let imports = {}; imports['__wbindgen_placeholder__'] = module.exports; let wasm; const { TextDecoder, TextEncoder } = require(`util`); let cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true }); cachedTextDecoder.decode(); let cachedUint8Memory0 = null; function getUint8Memory0() { if (cachedUint8Memory0 === null || cachedUint8Memory0.byteLength === 0) { cachedUint8Memory0 = new Uint8Array(wasm.memory.buffer); } return cachedUint8Memory0; } function getStringFromWasm0(ptr, len) { ptr = ptr >>> 0; return cachedTextDecoder.decode(getUint8Memory0().subarray(ptr, ptr + len)); } const heap = new Array(128).fill(undefined); heap.push(undefined, null, true, false); let heap_next = heap.length; function addHeapObject(obj) { if (heap_next === heap.length) heap.push(heap.length + 1); const idx = heap_next; heap_next = heap[idx]; heap[idx] = obj; return idx; } function getObject(idx) { return heap[idx]; } function dropObject(idx) { if (idx < 132) return; heap[idx] = heap_next; heap_next = idx; } function takeObject(idx) { const ret = getObject(idx); dropObject(idx); return ret; } function isLikeNone(x) { return x === undefined || x === null; } let cachedFloat64Memory0 = null; function getFloat64Memory0() { if (cachedFloat64Memory0 === null || cachedFloat64Memory0.byteLength === 0) { cachedFloat64Memory0 = new Float64Array(wasm.memory.buffer); } return cachedFloat64Memory0; } let cachedInt32Memory0 = null; function getInt32Memory0() { if (cachedInt32Memory0 === null || cachedInt32Memory0.byteLength === 0) { cachedInt32Memory0 = new Int32Array(wasm.memory.buffer); } return cachedInt32Memory0; } let WASM_VECTOR_LEN = 0; let cachedTextEncoder = new TextEncoder('utf-8'); const encodeString = (typeof cachedTextEncoder.encodeInto === 'function' ? function (arg, view) { return cachedTextEncoder.encodeInto(arg, view); } : function (arg, view) { const buf = cachedTextEncoder.encode(arg); view.set(buf); return { read: arg.length, written: buf.length }; }); function passStringToWasm0(arg, malloc, realloc) { if (realloc === undefined) { const buf = cachedTextEncoder.encode(arg); const ptr = malloc(buf.length, 1) >>> 0; getUint8Memory0().subarray(ptr, ptr + buf.length).set(buf); WASM_VECTOR_LEN = buf.length; return ptr; } let len = arg.length; let ptr = malloc(len, 1) >>> 0; const mem = getUint8Memory0(); let offset = 0; for (; offset < len; offset++) { const code = arg.charCodeAt(offset); if (code > 0x7F) break; mem[ptr + offset] = code; } if (offset !== len) { if (offset !== 0) { arg = arg.slice(offset); } ptr = realloc(ptr, len, len = offset + arg.length * 3, 1) >>> 0; const view = getUint8Memory0().subarray(ptr + offset, ptr + len); const ret = encodeString(arg, view); offset += ret.written; } WASM_VECTOR_LEN = offset; return ptr; } function debugString(val) { // primitive types const type = typeof val; if (type == 'number' || type == 'boolean' || val == null) { return `${val}`; } if (type == 'string') { return `"${val}"`; } if (type == 'symbol') { const description = val.description; if (description == null) { return 'Symbol'; } else { return `Symbol(${description})`; } } if (type == 'function') { const name = val.name; if (typeof name == 'string' && name.length > 0) { return `Function(${name})`; } else { return 'Function'; } } // objects if (Array.isArray(val)) { const length = val.length; let debug = '['; if (length > 0) { debug += debugString(val[0]); } for(let i = 1; i < length; i++) { debug += ', ' + debugString(val[i]); } debug += ']'; return debug; } // Test for built-in const builtInMatches = /\[object ([^\]]+)\]/.exec(toString.call(val)); let className; if (builtInMatches.length > 1) { className = builtInMatches[1]; } else { // Failed to match the standard '[object ClassName]' return toString.call(val); } if (className == 'Object') { // we're a user defined class or Object // JSON.stringify avoids problems with cycles, and is generally much // easier than looping through ownProperties of `val`. try { return 'Object(' + JSON.stringify(val) + ')'; } catch (_) { return 'Object'; } } // errors if (val instanceof Error) { return `${val.name}: ${val.message}\n${val.stack}`; } // TODO we could test for more things here, like `Set`s and `Map`s. return className; } /** * @param {any} val * @returns {any} */ module.exports.bincode_js_deserialize = function(val) { const ret = wasm.bincode_js_deserialize(addHeapObject(val)); return takeObject(ret); }; /** * @param {any} val * @returns {any} */ module.exports.borsh_bpf_js_deserialize = function(val) { const ret = wasm.borsh_bpf_js_deserialize(addHeapObject(val)); return takeObject(ret); }; /** * Initialize Javascript logging and panic handler */ module.exports.solana_program_init = function() { wasm.solana_program_init(); }; function _assertClass(instance, klass) { if (!(instance instanceof klass)) { throw new Error(`expected instance of ${klass.name}`); } return instance.ptr; } function getArrayU8FromWasm0(ptr, len) { ptr = ptr >>> 0; return getUint8Memory0().subarray(ptr / 1, ptr / 1 + len); } let cachedUint32Memory0 = null; function getUint32Memory0() { if (cachedUint32Memory0 === null || cachedUint32Memory0.byteLength === 0) { cachedUint32Memory0 = new Uint32Array(wasm.memory.buffer); } return cachedUint32Memory0; } function passArrayJsValueToWasm0(array, malloc) { const ptr = malloc(array.length * 4, 4) >>> 0; const mem = getUint32Memory0(); for (let i = 0; i < array.length; i++) { mem[ptr / 4 + i] = addHeapObject(array[i]); } WASM_VECTOR_LEN = array.length; return ptr; } function handleError(f, args) { try { return f.apply(this, args); } catch (e) { wasm.__wbindgen_exn_store(addHeapObject(e)); } } /** * A hash; the 32-byte output of a hashing algorithm. * * This struct is used most often in `solana-sdk` and related crates to contain * a [SHA-256] hash, but may instead contain a [blake3] hash, as created by the * [`blake3`] module (and used in [`Message::hash`]). * * [SHA-256]: https://en.wikipedia.org/wiki/SHA-2 * [blake3]: https://github.com/BLAKE3-team/BLAKE3 * [`blake3`]: crate::blake3 * [`Message::hash`]: crate::message::Message::hash */ class Hash { static __wrap(ptr) { ptr = ptr >>> 0; const obj = Object.create(Hash.prototype); obj.__wbg_ptr = ptr; return obj; } __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_hash_free(ptr); } /** * Create a new Hash object * * * `value` - optional hash as a base58 encoded string, `Uint8Array`, `[number]` * @param {any} value */ constructor(value) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.hash_constructor(retptr, addHeapObject(value)); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var r2 = getInt32Memory0()[retptr / 4 + 2]; if (r2) { throw takeObject(r1); } return Hash.__wrap(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Return the base58 string representation of the hash * @returns {string} */ toString() { let deferred1_0; let deferred1_1; try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.hash_toString(retptr, this.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; deferred1_0 = r0; deferred1_1 = r1; return getStringFromWasm0(r0, r1); } finally { wasm.__wbindgen_add_to_stack_pointer(16); wasm.__wbindgen_free(deferred1_0, deferred1_1, 1); } } /** * Checks if two `Hash`s are equal * @param {Hash} other * @returns {boolean} */ equals(other) { _assertClass(other, Hash); const ret = wasm.hash_equals(this.__wbg_ptr, other.__wbg_ptr); return ret !== 0; } /** * Return the `Uint8Array` representation of the hash * @returns {Uint8Array} */ toBytes() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.hash_toBytes(retptr, this.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var v1 = getArrayU8FromWasm0(r0, r1).slice(); wasm.