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Contract Source Code Verified (Exact Match)
Contract Name:
SablierV2LockupTranched
Compiler Version
v0.8.26+commit.8a97fa7a
Contract Source Code (Solidity Standard Json-Input format)
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.8.22;
import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import { SafeERC20 } from "@openzeppelin/contracts/token/ERC20/utils/SafeERC20.sol";
import { ERC721 } from "@openzeppelin/contracts/token/ERC721/ERC721.sol";
import { SablierV2Lockup } from "./abstracts/SablierV2Lockup.sol";
import { ISablierV2LockupTranched } from "./interfaces/ISablierV2LockupTranched.sol";
import { ISablierV2NFTDescriptor } from "./interfaces/ISablierV2NFTDescriptor.sol";
import { Helpers } from "./libraries/Helpers.sol";
import { Lockup, LockupTranched } from "./types/DataTypes.sol";
/*
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*/
/// @title SablierV2LockupTranched
/// @notice See the documentation in {ISablierV2LockupTranched}.
contract SablierV2LockupTranched is
ISablierV2LockupTranched, // 5 inherited components
SablierV2Lockup // 14 inherited components
{
using SafeERC20 for IERC20;
/*//////////////////////////////////////////////////////////////////////////
STATE VARIABLES
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc ISablierV2LockupTranched
uint256 public immutable override MAX_TRANCHE_COUNT;
/// @dev Stream tranches mapped by stream IDs. This complements the `_streams` mapping in {SablierV2Lockup}.
mapping(uint256 id => LockupTranched.Tranche[] tranches) internal _tranches;
/*//////////////////////////////////////////////////////////////////////////
CONSTRUCTOR
//////////////////////////////////////////////////////////////////////////*/
/// @dev Emits a {TransferAdmin} event.
/// @param initialAdmin The address of the initial contract admin.
/// @param initialNFTDescriptor The address of the NFT descriptor contract.
/// @param maxTrancheCount The maximum number of tranches allowed in a stream.
constructor(
address initialAdmin,
ISablierV2NFTDescriptor initialNFTDescriptor,
uint256 maxTrancheCount
)
ERC721("Sablier V2 Lockup Tranched NFT", "SAB-V2-LOCKUP-TRA")
SablierV2Lockup(initialAdmin, initialNFTDescriptor)
{
MAX_TRANCHE_COUNT = maxTrancheCount;
nextStreamId = 1;
}
/*//////////////////////////////////////////////////////////////////////////
USER-FACING CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc ISablierV2LockupTranched
function getStream(uint256 streamId)
external
view
override
notNull(streamId)
returns (LockupTranched.StreamLT memory stream)
{
// Retrieve the Lockup stream from storage.
Lockup.Stream memory lockupStream = _streams[streamId];
// Settled streams cannot be canceled.
if (_statusOf(streamId) == Lockup.Status.SETTLED) {
lockupStream.isCancelable = false;
}
stream = LockupTranched.StreamLT({
amounts: lockupStream.amounts,
asset: lockupStream.asset,
endTime: lockupStream.endTime,
isCancelable: lockupStream.isCancelable,
isDepleted: lockupStream.isDepleted,
isStream: lockupStream.isStream,
isTransferable: lockupStream.isTransferable,
recipient: _ownerOf(streamId),
sender: lockupStream.sender,
startTime: lockupStream.startTime,
tranches: _tranches[streamId],
wasCanceled: lockupStream.wasCanceled
});
}
/// @inheritdoc ISablierV2LockupTranched
function getTimestamps(uint256 streamId)
external
view
override
notNull(streamId)
returns (LockupTranched.Timestamps memory timestamps)
{
timestamps = LockupTranched.Timestamps({ start: _streams[streamId].startTime, end: _streams[streamId].endTime });
}
/// @inheritdoc ISablierV2LockupTranched
function getTranches(uint256 streamId)
external
view
override
notNull(streamId)
returns (LockupTranched.Tranche[] memory tranches)
{
tranches = _tranches[streamId];
}
/*//////////////////////////////////////////////////////////////////////////
USER-FACING NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc ISablierV2LockupTranched
function createWithDurations(LockupTranched.CreateWithDurations calldata params)
external
override
noDelegateCall
returns (uint256 streamId)
{
// Generate the canonical tranches.
LockupTranched.Tranche[] memory tranches = Helpers.calculateTrancheTimestamps(params.tranches);
// Checks, Effects and Interactions: create the stream.
streamId = _create(
LockupTranched.CreateWithTimestamps({
sender: params.sender,
recipient: params.recipient,
totalAmount: params.totalAmount,
asset: params.asset,
cancelable: params.cancelable,
transferable: params.transferable,
startTime: uint40(block.timestamp),
tranches: tranches,
broker: params.broker
})
);
}
/// @inheritdoc ISablierV2LockupTranched
function createWithTimestamps(LockupTranched.CreateWithTimestamps calldata params)
external
override
noDelegateCall
returns (uint256 streamId)
{
// Checks, Effects and Interactions: create the stream.
streamId = _create(params);
}
/*//////////////////////////////////////////////////////////////////////////
INTERNAL CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc SablierV2Lockup
/// @dev The distribution function is:
///
/// $$
/// f(x) = \Sigma(eta)
/// $$
///
/// Where:
///
/// - $\Sigma(eta)$ is the sum of all vested tranches' amounts.
function _calculateStreamedAmount(uint256 streamId) internal view override returns (uint128) {
uint40 blockTimestamp = uint40(block.timestamp);
LockupTranched.Tranche[] memory tranches = _tranches[streamId];
// If the first tranche's timestamp is in the future, return zero.
if (tranches[0].timestamp > blockTimestamp) {
return 0;
}
// If the end time is not in the future, return the deposited amount.
if (_streams[streamId].endTime <= blockTimestamp) {
return _streams[streamId].amounts.deposited;
}
// Sum the amounts in all tranches that have already been vested.
// Using unchecked arithmetic is safe because the sum of the tranche amounts is equal to the total amount
// at this point.
uint128 streamedAmount = tranches[0].amount;
for (uint256 i = 1; i < tranches.length; ++i) {
// The loop breaks at the first tranche with a timestamp in the future. A tranche is considered vested if
// its timestamp is less than or equal to the block timestamp.
if (tranches[i].timestamp > blockTimestamp) {
break;
}
unchecked {
streamedAmount += tranches[i].amount;
}
}
return streamedAmount;
}
/*//////////////////////////////////////////////////////////////////////////
INTERNAL NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @dev See the documentation for the user-facing functions that call this internal function.
function _create(LockupTranched.CreateWithTimestamps memory params) internal returns (uint256 streamId) {
// Check: verify the broker fee and calculate the amounts.
Lockup.CreateAmounts memory createAmounts =
Helpers.checkAndCalculateBrokerFee(params.totalAmount, params.broker.fee, MAX_BROKER_FEE);
// Check: validate the user-provided parameters.
Helpers.checkCreateLockupTranched(createAmounts.deposit, params.tranches, MAX_TRANCHE_COUNT, params.startTime);
// Load the stream ID in a variable.
streamId = nextStreamId;
// Effect: create the stream.
Lockup.Stream storage stream = _streams[streamId];
stream.amounts.deposited = createAmounts.deposit;
stream.asset = params.asset;
stream.isCancelable = params.cancelable;
stream.isStream = true;
stream.isTransferable = params.transferable;
stream.sender = params.sender;
stream.startTime = params.startTime;
unchecked {
// The tranche count cannot be zero at this point.
uint256 trancheCount = params.tranches.length;
stream.endTime = params.tranches[trancheCount - 1].timestamp;
// Effect: store the tranches. Since Solidity lacks a syntax for copying arrays of structs directly from
// memory to storage, a manual approach is necessary. See https://github.com/ethereum/solidity/issues/12783.
for (uint256 i = 0; i < trancheCount; ++i) {
_tranches[streamId].push(params.tranches[i]);
}
// Effect: bump the next stream ID.
// Using unchecked arithmetic because these calculations cannot realistically overflow, ever.
nextStreamId = streamId + 1;
}
// Effect: mint the NFT to the recipient.
_mint({ to: params.recipient, tokenId: streamId });
// Interaction: transfer the deposit amount.
params.asset.safeTransferFrom({ from: msg.sender, to: address(this), value: createAmounts.deposit });
// Interaction: pay the broker fee, if not zero.
if (createAmounts.brokerFee > 0) {
params.asset.safeTransferFrom({ from: msg.sender, to: params.broker.account, value: createAmounts.brokerFee });
}
// Log the newly created stream.
emit ISablierV2LockupTranched.CreateLockupTranchedStream({
streamId: streamId,
funder: msg.sender,
sender: params.sender,
recipient: params.recipient,
amounts: createAmounts,
asset: params.asset,
cancelable: params.cancelable,
transferable: params.transferable,
tranches: params.tranches,
timestamps: LockupTranched.Timestamps({ start: stream.startTime, end: stream.endTime }),
broker: params.broker.account
});
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC20/IERC20.sol)
pragma solidity ^0.8.20;
/**
* @dev Interface of the ERC20 standard as defined in the EIP.
*/
interface IERC20 {
/**
* @dev Emitted when `value` tokens are moved from one account (`from`) to
* another (`to`).
*
* Note that `value` may be zero.
*/
event Transfer(address indexed from, address indexed to, uint256 value);
/**
* @dev Emitted when the allowance of a `spender` for an `owner` is set by
* a call to {approve}. `value` is the new allowance.
*/
event Approval(address indexed owner, address indexed spender, uint256 value);
/**
* @dev Returns the value of tokens in existence.
*/
function totalSupply() external view returns (uint256);
/**
* @dev Returns the value of tokens owned by `account`.
*/
function balanceOf(address account) external view returns (uint256);
/**
* @dev Moves a `value` amount of tokens from the caller's account to `to`.
*
* Returns a boolean value indicating whether the operation succeeded.
*
* Emits a {Transfer} event.
*/
function transfer(address to, uint256 value) external returns (bool);
/**
* @dev Returns the remaining number of tokens that `spender` will be
* allowed to spend on behalf of `owner` through {transferFrom}. This is
* zero by default.
*
* This value changes when {approve} or {transferFrom} are called.
*/
function allowance(address owner, address spender) external view returns (uint256);
/**
* @dev Sets a `value` amount of tokens as the allowance of `spender` over the
* caller's tokens.
*
* Returns a boolean value indicating whether the operation succeeded.
*
* IMPORTANT: Beware that changing an allowance with this method brings the risk
* that someone may use both the old and the new allowance by unfortunate
* transaction ordering. One possible solution to mitigate this race
* condition is to first reduce the spender's allowance to 0 and set the
* desired value afterwards:
* https://github.com/ethereum/EIPs/issues/20#issuecomment-263524729
*
* Emits an {Approval} event.
*/
function approve(address spender, uint256 value) external returns (bool);
/**
* @dev Moves a `value` amount of tokens from `from` to `to` using the
* allowance mechanism. `value` is then deducted from the caller's
* allowance.
*
* Returns a boolean value indicating whether the operation succeeded.
*
* Emits a {Transfer} event.
*/
function transferFrom(address from, address to, uint256 value) external returns (bool);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC20/utils/SafeERC20.sol)
pragma solidity ^0.8.20;
import {IERC20} from "../IERC20.sol";
import {IERC20Permit} from "../extensions/IERC20Permit.sol";
import {Address} from "../../../utils/Address.sol";
/**
* @title SafeERC20
* @dev Wrappers around ERC20 operations that throw on failure (when the token
* contract returns false). Tokens that return no value (and instead revert or
* throw on failure) are also supported, non-reverting calls are assumed to be
* successful.
* To use this library you can add a `using SafeERC20 for IERC20;` statement to your contract,
* which allows you to call the safe operations as `token.safeTransfer(...)`, etc.
*/
library SafeERC20 {
using Address for address;
/**
* @dev An operation with an ERC20 token failed.
*/
error SafeERC20FailedOperation(address token);
/**
* @dev Indicates a failed `decreaseAllowance` request.
*/
error SafeERC20FailedDecreaseAllowance(address spender, uint256 currentAllowance, uint256 requestedDecrease);
/**
* @dev Transfer `value` amount of `token` from the calling contract to `to`. If `token` returns no value,
* non-reverting calls are assumed to be successful.
*/
function safeTransfer(IERC20 token, address to, uint256 value) internal {
_callOptionalReturn(token, abi.encodeCall(token.transfer, (to, value)));
}
/**
* @dev Transfer `value` amount of `token` from `from` to `to`, spending the approval given by `from` to the
* calling contract. If `token` returns no value, non-reverting calls are assumed to be successful.
*/
function safeTransferFrom(IERC20 token, address from, address to, uint256 value) internal {
_callOptionalReturn(token, abi.encodeCall(token.transferFrom, (from, to, value)));
}
/**
* @dev Increase the calling contract's allowance toward `spender` by `value`. If `token` returns no value,
* non-reverting calls are assumed to be successful.
*/
function safeIncreaseAllowance(IERC20 token, address spender, uint256 value) internal {
uint256 oldAllowance = token.allowance(address(this), spender);
forceApprove(token, spender, oldAllowance + value);
}
/**
* @dev Decrease the calling contract's allowance toward `spender` by `requestedDecrease`. If `token` returns no
* value, non-reverting calls are assumed to be successful.
*/
function safeDecreaseAllowance(IERC20 token, address spender, uint256 requestedDecrease) internal {
unchecked {
uint256 currentAllowance = token.allowance(address(this), spender);
if (currentAllowance < requestedDecrease) {
revert SafeERC20FailedDecreaseAllowance(spender, currentAllowance, requestedDecrease);
}
forceApprove(token, spender, currentAllowance - requestedDecrease);
}
}
/**
* @dev Set the calling contract's allowance toward `spender` to `value`. If `token` returns no value,
* non-reverting calls are assumed to be successful. Meant to be used with tokens that require the approval
* to be set to zero before setting it to a non-zero value, such as USDT.
*/
function forceApprove(IERC20 token, address spender, uint256 value) internal {
bytes memory approvalCall = abi.encodeCall(token.approve, (spender, value));
if (!_callOptionalReturnBool(token, approvalCall)) {
_callOptionalReturn(token, abi.encodeCall(token.approve, (spender, 0)));
_callOptionalReturn(token, approvalCall);
}
}
/**
* @dev Imitates a Solidity high-level call (i.e. a regular function call to a contract), relaxing the requirement
* on the return value: the return value is optional (but if data is returned, it must not be false).
* @param token The token targeted by the call.
* @param data The call data (encoded using abi.encode or one of its variants).
*/
function _callOptionalReturn(IERC20 token, bytes memory data) private {
// We need to perform a low level call here, to bypass Solidity's return data size checking mechanism, since
// we're implementing it ourselves. We use {Address-functionCall} to perform this call, which verifies that
// the target address contains contract code and also asserts for success in the low-level call.
bytes memory returndata = address(token).functionCall(data);
if (returndata.length != 0 && !abi.decode(returndata, (bool))) {
revert SafeERC20FailedOperation(address(token));
}
}
/**
* @dev Imitates a Solidity high-level call (i.e. a regular function call to a contract), relaxing the requirement
* on the return value: the return value is optional (but if data is returned, it must not be false).
* @param token The token targeted by the call.
* @param data The call data (encoded using abi.encode or one of its variants).
*
* This is a variant of {_callOptionalReturn} that silents catches all reverts and returns a bool instead.
*/
function _callOptionalReturnBool(IERC20 token, bytes memory data) private returns (bool) {
// We need to perform a low level call here, to bypass Solidity's return data size checking mechanism, since
// we're implementing it ourselves. We cannot use {Address-functionCall} here since this should return false
// and not revert is the subcall reverts.
(bool success, bytes memory returndata) = address(token).call(data);
return success && (returndata.length == 0 || abi.decode(returndata, (bool))) && address(token).code.length > 0;
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC721/ERC721.sol)
pragma solidity ^0.8.20;
import {IERC721} from "./IERC721.sol";
import {IERC721Receiver} from "./IERC721Receiver.sol";
import {IERC721Metadata} from "./extensions/IERC721Metadata.sol";
import {Context} from "../../utils/Context.sol";
import {Strings} from "../../utils/Strings.sol";
import {IERC165, ERC165} from "../../utils/introspection/ERC165.sol";
import {IERC721Errors} from "../../interfaces/draft-IERC6093.sol";
/**
* @dev Implementation of https://eips.ethereum.org/EIPS/eip-721[ERC721] Non-Fungible Token Standard, including
* the Metadata extension, but not including the Enumerable extension, which is available separately as
* {ERC721Enumerable}.
*/
abstract contract ERC721 is Context, ERC165, IERC721, IERC721Metadata, IERC721Errors {
using Strings for uint256;
// Token name
string private _name;
// Token symbol
string private _symbol;
mapping(uint256 tokenId => address) private _owners;
mapping(address owner => uint256) private _balances;
mapping(uint256 tokenId => address) private _tokenApprovals;
mapping(address owner => mapping(address operator => bool)) private _operatorApprovals;
/**
* @dev Initializes the contract by setting a `name` and a `symbol` to the token collection.
*/
constructor(string memory name_, string memory symbol_) {
_name = name_;
_symbol = symbol_;
}
/**
* @dev See {IERC165-supportsInterface}.
*/
function supportsInterface(bytes4 interfaceId) public view virtual override(ERC165, IERC165) returns (bool) {
return
interfaceId == type(IERC721).interfaceId ||
interfaceId == type(IERC721Metadata).interfaceId ||
super.supportsInterface(interfaceId);
}
/**
* @dev See {IERC721-balanceOf}.
*/
function balanceOf(address owner) public view virtual returns (uint256) {
if (owner == address(0)) {
revert ERC721InvalidOwner(address(0));
}
return _balances[owner];
}
/**
* @dev See {IERC721-ownerOf}.
*/
function ownerOf(uint256 tokenId) public view virtual returns (address) {
return _requireOwned(tokenId);
}
/**
* @dev See {IERC721Metadata-name}.
*/
function name() public view virtual returns (string memory) {
return _name;
}
/**
* @dev See {IERC721Metadata-symbol}.
*/
function symbol() public view virtual returns (string memory) {
return _symbol;
}
/**
* @dev See {IERC721Metadata-tokenURI}.
*/
function tokenURI(uint256 tokenId) public view virtual returns (string memory) {
_requireOwned(tokenId);
string memory baseURI = _baseURI();
return bytes(baseURI).length > 0 ? string.concat(baseURI, tokenId.toString()) : "";
}
/**
* @dev Base URI for computing {tokenURI}. If set, the resulting URI for each
* token will be the concatenation of the `baseURI` and the `tokenId`. Empty
* by default, can be overridden in child contracts.
*/
function _baseURI() internal view virtual returns (string memory) {
return "";
}
/**
* @dev See {IERC721-approve}.
*/
function approve(address to, uint256 tokenId) public virtual {
_approve(to, tokenId, _msgSender());
}
/**
* @dev See {IERC721-getApproved}.
*/
function getApproved(uint256 tokenId) public view virtual returns (address) {
_requireOwned(tokenId);
return _getApproved(tokenId);
}
/**
* @dev See {IERC721-setApprovalForAll}.
*/
function setApprovalForAll(address operator, bool approved) public virtual {
_setApprovalForAll(_msgSender(), operator, approved);
}
/**
* @dev See {IERC721-isApprovedForAll}.
*/
function isApprovedForAll(address owner, address operator) public view virtual returns (bool) {
return _operatorApprovals[owner][operator];
}
/**
* @dev See {IERC721-transferFrom}.
*/
function transferFrom(address from, address to, uint256 tokenId) public virtual {
if (to == address(0)) {
revert ERC721InvalidReceiver(address(0));
}
// Setting an "auth" arguments enables the `_isAuthorized` check which verifies that the token exists
// (from != 0). Therefore, it is not needed to verify that the return value is not 0 here.
address previousOwner = _update(to, tokenId, _msgSender());
if (previousOwner != from) {
revert ERC721IncorrectOwner(from, tokenId, previousOwner);
}
}
/**
* @dev See {IERC721-safeTransferFrom}.
*/
function safeTransferFrom(address from, address to, uint256 tokenId) public {
safeTransferFrom(from, to, tokenId, "");
}
/**
* @dev See {IERC721-safeTransferFrom}.
*/
function safeTransferFrom(address from, address to, uint256 tokenId, bytes memory data) public virtual {
transferFrom(from, to, tokenId);
_checkOnERC721Received(from, to, tokenId, data);
}
/**
* @dev Returns the owner of the `tokenId`. Does NOT revert if token doesn't exist
*
* IMPORTANT: Any overrides to this function that add ownership of tokens not tracked by the
* core ERC721 logic MUST be matched with the use of {_increaseBalance} to keep balances
* consistent with ownership. The invariant to preserve is that for any address `a` the value returned by
* `balanceOf(a)` must be equal to the number of tokens such that `_ownerOf(tokenId)` is `a`.
*/
function _ownerOf(uint256 tokenId) internal view virtual returns (address) {
return _owners[tokenId];
}
/**
* @dev Returns the approved address for `tokenId`. Returns 0 if `tokenId` is not minted.
*/
function _getApproved(uint256 tokenId) internal view virtual returns (address) {
return _tokenApprovals[tokenId];
}
/**
* @dev Returns whether `spender` is allowed to manage `owner`'s tokens, or `tokenId` in
* particular (ignoring whether it is owned by `owner`).
*
* WARNING: This function assumes that `owner` is the actual owner of `tokenId` and does not verify this
* assumption.
*/
function _isAuthorized(address owner, address spender, uint256 tokenId) internal view virtual returns (bool) {
return
spender != address(0) &&
(owner == spender || isApprovedForAll(owner, spender) || _getApproved(tokenId) == spender);
}
/**
* @dev Checks if `spender` can operate on `tokenId`, assuming the provided `owner` is the actual owner.
