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@solana/addresses

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@solana/addresses - npm Package Compare versions

Comparing version 2.0.0-experimental.38decd1 to 2.0.0-experimental.398c396

dist/types/address.d.ts

125

dist/index.browser.js

@@ -1,7 +0,35 @@

import { base58, string } from '@metaplex-foundation/umi-serializers';
import { mapEncoder, combineCodec } from '@solana/codecs-core';
import { getStringEncoder, getStringDecoder, getBase58Encoder, getBase58Decoder } from '@solana/codecs-strings';
import { assertKeyExporterIsAvailable, assertDigestCapabilityIsAvailable } from '@solana/assertions';
// ../build-scripts/env-shim.ts
var __DEV__ = /* @__PURE__ */ (() => process["env"].NODE_ENV === "development")();
function assertIsBase58EncodedAddress(putativeBase58EncodedAddress) {
// src/address.ts
var memoizedBase58Encoder;
var memoizedBase58Decoder;
function getMemoizedBase58Encoder() {
if (!memoizedBase58Encoder)
memoizedBase58Encoder = getBase58Encoder();
return memoizedBase58Encoder;
}
function getMemoizedBase58Decoder() {
if (!memoizedBase58Decoder)
memoizedBase58Decoder = getBase58Decoder();
return memoizedBase58Decoder;
}
function isAddress(putativeBase58EncodedAddress) {
if (
// Lowest address (32 bytes of zeroes)
putativeBase58EncodedAddress.length < 32 || // Highest address (32 bytes of 255)
putativeBase58EncodedAddress.length > 44
) {
return false;
}
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;
if (numBytes !== 32) {
return false;
}
return true;
}
function assertIsAddress(putativeBase58EncodedAddress) {
try {

@@ -15,3 +43,4 @@ if (

}
const bytes = base58.serialize(putativeBase58EncodedAddress);
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;

@@ -27,10 +56,27 @@ if (numBytes !== 32) {

}
function getBase58EncodedAddressCodec(config) {
return string({
description: config?.description ?? (__DEV__ ? "A 32-byte account address" : ""),
encoding: base58,
function address(putativeBase58EncodedAddress) {
assertIsAddress(putativeBase58EncodedAddress);
return putativeBase58EncodedAddress;
}
function getAddressEncoder(config) {
return mapEncoder(
getStringEncoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Encoder(),
size: 32
}),
(putativeAddress) => address(putativeAddress)
);
}
function getAddressDecoder(config) {
return getStringDecoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Decoder(),
size: 32
});
}
function getBase58EncodedAddressComparator() {
function getAddressCodec(config) {
return combineCodec(getAddressEncoder(config), getAddressDecoder(config));
}
function getAddressComparator() {
return new Intl.Collator("en", {

@@ -136,3 +182,18 @@ caseFirst: "lower",

// src/computed-address.ts
// src/program-derived-address.ts
function isProgramDerivedAddress(value) {
return Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number" && value[1] >= 0 && value[1] <= 255 && isAddress(value[0]);
}
function assertIsProgramDerivedAddress(value) {
const validFormat = Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number";
if (!validFormat) {
throw new Error(
`Expected given program derived address to have the following format: [Base58EncodedAddress, ProgramDerivedAddressBump].`
);
}
if (value[1] < 0 || value[1] > 255) {
throw new Error(`Expected program derived address bump to be in the range [0, 255], got: ${value[1]}.`);
}
assertIsAddress(value[0]);
}
var MAX_SEED_LENGTH = 32;

@@ -166,3 +227,6 @@ var MAX_SEEDS = 16;

};
async function createProgramDerivedAddress({ programAddress, seeds }) {
async function createProgramDerivedAddress({
programAddress,
seeds
}) {
await assertDigestCapabilityIsAvailable();

@@ -181,4 +245,4 @@ if (seeds.length > MAX_SEEDS) {

}, []);
const base58EncodedAddressCodec = getBase58EncodedAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.serialize(programAddress);
const base58EncodedAddressCodec = getAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.encode(programAddress);
const addressBytesBuffer = await crypto.subtle.digest(

@@ -192,15 +256,16 @@ "SHA-256",

}
return base58EncodedAddressCodec.deserialize(addressBytes)[0];
return base58EncodedAddressCodec.decode(addressBytes)[0];
}
async function getProgramDerivedAddress({ programAddress, seeds }) {
async function getProgramDerivedAddress({
programAddress,
seeds
}) {
let bumpSeed = 255;
while (bumpSeed > 0) {
try {
return {
bumpSeed,
pda: await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
})
};
const address2 = await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
});
return [address2, bumpSeed];
} catch (e) {

@@ -221,3 +286,3 @@ if (e instanceof PointOnCurveError) {

}) {
const { serialize, deserialize } = getBase58EncodedAddressCodec();
const { encode, decode } = getAddressCodec();
const seedBytes = typeof seed === "string" ? new TextEncoder().encode(seed) : seed;

@@ -227,3 +292,3 @@ if (seedBytes.byteLength > MAX_SEED_LENGTH) {

}
const programAddressBytes = serialize(programAddress);
const programAddressBytes = encode(programAddress);
if (programAddressBytes.length >= PDA_MARKER_BYTES.length && programAddressBytes.slice(-PDA_MARKER_BYTES.length).every((byte, index) => byte === PDA_MARKER_BYTES[index])) {

@@ -234,6 +299,6 @@ throw new Error(`programAddress cannot end with the PDA marker`);

"SHA-256",
new Uint8Array([...serialize(baseAddress), ...seedBytes, ...programAddressBytes])
new Uint8Array([...encode(baseAddress), ...seedBytes, ...programAddressBytes])
);
const addressBytes = new Uint8Array(addressBytesBuffer);
return deserialize(addressBytes)[0];
return decode(addressBytes)[0];
}

@@ -246,6 +311,8 @@ async function getAddressFromPublicKey(publicKey) {

const publicKeyBytes = await crypto.subtle.exportKey("raw", publicKey);
const [base58EncodedAddress] = getBase58EncodedAddressCodec().deserialize(new Uint8Array(publicKeyBytes));
const [base58EncodedAddress] = getAddressDecoder().decode(new Uint8Array(publicKeyBytes));
return base58EncodedAddress;
}
export { assertIsBase58EncodedAddress, createAddressWithSeed, getAddressFromPublicKey, getBase58EncodedAddressCodec, getBase58EncodedAddressComparator, getProgramDerivedAddress };
export { address, assertIsAddress, assertIsProgramDerivedAddress, createAddressWithSeed, getAddressCodec, getAddressComparator, getAddressDecoder, getAddressEncoder, getAddressFromPublicKey, getProgramDerivedAddress, isAddress, isProgramDerivedAddress };
//# sourceMappingURL=out.js.map
//# sourceMappingURL=index.browser.js.map

