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NeahNew/node_modules/next/dist/compiled/react-server-dom-webpack/cjs/react-server-dom-webpack-client.node.unbundled.development.js
Alma 5f240717f8 Initial commit
2025-05-03 14:17:46 +02:00

2965 lines
104 KiB
JavaScript
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/**
* @license React
* react-server-dom-webpack-client.node.unbundled.development.js
*
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
"use strict";
"production" !== process.env.NODE_ENV &&
(function () {
function _defineProperty(obj, key, value) {
a: if ("object" == typeof key && key) {
var e = key[Symbol.toPrimitive];
if (void 0 !== e) {
key = e.call(key, "string");
if ("object" != typeof key) break a;
throw new TypeError("@@toPrimitive must return a primitive value.");
}
key = String(key);
}
key = "symbol" == typeof key ? key : key + "";
key in obj
? Object.defineProperty(obj, key, {
value: value,
enumerable: !0,
configurable: !0,
writable: !0
})
: (obj[key] = value);
return obj;
}
function resolveClientReference(bundlerConfig, metadata) {
var moduleExports = bundlerConfig[metadata[0]];
if ((bundlerConfig = moduleExports && moduleExports[metadata[2]]))
moduleExports = bundlerConfig.name;
else {
bundlerConfig = moduleExports && moduleExports["*"];
if (!bundlerConfig)
throw Error(
'Could not find the module "' +
metadata[0] +
'" in the React Server Consumer Manifest. This is probably a bug in the React Server Components bundler.'
);
moduleExports = metadata[2];
}
return {
specifier: bundlerConfig.specifier,
name: moduleExports,
async: 4 === metadata.length
};
}
function resolveServerReference(bundlerConfig, id) {
var idx = id.lastIndexOf("#");
bundlerConfig = id.slice(0, idx);
id = id.slice(idx + 1);
return { specifier: bundlerConfig, name: id };
}
function preloadModule(metadata) {
var existingPromise = asyncModuleCache.get(metadata.specifier);
if (existingPromise)
return "fulfilled" === existingPromise.status ? null : existingPromise;
var modulePromise = import(metadata.specifier);
metadata.async &&
(modulePromise = modulePromise.then(function (value) {
return value.default;
}));
modulePromise.then(
function (value) {
var fulfilledThenable = modulePromise;
fulfilledThenable.status = "fulfilled";
fulfilledThenable.value = value;
},
function (reason) {
var rejectedThenable = modulePromise;
rejectedThenable.status = "rejected";
rejectedThenable.reason = reason;
}
);
asyncModuleCache.set(metadata.specifier, modulePromise);
return modulePromise;
}
function requireModule(metadata) {
var moduleExports = asyncModuleCache.get(metadata.specifier);
if ("fulfilled" === moduleExports.status)
moduleExports = moduleExports.value;
else throw moduleExports.reason;
return "*" === metadata.name
? moduleExports
: "" === metadata.name
? moduleExports.default
: moduleExports[metadata.name];
}
function prepareDestinationWithChunks(
moduleLoading,
chunks,
nonce$jscomp$0
) {
if (null !== moduleLoading)
for (var i = 1; i < chunks.length; i += 2) {
var nonce = nonce$jscomp$0,
JSCompiler_temp_const = ReactDOMSharedInternals.d,
JSCompiler_temp_const$jscomp$0 = JSCompiler_temp_const.X,
JSCompiler_temp_const$jscomp$1 = moduleLoading.prefix + chunks[i];
var JSCompiler_inline_result = moduleLoading.crossOrigin;
JSCompiler_inline_result =
"string" === typeof JSCompiler_inline_result
? "use-credentials" === JSCompiler_inline_result
? JSCompiler_inline_result
: ""
: void 0;
JSCompiler_temp_const$jscomp$0.call(
JSCompiler_temp_const,
JSCompiler_temp_const$jscomp$1,
{ crossOrigin: JSCompiler_inline_result, nonce: nonce }
);
}
}
function getIteratorFn(maybeIterable) {
if (null === maybeIterable || "object" !== typeof maybeIterable)
return null;
maybeIterable =
(MAYBE_ITERATOR_SYMBOL && maybeIterable[MAYBE_ITERATOR_SYMBOL]) ||
maybeIterable["@@iterator"];
return "function" === typeof maybeIterable ? maybeIterable : null;
}
function isObjectPrototype(object) {
if (!object) return !1;
var ObjectPrototype = Object.prototype;
if (object === ObjectPrototype) return !0;
if (getPrototypeOf(object)) return !1;
object = Object.getOwnPropertyNames(object);
for (var i = 0; i < object.length; i++)
if (!(object[i] in ObjectPrototype)) return !1;
return !0;
}
function isSimpleObject(object) {
if (!isObjectPrototype(getPrototypeOf(object))) return !1;
for (
var names = Object.getOwnPropertyNames(object), i = 0;
i < names.length;
i++
) {
var descriptor = Object.getOwnPropertyDescriptor(object, names[i]);
if (
!descriptor ||
(!descriptor.enumerable &&
(("key" !== names[i] && "ref" !== names[i]) ||
"function" !== typeof descriptor.get))
)
return !1;
}
return !0;
}
function objectName(object) {
return Object.prototype.toString
.call(object)
.replace(/^\[object (.*)\]$/, function (m, p0) {
return p0;
});
}
function describeKeyForErrorMessage(key) {
var encodedKey = JSON.stringify(key);
return '"' + key + '"' === encodedKey ? key : encodedKey;
}
function describeValueForErrorMessage(value) {
switch (typeof value) {
case "string":
return JSON.stringify(
10 >= value.length ? value : value.slice(0, 10) + "..."
);
case "object":
if (isArrayImpl(value)) return "[...]";
if (null !== value && value.$$typeof === CLIENT_REFERENCE_TAG)
return "client";
value = objectName(value);
return "Object" === value ? "{...}" : value;
case "function":
return value.$$typeof === CLIENT_REFERENCE_TAG
? "client"
: (value = value.displayName || value.name)
? "function " + value
: "function";
default:
return String(value);
}
}
function describeElementType(type) {
if ("string" === typeof type) return type;
switch (type) {
case REACT_SUSPENSE_TYPE:
return "Suspense";
case REACT_SUSPENSE_LIST_TYPE:
return "SuspenseList";
}
if ("object" === typeof type)
switch (type.$$typeof) {
case REACT_FORWARD_REF_TYPE:
return describeElementType(type.render);
case REACT_MEMO_TYPE:
return describeElementType(type.type);
case REACT_LAZY_TYPE:
var payload = type._payload;
type = type._init;
try {
return describeElementType(type(payload));
} catch (x) {}
}
return "";
}
function describeObjectForErrorMessage(objectOrArray, expandedName) {
var objKind = objectName(objectOrArray);
if ("Object" !== objKind && "Array" !== objKind) return objKind;
var start = -1,
length = 0;
if (isArrayImpl(objectOrArray))
if (jsxChildrenParents.has(objectOrArray)) {
var type = jsxChildrenParents.get(objectOrArray);
objKind = "<" + describeElementType(type) + ">";
for (var i = 0; i < objectOrArray.length; i++) {
var value = objectOrArray[i];
value =
"string" === typeof value
? value
: "object" === typeof value && null !== value
? "{" + describeObjectForErrorMessage(value) + "}"
: "{" + describeValueForErrorMessage(value) + "}";
"" + i === expandedName
? ((start = objKind.length),
(length = value.length),
(objKind += value))
: (objKind =
15 > value.length && 40 > objKind.length + value.length
? objKind + value
: objKind + "{...}");
}
objKind += "</" + describeElementType(type) + ">";
} else {
objKind = "[";
for (type = 0; type < objectOrArray.length; type++)
0 < type && (objKind += ", "),
(i = objectOrArray[type]),
(i =
"object" === typeof i && null !== i
? describeObjectForErrorMessage(i)
: describeValueForErrorMessage(i)),
"" + type === expandedName
? ((start = objKind.length),
(length = i.length),
(objKind += i))
: (objKind =
10 > i.length && 40 > objKind.length + i.length
? objKind + i
: objKind + "...");
objKind += "]";
}
else if (objectOrArray.$$typeof === REACT_ELEMENT_TYPE)
objKind = "<" + describeElementType(objectOrArray.type) + "/>";
else {
if (objectOrArray.$$typeof === CLIENT_REFERENCE_TAG) return "client";
if (jsxPropsParents.has(objectOrArray)) {
objKind = jsxPropsParents.get(objectOrArray);
objKind = "<" + (describeElementType(objKind) || "...");
type = Object.keys(objectOrArray);
for (i = 0; i < type.length; i++) {
objKind += " ";
value = type[i];
objKind += describeKeyForErrorMessage(value) + "=";
var _value2 = objectOrArray[value];
var _substr2 =
value === expandedName &&
"object" === typeof _value2 &&
null !== _value2
? describeObjectForErrorMessage(_value2)
: describeValueForErrorMessage(_value2);
"string" !== typeof _value2 && (_substr2 = "{" + _substr2 + "}");
value === expandedName
? ((start = objKind.length),
(length = _substr2.length),
(objKind += _substr2))
: (objKind =
10 > _substr2.length && 40 > objKind.length + _substr2.length
? objKind + _substr2
: objKind + "...");
}
objKind += ">";
} else {
objKind = "{";
type = Object.keys(objectOrArray);
for (i = 0; i < type.length; i++)
0 < i && (objKind += ", "),
(value = type[i]),
(objKind += describeKeyForErrorMessage(value) + ": "),
(_value2 = objectOrArray[value]),
(_value2 =
"object" === typeof _value2 && null !== _value2
? describeObjectForErrorMessage(_value2)
: describeValueForErrorMessage(_value2)),
value === expandedName
? ((start = objKind.length),
(length = _value2.length),
(objKind += _value2))
: (objKind =
10 > _value2.length && 40 > objKind.length + _value2.length
? objKind + _value2
: objKind + "...");
objKind += "}";
}
}
return void 0 === expandedName
? objKind
: -1 < start && 0 < length
? ((objectOrArray = " ".repeat(start) + "^".repeat(length)),
"\n " + objKind + "\n " + objectOrArray)
: "\n " + objKind;
}
function serializeNumber(number) {
return Number.isFinite(number)
? 0 === number && -Infinity === 1 / number
? "$-0"
: number
: Infinity === number
? "$Infinity"
: -Infinity === number
? "$-Infinity"
: "$NaN";
}
function processReply(
root,
formFieldPrefix,
temporaryReferences,
resolve,
reject
) {
function serializeTypedArray(tag, typedArray) {
typedArray = new Blob([
new Uint8Array(
typedArray.buffer,
typedArray.byteOffset,
typedArray.byteLength
)
]);
var blobId = nextPartId++;
null === formData && (formData = new FormData());
formData.append(formFieldPrefix + blobId, typedArray);
return "$" + tag + blobId.toString(16);
}
function serializeBinaryReader(reader) {
function progress(entry) {
entry.done
? ((entry = nextPartId++),
data.append(formFieldPrefix + entry, new Blob(buffer)),
data.append(
formFieldPrefix + streamId,
'"$o' + entry.toString(16) + '"'
),
data.append(formFieldPrefix + streamId, "C"),
pendingParts--,
0 === pendingParts && resolve(data))
: (buffer.push(entry.value),