__wbindgen_free(r0, r1 * 1); return v1; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } } module.exports.Hash = Hash; /** * A directive for a single invocation of a Solana program. * * An instruction specifies which program it is calling, which accounts it may * read or modify, and additional data that serves as input to the program. One * or more instructions are included in transactions submitted by Solana * clients. Instructions are also used to describe [cross-program * invocations][cpi]. * * [cpi]: https://docs.solana.com/developing/programming-model/calling-between-programs * * During execution, a program will receive a list of account data as one of * its arguments, in the same order as specified during `Instruction` * construction. * * While Solana is agnostic to the format of the instruction data, it has * built-in support for serialization via [`borsh`] and [`bincode`]. * * [`borsh`]: https://docs.rs/borsh/latest/borsh/ * [`bincode`]: https://docs.rs/bincode/latest/bincode/ * * # Specifying account metadata * * When constructing an [`Instruction`], a list of all accounts that may be * read or written during the execution of that instruction must be supplied as * [`AccountMeta`] values. * * Any account whose data may be mutated by the program during execution must * be specified as writable. During execution, writing to an account that was * not specified as writable will cause the transaction to fail. Writing to an * account that is not owned by the program will cause the transaction to fail. * * Any account whose lamport balance may be mutated by the program during * execution must be specified as writable. During execution, mutating the * lamports of an account that was not specified as writable will cause the * transaction to fail. While _subtracting_ lamports from an account not owned * by the program will cause the transaction to fail, _adding_ lamports to any * account is allowed, as long is it is mutable. * * Accounts that are not read or written by the program may still be specified * in an `Instruction`'s account list. These will affect scheduling of program * execution by the runtime, but will otherwise be ignored. * * When building a transaction, the Solana runtime coalesces all accounts used * by all instructions in that transaction, along with accounts and permissions * required by the runtime, into a single account list. Some accounts and * account permissions required by the runtime to process a transaction are * _not_ required to be included in an `Instruction`s account list. These * include: * * - The program ID — it is a separate field of `Instruction` * - The transaction's fee-paying account — it is added during [`Message`] * construction. A program may still require the fee payer as part of the * account list if it directly references it. * * [`Message`]: crate::message::Message * * Programs may require signatures from some accounts, in which case they * should be specified as signers during `Instruction` construction. The * program must still validate during execution that the account is a signer. */ class Instruction { static __wrap(ptr) { ptr = ptr >>> 0; const obj = Object.create(Instruction.prototype); obj.__wbg_ptr = ptr; return obj; } __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_instruction_free(ptr); } } module.exports.Instruction = Instruction; /** */ class Instructions { static __wrap(ptr) { ptr = ptr >>> 0; const obj = Object.create(Instructions.prototype); obj.__wbg_ptr = ptr; return obj; } __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_instructions_free(ptr); } /** */ constructor() { const ret = wasm.instructions_constructor(); return Instructions.__wrap(ret); } /** * @param {Instruction} instruction */ push(instruction) { _assertClass(instruction, Instruction); var ptr0 = instruction.__destroy_into_raw(); wasm.instructions_push(this.