@@ -5,15 +5,26 @@ this.globalThis = this.globalThis || {};

var __defProp = Object.defineProperty;
var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __publicField = (obj, key, value) => {
__defNormalProp(obj, typeof key !== "symbol" ? key + "" : key, value);
return value;
};
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-core@0.8.2/node_modules/@metaplex-foundation/umi-serializers-core/dist/esm/bytes.mjs
var mergeBytes = (bytesArr) => {
const totalLength = bytesArr.reduce((total, arr) => total + arr.length, 0);
// ../codecs-core/dist/index.browser.js
function assertByteArrayIsNotEmptyForCodec(codecDescription, bytes, offset = 0) {
if (bytes.length - offset <= 0) {
throw new Error(`Codec [${codecDescription}] cannot decode empty byte arrays.`);
}
}
function assertByteArrayHasEnoughBytesForCodec(codecDescription, expected, bytes, offset = 0) {
const bytesLength = bytes.length - offset;
if (bytesLength < expected) {
throw new Error(`Codec [${codecDescription}] expected ${expected} bytes, got ${bytesLength}.`);
}
}
var mergeBytes = (byteArrays) => {
const nonEmptyByteArrays = byteArrays.filter((arr) => arr.length);
if (nonEmptyByteArrays.length === 0) {
return byteArrays.length ? byteArrays[0] : new Uint8Array();
}
if (nonEmptyByteArrays.length === 1) {
return nonEmptyByteArrays[0];
}
const totalLength = nonEmptyByteArrays.reduce((total, arr) => total + arr.length, 0);
const result = new Uint8Array(totalLength);
let offset = 0;
bytesArr.forEach((arr) => {
nonEmptyByteArrays.forEach((arr) => {
result.set(arr, offset);

@@ -31,34 +42,52 @@ offset += arr.length;

};
var fixBytes = (bytes, length) => padBytes(bytes.slice(0, length), length);
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-core@0.8.2/node_modules/@metaplex-foundation/umi-serializers-core/dist/esm/errors.mjs
var DeserializingEmptyBufferError = class extends Error {
constructor(serializer) {
super(`Serializer [${serializer}] cannot deserialize empty buffers.`);
__publicField(this, "name", "DeserializingEmptyBufferError");
var fixBytes = (bytes, length) => padBytes(bytes.length <= length ? bytes : bytes.slice(0, length), length);
function combineCodec(encoder, decoder, description) {
if (encoder.fixedSize !== decoder.fixedSize) {
throw new Error(
`Encoder and decoder must have the same fixed size, got [${encoder.fixedSize}] and [${decoder.fixedSize}].`
);
}
};
var NotEnoughBytesError = class extends Error {
constructor(serializer, expected, actual) {
super(`Serializer [${serializer}] expected ${expected} bytes, got ${actual}.`);
__publicField(this, "name", "NotEnoughBytesError");
if (encoder.maxSize !== decoder.maxSize) {
throw new Error(
`Encoder and decoder must have the same max size, got [${encoder.maxSize}] and [${decoder.maxSize}].`
);
}
};
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-core@0.8.2/node_modules/@metaplex-foundation/umi-serializers-core/dist/esm/fixSerializer.mjs
function fixSerializer(serializer, fixedBytes, description) {
if (description === void 0 && encoder.description !== decoder.description) {
throw new Error(
`Encoder and decoder must have the same description, got [${encoder.description}] and [${decoder.description}]. Pass a custom description as a third argument if you want to override the description and bypass this error.`
);
}
return {
description: description ?? `fixed(${fixedBytes}, ${serializer.description})`,
decode: decoder.decode,
description: description ?? encoder.description,
encode: encoder.encode,
fixedSize: encoder.fixedSize,
maxSize: encoder.maxSize
};
}
function fixCodecHelper(data, fixedBytes, description) {
return {
description: description ?? `fixed(${fixedBytes}, ${data.description})`,
fixedSize: fixedBytes,
maxSize: fixedBytes,
serialize: (value) => fixBytes(serializer.serialize(value), fixedBytes),
deserialize: (buffer, offset = 0) => {
buffer = buffer.slice(offset, offset + fixedBytes);
if (buffer.length < fixedBytes) {
throw new NotEnoughBytesError("fixSerializer", fixedBytes, buffer.length);
maxSize: fixedBytes
};
}
function fixEncoder(encoder, fixedBytes, description) {
return {
...fixCodecHelper(encoder, fixedBytes, description),
encode: (value) => fixBytes(encoder.encode(value), fixedBytes)
};
}
function fixDecoder(decoder, fixedBytes, description) {
return {
...fixCodecHelper(decoder, fixedBytes, description),
decode: (bytes, offset = 0) => {
assertByteArrayHasEnoughBytesForCodec("fixCodec", fixedBytes, bytes, offset);
if (offset > 0 || bytes.length > fixedBytes) {
bytes = bytes.slice(offset, offset + fixedBytes);
}
if (serializer.fixedSize !== null) {
buffer = fixBytes(buffer, serializer.fixedSize);
if (decoder.fixedSize !== null) {
bytes = fixBytes(bytes, decoder.fixedSize);
}
const [value] = serializer.deserialize(buffer, 0);
const [value] = decoder.decode(bytes, 0);
return [value, offset + fixedBytes];

@@ -68,29 +97,99 @@ }

}
function mapEncoder(encoder, unmap) {
return {
description: encoder.description,
encode: (value) => encoder.encode(unmap(value)),
fixedSize: encoder.fixedSize,
maxSize: encoder.maxSize
};
}
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-encodings@0.8.2/node_modules/@metaplex-foundation/umi-serializers-encodings/dist/esm/errors.mjs
var InvalidBaseStringError = class extends Error {
constructor(value, base, cause) {
const message = `Expected a string of base ${base}, got [${value}].`;
super(message);
__publicField(this, "name", "InvalidBaseStringError");
this.cause = cause;
// ../codecs-numbers/dist/index.browser.js
function assertNumberIsBetweenForCodec(codecDescription, min, max, value) {
if (value < min || value > max) {
throw new Error(
`Codec [${codecDescription}] expected number to be in the range [${min}, ${max}], got ${value}.`
);
}
};
}
function sharedNumberFactory(input) {
let littleEndian;
let defaultDescription = input.name;
if (input.size > 1) {
littleEndian = !("endian" in input.options) || input.options.endian === 0;
defaultDescription += littleEndian ? "(le)" : "(be)";
}
return {
description: input.options.description ?? defaultDescription,
fixedSize: input.size,
littleEndian,
maxSize: input.size
};
}
function numberEncoderFactory(input) {
const codecData = sharedNumberFactory(input);
return {
description: codecData.description,
encode(value) {
if (input.range) {
assertNumberIsBetweenForCodec(input.name, input.range[0], input.range[1], value);
}
const arrayBuffer = new ArrayBuffer(input.size);
input.set(new DataView(arrayBuffer), value, codecData.littleEndian);
return new Uint8Array(arrayBuffer);
},
fixedSize: codecData.fixedSize,
maxSize: codecData.maxSize
};
}
function numberDecoderFactory(input) {
const codecData = sharedNumberFactory(input);
return {
decode(bytes, offset = 0) {
assertByteArrayIsNotEmptyForCodec(codecData.description, bytes, offset);
assertByteArrayHasEnoughBytesForCodec(codecData.description, input.size, bytes, offset);
const view = new DataView(toArrayBuffer(bytes, offset, input.size));
return [input.get(view, codecData.littleEndian), offset + input.size];
},
description: codecData.description,
fixedSize: codecData.fixedSize,
maxSize: codecData.maxSize
};
}
function toArrayBuffer(bytes, offset, length) {
const bytesOffset = bytes.byteOffset + (offset ?? 0);
const bytesLength = length ?? bytes.byteLength;
return bytes.buffer.slice(bytesOffset, bytesOffset + bytesLength);
}
var getU32Encoder = (options = {}) => numberEncoderFactory({
name: "u32",
options,
range: [0, Number("0xffffffff")],
set: (view, value, le) => view.setUint32(0, value, le),
size: 4
});
var getU32Decoder = (options = {}) => numberDecoderFactory({
get: (view, le) => view.getUint32(0, le),
name: "u32",
options,
size: 4
});
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-encodings@0.8.2/node_modules/@metaplex-foundation/umi-serializers-encodings/dist/esm/baseX.mjs
var baseX = (alphabet) => {
const base = alphabet.length;
// ../codecs-strings/dist/index.browser.js
function assertValidBaseString(alphabet4, testValue, givenValue = testValue) {
if (!testValue.match(new RegExp(`^[${alphabet4}]*$`))) {
throw new Error(`Expected a string of base ${alphabet4.length}, got [${givenValue}].`);
}
}
var getBaseXEncoder = (alphabet4) => {
const base = alphabet4.length;
const baseBigInt = BigInt(base);
return {
description: `base${base}`,
fixedSize: null,
maxSize: null,
serialize(value) {
if (!value.match(new RegExp(`^[${alphabet}]*$`))) {
throw new InvalidBaseStringError(value, base);
}
encode(value) {
assertValidBaseString(alphabet4, value);
if (value === "")
return new Uint8Array();
const chars = [...value];
let trailIndex = chars.findIndex((c) => c !== alphabet[0]);
let trailIndex = chars.findIndex((c) => c !== alphabet4[0]);
trailIndex = trailIndex === -1 ? chars.length : trailIndex;