reader.read(new Uint8Array(1024)).then(progress, reject));
}
null === formData && (formData = new FormData());
var data = formData;
pendingParts++;
var streamId = nextPartId++,
buffer = [];
reader.read(new Uint8Array(1024)).then(progress, reject);
return "$r" + streamId.toString(16);
}
function serializeReader(reader) {
function progress(entry) {
if (entry.done)
data.append(formFieldPrefix + streamId, "C"),
pendingParts--,
0 === pendingParts && resolve(data);
else
try {
var partJSON = JSON.stringify(entry.value, resolveToJSON);
data.append(formFieldPrefix + streamId, partJSON);
reader.read().then(progress, reject);
} catch (x) {
reject(x);
}
}
null === formData && (formData = new FormData());
var data = formData;
pendingParts++;
var streamId = nextPartId++;
reader.read().then(progress, reject);
return "$R" + streamId.toString(16);
}
function serializeReadableStream(stream) {
try {
var binaryReader = stream.getReader({ mode: "byob" });
} catch (x) {
return serializeReader(stream.getReader());
}
return serializeBinaryReader(binaryReader);
}
function serializeAsyncIterable(iterable, iterator) {
function progress(entry) {
if (entry.done) {
if (void 0 === entry.value)
data.append(formFieldPrefix + streamId, "C");
else
try {
var partJSON = JSON.stringify(entry.value, resolveToJSON);
data.append(formFieldPrefix + streamId, "C" + partJSON);
} catch (x) {
reject(x);
return;
}
pendingParts--;
0 === pendingParts && resolve(data);
} else
try {
var _partJSON = JSON.stringify(entry.value, resolveToJSON);
data.append(formFieldPrefix + streamId, _partJSON);
iterator.next().then(progress, reject);
} catch (x$0) {
reject(x$0);
}
}
null === formData && (formData = new FormData());
var data = formData;
pendingParts++;
var streamId = nextPartId++;
iterable = iterable === iterator;
iterator.next().then(progress, reject);
return "$" + (iterable ? "x" : "X") + streamId.toString(16);
}
function resolveToJSON(key, value) {
var originalValue = this[key];
"object" !== typeof originalValue ||
originalValue === value ||
originalValue instanceof Date ||
("Object" !== objectName(originalValue)
? console.error(
"Only plain objects can be passed to Server Functions from the Client. %s objects are not supported.%s",
objectName(originalValue),
describeObjectForErrorMessage(this, key)
)
: console.error(
"Only plain objects can be passed to Server Functions from the Client. Objects with toJSON methods are not supported. Convert it manually to a simple value before passing it to props.%s",
describeObjectForErrorMessage(this, key)
));
if (null === value) return null;
if ("object" === typeof value) {
switch (value.$$typeof) {
case REACT_ELEMENT_TYPE:
if (void 0 !== temporaryReferences && -1 === key.indexOf(":")) {
var parentReference = writtenObjects.get(this);
if (void 0 !== parentReference)
return (
temporaryReferences.set(parentReference + ":" + key, value),
"$T"
);
}
throw Error(
"React Element cannot be passed to Server Functions from the Client without a temporary reference set. Pass a TemporaryReferenceSet to the options." +
describeObjectForErrorMessage(this, key)
);
case REACT_LAZY_TYPE:
originalValue = value._payload;
var init = value._init;
null === formData && (formData = new FormData());
pendingParts++;
try {
parentReference = init(originalValue);
var lazyId = nextPartId++,
partJSON = serializeModel(parentReference, lazyId);
formData.append(formFieldPrefix + lazyId, partJSON);
return "$" + lazyId.toString(16);
} catch (x) {
if (
"object" === typeof x &&
null !== x &&
"function" === typeof x.then
) {
pendingParts++;
var _lazyId = nextPartId++;
parentReference = function () {
try {
var _partJSON2 = serializeModel(value, _lazyId),
_data = formData;
_data.append(formFieldPrefix + _lazyId, _partJSON2);
pendingParts--;
0 === pendingParts && resolve(_data);
} catch (reason) {
reject(reason);
}
};
x.then(parentReference, parentReference);
return "$" + _lazyId.toString(16);
}
reject(x);
return null;
} finally {
pendingParts--;
}
}
if ("function" === typeof value.then) {
null === formData && (formData = new FormData());
pendingParts++;
var promiseId = nextPartId++;
value.then(function (partValue) {
try {
var _partJSON3 = serializeModel(partValue, promiseId);
partValue = formData;
partValue.append(formFieldPrefix + promiseId, _partJSON3);
pendingParts--;
0 === pendingParts && resolve(partValue);
} catch (reason) {
reject(reason);
}
}, reject);
return "$@" + promiseId.toString(16);
}
parentReference = writtenObjects.get(value);
if (void 0 !== parentReference)
if (modelRoot === value) modelRoot = null;
else return parentReference;
else
-1 === key.indexOf(":") &&
((parentReference = writtenObjects.get(this)),
void 0 !== parentReference &&
((parentReference = parentReference + ":" + key),
writtenObjects.set(value, parentReference),
void 0 !== temporaryReferences &&
temporaryReferences.set(parentReference, value)));
if (isArrayImpl(value)) return value;
if (value instanceof FormData) {
null === formData && (formData = new FormData());
var _data3 = formData;
key = nextPartId++;
var prefix = formFieldPrefix + key + "_";
value.forEach(function (originalValue, originalKey) {
_data3.append(prefix + originalKey, originalValue);
});
return "$K" + key.toString(16);
}
if (value instanceof Map)
return (
(key = nextPartId++),
(parentReference = serializeModel(Array.from(value), key)),
null === formData && (formData = new FormData()),
formData.append(formFieldPrefix + key, parentReference),
"$Q" + key.toString(16)
);
if (value instanceof Set)
return (
(key = nextPartId++),
(parentReference = serializeModel(Array.from(value), key)),
null === formData && (formData = new FormData()),
formData.append(formFieldPrefix + key, parentReference),
"$W" + key.toString(16)
);
if (value instanceof ArrayBuffer)
return (
(key = new Blob([value])),
(parentReference = nextPartId++),
null === formData && (formData = new FormData()),
formData.append(formFieldPrefix + parentReference, key),
"$A" + parentReference.toString(16)
);
if (value instanceof Int8Array)
return serializeTypedArray("O", value);
if (value instanceof Uint8Array)
return serializeTypedArray("o", value);
if (value instanceof Uint8ClampedArray)
return serializeTypedArray("U", value);
if (value instanceof Int16Array)
return serializeTypedArray("S", value);
if (value instanceof Uint16Array)
return serializeTypedArray("s", value);
if (value instanceof Int32Array)
return serializeTypedArray("L", value);
if (value instanceof Uint32Array)
return serializeTypedArray("l", value);
if (value instanceof Float32Array)
return serializeTypedArray("G", value);
if (value instanceof Float64Array)
return serializeTypedArray("g", value);
if (value instanceof BigInt64Array)
return serializeTypedArray("M", value);
if (value instanceof BigUint64Array)
return serializeTypedArray("m", value);
if (value instanceof DataView) return serializeTypedArray("V", value);
if ("function" === typeof Blob && value instanceof Blob)
return (
null === formData && (formData = new FormData()),
(key = nextPartId++),
formData.append(formFieldPrefix + key, value),
"$B" + key.toString(16)
);
if ((parentReference = getIteratorFn(value)))
return (
(parentReference = parentReference.call(value)),
parentReference === value
? ((key = nextPartId++),
(parentReference = serializeModel(
Array.from(parentReference),
key
)),
null === formData && (formData = new FormData()),
formData.append(formFieldPrefix + key, parentReference),
"$i" + key.toString(16))
: Array.from(parentReference)
);
if (
"function" === typeof ReadableStream &&
value instanceof ReadableStream
)
return serializeReadableStream(value);
parentReference = value[ASYNC_ITERATOR];
if ("function" === typeof parentReference)
return serializeAsyncIterable(value, parentReference.call(value));
parentReference = getPrototypeOf(value);
if (
parentReference !== ObjectPrototype &&
(null === parentReference ||
null !== getPrototypeOf(parentReference))
) {
if (void 0 === temporaryReferences)
throw Error(
"Only plain objects, and a few built-ins, can be passed to Server Functions. Classes or null prototypes are not supported." +
describeObjectForErrorMessage(this, key)
);
return "$T";
}
value.$$typeof === REACT_CONTEXT_TYPE
? console.error(
"React Context Providers cannot be passed to Server Functions from the Client.%s",
describeObjectForErrorMessage(this, key)
)
: "Object" !== objectName(value)
? console.error(
"Only plain objects can be passed to Server Functions from the Client. %s objects are not supported.%s",
objectName(value),
describeObjectForErrorMessage(this, key)
)
: isSimpleObject(value)
? Object.getOwnPropertySymbols &&
((parentReference = Object.getOwnPropertySymbols(value)),
0 < parentReference.length &&
console.error(
"Only plain objects can be passed to Server Functions from the Client. Objects with symbol properties like %s are not supported.%s",
parentReference[0].description,
describeObjectForErrorMessage(this, key)
))
: console.error(
"Only plain objects can be passed to Server Functions from the Client. Classes or other objects with methods are not supported.%s",
describeObjectForErrorMessage(this, key)
);
return value;
}
if ("string" === typeof value) {
if ("Z" === value[value.length - 1] && this[key] instanceof Date)
return "$D" + value;
key = "$" === value[0] ? "$" + value : value;
return key;
}
if ("boolean" === typeof value) return value;
if ("number" === typeof value) return serializeNumber(value);
if ("undefined" === typeof value) return "$undefined";
if ("function" === typeof value) {
parentReference = knownServerReferences.get(value);
if (void 0 !== parentReference)
return (
(key = JSON.stringify(
{ id: parentReference.id, bound: parentReference.bound },
resolveToJSON
)),
null === formData && (formData = new FormData()),
(parentReference = nextPartId++),
formData.set(formFieldPrefix + parentReference, key),
"$F" + parentReference.toString(16)
);
if (
void 0 !== temporaryReferences &&
-1 === key.indexOf(":") &&
((parentReference = writtenObjects.get(this)),
void 0 !== parentReference)
)
return (
temporaryReferences.set(parentReference + ":" + key, value), "$T"
);
throw Error(
"Client Functions cannot be passed directly to Server Functions. Only Functions passed from the Server can be passed back again."