* Reverts if `spender` does not have approval from the provided `owner` for the given token or for all its assets
* the `spender` for the specific `tokenId`.
*
* WARNING: This function assumes that `owner` is the actual owner of `tokenId` and does not verify this
* assumption.
*/
function _checkAuthorized(address owner, address spender, uint256 tokenId) internal view virtual {
if (!_isAuthorized(owner, spender, tokenId)) {
if (owner == address(0)) {
revert ERC721NonexistentToken(tokenId);
} else {
revert ERC721InsufficientApproval(spender, tokenId);
}
}
}
/**
* @dev Unsafe write access to the balances, used by extensions that "mint" tokens using an {ownerOf} override.
*
* NOTE: the value is limited to type(uint128).max. This protect against _balance overflow. It is unrealistic that
* a uint256 would ever overflow from increments when these increments are bounded to uint128 values.
*
* WARNING: Increasing an account's balance using this function tends to be paired with an override of the
* {_ownerOf} function to resolve the ownership of the corresponding tokens so that balances and ownership
* remain consistent with one another.
*/
function _increaseBalance(address account, uint128 value) internal virtual {
unchecked {
_balances[account] += value;
}
}
/**
* @dev Transfers `tokenId` from its current owner to `to`, or alternatively mints (or burns) if the current owner
* (or `to`) is the zero address. Returns the owner of the `tokenId` before the update.
*
* The `auth` argument is optional. If the value passed is non 0, then this function will check that
* `auth` is either the owner of the token, or approved to operate on the token (by the owner).
*
* Emits a {Transfer} event.
*
* NOTE: If overriding this function in a way that tracks balances, see also {_increaseBalance}.
*/
function _update(address to, uint256 tokenId, address auth) internal virtual returns (address) {
address from = _ownerOf(tokenId);
// Perform (optional) operator check
if (auth != address(0)) {
_checkAuthorized(from, auth, tokenId);
}
// Execute the update
if (from != address(0)) {
// Clear approval. No need to re-authorize or emit the Approval event
_approve(address(0), tokenId, address(0), false);
unchecked {
_balances[from] -= 1;
}
}
if (to != address(0)) {
unchecked {
_balances[to] += 1;
}
}
_owners[tokenId] = to;
emit Transfer(from, to, tokenId);
return from;
}
/**
* @dev Mints `tokenId` and transfers it to `to`.
*
* WARNING: Usage of this method is discouraged, use {_safeMint} whenever possible
*
* Requirements:
*
* - `tokenId` must not exist.
* - `to` cannot be the zero address.
*
* Emits a {Transfer} event.
*/
function _mint(address to, uint256 tokenId) internal {
if (to == address(0)) {
revert ERC721InvalidReceiver(address(0));
}
address previousOwner = _update(to, tokenId, address(0));
if (previousOwner != address(0)) {
revert ERC721InvalidSender(address(0));
}
}
/**
* @dev Mints `tokenId`, transfers it to `to` and checks for `to` acceptance.
*
* Requirements:
*
* - `tokenId` must not exist.
* - If `to` refers to a smart contract, it must implement {IERC721Receiver-onERC721Received}, which is called upon a safe transfer.
*
* Emits a {Transfer} event.
*/
function _safeMint(address to, uint256 tokenId) internal {
_safeMint(to, tokenId, "");
}
/**
* @dev Same as {xref-ERC721-_safeMint-address-uint256-}[`_safeMint`], with an additional `data` parameter which is
* forwarded in {IERC721Receiver-onERC721Received} to contract recipients.
*/
function _safeMint(address to, uint256 tokenId, bytes memory data) internal virtual {
_mint(to, tokenId);
_checkOnERC721Received(address(0), to, tokenId, data);
}
/**
* @dev Destroys `tokenId`.
* The approval is cleared when the token is burned.
* This is an internal function that does not check if the sender is authorized to operate on the token.
*
* Requirements:
*
* - `tokenId` must exist.
*
* Emits a {Transfer} event.
*/
function _burn(uint256 tokenId) internal {
address previousOwner = _update(address(0), tokenId, address(0));
if (previousOwner == address(0)) {
revert ERC721NonexistentToken(tokenId);
}
}
/**
* @dev Transfers `tokenId` from `from` to `to`.
* As opposed to {transferFrom}, this imposes no restrictions on msg.sender.
*
* Requirements:
*
* - `to` cannot be the zero address.
* - `tokenId` token must be owned by `from`.
*
* Emits a {Transfer} event.
*/
function _transfer(address from, address to, uint256 tokenId) internal {
if (to == address(0)) {
revert ERC721InvalidReceiver(address(0));
}
address previousOwner = _update(to, tokenId, address(0));
if (previousOwner == address(0)) {
revert ERC721NonexistentToken(tokenId);
} else if (previousOwner != from) {
revert ERC721IncorrectOwner(from, tokenId, previousOwner);
}
}
/**
* @dev Safely transfers `tokenId` token from `from` to `to`, checking that contract recipients
* are aware of the ERC721 standard to prevent tokens from being forever locked.
*
* `data` is additional data, it has no specified format and it is sent in call to `to`.
*
* This internal function is like {safeTransferFrom} in the sense that it invokes
* {IERC721Receiver-onERC721Received} on the receiver, and can be used to e.g.
* implement alternative mechanisms to perform token transfer, such as signature-based.
*
* Requirements:
*
* - `tokenId` token must exist and be owned by `from`.
* - `to` cannot be the zero address.
* - `from` cannot be the zero address.
* - If `to` refers to a smart contract, it must implement {IERC721Receiver-onERC721Received}, which is called upon a safe transfer.
*
* Emits a {Transfer} event.
*/
function _safeTransfer(address from, address to, uint256 tokenId) internal {
_safeTransfer(from, to, tokenId, "");
}
/**
* @dev Same as {xref-ERC721-_safeTransfer-address-address-uint256-}[`_safeTransfer`], with an additional `data` parameter which is
* forwarded in {IERC721Receiver-onERC721Received} to contract recipients.
*/
function _safeTransfer(address from, address to, uint256 tokenId, bytes memory data) internal virtual {
_transfer(from, to, tokenId);
_checkOnERC721Received(from, to, tokenId, data);
}
/**
* @dev Approve `to` to operate on `tokenId`
*
* The `auth` argument is optional. If the value passed is non 0, then this function will check that `auth` is
* either the owner of the token, or approved to operate on all tokens held by this owner.
*
* Emits an {Approval} event.
*
* Overrides to this logic should be done to the variant with an additional `bool emitEvent` argument.
*/
function _approve(address to, uint256 tokenId, address auth) internal {
_approve(to, tokenId, auth, true);
}
/**
* @dev Variant of `_approve` with an optional flag to enable or disable the {Approval} event. The event is not
* emitted in the context of transfers.
*/
function _approve(address to, uint256 tokenId, address auth, bool emitEvent) internal virtual {
// Avoid reading the owner unless necessary
if (emitEvent || auth != address(0)) {
address owner = _requireOwned(tokenId);
// We do not use _isAuthorized because single-token approvals should not be able to call approve
if (auth != address(0) && owner != auth && !isApprovedForAll(owner, auth)) {
revert ERC721InvalidApprover(auth);
}
if (emitEvent) {
emit Approval(owner, to, tokenId);
}
}
_tokenApprovals[tokenId] = to;
}
/**
* @dev Approve `operator` to operate on all of `owner` tokens
*
* Requirements:
* - operator can't be the address zero.
*
* Emits an {ApprovalForAll} event.
*/
function _setApprovalForAll(address owner, address operator, bool approved) internal virtual {
if (operator == address(0)) {
revert ERC721InvalidOperator(operator);
}
_operatorApprovals[owner][operator] = approved;
emit ApprovalForAll(owner, operator, approved);
}
/**
* @dev Reverts if the `tokenId` doesn't have a current owner (it hasn't been minted, or it has been burned).
* Returns the owner.
*
* Overrides to ownership logic should be done to {_ownerOf}.
*/
function _requireOwned(uint256 tokenId) internal view returns (address) {
address owner = _ownerOf(tokenId);
if (owner == address(0)) {
revert ERC721NonexistentToken(tokenId);
}
return owner;
}
/**
* @dev Private function to invoke {IERC721Receiver-onERC721Received} on a target address. This will revert if the
* recipient doesn't accept the token transfer. The call is not executed if the target address is not a contract.
*
* @param from address representing the previous owner of the given token ID
* @param to target address that will receive the tokens
* @param tokenId uint256 ID of the token to be transferred
* @param data bytes optional data to send along with the call
*/
function _checkOnERC721Received(address from, address to, uint256 tokenId, bytes memory data) private {
if (to.code.length > 0) {
try IERC721Receiver(to).onERC721Received(_msgSender(), from, tokenId, data) returns (bytes4 retval) {
if (retval != IERC721Receiver.onERC721Received.selector) {
revert ERC721InvalidReceiver(to);
}
} catch (bytes memory reason) {
if (reason.length == 0) {
revert ERC721InvalidReceiver(to);
} else {
/// @solidity memory-safe-assembly
assembly {
revert(add(32, reason), mload(reason))
}
}
}
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.8.22;
import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import { SafeERC20 } from "@openzeppelin/contracts/token/ERC20/utils/SafeERC20.sol";
import { ERC721 } from "@openzeppelin/contracts/token/ERC721/ERC721.sol";
import { IERC721Metadata } from "@openzeppelin/contracts/token/ERC721/extensions/IERC721Metadata.sol";
import { IERC165 } from "@openzeppelin/contracts/utils/introspection/IERC165.sol";
import { UD60x18 } from "@prb/math/src/UD60x18.sol";
import { ISablierLockupRecipient } from "../interfaces/ISablierLockupRecipient.sol";
import { ISablierV2Lockup } from "../interfaces/ISablierV2Lockup.sol";
import { ISablierV2NFTDescriptor } from "../interfaces/ISablierV2NFTDescriptor.sol";
import { Errors } from "../libraries/Errors.sol";
import { Lockup } from "../types/DataTypes.sol";
import { Adminable } from "./Adminable.sol";
import { NoDelegateCall } from "./NoDelegateCall.sol";
/// @title SablierV2Lockup
/// @notice See the documentation in {ISablierV2Lockup}.
abstract contract SablierV2Lockup is
NoDelegateCall, // 0 inherited components
Adminable, // 1 inherited components
ISablierV2Lockup, // 7 inherited components
ERC721 // 6 inherited components
{
using SafeERC20 for IERC20;
/*//////////////////////////////////////////////////////////////////////////
STATE VARIABLES
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc ISablierV2Lockup
UD60x18 public constant override MAX_BROKER_FEE = UD60x18.wrap(0.1e18);
/// @inheritdoc ISablierV2Lockup
uint256 public override nextStreamId;
/// @inheritdoc ISablierV2Lockup
ISablierV2NFTDescriptor public override nftDescriptor;
/// @dev Mapping of contracts allowed to hook to Sablier when a stream is canceled or when assets are withdrawn.
mapping(address recipient => bool allowed) internal _allowedToHook;
/// @dev Sablier V2 Lockup streams mapped by unsigned integers.
mapping(uint256 id => Lockup.Stream stream) internal _streams;
/*//////////////////////////////////////////////////////////////////////////
CONSTRUCTOR
//////////////////////////////////////////////////////////////////////////*/
/// @dev Emits a {TransferAdmin} event.
/// @param initialAdmin The address of the initial contract admin.
/// @param initialNFTDescriptor The address of the initial NFT descriptor.
constructor(address initialAdmin, ISablierV2NFTDescriptor initialNFTDescriptor) {
admin = initialAdmin;
nftDescriptor = initialNFTDescriptor;
emit TransferAdmin({ oldAdmin: address(0), newAdmin: initialAdmin });
}
/*//////////////////////////////////////////////////////////////////////////
MODIFIERS
//////////////////////////////////////////////////////////////////////////*/
/// @dev Checks that `streamId` does not reference a null stream.
modifier notNull(uint256 streamId) {
if (!_streams[streamId].isStream) {
revert Errors.SablierV2Lockup_Null(streamId);
}
_;
}
/*//////////////////////////////////////////////////////////////////////////
USER-FACING CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc ISablierV2Lockup
function getAsset(uint256 streamId) external view override notNull(streamId) returns (IERC20 asset) {
asset = _streams[streamId].asset;
}
/// @inheritdoc ISablierV2Lockup
function getDepositedAmount(uint256 streamId)
external
view
override
notNull(streamId)
returns (uint128 depositedAmount)
{
depositedAmount = _streams[streamId].amounts.deposited;
}
/// @inheritdoc ISablierV2Lockup
function getEndTime(uint256 streamId) external view override notNull(streamId) returns (uint40 endTime) {
endTime = _streams[streamId].endTime;
}
/// @inheritdoc ISablierV2Lockup
function getRecipient(uint256 streamId) external view override returns (address recipient) {
// Check the stream NFT exists and return the owner, which is the stream's recipient.
recipient = _requireOwned({ tokenId: streamId });
}
/// @inheritdoc ISablierV2Lockup
function getRefundedAmount(uint256 streamId)
external
view
override
notNull(streamId)
returns (uint128 refundedAmount)
{
refundedAmount = _streams[streamId].amounts.refunded;
}
/// @inheritdoc ISablierV2Lockup
function getSender(uint256 streamId) external view override notNull(streamId) returns (address sender) {
sender = _streams[streamId].sender;
}
/// @inheritdoc ISablierV2Lockup
function getStartTime(uint256 streamId) external view override notNull(streamId) returns (uint40 startTime) {
startTime = _streams[streamId].startTime;
}
/// @inheritdoc ISablierV2Lockup
function getWithdrawnAmount(uint256 streamId)
external
view
override
notNull(streamId)
returns (uint128 withdrawnAmount)
{
withdrawnAmount = _streams[streamId].amounts.withdrawn;
}
/// @inheritdoc ISablierV2Lockup
function isAllowedToHook(address recipient) external view returns (bool result) {
result = _allowedToHook[recipient];
}
/// @inheritdoc ISablierV2Lockup
function isCancelable(uint256 streamId) external view override notNull(streamId) returns (bool result) {
if (_statusOf(streamId) != Lockup.Status.SETTLED) {
result = _streams[streamId].isCancelable;
}
}
/// @inheritdoc ISablierV2Lockup
function isCold(uint256 streamId) external view override notNull(streamId) returns (bool result) {
Lockup.Status status = _statusOf(streamId);
result = status == Lockup.Status.SETTLED || status == Lockup.Status.CANCELED || status == Lockup.Status.DEPLETED;
}
/// @inheritdoc ISablierV2Lockup
function isDepleted(uint256 streamId) external view override notNull(streamId) returns (bool result) {
result = _streams[streamId].isDepleted;
}
/// @inheritdoc ISablierV2Lockup
function isStream(uint256 streamId) external view override returns (bool result) {
result = _streams[streamId].isStream;
}
/// @inheritdoc ISablierV2Lockup
function isTransferable(uint256 streamId) external view override notNull(streamId) returns (bool result) {
result = _streams[streamId].isTransferable;
}
/// @inheritdoc ISablierV2Lockup
function isWarm(uint256 streamId) external view override notNull(streamId) returns (bool result) {
Lockup.Status status = _statusOf(streamId);
result = status == Lockup.Status.PENDING || status == Lockup.Status.STREAMING;
}
/// @inheritdoc ISablierV2Lockup
function refundableAmountOf(uint256 streamId)
external
view
override
notNull(streamId)
returns (uint128 refundableAmount)
{
// These checks are needed because {_calculateStreamedAmount} does not look up the stream's status. Note that
// checking for `isCancelable` also checks if the stream `wasCanceled` thanks to the protocol invariant that
// canceled streams are not cancelable anymore.
if (_streams[streamId].isCancelable && !_streams[streamId].isDepleted) {
refundableAmount = _streams[streamId].amounts.deposited - _calculateStreamedAmount(streamId);
}
// Otherwise, the result is implicitly zero.
}
/// @inheritdoc ISablierV2Lockup
function statusOf(uint256 streamId) external view override notNull(streamId) returns (Lockup.Status status) {
status = _statusOf(streamId);
}
/// @inheritdoc ISablierV2Lockup
function streamedAmountOf(uint256 streamId)
public
view
override
notNull(streamId)
returns (uint128 streamedAmount)
{
streamedAmount = _streamedAmountOf(streamId);
}
/// @inheritdoc ERC721
function supportsInterface(bytes4 interfaceId) public view override(IERC165, ERC721) returns (bool) {
// 0x49064906 is the ERC-165 interface ID required by ERC-4906
return interfaceId == 0x49064906 || super.supportsInterface(interfaceId);
}
/// @inheritdoc ERC721
function tokenURI(uint256 streamId) public view override(IERC721Metadata, ERC721) returns (string memory uri) {
// Check: the stream NFT exists.
_requireOwned({ tokenId: streamId });
// Generate the URI describing the stream NFT.
uri = nftDescriptor.tokenURI({ sablier: this, streamId: streamId });
}
/// @inheritdoc ISablierV2Lockup
function wasCanceled(uint256 streamId) external view override notNull(streamId) returns (bool result) {
result = _streams[streamId].wasCanceled;
}
/// @inheritdoc ISablierV2Lockup
function withdrawableAmountOf(uint256 streamId)
external
view
override
notNull(streamId)
returns (uint128 withdrawableAmount)
{
withdrawableAmount = _withdrawableAmountOf(streamId);
}
/*//////////////////////////////////////////////////////////////////////////
USER-FACING NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc ISablierV2Lockup
function allowToHook(address recipient) external override onlyAdmin {
// Check: non-zero code size.
if (recipient.code.length == 0) {
revert Errors.SablierV2Lockup_AllowToHookZeroCodeSize(recipient);
}
// Check: recipients implements the ERC-165 interface ID required by {ISablierLockupRecipient}.
bytes4 interfaceId = type(ISablierLockupRecipient).interfaceId;
if (!ISablierLockupRecipient(recipient).supportsInterface(interfaceId)) {
revert Errors.SablierV2Lockup_AllowToHookUnsupportedInterface(recipient);
}
// Effect: put the recipient on the allowlist.
_allowedToHook[recipient] = true;
// Log the allowlist addition.
emit ISablierV2Lockup.AllowToHook({ admin: msg.sender, recipient: recipient });
}
/// @inheritdoc ISablierV2Lockup
function burn(uint256 streamId) external override noDelegateCall notNull(streamId) {
// Check: only depleted streams can be burned.
if (!_streams[streamId].isDepleted) {
revert Errors.SablierV2Lockup_StreamNotDepleted(streamId);
}
// Check:
// 1. NFT exists (see {IERC721.getApproved}).
// 2. `msg.sender` is either the owner of the NFT or an approved third party.
if (!_isCallerStreamRecipientOrApproved(streamId)) {
revert Errors.SablierV2Lockup_Unauthorized(streamId, msg.sender);
}
// Effect: burn the NFT.
_burn({ tokenId: streamId });
}
/// @inheritdoc ISablierV2Lockup
function cancel(uint256 streamId) public override noDelegateCall notNull(streamId) {
// Check: the stream is neither depleted nor canceled.
if (_streams[streamId].isDepleted) {
revert Errors.SablierV2Lockup_StreamDepleted(streamId);
} else if (_streams[streamId].wasCanceled) {
revert Errors.SablierV2Lockup_StreamCanceled(streamId);
}
// Check: `msg.sender` is the stream's sender.
if (!_isCallerStreamSender(streamId)) {
revert Errors.SablierV2Lockup_Unauthorized(streamId, msg.sender);
}
// Checks, Effects and Interactions: cancel the stream.
_cancel(streamId);
}
/// @inheritdoc ISablierV2Lockup
function cancelMultiple(uint256[] calldata streamIds) external override noDelegateCall {
// Iterate over the provided array of stream IDs and cancel each stream.
uint256 count = streamIds.length;
for (uint256 i = 0; i < count; ++i) {
// Effects and Interactions: cancel the stream.
cancel(streamIds[i]);
}
}
/// @inheritdoc ISablierV2Lockup
function renounce(uint256 streamId) external override noDelegateCall notNull(streamId) {
// Check: the stream is not cold.
Lockup.Status status = _statusOf(streamId);
if (status == Lockup.Status.DEPLETED) {
revert Errors.SablierV2Lockup_StreamDepleted(streamId);
} else if (status == Lockup.Status.CANCELED) {
revert Errors.SablierV2Lockup_StreamCanceled(streamId);
} else if (status == Lockup.Status.SETTLED) {
revert Errors.SablierV2Lockup_StreamSettled(streamId);
}
// Check: `msg.sender` is the stream's sender.
if (!_isCallerStreamSender(streamId)) {
revert Errors.SablierV2Lockup_Unauthorized(streamId, msg.sender);
}
// Checks and Effects: renounce the stream.
_renounce(streamId);
// Log the renouncement.
emit ISablierV2Lockup.RenounceLockupStream(streamId);
// Emit an ERC-4906 event to trigger an update of the NFT metadata.
emit MetadataUpdate({ _tokenId: streamId });
}
/// @inheritdoc ISablierV2Lockup
function setNFTDescriptor(ISablierV2NFTDescriptor newNFTDescriptor) external override onlyAdmin {
// Effect: set the NFT descriptor.