@@ -104,3 +203,3 @@ const leadingZeroes = Array(trailIndex).fill(0);

for (let i = tailChars.length - 1; i >= 0; i -= 1) {
base10Number += baseXPower * BigInt(alphabet.indexOf(tailChars[i]));
base10Number += baseXPower * BigInt(alphabet4.indexOf(tailChars[i]));
baseXPower *= baseBigInt;

@@ -115,26 +214,35 @@ }

},
deserialize(buffer, offset = 0) {
if (buffer.length === 0)
fixedSize: null,
maxSize: null
};
};
var getBaseXDecoder = (alphabet4) => {
const base = alphabet4.length;
const baseBigInt = BigInt(base);
return {
decode(rawBytes, offset = 0) {
const bytes = offset === 0 ? rawBytes : rawBytes.slice(offset);
if (bytes.length === 0)
return ["", 0];
const bytes = buffer.slice(offset);
let trailIndex = bytes.findIndex((n) => n !== 0);
trailIndex = trailIndex === -1 ? bytes.length : trailIndex;
const leadingZeroes = alphabet[0].repeat(trailIndex);
const leadingZeroes = alphabet4[0].repeat(trailIndex);
if (trailIndex === bytes.length)
return [leadingZeroes, buffer.length];
return [leadingZeroes, rawBytes.length];
let base10Number = bytes.slice(trailIndex).reduce((sum, byte) => sum * 256n + BigInt(byte), 0n);
const tailChars = [];
while (base10Number > 0n) {
tailChars.unshift(alphabet[Number(base10Number % baseBigInt)]);
tailChars.unshift(alphabet4[Number(base10Number % baseBigInt)]);
base10Number /= baseBigInt;
}
return [leadingZeroes + tailChars.join(""), buffer.length];
}
return [leadingZeroes + tailChars.join(""), rawBytes.length];
},
description: `base${base}`,
fixedSize: null,
maxSize: null
};
};
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-encodings@0.8.2/node_modules/@metaplex-foundation/umi-serializers-encodings/dist/esm/base58.mjs
var base58 = baseX("123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz");
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-encodings@0.8.2/node_modules/@metaplex-foundation/umi-serializers-encodings/dist/esm/nullCharacters.mjs
var alphabet2 = "123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz";
var getBase58Encoder = () => getBaseXEncoder(alphabet2);
var getBase58Decoder = () => getBaseXDecoder(alphabet2);
var removeNullCharacters = (value) => (

@@ -144,134 +252,107 @@ // eslint-disable-next-line no-control-regex

);
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-encodings@0.8.2/node_modules/@metaplex-foundation/umi-serializers-encodings/dist/esm/utf8.mjs
var utf8 = {
description: "utf8",
fixedSize: null,
maxSize: null,
serialize(value) {
return new TextEncoder().encode(value);
},
deserialize(buffer, offset = 0) {
const value = new TextDecoder().decode(buffer.slice(offset));
return [removeNullCharacters(value), buffer.length];
}
var e = globalThis.TextDecoder;
var o = globalThis.TextEncoder;
var getUtf8Encoder = () => {
let textEncoder;
return {
description: "utf8",
encode: (value) => new Uint8Array((textEncoder || (textEncoder = new o())).encode(value)),
fixedSize: null,
maxSize: null
};
};
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-numbers@0.8.2/node_modules/@metaplex-foundation/umi-serializers-numbers/dist/esm/common.mjs
var Endian;
(function(Endian2) {
Endian2["Little"] = "le";
Endian2["Big"] = "be";
})(Endian || (Endian = {}));
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-numbers@0.8.2/node_modules/@metaplex-foundation/umi-serializers-numbers/dist/esm/errors.mjs
var NumberOutOfRangeError = class extends RangeError {
constructor(serializer, min, max, actual) {
super(`Serializer [${serializer}] expected number to be between ${min} and ${max}, got ${actual}.`);
__publicField(this, "name", "NumberOutOfRangeError");
}
};
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-numbers@0.8.2/node_modules/@metaplex-foundation/umi-serializers-numbers/dist/esm/utils.mjs
function numberFactory(input) {
let littleEndian;
let defaultDescription = input.name;
if (input.size > 1) {
littleEndian = !("endian" in input.options) || input.options.endian === Endian.Little;
defaultDescription += littleEndian ? "(le)" : "(be)";
}
var getUtf8Decoder = () => {
let textDecoder;
return {
description: input.options.description ?? defaultDescription,
fixedSize: input.size,
maxSize: input.size,
serialize(value) {
if (input.range) {
assertRange(input.name, input.range[0], input.range[1], value);
}
const buffer = new ArrayBuffer(input.size);
input.set(new DataView(buffer), value, littleEndian);
return new Uint8Array(buffer);
decode(bytes, offset = 0) {
const value = (textDecoder || (textDecoder = new e())).decode(bytes.slice(offset));
return [removeNullCharacters(value), bytes.length];
},
deserialize(bytes, offset = 0) {
const slice = bytes.slice(offset, offset + input.size);
assertEnoughBytes("i8", slice, input.size);
const view = toDataView(slice);
return [input.get(view, littleEndian), offset + input.size];
}
description: "utf8",
fixedSize: null,
maxSize: null
};
}
var toArrayBuffer = (array) => array.buffer.slice(array.byteOffset, array.byteLength + array.byteOffset);
var toDataView = (array) => new DataView(toArrayBuffer(array));
var assertRange = (serializer, min, max, value) => {
if (value < min || value > max) {
throw new NumberOutOfRangeError(serializer, min, max, value);
}
};
var assertEnoughBytes = (serializer, bytes, expected) => {
if (bytes.length === 0) {
throw new DeserializingEmptyBufferError(serializer);
var getStringEncoder = (options = {}) => {
const size = options.size ?? getU32Encoder();
const encoding = options.encoding ?? getUtf8Encoder();
const description = options.description ?? `string(${encoding.description}; ${getSizeDescription(size)})`;
if (size === "variable") {
return { ...encoding, description };
}
if (bytes.length < expected) {
throw new NotEnoughBytesError(serializer, expected, bytes.length);
if (typeof size === "number") {
return fixEncoder(encoding, size, description);
}
return {
description,
encode: (value) => {
const contentBytes = encoding.encode(value);
const lengthBytes = size.encode(contentBytes.length);
return mergeBytes([lengthBytes, contentBytes]);
},
fixedSize: null,
maxSize: null
};
};
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers-numbers@0.8.2/node_modules/@metaplex-foundation/umi-serializers-numbers/dist/esm/u32.mjs
var u32 = (options = {}) => numberFactory({
name: "u32",
size: 4,
range: [0, Number("0xffffffff")],
set: (view, value, le) => view.setUint32(0, Number(value), le),
get: (view, le) => view.getUint32(0, le),
options
});
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers@0.8.5/node_modules/@metaplex-foundation/umi-serializers/dist/esm/utils.mjs
function getSizeDescription(size) {
return typeof size === "object" ? size.description : `${size}`;
}
// ../../node_modules/.pnpm/@metaplex-foundation+umi-serializers@0.8.5/node_modules/@metaplex-foundation/umi-serializers/dist/esm/string.mjs
function string(options = {}) {
const size = options.size ?? u32();
const encoding = options.encoding ?? utf8;
var getStringDecoder = (options = {}) => {
const size = options.size ?? getU32Decoder();
const encoding = options.encoding ?? getUtf8Decoder();
const description = options.description ?? `string(${encoding.description}; ${getSizeDescription(size)})`;
if (size === "variable") {
return {
...encoding,
description
};
return { ...encoding, description };
}
if (typeof size === "number") {
return fixSerializer(encoding, size, description);
return fixDecoder(encoding, size, description);
}
return {
description,
fixedSize: null,
maxSize: null,
serialize: (value) => {
const contentBytes = encoding.serialize(value);
const lengthBytes = size.serialize(contentBytes.length);
return mergeBytes([lengthBytes, contentBytes]);
},
deserialize: (buffer, offset = 0) => {
if (buffer.slice(offset).length === 0) {
throw new DeserializingEmptyBufferError("string");
}
const [lengthBigInt, lengthOffset] = size.deserialize(buffer, offset);
decode: (bytes, offset = 0) => {
assertByteArrayIsNotEmptyForCodec("string", bytes, offset);
const [lengthBigInt, lengthOffset] = size.decode(bytes, offset);
const length = Number(lengthBigInt);
offset = lengthOffset;
const contentBuffer = buffer.slice(offset, offset + length);
if (contentBuffer.length < length) {
throw new NotEnoughBytesError("string", length, contentBuffer.length);
}
const [value, contentOffset] = encoding.deserialize(contentBuffer);
const contentBytes = bytes.slice(offset, offset + length);
assertByteArrayHasEnoughBytesForCodec("string", length, contentBytes);
const [value, contentOffset] = encoding.decode(contentBytes);
offset += contentOffset;
return [value, offset];
}
},
description,
fixedSize: null,
maxSize: null
};
};
function getSizeDescription(size) {
return typeof size === "object" ? size.description : `${size}`;
}
// src/base58.ts
function assertIsBase58EncodedAddress(putativeBase58EncodedAddress) {
// src/address.ts
var memoizedBase58Encoder;
var memoizedBase58Decoder;
function getMemoizedBase58Encoder() {
if (!memoizedBase58Encoder)
memoizedBase58Encoder = getBase58Encoder();
return memoizedBase58Encoder;
}
function getMemoizedBase58Decoder() {
if (!memoizedBase58Decoder)
memoizedBase58Decoder = getBase58Decoder();
return memoizedBase58Decoder;
}
function isAddress(putativeBase58EncodedAddress) {
if (
// Lowest address (32 bytes of zeroes)
putativeBase58EncodedAddress.length < 32 || // Highest address (32 bytes of 255)
putativeBase58EncodedAddress.length > 44
) {
return false;
}
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;
if (numBytes !== 32) {
return false;
}
return true;
}
function assertIsAddress(putativeBase58EncodedAddress) {
try {