);
}
if ("symbol" === typeof value) {
if (
void 0 !== temporaryReferences &&
-1 === key.indexOf(":") &&
((parentReference = writtenObjects.get(this)),
void 0 !== parentReference)
)
return (
temporaryReferences.set(parentReference + ":" + key, value), "$T"
);
throw Error(
"Symbols cannot be passed to a Server Function without a temporary reference set. Pass a TemporaryReferenceSet to the options." +
describeObjectForErrorMessage(this, key)
);
}
if ("bigint" === typeof value) return "$n" + value.toString(10);
throw Error(
"Type " +
typeof value +
" is not supported as an argument to a Server Function."
);
}
function serializeModel(model, id) {
"object" === typeof model &&
null !== model &&
((id = "$" + id.toString(16)),
writtenObjects.set(model, id),
void 0 !== temporaryReferences && temporaryReferences.set(id, model));
modelRoot = model;
return JSON.stringify(model, resolveToJSON);
}
var nextPartId = 1,
pendingParts = 0,
formData = null,
writtenObjects = new WeakMap(),
modelRoot = root,
json = serializeModel(root, 0);
null === formData
? resolve(json)
: (formData.set(formFieldPrefix + "0", json),
0 === pendingParts && resolve(formData));
return function () {
0 < pendingParts &&
((pendingParts = 0),
null === formData ? resolve(json) : resolve(formData));
};
}
function encodeFormData(reference) {
var resolve,
reject,
thenable = new Promise(function (res, rej) {
resolve = res;
reject = rej;
});
processReply(
reference,
"",
void 0,
function (body) {
if ("string" === typeof body) {
var data = new FormData();
data.append("0", body);
body = data;
}
thenable.status = "fulfilled";
thenable.value = body;
resolve(body);
},
function (e) {
thenable.status = "rejected";
thenable.reason = e;
reject(e);
}
);
return thenable;
}
function defaultEncodeFormAction(identifierPrefix) {
var referenceClosure = knownServerReferences.get(this);
if (!referenceClosure)
throw Error(
"Tried to encode a Server Action from a different instance than the encoder is from. This is a bug in React."
);
var data = null;
if (null !== referenceClosure.bound) {
data = boundCache.get(referenceClosure);
data ||
((data = encodeFormData({
id: referenceClosure.id,
bound: referenceClosure.bound
})),
boundCache.set(referenceClosure, data));
if ("rejected" === data.status) throw data.reason;
if ("fulfilled" !== data.status) throw data;
referenceClosure = data.value;
var prefixedData = new FormData();
referenceClosure.forEach(function (value, key) {
prefixedData.append("$ACTION_" + identifierPrefix + ":" + key, value);
});
data = prefixedData;
referenceClosure = "$ACTION_REF_" + identifierPrefix;
} else referenceClosure = "$ACTION_ID_" + referenceClosure.id;
return {
name: referenceClosure,
method: "POST",
encType: "multipart/form-data",
data: data
};
}
function isSignatureEqual(referenceId, numberOfBoundArgs) {
var referenceClosure = knownServerReferences.get(this);
if (!referenceClosure)
throw Error(
"Tried to encode a Server Action from a different instance than the encoder is from. This is a bug in React."
);
if (referenceClosure.id !== referenceId) return !1;
var boundPromise = referenceClosure.bound;
if (null === boundPromise) return 0 === numberOfBoundArgs;
switch (boundPromise.status) {
case "fulfilled":
return boundPromise.value.length === numberOfBoundArgs;
case "pending":
throw boundPromise;
case "rejected":
throw boundPromise.reason;
default:
throw (
("string" !== typeof boundPromise.status &&
((boundPromise.status = "pending"),
boundPromise.then(
function (boundArgs) {
boundPromise.status = "fulfilled";
boundPromise.value = boundArgs;
},
function (error) {
boundPromise.status = "rejected";
boundPromise.reason = error;
}
)),
boundPromise)
);
}
}
function createFakeServerFunction(
name,
filename,
sourceMap,
line,
col,
environmentName,
innerFunction
) {
name || (name = "<anonymous>");
var encodedName = JSON.stringify(name);
1 >= line
? ((line = encodedName.length + 7),
(col =
"s=>({" +
encodedName +
" ".repeat(col < line ? 0 : col - line) +
":(...args) => s(...args)})\n/* This module is a proxy to a Server Action. Turn on Source Maps to see the server source. */"))
: (col =
"/* This module is a proxy to a Server Action. Turn on Source Maps to see the server source. */" +
"\n".repeat(line - 2) +
"server=>({" +
encodedName +
":\n" +
" ".repeat(1 > col ? 0 : col - 1) +
"(...args) => server(...args)})");
filename.startsWith("/") && (filename = "file://" + filename);
sourceMap
? ((col +=
"\n//# sourceURL=rsc://React/" +
encodeURIComponent(environmentName) +
"/" +
filename +
"?s" +
fakeServerFunctionIdx++),
(col += "\n//# sourceMappingURL=" + sourceMap))
: filename && (col += "\n//# sourceURL=" + filename);
try {
return (0, eval)(col)(innerFunction)[name];
} catch (x) {
return innerFunction;
}
}
function registerBoundServerReference(
reference,
id,
bound,
encodeFormAction
) {
knownServerReferences.has(reference) ||
(knownServerReferences.set(reference, {
id: id,
originalBind: reference.bind,
bound: bound
}),
Object.defineProperties(reference, {
$$FORM_ACTION: {
value:
void 0 === encodeFormAction
? defaultEncodeFormAction
: function () {
var referenceClosure = knownServerReferences.get(this);
if (!referenceClosure)
throw Error(
"Tried to encode a Server Action from a different instance than the encoder is from. This is a bug in React."
);
var boundPromise = referenceClosure.bound;
null === boundPromise &&
(boundPromise = Promise.resolve([]));
return encodeFormAction(referenceClosure.id, boundPromise);
}
},
$$IS_SIGNATURE_EQUAL: { value: isSignatureEqual },
bind: { value: bind }
}));
}
function bind() {
var referenceClosure = knownServerReferences.get(this);
if (!referenceClosure) return FunctionBind.apply(this, arguments);
var newFn = referenceClosure.originalBind.apply(this, arguments);
null != arguments[0] &&
console.error(
'Cannot bind "this" of a Server Action. Pass null or undefined as the first argument to .bind().'
);
var args = ArraySlice.call(arguments, 1),
boundPromise = null;
boundPromise =
null !== referenceClosure.bound
? Promise.resolve(referenceClosure.bound).then(function (boundArgs) {
return boundArgs.concat(args);
})
: Promise.resolve(args);
knownServerReferences.set(newFn, {
id: referenceClosure.id,
originalBind: newFn.bind,
bound: boundPromise
});
Object.defineProperties(newFn, {
$$FORM_ACTION: { value: this.$$FORM_ACTION },
$$IS_SIGNATURE_EQUAL: { value: isSignatureEqual },
bind: { value: bind }
});
return newFn;
}
function createBoundServerReference(
metaData,
callServer,
encodeFormAction,
findSourceMapURL
) {
function action() {
var args = Array.prototype.slice.call(arguments);
return bound
? "fulfilled" === bound.status
? callServer(id, bound.value.concat(args))
: Promise.resolve(bound).then(function (boundArgs) {
return callServer(id, boundArgs.concat(args));
})
: callServer(id, args);
}
var id = metaData.id,
bound = metaData.bound,
location = metaData.location;
if (location) {
var functionName = metaData.name || "",
filename = location[1],
line = location[2];
location = location[3];
metaData = metaData.env || "Server";
findSourceMapURL =
null == findSourceMapURL
? null
: findSourceMapURL(filename, metaData);
action = createFakeServerFunction(
functionName,
filename,
findSourceMapURL,
line,
location,
metaData,
action
);
}
registerBoundServerReference(action, id, bound, encodeFormAction);
return action;
}
function parseStackLocation(error) {
error = error.stack;
error.startsWith("Error: react-stack-top-frame\n") &&
(error = error.slice(29));
var endOfFirst = error.indexOf("\n");
if (-1 !== endOfFirst) {
var endOfSecond = error.indexOf("\n", endOfFirst + 1);
endOfFirst =
-1 === endOfSecond
? error.slice(endOfFirst + 1)
: error.slice(endOfFirst + 1, endOfSecond);
} else endOfFirst = error;
error = v8FrameRegExp.exec(endOfFirst);
if (
!error &&
((error = jscSpiderMonkeyFrameRegExp.exec(endOfFirst)), !error)
)
return null;
endOfFirst = error[1] || "";
"<anonymous>" === endOfFirst && (endOfFirst = "");
endOfSecond = error[2] || error[5] || "";
"<anonymous>" === endOfSecond && (endOfSecond = "");
return [
endOfFirst,
endOfSecond,
+(error[3] || error[6]),
+(error[4] || error[7])
];
}
function createServerReference$1(
id,
callServer,
encodeFormAction,
findSourceMapURL,
functionName
) {
function action() {
var args = Array.prototype.slice.call(arguments);
return callServer(id, args);
}
var location = parseStackLocation(Error("react-stack-top-frame"));
if (null !== location) {
var filename = location[1],
line = location[2];
location = location[3];
findSourceMapURL =
null == findSourceMapURL
? null
: findSourceMapURL(filename, "Client");
action = createFakeServerFunction(
functionName || "",
filename,
findSourceMapURL,
line,
location,
"Client",
action
);
}
registerBoundServerReference(action, id, null, encodeFormAction);
return action;
}
function getComponentNameFromType(type) {
if (null == type) return null;
if ("function" === typeof type)
return type.$$typeof === REACT_CLIENT_REFERENCE
? null
: type.displayName || type.name || null;
if ("string" === typeof type) return type;
switch (type) {
case REACT_FRAGMENT_TYPE:
return "Fragment";
case REACT_PROFILER_TYPE:
return "Profiler";
case REACT_STRICT_MODE_TYPE:
return "StrictMode";
case REACT_SUSPENSE_TYPE:
return "Suspense";
case REACT_SUSPENSE_LIST_TYPE:
return "SuspenseList";
case REACT_ACTIVITY_TYPE:
return "Activity";
}
if ("object" === typeof type)
switch (
("number" === typeof type.tag &&
console.error(
"Received an unexpected object in getComponentNameFromType(). This is likely a bug in React. Please file an issue."