ISablierV2NFTDescriptor oldNftDescriptor = nftDescriptor;
nftDescriptor = newNFTDescriptor;
// Log the change of the NFT descriptor.
emit ISablierV2Lockup.SetNFTDescriptor({
admin: msg.sender,
oldNFTDescriptor: oldNftDescriptor,
newNFTDescriptor: newNFTDescriptor
});
// Refresh the NFT metadata for all streams.
emit BatchMetadataUpdate({ _fromTokenId: 1, _toTokenId: nextStreamId - 1 });
}
/// @inheritdoc ISablierV2Lockup
function withdraw(uint256 streamId, address to, uint128 amount) public override noDelegateCall notNull(streamId) {
// Check: the stream is not depleted.
if (_streams[streamId].isDepleted) {
revert Errors.SablierV2Lockup_StreamDepleted(streamId);
}
// Check: the withdrawal address is not zero.
if (to == address(0)) {
revert Errors.SablierV2Lockup_WithdrawToZeroAddress(streamId);
}
// Check: the withdraw amount is not zero.
if (amount == 0) {
revert Errors.SablierV2Lockup_WithdrawAmountZero(streamId);
}
// Retrieve the recipient from storage.
address recipient = _ownerOf(streamId);
// Check: if `msg.sender` is neither the stream's recipient nor an approved third party, the withdrawal address
// must be the recipient.
if (to != recipient && !_isCallerStreamRecipientOrApproved(streamId)) {
revert Errors.SablierV2Lockup_WithdrawalAddressNotRecipient(streamId, msg.sender, to);
}
// Check: the withdraw amount is not greater than the withdrawable amount.
uint128 withdrawableAmount = _withdrawableAmountOf(streamId);
if (amount > withdrawableAmount) {
revert Errors.SablierV2Lockup_Overdraw(streamId, amount, withdrawableAmount);
}
// Effects and Interactions: make the withdrawal.
_withdraw(streamId, to, amount);
// Emit an ERC-4906 event to trigger an update of the NFT metadata.
emit MetadataUpdate({ _tokenId: streamId });
// Interaction: if `msg.sender` is not the recipient and the recipient is on the allowlist, run the hook.
if (msg.sender != recipient && _allowedToHook[recipient]) {
bytes4 selector = ISablierLockupRecipient(recipient).onSablierLockupWithdraw({
streamId: streamId,
caller: msg.sender,
to: to,
amount: amount
});
// Check: the recipient's hook returned the correct selector.
if (selector != ISablierLockupRecipient.onSablierLockupWithdraw.selector) {
revert Errors.SablierV2Lockup_InvalidHookSelector(recipient);
}
}
}
/// @inheritdoc ISablierV2Lockup
function withdrawMax(uint256 streamId, address to) external override returns (uint128 withdrawnAmount) {
withdrawnAmount = _withdrawableAmountOf(streamId);
withdraw({ streamId: streamId, to: to, amount: withdrawnAmount });
}
/// @inheritdoc ISablierV2Lockup
function withdrawMaxAndTransfer(
uint256 streamId,
address newRecipient
)
external
override
noDelegateCall
notNull(streamId)
returns (uint128 withdrawnAmount)
{
// Check: the caller is the current recipient. This also checks that the NFT was not burned.
address currentRecipient = _ownerOf(streamId);
if (msg.sender != currentRecipient) {
revert Errors.SablierV2Lockup_Unauthorized(streamId, msg.sender);
}
// Skip the withdrawal if the withdrawable amount is zero.
withdrawnAmount = _withdrawableAmountOf(streamId);
if (withdrawnAmount > 0) {
withdraw({ streamId: streamId, to: currentRecipient, amount: withdrawnAmount });
}
// Checks and Effects: transfer the NFT.
_transfer({ from: currentRecipient, to: newRecipient, tokenId: streamId });
}
/// @inheritdoc ISablierV2Lockup
function withdrawMultiple(
uint256[] calldata streamIds,
uint128[] calldata amounts
)
external
override
noDelegateCall
{
// Check: there is an equal number of `streamIds` and `amounts`.
uint256 streamIdsCount = streamIds.length;
uint256 amountsCount = amounts.length;
if (streamIdsCount != amountsCount) {
revert Errors.SablierV2Lockup_WithdrawArrayCountsNotEqual(streamIdsCount, amountsCount);
}
// Iterate over the provided array of stream IDs, and withdraw from each stream to the recipient.
for (uint256 i = 0; i < streamIdsCount; ++i) {
// Checks, Effects and Interactions: check the parameters and make the withdrawal.
withdraw({ streamId: streamIds[i], to: _ownerOf(streamIds[i]), amount: amounts[i] });
}
}
/*//////////////////////////////////////////////////////////////////////////
INTERNAL CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Calculates the streamed amount of the stream without looking up the stream's status.
/// @dev This function is implemented by child contracts, so the logic varies depending on the model.
function _calculateStreamedAmount(uint256 streamId) internal view virtual returns (uint128);
/// @notice Checks whether `msg.sender` is the stream's recipient or an approved third party.
/// @param streamId The stream ID for the query.
function _isCallerStreamRecipientOrApproved(uint256 streamId) internal view returns (bool) {
address recipient = _ownerOf(streamId);
return msg.sender == recipient || isApprovedForAll({ owner: recipient, operator: msg.sender })
|| getApproved(streamId) == msg.sender;
}
/// @notice Checks whether `msg.sender` is the stream's sender.
/// @param streamId The stream ID for the query.
function _isCallerStreamSender(uint256 streamId) internal view returns (bool) {
return msg.sender == _streams[streamId].sender;
}
/// @dev Retrieves the stream's status without performing a null check.
function _statusOf(uint256 streamId) internal view returns (Lockup.Status) {
if (_streams[streamId].isDepleted) {
return Lockup.Status.DEPLETED;
} else if (_streams[streamId].wasCanceled) {
return Lockup.Status.CANCELED;
}
if (block.timestamp < _streams[streamId].startTime) {
return Lockup.Status.PENDING;
}
if (_calculateStreamedAmount(streamId) < _streams[streamId].amounts.deposited) {
return Lockup.Status.STREAMING;
} else {
return Lockup.Status.SETTLED;
}
}
/// @dev See the documentation for the user-facing functions that call this internal function.
function _streamedAmountOf(uint256 streamId) internal view returns (uint128) {
Lockup.Amounts memory amounts = _streams[streamId].amounts;
if (_streams[streamId].isDepleted) {
return amounts.withdrawn;
} else if (_streams[streamId].wasCanceled) {
return amounts.deposited - amounts.refunded;
}
return _calculateStreamedAmount(streamId);
}
/// @dev See the documentation for the user-facing functions that call this internal function.
function _withdrawableAmountOf(uint256 streamId) internal view returns (uint128) {
return _streamedAmountOf(streamId) - _streams[streamId].amounts.withdrawn;
}
/*//////////////////////////////////////////////////////////////////////////
INTERNAL NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @dev See the documentation for the user-facing functions that call this internal function.
function _cancel(uint256 streamId) internal {
// Calculate the streamed amount.
uint128 streamedAmount = _calculateStreamedAmount(streamId);
// Retrieve the amounts from storage.
Lockup.Amounts memory amounts = _streams[streamId].amounts;
// Check: the stream is not settled.
if (streamedAmount >= amounts.deposited) {
revert Errors.SablierV2Lockup_StreamSettled(streamId);
}
// Check: the stream is cancelable.
if (!_streams[streamId].isCancelable) {
revert Errors.SablierV2Lockup_StreamNotCancelable(streamId);
}
// Calculate the sender's amount.
uint128 senderAmount;
unchecked {
senderAmount = amounts.deposited - streamedAmount;
}
// Calculate the recipient's amount.
uint128 recipientAmount = streamedAmount - amounts.withdrawn;
// Effect: mark the stream as canceled.
_streams[streamId].wasCanceled = true;
// Effect: make the stream not cancelable anymore, because a stream can only be canceled once.
_streams[streamId].isCancelable = false;
// Effect: if there are no assets left for the recipient to withdraw, mark the stream as depleted.
if (recipientAmount == 0) {
_streams[streamId].isDepleted = true;
}
// Effect: set the refunded amount.
_streams[streamId].amounts.refunded = senderAmount;
// Retrieve the sender and the recipient from storage.
address sender = _streams[streamId].sender;
address recipient = _ownerOf(streamId);
// Retrieve the ERC-20 asset from storage.
IERC20 asset = _streams[streamId].asset;
// Interaction: refund the sender.
asset.safeTransfer({ to: sender, value: senderAmount });
// Log the cancellation.
emit ISablierV2Lockup.CancelLockupStream(streamId, sender, recipient, asset, senderAmount, recipientAmount);
// Emit an ERC-4906 event to trigger an update of the NFT metadata.
emit MetadataUpdate({ _tokenId: streamId });
// Interaction: if the recipient is on the allowlist, run the hook.
if (_allowedToHook[recipient]) {
bytes4 selector = ISablierLockupRecipient(recipient).onSablierLockupCancel({
streamId: streamId,
sender: sender,
senderAmount: senderAmount,
recipientAmount: recipientAmount
});
// Check: the recipient's hook returned the correct selector.
if (selector != ISablierLockupRecipient.onSablierLockupCancel.selector) {
revert Errors.SablierV2Lockup_InvalidHookSelector(recipient);
}
}
}
/// @dev See the documentation for the user-facing functions that call this internal function.
function _renounce(uint256 streamId) internal {
// Check: the stream is cancelable.
if (!_streams[streamId].isCancelable) {
revert Errors.SablierV2Lockup_StreamNotCancelable(streamId);
}
// Effect: renounce the stream by making it not cancelable.
_streams[streamId].isCancelable = false;
}
/// @notice Overrides the {ERC-721._update} function to check that the stream is transferable, and emits an
/// ERC-4906 event.
/// @dev There are two cases when the transferable flag is ignored:
/// - If the current owner is 0, then the update is a mint and is allowed.
/// - If `to` is 0, then the update is a burn and is also allowed.
/// @param to The address of the new recipient of the stream.
/// @param streamId ID of the stream to update.
/// @param auth Optional parameter. If the value is not zero, the overridden implementation will check that
/// `auth` is either the recipient of the stream, or an approved third party.
/// @return The original recipient of the `streamId` before the update.
function _update(address to, uint256 streamId, address auth) internal override returns (address) {
address from = _ownerOf(streamId);
if (from != address(0) && to != address(0) && !_streams[streamId].isTransferable) {
revert Errors.SablierV2Lockup_NotTransferable(streamId);
}
// Emit an ERC-4906 event to trigger an update of the NFT metadata.
emit MetadataUpdate({ _tokenId: streamId });
return super._update(to, streamId, auth);
}
/// @dev See the documentation for the user-facing functions that call this internal function.
function _withdraw(uint256 streamId, address to, uint128 amount) internal {
// Effect: update the withdrawn amount.
_streams[streamId].amounts.withdrawn = _streams[streamId].amounts.withdrawn + amount;
// Retrieve the amounts from storage.
Lockup.Amounts memory amounts = _streams[streamId].amounts;
// Using ">=" instead of "==" for additional safety reasons. In the event of an unforeseen increase in the
// withdrawn amount, the stream will still be marked as depleted.
if (amounts.withdrawn >= amounts.deposited - amounts.refunded) {
// Effect: mark the stream as depleted.
_streams[streamId].isDepleted = true;
// Effect: make the stream not cancelable anymore, because a depleted stream cannot be canceled.
_streams[streamId].isCancelable = false;
}
// Retrieve the ERC-20 asset from storage.
IERC20 asset = _streams[streamId].asset;
// Interaction: perform the ERC-20 transfer.
asset.safeTransfer({ to: to, value: amount });
// Log the withdrawal.
emit ISablierV2Lockup.WithdrawFromLockupStream(streamId, to, asset, amount);
}
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import { Lockup, LockupTranched } from "../types/DataTypes.sol";
import { ISablierV2Lockup } from "./ISablierV2Lockup.sol";
/// @title ISablierV2LockupTranched
/// @notice Creates and manages Lockup streams with a tranched distribution function.
interface ISablierV2LockupTranched is ISablierV2Lockup {
/*//////////////////////////////////////////////////////////////////////////
EVENTS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Emitted when a stream is created.
/// @param streamId The ID of the newly created stream.
/// @param funder The address which has funded the stream.
/// @param sender The address distributing the assets, which will have the ability to cancel the stream.
/// @param recipient The address toward which to stream the assets.
/// @param amounts Struct encapsulating (i) the deposit amount, and (ii) the broker fee amount, both denoted
/// in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Boolean indicating whether the stream will be cancelable or not.
/// @param transferable Boolean indicating whether the stream NFT is transferable or not.
/// @param tranches The tranches the protocol uses to compose the tranched distribution function.
/// @param timestamps Struct encapsulating (i) the stream's start time and (ii) end time, both as Unix timestamps.
/// @param broker The address of the broker who has helped create the stream, e.g. a front-end website.
event CreateLockupTranchedStream(
uint256 streamId,
address funder,
address indexed sender,
address indexed recipient,
Lockup.CreateAmounts amounts,
IERC20 indexed asset,
bool cancelable,
bool transferable,
LockupTranched.Tranche[] tranches,
LockupTranched.Timestamps timestamps,
address broker
);
/*//////////////////////////////////////////////////////////////////////////
CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Retrieves the full stream details.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
/// @return stream See the documentation in {DataTypes}.
function getStream(uint256 streamId) external view returns (LockupTranched.StreamLT memory stream);
/// @notice Retrieves the stream's start and end timestamps.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
/// @return timestamps See the documentation in {DataTypes}.
function getTimestamps(uint256 streamId) external view returns (LockupTranched.Timestamps memory timestamps);
/// @notice Retrieves the tranches used to compose the tranched distribution function.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getTranches(uint256 streamId) external view returns (LockupTranched.Tranche[] memory tranches);
/// @notice The maximum number of tranches allowed in a stream.
/// @dev This is initialized at construction time and cannot be changed later.
function MAX_TRANCHE_COUNT() external view returns (uint256);
/*//////////////////////////////////////////////////////////////////////////
NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Creates a stream by setting the start time to `block.timestamp`, and the end time to the sum of
/// `block.timestamp` and all specified time durations. The tranche timestamps are derived from these
/// durations. The stream is funded by `msg.sender` and is wrapped in an ERC-721 NFT.
///
/// @dev Emits a {Transfer} and {CreateLockupTrancheStream} event.
///
/// Requirements:
/// - All requirements in {createWithTimestamps} must be met for the calculated parameters.
///
/// @param params Struct encapsulating the function parameters, which are documented in {DataTypes}.
/// @return streamId The ID of the newly created stream.
function createWithDurations(LockupTranched.CreateWithDurations calldata params)
external
returns (uint256 streamId);
/// @notice Creates a stream with the provided tranche timestamps, implying the end time from the last timestamp.
/// The stream is funded by `msg.sender` and is wrapped in an ERC-721 NFT.
///
/// @dev Emits a {Transfer} and {CreateLockupTrancheStream} event.
///
/// Notes:
/// - As long as the tranche timestamps are arranged in ascending order, it is not an error for some
/// of them to be in the past.
///
/// Requirements:
/// - Must not be delegate called.
/// - `params.totalAmount` must be greater than zero.
/// - If set, `params.broker.fee` must not be greater than `MAX_BROKER_FEE`.
/// - `params.startTime` must be greater than zero and less than the first tranche's timestamp.
/// - `params.tranches` must have at least one tranche, but not more than `MAX_TRANCHE_COUNT`.
/// - The tranche timestamps must be arranged in ascending order.
/// - The last tranche timestamp (i.e. the stream's end time) must be in the future.
/// - The sum of the tranche amounts must equal the deposit amount.
/// - `params.recipient` must not be the zero address.
/// - `msg.sender` must have allowed this contract to spend at least `params.totalAmount` assets.
///
/// @param params Struct encapsulating the function parameters, which are documented in {DataTypes}.
/// @return streamId The ID of the newly created stream.
function createWithTimestamps(LockupTranched.CreateWithTimestamps calldata params)
external
returns (uint256 streamId);
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IERC721Metadata } from "@openzeppelin/contracts/token/ERC721/extensions/IERC721Metadata.sol";
/// @title ISablierV2NFTDescriptor
/// @notice This contract generates the URI describing the Sablier V2 stream NFTs.
/// @dev Inspired by Uniswap V3 Positions NFTs.
interface ISablierV2NFTDescriptor {
/// @notice Produces the URI describing a particular stream NFT.
/// @dev This is a data URI with the JSON contents directly inlined.
/// @param sablier The address of the Sablier contract the stream was created in.
/// @param streamId The ID of the stream for which to produce a description.
/// @return uri The URI of the ERC721-compliant metadata.
function tokenURI(IERC721Metadata sablier, uint256 streamId) external view returns (string memory uri);
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.8.22;
import { UD60x18, ud } from "@prb/math/src/UD60x18.sol";
import { Lockup, LockupDynamic, LockupLinear, LockupTranched } from "../types/DataTypes.sol";
import { Errors } from "./Errors.sol";
/// @title Helpers
/// @notice Library with helper functions needed across the Sablier V2 contracts.
library Helpers {
/*//////////////////////////////////////////////////////////////////////////
INTERNAL CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @dev Calculate the timestamps and return the segments.
function calculateSegmentTimestamps(LockupDynamic.SegmentWithDuration[] memory segments)
internal
view
returns (LockupDynamic.Segment[] memory segmentsWithTimestamps)
{
uint256 segmentCount = segments.length;
segmentsWithTimestamps = new LockupDynamic.Segment[](segmentCount);
// Make the block timestamp the stream's start time.
uint40 startTime = uint40(block.timestamp);
// It is safe to use unchecked arithmetic because {SablierV2LockupDynamic-_create} will nonetheless check the
// correctness of the calculated segment timestamps.
unchecked {
// The first segment is precomputed because it is needed in the for loop below.
segmentsWithTimestamps[0] = LockupDynamic.Segment({
amount: segments[0].amount,
exponent: segments[0].exponent,
timestamp: startTime + segments[0].duration
});
// Copy the segment amounts and exponents, and calculate the segment timestamps.
for (uint256 i = 1; i < segmentCount; ++i) {
segmentsWithTimestamps[i] = LockupDynamic.Segment({
amount: segments[i].amount,
exponent: segments[i].exponent,
timestamp: segmentsWithTimestamps[i - 1].timestamp + segments[i].duration
});
}
}
}
/// @dev Calculate the timestamps and return the tranches.
function calculateTrancheTimestamps(LockupTranched.TrancheWithDuration[] memory tranches)
internal
view
returns (LockupTranched.Tranche[] memory tranchesWithTimestamps)
{
uint256 trancheCount = tranches.length;
tranchesWithTimestamps = new LockupTranched.Tranche[](trancheCount);
// Make the block timestamp the stream's start time.
uint40 startTime = uint40(block.timestamp);
// It is safe to use unchecked arithmetic because {SablierV2LockupTranched-_create} will nonetheless check the
// correctness of the calculated tranche timestamps.
unchecked {
// The first tranche is precomputed because it is needed in the for loop below.
tranchesWithTimestamps[0] =
LockupTranched.Tranche({ amount: tranches[0].amount, timestamp: startTime + tranches[0].duration });
// Copy the tranche amounts and calculate the tranche timestamps.
for (uint256 i = 1; i < trancheCount; ++i) {
tranchesWithTimestamps[i] = LockupTranched.Tranche({
amount: tranches[i].amount,
timestamp: tranchesWithTimestamps[i - 1].timestamp + tranches[i].duration
});
}
}
}
/// @dev Checks the broker fee is not greater than `maxBrokerFee`, and then calculates the broker fee amount and the
/// deposit amount from the total amount.
function checkAndCalculateBrokerFee(
uint128 totalAmount,
UD60x18 brokerFee,
UD60x18 maxBrokerFee
)
internal
pure
returns (Lockup.CreateAmounts memory amounts)
{
// When the total amount is zero, the broker fee is also zero.
if (totalAmount == 0) {
return Lockup.CreateAmounts(0, 0);
}
// Check: the broker fee is not greater than `maxBrokerFee`.
if (brokerFee.gt(maxBrokerFee)) {
revert Errors.SablierV2Lockup_BrokerFeeTooHigh(brokerFee, maxBrokerFee);
}
// Calculate the broker fee amount.
// The cast to uint128 is safe because the maximum fee is hard coded.
amounts.brokerFee = uint128(ud(totalAmount).mul(brokerFee).intoUint256());
// Assert that the total amount is strictly greater than the broker fee amount.
assert(totalAmount > amounts.brokerFee);
// Calculate the deposit amount (the amount to stream, net of the broker fee).
amounts.deposit = totalAmount - amounts.brokerFee;
}
/// @dev Checks the parameters of the {SablierV2LockupDynamic-_create} function.
function checkCreateLockupDynamic(
uint128 depositAmount,
LockupDynamic.Segment[] memory segments,
uint256 maxSegmentCount,
uint40 startTime
)
internal
view
{
// Check: the deposit amount is not zero.
if (depositAmount == 0) {
revert Errors.SablierV2Lockup_DepositAmountZero();
}
// Check: the start time is not zero.
if (startTime == 0) {
revert Errors.SablierV2Lockup_StartTimeZero();
}
// Check: the segment count is not zero.
uint256 segmentCount = segments.length;
if (segmentCount == 0) {
revert Errors.SablierV2LockupDynamic_SegmentCountZero();
}
// Check: the segment count is not greater than the maximum allowed.
if (segmentCount > maxSegmentCount) {
revert Errors.SablierV2LockupDynamic_SegmentCountTooHigh(segmentCount);
}
// Check: requirements of segments.