@@ -285,3 +366,4 @@ if (

}
const bytes = base58.serialize(putativeBase58EncodedAddress);
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;

@@ -291,16 +373,33 @@ if (numBytes !== 32) {

}
} catch (e) {
} catch (e2) {
throw new Error(`\`${putativeBase58EncodedAddress}\` is not a base-58 encoded address`, {
cause: e
cause: e2
});
}
}
function getBase58EncodedAddressCodec(config) {
return string({
description: config?.description ?? ("A 32-byte account address" ),
encoding: base58,
function address(putativeBase58EncodedAddress) {
assertIsAddress(putativeBase58EncodedAddress);
return putativeBase58EncodedAddress;
}
function getAddressEncoder(config) {
return mapEncoder(
getStringEncoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Encoder(),
size: 32
}),
(putativeAddress) => address(putativeAddress)
);
}
function getAddressDecoder(config) {
return getStringDecoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Decoder(),
size: 32
});
}
function getBase58EncodedAddressComparator() {
function getAddressCodec(config) {
return combineCodec(getAddressEncoder(config), getAddressDecoder(config));
}
function getAddressComparator() {
return new Intl.Collator("en", {

@@ -427,3 +526,18 @@ caseFirst: "lower",

// src/computed-address.ts
// src/program-derived-address.ts
function isProgramDerivedAddress(value) {
return Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number" && value[1] >= 0 && value[1] <= 255 && isAddress(value[0]);
}
function assertIsProgramDerivedAddress(value) {
const validFormat = Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number";
if (!validFormat) {
throw new Error(
`Expected given program derived address to have the following format: [Base58EncodedAddress, ProgramDerivedAddressBump].`
);
}
if (value[1] < 0 || value[1] > 255) {
throw new Error(`Expected program derived address bump to be in the range [0, 255], got: ${value[1]}.`);
}
assertIsAddress(value[0]);
}
var MAX_SEED_LENGTH = 32;

@@ -457,3 +571,6 @@ var MAX_SEEDS = 16;

};
async function createProgramDerivedAddress({ programAddress, seeds }) {
async function createProgramDerivedAddress({
programAddress,
seeds
}) {
await assertDigestCapabilityIsAvailable();

@@ -472,4 +589,4 @@ if (seeds.length > MAX_SEEDS) {

}, []);
const base58EncodedAddressCodec = getBase58EncodedAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.serialize(programAddress);
const base58EncodedAddressCodec = getAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.encode(programAddress);
const addressBytesBuffer = await crypto.subtle.digest(

@@ -483,20 +600,21 @@ "SHA-256",

}
return base58EncodedAddressCodec.deserialize(addressBytes)[0];
return base58EncodedAddressCodec.decode(addressBytes)[0];
}
async function getProgramDerivedAddress({ programAddress, seeds }) {
async function getProgramDerivedAddress({
programAddress,
seeds
}) {
let bumpSeed = 255;
while (bumpSeed > 0) {
try {
return {
bumpSeed,
pda: await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
})
};
} catch (e) {
if (e instanceof PointOnCurveError) {
const address2 = await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
});
return [address2, bumpSeed];
} catch (e2) {
if (e2 instanceof PointOnCurveError) {
bumpSeed--;
} else {
throw e;
throw e2;
}

@@ -512,3 +630,3 @@ }

}) {
const { serialize, deserialize } = getBase58EncodedAddressCodec();
const { encode, decode } = getAddressCodec();
const seedBytes = typeof seed === "string" ? new TextEncoder().encode(seed) : seed;

@@ -518,3 +636,3 @@ if (seedBytes.byteLength > MAX_SEED_LENGTH) {

}
const programAddressBytes = serialize(programAddress);
const programAddressBytes = encode(programAddress);
if (programAddressBytes.length >= PDA_MARKER_BYTES.length && programAddressBytes.slice(-PDA_MARKER_BYTES.length).every((byte, index) => byte === PDA_MARKER_BYTES[index])) {

@@ -525,6 +643,6 @@ throw new Error(`programAddress cannot end with the PDA marker`);

"SHA-256",
new Uint8Array([...serialize(baseAddress), ...seedBytes, ...programAddressBytes])
new Uint8Array([...encode(baseAddress), ...seedBytes, ...programAddressBytes])
);
const addressBytes = new Uint8Array(addressBytesBuffer);
return deserialize(addressBytes)[0];
return decode(addressBytes)[0];
}