),
type.$$typeof)
) {
case REACT_PORTAL_TYPE:
return "Portal";
case REACT_CONTEXT_TYPE:
return (type.displayName || "Context") + ".Provider";
case REACT_CONSUMER_TYPE:
return (type._context.displayName || "Context") + ".Consumer";
case REACT_FORWARD_REF_TYPE:
var innerType = type.render;
type = type.displayName;
type ||
((type = innerType.displayName || innerType.name || ""),
(type = "" !== type ? "ForwardRef(" + type + ")" : "ForwardRef"));
return type;
case REACT_MEMO_TYPE:
return (
(innerType = type.displayName || null),
null !== innerType
? innerType
: getComponentNameFromType(type.type) || "Memo"
);
case REACT_LAZY_TYPE:
innerType = type._payload;
type = type._init;
try {
return getComponentNameFromType(type(innerType));
} catch (x) {}
}
return null;
}
function prepareStackTrace(error, structuredStackTrace) {
error = (error.name || "Error") + ": " + (error.message || "");
for (var i = 0; i < structuredStackTrace.length; i++)
error += "\n at " + structuredStackTrace[i].toString();
return error;
}
function ReactPromise(status, value, reason, response) {
this.status = status;
this.value = value;
this.reason = reason;
this._response = response;
this._debugInfo = null;
}
function readChunk(chunk) {
switch (chunk.status) {
case "resolved_model":
initializeModelChunk(chunk);
break;
case "resolved_module":
initializeModuleChunk(chunk);
}
switch (chunk.status) {
case "fulfilled":
return chunk.value;
case "pending":
case "blocked":
throw chunk;
default:
throw chunk.reason;
}
}
function createPendingChunk(response) {
return new ReactPromise("pending", null, null, response);
}
function wakeChunk(listeners, value) {
for (var i = 0; i < listeners.length; i++) (0, listeners[i])(value);
}
function wakeChunkIfInitialized(chunk, resolveListeners, rejectListeners) {
switch (chunk.status) {
case "fulfilled":
wakeChunk(resolveListeners, chunk.value);
break;
case "pending":
case "blocked":
if (chunk.value)
for (var i = 0; i < resolveListeners.length; i++)
chunk.value.push(resolveListeners[i]);
else chunk.value = resolveListeners;
if (chunk.reason) {
if (rejectListeners)
for (
resolveListeners = 0;
resolveListeners < rejectListeners.length;
resolveListeners++
)
chunk.reason.push(rejectListeners[resolveListeners]);
} else chunk.reason = rejectListeners;
break;
case "rejected":
rejectListeners && wakeChunk(rejectListeners, chunk.reason);
}
}
function triggerErrorOnChunk(chunk, error) {
if ("pending" !== chunk.status && "blocked" !== chunk.status)
chunk.reason.error(error);
else {
var listeners = chunk.reason;
chunk.status = "rejected";
chunk.reason = error;
null !== listeners && wakeChunk(listeners, error);
}
}
function createResolvedIteratorResultChunk(response, value, done) {
return new ReactPromise(
"resolved_model",
(done ? '{"done":true,"value":' : '{"done":false,"value":') +
value +
"}",
null,
response
);
}
function resolveIteratorResultChunk(chunk, value, done) {
resolveModelChunk(
chunk,
(done ? '{"done":true,"value":' : '{"done":false,"value":') +
value +
"}"
);
}
function resolveModelChunk(chunk, value) {
if ("pending" !== chunk.status) chunk.reason.enqueueModel(value);
else {
var resolveListeners = chunk.value,
rejectListeners = chunk.reason;
chunk.status = "resolved_model";
chunk.value = value;
null !== resolveListeners &&
(initializeModelChunk(chunk),
wakeChunkIfInitialized(chunk, resolveListeners, rejectListeners));
}
}
function resolveModuleChunk(chunk, value) {
if ("pending" === chunk.status || "blocked" === chunk.status) {
var resolveListeners = chunk.value,
rejectListeners = chunk.reason;
chunk.status = "resolved_module";
chunk.value = value;
null !== resolveListeners &&
(initializeModuleChunk(chunk),
wakeChunkIfInitialized(chunk, resolveListeners, rejectListeners));
}
}
function initializeModelChunk(chunk) {
var prevHandler = initializingHandler;
initializingHandler = null;
var resolvedModel = chunk.value;
chunk.status = "blocked";
chunk.value = null;
chunk.reason = null;
try {
var value = JSON.parse(resolvedModel, chunk._response._fromJSON),
resolveListeners = chunk.value;
null !== resolveListeners &&
((chunk.value = null),
(chunk.reason = null),
wakeChunk(resolveListeners, value));
if (null !== initializingHandler) {
if (initializingHandler.errored) throw initializingHandler.value;
if (0 < initializingHandler.deps) {
initializingHandler.value = value;
initializingHandler.chunk = chunk;
return;
}
}
chunk.status = "fulfilled";
chunk.value = value;
} catch (error) {
(chunk.status = "rejected"), (chunk.reason = error);
} finally {
initializingHandler = prevHandler;
}
}
function initializeModuleChunk(chunk) {
try {
var value = requireModule(chunk.value);
chunk.status = "fulfilled";
chunk.value = value;
} catch (error) {
(chunk.status = "rejected"), (chunk.reason = error);
}
}
function reportGlobalError(response, error) {
response._closed = !0;
response._closedReason = error;
response._chunks.forEach(function (chunk) {
"pending" === chunk.status && triggerErrorOnChunk(chunk, error);
});
}
function nullRefGetter() {
return null;
}
function getTaskName(type) {
if (type === REACT_FRAGMENT_TYPE) return "<>";
if ("function" === typeof type) return '"use client"';
if (
"object" === typeof type &&
null !== type &&
type.$$typeof === REACT_LAZY_TYPE
)
return type._init === readChunk ? '"use client"' : "<...>";
try {
var name = getComponentNameFromType(type);
return name ? "<" + name + ">" : "<...>";
} catch (x) {
return "<...>";
}
}
function createLazyChunkWrapper(chunk) {
var lazyType = {
$$typeof: REACT_LAZY_TYPE,
_payload: chunk,
_init: readChunk
};
chunk = chunk._debugInfo || (chunk._debugInfo = []);
lazyType._debugInfo = chunk;
return lazyType;
}
function getChunk(response, id) {
var chunks = response._chunks,
chunk = chunks.get(id);
chunk ||
((chunk = response._closed
? new ReactPromise("rejected", null, response._closedReason, response)
: createPendingChunk(response)),
chunks.set(id, chunk));
return chunk;
}
function waitForReference(
referencedChunk,
parentObject,
key,
response,
map,
path
) {
function fulfill(value) {
for (var i = 1; i < path.length; i++) {
for (; value.$$typeof === REACT_LAZY_TYPE; )
if (((value = value._payload), value === handler.chunk))
value = handler.value;
else if ("fulfilled" === value.status) value = value.value;
else {
path.splice(0, i - 1);
value.then(fulfill, reject);
return;
}
value = value[path[i]];
}
i = map(response, value, parentObject, key);
parentObject[key] = i;
"" === key && null === handler.value && (handler.value = i);
if (
parentObject[0] === REACT_ELEMENT_TYPE &&
"object" === typeof handler.value &&
null !== handler.value &&
handler.value.$$typeof === REACT_ELEMENT_TYPE
)
switch (((value = handler.value), key)) {
case "3":
value.props = i;
break;
case "4":
value._owner = i;
}
handler.deps--;
0 === handler.deps &&
((i = handler.chunk),
null !== i &&
"blocked" === i.status &&
((value = i.value),
(i.status = "fulfilled"),
(i.value = handler.value),
null !== value && wakeChunk(value, handler.value)));
}
function reject(error) {
if (!handler.errored) {
var blockedValue = handler.value;
handler.errored = !0;
handler.value = error;
var chunk = handler.chunk;
if (null !== chunk && "blocked" === chunk.status) {
if (
"object" === typeof blockedValue &&
null !== blockedValue &&
blockedValue.$$typeof === REACT_ELEMENT_TYPE
) {
var erroredComponent = {
name: getComponentNameFromType(blockedValue.type) || "",
owner: blockedValue._owner
};
erroredComponent.debugStack = blockedValue._debugStack;
supportsCreateTask &&
(erroredComponent.debugTask = blockedValue._debugTask);
(chunk._debugInfo || (chunk._debugInfo = [])).push(
erroredComponent
);
}
triggerErrorOnChunk(chunk, error);
}
}
}
if (initializingHandler) {
var handler = initializingHandler;
handler.deps++;
} else
handler = initializingHandler = {
parent: null,
chunk: null,
value: null,
deps: 1,
errored: !1
};
referencedChunk.then(fulfill, reject);
return null;
}
function loadServerReference(response, metaData, parentObject, key) {
if (!response._serverReferenceConfig)
return createBoundServerReference(
metaData,
response._callServer,
response._encodeFormAction,
response._debugFindSourceMapURL
);
var serverReference = resolveServerReference(
response._serverReferenceConfig,
metaData.id
),
promise = preloadModule(serverReference);
if (promise)
metaData.bound && (promise = Promise.all([promise, metaData.bound]));
else if (metaData.bound) promise = Promise.resolve(metaData.bound);
else
return (
(promise = requireModule(serverReference)),
registerBoundServerReference(
promise,
metaData.id,
metaData.bound,
response._encodeFormAction
),
promise
);
if (initializingHandler) {
var handler = initializingHandler;
handler.deps++;
} else
handler = initializingHandler = {
parent: null,
chunk: null,
value: null,
deps: 1,
errored: !1
};
promise.then(
function () {
var resolvedValue = requireModule(serverReference);
if (metaData.bound) {
var boundArgs = metaData.bound.value.slice(0);
boundArgs.unshift(null);
resolvedValue = resolvedValue.bind.apply(resolvedValue, boundArgs);
}
registerBoundServerReference(
resolvedValue,
metaData.id,
metaData.bound,
response._encodeFormAction
);
parentObject[key] = resolvedValue;
"" === key &&
null === handler.value &&
(handler.value = resolvedValue);
if (
parentObject[0] === REACT_ELEMENT_TYPE &&
"object" === typeof handler.value &&
null !== handler.value &&
handler.value.$$typeof === REACT_ELEMENT_TYPE
)
switch (((boundArgs = handler.value), key)) {
case "3":
boundArgs.props = resolvedValue;
break;
case "4":
boundArgs._owner = resolvedValue;
}
handler.deps--;
0 === handler.deps &&
((resolvedValue = handler.chunk),
null !== resolvedValue &&
"blocked" === resolvedValue.status &&
((boundArgs = resolvedValue.value),
(resolvedValue.status = "fulfilled"),
(resolvedValue.value = handler.value),
null !== boundArgs && wakeChunk(boundArgs, handler.value)));
},
function (error) {
if (!handler.errored) {
var blockedValue = handler.value;
handler.errored = !0;
handler.value = error;
var chunk = handler.chunk;
if (null !== chunk && "blocked" === chunk.status) {
if (
"object" === typeof blockedValue &&
null !== blockedValue &&
blockedValue.$$typeof === REACT_ELEMENT_TYPE
) {
var erroredComponent = {
name: getComponentNameFromType(blockedValue.type) || "",
owner: blockedValue._owner
};