_checkSegments(segments, depositAmount, startTime);
}
/// @dev Checks the parameters of the {SablierV2LockupLinear-_create} function.
function checkCreateLockupLinear(uint128 depositAmount, LockupLinear.Timestamps memory timestamps) internal view {
// Check: the deposit amount is not zero.
if (depositAmount == 0) {
revert Errors.SablierV2Lockup_DepositAmountZero();
}
// Check: the start time is not zero.
if (timestamps.start == 0) {
revert Errors.SablierV2Lockup_StartTimeZero();
}
// Since a cliff time of zero means there is no cliff, the following checks are performed only if it's not zero.
if (timestamps.cliff > 0) {
// Check: the start time is strictly less than the cliff time.
if (timestamps.start >= timestamps.cliff) {
revert Errors.SablierV2LockupLinear_StartTimeNotLessThanCliffTime(timestamps.start, timestamps.cliff);
}
// Check: the cliff time is strictly less than the end time.
if (timestamps.cliff >= timestamps.end) {
revert Errors.SablierV2LockupLinear_CliffTimeNotLessThanEndTime(timestamps.cliff, timestamps.end);
}
}
// Check: the start time is strictly less than the end time.
if (timestamps.start >= timestamps.end) {
revert Errors.SablierV2LockupLinear_StartTimeNotLessThanEndTime(timestamps.start, timestamps.end);
}
// Check: the end time is in the future.
uint40 blockTimestamp = uint40(block.timestamp);
if (blockTimestamp >= timestamps.end) {
revert Errors.SablierV2Lockup_EndTimeNotInTheFuture(blockTimestamp, timestamps.end);
}
}
/// @dev Checks the parameters of the {SablierV2LockupTranched-_create} function.
function checkCreateLockupTranched(
uint128 depositAmount,
LockupTranched.Tranche[] memory tranches,
uint256 maxTrancheCount,
uint40 startTime
)
internal
view
{
// Check: the deposit amount is not zero.
if (depositAmount == 0) {
revert Errors.SablierV2Lockup_DepositAmountZero();
}
// Check: the start time is not zero.
if (startTime == 0) {
revert Errors.SablierV2Lockup_StartTimeZero();
}
// Check: the tranche count is not zero.
uint256 trancheCount = tranches.length;
if (trancheCount == 0) {
revert Errors.SablierV2LockupTranched_TrancheCountZero();
}
// Check: the tranche count is not greater than the maximum allowed.
if (trancheCount > maxTrancheCount) {
revert Errors.SablierV2LockupTranched_TrancheCountTooHigh(trancheCount);
}
// Check: requirements of tranches.
_checkTranches(tranches, depositAmount, startTime);
}
/*//////////////////////////////////////////////////////////////////////////
PRIVATE CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @dev Checks that:
///
/// 1. The first timestamp is strictly greater than the start time.
/// 2. The timestamps are ordered chronologically.
/// 3. There are no duplicate timestamps.
/// 4. The deposit amount is equal to the sum of all segment amounts.
function _checkSegments(
LockupDynamic.Segment[] memory segments,
uint128 depositAmount,
uint40 startTime
)
private
view
{
// Check: the start time is strictly less than the first segment timestamp.
if (startTime >= segments[0].timestamp) {
revert Errors.SablierV2LockupDynamic_StartTimeNotLessThanFirstSegmentTimestamp(
startTime, segments[0].timestamp
);
}
// Pre-declare the variables needed in the for loop.
uint128 segmentAmountsSum;
uint40 currentSegmentTimestamp;
uint40 previousSegmentTimestamp;
// Iterate over the segments to:
//
// 1. Calculate the sum of all segment amounts.
// 2. Check that the timestamps are ordered.
uint256 count = segments.length;
for (uint256 index = 0; index < count; ++index) {
// Add the current segment amount to the sum.
segmentAmountsSum += segments[index].amount;
// Check: the current timestamp is strictly greater than the previous timestamp.
currentSegmentTimestamp = segments[index].timestamp;
if (currentSegmentTimestamp <= previousSegmentTimestamp) {
revert Errors.SablierV2LockupDynamic_SegmentTimestampsNotOrdered(
index, previousSegmentTimestamp, currentSegmentTimestamp
);
}
// Make the current timestamp the previous timestamp of the next loop iteration.
previousSegmentTimestamp = currentSegmentTimestamp;
}
// Check: the last timestamp is in the future.
// When the loop exits, the current segment's timestamp is the last segment's timestamp, i.e. the stream's end
// time. The variable is not renamed for gas efficiency purposes.
uint40 blockTimestamp = uint40(block.timestamp);
if (blockTimestamp >= currentSegmentTimestamp) {
revert Errors.SablierV2Lockup_EndTimeNotInTheFuture(blockTimestamp, currentSegmentTimestamp);
}
// Check: the deposit amount is equal to the segment amounts sum.
if (depositAmount != segmentAmountsSum) {
revert Errors.SablierV2LockupDynamic_DepositAmountNotEqualToSegmentAmountsSum(
depositAmount, segmentAmountsSum
);
}
}
/// @dev Checks that:
///
/// 1. The first timestamp is strictly greater than the start time.
/// 2. The timestamps are ordered chronologically.
/// 3. There are no duplicate timestamps.
/// 4. The deposit amount is equal to the sum of all tranche amounts.
function _checkTranches(
LockupTranched.Tranche[] memory tranches,
uint128 depositAmount,
uint40 startTime
)
private
view
{
// Check: the start time is strictly less than the first tranche timestamp.
if (startTime >= tranches[0].timestamp) {
revert Errors.SablierV2LockupTranched_StartTimeNotLessThanFirstTrancheTimestamp(
startTime, tranches[0].timestamp
);
}
// Pre-declare the variables needed in the for loop.
uint128 trancheAmountsSum;
uint40 currentTrancheTimestamp;
uint40 previousTrancheTimestamp;
// Iterate over the tranches to:
//
// 1. Calculate the sum of all tranche amounts.
// 2. Check that the timestamps are ordered.
uint256 count = tranches.length;
for (uint256 index = 0; index < count; ++index) {
// Add the current tranche amount to the sum.
trancheAmountsSum += tranches[index].amount;
// Check: the current timestamp is strictly greater than the previous timestamp.
currentTrancheTimestamp = tranches[index].timestamp;
if (currentTrancheTimestamp <= previousTrancheTimestamp) {
revert Errors.SablierV2LockupTranched_TrancheTimestampsNotOrdered(
index, previousTrancheTimestamp, currentTrancheTimestamp
);
}
// Make the current timestamp the previous timestamp of the next loop iteration.
previousTrancheTimestamp = currentTrancheTimestamp;
}
// Check: the last timestamp is in the future.
// When the loop exits, the current tranche's timestamp is the last tranche's timestamp, i.e. the stream's end
// time. The variable is not renamed for gas efficiency purposes.
uint40 blockTimestamp = uint40(block.timestamp);
if (blockTimestamp >= currentTrancheTimestamp) {
revert Errors.SablierV2Lockup_EndTimeNotInTheFuture(blockTimestamp, currentTrancheTimestamp);
}
// Check: the deposit amount is equal to the tranche amounts sum.
if (depositAmount != trancheAmountsSum) {
revert Errors.SablierV2LockupTranched_DepositAmountNotEqualToTrancheAmountsSum(
depositAmount, trancheAmountsSum
);
}
}
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import { UD2x18 } from "@prb/math/src/UD2x18.sol";
import { UD60x18 } from "@prb/math/src/UD60x18.sol";
// DataTypes.sol
//
// This file defines all structs used in V2 Core, most of which are organized under three namespaces:
//
// - Lockup
// - LockupDynamic
// - LockupLinear
// - LockupTranched
//
// You will notice that some structs contain "slot" annotations - they are used to indicate the
// storage layout of the struct. It is more gas efficient to group small data types together so
// that they fit in a single 32-byte slot.
/// @notice Struct encapsulating the broker parameters passed to the create functions. Both can be set to zero.
/// @param account The address receiving the broker's fee.
/// @param fee The broker's percentage fee from the total amount, denoted as a fixed-point number where 1e18 is 100%.
struct Broker {
address account;
UD60x18 fee;
}
/// @notice Namespace for the structs used in both {SablierV2LockupLinear} and {SablierV2LockupDynamic}.
library Lockup {
/// @notice Struct encapsulating the deposit, withdrawn, and refunded amounts, all denoted in units of the asset's
/// decimals.
/// @dev Because the deposited and the withdrawn amount are often read together, declaring them in the same slot
/// saves gas.
/// @param deposited The initial amount deposited in the stream, net of broker fee.
/// @param withdrawn The cumulative amount withdrawn from the stream.
/// @param refunded The amount refunded to the sender. Unless the stream was canceled, this is always zero.
struct Amounts {
// slot 0
uint128 deposited;
uint128 withdrawn;
// slot 1
uint128 refunded;
}
/// @notice Struct encapsulating (i) the deposit amount and (ii) the broker fee amount, both denoted in units of the
/// asset's decimals.
/// @param deposit The amount to deposit in the stream.
/// @param brokerFee The broker fee amount.
struct CreateAmounts {
uint128 deposit;
uint128 brokerFee;
}
/// @notice Enum representing the different statuses of a stream.
/// @custom:value0 PENDING Stream created but not started; assets are in a pending state.
/// @custom:value1 STREAMING Active stream where assets are currently being streamed.
/// @custom:value2 SETTLED All assets have been streamed; recipient is due to withdraw them.
/// @custom:value3 CANCELED Canceled stream; remaining assets await recipient's withdrawal.
/// @custom:value4 DEPLETED Depleted stream; all assets have been withdrawn and/or refunded.
enum Status {
PENDING,
STREAMING,
SETTLED,
CANCELED,
DEPLETED
}
/// @notice A common data structure to be stored in all {SablierV2Lockup} models.
/// @dev The fields are arranged like this to save gas via tight variable packing.
/// @param sender The address distributing the assets, with the ability to cancel the stream.
/// @param startTime The Unix timestamp indicating the stream's start.
/// @param endTime The Unix timestamp indicating the stream's end.
/// @param isCancelable Boolean indicating if the stream is cancelable.
/// @param wasCanceled Boolean indicating if the stream was canceled.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param isDepleted Boolean indicating if the stream is depleted.
/// @param isStream Boolean indicating if the struct entity exists.
/// @param isTransferable Boolean indicating if the stream NFT is transferable.
/// @param amounts Struct encapsulating the deposit, withdrawn, and refunded amounts, all denoted in units of the
/// asset's decimals.
struct Stream {
// slot 0
address sender;
uint40 startTime;
uint40 endTime;
bool isCancelable;
bool wasCanceled;
// slot 1
IERC20 asset;
bool isDepleted;
bool isStream;
bool isTransferable;
// slot 2 and 3
Lockup.Amounts amounts;
}
}
/// @notice Namespace for the structs used in {SablierV2LockupDynamic}.
library LockupDynamic {
/// @notice Struct encapsulating the parameters of the {SablierV2LockupDynamic.createWithDurations} function.
/// @param sender The address distributing the assets, with the ability to cancel the stream. It doesn't have to be
/// the same as `msg.sender`.
/// @param recipient The address receiving the assets.
/// @param totalAmount The total amount of ERC-20 assets to be distributed, including the stream deposit and any
/// broker fee, denoted in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Indicates if the stream is cancelable.
/// @param transferable Indicates if the stream NFT is transferable.
/// @param segments Segments with durations used to compose the dynamic distribution function. Timestamps are
/// calculated by starting from `block.timestamp` and adding each duration to the previous timestamp.
/// @param broker Struct encapsulating (i) the address of the broker assisting in creating the stream, and (ii) the
/// percentage fee paid to the broker from `totalAmount`, denoted as a fixed-point number. Both can be set to zero.
struct CreateWithDurations {
address sender;
address recipient;
uint128 totalAmount;
IERC20 asset;
bool cancelable;
bool transferable;
SegmentWithDuration[] segments;
Broker broker;
}
/// @notice Struct encapsulating the parameters of the {SablierV2LockupDynamic.createWithTimestamps} function.
/// @param sender The address distributing the assets, with the ability to cancel the stream. It doesn't have to be
/// the same as `msg.sender`.
/// @param recipient The address receiving the assets.
/// @param totalAmount The total amount of ERC-20 assets to be distributed, including the stream deposit and any
/// broker fee, denoted in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Indicates if the stream is cancelable.
/// @param transferable Indicates if the stream NFT is transferable.
/// @param startTime The Unix timestamp indicating the stream's start.
/// @param segments Segments used to compose the dynamic distribution function.
/// @param broker Struct encapsulating (i) the address of the broker assisting in creating the stream, and (ii) the
/// percentage fee paid to the broker from `totalAmount`, denoted as a fixed-point number. Both can be set to zero.
struct CreateWithTimestamps {
address sender;
address recipient;
uint128 totalAmount;
IERC20 asset;
bool cancelable;
bool transferable;
uint40 startTime;
Segment[] segments;
Broker broker;
}
/// @notice Segment struct used in the Lockup Dynamic stream.
/// @param amount The amount of assets to be streamed in the segment, denoted in units of the asset's decimals.
/// @param exponent The exponent of the segment, denoted as a fixed-point number.
/// @param timestamp The Unix timestamp indicating the segment's end.
struct Segment {
// slot 0
uint128 amount;
UD2x18 exponent;
uint40 timestamp;
}
/// @notice Segment struct used at runtime in {SablierV2LockupDynamic.createWithDurations}.
/// @param amount The amount of assets to be streamed in the segment, denoted in units of the asset's decimals.
/// @param exponent The exponent of the segment, denoted as a fixed-point number.
/// @param duration The time difference in seconds between the segment and the previous one.
struct SegmentWithDuration {
uint128 amount;
UD2x18 exponent;
uint40 duration;
}
/// @notice Struct encapsulating the full details of a stream.
/// @dev Extends `Lockup.Stream` by including the recipient and the segments.
struct StreamLD {
address sender;
address recipient;
uint40 startTime;
uint40 endTime;
bool isCancelable;
bool wasCanceled;
IERC20 asset;
bool isDepleted;
bool isStream;
bool isTransferable;
Lockup.Amounts amounts;
Segment[] segments;
}
/// @notice Struct encapsulating the LockupDynamic timestamps.
/// @param start The Unix timestamp indicating the stream's start.
/// @param end The Unix timestamp indicating the stream's end.
struct Timestamps {
uint40 start;
uint40 end;
}
}
/// @notice Namespace for the structs used in {SablierV2LockupLinear}.
library LockupLinear {
/// @notice Struct encapsulating the parameters of the {SablierV2LockupLinear.createWithDurations} function.
/// @param sender The address distributing the assets, with the ability to cancel the stream. It doesn't have to be
/// the same as `msg.sender`.
/// @param recipient The address receiving the assets.
/// @param totalAmount The total amount of ERC-20 assets to be distributed, including the stream deposit and any
/// broker fee, denoted in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Indicates if the stream is cancelable.
/// @param transferable Indicates if the stream NFT is transferable.
/// @param durations Struct encapsulating (i) cliff period duration and (ii) total stream duration, both in seconds.
/// @param broker Struct encapsulating (i) the address of the broker assisting in creating the stream, and (ii) the
/// percentage fee paid to the broker from `totalAmount`, denoted as a fixed-point number. Both can be set to zero.
struct CreateWithDurations {
address sender;
address recipient;
uint128 totalAmount;
IERC20 asset;
bool cancelable;
bool transferable;
Durations durations;
Broker broker;
}
/// @notice Struct encapsulating the parameters of the {SablierV2LockupLinear.createWithTimestamps} function.
/// @param sender The address distributing the assets, with the ability to cancel the stream. It doesn't have to be
/// the same as `msg.sender`.
/// @param recipient The address receiving the assets.
/// @param totalAmount The total amount of ERC-20 assets to be distributed, including the stream deposit and any
/// broker fee, denoted in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Indicates if the stream is cancelable.
/// @param transferable Indicates if the stream NFT is transferable.
/// @param timestamps Struct encapsulating (i) the stream's start time, (ii) cliff time, and (iii) end time, all as
/// Unix timestamps.
/// @param broker Struct encapsulating (i) the address of the broker assisting in creating the stream, and (ii) the
/// percentage fee paid to the broker from `totalAmount`, denoted as a fixed-point number. Both can be set to zero.
struct CreateWithTimestamps {
address sender;
address recipient;
uint128 totalAmount;
IERC20 asset;
bool cancelable;
bool transferable;
Timestamps timestamps;
Broker broker;
}
/// @notice Struct encapsulating the cliff duration and the total duration.
/// @param cliff The cliff duration in seconds.
/// @param total The total duration in seconds.
struct Durations {
uint40 cliff;
uint40 total;
}
/// @notice Struct encapsulating the full details of a stream.
/// @dev Extends `Lockup.Stream` by including the recipient and the cliff time.
struct StreamLL {
address sender;
address recipient;
uint40 startTime;
bool isCancelable;
bool wasCanceled;
IERC20 asset;
uint40 endTime;
bool isDepleted;
bool isStream;
bool isTransferable;
Lockup.Amounts amounts;
uint40 cliffTime;
}
/// @notice Struct encapsulating the LockupLinear timestamps.
/// @param start The Unix timestamp for the stream's start.
/// @param cliff The Unix timestamp for the cliff period's end. A value of zero means there is no cliff.
/// @param end The Unix timestamp for the stream's end.
struct Timestamps {
uint40 start;
uint40 cliff;
uint40 end;
}
}
/// @notice Namespace for the structs used in {SablierV2LockupTranched}.
library LockupTranched {
/// @notice Struct encapsulating the parameters of the {SablierV2LockupTranched.createWithDurations} function.
/// @param sender The address distributing the assets, with the ability to cancel the stream. It doesn't have to be
/// the same as `msg.sender`.
/// @param recipient The address receiving the assets.
/// @param totalAmount The total amount of ERC-20 assets to be distributed, including the stream deposit and any
/// broker fee, denoted in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Indicates if the stream is cancelable.
/// @param transferable Indicates if the stream NFT is transferable.
/// @param tranches Tranches with durations used to compose the tranched distribution function. Timestamps are
/// calculated by starting from `block.timestamp` and adding each duration to the previous timestamp.
/// @param broker Struct encapsulating (i) the address of the broker assisting in creating the stream, and (ii) the
/// percentage fee paid to the broker from `totalAmount`, denoted as a fixed-point number. Both can be set to zero.
struct CreateWithDurations {
address sender;
address recipient;
uint128 totalAmount;
IERC20 asset;
bool cancelable;
bool transferable;
TrancheWithDuration[] tranches;
Broker broker;
}
/// @notice Struct encapsulating the parameters of the {SablierV2LockupTranched.createWithTimestamps} function.
/// @param sender The address distributing the assets, with the ability to cancel the stream. It doesn't have to be
/// the same as `msg.sender`.
/// @param recipient The address receiving the assets.
/// @param totalAmount The total amount of ERC-20 assets to be distributed, including the stream deposit and any
/// broker fee, denoted in units of the asset's decimals.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param cancelable Indicates if the stream is cancelable.
/// @param transferable Indicates if the stream NFT is transferable.
/// @param startTime The Unix timestamp indicating the stream's start.
/// @param tranches Tranches used to compose the tranched distribution function.
/// @param broker Struct encapsulating (i) the address of the broker assisting in creating the stream, and (ii) the
/// percentage fee paid to the broker from `totalAmount`, denoted as a fixed-point number. Both can be set to zero.
struct CreateWithTimestamps {
address sender;
address recipient;
uint128 totalAmount;
IERC20 asset;
bool cancelable;
bool transferable;
uint40 startTime;
Tranche[] tranches;
Broker broker;
}
/// @notice Struct encapsulating the full details of a stream.
/// @dev Extends `Lockup.Stream` by including the recipient and the tranches.
struct StreamLT {
address sender;
address recipient;
uint40 startTime;
uint40 endTime;
bool isCancelable;
bool wasCanceled;
IERC20 asset;
bool isDepleted;
bool isStream;
bool isTransferable;
Lockup.Amounts amounts;
Tranche[] tranches;
}
/// @notice Struct encapsulating the LockupTranched timestamps.
/// @param start The Unix timestamp indicating the stream's start.
/// @param end The Unix timestamp indicating the stream's end.
struct Timestamps {
uint40 start;
uint40 end;
}
/// @notice Tranche struct used in the Lockup Tranched stream.
/// @param amount The amount of assets to be unlocked in the tranche, denoted in units of the asset's decimals.
/// @param timestamp The Unix timestamp indicating the tranche's end.
struct Tranche {
// slot 0
uint128 amount;
uint40 timestamp;
}
/// @notice Tranche struct used at runtime in {SablierV2LockupTranched.createWithDurations}.
/// @param amount The amount of assets to be unlocked in the tranche, denoted in units of the asset's decimals.
/// @param duration The time difference in seconds between the tranche and the previous one.
struct TrancheWithDuration {
uint128 amount;
uint40 duration;
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC20/extensions/IERC20Permit.sol)
pragma solidity ^0.8.20;
/**
* @dev Interface of the ERC20 Permit extension allowing approvals to be made via signatures, as defined in
* https://eips.ethereum.org/EIPS/eip-2612[EIP-2612].
*
* Adds the {permit} method, which can be used to change an account's ERC20 allowance (see {IERC20-allowance}) by
* presenting a message signed by the account. By not relying on {IERC20-approve}, the token holder account doesn't
* need to send a transaction, and thus is not required to hold Ether at all.
*
* ==== Security Considerations
*
* There are two important considerations concerning the use of `permit`. The first is that a valid permit signature
* expresses an allowance, and it should not be assumed to convey additional meaning. In particular, it should not be
* considered as an intention to spend the allowance in any specific way. The second is that because permits have
* built-in replay protection and can be submitted by anyone, they can be frontrun. A protocol that uses permits should
* take this into consideration and allow a `permit` call to fail. Combining these two aspects, a pattern that may be
* generally recommended is:
*
* ```solidity
* function doThingWithPermit(..., uint256 value, uint256 deadline, uint8 v, bytes32 r, bytes32 s) public {
* try token.permit(msg.sender, address(this), value, deadline, v, r, s) {} catch {}
* doThing(..., value);
* }
*
* function doThing(..., uint256 value) public {
* token.safeTransferFrom(msg.sender, address(this), value);
* ...