__wbg_ptr, ptr0); } } module.exports.Instructions = Instructions; /** * A Solana transaction message (legacy). * * See the [`message`] module documentation for further description. * * [`message`]: crate::message * * Some constructors accept an optional `payer`, the account responsible for * paying the cost of executing a transaction. In most cases, callers should * specify the payer explicitly in these constructors. In some cases though, * the caller is not _required_ to specify the payer, but is still allowed to: * in the `Message` structure, the first account is always the fee-payer, so if * the caller has knowledge that the first account of the constructed * transaction's `Message` is both a signer and the expected fee-payer, then * redundantly specifying the fee-payer is not strictly required. */ class Message { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_message_free(ptr); } /** * The id of a recent ledger entry. * @returns {Hash} */ get recent_blockhash() { const ret = wasm.__wbg_get_message_recent_blockhash(this.__wbg_ptr); return Hash.__wrap(ret); } /** * The id of a recent ledger entry. * @param {Hash} arg0 */ set recent_blockhash(arg0) { _assertClass(arg0, Hash); var ptr0 = arg0.__destroy_into_raw(); wasm.__wbg_set_message_recent_blockhash(this.__wbg_ptr, ptr0); } } module.exports.Message = Message; /** * The address of a [Solana account][acc]. * * Some account addresses are [ed25519] public keys, with corresponding secret * keys that are managed off-chain. Often, though, account addresses do not * have corresponding secret keys — as with [_program derived * addresses_][pdas] — or the secret key is not relevant to the operation * of a program, and may have even been disposed of. As running Solana programs * can not safely create or manage secret keys, the full [`Keypair`] is not * defined in `solana-program` but in `solana-sdk`. * * [acc]: https://docs.solana.com/developing/programming-model/accounts * [ed25519]: https://ed25519.cr.yp.to/ * [pdas]: https://docs.solana.com/developing/programming-model/calling-between-programs#program-derived-addresses * [`Keypair`]: https://docs.rs/solana-sdk/latest/solana_sdk/signer/keypair/struct.Keypair.html */ class Pubkey { static __wrap(ptr) { ptr = ptr >>> 0; const obj = Object.create(Pubkey.prototype); obj.__wbg_ptr = ptr; return obj; } __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_pubkey_free(ptr); } /** * Create a new Pubkey object * * * `value` - optional public key as a base58 encoded string, `Uint8Array`, `[number]` * @param {any} value */ constructor(value) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.pubkey_constructor(retptr, addHeapObject(value)); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var r2 = getInt32Memory0()[retptr / 4 + 2]; if (r2) { throw takeObject(r1); } return Pubkey.__wrap(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Return the base58 string representation of the public key * @returns {string} */ toString() { let deferred1_0; let deferred1_1; try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.pubkey_toString(retptr, this.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; deferred1_0 = r0; deferred1_1 = r1; return getStringFromWasm0(r0, r1); } finally { wasm.__wbindgen_add_to_stack_pointer(16); wasm.__wbindgen_free(deferred1_0, deferred1_1, 1); } } /** * Check if a `Pubkey` is on the ed25519 curve. * @returns {boolean} */ isOnCurve() { const ret = wasm.pubkey_isOnCurve(this.__wbg_ptr); return ret !== 0; } /** * Checks if two `Pubkey`s are equal * @param {Pubkey} other * @returns {boolean} */ equals(other) { _assertClass(other, Pubkey); const ret = wasm.pubkey_equals(this.__wbg_ptr, other.__wbg_ptr); return ret !== 0; } /** * Return the `Uint8Array` representation of the public key * @returns {Uint8Array} */ toBytes() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.pubkey_toBytes(retptr, this.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var v1 = getArrayU8FromWasm0(r0, r1).slice(); wasm.__wbindgen_free(r0, r1 * 1); return v1; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Derive a Pubkey from another Pubkey, string seed, and a program id * @param {Pubkey} base * @param {string} seed * @param {Pubkey} owner * @returns {Pubkey} */ static createWithSeed(base, seed, owner) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); _assertClass(base, Pubkey); const ptr0 = passStringToWasm0(seed, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len0 = WASM_VECTOR_LEN; _assertClass(owner, Pubkey); wasm.pubkey_createWithSeed(retptr, base.