl,
objectValues,
prepareMigrationFolder,
prepareMigrationMeta,
prepareOutFolder,
schemaRenameKey,
tableRenameKey,
validateWithReport
};
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