erroredComponent.debugStack = blockedValue._debugStack;
supportsCreateTask &&
(erroredComponent.debugTask = blockedValue._debugTask);
(chunk._debugInfo || (chunk._debugInfo = [])).push(
erroredComponent
);
}
triggerErrorOnChunk(chunk, error);
}
}
}
);
return null;
}
function getOutlinedModel(response, reference, parentObject, key, map) {
reference = reference.split(":");
var id = parseInt(reference[0], 16);
id = getChunk(response, id);
switch (id.status) {
case "resolved_model":
initializeModelChunk(id);
break;
case "resolved_module":
initializeModuleChunk(id);
}
switch (id.status) {
case "fulfilled":
for (var value = id.value, i = 1; i < reference.length; i++) {
for (; value.$$typeof === REACT_LAZY_TYPE; )
if (((value = value._payload), "fulfilled" === value.status))
value = value.value;
else
return waitForReference(
value,
parentObject,
key,
response,
map,
reference.slice(i - 1)
);
value = value[reference[i]];
}
response = map(response, value, parentObject, key);
id._debugInfo &&
("object" !== typeof response ||
null === response ||
(!isArrayImpl(response) &&
"function" !== typeof response[ASYNC_ITERATOR] &&
response.$$typeof !== REACT_ELEMENT_TYPE) ||
response._debugInfo ||
Object.defineProperty(response, "_debugInfo", {
configurable: !1,
enumerable: !1,
writable: !0,
value: id._debugInfo
}));
return response;
case "pending":
case "blocked":
return waitForReference(
id,
parentObject,
key,
response,
map,
reference
);
default:
return (
initializingHandler
? ((initializingHandler.errored = !0),
(initializingHandler.value = id.reason))
: (initializingHandler = {
parent: null,
chunk: null,
value: id.reason,
deps: 0,
errored: !0
}),
null
);
}
}
function createMap(response, model) {
return new Map(model);
}
function createSet(response, model) {
return new Set(model);
}
function createBlob(response, model) {
return new Blob(model.slice(1), { type: model[0] });
}
function createFormData(response, model) {
response = new FormData();
for (var i = 0; i < model.length; i++)
response.append(model[i][0], model[i][1]);
return response;
}
function extractIterator(response, model) {
return model[Symbol.iterator]();
}
function createModel(response, model) {
return model;
}
function parseModelString(response, parentObject, key, value) {
if ("$" === value[0]) {
if ("$" === value)
return (
null !== initializingHandler &&
"0" === key &&
(initializingHandler = {
parent: initializingHandler,
chunk: null,
value: null,
deps: 0,
errored: !1
}),
REACT_ELEMENT_TYPE
);
switch (value[1]) {
case "$":
return value.slice(1);
case "L":
return (
(parentObject = parseInt(value.slice(2), 16)),
(response = getChunk(response, parentObject)),
createLazyChunkWrapper(response)
);
case "@":
if (2 === value.length) return new Promise(function () {});
parentObject = parseInt(value.slice(2), 16);
return getChunk(response, parentObject);
case "S":
return Symbol.for(value.slice(2));
case "F":
return (
(value = value.slice(2)),
getOutlinedModel(
response,
value,
parentObject,
key,
loadServerReference
)
);
case "T":
parentObject = "$" + value.slice(2);
response = response._tempRefs;
if (null == response)
throw Error(
"Missing a temporary reference set but the RSC response returned a temporary reference. Pass a temporaryReference option with the set that was used with the reply."
);
return response.get(parentObject);
case "Q":
return (
(value = value.slice(2)),
getOutlinedModel(response, value, parentObject, key, createMap)
);
case "W":
return (
(value = value.slice(2)),
getOutlinedModel(response, value, parentObject, key, createSet)
);
case "B":
return (
(value = value.slice(2)),
getOutlinedModel(response, value, parentObject, key, createBlob)
);
case "K":
return (
(value = value.slice(2)),
getOutlinedModel(
response,
value,
parentObject,
key,
createFormData
)
);
case "Z":
return (
(value = value.slice(2)),
getOutlinedModel(
response,
value,
parentObject,
key,
resolveErrorDev
)
);
case "i":
return (
(value = value.slice(2)),
getOutlinedModel(
response,
value,
parentObject,
key,
extractIterator
)
);
case "I":
return Infinity;
case "-":
return "$-0" === value ? -0 : -Infinity;
case "N":
return NaN;
case "u":
return;
case "D":
return new Date(Date.parse(value.slice(2)));
case "n":
return BigInt(value.slice(2));
case "E":
try {
return (0, eval)(value.slice(2));
} catch (x) {
return function () {};
}
case "Y":
return (
Object.defineProperty(parentObject, key, {
get: function () {
return "This object has been omitted by React in the console log to avoid sending too much data from the server. Try logging smaller or more specific objects.";
},
enumerable: !0,
configurable: !1
}),
null
);
default:
return (
(value = value.slice(1)),
getOutlinedModel(response, value, parentObject, key, createModel)
);
}
}
return value;
}
function missingCall() {
throw Error(
'Trying to call a function from "use server" but the callServer option was not implemented in your router runtime.'
);
}
function ResponseInstance(
bundlerConfig,
serverReferenceConfig,
moduleLoading,
callServer,
encodeFormAction,
nonce,
temporaryReferences,
findSourceMapURL,
replayConsole,
environmentName
) {
var chunks = new Map();
this._bundlerConfig = bundlerConfig;
this._serverReferenceConfig = serverReferenceConfig;
this._moduleLoading = moduleLoading;
this._callServer = void 0 !== callServer ? callServer : missingCall;
this._encodeFormAction = encodeFormAction;
this._nonce = nonce;
this._chunks = chunks;
this._stringDecoder = new util.TextDecoder();
this._fromJSON = null;
this._rowLength = this._rowTag = this._rowID = this._rowState = 0;
this._buffer = [];
this._closed = !1;
this._closedReason = null;
this._tempRefs = temporaryReferences;
this._debugRootOwner = bundlerConfig =
void 0 === ReactSharedInteralsServer ||
null === ReactSharedInteralsServer.A
? null
: ReactSharedInteralsServer.A.getOwner();
this._debugRootStack =
null !== bundlerConfig ? Error("react-stack-top-frame") : null;
environmentName = void 0 === environmentName ? "Server" : environmentName;
supportsCreateTask &&
(this._debugRootTask = console.createTask(
'"use ' + environmentName.toLowerCase() + '"'
));
this._debugFindSourceMapURL = findSourceMapURL;
this._replayConsole = replayConsole;
this._rootEnvironmentName = environmentName;
this._fromJSON = createFromJSONCallback(this);
}
function resolveModel(response, id, model) {
var chunks = response._chunks,
chunk = chunks.get(id);
chunk
? resolveModelChunk(chunk, model)
: chunks.set(
id,
new ReactPromise("resolved_model", model, null, response)
);
}
function resolveText(response, id, text) {
var chunks = response._chunks,
chunk = chunks.get(id);
chunk && "pending" !== chunk.status
? chunk.reason.enqueueValue(text)
: chunks.set(id, new ReactPromise("fulfilled", text, null, response));
}
function resolveBuffer(response, id, buffer) {
var chunks = response._chunks,
chunk = chunks.get(id);
chunk && "pending" !== chunk.status
? chunk.reason.enqueueValue(buffer)
: chunks.set(id, new ReactPromise("fulfilled", buffer, null, response));
}
function resolveModule(response, id, model) {
var chunks = response._chunks,
chunk = chunks.get(id);
model = JSON.parse(model, response._fromJSON);
var clientReference = resolveClientReference(
response._bundlerConfig,
model
);
prepareDestinationWithChunks(
response._moduleLoading,
model[1],
response._nonce
);
if ((model = preloadModule(clientReference))) {
if (chunk) {
var blockedChunk = chunk;
blockedChunk.status = "blocked";
} else
(blockedChunk = new ReactPromise("blocked", null, null, response)),
chunks.set(id, blockedChunk);
model.then(
function () {
return resolveModuleChunk(blockedChunk, clientReference);
},
function (error) {
return triggerErrorOnChunk(blockedChunk, error);
}
);
} else
chunk
? resolveModuleChunk(chunk, clientReference)
: chunks.set(
id,
new ReactPromise(
"resolved_module",
clientReference,
null,
response
)
);
}
function resolveStream(response, id, stream, controller) {
var chunks = response._chunks,
chunk = chunks.get(id);
chunk
? "pending" === chunk.status &&
((response = chunk.value),
(chunk.status = "fulfilled"),
(chunk.value = stream),
(chunk.reason = controller),
null !== response && wakeChunk(response, chunk.value))
: chunks.set(
id,
new ReactPromise("fulfilled", stream, controller, response)
);
}
function startReadableStream(response, id, type) {
var controller = null;
type = new ReadableStream({
type: type,
start: function (c) {
controller = c;
}
});
var previousBlockedChunk = null;
resolveStream(response, id, type, {
enqueueValue: function (value) {
null === previousBlockedChunk
? controller.enqueue(value)
: previousBlockedChunk.then(function () {
controller.enqueue(value);
});
},
enqueueModel: function (json) {
if (null === previousBlockedChunk) {
var chunk = new ReactPromise(
"resolved_model",
json,
null,
response
);
initializeModelChunk(chunk);
"fulfilled" === chunk.status
? controller.enqueue(chunk.value)
: (chunk.then(
function (v) {
return controller.enqueue(v);
},
function (e) {
return controller.error(e);
}
),
(previousBlockedChunk = chunk));
} else {
chunk = previousBlockedChunk;
var _chunk3 = createPendingChunk(response);
_chunk3.then(
function (v) {
return controller.enqueue(v);
},
function (e) {
return controller.error(e);
}
);
previousBlockedChunk = _chunk3;
chunk.then(function () {
previousBlockedChunk === _chunk3 && (previousBlockedChunk = null);
resolveModelChunk(_chunk3, json);
});
}
},
close: function () {
if (null === previousBlockedChunk) controller.close();
else {
var blockedChunk = previousBlockedChunk;
previousBlockedChunk = null;
blockedChunk.then(function () {
return controller.close();
});
}
},
error: function (error) {
if (null === previousBlockedChunk) controller.error(error);
else {
var blockedChunk = previousBlockedChunk;
previousBlockedChunk = null;
blockedChunk.then(function () {
return controller.error(error);
});
}
}
});
}
function asyncIterator() {
return this;
}
function createIterator(next) {
next = { next: next };
next[ASYNC_ITERATOR] = asyncIterator;
return next;
}
function startAsyncIterable(response, id, iterator) {
var buffer = [],
closed = !1,
nextWriteIndex = 0,
iterable = _defineProperty({}, ASYNC_ITERATOR, function () {
var nextReadIndex = 0;
return createIterator(function (arg) {
if (void 0 !== arg)
throw Error(
"Values cannot be passed to next() of AsyncIterables passed to Client Components."