__wbg_ptr, ptr0, len0, owner.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var r2 = getInt32Memory0()[retptr / 4 + 2]; if (r2) { throw takeObject(r1); } return Pubkey.__wrap(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Derive a program address from seeds and a program id * @param {any[]} seeds * @param {Pubkey} program_id * @returns {Pubkey} */ static createProgramAddress(seeds, program_id) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayJsValueToWasm0(seeds, wasm.__wbindgen_malloc); const len0 = WASM_VECTOR_LEN; _assertClass(program_id, Pubkey); wasm.pubkey_createProgramAddress(retptr, ptr0, len0, program_id.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var r2 = getInt32Memory0()[retptr / 4 + 2]; if (r2) { throw takeObject(r1); } return Pubkey.__wrap(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Find a valid program address * * Returns: * * `[PubKey, number]` - the program address and bump seed * @param {any[]} seeds * @param {Pubkey} program_id * @returns {any} */ static findProgramAddress(seeds, program_id) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayJsValueToWasm0(seeds, wasm.__wbindgen_malloc); const len0 = WASM_VECTOR_LEN; _assertClass(program_id, Pubkey); wasm.pubkey_findProgramAddress(retptr, ptr0, len0, program_id.__wbg_ptr); var r0 = getInt32Memory0()[retptr / 4 + 0]; var r1 = getInt32Memory0()[retptr / 4 + 1]; var r2 = getInt32Memory0()[retptr / 4 + 2]; if (r2) { throw takeObject(r1); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } } module.exports.Pubkey = Pubkey; class SystemInstruction { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_systeminstruction_free(ptr); } /** * @param {Pubkey} from_pubkey * @param {Pubkey} to_pubkey * @param {bigint} lamports * @param {bigint} space * @param {Pubkey} owner * @returns {Instruction} */ static createAccount(from_pubkey, to_pubkey, lamports, space, owner) { _assertClass(from_pubkey, Pubkey); _assertClass(to_pubkey, Pubkey); _assertClass(owner, Pubkey); const ret = wasm.systeminstruction_createAccount(from_pubkey.__wbg_ptr, to_pubkey.__wbg_ptr, lamports, space, owner.__wbg_ptr); return Instruction.__wrap(ret); } /** * @param {Pubkey} from_pubkey * @param {Pubkey} to_pubkey * @param {Pubkey} base * @param {string} seed * @param {bigint} lamports * @param {bigint} space * @param {Pubkey} owner * @returns {Instruction} */ static createAccountWithSeed(from_pubkey, to_pubkey, base, seed, lamports, space, owner) { _assertClass(from_pubkey, Pubkey); _assertClass(to_pubkey, Pubkey); _assertClass(base, Pubkey); const ptr0 = passStringToWasm0(seed, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len0 = WASM_VECTOR_LEN; _assertClass(owner, Pubkey); const ret = wasm.systeminstruction_createAccountWithSeed(from_pubkey.__wbg_ptr, to_pubkey.__wbg_ptr, base.__wbg_ptr, ptr0, len0, lamports, space, owner.__wbg_ptr); return Instruction.__wrap(ret); } /** * @param {Pubkey} pubkey * @param {Pubkey} owner * @returns {Instruction} */ static assign(pubkey, owner) { _assertClass(pubkey, Pubkey); _assertClass(owner, Pubkey); const ret = wasm.systeminstruction_assign(pubkey.__wbg_ptr, owner.__wbg_ptr); return Instruction.__wrap(ret); } /** * @param {Pubkey} pubkey * @param {Pubkey} base * @param {string} seed * @param {Pubkey} owner * @returns {Instruction} */ static assignWithSeed(pubkey, base, seed, owner) { _assertClass(pubkey, Pubkey); _assertClass(base, Pubkey); const ptr0 = passStringToWasm0(seed, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len0 = WASM_VECTOR_LEN; _assertClass(owner, Pubkey); const ret = wasm.systeminstruction_assignWithSeed(pubkey.__wbg_ptr, base.__wbg_ptr, ptr0, len0, owner.__wbg_ptr); return Instruction.