* }
* ```
*
* Observe that: 1) `msg.sender` is used as the owner, leaving no ambiguity as to the signer intent, and 2) the use of
* `try/catch` allows the permit to fail and makes the code tolerant to frontrunning. (See also
* {SafeERC20-safeTransferFrom}).
*
* Additionally, note that smart contract wallets (such as Argent or Safe) are not able to produce permit signatures, so
* contracts should have entry points that don't rely on permit.
*/
interface IERC20Permit {
/**
* @dev Sets `value` as the allowance of `spender` over ``owner``'s tokens,
* given ``owner``'s signed approval.
*
* IMPORTANT: The same issues {IERC20-approve} has related to transaction
* ordering also apply here.
*
* Emits an {Approval} event.
*
* Requirements:
*
* - `spender` cannot be the zero address.
* - `deadline` must be a timestamp in the future.
* - `v`, `r` and `s` must be a valid `secp256k1` signature from `owner`
* over the EIP712-formatted function arguments.
* - the signature must use ``owner``'s current nonce (see {nonces}).
*
* For more information on the signature format, see the
* https://eips.ethereum.org/EIPS/eip-2612#specification[relevant EIP
* section].
*
* CAUTION: See Security Considerations above.
*/
function permit(
address owner,
address spender,
uint256 value,
uint256 deadline,
uint8 v,
bytes32 r,
bytes32 s
) external;
/**
* @dev Returns the current nonce for `owner`. This value must be
* included whenever a signature is generated for {permit}.
*
* Every successful call to {permit} increases ``owner``'s nonce by one. This
* prevents a signature from being used multiple times.
*/
function nonces(address owner) external view returns (uint256);
/**
* @dev Returns the domain separator used in the encoding of the signature for {permit}, as defined by {EIP712}.
*/
// solhint-disable-next-line func-name-mixedcase
function DOMAIN_SEPARATOR() external view returns (bytes32);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (utils/Address.sol)
pragma solidity ^0.8.20;
/**
* @dev Collection of functions related to the address type
*/
library Address {
/**
* @dev The ETH balance of the account is not enough to perform the operation.
*/
error AddressInsufficientBalance(address account);
/**
* @dev There's no code at `target` (it is not a contract).
*/
error AddressEmptyCode(address target);
/**
* @dev A call to an address target failed. The target may have reverted.
*/
error FailedInnerCall();
/**
* @dev Replacement for Solidity's `transfer`: sends `amount` wei to
* `recipient`, forwarding all available gas and reverting on errors.
*
* https://eips.ethereum.org/EIPS/eip-1884[EIP1884] increases the gas cost
* of certain opcodes, possibly making contracts go over the 2300 gas limit
* imposed by `transfer`, making them unable to receive funds via
* `transfer`. {sendValue} removes this limitation.
*
* https://consensys.net/diligence/blog/2019/09/stop-using-soliditys-transfer-now/[Learn more].
*
* IMPORTANT: because control is transferred to `recipient`, care must be
* taken to not create reentrancy vulnerabilities. Consider using
* {ReentrancyGuard} or the
* https://solidity.readthedocs.io/en/v0.8.20/security-considerations.html#use-the-checks-effects-interactions-pattern[checks-effects-interactions pattern].
*/
function sendValue(address payable recipient, uint256 amount) internal {
if (address(this).balance < amount) {
revert AddressInsufficientBalance(address(this));
}
(bool success, ) = recipient.call{value: amount}("");
if (!success) {
revert FailedInnerCall();
}
}
/**
* @dev Performs a Solidity function call using a low level `call`. A
* plain `call` is an unsafe replacement for a function call: use this
* function instead.
*
* If `target` reverts with a revert reason or custom error, it is bubbled
* up by this function (like regular Solidity function calls). However, if
* the call reverted with no returned reason, this function reverts with a
* {FailedInnerCall} error.
*
* Returns the raw returned data. To convert to the expected return value,
* use https://solidity.readthedocs.io/en/latest/units-and-global-variables.html?highlight=abi.decode#abi-encoding-and-decoding-functions[`abi.decode`].
*
* Requirements:
*
* - `target` must be a contract.
* - calling `target` with `data` must not revert.
*/
function functionCall(address target, bytes memory data) internal returns (bytes memory) {
return functionCallWithValue(target, data, 0);
}
/**
* @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`],
* but also transferring `value` wei to `target`.
*
* Requirements:
*
* - the calling contract must have an ETH balance of at least `value`.
* - the called Solidity function must be `payable`.
*/
function functionCallWithValue(address target, bytes memory data, uint256 value) internal returns (bytes memory) {
if (address(this).balance < value) {
revert AddressInsufficientBalance(address(this));
}
(bool success, bytes memory returndata) = target.call{value: value}(data);
return verifyCallResultFromTarget(target, success, returndata);
}
/**
* @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`],
* but performing a static call.
*/
function functionStaticCall(address target, bytes memory data) internal view returns (bytes memory) {
(bool success, bytes memory returndata) = target.staticcall(data);
return verifyCallResultFromTarget(target, success, returndata);
}
/**
* @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`],
* but performing a delegate call.
*/
function functionDelegateCall(address target, bytes memory data) internal returns (bytes memory) {
(bool success, bytes memory returndata) = target.delegatecall(data);
return verifyCallResultFromTarget(target, success, returndata);
}
/**
* @dev Tool to verify that a low level call to smart-contract was successful, and reverts if the target
* was not a contract or bubbling up the revert reason (falling back to {FailedInnerCall}) in case of an
* unsuccessful call.
*/
function verifyCallResultFromTarget(
address target,
bool success,
bytes memory returndata
) internal view returns (bytes memory) {
if (!success) {
_revert(returndata);
} else {
// only check if target is a contract if the call was successful and the return data is empty
// otherwise we already know that it was a contract
if (returndata.length == 0 && target.code.length == 0) {
revert AddressEmptyCode(target);
}
return returndata;
}
}
/**
* @dev Tool to verify that a low level call was successful, and reverts if it wasn't, either by bubbling the
* revert reason or with a default {FailedInnerCall} error.
*/
function verifyCallResult(bool success, bytes memory returndata) internal pure returns (bytes memory) {
if (!success) {
_revert(returndata);
} else {
return returndata;
}
}
/**
* @dev Reverts with returndata if present. Otherwise reverts with {FailedInnerCall}.
*/
function _revert(bytes memory returndata) private pure {
// Look for revert reason and bubble it up if present
if (returndata.length > 0) {
// The easiest way to bubble the revert reason is using memory via assembly
/// @solidity memory-safe-assembly
assembly {
let returndata_size := mload(returndata)
revert(add(32, returndata), returndata_size)
}
} else {
revert FailedInnerCall();
}
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC721/IERC721.sol)
pragma solidity ^0.8.20;
import {IERC165} from "../../utils/introspection/IERC165.sol";
/**
* @dev Required interface of an ERC721 compliant contract.
*/
interface IERC721 is IERC165 {
/**
* @dev Emitted when `tokenId` token is transferred from `from` to `to`.
*/
event Transfer(address indexed from, address indexed to, uint256 indexed tokenId);
/**
* @dev Emitted when `owner` enables `approved` to manage the `tokenId` token.
*/
event Approval(address indexed owner, address indexed approved, uint256 indexed tokenId);
/**
* @dev Emitted when `owner` enables or disables (`approved`) `operator` to manage all of its assets.
*/
event ApprovalForAll(address indexed owner, address indexed operator, bool approved);
/**
* @dev Returns the number of tokens in ``owner``'s account.
*/
function balanceOf(address owner) external view returns (uint256 balance);
/**
* @dev Returns the owner of the `tokenId` token.
*
* Requirements:
*
* - `tokenId` must exist.
*/
function ownerOf(uint256 tokenId) external view returns (address owner);
/**
* @dev Safely transfers `tokenId` token from `from` to `to`.
*
* Requirements:
*
* - `from` cannot be the zero address.
* - `to` cannot be the zero address.
* - `tokenId` token must exist and be owned by `from`.
* - If the caller is not `from`, it must be approved to move this token by either {approve} or {setApprovalForAll}.
* - If `to` refers to a smart contract, it must implement {IERC721Receiver-onERC721Received}, which is called upon
* a safe transfer.
*
* Emits a {Transfer} event.
*/
function safeTransferFrom(address from, address to, uint256 tokenId, bytes calldata data) external;
/**
* @dev Safely transfers `tokenId` token from `from` to `to`, checking first that contract recipients
* are aware of the ERC721 protocol to prevent tokens from being forever locked.
*
* Requirements:
*
* - `from` cannot be the zero address.
* - `to` cannot be the zero address.
* - `tokenId` token must exist and be owned by `from`.
* - If the caller is not `from`, it must have been allowed to move this token by either {approve} or
* {setApprovalForAll}.
* - If `to` refers to a smart contract, it must implement {IERC721Receiver-onERC721Received}, which is called upon
* a safe transfer.
*
* Emits a {Transfer} event.
*/
function safeTransferFrom(address from, address to, uint256 tokenId) external;
/**
* @dev Transfers `tokenId` token from `from` to `to`.
*
* WARNING: Note that the caller is responsible to confirm that the recipient is capable of receiving ERC721
* or else they may be permanently lost. Usage of {safeTransferFrom} prevents loss, though the caller must
* understand this adds an external call which potentially creates a reentrancy vulnerability.
*
* Requirements:
*
* - `from` cannot be the zero address.
* - `to` cannot be the zero address.
* - `tokenId` token must be owned by `from`.
* - If the caller is not `from`, it must be approved to move this token by either {approve} or {setApprovalForAll}.
*
* Emits a {Transfer} event.
*/
function transferFrom(address from, address to, uint256 tokenId) external;
/**
* @dev Gives permission to `to` to transfer `tokenId` token to another account.
* The approval is cleared when the token is transferred.
*
* Only a single account can be approved at a time, so approving the zero address clears previous approvals.
*
* Requirements:
*
* - The caller must own the token or be an approved operator.
* - `tokenId` must exist.
*
* Emits an {Approval} event.
*/
function approve(address to, uint256 tokenId) external;
/**
* @dev Approve or remove `operator` as an operator for the caller.
* Operators can call {transferFrom} or {safeTransferFrom} for any token owned by the caller.
*
* Requirements:
*
* - The `operator` cannot be the address zero.
*
* Emits an {ApprovalForAll} event.
*/
function setApprovalForAll(address operator, bool approved) external;
/**
* @dev Returns the account approved for `tokenId` token.
*
* Requirements:
*
* - `tokenId` must exist.
*/
function getApproved(uint256 tokenId) external view returns (address operator);
/**
* @dev Returns if the `operator` is allowed to manage all of the assets of `owner`.
*
* See {setApprovalForAll}
*/
function isApprovedForAll(address owner, address operator) external view returns (bool);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC721/IERC721Receiver.sol)
pragma solidity ^0.8.20;
/**
* @title ERC721 token receiver interface
* @dev Interface for any contract that wants to support safeTransfers
* from ERC721 asset contracts.
*/
interface IERC721Receiver {
/**
* @dev Whenever an {IERC721} `tokenId` token is transferred to this contract via {IERC721-safeTransferFrom}
* by `operator` from `from`, this function is called.
*
* It must return its Solidity selector to confirm the token transfer.
* If any other value is returned or the interface is not implemented by the recipient, the transfer will be
* reverted.
*
* The selector can be obtained in Solidity with `IERC721Receiver.onERC721Received.selector`.
*/
function onERC721Received(
address operator,
address from,
uint256 tokenId,
bytes calldata data
) external returns (bytes4);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (token/ERC721/extensions/IERC721Metadata.sol)
pragma solidity ^0.8.20;
import {IERC721} from "../IERC721.sol";
/**
* @title ERC-721 Non-Fungible Token Standard, optional metadata extension
* @dev See https://eips.ethereum.org/EIPS/eip-721
*/
interface IERC721Metadata is IERC721 {
/**
* @dev Returns the token collection name.
*/
function name() external view returns (string memory);
/**
* @dev Returns the token collection symbol.
*/
function symbol() external view returns (string memory);
/**
* @dev Returns the Uniform Resource Identifier (URI) for `tokenId` token.
*/
function tokenURI(uint256 tokenId) external view returns (string memory);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.1) (utils/Context.sol)
pragma solidity ^0.8.20;
/**
* @dev Provides information about the current execution context, including the
* sender of the transaction and its data. While these are generally available
* via msg.sender and msg.data, they should not be accessed in such a direct
* manner, since when dealing with meta-transactions the account sending and
* paying for execution may not be the actual sender (as far as an application
* is concerned).
*
* This contract is only required for intermediate, library-like contracts.
*/
abstract contract Context {
function _msgSender() internal view virtual returns (address) {
return msg.sender;
}
function _msgData() internal view virtual returns (bytes calldata) {
return msg.data;
}
function _contextSuffixLength() internal view virtual returns (uint256) {
return 0;
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (utils/Strings.sol)
pragma solidity ^0.8.20;
import {Math} from "./math/Math.sol";
import {SignedMath} from "./math/SignedMath.sol";
/**
* @dev String operations.
*/
library Strings {
bytes16 private constant HEX_DIGITS = "0123456789abcdef";
uint8 private constant ADDRESS_LENGTH = 20;
/**
* @dev The `value` string doesn't fit in the specified `length`.
*/
error StringsInsufficientHexLength(uint256 value, uint256 length);
/**
* @dev Converts a `uint256` to its ASCII `string` decimal representation.
*/
function toString(uint256 value) internal pure returns (string memory) {
unchecked {
uint256 length = Math.log10(value) + 1;
string memory buffer = new string(length);
uint256 ptr;
/// @solidity memory-safe-assembly
assembly {
ptr := add(buffer, add(32, length))
}
while (true) {
ptr--;
/// @solidity memory-safe-assembly
assembly {
mstore8(ptr, byte(mod(value, 10), HEX_DIGITS))
}
value /= 10;
if (value == 0) break;
}
return buffer;
}
}
/**
* @dev Converts a `int256` to its ASCII `string` decimal representation.
*/
function toStringSigned(int256 value) internal pure returns (string memory) {
return string.concat(value < 0 ? "-" : "", toString(SignedMath.abs(value)));
}
/**
* @dev Converts a `uint256` to its ASCII `string` hexadecimal representation.
*/
function toHexString(uint256 value) internal pure returns (string memory) {
unchecked {
return toHexString(value, Math.log256(value) + 1);
}
}
/**
* @dev Converts a `uint256` to its ASCII `string` hexadecimal representation with fixed length.
*/
function toHexString(uint256 value, uint256 length) internal pure returns (string memory) {
uint256 localValue = value;
bytes memory buffer = new bytes(2 * length + 2);
buffer[0] = "0";
buffer[1] = "x";
for (uint256 i = 2 * length + 1; i > 1; --i) {
buffer[i] = HEX_DIGITS[localValue & 0xf];
localValue >>= 4;
}
if (localValue != 0) {
revert StringsInsufficientHexLength(value, length);
}
return string(buffer);
}
/**
* @dev Converts an `address` with fixed length of 20 bytes to its not checksummed ASCII `string` hexadecimal
* representation.
*/
function toHexString(address addr) internal pure returns (string memory) {
return toHexString(uint256(uint160(addr)), ADDRESS_LENGTH);
}
/**
* @dev Returns true if the two strings are equal.
*/
function equal(string memory a, string memory b) internal pure returns (bool) {
return bytes(a).length == bytes(b).length && keccak256(bytes(a)) == keccak256(bytes(b));
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (utils/introspection/ERC165.sol)
pragma solidity ^0.8.20;
import {IERC165} from "./IERC165.sol";
/**
* @dev Implementation of the {IERC165} interface.
*
* Contracts that want to implement ERC165 should inherit from this contract and override {supportsInterface} to check
* for the additional interface id that will be supported. For example:
*
* ```solidity
* function supportsInterface(bytes4 interfaceId) public view virtual override returns (bool) {
* return interfaceId == type(MyInterface).interfaceId || super.supportsInterface(interfaceId);
* }
* ```
*/
abstract contract ERC165 is IERC165 {
/**
* @dev See {IERC165-supportsInterface}.
*/
function supportsInterface(bytes4 interfaceId) public view virtual returns (bool) {
return interfaceId == type(IERC165).interfaceId;
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (interfaces/draft-IERC6093.sol)
pragma solidity ^0.8.20;
/**
* @dev Standard ERC20 Errors
* Interface of the https://eips.ethereum.org/EIPS/eip-6093[ERC-6093] custom errors for ERC20 tokens.
*/
interface IERC20Errors {
/**
* @dev Indicates an error related to the current `balance` of a `sender`. Used in transfers.
* @param sender Address whose tokens are being transferred.
* @param balance Current balance for the interacting account.
* @param needed Minimum amount required to perform a transfer.
*/
error ERC20InsufficientBalance(address sender, uint256 balance, uint256 needed);
/**
* @dev Indicates a failure with the token `sender`. Used in transfers.
* @param sender Address whose tokens are being transferred.
*/
error ERC20InvalidSender(address sender);
/**
* @dev Indicates a failure with the token `receiver`. Used in transfers.
* @param receiver Address to which tokens are being transferred.
*/
error ERC20InvalidReceiver(address receiver);
/**
* @dev Indicates a failure with the `spender`’s `allowance`. Used in transfers.
* @param spender Address that may be allowed to operate on tokens without being their owner.
* @param allowance Amount of tokens a `spender` is allowed to operate with.
* @param needed Minimum amount required to perform a transfer.
*/
error ERC20InsufficientAllowance(address spender, uint256 allowance, uint256 needed);
/**
* @dev Indicates a failure with the `approver` of a token to be approved. Used in approvals.
* @param approver Address initiating an approval operation.
*/
error ERC20InvalidApprover(address approver);
/**
* @dev Indicates a failure with the `spender` to be approved. Used in approvals.
* @param spender Address that may be allowed to operate on tokens without being their owner.
*/
error ERC20InvalidSpender(address spender);
}
/**
* @dev Standard ERC721 Errors
* Interface of the https://eips.ethereum.org/EIPS/eip-6093[ERC-6093] custom errors for ERC721 tokens.
*/
interface IERC721Errors {
/**
* @dev Indicates that an address can't be an owner. For example, `address(0)` is a forbidden owner in EIP-20.
* Used in balance queries.
* @param owner Address of the current owner of a token.
*/
error ERC721InvalidOwner(address owner);
/**
* @dev Indicates a `tokenId` whose `owner` is the zero address.
* @param tokenId Identifier number of a token.
*/
error ERC721NonexistentToken(uint256 tokenId);
/**
* @dev Indicates an error related to the ownership over a particular token. Used in transfers.
* @param sender Address whose tokens are being transferred.
* @param tokenId Identifier number of a token.
* @param owner Address of the current owner of a token.
*/
error ERC721IncorrectOwner(address sender, uint256 tokenId, address owner);
/**
* @dev Indicates a failure with the token `sender`. Used in transfers.
* @param sender Address whose tokens are being transferred.
*/
error ERC721InvalidSender(address sender);
/**
* @dev Indicates a failure with the token `receiver`. Used in transfers.
* @param receiver Address to which tokens are being transferred.
*/
error ERC721InvalidReceiver(address receiver);
/**
* @dev Indicates a failure with the `operator`’s approval. Used in transfers.
* @param operator Address that may be allowed to operate on tokens without being their owner.
* @param tokenId Identifier number of a token.
*/
error ERC721InsufficientApproval(address operator, uint256 tokenId);
/**
* @dev Indicates a failure with the `approver` of a token to be approved. Used in approvals.
* @param approver Address initiating an approval operation.
*/
error ERC721InvalidApprover(address approver);
/**
* @dev Indicates a failure with the `operator` to be approved. Used in approvals.
* @param operator Address that may be allowed to operate on tokens without being their owner.
*/
error ERC721InvalidOperator(address operator);
}
/**
* @dev Standard ERC1155 Errors
* Interface of the https://eips.ethereum.org/EIPS/eip-6093[ERC-6093] custom errors for ERC1155 tokens.
*/
interface IERC1155Errors {
/**
* @dev Indicates an error related to the current `balance` of a `sender`. Used in transfers.
* @param sender Address whose tokens are being transferred.
* @param balance Current balance for the interacting account.
* @param needed Minimum amount required to perform a transfer.
* @param tokenId Identifier number of a token.
*/
error ERC1155InsufficientBalance(address sender, uint256 balance, uint256 needed, uint256 tokenId);
/**
* @dev Indicates a failure with the token `sender`. Used in transfers.
* @param sender Address whose tokens are being transferred.
*/
error ERC1155InvalidSender(address sender);
/**
* @dev Indicates a failure with the token `receiver`. Used in transfers.
* @param receiver Address to which tokens are being transferred.
*/
error ERC1155InvalidReceiver(address receiver);
/**
* @dev Indicates a failure with the `operator`’s approval. Used in transfers.
* @param operator Address that may be allowed to operate on tokens without being their owner.
* @param owner Address of the current owner of a token.
*/
error ERC1155MissingApprovalForAll(address operator, address owner);
/**
* @dev Indicates a failure with the `approver` of a token to be approved. Used in approvals.
* @param approver Address initiating an approval operation.
*/
error ERC1155InvalidApprover(address approver);
/**
* @dev Indicates a failure with the `operator` to be approved. Used in approvals.
* @param operator Address that may be allowed to operate on tokens without being their owner.
*/
error ERC1155InvalidOperator(address operator);
/**
* @dev Indicates an array length mismatch between ids and values in a safeBatchTransferFrom operation.
* Used in batch transfers.