@@ -539,12 +657,18 @@

const publicKeyBytes = await crypto.subtle.exportKey("raw", publicKey);
const [base58EncodedAddress] = getBase58EncodedAddressCodec().deserialize(new Uint8Array(publicKeyBytes));
const [base58EncodedAddress] = getAddressDecoder().decode(new Uint8Array(publicKeyBytes));
return base58EncodedAddress;
}
exports.assertIsBase58EncodedAddress = assertIsBase58EncodedAddress;
exports.address = address;
exports.assertIsAddress = assertIsAddress;
exports.assertIsProgramDerivedAddress = assertIsProgramDerivedAddress;
exports.createAddressWithSeed = createAddressWithSeed;
exports.getAddressCodec = getAddressCodec;
exports.getAddressComparator = getAddressComparator;
exports.getAddressDecoder = getAddressDecoder;
exports.getAddressEncoder = getAddressEncoder;
exports.getAddressFromPublicKey = getAddressFromPublicKey;
exports.getBase58EncodedAddressCodec = getBase58EncodedAddressCodec;
exports.getBase58EncodedAddressComparator = getBase58EncodedAddressComparator;
exports.getProgramDerivedAddress = getProgramDerivedAddress;
exports.isAddress = isAddress;
exports.isProgramDerivedAddress = isProgramDerivedAddress;

@@ -551,0 +675,0 @@ return exports;

@@ -1,7 +0,35 @@

import { base58, string } from '@metaplex-foundation/umi-serializers';
import { mapEncoder, combineCodec } from '@solana/codecs-core';
import { getStringEncoder, getStringDecoder, getBase58Encoder, getBase58Decoder } from '@solana/codecs-strings';
import { assertKeyExporterIsAvailable, assertDigestCapabilityIsAvailable } from '@solana/assertions';
// ../build-scripts/env-shim.ts
var __DEV__ = /* @__PURE__ */ (() => process["env"].NODE_ENV === "development")();
function assertIsBase58EncodedAddress(putativeBase58EncodedAddress) {
// src/address.ts
var memoizedBase58Encoder;
var memoizedBase58Decoder;
function getMemoizedBase58Encoder() {
if (!memoizedBase58Encoder)
memoizedBase58Encoder = getBase58Encoder();
return memoizedBase58Encoder;
}
function getMemoizedBase58Decoder() {
if (!memoizedBase58Decoder)
memoizedBase58Decoder = getBase58Decoder();
return memoizedBase58Decoder;
}
function isAddress(putativeBase58EncodedAddress) {
if (
// Lowest address (32 bytes of zeroes)
putativeBase58EncodedAddress.length < 32 || // Highest address (32 bytes of 255)
putativeBase58EncodedAddress.length > 44
) {
return false;
}
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;
if (numBytes !== 32) {
return false;
}
return true;
}
function assertIsAddress(putativeBase58EncodedAddress) {
try {

@@ -15,3 +43,4 @@ if (

}
const bytes = base58.serialize(putativeBase58EncodedAddress);
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;

@@ -27,10 +56,27 @@ if (numBytes !== 32) {

}
function getBase58EncodedAddressCodec(config) {
return string({
description: config?.description ?? (__DEV__ ? "A 32-byte account address" : ""),
encoding: base58,
function address(putativeBase58EncodedAddress) {
assertIsAddress(putativeBase58EncodedAddress);
return putativeBase58EncodedAddress;
}
function getAddressEncoder(config) {
return mapEncoder(
getStringEncoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Encoder(),
size: 32
}),
(putativeAddress) => address(putativeAddress)
);
}
function getAddressDecoder(config) {
return getStringDecoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Decoder(),
size: 32
});
}
function getBase58EncodedAddressComparator() {
function getAddressCodec(config) {
return combineCodec(getAddressEncoder(config), getAddressDecoder(config));
}
function getAddressComparator() {
return new Intl.Collator("en", {

@@ -136,3 +182,18 @@ caseFirst: "lower",

// src/computed-address.ts
// src/program-derived-address.ts
function isProgramDerivedAddress(value) {
return Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number" && value[1] >= 0 && value[1] <= 255 && isAddress(value[0]);
}
function assertIsProgramDerivedAddress(value) {
const validFormat = Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number";
if (!validFormat) {
throw new Error(
`Expected given program derived address to have the following format: [Base58EncodedAddress, ProgramDerivedAddressBump].`
);
}
if (value[1] < 0 || value[1] > 255) {
throw new Error(`Expected program derived address bump to be in the range [0, 255], got: ${value[1]}.`);
}
assertIsAddress(value[0]);
}
var MAX_SEED_LENGTH = 32;

@@ -166,3 +227,6 @@ var MAX_SEEDS = 16;

};
async function createProgramDerivedAddress({ programAddress, seeds }) {
async function createProgramDerivedAddress({
programAddress,
seeds
}) {
await assertDigestCapabilityIsAvailable();

@@ -181,4 +245,4 @@ if (seeds.length > MAX_SEEDS) {

}, []);
const base58EncodedAddressCodec = getBase58EncodedAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.serialize(programAddress);
const base58EncodedAddressCodec = getAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.encode(programAddress);
const addressBytesBuffer = await crypto.subtle.digest(

@@ -192,15 +256,16 @@ "SHA-256",

}
return base58EncodedAddressCodec.deserialize(addressBytes)[0];
return base58EncodedAddressCodec.decode(addressBytes)[0];
}
async function getProgramDerivedAddress({ programAddress, seeds }) {
async function getProgramDerivedAddress({
programAddress,
seeds
}) {
let bumpSeed = 255;
while (bumpSeed > 0) {
try {
return {
bumpSeed,
pda: await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
})
};
const address2 = await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
});
return [address2, bumpSeed];
} catch (e) {

@@ -221,3 +286,3 @@ if (e instanceof PointOnCurveError) {

}) {
const { serialize, deserialize } = getBase58EncodedAddressCodec();
const { encode, decode } = getAddressCodec();
const seedBytes = typeof seed === "string" ? new TextEncoder().encode(seed) : seed;

@@ -227,3 +292,3 @@ if (seedBytes.byteLength > MAX_SEED_LENGTH) {

}
const programAddressBytes = serialize(programAddress);
const programAddressBytes = encode(programAddress);
if (programAddressBytes.length >= PDA_MARKER_BYTES.length && programAddressBytes.slice(-PDA_MARKER_BYTES.length).every((byte, index) => byte === PDA_MARKER_BYTES[index])) {

@@ -234,6 +299,6 @@ throw new Error(`programAddress cannot end with the PDA marker`);

"SHA-256",
new Uint8Array([...serialize(baseAddress), ...seedBytes, ...programAddressBytes])
new Uint8Array([...encode(baseAddress), ...seedBytes, ...programAddressBytes])
);
const addressBytes = new Uint8Array(addressBytesBuffer);
return deserialize(addressBytes)[0];
return decode(addressBytes)[0];
}

@@ -246,8 +311,6 @@ async function getAddressFromPublicKey(publicKey) {

const publicKeyBytes = await crypto.subtle.exportKey("raw", publicKey);
const [base58EncodedAddress] = getBase58EncodedAddressCodec().deserialize(new Uint8Array(publicKeyBytes));
const [base58EncodedAddress] = getAddressDecoder().decode(new Uint8Array(publicKeyBytes));
return base58EncodedAddress;
}
export { assertIsBase58EncodedAddress, createAddressWithSeed, getAddressFromPublicKey, getBase58EncodedAddressCodec, getBase58EncodedAddressComparator, getProgramDerivedAddress };
//# sourceMappingURL=out.js.map
//# sourceMappingURL=index.native.js.map
export { address, assertIsAddress, assertIsProgramDerivedAddress, createAddressWithSeed, getAddressCodec, getAddressComparator, getAddressDecoder, getAddressEncoder, getAddressFromPublicKey, getProgramDerivedAddress, isAddress, isProgramDerivedAddress };