__wrap(ret); } /** * @param {Pubkey} from_pubkey * @param {Pubkey} to_pubkey * @param {bigint} lamports * @returns {Instruction} */ static transfer(from_pubkey, to_pubkey, lamports) { _assertClass(from_pubkey, Pubkey); _assertClass(to_pubkey, Pubkey); const ret = wasm.systeminstruction_transfer(from_pubkey.__wbg_ptr, to_pubkey.__wbg_ptr, lamports); return Instruction.__wrap(ret); } /** * @param {Pubkey} from_pubkey * @param {Pubkey} from_base * @param {string} from_seed * @param {Pubkey} from_owner * @param {Pubkey} to_pubkey * @param {bigint} lamports * @returns {Instruction} */ static transferWithSeed(from_pubkey, from_base, from_seed, from_owner, to_pubkey, lamports) { _assertClass(from_pubkey, Pubkey); _assertClass(from_base, Pubkey); const ptr0 = passStringToWasm0(from_seed, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len0 = WASM_VECTOR_LEN; _assertClass(from_owner, Pubkey); _assertClass(to_pubkey, Pubkey); const ret = wasm.systeminstruction_transferWithSeed(from_pubkey.__wbg_ptr, from_base.__wbg_ptr, ptr0, len0, from_owner.__wbg_ptr, to_pubkey.__wbg_ptr, lamports); return Instruction.__wrap(ret); } /** * @param {Pubkey} pubkey * @param {bigint} space * @returns {Instruction} */ static allocate(pubkey, space) { _assertClass(pubkey, Pubkey); const ret = wasm.systeminstruction_allocate(pubkey.__wbg_ptr, space); return Instruction.__wrap(ret); } /** * @param {Pubkey} address * @param {Pubkey} base * @param {string} seed * @param {bigint} space * @param {Pubkey} owner * @returns {Instruction} */ static allocateWithSeed(address, base, seed, space, owner) { _assertClass(address, Pubkey); _assertClass(base, Pubkey); const ptr0 = passStringToWasm0(seed, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len0 = WASM_VECTOR_LEN; _assertClass(owner, Pubkey); const ret = wasm.systeminstruction_allocateWithSeed(address.__wbg_ptr, base.__wbg_ptr, ptr0, len0, space, owner.__wbg_ptr); return Instruction.__wrap(ret); } /** * @param {Pubkey} from_pubkey * @param {Pubkey} nonce_pubkey * @param {Pubkey} authority * @param {bigint} lamports * @returns {Array} */ static createNonceAccount(from_pubkey, nonce_pubkey, authority, lamports) { _assertClass(from_pubkey, Pubkey); _assertClass(nonce_pubkey, Pubkey); _assertClass(authority, Pubkey); const ret = wasm.systeminstruction_createNonceAccount(from_pubkey.__wbg_ptr, nonce_pubkey.__wbg_ptr, authority.__wbg_ptr, lamports); return takeObject(ret); } /** * @param {Pubkey} nonce_pubkey * @param {Pubkey} authorized_pubkey * @returns {Instruction} */ static advanceNonceAccount(nonce_pubkey, authorized_pubkey) { _assertClass(nonce_pubkey, Pubkey); _assertClass(authorized_pubkey, Pubkey); const ret = wasm.systeminstruction_advanceNonceAccount(nonce_pubkey.__wbg_ptr, authorized_pubkey.__wbg_ptr); return Instruction.__wrap(ret); } /** * @param {Pubkey} nonce_pubkey * @param {Pubkey} authorized_pubkey * @param {Pubkey} to_pubkey * @param {bigint} lamports * @returns {Instruction} */ static withdrawNonceAccount(nonce_pubkey, authorized_pubkey, to_pubkey, lamports) { _assertClass(nonce_pubkey, Pubkey); _assertClass(authorized_pubkey, Pubkey); _assertClass(to_pubkey, Pubkey); const ret = wasm.systeminstruction_withdrawNonceAccount(nonce_pubkey.__wbg_ptr, authorized_pubkey.__wbg_ptr, to_pubkey.__wbg_ptr, lamports); return Instruction.__wrap(ret); } /** * @param {Pubkey} nonce_pubkey * @param {Pubkey} authorized_pubkey * @param {Pubkey} new_authority * @returns {Instruction} */ static authorizeNonceAccount(nonce_pubkey, authorized_pubkey, new_authority) { _assertClass(nonce_pubkey, Pubkey); _assertClass(authorized_pubkey, Pubkey); _assertClass(new_authority, Pubkey); const ret = wasm.systeminstruction_authorizeNonceAccount(nonce_pubkey.__wbg_ptr, authorized_pubkey.__wbg_ptr, new_authority.__wbg_ptr); return Instruction.__wrap(ret); } } module.exports.SystemInstruction = SystemInstruction; module.exports.__wbindgen_error_new = function(arg0, arg1) { const ret = new Error(getStringFromWasm0(arg0, arg1)); return addHeapObject(ret); }; module.exports.