);
if (nextReadIndex === buffer.length) {
if (closed)
return new ReactPromise(
"fulfilled",
{ done: !0, value: void 0 },
null,
response
);
buffer[nextReadIndex] = createPendingChunk(response);
}
return buffer[nextReadIndex++];
});
});
resolveStream(
response,
id,
iterator ? iterable[ASYNC_ITERATOR]() : iterable,
{
enqueueValue: function (value) {
if (nextWriteIndex === buffer.length)
buffer[nextWriteIndex] = new ReactPromise(
"fulfilled",
{ done: !1, value: value },
null,
response
);
else {
var chunk = buffer[nextWriteIndex],
resolveListeners = chunk.value,
rejectListeners = chunk.reason;
chunk.status = "fulfilled";
chunk.value = { done: !1, value: value };
null !== resolveListeners &&
wakeChunkIfInitialized(
chunk,
resolveListeners,
rejectListeners
);
}
nextWriteIndex++;
},
enqueueModel: function (value) {
nextWriteIndex === buffer.length
? (buffer[nextWriteIndex] = createResolvedIteratorResultChunk(
response,
value,
!1
))
: resolveIteratorResultChunk(buffer[nextWriteIndex], value, !1);
nextWriteIndex++;
},
close: function (value) {
closed = !0;
nextWriteIndex === buffer.length
? (buffer[nextWriteIndex] = createResolvedIteratorResultChunk(
response,
value,
!0
))
: resolveIteratorResultChunk(buffer[nextWriteIndex], value, !0);
for (nextWriteIndex++; nextWriteIndex < buffer.length; )
resolveIteratorResultChunk(
buffer[nextWriteIndex++],
'"$undefined"',
!0
);
},
error: function (error) {
closed = !0;
for (
nextWriteIndex === buffer.length &&
(buffer[nextWriteIndex] = createPendingChunk(response));
nextWriteIndex < buffer.length;
)
triggerErrorOnChunk(buffer[nextWriteIndex++], error);
}
}
);
}
function stopStream(response, id, row) {
(response = response._chunks.get(id)) &&
"fulfilled" === response.status &&
response.reason.close("" === row ? '"$undefined"' : row);
}
function resolveErrorDev(response, errorInfo) {
var name = errorInfo.name,
env = errorInfo.env;
errorInfo = buildFakeCallStack(
response,
errorInfo.stack,
env,
Error.bind(
null,
errorInfo.message ||
"An error occurred in the Server Components render but no message was provided"
)
);
response = getRootTask(response, env);
response = null != response ? response.run(errorInfo) : errorInfo();
response.name = name;
response.environmentName = env;
return response;
}
function resolveHint(response, code, model) {
response = JSON.parse(model, response._fromJSON);
model = ReactDOMSharedInternals.d;
switch (code) {
case "D":
model.D(response);
break;
case "C":
"string" === typeof response
? model.C(response)
: model.C(response[0], response[1]);
break;
case "L":
code = response[0];
var as = response[1];
3 === response.length
? model.L(code, as, response[2])
: model.L(code, as);
break;
case "m":
"string" === typeof response
? model.m(response)
: model.m(response[0], response[1]);
break;
case "X":
"string" === typeof response
? model.X(response)
: model.X(response[0], response[1]);
break;
case "S":
"string" === typeof response
? model.S(response)
: model.S(
response[0],
0 === response[1] ? void 0 : response[1],
3 === response.length ? response[2] : void 0
);
break;
case "M":
"string" === typeof response
? model.M(response)
: model.M(response[0], response[1]);
}
}
function createFakeFunction(
name,
filename,
sourceMap,
line,
col,
environmentName
) {
name || (name = "<anonymous>");
var encodedName = JSON.stringify(name);
1 >= line
? ((line = encodedName.length + 7),
(col =
"({" +
encodedName +
":_=>" +
" ".repeat(col < line ? 0 : col - line) +
"_()})\n/* This module was rendered by a Server Component. Turn on Source Maps to see the server source. */"))
: (col =
"/* This module was rendered by a Server Component. Turn on Source Maps to see the server source. */" +
"\n".repeat(line - 2) +
"({" +
encodedName +
":_=>\n" +
" ".repeat(1 > col ? 0 : col - 1) +
"_()})");
filename.startsWith("/") && (filename = "file://" + filename);
sourceMap
? ((col +=
"\n//# sourceURL=rsc://React/" +
encodeURIComponent(environmentName) +
"/" +
encodeURI(filename) +
"?" +
fakeFunctionIdx++),
(col += "\n//# sourceMappingURL=" + sourceMap))
: (col = filename
? col + ("\n//# sourceURL=" + encodeURI(filename))
: col + "\n//# sourceURL=<anonymous>");
try {
var fn = (0, eval)(col)[name];
} catch (x) {
fn = function (_) {
return _();
};
}
return fn;
}
function buildFakeCallStack(response, stack, environmentName, innerCall) {
for (var i = 0; i < stack.length; i++) {
var frame = stack[i],
frameKey = frame.join("-") + "-" + environmentName,
fn = fakeFunctionCache.get(frameKey);
if (void 0 === fn) {
fn = frame[0];
var filename = frame[1],
line = frame[2];
frame = frame[3];
var findSourceMapURL = response._debugFindSourceMapURL;
findSourceMapURL = findSourceMapURL
? findSourceMapURL(filename, environmentName)
: null;
fn = createFakeFunction(
fn,
filename,
findSourceMapURL,
line,
frame,
environmentName
);
fakeFunctionCache.set(frameKey, fn);
}
innerCall = fn.bind(null, innerCall);
}
return innerCall;
}
function getRootTask(response, childEnvironmentName) {
var rootTask = response._debugRootTask;
return rootTask
? response._rootEnvironmentName !== childEnvironmentName
? ((response = console.createTask.bind(
console,
'"use ' + childEnvironmentName.toLowerCase() + '"'
)),
rootTask.run(response))
: rootTask
: null;
}
function initializeFakeTask(response, debugInfo, childEnvironmentName) {
if (!supportsCreateTask || null == debugInfo.stack) return null;
var stack = debugInfo.stack,
env =
null == debugInfo.env ? response._rootEnvironmentName : debugInfo.env;
if (env !== childEnvironmentName)
return (
(debugInfo =
null == debugInfo.owner
? null
: initializeFakeTask(response, debugInfo.owner, env)),
buildFakeTask(
response,
debugInfo,
stack,
'"use ' + childEnvironmentName.toLowerCase() + '"',
env
)
);
childEnvironmentName = debugInfo.debugTask;
if (void 0 !== childEnvironmentName) return childEnvironmentName;
childEnvironmentName =
null == debugInfo.owner
? null
: initializeFakeTask(response, debugInfo.owner, env);
return (debugInfo.debugTask = buildFakeTask(
response,
childEnvironmentName,
stack,
"<" + (debugInfo.name || "...") + ">",
env
));
}
function buildFakeTask(response, ownerTask, stack, taskName, env) {
taskName = console.createTask.bind(console, taskName);
stack = buildFakeCallStack(response, stack, env, taskName);
return null === ownerTask
? ((response = getRootTask(response, env)),
null != response ? response.run(stack) : stack())
: ownerTask.run(stack);
}
function fakeJSXCallSite() {
return Error("react-stack-top-frame");
}
function initializeFakeStack(response, debugInfo) {
void 0 === debugInfo.debugStack &&
(null != debugInfo.stack &&
(debugInfo.debugStack = createFakeJSXCallStackInDEV(
response,
debugInfo.stack,
null == debugInfo.env ? "" : debugInfo.env
)),
null != debugInfo.owner &&
initializeFakeStack(response, debugInfo.owner));
}
function resolveDebugInfo(response, id, debugInfo) {
var env =
void 0 === debugInfo.env
? response._rootEnvironmentName
: debugInfo.env;
void 0 !== debugInfo.stack &&
initializeFakeTask(response, debugInfo, env);
null === debugInfo.owner && null != response._debugRootOwner
? ((debugInfo.owner = response._debugRootOwner),
(debugInfo.debugStack = response._debugRootStack))
: void 0 !== debugInfo.stack &&
initializeFakeStack(response, debugInfo);
response = getChunk(response, id);
(response._debugInfo || (response._debugInfo = [])).push(debugInfo);
}
function getCurrentStackInDEV() {
var owner = currentOwnerInDEV;
if (null === owner) return "";
try {
var info = "";
if (owner.owner || "string" !== typeof owner.name) {
for (; owner; ) {
var ownerStack = owner.debugStack;
if (null != ownerStack) {
if ((owner = owner.owner)) {
var JSCompiler_temp_const = info;