@@ -1,7 +0,35 @@

import { base58, string } from '@metaplex-foundation/umi-serializers';
import { mapEncoder, combineCodec } from '@solana/codecs-core';
import { getStringEncoder, getStringDecoder, getBase58Encoder, getBase58Decoder } from '@solana/codecs-strings';
import { assertKeyExporterIsAvailable, assertDigestCapabilityIsAvailable } from '@solana/assertions';
// ../build-scripts/env-shim.ts
var __DEV__ = /* @__PURE__ */ (() => process["env"].NODE_ENV === "development")();
function assertIsBase58EncodedAddress(putativeBase58EncodedAddress) {
// src/address.ts
var memoizedBase58Encoder;
var memoizedBase58Decoder;
function getMemoizedBase58Encoder() {
if (!memoizedBase58Encoder)
memoizedBase58Encoder = getBase58Encoder();
return memoizedBase58Encoder;
}
function getMemoizedBase58Decoder() {
if (!memoizedBase58Decoder)
memoizedBase58Decoder = getBase58Decoder();
return memoizedBase58Decoder;
}
function isAddress(putativeBase58EncodedAddress) {
if (
// Lowest address (32 bytes of zeroes)
putativeBase58EncodedAddress.length < 32 || // Highest address (32 bytes of 255)
putativeBase58EncodedAddress.length > 44
) {
return false;
}
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;
if (numBytes !== 32) {
return false;
}
return true;
}
function assertIsAddress(putativeBase58EncodedAddress) {
try {

@@ -15,3 +43,4 @@ if (

}
const bytes = base58.serialize(putativeBase58EncodedAddress);
const base58Encoder = getMemoizedBase58Encoder();
const bytes = base58Encoder.encode(putativeBase58EncodedAddress);
const numBytes = bytes.byteLength;

@@ -27,10 +56,27 @@ if (numBytes !== 32) {

}
function getBase58EncodedAddressCodec(config) {
return string({
description: config?.description ?? (__DEV__ ? "A 32-byte account address" : ""),
encoding: base58,
function address(putativeBase58EncodedAddress) {
assertIsAddress(putativeBase58EncodedAddress);
return putativeBase58EncodedAddress;
}
function getAddressEncoder(config) {
return mapEncoder(
getStringEncoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Encoder(),
size: 32
}),
(putativeAddress) => address(putativeAddress)
);
}
function getAddressDecoder(config) {
return getStringDecoder({
description: config?.description ?? "Base58EncodedAddress",
encoding: getMemoizedBase58Decoder(),
size: 32
});
}
function getBase58EncodedAddressComparator() {
function getAddressCodec(config) {
return combineCodec(getAddressEncoder(config), getAddressDecoder(config));
}
function getAddressComparator() {
return new Intl.Collator("en", {

@@ -136,3 +182,18 @@ caseFirst: "lower",

// src/computed-address.ts
// src/program-derived-address.ts
function isProgramDerivedAddress(value) {
return Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number" && value[1] >= 0 && value[1] <= 255 && isAddress(value[0]);
}
function assertIsProgramDerivedAddress(value) {
const validFormat = Array.isArray(value) && value.length === 2 && typeof value[0] === "string" && typeof value[1] === "number";
if (!validFormat) {
throw new Error(
`Expected given program derived address to have the following format: [Base58EncodedAddress, ProgramDerivedAddressBump].`
);
}
if (value[1] < 0 || value[1] > 255) {
throw new Error(`Expected program derived address bump to be in the range [0, 255], got: ${value[1]}.`);
}
assertIsAddress(value[0]);
}
var MAX_SEED_LENGTH = 32;

@@ -166,3 +227,6 @@ var MAX_SEEDS = 16;

};
async function createProgramDerivedAddress({ programAddress, seeds }) {
async function createProgramDerivedAddress({
programAddress,
seeds
}) {
await assertDigestCapabilityIsAvailable();

@@ -181,4 +245,4 @@ if (seeds.length > MAX_SEEDS) {

}, []);
const base58EncodedAddressCodec = getBase58EncodedAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.serialize(programAddress);
const base58EncodedAddressCodec = getAddressCodec();
const programAddressBytes = base58EncodedAddressCodec.encode(programAddress);
const addressBytesBuffer = await crypto.subtle.digest(

@@ -192,15 +256,16 @@ "SHA-256",

}
return base58EncodedAddressCodec.deserialize(addressBytes)[0];
return base58EncodedAddressCodec.decode(addressBytes)[0];
}
async function getProgramDerivedAddress({ programAddress, seeds }) {
async function getProgramDerivedAddress({
programAddress,
seeds
}) {
let bumpSeed = 255;
while (bumpSeed > 0) {
try {
return {
bumpSeed,
pda: await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
})
};
const address2 = await createProgramDerivedAddress({
programAddress,
seeds: [...seeds, new Uint8Array([bumpSeed])]
});
return [address2, bumpSeed];
} catch (e) {

@@ -221,3 +286,3 @@ if (e instanceof PointOnCurveError) {

}) {
const { serialize, deserialize } = getBase58EncodedAddressCodec();
const { encode, decode } = getAddressCodec();
const seedBytes = typeof seed === "string" ? new TextEncoder().encode(seed) : seed;

@@ -227,3 +292,3 @@ if (seedBytes.byteLength > MAX_SEED_LENGTH) {

}
const programAddressBytes = serialize(programAddress);
const programAddressBytes = encode(programAddress);
if (programAddressBytes.length >= PDA_MARKER_BYTES.length && programAddressBytes.slice(-PDA_MARKER_BYTES.length).every((byte, index) => byte === PDA_MARKER_BYTES[index])) {

@@ -234,6 +299,6 @@ throw new Error(`programAddress cannot end with the PDA marker`);

"SHA-256",
new Uint8Array([...serialize(baseAddress), ...seedBytes, ...programAddressBytes])
new Uint8Array([...encode(baseAddress), ...seedBytes, ...programAddressBytes])
);
const addressBytes = new Uint8Array(addressBytesBuffer);
return deserialize(addressBytes)[0];
return decode(addressBytes)[0];
}

@@ -246,8 +311,8 @@ async function getAddressFromPublicKey(publicKey) {

const publicKeyBytes = await crypto.subtle.exportKey("raw", publicKey);
const [base58EncodedAddress] = getBase58EncodedAddressCodec().deserialize(new Uint8Array(publicKeyBytes));
const [base58EncodedAddress] = getAddressDecoder().decode(new Uint8Array(publicKeyBytes));
return base58EncodedAddress;
}
export { assertIsBase58EncodedAddress, createAddressWithSeed, getAddressFromPublicKey, getBase58EncodedAddressCodec, getBase58EncodedAddressComparator, getProgramDerivedAddress };
export { address, assertIsAddress, assertIsProgramDerivedAddress, createAddressWithSeed, getAddressCodec, getAddressComparator, getAddressDecoder, getAddressEncoder, getAddressFromPublicKey, getProgramDerivedAddress, isAddress, isProgramDerivedAddress };
//# sourceMappingURL=out.js.map
//# sourceMappingURL=index.node.js.map

@@ -5,10 +5,16 @@ this.globalThis = this.globalThis || {};