* @param idsLength Length of the array of token identifiers
* @param valuesLength Length of the array of token amounts
*/
error ERC1155InvalidArrayLength(uint256 idsLength, uint256 valuesLength);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (utils/introspection/IERC165.sol)
pragma solidity ^0.8.20;
/**
* @dev Interface of the ERC165 standard, as defined in the
* https://eips.ethereum.org/EIPS/eip-165[EIP].
*
* Implementers can declare support of contract interfaces, which can then be
* queried by others ({ERC165Checker}).
*
* For an implementation, see {ERC165}.
*/
interface IERC165 {
/**
* @dev Returns true if this contract implements the interface defined by
* `interfaceId`. See the corresponding
* https://eips.ethereum.org/EIPS/eip-165#how-interfaces-are-identified[EIP section]
* to learn more about how these ids are created.
*
* This function call must use less than 30 000 gas.
*/
function supportsInterface(bytes4 interfaceId) external view returns (bool);
}// SPDX-License-Identifier: MIT pragma solidity >=0.8.19; /* ██████╗ ██████╗ ██████╗ ███╗ ███╗ █████╗ ████████╗██╗ ██╗ ██╔══██╗██╔══██╗██╔══██╗████╗ ████║██╔══██╗╚══██╔══╝██║ ██║ ██████╔╝██████╔╝██████╔╝██╔████╔██║███████║ ██║ ███████║ ██╔═══╝ ██╔══██╗██╔══██╗██║╚██╔╝██║██╔══██║ ██║ ██╔══██║ ██║ ██║ ██║██████╔╝██║ ╚═╝ ██║██║ ██║ ██║ ██║ ██║ ╚═╝ ╚═╝ ╚═╝╚═════╝ ╚═╝ ╚═╝╚═╝ ╚═╝ ╚═╝ ╚═╝ ╚═╝ ██╗ ██╗██████╗ ██████╗ ██████╗ ██╗ ██╗ ██╗ █████╗ ██║ ██║██╔══██╗██╔════╝ ██╔═████╗╚██╗██╔╝███║██╔══██╗ ██║ ██║██║ ██║███████╗ ██║██╔██║ ╚███╔╝ ╚██║╚█████╔╝ ██║ ██║██║ ██║██╔═══██╗████╔╝██║ ██╔██╗ ██║██╔══██╗ ╚██████╔╝██████╔╝╚██████╔╝╚██████╔╝██╔╝ ██╗ ██║╚█████╔╝ ╚═════╝ ╚═════╝ ╚═════╝ ╚═════╝ ╚═╝ ╚═╝ ╚═╝ ╚════╝ */ import "./ud60x18/Casting.sol"; import "./ud60x18/Constants.sol"; import "./ud60x18/Conversions.sol"; import "./ud60x18/Errors.sol"; import "./ud60x18/Helpers.sol"; import "./ud60x18/Math.sol"; import "./ud60x18/ValueType.sol";
// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IERC165 } from "@openzeppelin/contracts/utils/introspection/IERC165.sol";
/// @title ISablierLockupRecipient
/// @notice Interface for recipient contracts capable of reacting to cancellations and withdrawals. For this to be able
/// to hook into Sablier, it must fully implement this interface and it must have been allowlisted by the Lockup
/// contract's admin.
/// @dev See {IERC165-supportsInterface}.
/// The implementation MUST implement the {IERC165-supportsInterface} method, which MUST return `true` when called with
/// `0xf8ee98d3`, i.e. `type(ISablierLockupRecipient).interfaceId`.
interface ISablierLockupRecipient is IERC165 {
/// @notice Responds to cancellations.
///
/// @dev Notes:
/// - The function MUST return the selector `ISablierLockupRecipient.onSablierLockupCancel.selector`.
/// - If this function reverts, the execution in the Lockup contract will revert as well.
///
/// @param streamId The ID of the canceled stream.
/// @param sender The stream's sender, who canceled the stream.
/// @param senderAmount The amount of assets refunded to the stream's sender, denoted in units of the asset's
/// decimals.
/// @param recipientAmount The amount of assets left for the stream's recipient to withdraw, denoted in units of
/// the asset's decimals.
///
/// @return selector The selector of this function needed to validate the hook.
function onSablierLockupCancel(
uint256 streamId,
address sender,
uint128 senderAmount,
uint128 recipientAmount
)
external
returns (bytes4 selector);
/// @notice Responds to withdrawals triggered by any address except the contract implementing this interface.
///
/// @dev Notes:
/// - The function MUST return the selector `ISablierLockupRecipient.onSablierLockupWithdraw.selector`.
/// - If this function reverts, the execution in the Lockup contract will revert as well.
///
/// @param streamId The ID of the stream being withdrawn from.
/// @param caller The original `msg.sender` address that triggered the withdrawal.
/// @param to The address receiving the withdrawn assets.
/// @param amount The amount of assets withdrawn, denoted in units of the asset's decimals.
///
/// @return selector The selector of this function needed to validate the hook.
function onSablierLockupWithdraw(
uint256 streamId,
address caller,
address to,
uint128 amount
)
external
returns (bytes4 selector);
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IERC4906 } from "@openzeppelin/contracts/interfaces/IERC4906.sol";
import { IERC20 } from "@openzeppelin/contracts/token/ERC20/IERC20.sol";
import { IERC721Metadata } from "@openzeppelin/contracts/token/ERC721/extensions/IERC721Metadata.sol";
import { UD60x18 } from "@prb/math/src/UD60x18.sol";
import { Lockup } from "../types/DataTypes.sol";
import { IAdminable } from "./IAdminable.sol";
import { ISablierV2NFTDescriptor } from "./ISablierV2NFTDescriptor.sol";
/// @title ISablierV2Lockup
/// @notice Common logic between all Sablier V2 Lockup contracts.
interface ISablierV2Lockup is
IAdminable, // 0 inherited components
IERC4906, // 2 inherited components
IERC721Metadata // 2 inherited components
{
/*//////////////////////////////////////////////////////////////////////////
EVENTS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Emitted when the admin allows a new recipient contract to hook to Sablier.
/// @param admin The address of the current contract admin.
/// @param recipient The address of the recipient contract put on the allowlist.
event AllowToHook(address indexed admin, address recipient);
/// @notice Emitted when a stream is canceled.
/// @param streamId The ID of the stream.
/// @param sender The address of the stream's sender.
/// @param recipient The address of the stream's recipient.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param senderAmount The amount of assets refunded to the stream's sender, denoted in units of the asset's
/// decimals.
/// @param recipientAmount The amount of assets left for the stream's recipient to withdraw, denoted in units of the
/// asset's decimals.
event CancelLockupStream(
uint256 streamId,
address indexed sender,
address indexed recipient,
IERC20 indexed asset,
uint128 senderAmount,
uint128 recipientAmount
);
/// @notice Emitted when a sender gives up the right to cancel a stream.
/// @param streamId The ID of the stream.
event RenounceLockupStream(uint256 indexed streamId);
/// @notice Emitted when the admin sets a new NFT descriptor contract.
/// @param admin The address of the current contract admin.
/// @param oldNFTDescriptor The address of the old NFT descriptor contract.
/// @param newNFTDescriptor The address of the new NFT descriptor contract.
event SetNFTDescriptor(
address indexed admin, ISablierV2NFTDescriptor oldNFTDescriptor, ISablierV2NFTDescriptor newNFTDescriptor
);
/// @notice Emitted when assets are withdrawn from a stream.
/// @param streamId The ID of the stream.
/// @param to The address that has received the withdrawn assets.
/// @param asset The contract address of the ERC-20 asset to be distributed.
/// @param amount The amount of assets withdrawn, denoted in units of the asset's decimals.
event WithdrawFromLockupStream(uint256 indexed streamId, address indexed to, IERC20 indexed asset, uint128 amount);
/*//////////////////////////////////////////////////////////////////////////
CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Retrieves the address of the ERC-20 asset to be distributed.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getAsset(uint256 streamId) external view returns (IERC20 asset);
/// @notice Retrieves the amount deposited in the stream, denoted in units of the asset's decimals.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getDepositedAmount(uint256 streamId) external view returns (uint128 depositedAmount);
/// @notice Retrieves the stream's end time, which is a Unix timestamp.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getEndTime(uint256 streamId) external view returns (uint40 endTime);
/// @notice Retrieves the stream's recipient.
/// @dev Reverts if the NFT has been burned.
/// @param streamId The stream ID for the query.
function getRecipient(uint256 streamId) external view returns (address recipient);
/// @notice Retrieves the amount refunded to the sender after a cancellation, denoted in units of the asset's
/// decimals. This amount is always zero unless the stream was canceled.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getRefundedAmount(uint256 streamId) external view returns (uint128 refundedAmount);
/// @notice Retrieves the stream's sender.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getSender(uint256 streamId) external view returns (address sender);
/// @notice Retrieves the stream's start time, which is a Unix timestamp.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getStartTime(uint256 streamId) external view returns (uint40 startTime);
/// @notice Retrieves the amount withdrawn from the stream, denoted in units of the asset's decimals.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function getWithdrawnAmount(uint256 streamId) external view returns (uint128 withdrawnAmount);
/// @notice Retrieves a flag indicating whether the provided address is a contract allowed to hook to Sablier
/// when a stream is canceled or when assets are withdrawn.
/// @dev See {ISablierLockupRecipient} for more information.
function isAllowedToHook(address recipient) external view returns (bool result);
/// @notice Retrieves a flag indicating whether the stream can be canceled. When the stream is cold, this
/// flag is always `false`.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function isCancelable(uint256 streamId) external view returns (bool result);
/// @notice Retrieves a flag indicating whether the stream is cold, i.e. settled, canceled, or depleted.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function isCold(uint256 streamId) external view returns (bool result);
/// @notice Retrieves a flag indicating whether the stream is depleted.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function isDepleted(uint256 streamId) external view returns (bool result);
/// @notice Retrieves a flag indicating whether the stream exists.
/// @dev Does not revert if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function isStream(uint256 streamId) external view returns (bool result);
/// @notice Retrieves a flag indicating whether the stream NFT can be transferred.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function isTransferable(uint256 streamId) external view returns (bool result);
/// @notice Retrieves a flag indicating whether the stream is warm, i.e. either pending or streaming.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function isWarm(uint256 streamId) external view returns (bool result);
/// @notice Retrieves the maximum broker fee that can be charged by the broker, denoted as a fixed-point
/// number where 1e18 is 100%.
/// @dev This value is hard coded as a constant.
function MAX_BROKER_FEE() external view returns (UD60x18);
/// @notice Counter for stream IDs, used in the create functions.
function nextStreamId() external view returns (uint256);
/// @notice Contract that generates the non-fungible token URI.
function nftDescriptor() external view returns (ISablierV2NFTDescriptor);
/// @notice Calculates the amount that the sender would be refunded if the stream were canceled, denoted in units
/// of the asset's decimals.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function refundableAmountOf(uint256 streamId) external view returns (uint128 refundableAmount);
/// @notice Retrieves the stream's status.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function statusOf(uint256 streamId) external view returns (Lockup.Status status);
/// @notice Calculates the amount streamed to the recipient, denoted in units of the asset's decimals.
/// @dev Reverts if `streamId` references a null stream.
///
/// Notes:
/// - Upon cancellation of the stream, the amount streamed is calculated as the difference between the deposited
/// amount and the refunded amount. Ultimately, when the stream becomes depleted, the streamed amount is equivalent
/// to the total amount withdrawn.
///
/// @param streamId The stream ID for the query.
function streamedAmountOf(uint256 streamId) external view returns (uint128 streamedAmount);
/// @notice Retrieves a flag indicating whether the stream was canceled.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function wasCanceled(uint256 streamId) external view returns (bool result);
/// @notice Calculates the amount that the recipient can withdraw from the stream, denoted in units of the asset's
/// decimals.
/// @dev Reverts if `streamId` references a null stream.
/// @param streamId The stream ID for the query.
function withdrawableAmountOf(uint256 streamId) external view returns (uint128 withdrawableAmount);
/*//////////////////////////////////////////////////////////////////////////
NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Allows a recipient contract to hook to Sablier when a stream is canceled or when assets are withdrawn.
/// Useful for implementing contracts that hold streams on behalf of users, such as vaults or staking contracts.
///
/// @dev Emits an {AllowToHook} event.
///
/// Notes:
/// - Does not revert if the contract is already on the allowlist.
/// - This is an irreversible operation. The contract cannot be removed from the allowlist.
///
/// Requirements:
/// - `msg.sender` must be the contract admin.
/// - `recipient` must have a non-zero code size.
/// - `recipient` must implement {ISablierLockupRecipient}.
///
/// @param recipient The address of the contract to allow for hooks.
function allowToHook(address recipient) external;
/// @notice Burns the NFT associated with the stream.
///
/// @dev Emits a {Transfer} event.
///
/// Requirements:
/// - Must not be delegate called.
/// - `streamId` must reference a depleted stream.
/// - The NFT must exist.
/// - `msg.sender` must be either the NFT owner or an approved third party.
///
/// @param streamId The ID of the stream NFT to burn.
function burn(uint256 streamId) external;
/// @notice Cancels the stream and refunds any remaining assets to the sender.
///
/// @dev Emits a {Transfer}, {CancelLockupStream}, and {MetadataUpdate} event.
///
/// Notes:
/// - If there any assets left for the recipient to withdraw, the stream is marked as canceled. Otherwise, the
/// stream is marked as depleted.
/// - This function attempts to invoke a hook on the recipient, if the resolved address is a contract.
///
/// Requirements:
/// - Must not be delegate called.
/// - The stream must be warm and cancelable.
/// - `msg.sender` must be the stream's sender.
///
/// @param streamId The ID of the stream to cancel.
function cancel(uint256 streamId) external;
/// @notice Cancels multiple streams and refunds any remaining assets to the sender.
///
/// @dev Emits multiple {Transfer}, {CancelLockupStream}, and {MetadataUpdate} events.
///
/// Notes:
/// - Refer to the notes in {cancel}.
///
/// Requirements:
/// - All requirements from {cancel} must be met for each stream.
///
/// @param streamIds The IDs of the streams to cancel.
function cancelMultiple(uint256[] calldata streamIds) external;
/// @notice Removes the right of the stream's sender to cancel the stream.
///
/// @dev Emits a {RenounceLockupStream} and {MetadataUpdate} event.
///
/// Notes:
/// - This is an irreversible operation.
///
/// Requirements:
/// - Must not be delegate called.
/// - `streamId` must reference a warm stream.
/// - `msg.sender` must be the stream's sender.
/// - The stream must be cancelable.
///
/// @param streamId The ID of the stream to renounce.
function renounce(uint256 streamId) external;
/// @notice Sets a new NFT descriptor contract, which produces the URI describing the Sablier stream NFTs.
///
/// @dev Emits a {SetNFTDescriptor} and {BatchMetadataUpdate} event.
///
/// Notes:
/// - Does not revert if the NFT descriptor is the same.
///
/// Requirements:
/// - `msg.sender` must be the contract admin.
///
/// @param newNFTDescriptor The address of the new NFT descriptor contract.
function setNFTDescriptor(ISablierV2NFTDescriptor newNFTDescriptor) external;
/// @notice Withdraws the provided amount of assets from the stream to the `to` address.
///
/// @dev Emits a {Transfer}, {WithdrawFromLockupStream}, and {MetadataUpdate} event.
///
/// Notes:
/// - This function attempts to call a hook on the recipient of the stream, unless `msg.sender` is the recipient.
///
/// Requirements:
/// - Must not be delegate called.
/// - `streamId` must not reference a null or depleted stream.
/// - `to` must not be the zero address.
/// - `amount` must be greater than zero and must not exceed the withdrawable amount.
/// - `to` must be the recipient if `msg.sender` is not the stream's recipient or an approved third party.
///
/// @param streamId The ID of the stream to withdraw from.
/// @param to The address receiving the withdrawn assets.
/// @param amount The amount to withdraw, denoted in units of the asset's decimals.
function withdraw(uint256 streamId, address to, uint128 amount) external;
/// @notice Withdraws the maximum withdrawable amount from the stream to the provided address `to`.
///
/// @dev Emits a {Transfer}, {WithdrawFromLockupStream}, and {MetadataUpdate} event.
///
/// Notes:
/// - Refer to the notes in {withdraw}.
///
/// Requirements:
/// - Refer to the requirements in {withdraw}.
///
/// @param streamId The ID of the stream to withdraw from.
/// @param to The address receiving the withdrawn assets.
/// @return withdrawnAmount The amount withdrawn, denoted in units of the asset's decimals.
function withdrawMax(uint256 streamId, address to) external returns (uint128 withdrawnAmount);
/// @notice Withdraws the maximum withdrawable amount from the stream to the current recipient, and transfers the
/// NFT to `newRecipient`.
///
/// @dev Emits a {WithdrawFromLockupStream} and a {Transfer} event.
///
/// Notes:
/// - If the withdrawable amount is zero, the withdrawal is skipped.
/// - Refer to the notes in {withdraw}.
///
/// Requirements:
/// - `msg.sender` must be the stream's recipient.
/// - Refer to the requirements in {withdraw}.
/// - Refer to the requirements in {IERC721.transferFrom}.
///
/// @param streamId The ID of the stream NFT to transfer.
/// @param newRecipient The address of the new owner of the stream NFT.
/// @return withdrawnAmount The amount withdrawn, denoted in units of the asset's decimals.
function withdrawMaxAndTransfer(
uint256 streamId,
address newRecipient
)
external
returns (uint128 withdrawnAmount);
/// @notice Withdraws assets from streams to the recipient of each stream.
///
/// @dev Emits multiple {Transfer}, {WithdrawFromLockupStream}, and {MetadataUpdate} events.
///
/// Notes:
/// - This function attempts to call a hook on the recipient of each stream, unless `msg.sender` is the recipient.
///
/// Requirements:
/// - Must not be delegate called.
/// - There must be an equal number of `streamIds` and `amounts`.
/// - Each stream ID in the array must not reference a null or depleted stream.
/// - Each amount in the array must be greater than zero and must not exceed the withdrawable amount.
///
/// @param streamIds The IDs of the streams to withdraw from.
/// @param amounts The amounts to withdraw, denoted in units of the asset's decimals.
function withdrawMultiple(uint256[] calldata streamIds, uint128[] calldata amounts) external;
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IERC721Metadata } from "@openzeppelin/contracts/token/ERC721/extensions/IERC721Metadata.sol";
import { UD60x18 } from "@prb/math/src/UD60x18.sol";
/// @title Errors
/// @notice Library containing all custom errors the protocol may revert with.
library Errors {
/*//////////////////////////////////////////////////////////////////////////
GENERICS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when `msg.sender` is not the admin.
error CallerNotAdmin(address admin, address caller);
/// @notice Thrown when trying to delegate call to a function that disallows delegate calls.
error DelegateCall();
/*//////////////////////////////////////////////////////////////////////////
SABLIER-V2-LOCKUP
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when trying to allow to hook a contract that doesn't implement the interface correctly.
error SablierV2Lockup_AllowToHookUnsupportedInterface(address recipient);
/// @notice Thrown when trying to allow to hook an address with no code.
error SablierV2Lockup_AllowToHookZeroCodeSize(address recipient);
/// @notice Thrown when the broker fee exceeds the maximum allowed fee.
error SablierV2Lockup_BrokerFeeTooHigh(UD60x18 brokerFee, UD60x18 maxBrokerFee);
/// @notice Thrown when trying to create a stream with a zero deposit amount.
error SablierV2Lockup_DepositAmountZero();
/// @notice Thrown when trying to create a stream with an end time not in the future.
error SablierV2Lockup_EndTimeNotInTheFuture(uint40 blockTimestamp, uint40 endTime);
/// @notice Thrown when the hook does not return the correct selector.
error SablierV2Lockup_InvalidHookSelector(address recipient);
/// @notice Thrown when trying to transfer Stream NFT when transferability is disabled.
error SablierV2Lockup_NotTransferable(uint256 tokenId);
/// @notice Thrown when the ID references a null stream.
error SablierV2Lockup_Null(uint256 streamId);
/// @notice Thrown when trying to withdraw an amount greater than the withdrawable amount.
error SablierV2Lockup_Overdraw(uint256 streamId, uint128 amount, uint128 withdrawableAmount);
/// @notice Thrown when trying to create a stream with a zero start time.
error SablierV2Lockup_StartTimeZero();
/// @notice Thrown when trying to cancel or renounce a canceled stream.
error SablierV2Lockup_StreamCanceled(uint256 streamId);
/// @notice Thrown when trying to cancel, renounce, or withdraw from a depleted stream.
error SablierV2Lockup_StreamDepleted(uint256 streamId);
/// @notice Thrown when trying to cancel or renounce a stream that is not cancelable.
error SablierV2Lockup_StreamNotCancelable(uint256 streamId);
/// @notice Thrown when trying to burn a stream that is not depleted.
error SablierV2Lockup_StreamNotDepleted(uint256 streamId);
/// @notice Thrown when trying to cancel or renounce a settled stream.
error SablierV2Lockup_StreamSettled(uint256 streamId);
/// @notice Thrown when `msg.sender` lacks authorization to perform an action.
error SablierV2Lockup_Unauthorized(uint256 streamId, address caller);
/// @notice Thrown when trying to withdraw to an address other than the recipient's.
error SablierV2Lockup_WithdrawalAddressNotRecipient(uint256 streamId, address caller, address to);
/// @notice Thrown when trying to withdraw zero assets from a stream.
error SablierV2Lockup_WithdrawAmountZero(uint256 streamId);
/// @notice Thrown when trying to withdraw from multiple streams and the number of stream IDs does
/// not match the number of withdraw amounts.