var error = ownerStack,
prevPrepareStackTrace = Error.prepareStackTrace;
Error.prepareStackTrace = prepareStackTrace;
var stack = error.stack;
Error.prepareStackTrace = prevPrepareStackTrace;
stack.startsWith("Error: react-stack-top-frame\n") &&
(stack = stack.slice(29));
var idx = stack.indexOf("\n");
-1 !== idx && (stack = stack.slice(idx + 1));
idx = stack.indexOf("react-stack-bottom-frame");
-1 !== idx && (idx = stack.lastIndexOf("\n", idx));
var JSCompiler_inline_result =
-1 !== idx ? (stack = stack.slice(0, idx)) : "";
info =
JSCompiler_temp_const + ("\n" + JSCompiler_inline_result);
}
} else break;
}
var JSCompiler_inline_result$jscomp$0 = info;
} else {
JSCompiler_temp_const = owner.name;
if (void 0 === prefix)
try {
throw Error();
} catch (x) {
(prefix =
((error = x.stack.trim().match(/\n( *(at )?)/)) && error[1]) ||
""),
(suffix =
-1 < x.stack.indexOf("\n at")
? " (<anonymous>)"
: -1 < x.stack.indexOf("@")
? "@unknown:0:0"
: "");
}
JSCompiler_inline_result$jscomp$0 =
"\n" + prefix + JSCompiler_temp_const + suffix;
}
} catch (x) {
JSCompiler_inline_result$jscomp$0 =
"\nError generating stack: " + x.message + "\n" + x.stack;
}
return JSCompiler_inline_result$jscomp$0;
}
function resolveConsoleEntry(response, value) {
if (response._replayConsole) {
var payload = JSON.parse(value, response._fromJSON);
value = payload[0];
var stackTrace = payload[1],
owner = payload[2],
env = payload[3];
payload = payload.slice(4);
replayConsoleWithCallStackInDEV(
response,
value,
stackTrace,
owner,
env,
payload
);
}
}
function mergeBuffer(buffer, lastChunk) {
for (
var l = buffer.length, byteLength = lastChunk.length, i = 0;
i < l;
i++
)
byteLength += buffer[i].byteLength;
byteLength = new Uint8Array(byteLength);
for (var _i2 = (i = 0); _i2 < l; _i2++) {
var chunk = buffer[_i2];
byteLength.set(chunk, i);
i += chunk.byteLength;
}
byteLength.set(lastChunk, i);
return byteLength;
}
function resolveTypedArray(
response,
id,
buffer,
lastChunk,
constructor,
bytesPerElement
) {
buffer =
0 === buffer.length && 0 === lastChunk.byteOffset % bytesPerElement
? lastChunk
: mergeBuffer(buffer, lastChunk);
constructor = new constructor(
buffer.buffer,
buffer.byteOffset,
buffer.byteLength / bytesPerElement
);
resolveBuffer(response, id, constructor);
}
function processFullBinaryRow(response, id, tag, buffer, chunk) {
switch (tag) {
case 65:
resolveBuffer(response, id, mergeBuffer(buffer, chunk).buffer);
return;
case 79:
resolveTypedArray(response, id, buffer, chunk, Int8Array, 1);
return;
case 111:
resolveBuffer(
response,
id,
0 === buffer.length ? chunk : mergeBuffer(buffer, chunk)
);
return;
case 85:
resolveTypedArray(response, id, buffer, chunk, Uint8ClampedArray, 1);
return;
case 83:
resolveTypedArray(response, id, buffer, chunk, Int16Array, 2);
return;
case 115:
resolveTypedArray(response, id, buffer, chunk, Uint16Array, 2);
return;
case 76:
resolveTypedArray(response, id, buffer, chunk, Int32Array, 4);
return;
case 108:
resolveTypedArray(response, id, buffer, chunk, Uint32Array, 4);
return;
case 71:
resolveTypedArray(response, id, buffer, chunk, Float32Array, 4);
return;
case 103:
resolveTypedArray(response, id, buffer, chunk, Float64Array, 8);
return;
case 77:
resolveTypedArray(response, id, buffer, chunk, BigInt64Array, 8);
return;
case 109:
resolveTypedArray(response, id, buffer, chunk, BigUint64Array, 8);
return;
case 86:
resolveTypedArray(response, id, buffer, chunk, DataView, 1);
return;
}
for (
var stringDecoder = response._stringDecoder, row = "", i = 0;
i < buffer.length;
i++
)
row += stringDecoder.decode(buffer[i], decoderOptions);
row += stringDecoder.decode(chunk);
processFullStringRow(response, id, tag, row);
}
function processFullStringRow(response, id, tag, row) {
switch (tag) {
case 73:
resolveModule(response, id, row);
break;
case 72:
resolveHint(response, row[0], row.slice(1));
break;
case 69:
row = JSON.parse(row);
tag = resolveErrorDev(response, row);
tag.digest = row.digest;
row = response._chunks;
var chunk = row.get(id);
chunk
? triggerErrorOnChunk(chunk, tag)
: row.set(id, new ReactPromise("rejected", null, tag, response));
break;
case 84:
resolveText(response, id, row);
break;
case 78:
case 68:
tag = new ReactPromise("resolved_model", row, null, response);
initializeModelChunk(tag);
"fulfilled" === tag.status
? resolveDebugInfo(response, id, tag.value)
: tag.then(
function (v) {
return resolveDebugInfo(response, id, v);
},
function () {}
);
break;
case 87:
resolveConsoleEntry(response, row);
break;
case 82:
startReadableStream(response, id, void 0);
break;
case 114:
startReadableStream(response, id, "bytes");
break;
case 88:
startAsyncIterable(response, id, !1);
break;
case 120:
startAsyncIterable(response, id, !0);
break;
case 67:
stopStream(response, id, row);
break;
default:
resolveModel(response, id, row);
}
}
function createFromJSONCallback(response) {
return function (key, value) {
if ("string" === typeof value)
return parseModelString(response, this, key, value);
if ("object" === typeof value && null !== value) {
if (value[0] === REACT_ELEMENT_TYPE) {
var type = value[1];
key = value[4];
var stack = value[5],
validated = value[6];
value = {
$$typeof: REACT_ELEMENT_TYPE,
type: type,
key: value[2],
props: value[3],
_owner: null === key ? response._debugRootOwner : key
};
Object.defineProperty(value, "ref", {
enumerable: !1,
get: nullRefGetter
});
value._store = {};
Object.defineProperty(value._store, "validated", {
configurable: !1,
enumerable: !1,
writable: !0,
value: validated
});
Object.defineProperty(value, "_debugInfo", {
configurable: !1,
enumerable: !1,
writable: !0,
value: null
});
validated = response._rootEnvironmentName;
null !== key && null != key.env && (validated = key.env);
var normalizedStackTrace = null;
null === key && null != response._debugRootStack
? (normalizedStackTrace = response._debugRootStack)
: null !== stack &&
(normalizedStackTrace = createFakeJSXCallStackInDEV(
response,
stack,
validated
));
Object.defineProperty(value, "_debugStack", {
configurable: !1,
enumerable: !1,
writable: !0,
value: normalizedStackTrace
});
normalizedStackTrace = null;
supportsCreateTask &&
null !== stack &&
((type = console.createTask.bind(console, getTaskName(type))),
(stack = buildFakeCallStack(response, stack, validated, type)),
(type =
null === key
? null
: initializeFakeTask(response, key, validated)),
null === type
? ((type = response._debugRootTask),
(normalizedStackTrace =
null != type ? type.run(stack) : stack()))
: (normalizedStackTrace = type.run(stack)));
Object.defineProperty(value, "_debugTask", {
configurable: !1,
enumerable: !1,
writable: !0,
value: normalizedStackTrace
});
null !== key && initializeFakeStack(response, key);
null !== initializingHandler
? ((stack = initializingHandler),
(initializingHandler = stack.parent),
stack.errored
? ((key = new ReactPromise(
"rejected",
null,
stack.value,
response
)),
(stack = {
name: getComponentNameFromType(value.type) || "",
owner: value._owner
}),
(stack.debugStack = value._debugStack),
supportsCreateTask && (stack.debugTask = value._debugTask),
(key._debugInfo = [stack]),
(value = createLazyChunkWrapper(key)))
: 0 < stack.deps &&
((key = new ReactPromise("blocked", null, null, response)),
(stack.value = value),
(stack.chunk = key),
(value = Object.freeze.bind(Object, value.props)),
key.then(value, value),
(value = createLazyChunkWrapper(key))))
: Object.freeze(value.props);
}
return value;
}
return value;
};
}
function noServerCall() {
throw Error(
"Server Functions cannot be called during initial render. This would create a fetch waterfall. Try to use a Server Component to pass data to Client Components instead."