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Actual length: ${t}`)}catch(r){throw new Error(`\`${e}\` is not a base-58 encoded address`,{cause:r})}}function b(e){return T({description:e?.description??"",encoding:z,size:32})}function hr(){return new Intl.Collator("en",{caseFirst:"lower",ignorePunctuation:!1,localeMatcher:"best fit",numeric:!1,sensitivity:"variant",usage:"sort"}).compare}function O(){if(!globalThis.isSecureContext)throw new Error("Cryptographic operations are only allowed in secure browser contexts. Read more here: https://developer.mozilla.org/en-US/docs/Web/Security/Secure_Contexts")}async function L(){if(O(),typeof globalThis.crypto>"u"||typeof globalThis.crypto.subtle?.digest!="function")throw new Error("No digest implementation could be found")}async function k(){if(O(),typeof globalThis.crypto>"u"||typeof globalThis.crypto.subtle?.exportKey!="function")throw new Error("No key export implementation could be found")}var Y=37095705934669439343138083508754565189542113879843219016388785533085940283555n,u=57896044618658097711785492504343953926634992332820282019728792003956564819949n,K=19681161376707505956807079304988542015446066515923890162744021073123829784752n;function m(e){let r=e%u;return r>=0n?r:u+r}function g(e,r){let t=e;for(;r-- >0n;)t*=t,t%=u;return t}function J(e){let t=e*e%u*e%u,n=g(t,2n)*t%u,i=g(n,1n)*e%u,o=g(i,5n)*i%u,s=g(o,10n)*o%u,l=g(s,20n)*s%u,c=g(l,40n)*l%u,d=g(c,80n)*c%u,f=g(d,80n)*c%u,p=g(f,10n)*o%u;return g(p,2n)*e%u}function Q(e,r){let t=m(r*r*r),n=m(t*t*r),i=J(e*n),o=m(e*t*i),s=m(r*o*o),l=o,c=m(o*K),d=s===e,f=s===m(-e),p=s===m(-e*K);return d&&(o=l),(f||p)&&(o=c),(m(o)&1n)===1n&&(o=m(-o)),!d&&!f?null:o}function V(e,r){let t=m(e*e),n=m(t-1n),i=m(Y*t+1n),o=Q(n,i);if(o===null)return !1;let s=(r&128)!==0;return !(o===0n&&s)}function ee(e){let r=e.toString(16);return r.length===1?`0${r}`:r}function re(e){let t=`0x${e.reduce((n,i,o)=>`${ee(o===31?i&-129:i)}${n}`,"")}`;return BigInt(t)}async function F(e){if(e.byteLength!==32)return !1;let r=re(e);return V(r,e[31])}var M=32,X=16,B=[80,114,111,103,114,97,109,68,101,114,105,118,101,100,65,100,100,114,101,115,115],v=class extends Error{};async function te({programAddress:e,seeds:r}){if(await L(),r.length>X)throw new Error(`A maximum of ${X} seeds may be supplied when creating an address`);let t,n=r.reduce((c,d,f)=>{let p=typeof d=="string"?(t||(t=new TextEncoder)).encode(d):d;if(p.byteLength>M)throw new Error(`The seed at index ${f} exceeds the maximum length of 32 bytes`);return c.push(...p),c},[]),i=b(),o=i.serialize(e),s=await crypto.subtle.digest("SHA-256",new Uint8Array([...n,...o,...B])),l=new Uint8Array(s);if(await F(l))throw new v("Invalid seeds; point must fall off the Ed25519 curve");return i.deserialize(l)[0]}async function _r({programAddress:e,seeds:r}){let t=255;for(;t>0;)try{return {bumpSeed:t,pda:await te({programAddress:e,seeds:[...r,new Uint8Array([t])]})}}catch(n){if(n instanceof v)t--;else throw n}throw new Error("Unable to find a viable program address bump seed")}async function $r({baseAddress:e,programAddress:r,seed:t}){let{serialize:n,deserialize:i}=b(),o=typeof t=="string"?new TextEncoder().encode(t):t;if(o.byteLength>M)throw new Error("The seed exceeds the maximum length of 32 bytes");let s=n(r);if(s.length>=B.length&&s.slice(-B.length).every((d,f)=>d===B[f]))throw new Error("programAddress cannot end with the PDA marker");let l=await crypto.subtle.digest("SHA-256",new Uint8Array([...n(e),...o,...s])),c=new Uint8Array(l);return i(c)[0]}async function kr(e){if(await k(),e.type!=="public"||e.algorithm.name!=="Ed25519")throw new Error("The `CryptoKey` must be an `Ed25519` public key");let r=await crypto.subtle.exportKey("raw",e),[t]=b().deserialize(new Uint8Array(r));return t}
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Read more here: https://developer.mozilla.org/en-US/docs/Web/Security/Secure_Contexts")}async function H(){if(X(),typeof globalThis.crypto>"u"||typeof globalThis.crypto.subtle?.digest!="function")throw new Error("No digest implementation could be found")}async function V(){if(X(),typeof globalThis.crypto>"u"||typeof globalThis.crypto.subtle?.exportKey!="function")throw new Error("No key export implementation could be found")}var le=37095705934669439343138083508754565189542113879843219016388785533085940283555n,u=57896044618658097711785492504343953926634992332820282019728792003956564819949n,G=19681161376707505956807079304988542015446066515923890162744021073123829784752n;function l(e){let r=e%u;return r>=0n?r:u+r}function m(e,r){let t=e;for(;r-- >0n;)t*=t,t%=u;return t}function me(e){let t=e*e%u*e%u,n=m(t,2n)*t%u,s=m(n,1n)*e%u,o=m(s,5n)*s%u,i=m(o,10n)*o%u,a=m(i,20n)*i%u,d=m(a,40n)*a%u,c=m(d,80n)*d%u,f=m(c,80n)*d%u,g=m(f,10n)*o%u;return m(g,2n)*e%u}function pe(e,r){let t=l(r*r*r),n=l(t*t*r),s=me(e*n),o=l(e*t*s),i=l(r*o*o),a=o,d=l(o*G),c=i===e,f=i===l(-e),g=i===l(-e*G);return c&&(o=a),(f||g)&&(o=d),(l(o)&1n)===1n&&(o=l(-o)),!c&&!f?null:o}function j(e,r){let t=l(e*e),n=l(t-1n),s=l(le*t+1n),o=pe(n,s);if(o===null)return !1;let i=(r&128)!==0;return !(o===0n&&i)}function he(e){let r=e.toString(16);return r.length===1?`0${r}`:r}function ye(e){let t=`0x${e.reduce((n,s,o)=>`${he(o===31?s&-129:s)}${n}`,"")}`;return BigInt(t)}async function W(e){if(e.byteLength!==32)return !1;let r=ye(e);return j(r,e[31])}function qe(e){return Array.isArray(e)&&e.length===2&&typeof e[0]=="string"&&typeof e[1]=="number"&&e[1]>=0&&e[1]<=255&&M(e[0])}function Ze(e){if(!(Array.isArray(e)&&e.length===2&&typeof e[0]=="string"&&typeof e[1]=="number"))throw new Error("Expected given program derived address to have the following format: [Base58EncodedAddress, ProgramDerivedAddressBump].");if(e[1]<0||e[1]>255)throw new Error(`Expected program derived address bump to be in the range [0, 255], got: ${e[1]}.`);w(e[0]);}var Z=32,q=16,b=[80,114,111,103,114,97,109,68,101,114,105,118,101,100,65,100,100,114,101,115,115],E=class extends Error{};async function xe({programAddress:e,seeds:r}){if(await H(),r.length>q)throw new Error(`A maximum of ${q} seeds may be supplied when creating an address`);let t,n=r.reduce((d,c,f)=>{let g=typeof c=="string"?(t||(t=new TextEncoder)).encode(c):c;if(g.byteLength>Z)throw new Error(`The seed at index ${f} exceeds the maximum length of 32 bytes`);return d.push(...g),d},[]),s=S(),o=s.encode(e),i=await crypto.subtle.digest("SHA-256",new Uint8Array([...n,...o,...b])),a=new Uint8Array(i);if(await W(a))throw new E("Invalid seeds; point must fall off the Ed25519 curve");return s.decode(a)[0]}async function Ye({programAddress:e,seeds:r}){let t=255;for(;t>0;)try{return [await xe({programAddress:e,seeds:[...r,new Uint8Array([t])]}),t]}catch(n){if(n instanceof E)t--;else throw n}throw new Error("Unable to find a viable program address bump seed")}async function Je({baseAddress:e,programAddress:r,seed:t}){let{encode:n,decode:s}=S(),o=typeof t=="string"?new TextEncoder().encode(t):t;if(o.byteLength>Z)throw new Error("The seed exceeds the maximum length of 32 bytes");let i=n(r);if(i.length>=b.length&&i.slice(-b.length).every((c,f)=>c===b[f]))throw new Error("programAddress cannot end with the PDA marker");let a=await crypto.subtle.digest("SHA-256",new Uint8Array([...n(e),...o,...i])),d=new Uint8Array(a);return s(d)[0]}async function or(e){if(await V(),e.type!=="public"||e.algorithm.name!=="Ed25519")throw new Error("The `CryptoKey` must be an `Ed25519` public key");let r=await crypto.subtle.exportKey("raw",e),[t]=B().decode(new Uint8Array(r));return t}
exports.assertIsBase58EncodedAddress = xr;
exports.createAddressWithSeed = $r;
exports.getAddressFromPublicKey = kr;
exports.getBase58EncodedAddressCodec = b;
exports.getBase58EncodedAddressComparator = hr;
exports.getProgramDerivedAddress = _r;
exports.address = ge;
exports.assertIsAddress = w;
exports.assertIsProgramDerivedAddress = Ze;
exports.createAddressWithSeed = Je;
exports.getAddressCodec = S;
exports.getAddressComparator = Fe;
exports.getAddressDecoder = B;
exports.getAddressEncoder = ue;
exports.getAddressFromPublicKey = or;
exports.getProgramDerivedAddress = Ye;
exports.isAddress = M;
exports.isProgramDerivedAddress = qe;