error SablierV2Lockup_WithdrawArrayCountsNotEqual(uint256 streamIdsCount, uint256 amountsCount);
/// @notice Thrown when trying to withdraw to the zero address.
error SablierV2Lockup_WithdrawToZeroAddress(uint256 streamId);
/*//////////////////////////////////////////////////////////////////////////
SABLIER-V2-LOCKUP-DYNAMIC
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when trying to create a stream with a deposit amount not equal to the sum of the
/// segment amounts.
error SablierV2LockupDynamic_DepositAmountNotEqualToSegmentAmountsSum(
uint128 depositAmount, uint128 segmentAmountsSum
);
/// @notice Thrown when trying to create a stream with more segments than the maximum allowed.
error SablierV2LockupDynamic_SegmentCountTooHigh(uint256 count);
/// @notice Thrown when trying to create a stream with no segments.
error SablierV2LockupDynamic_SegmentCountZero();
/// @notice Thrown when trying to create a stream with unordered segment timestamps.
error SablierV2LockupDynamic_SegmentTimestampsNotOrdered(
uint256 index, uint40 previousTimestamp, uint40 currentTimestamp
);
/// @notice Thrown when trying to create a stream with a start time not strictly less than the first
/// segment timestamp.
error SablierV2LockupDynamic_StartTimeNotLessThanFirstSegmentTimestamp(
uint40 startTime, uint40 firstSegmentTimestamp
);
/*//////////////////////////////////////////////////////////////////////////
SABLIER-V2-LOCKUP-LINEAR
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when trying to create a stream with a cliff time not strictly less than the end time.
error SablierV2LockupLinear_CliffTimeNotLessThanEndTime(uint40 cliffTime, uint40 endTime);
/// @notice Thrown when trying to create a stream with a start time not strictly less than the cliff time, when the
/// cliff time does not have a zero value.
error SablierV2LockupLinear_StartTimeNotLessThanCliffTime(uint40 startTime, uint40 cliffTime);
/// @notice Thrown when trying to create a stream with a start time not strictly less than the end time.
error SablierV2LockupLinear_StartTimeNotLessThanEndTime(uint40 startTime, uint40 endTime);
/*//////////////////////////////////////////////////////////////////////////
SABLIER-V2-NFT-DESCRIPTOR
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when trying to generate the token URI for an unknown ERC-721 NFT contract.
error SablierV2NFTDescriptor_UnknownNFT(IERC721Metadata nft, string symbol);
/*//////////////////////////////////////////////////////////////////////////
SABLIER-V2-LOCKUP-TRANCHE
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when trying to create a stream with a deposit amount not equal to the sum of the
/// tranche amounts.
error SablierV2LockupTranched_DepositAmountNotEqualToTrancheAmountsSum(
uint128 depositAmount, uint128 trancheAmountsSum
);
/// @notice Thrown when trying to create a stream with a start time not strictly less than the first
/// tranche timestamp.
error SablierV2LockupTranched_StartTimeNotLessThanFirstTrancheTimestamp(
uint40 startTime, uint40 firstTrancheTimestamp
);
/// @notice Thrown when trying to create a stream with more tranches than the maximum allowed.
error SablierV2LockupTranched_TrancheCountTooHigh(uint256 count);
/// @notice Thrown when trying to create a stream with no tranches.
error SablierV2LockupTranched_TrancheCountZero();
/// @notice Thrown when trying to create a stream with unordered tranche timestamps.
error SablierV2LockupTranched_TrancheTimestampsNotOrdered(
uint256 index, uint40 previousTimestamp, uint40 currentTimestamp
);
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { IAdminable } from "../interfaces/IAdminable.sol";
import { Errors } from "../libraries/Errors.sol";
/// @title Adminable
/// @notice See the documentation in {IAdminable}.
abstract contract Adminable is IAdminable {
/*//////////////////////////////////////////////////////////////////////////
STATE VARIABLES
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc IAdminable
address public override admin;
/*//////////////////////////////////////////////////////////////////////////
MODIFIERS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Reverts if called by any account other than the admin.
modifier onlyAdmin() {
if (admin != msg.sender) {
revert Errors.CallerNotAdmin({ admin: admin, caller: msg.sender });
}
_;
}
/*//////////////////////////////////////////////////////////////////////////
USER-FACING NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @inheritdoc IAdminable
function transferAdmin(address newAdmin) public virtual override onlyAdmin {
// Effect: update the admin.
admin = newAdmin;
// Log the transfer of the admin.
emit IAdminable.TransferAdmin({ oldAdmin: msg.sender, newAdmin: newAdmin });
}
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
import { Errors } from "../libraries/Errors.sol";
/// @title NoDelegateCall
/// @notice This contract implements logic to prevent delegate calls.
abstract contract NoDelegateCall {
/// @dev The address of the original contract that was deployed.
address private immutable ORIGINAL;
/// @dev Sets the original contract address.
constructor() {
ORIGINAL = address(this);
}
/// @notice Prevents delegate calls.
modifier noDelegateCall() {
_preventDelegateCall();
_;
}
/// @dev This function checks whether the current call is a delegate call, and reverts if it is.
///
/// - A private function is used instead of inlining this logic in a modifier because Solidity copies modifiers into
/// every function that uses them. The `ORIGINAL` address would get copied in every place the modifier is used,
/// which would increase the contract size. By using a function instead, we can avoid this duplication of code
/// and reduce the overall size of the contract.
function _preventDelegateCall() private view {
if (address(this) != ORIGINAL) {
revert Errors.DelegateCall();
}
}
}// SPDX-License-Identifier: MIT pragma solidity >=0.8.19; /* ██████╗ ██████╗ ██████╗ ███╗ ███╗ █████╗ ████████╗██╗ ██╗ ██╔══██╗██╔══██╗██╔══██╗████╗ ████║██╔══██╗╚══██╔══╝██║ ██║ ██████╔╝██████╔╝██████╔╝██╔████╔██║███████║ ██║ ███████║ ██╔═══╝ ██╔══██╗██╔══██╗██║╚██╔╝██║██╔══██║ ██║ ██╔══██║ ██║ ██║ ██║██████╔╝██║ ╚═╝ ██║██║ ██║ ██║ ██║ ██║ ╚═╝ ╚═╝ ╚═╝╚═════╝ ╚═╝ ╚═╝╚═╝ ╚═╝ ╚═╝ ╚═╝ ╚═╝ ██╗ ██╗██████╗ ██████╗ ██╗ ██╗ ██╗ █████╗ ██║ ██║██╔══██╗╚════██╗╚██╗██╔╝███║██╔══██╗ ██║ ██║██║ ██║ █████╔╝ ╚███╔╝ ╚██║╚█████╔╝ ██║ ██║██║ ██║██╔═══╝ ██╔██╗ ██║██╔══██╗ ╚██████╔╝██████╔╝███████╗██╔╝ ██╗ ██║╚█████╔╝ ╚═════╝ ╚═════╝ ╚══════╝╚═╝ ╚═╝ ╚═╝ ╚════╝ */ import "./ud2x18/Casting.sol"; import "./ud2x18/Constants.sol"; import "./ud2x18/Errors.sol"; import "./ud2x18/ValueType.sol";
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (utils/math/Math.sol)
pragma solidity ^0.8.20;
/**
* @dev Standard math utilities missing in the Solidity language.
*/
library Math {
/**
* @dev Muldiv operation overflow.
*/
error MathOverflowedMulDiv();
enum Rounding {
Floor, // Toward negative infinity
Ceil, // Toward positive infinity
Trunc, // Toward zero
Expand // Away from zero
}
/**
* @dev Returns the addition of two unsigned integers, with an overflow flag.
*/
function tryAdd(uint256 a, uint256 b) internal pure returns (bool, uint256) {
unchecked {
uint256 c = a + b;
if (c < a) return (false, 0);
return (true, c);
}
}
/**
* @dev Returns the subtraction of two unsigned integers, with an overflow flag.
*/
function trySub(uint256 a, uint256 b) internal pure returns (bool, uint256) {
unchecked {
if (b > a) return (false, 0);
return (true, a - b);
}
}
/**
* @dev Returns the multiplication of two unsigned integers, with an overflow flag.
*/
function tryMul(uint256 a, uint256 b) internal pure returns (bool, uint256) {
unchecked {
// Gas optimization: this is cheaper than requiring 'a' not being zero, but the
// benefit is lost if 'b' is also tested.
// See: https://github.com/OpenZeppelin/openzeppelin-contracts/pull/522
if (a == 0) return (true, 0);
uint256 c = a * b;
if (c / a != b) return (false, 0);
return (true, c);
}
}
/**
* @dev Returns the division of two unsigned integers, with a division by zero flag.
*/
function tryDiv(uint256 a, uint256 b) internal pure returns (bool, uint256) {
unchecked {
if (b == 0) return (false, 0);
return (true, a / b);
}
}
/**
* @dev Returns the remainder of dividing two unsigned integers, with a division by zero flag.
*/
function tryMod(uint256 a, uint256 b) internal pure returns (bool, uint256) {
unchecked {
if (b == 0) return (false, 0);
return (true, a % b);
}
}
/**
* @dev Returns the largest of two numbers.
*/
function max(uint256 a, uint256 b) internal pure returns (uint256) {
return a > b ? a : b;
}
/**
* @dev Returns the smallest of two numbers.
*/
function min(uint256 a, uint256 b) internal pure returns (uint256) {
return a < b ? a : b;
}
/**
* @dev Returns the average of two numbers. The result is rounded towards
* zero.
*/
function average(uint256 a, uint256 b) internal pure returns (uint256) {
// (a + b) / 2 can overflow.
return (a & b) + (a ^ b) / 2;
}
/**
* @dev Returns the ceiling of the division of two numbers.
*
* This differs from standard division with `/` in that it rounds towards infinity instead
* of rounding towards zero.
*/
function ceilDiv(uint256 a, uint256 b) internal pure returns (uint256) {
if (b == 0) {
// Guarantee the same behavior as in a regular Solidity division.
return a / b;
}
// (a + b - 1) / b can overflow on addition, so we distribute.
return a == 0 ? 0 : (a - 1) / b + 1;
}
/**
* @notice Calculates floor(x * y / denominator) with full precision. Throws if result overflows a uint256 or
* denominator == 0.
* @dev Original credit to Remco Bloemen under MIT license (https://xn--2-umb.com/21/muldiv) with further edits by
* Uniswap Labs also under MIT license.
*/
function mulDiv(uint256 x, uint256 y, uint256 denominator) internal pure returns (uint256 result) {
unchecked {
// 512-bit multiply [prod1 prod0] = x * y. Compute the product mod 2^256 and mod 2^256 - 1, then use
// use the Chinese Remainder Theorem to reconstruct the 512 bit result. The result is stored in two 256
// variables such that product = prod1 * 2^256 + prod0.
uint256 prod0 = x * y; // Least significant 256 bits of the product
uint256 prod1; // Most significant 256 bits of the product
assembly {
let mm := mulmod(x, y, not(0))
prod1 := sub(sub(mm, prod0), lt(mm, prod0))
}
// Handle non-overflow cases, 256 by 256 division.
if (prod1 == 0) {
// Solidity will revert if denominator == 0, unlike the div opcode on its own.
// The surrounding unchecked block does not change this fact.
// See https://docs.soliditylang.org/en/latest/control-structures.html#checked-or-unchecked-arithmetic.
return prod0 / denominator;
}
// Make sure the result is less than 2^256. Also prevents denominator == 0.
if (denominator <= prod1) {
revert MathOverflowedMulDiv();
}
///////////////////////////////////////////////
// 512 by 256 division.
///////////////////////////////////////////////
// Make division exact by subtracting the remainder from [prod1 prod0].
uint256 remainder;
assembly {
// Compute remainder using mulmod.
remainder := mulmod(x, y, denominator)
// Subtract 256 bit number from 512 bit number.
prod1 := sub(prod1, gt(remainder, prod0))
prod0 := sub(prod0, remainder)
}
// Factor powers of two out of denominator and compute largest power of two divisor of denominator.
// Always >= 1. See https://cs.stackexchange.com/q/138556/92363.
uint256 twos = denominator & (0 - denominator);
assembly {
// Divide denominator by twos.
denominator := div(denominator, twos)
// Divide [prod1 prod0] by twos.
prod0 := div(prod0, twos)
// Flip twos such that it is 2^256 / twos. If twos is zero, then it becomes one.
twos := add(div(sub(0, twos), twos), 1)
}
// Shift in bits from prod1 into prod0.
prod0 |= prod1 * twos;
// Invert denominator mod 2^256. Now that denominator is an odd number, it has an inverse modulo 2^256 such
// that denominator * inv = 1 mod 2^256. Compute the inverse by starting with a seed that is correct for
// four bits. That is, denominator * inv = 1 mod 2^4.
uint256 inverse = (3 * denominator) ^ 2;
// Use the Newton-Raphson iteration to improve the precision. Thanks to Hensel's lifting lemma, this also
// works in modular arithmetic, doubling the correct bits in each step.
inverse *= 2 - denominator * inverse; // inverse mod 2^8
inverse *= 2 - denominator * inverse; // inverse mod 2^16
inverse *= 2 - denominator * inverse; // inverse mod 2^32
inverse *= 2 - denominator * inverse; // inverse mod 2^64
inverse *= 2 - denominator * inverse; // inverse mod 2^128
inverse *= 2 - denominator * inverse; // inverse mod 2^256
// Because the division is now exact we can divide by multiplying with the modular inverse of denominator.
// This will give us the correct result modulo 2^256. Since the preconditions guarantee that the outcome is
// less than 2^256, this is the final result. We don't need to compute the high bits of the result and prod1
// is no longer required.
result = prod0 * inverse;
return result;
}
}
/**
* @notice Calculates x * y / denominator with full precision, following the selected rounding direction.
*/
function mulDiv(uint256 x, uint256 y, uint256 denominator, Rounding rounding) internal pure returns (uint256) {
uint256 result = mulDiv(x, y, denominator);
if (unsignedRoundsUp(rounding) && mulmod(x, y, denominator) > 0) {
result += 1;
}
return result;
}
/**
* @dev Returns the square root of a number. If the number is not a perfect square, the value is rounded
* towards zero.
*
* Inspired by Henry S. Warren, Jr.'s "Hacker's Delight" (Chapter 11).
*/
function sqrt(uint256 a) internal pure returns (uint256) {
if (a == 0) {
return 0;
}
// For our first guess, we get the biggest power of 2 which is smaller than the square root of the target.
//
// We know that the "msb" (most significant bit) of our target number `a` is a power of 2 such that we have
// `msb(a) <= a < 2*msb(a)`. This value can be written `msb(a)=2**k` with `k=log2(a)`.
//
// This can be rewritten `2**log2(a) <= a < 2**(log2(a) + 1)`
// → `sqrt(2**k) <= sqrt(a) < sqrt(2**(k+1))`
// → `2**(k/2) <= sqrt(a) < 2**((k+1)/2) <= 2**(k/2 + 1)`
//
// Consequently, `2**(log2(a) / 2)` is a good first approximation of `sqrt(a)` with at least 1 correct bit.
uint256 result = 1 << (log2(a) >> 1);
// At this point `result` is an estimation with one bit of precision. We know the true value is a uint128,
// since it is the square root of a uint256. Newton's method converges quadratically (precision doubles at
// every iteration). We thus need at most 7 iteration to turn our partial result with one bit of precision
// into the expected uint128 result.
unchecked {
result = (result + a / result) >> 1;
result = (result + a / result) >> 1;
result = (result + a / result) >> 1;
result = (result + a / result) >> 1;
result = (result + a / result) >> 1;
result = (result + a / result) >> 1;
result = (result + a / result) >> 1;
return min(result, a / result);
}
}
/**
* @notice Calculates sqrt(a), following the selected rounding direction.
*/
function sqrt(uint256 a, Rounding rounding) internal pure returns (uint256) {
unchecked {
uint256 result = sqrt(a);
return result + (unsignedRoundsUp(rounding) && result * result < a ? 1 : 0);
}
}
/**
* @dev Return the log in base 2 of a positive value rounded towards zero.
* Returns 0 if given 0.
*/
function log2(uint256 value) internal pure returns (uint256) {
uint256 result = 0;
unchecked {
if (value >> 128 > 0) {
value >>= 128;
result += 128;
}
if (value >> 64 > 0) {
value >>= 64;
result += 64;
}
if (value >> 32 > 0) {
value >>= 32;
result += 32;
}
if (value >> 16 > 0) {
value >>= 16;
result += 16;
}
if (value >> 8 > 0) {
value >>= 8;
result += 8;
}
if (value >> 4 > 0) {
value >>= 4;
result += 4;
}
if (value >> 2 > 0) {
value >>= 2;
result += 2;
}
if (value >> 1 > 0) {
result += 1;
}
}
return result;
}
/**
* @dev Return the log in base 2, following the selected rounding direction, of a positive value.
* Returns 0 if given 0.
*/
function log2(uint256 value, Rounding rounding) internal pure returns (uint256) {
unchecked {
uint256 result = log2(value);
return result + (unsignedRoundsUp(rounding) && 1 << result < value ? 1 : 0);
}
}
/**
* @dev Return the log in base 10 of a positive value rounded towards zero.
* Returns 0 if given 0.
*/
function log10(uint256 value) internal pure returns (uint256) {
uint256 result = 0;
unchecked {
if (value >= 10 ** 64) {
value /= 10 ** 64;
result += 64;
}
if (value >= 10 ** 32) {
value /= 10 ** 32;
result += 32;
}
if (value >= 10 ** 16) {
value /= 10 ** 16;
result += 16;
}
if (value >= 10 ** 8) {
value /= 10 ** 8;
result += 8;
}
if (value >= 10 ** 4) {
value /= 10 ** 4;
result += 4;
}
if (value >= 10 ** 2) {
value /= 10 ** 2;
result += 2;
}
if (value >= 10 ** 1) {
result += 1;
}
}
return result;
}
/**
* @dev Return the log in base 10, following the selected rounding direction, of a positive value.
* Returns 0 if given 0.
*/
function log10(uint256 value, Rounding rounding) internal pure returns (uint256) {
unchecked {
uint256 result = log10(value);
return result + (unsignedRoundsUp(rounding) && 10 ** result < value ? 1 : 0);
}
}
/**
* @dev Return the log in base 256 of a positive value rounded towards zero.
* Returns 0 if given 0.
*
* Adding one to the result gives the number of pairs of hex symbols needed to represent `value` as a hex string.
*/
function log256(uint256 value) internal pure returns (uint256) {
uint256 result = 0;
unchecked {
if (value >> 128 > 0) {
value >>= 128;
result += 16;
}
if (value >> 64 > 0) {
value >>= 64;
result += 8;
}
if (value >> 32 > 0) {
value >>= 32;
result += 4;
}
if (value >> 16 > 0) {
value >>= 16;
result += 2;
}
if (value >> 8 > 0) {
result += 1;
}
}
return result;
}
/**
* @dev Return the log in base 256, following the selected rounding direction, of a positive value.
* Returns 0 if given 0.
*/
function log256(uint256 value, Rounding rounding) internal pure returns (uint256) {
unchecked {
uint256 result = log256(value);
return result + (unsignedRoundsUp(rounding) && 1 << (result << 3) < value ? 1 : 0);
}
}
/**
* @dev Returns whether a provided rounding mode is considered rounding up for unsigned integers.
*/
function unsignedRoundsUp(Rounding rounding) internal pure returns (bool) {
return uint8(rounding) % 2 == 1;
}
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (utils/math/SignedMath.sol)
pragma solidity ^0.8.20;
/**
* @dev Standard signed math utilities missing in the Solidity language.
*/
library SignedMath {
/**
* @dev Returns the largest of two signed numbers.
*/
function max(int256 a, int256 b) internal pure returns (int256) {
return a > b ? a : b;
}
/**
* @dev Returns the smallest of two signed numbers.
*/
function min(int256 a, int256 b) internal pure returns (int256) {
return a < b ? a : b;
}
/**
* @dev Returns the average of two signed numbers without overflow.
* The result is rounded towards zero.
*/
function average(int256 a, int256 b) internal pure returns (int256) {
// Formula from the book "Hacker's Delight"
int256 x = (a & b) + ((a ^ b) >> 1);
return x + (int256(uint256(x) >> 255) & (a ^ b));
}
/**
* @dev Returns the absolute unsigned value of a signed value.
*/
function abs(int256 n) internal pure returns (uint256) {
unchecked {
// must be unchecked in order to support `n = type(int256).min`
return uint256(n >= 0 ? n : -n);
}
}
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "./Errors.sol" as CastingErrors;
import { MAX_UINT128, MAX_UINT40 } from "../Common.sol";
import { uMAX_SD1x18 } from "../sd1x18/Constants.sol";
import { SD1x18 } from "../sd1x18/ValueType.sol";
import { uMAX_SD59x18 } from "../sd59x18/Constants.sol";
import { SD59x18 } from "../sd59x18/ValueType.sol";
import { uMAX_UD2x18 } from "../ud2x18/Constants.sol";
import { UD2x18 } from "../ud2x18/ValueType.sol";
import { UD60x18 } from "./ValueType.sol";
/// @notice Casts a UD60x18 number into SD1x18.
/// @dev Requirements:
/// - x must be less than or equal to `uMAX_SD1x18`.
function intoSD1x18(UD60x18 x) pure returns (SD1x18 result) {
uint256 xUint = UD60x18.unwrap(x);
if (xUint > uint256(int256(uMAX_SD1x18))) {
revert CastingErrors.PRBMath_UD60x18_IntoSD1x18_Overflow(x);
}
result = SD1x18.wrap(int64(uint64(xUint)));
}
/// @notice Casts a UD60x18 number into UD2x18.