__wbindgen_object_drop_ref = function(arg0) { takeObject(arg0); }; module.exports.__wbg_log_fb911463b057a706 = function(arg0, arg1) { console.log(getStringFromWasm0(arg0, arg1)); }; module.exports.__wbindgen_number_new = function(arg0) { const ret = arg0; return addHeapObject(ret); }; module.exports.__wbindgen_bigint_from_u64 = function(arg0) { const ret = BigInt.asUintN(64, arg0); return addHeapObject(ret); }; module.exports.__wbindgen_string_new = function(arg0, arg1) { const ret = getStringFromWasm0(arg0, arg1); return addHeapObject(ret); }; module.exports.__wbindgen_object_clone_ref = function(arg0) { const ret = getObject(arg0); return addHeapObject(ret); }; module.exports.__wbindgen_is_object = function(arg0) { const val = getObject(arg0); const ret = typeof(val) === 'object' && val !== null; return ret; }; module.exports.__wbindgen_jsval_loose_eq = function(arg0, arg1) { const ret = getObject(arg0) == getObject(arg1); return ret; }; module.exports.__wbindgen_boolean_get = function(arg0) { const v = getObject(arg0); const ret = typeof(v) === 'boolean' ? (v ? 1 : 0) : 2; return ret; }; module.exports.__wbindgen_number_get = function(arg0, arg1) { const obj = getObject(arg1); const ret = typeof(obj) === 'number' ? obj : undefined; getFloat64Memory0()[arg0 / 8 + 1] = isLikeNone(ret) ? 0 : ret; getInt32Memory0()[arg0 / 4 + 0] = !isLikeNone(ret); }; module.exports.__wbindgen_string_get = function(arg0, arg1) { const obj = getObject(arg1); const ret = typeof(obj) === 'string' ? obj : undefined; var ptr1 = isLikeNone(ret) ? 0 : passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); var len1 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len1; getInt32Memory0()[arg0 / 4 + 0] = ptr1; }; module.exports.__wbg_set_20cbc34131e76824 = function(arg0, arg1, arg2) { getObject(arg0)[takeObject(arg1)] = takeObject(arg2); }; module.exports.__wbg_instruction_new = function(arg0) { const ret = Instruction.__wrap(arg0); return addHeapObject(ret); }; module.exports.__wbg_pubkey_new = function(arg0) { const ret = Pubkey.__wrap(arg0); return addHeapObject(ret); }; module.exports.__wbindgen_is_undefined = function(arg0) { const ret = getObject(arg0) === undefined; return ret; }; module.exports.__wbg_debug_9a6b3243fbbebb61 = function(arg0) { console.debug(getObject(arg0)); }; module.exports.__wbg_error_788ae33f81d3b84b = function(arg0) { console.error(getObject(arg0)); }; module.exports.__wbg_info_2e30e8204b29d91d = function(arg0) { console.info(getObject(arg0)); }; module.exports.__wbg_log_1d3ae0273d8f4f8a = function(arg0) { console.log(getObject(arg0)); }; module.exports.__wbg_warn_d60e832f9882c1b2 = function(arg0) { console.warn(getObject(arg0)); }; module.exports.__wbg_new_abda76e883ba8a5f = function() { const ret = new Error(); return addHeapObject(ret); }; module.exports.__wbg_stack_658279fe44541cf6 = function(arg0, arg1) { const ret = getObject(arg1).stack; const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len1 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len1; getInt32Memory0()[arg0 / 4 + 0] = ptr1; }; module.exports.__wbg_error_f851667af71bcfc6 = function(arg0, arg1) { let deferred0_0; let deferred0_1; try { deferred0_0 = arg0; deferred0_1 = arg1; console.error(getStringFromWasm0(arg0, arg1)); } finally { wasm.__wbindgen_free(deferred0_0, deferred0_1, 1); } }; module.exports.__wbindgen_is_string = function(arg0) { const ret = typeof(getObject(arg0)) === 'string'; return ret; }; module.exports.__wbg_get_44be0491f933a435 = function(arg0, arg1) { const ret = getObject(arg0)[arg1 >>> 0]; return addHeapObject(ret); }; module.exports.__wbg_length_fff51ee6522a1a18 = function(arg0) { const ret = getObject(arg0).length; return ret; }; module.exports.__wbg_new_898a68150f225f2e = function() { const ret = new Array(); return addHeapObject(ret); }; module.exports.__wbindgen_is_function = function(arg0) { const ret = typeof(getObject(arg0)) === 'function'; return ret; }; module.exports.