);
}
var util = require("util"),
ReactDOM = require("react-dom"),
React = require("react"),
decoderOptions = { stream: !0 },
bind$1 = Function.prototype.bind,
asyncModuleCache = new Map(),
ReactDOMSharedInternals =
ReactDOM.__DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE,
REACT_ELEMENT_TYPE = Symbol.for("react.transitional.element"),
REACT_PORTAL_TYPE = Symbol.for("react.portal"),
REACT_FRAGMENT_TYPE = Symbol.for("react.fragment"),
REACT_STRICT_MODE_TYPE = Symbol.for("react.strict_mode"),
REACT_PROFILER_TYPE = Symbol.for("react.profiler");
Symbol.for("react.provider");
var REACT_CONSUMER_TYPE = Symbol.for("react.consumer"),
REACT_CONTEXT_TYPE = Symbol.for("react.context"),
REACT_FORWARD_REF_TYPE = Symbol.for("react.forward_ref"),
REACT_SUSPENSE_TYPE = Symbol.for("react.suspense"),
REACT_SUSPENSE_LIST_TYPE = Symbol.for("react.suspense_list"),
REACT_MEMO_TYPE = Symbol.for("react.memo"),
REACT_LAZY_TYPE = Symbol.for("react.lazy"),
REACT_ACTIVITY_TYPE = Symbol.for("react.activity"),
MAYBE_ITERATOR_SYMBOL = Symbol.iterator,
ASYNC_ITERATOR = Symbol.asyncIterator,
isArrayImpl = Array.isArray,
getPrototypeOf = Object.getPrototypeOf,
jsxPropsParents = new WeakMap(),
jsxChildrenParents = new WeakMap(),
CLIENT_REFERENCE_TAG = Symbol.for("react.client.reference"),
ObjectPrototype = Object.prototype,
knownServerReferences = new WeakMap(),
boundCache = new WeakMap(),
fakeServerFunctionIdx = 0,
FunctionBind = Function.prototype.bind,
ArraySlice = Array.prototype.slice,
v8FrameRegExp =
/^ {3} at (?:(.+) \((.+):(\d+):(\d+)\)|(?:async )?(.+):(\d+):(\d+))$/,
jscSpiderMonkeyFrameRegExp = /(?:(.*)@)?(.*):(\d+):(\d+)/,
REACT_CLIENT_REFERENCE = Symbol.for("react.client.reference"),
prefix,
suffix;
new ("function" === typeof WeakMap ? WeakMap : Map)();
var ReactSharedInteralsServer =
React.__SERVER_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE,
ReactSharedInternals =
React.__CLIENT_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE ||
ReactSharedInteralsServer;
ReactPromise.prototype = Object.create(Promise.prototype);
ReactPromise.prototype.then = function (resolve, reject) {
switch (this.status) {
case "resolved_model":
initializeModelChunk(this);
break;
case "resolved_module":
initializeModuleChunk(this);
}
switch (this.status) {
case "fulfilled":
resolve(this.value);
break;
case "pending":
case "blocked":
resolve &&
(null === this.value && (this.value = []),
this.value.push(resolve));
reject &&
(null === this.reason && (this.reason = []),
this.reason.push(reject));
break;
default:
reject && reject(this.reason);
}
};
var initializingHandler = null,
supportsCreateTask = !!console.createTask,
fakeFunctionCache = new Map(),
fakeFunctionIdx = 0,
createFakeJSXCallStack = {
"react-stack-bottom-frame": function (
response,
stack,
environmentName
) {
return buildFakeCallStack(
response,
stack,
environmentName,
fakeJSXCallSite
)();
}
},
createFakeJSXCallStackInDEV = createFakeJSXCallStack[
"react-stack-bottom-frame"
].bind(createFakeJSXCallStack),
currentOwnerInDEV = null,
replayConsoleWithCallStack = {
"react-stack-bottom-frame": function (
response,
methodName,
stackTrace,
owner,
env,
args
) {
var prevStack = ReactSharedInternals.getCurrentStack;
ReactSharedInternals.getCurrentStack = getCurrentStackInDEV;
currentOwnerInDEV = null === owner ? response._debugRootOwner : owner;
try {
a: {
var offset = 0;
switch (methodName) {
case "dir":
case "dirxml":
case "groupEnd":
case "table":
var JSCompiler_inline_result = bind$1.apply(
console[methodName],
[console].concat(args)
);
break a;
case "assert":
offset = 1;
}
var newArgs = args.slice(0);
"string" === typeof newArgs[offset]
? newArgs.splice(
offset,
1,
"\u001b[0m\u001b[7m%c%s\u001b[0m%c " + newArgs[offset],
"background: #e6e6e6;background: light-dark(rgba(0,0,0,0.1), rgba(255,255,255,0.25));color: #000000;color: light-dark(#000000, #ffffff);border-radius: 2px",
" " + env + " ",
""
)
: newArgs.splice(
offset,
0,
"\u001b[0m\u001b[7m%c%s\u001b[0m%c ",
"background: #e6e6e6;background: light-dark(rgba(0,0,0,0.1), rgba(255,255,255,0.25));color: #000000;color: light-dark(#000000, #ffffff);border-radius: 2px",
" " + env + " ",
""
);
newArgs.unshift(console);
JSCompiler_inline_result = bind$1.apply(
console[methodName],
newArgs
);
}
var callStack = buildFakeCallStack(
response,
stackTrace,
env,
JSCompiler_inline_result
);
if (null != owner) {
var task = initializeFakeTask(response, owner, env);
initializeFakeStack(response, owner);
if (null !== task) {
task.run(callStack);
return;
}
}
var rootTask = getRootTask(response, env);
null != rootTask ? rootTask.run(callStack) : callStack();
} finally {
(currentOwnerInDEV = null),
(ReactSharedInternals.getCurrentStack = prevStack);
}
}
},
replayConsoleWithCallStackInDEV = replayConsoleWithCallStack[
"react-stack-bottom-frame"
].bind(replayConsoleWithCallStack);
exports.createFromNodeStream = function (
stream,
serverConsumerManifest,
options
) {
var response = new ResponseInstance(
serverConsumerManifest.moduleMap,
serverConsumerManifest.serverModuleMap,
serverConsumerManifest.moduleLoading,
noServerCall,
options ? options.encodeFormAction : void 0,
options && "string" === typeof options.nonce ? options.nonce : void 0,
void 0,
options && options.findSourceMapURL ? options.findSourceMapURL : void 0,
options ? !0 === options.replayConsoleLogs : !1,
options && options.environmentName ? options.environmentName : void 0
);
stream.on("data", function (chunk) {
if ("string" === typeof chunk) {
for (
var i = 0,
rowState = response._rowState,
rowID = response._rowID,
rowTag = response._rowTag,
rowLength = response._rowLength,
buffer = response._buffer,
chunkLength = chunk.length;
i < chunkLength;
) {
var lastIdx = -1;
switch (rowState) {
case 0:
lastIdx = chunk.charCodeAt(i++);
58 === lastIdx
? (rowState = 1)
: (rowID =
(rowID << 4) |
(96 < lastIdx ? lastIdx - 87 : lastIdx - 48));
continue;
case 1:
rowState = chunk.charCodeAt(i);
84 === rowState ||
65 === rowState ||
79 === rowState ||
111 === rowState ||
85 === rowState ||
83 === rowState ||
115 === rowState ||
76 === rowState ||
108 === rowState ||
71 === rowState ||
103 === rowState ||
77 === rowState ||
109 === rowState ||
86 === rowState
? ((rowTag = rowState), (rowState = 2), i++)
: (64 < rowState && 91 > rowState) ||
114 === rowState ||
120 === rowState
? ((rowTag = rowState), (rowState = 3), i++)
: ((rowTag = 0), (rowState = 3));
continue;
case 2:
lastIdx = chunk.charCodeAt(i++);
44 === lastIdx
? (rowState = 4)
: (rowLength =
(rowLength << 4) |
(96 < lastIdx ? lastIdx - 87 : lastIdx - 48));
continue;
case 3:
lastIdx = chunk.indexOf("\n", i);
break;
case 4:
if (84 !== rowTag)
throw Error(
"Binary RSC chunks cannot be encoded as strings. This is a bug in the wiring of the React streams."
);
if (rowLength < chunk.length || chunk.length > 3 * rowLength)
throw Error(
"String chunks need to be passed in their original shape. Not split into smaller string chunks. This is a bug in the wiring of the React streams."
);
lastIdx = chunk.length;
}
if (-1 < lastIdx) {
if (0 < buffer.length)
throw Error(
"String chunks need to be passed in their original shape. Not split into smaller string chunks. This is a bug in the wiring of the React streams."
);
i = chunk.slice(i, lastIdx);
processFullStringRow(response, rowID, rowTag, i);
i = lastIdx;
3 === rowState && i++;
rowLength = rowID = rowTag = rowState = 0;
buffer.length = 0;
} else if (chunk.length !== i)
throw Error(
"String chunks need to be passed in their original shape. Not split into smaller string chunks. This is a bug in the wiring of the React streams."
);
}
response._rowState = rowState;
response._rowID = rowID;
response._rowTag = rowTag;
response._rowLength = rowLength;
} else {
rowLength = 0;
chunkLength = response._rowState;
rowID = response._rowID;
i = response._rowTag;
rowState = response._rowLength;
buffer = response._buffer;
for (rowTag = chunk.length; rowLength < rowTag; ) {
lastIdx = -1;
switch (chunkLength) {
case 0:
lastIdx = chunk[rowLength++];
58 === lastIdx
? (chunkLength = 1)
: (rowID =
(rowID << 4) |
(96 < lastIdx ? lastIdx - 87 : lastIdx - 48));
continue;
case 1:
chunkLength = chunk[rowLength];
84 === chunkLength ||
65 === chunkLength ||
79 === chunkLength ||
111 === chunkLength ||
85 === chunkLength ||
83 === chunkLength ||
115 === chunkLength ||
76 === chunkLength ||
108 === chunkLength ||
71 === chunkLength ||
103 === chunkLength ||
77 === chunkLength ||
109 === chunkLength ||
86 === chunkLength
? ((i = chunkLength), (chunkLength = 2), rowLength++)
: (64 < chunkLength && 91 > chunkLength) ||
35 === chunkLength ||
114 === chunkLength ||
120 === chunkLength
? ((i = chunkLength), (chunkLength = 3), rowLength++)
: ((i = 0), (chunkLength = 3));
continue;
case 2:
lastIdx = chunk[rowLength++];
44 === lastIdx
? (chunkLength = 4)
: (rowState =
(rowState << 4) |
(96 < lastIdx ? lastIdx - 87 : lastIdx - 48));
continue;
case 3:
lastIdx = chunk.indexOf(10, rowLength);
break;
case 4:
(lastIdx = rowLength + rowState),
lastIdx > chunk.length && (lastIdx = -1);
}
var offset = chunk.byteOffset + rowLength;
if (-1 < lastIdx)
(rowState = new Uint8Array(
chunk.buffer,
offset,
lastIdx - rowLength
)),
processFullBinaryRow(response, rowID, i, buffer, rowState),
(rowLength = lastIdx),
3 === chunkLength && rowLength++,
(rowState = rowID = i = chunkLength = 0),
(buffer.length = 0);
else {
chunk = new Uint8Array(
chunk.buffer,
offset,
chunk.byteLength - rowLength
);
buffer.push(chunk);
rowState -= chunk.byteLength;
break;
}
}
response._rowState = chunkLength;
response._rowID = rowID;
response._rowTag = i;
response._rowLength = rowState;
}
});
stream.on("error", function (error) {
reportGlobalError(response, error);
});
stream.on("end", function () {
reportGlobalError(response, Error("Connection closed."));
});
return getChunk(response, 0);
};
exports.createServerReference = function (id) {
return createServerReference$1(id, noServerCall);
};
exports.registerServerReference = function (
reference,
id,
encodeFormAction
) {
registerBoundServerReference(reference, id, null, encodeFormAction);
return reference;
};
})();
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