@@ -15,0 +21,0 @@ return exports;

@@ -1,4 +0,4 @@

export * from './base58';
export * from './computed-address';
export * from './address';
export * from './program-derived-address';
export * from './public-key';
//# sourceMappingURL=index.d.ts.map

@@ -1,3 +0,3 @@

import { Base58EncodedAddress } from './base58';
import { Base58EncodedAddress } from './address';
export declare function getAddressFromPublicKey(publicKey: CryptoKey): Promise<Base58EncodedAddress>;
//# sourceMappingURL=public-key.d.ts.map
{
"name": "@solana/addresses",
"version": "2.0.0-experimental.38decd1",
"version": "2.0.0-experimental.398c396",
"description": "Helpers for generating account addresses",

@@ -52,4 +52,5 @@ "exports": {

"dependencies": {
"@metaplex-foundation/umi-serializers": "^0.8.5",
"@solana/assertions": "2.0.0-experimental.38decd1"
"@solana/assertions": "2.0.0-experimental.398c396",
"@solana/codecs-core": "2.0.0-experimental.398c396",
"@solana/codecs-strings": "2.0.0-experimental.398c396"
},

@@ -59,4 +60,4 @@ "devDependencies": {

"@swc/jest": "^0.2.28",
"@types/jest": "^29.5.3",
"@typescript-eslint/eslint-plugin": "^6.3.0",
"@types/jest": "^29.5.5",
"@typescript-eslint/eslint-plugin": "^6.7.0",
"@typescript-eslint/parser": "^6.3.0",

@@ -67,3 +68,3 @@ "agadoo": "^3.0.0",

"eslint-plugin-sort-keys-fix": "^1.1.2",
"jest": "^29.6.1",
"jest": "^29.7.0",
"jest-environment-jsdom": "^29.6.4",

@@ -74,3 +75,3 @@ "jest-runner-eslint": "^2.1.0",

"tsup": "7.2.0",
"typescript": "^5.1.6",
"typescript": "^5.2.2",
"version-from-git": "^1.1.1",

@@ -94,8 +95,8 @@ "build-scripts": "0.0.0",

"publish-packages": "pnpm publish --tag experimental --access public --no-git-checks",
"style:fix": "pnpm eslint --fix src/* && pnpm prettier -w src/*",
"style:fix": "pnpm eslint --fix src/* && pnpm prettier -w src/* package.json",
"test:lint": "jest -c node_modules/test-config/jest-lint.config.ts --rootDir . --silent",
"test:prettier": "jest -c node_modules/test-config/jest-prettier.config.ts --rootDir . --silent",
"test:treeshakability:browser": "agadoo dist/index.browser.js",
"test:treeshakability:native": "agadoo dist/index.node.js",
"test:treeshakability:node": "agadoo dist/index.native.js",
"test:treeshakability:native": "agadoo dist/index.native.js",
"test:treeshakability:node": "agadoo dist/index.node.js",
"test:typecheck": "tsc --noEmit",

@@ -102,0 +103,0 @@ "test:unit:browser": "jest -c node_modules/test-config/jest-unit.config.browser.ts --rootDir . --silent",

@@ -25,14 +25,14 @@ [![npm][npm-image]][npm-url]

Whenever you need to validate an arbitrary string as a base58-encoded address, use the `assertIsBase58EncodedAddress()` function in this package.
Whenever you need to validate an arbitrary string as a base58-encoded address, use the `assertIsAddress()` function in this package.
## Functions
### `assertIsBase58EncodedAddress()`
### `assertIsAddress()`
Client applications primarily deal with addresses and public keys in the form of base58-encoded strings. Addresses returned from the RPC API conform to the type `Base58EncodedAddress`. You can use a value of that type wherever a base58-encoded address is expected.
From time to time you might acquire a string, that you expect to validate as an address, from an untrusted network API or user input. To assert that such an arbitrary string is a base58-encoded address, use the `assertIsBase58EncodedAddress` function.
From time to time you might acquire a string, that you expect to validate as an address, from an untrusted network API or user input. To assert that such an arbitrary string is a base58-encoded address, use the `assertIsAddress` function.
```ts
import { assertIsBase58EncodedAddress } from '@solana/addresses';
import { assertIsAddress } from '@solana/addresses';

@@ -46,3 +46,3 @@ // Imagine a function that fetches an account's balance when a user submits a form.

// Typescript will upcast `address` to `Base58EncodedAddress`.
assertIsBase58EncodedAddress(address);
assertIsAddress(address);
// At this point, `address` is a `Base58EncodedAddress` that can be used with the RPC.

@@ -71,5 +71,5 @@ const balanceInLamports = await rpc.getBalance(address).send();

```ts
import { getBase58EncodedAddressCodec, getProgramDerivedAddress } from '@solana/addresses';
import { getAddressCodec, getProgramDerivedAddress } from '@solana/addresses';
const { serialize } = getBase58EncodedAddressCodec();
const { serialize } = getAddressCodec();
const { bumpSeed, pda } = await getProgramDerivedAddress({

@@ -76,0 +76,0 @@ programAddress: 'ATokenGPvbdGVxr1b2hvZbsiqW5xWH25efTNsLJA8knL' as Base58EncodedAddress,

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