__wbg_new_56693dbed0c32988 = function() { const ret = new Map(); return addHeapObject(ret); }; module.exports.__wbg_next_526fc47e980da008 = function(arg0) { const ret = getObject(arg0).next; return addHeapObject(ret); }; module.exports.__wbg_next_ddb3312ca1c4e32a = function() { return handleError(function (arg0) { const ret = getObject(arg0).next(); return addHeapObject(ret); }, arguments) }; module.exports.__wbg_done_5c1f01fb660d73b5 = function(arg0) { const ret = getObject(arg0).done; return ret; }; module.exports.__wbg_value_1695675138684bd5 = function(arg0) { const ret = getObject(arg0).value; return addHeapObject(ret); }; module.exports.__wbg_iterator_97f0c81209c6c35a = function() { const ret = Symbol.iterator; return addHeapObject(ret); }; module.exports.__wbg_get_97b561fb56f034b5 = function() { return handleError(function (arg0, arg1) { const ret = Reflect.get(getObject(arg0), getObject(arg1)); return addHeapObject(ret); }, arguments) }; module.exports.__wbg_call_cb65541d95d71282 = function() { return handleError(function (arg0, arg1) { const ret = getObject(arg0).call(getObject(arg1)); return addHeapObject(ret); }, arguments) }; module.exports.__wbg_new_b51585de1b234aff = function() { const ret = new Object(); return addHeapObject(ret); }; module.exports.__wbg_newwithlength_3ec098a360da1909 = function(arg0) { const ret = new Array(arg0 >>> 0); return addHeapObject(ret); }; module.exports.__wbg_set_502d29070ea18557 = function(arg0, arg1, arg2) { getObject(arg0)[arg1 >>> 0] = takeObject(arg2); }; module.exports.__wbg_isArray_4c24b343cb13cfb1 = function(arg0) { const ret = Array.isArray(getObject(arg0)); return ret; }; module.exports.__wbg_push_ca1c26067ef907ac = function(arg0, arg1) { const ret = getObject(arg0).push(getObject(arg1)); return ret; }; module.exports.__wbg_instanceof_ArrayBuffer_39ac22089b74fddb = function(arg0) { let result; try { result = getObject(arg0) instanceof ArrayBuffer; } catch { result = false; } const ret = result; return ret; }; module.exports.__wbg_values_e80af618f92c8649 = function(arg0) { const ret = getObject(arg0).values(); return addHeapObject(ret); }; module.exports.__wbg_set_bedc3d02d0f05eb0 = function(arg0, arg1, arg2) { const ret = getObject(arg0).set(getObject(arg1), getObject(arg2)); return addHeapObject(ret); }; module.exports.__wbg_isSafeInteger_bb8e18dd21c97288 = function(arg0) { const ret = Number.isSafeInteger(getObject(arg0)); return ret; }; module.exports.__wbg_buffer_085ec1f694018c4f = function(arg0) { const ret = getObject(arg0).buffer; return addHeapObject(ret); }; module.exports.__wbg_new_8125e318e6245eed = function(arg0) { const ret = new Uint8Array(getObject(arg0)); return addHeapObject(ret); }; module.exports.__wbg_set_5cf90238115182c3 = function(arg0, arg1, arg2) { getObject(arg0).set(getObject(arg1), arg2 >>> 0); }; module.exports.__wbg_length_72e2208bbc0efc61 = function(arg0) { const ret = getObject(arg0).length; return ret; }; module.exports.__wbg_instanceof_Uint8Array_d8d9cb2b8e8ac1d4 = function(arg0) { let result; try { result = getObject(arg0) instanceof Uint8Array; } catch { result = false; } const ret = result; return ret; }; module.exports.__wbindgen_debug_string = function(arg0, arg1) { const ret = debugString(getObject(arg1)); const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc); const len1 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len1; getInt32Memory0()[arg0 / 4 + 0] = ptr1; }; module.exports.__wbindgen_throw = function(arg0, arg1) { throw new Error(getStringFromWasm0(arg0, arg1)); }; module.exports.__wbindgen_memory = function() { const ret = wasm.memory; return addHeapObject(ret); }; const path = require('path').join(__dirname, 'bincode_js_bg.wasm'); const bytes = require('fs').readFileSync(path); const wasmModule = new WebAssembly.Module(bytes); const wasmInstance = new WebAssembly.Instance(wasmModule, imports); wasm = wasmInstance.exports; module.exports.__wasm = wasm;