/// @dev Requirements:
/// - x must be less than or equal to `uMAX_UD2x18`.
function intoUD2x18(UD60x18 x) pure returns (UD2x18 result) {
uint256 xUint = UD60x18.unwrap(x);
if (xUint > uMAX_UD2x18) {
revert CastingErrors.PRBMath_UD60x18_IntoUD2x18_Overflow(x);
}
result = UD2x18.wrap(uint64(xUint));
}
/// @notice Casts a UD60x18 number into SD59x18.
/// @dev Requirements:
/// - x must be less than or equal to `uMAX_SD59x18`.
function intoSD59x18(UD60x18 x) pure returns (SD59x18 result) {
uint256 xUint = UD60x18.unwrap(x);
if (xUint > uint256(uMAX_SD59x18)) {
revert CastingErrors.PRBMath_UD60x18_IntoSD59x18_Overflow(x);
}
result = SD59x18.wrap(int256(xUint));
}
/// @notice Casts a UD60x18 number into uint128.
/// @dev This is basically an alias for {unwrap}.
function intoUint256(UD60x18 x) pure returns (uint256 result) {
result = UD60x18.unwrap(x);
}
/// @notice Casts a UD60x18 number into uint128.
/// @dev Requirements:
/// - x must be less than or equal to `MAX_UINT128`.
function intoUint128(UD60x18 x) pure returns (uint128 result) {
uint256 xUint = UD60x18.unwrap(x);
if (xUint > MAX_UINT128) {
revert CastingErrors.PRBMath_UD60x18_IntoUint128_Overflow(x);
}
result = uint128(xUint);
}
/// @notice Casts a UD60x18 number into uint40.
/// @dev Requirements:
/// - x must be less than or equal to `MAX_UINT40`.
function intoUint40(UD60x18 x) pure returns (uint40 result) {
uint256 xUint = UD60x18.unwrap(x);
if (xUint > MAX_UINT40) {
revert CastingErrors.PRBMath_UD60x18_IntoUint40_Overflow(x);
}
result = uint40(xUint);
}
/// @notice Alias for {wrap}.
function ud(uint256 x) pure returns (UD60x18 result) {
result = UD60x18.wrap(x);
}
/// @notice Alias for {wrap}.
function ud60x18(uint256 x) pure returns (UD60x18 result) {
result = UD60x18.wrap(x);
}
/// @notice Unwraps a UD60x18 number into uint256.
function unwrap(UD60x18 x) pure returns (uint256 result) {
result = UD60x18.unwrap(x);
}
/// @notice Wraps a uint256 number into the UD60x18 value type.
function wrap(uint256 x) pure returns (UD60x18 result) {
result = UD60x18.wrap(x);
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { UD60x18 } from "./ValueType.sol";
// NOTICE: the "u" prefix stands for "unwrapped".
/// @dev Euler's number as a UD60x18 number.
UD60x18 constant E = UD60x18.wrap(2_718281828459045235);
/// @dev The maximum input permitted in {exp}.
uint256 constant uEXP_MAX_INPUT = 133_084258667509499440;
UD60x18 constant EXP_MAX_INPUT = UD60x18.wrap(uEXP_MAX_INPUT);
/// @dev The maximum input permitted in {exp2}.
uint256 constant uEXP2_MAX_INPUT = 192e18 - 1;
UD60x18 constant EXP2_MAX_INPUT = UD60x18.wrap(uEXP2_MAX_INPUT);
/// @dev Half the UNIT number.
uint256 constant uHALF_UNIT = 0.5e18;
UD60x18 constant HALF_UNIT = UD60x18.wrap(uHALF_UNIT);
/// @dev $log_2(10)$ as a UD60x18 number.
uint256 constant uLOG2_10 = 3_321928094887362347;
UD60x18 constant LOG2_10 = UD60x18.wrap(uLOG2_10);
/// @dev $log_2(e)$ as a UD60x18 number.
uint256 constant uLOG2_E = 1_442695040888963407;
UD60x18 constant LOG2_E = UD60x18.wrap(uLOG2_E);
/// @dev The maximum value a UD60x18 number can have.
uint256 constant uMAX_UD60x18 = 115792089237316195423570985008687907853269984665640564039457_584007913129639935;
UD60x18 constant MAX_UD60x18 = UD60x18.wrap(uMAX_UD60x18);
/// @dev The maximum whole value a UD60x18 number can have.
uint256 constant uMAX_WHOLE_UD60x18 = 115792089237316195423570985008687907853269984665640564039457_000000000000000000;
UD60x18 constant MAX_WHOLE_UD60x18 = UD60x18.wrap(uMAX_WHOLE_UD60x18);
/// @dev PI as a UD60x18 number.
UD60x18 constant PI = UD60x18.wrap(3_141592653589793238);
/// @dev The unit number, which gives the decimal precision of UD60x18.
uint256 constant uUNIT = 1e18;
UD60x18 constant UNIT = UD60x18.wrap(uUNIT);
/// @dev The unit number squared.
uint256 constant uUNIT_SQUARED = 1e36;
UD60x18 constant UNIT_SQUARED = UD60x18.wrap(uUNIT_SQUARED);
/// @dev Zero as a UD60x18 number.
UD60x18 constant ZERO = UD60x18.wrap(0);// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { uMAX_UD60x18, uUNIT } from "./Constants.sol";
import { PRBMath_UD60x18_Convert_Overflow } from "./Errors.sol";
import { UD60x18 } from "./ValueType.sol";
/// @notice Converts a UD60x18 number to a simple integer by dividing it by `UNIT`.
/// @dev The result is rounded toward zero.
/// @param x The UD60x18 number to convert.
/// @return result The same number in basic integer form.
function convert(UD60x18 x) pure returns (uint256 result) {
result = UD60x18.unwrap(x) / uUNIT;
}
/// @notice Converts a simple integer to UD60x18 by multiplying it by `UNIT`.
///
/// @dev Requirements:
/// - x must be less than or equal to `MAX_UD60x18 / UNIT`.
///
/// @param x The basic integer to convert.
/// @param result The same number converted to UD60x18.
function convert(uint256 x) pure returns (UD60x18 result) {
if (x > uMAX_UD60x18 / uUNIT) {
revert PRBMath_UD60x18_Convert_Overflow(x);
}
unchecked {
result = UD60x18.wrap(x * uUNIT);
}
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { UD60x18 } from "./ValueType.sol";
/// @notice Thrown when ceiling a number overflows UD60x18.
error PRBMath_UD60x18_Ceil_Overflow(UD60x18 x);
/// @notice Thrown when converting a basic integer to the fixed-point format overflows UD60x18.
error PRBMath_UD60x18_Convert_Overflow(uint256 x);
/// @notice Thrown when taking the natural exponent of a base greater than 133_084258667509499441.
error PRBMath_UD60x18_Exp_InputTooBig(UD60x18 x);
/// @notice Thrown when taking the binary exponent of a base greater than 192e18.
error PRBMath_UD60x18_Exp2_InputTooBig(UD60x18 x);
/// @notice Thrown when taking the geometric mean of two numbers and multiplying them overflows UD60x18.
error PRBMath_UD60x18_Gm_Overflow(UD60x18 x, UD60x18 y);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in SD1x18.
error PRBMath_UD60x18_IntoSD1x18_Overflow(UD60x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in SD59x18.
error PRBMath_UD60x18_IntoSD59x18_Overflow(UD60x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in UD2x18.
error PRBMath_UD60x18_IntoUD2x18_Overflow(UD60x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint128.
error PRBMath_UD60x18_IntoUint128_Overflow(UD60x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint40.
error PRBMath_UD60x18_IntoUint40_Overflow(UD60x18 x);
/// @notice Thrown when taking the logarithm of a number less than 1.
error PRBMath_UD60x18_Log_InputTooSmall(UD60x18 x);
/// @notice Thrown when calculating the square root overflows UD60x18.
error PRBMath_UD60x18_Sqrt_Overflow(UD60x18 x);// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { wrap } from "./Casting.sol";
import { UD60x18 } from "./ValueType.sol";
/// @notice Implements the checked addition operation (+) in the UD60x18 type.
function add(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(x.unwrap() + y.unwrap());
}
/// @notice Implements the AND (&) bitwise operation in the UD60x18 type.
function and(UD60x18 x, uint256 bits) pure returns (UD60x18 result) {
result = wrap(x.unwrap() & bits);
}
/// @notice Implements the AND (&) bitwise operation in the UD60x18 type.
function and2(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(x.unwrap() & y.unwrap());
}
/// @notice Implements the equal operation (==) in the UD60x18 type.
function eq(UD60x18 x, UD60x18 y) pure returns (bool result) {
result = x.unwrap() == y.unwrap();
}
/// @notice Implements the greater than operation (>) in the UD60x18 type.
function gt(UD60x18 x, UD60x18 y) pure returns (bool result) {
result = x.unwrap() > y.unwrap();
}
/// @notice Implements the greater than or equal to operation (>=) in the UD60x18 type.
function gte(UD60x18 x, UD60x18 y) pure returns (bool result) {
result = x.unwrap() >= y.unwrap();
}
/// @notice Implements a zero comparison check function in the UD60x18 type.
function isZero(UD60x18 x) pure returns (bool result) {
// This wouldn't work if x could be negative.
result = x.unwrap() == 0;
}
/// @notice Implements the left shift operation (<<) in the UD60x18 type.
function lshift(UD60x18 x, uint256 bits) pure returns (UD60x18 result) {
result = wrap(x.unwrap() << bits);
}
/// @notice Implements the lower than operation (<) in the UD60x18 type.
function lt(UD60x18 x, UD60x18 y) pure returns (bool result) {
result = x.unwrap() < y.unwrap();
}
/// @notice Implements the lower than or equal to operation (<=) in the UD60x18 type.
function lte(UD60x18 x, UD60x18 y) pure returns (bool result) {
result = x.unwrap() <= y.unwrap();
}
/// @notice Implements the checked modulo operation (%) in the UD60x18 type.
function mod(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(x.unwrap() % y.unwrap());
}
/// @notice Implements the not equal operation (!=) in the UD60x18 type.
function neq(UD60x18 x, UD60x18 y) pure returns (bool result) {
result = x.unwrap() != y.unwrap();
}
/// @notice Implements the NOT (~) bitwise operation in the UD60x18 type.
function not(UD60x18 x) pure returns (UD60x18 result) {
result = wrap(~x.unwrap());
}
/// @notice Implements the OR (|) bitwise operation in the UD60x18 type.
function or(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(x.unwrap() | y.unwrap());
}
/// @notice Implements the right shift operation (>>) in the UD60x18 type.
function rshift(UD60x18 x, uint256 bits) pure returns (UD60x18 result) {
result = wrap(x.unwrap() >> bits);
}
/// @notice Implements the checked subtraction operation (-) in the UD60x18 type.
function sub(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(x.unwrap() - y.unwrap());
}
/// @notice Implements the unchecked addition operation (+) in the UD60x18 type.
function uncheckedAdd(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
unchecked {
result = wrap(x.unwrap() + y.unwrap());
}
}
/// @notice Implements the unchecked subtraction operation (-) in the UD60x18 type.
function uncheckedSub(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
unchecked {
result = wrap(x.unwrap() - y.unwrap());
}
}
/// @notice Implements the XOR (^) bitwise operation in the UD60x18 type.
function xor(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(x.unwrap() ^ y.unwrap());
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "../Common.sol" as Common;
import "./Errors.sol" as Errors;
import { wrap } from "./Casting.sol";
import {
uEXP_MAX_INPUT,
uEXP2_MAX_INPUT,
uHALF_UNIT,
uLOG2_10,
uLOG2_E,
uMAX_UD60x18,
uMAX_WHOLE_UD60x18,
UNIT,
uUNIT,
uUNIT_SQUARED,
ZERO
} from "./Constants.sol";
import { UD60x18 } from "./ValueType.sol";
/*//////////////////////////////////////////////////////////////////////////
MATHEMATICAL FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Calculates the arithmetic average of x and y using the following formula:
///
/// $$
/// avg(x, y) = (x & y) + ((xUint ^ yUint) / 2)
/// $$
///
/// In English, this is what this formula does:
///
/// 1. AND x and y.
/// 2. Calculate half of XOR x and y.
/// 3. Add the two results together.
///
/// This technique is known as SWAR, which stands for "SIMD within a register". You can read more about it here:
/// https://devblogs.microsoft.com/oldnewthing/20220207-00/?p=106223
///
/// @dev Notes:
/// - The result is rounded toward zero.
///
/// @param x The first operand as a UD60x18 number.
/// @param y The second operand as a UD60x18 number.
/// @return result The arithmetic average as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function avg(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
uint256 yUint = y.unwrap();
unchecked {
result = wrap((xUint & yUint) + ((xUint ^ yUint) >> 1));
}
}
/// @notice Yields the smallest whole number greater than or equal to x.
///
/// @dev This is optimized for fractional value inputs, because for every whole value there are (1e18 - 1) fractional
/// counterparts. See https://en.wikipedia.org/wiki/Floor_and_ceiling_functions.
///
/// Requirements:
/// - x must be less than or equal to `MAX_WHOLE_UD60x18`.
///
/// @param x The UD60x18 number to ceil.
/// @param result The smallest whole number greater than or equal to x, as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function ceil(UD60x18 x) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
if (xUint > uMAX_WHOLE_UD60x18) {
revert Errors.PRBMath_UD60x18_Ceil_Overflow(x);
}
assembly ("memory-safe") {
// Equivalent to `x % UNIT`.
let remainder := mod(x, uUNIT)
// Equivalent to `UNIT - remainder`.
let delta := sub(uUNIT, remainder)
// Equivalent to `x + remainder > 0 ? delta : 0`.
result := add(x, mul(delta, gt(remainder, 0)))
}
}
/// @notice Divides two UD60x18 numbers, returning a new UD60x18 number.
///
/// @dev Uses {Common.mulDiv} to enable overflow-safe multiplication and division.
///
/// Notes:
/// - Refer to the notes in {Common.mulDiv}.
///
/// Requirements:
/// - Refer to the requirements in {Common.mulDiv}.
///
/// @param x The numerator as a UD60x18 number.
/// @param y The denominator as a UD60x18 number.
/// @param result The quotient as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function div(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(Common.mulDiv(x.unwrap(), uUNIT, y.unwrap()));
}
/// @notice Calculates the natural exponent of x using the following formula:
///
/// $$
/// e^x = 2^{x * log_2{e}}
/// $$
///
/// @dev Requirements:
/// - x must be less than 133_084258667509499441.
///
/// @param x The exponent as a UD60x18 number.
/// @return result The result as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function exp(UD60x18 x) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
// This check prevents values greater than 192e18 from being passed to {exp2}.
if (xUint > uEXP_MAX_INPUT) {
revert Errors.PRBMath_UD60x18_Exp_InputTooBig(x);
}
unchecked {
// Inline the fixed-point multiplication to save gas.
uint256 doubleUnitProduct = xUint * uLOG2_E;
result = exp2(wrap(doubleUnitProduct / uUNIT));
}
}
/// @notice Calculates the binary exponent of x using the binary fraction method.
///
/// @dev See https://ethereum.stackexchange.com/q/79903/24693
///
/// Requirements:
/// - x must be less than 192e18.
/// - The result must fit in UD60x18.
///
/// @param x The exponent as a UD60x18 number.
/// @return result The result as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function exp2(UD60x18 x) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
// Numbers greater than or equal to 192e18 don't fit in the 192.64-bit format.
if (xUint > uEXP2_MAX_INPUT) {
revert Errors.PRBMath_UD60x18_Exp2_InputTooBig(x);
}
// Convert x to the 192.64-bit fixed-point format.
uint256 x_192x64 = (xUint << 64) / uUNIT;
// Pass x to the {Common.exp2} function, which uses the 192.64-bit fixed-point number representation.
result = wrap(Common.exp2(x_192x64));
}
/// @notice Yields the greatest whole number less than or equal to x.
/// @dev Optimized for fractional value inputs, because every whole value has (1e18 - 1) fractional counterparts.
/// See https://en.wikipedia.org/wiki/Floor_and_ceiling_functions.
/// @param x The UD60x18 number to floor.
/// @param result The greatest whole number less than or equal to x, as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function floor(UD60x18 x) pure returns (UD60x18 result) {
assembly ("memory-safe") {
// Equivalent to `x % UNIT`.
let remainder := mod(x, uUNIT)
// Equivalent to `x - remainder > 0 ? remainder : 0)`.
result := sub(x, mul(remainder, gt(remainder, 0)))
}
}
/// @notice Yields the excess beyond the floor of x using the odd function definition.
/// @dev See https://en.wikipedia.org/wiki/Fractional_part.
/// @param x The UD60x18 number to get the fractional part of.
/// @param result The fractional part of x as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function frac(UD60x18 x) pure returns (UD60x18 result) {
assembly ("memory-safe") {
result := mod(x, uUNIT)
}
}
/// @notice Calculates the geometric mean of x and y, i.e. $\sqrt{x * y}$, rounding down.
///
/// @dev Requirements:
/// - x * y must fit in UD60x18.
///
/// @param x The first operand as a UD60x18 number.
/// @param y The second operand as a UD60x18 number.
/// @return result The result as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function gm(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
uint256 yUint = y.unwrap();
if (xUint == 0 || yUint == 0) {
return ZERO;
}
unchecked {
// Checking for overflow this way is faster than letting Solidity do it.
uint256 xyUint = xUint * yUint;
if (xyUint / xUint != yUint) {
revert Errors.PRBMath_UD60x18_Gm_Overflow(x, y);
}
// We don't need to multiply the result by `UNIT` here because the x*y product picked up a factor of `UNIT`
// during multiplication. See the comments in {Common.sqrt}.
result = wrap(Common.sqrt(xyUint));
}
}
/// @notice Calculates the inverse of x.
///
/// @dev Notes:
/// - The result is rounded toward zero.
///
/// Requirements:
/// - x must not be zero.
///
/// @param x The UD60x18 number for which to calculate the inverse.
/// @return result The inverse as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function inv(UD60x18 x) pure returns (UD60x18 result) {
unchecked {
result = wrap(uUNIT_SQUARED / x.unwrap());
}
}
/// @notice Calculates the natural logarithm of x using the following formula:
///
/// $$
/// ln{x} = log_2{x} / log_2{e}
/// $$
///
/// @dev Notes:
/// - Refer to the notes in {log2}.
/// - The precision isn't sufficiently fine-grained to return exactly `UNIT` when the input is `E`.
///
/// Requirements:
/// - Refer to the requirements in {log2}.
///
/// @param x The UD60x18 number for which to calculate the natural logarithm.
/// @return result The natural logarithm as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function ln(UD60x18 x) pure returns (UD60x18 result) {
unchecked {
// Inline the fixed-point multiplication to save gas. This is overflow-safe because the maximum value that
// {log2} can return is ~196_205294292027477728.
result = wrap(log2(x).unwrap() * uUNIT / uLOG2_E);
}
}
/// @notice Calculates the common logarithm of x using the following formula:
///
/// $$
/// log_{10}{x} = log_2{x} / log_2{10}
/// $$
///
/// However, if x is an exact power of ten, a hard coded value is returned.
///
/// @dev Notes:
/// - Refer to the notes in {log2}.
///
/// Requirements:
/// - Refer to the requirements in {log2}.
///
/// @param x The UD60x18 number for which to calculate the common logarithm.
/// @return result The common logarithm as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function log10(UD60x18 x) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
if (xUint < uUNIT) {
revert Errors.PRBMath_UD60x18_Log_InputTooSmall(x);
}
// Note that the `mul` in this assembly block is the standard multiplication operation, not {UD60x18.mul}.
// prettier-ignore
assembly ("memory-safe") {
switch x
case 1 { result := mul(uUNIT, sub(0, 18)) }
case 10 { result := mul(uUNIT, sub(1, 18)) }
case 100 { result := mul(uUNIT, sub(2, 18)) }
case 1000 { result := mul(uUNIT, sub(3, 18)) }
case 10000 { result := mul(uUNIT, sub(4, 18)) }
case 100000 { result := mul(uUNIT, sub(5, 18)) }
case 1000000 { result := mul(uUNIT, sub(6, 18)) }
case 10000000 { result := mul(uUNIT, sub(7, 18)) }
case 100000000 { result := mul(uUNIT, sub(8, 18)) }
case 1000000000 { result := mul(uUNIT, sub(9, 18)) }
case 10000000000 { result := mul(uUNIT, sub(10, 18)) }
case 100000000000 { result := mul(uUNIT, sub(11, 18)) }
case 1000000000000 { result := mul(uUNIT, sub(12, 18)) }
case 10000000000000 { result := mul(uUNIT, sub(13, 18)) }
case 100000000000000 { result := mul(uUNIT, sub(14, 18)) }
case 1000000000000000 { result := mul(uUNIT, sub(15, 18)) }
case 10000000000000000 { result := mul(uUNIT, sub(16, 18)) }
case 100000000000000000 { result := mul(uUNIT, sub(17, 18)) }
case 1000000000000000000 { result := 0 }
case 10000000000000000000 { result := uUNIT }
case 100000000000000000000 { result := mul(uUNIT, 2) }
case 1000000000000000000000 { result := mul(uUNIT, 3) }
case 10000000000000000000000 { result := mul(uUNIT, 4) }
case 100000000000000000000000 { result := mul(uUNIT, 5) }
case 1000000000000000000000000 { result := mul(uUNIT, 6) }
case 10000000000000000000000000 { result := mul(uUNIT, 7) }
case 100000000000000000000000000 { result := mul(uUNIT, 8) }
case 1000000000000000000000000000 { result := mul(uUNIT, 9) }
case 10000000000000000000000000000 { result := mul(uUNIT, 10) }
case 100000000000000000000000000000 { result := mul(uUNIT, 11) }
case 1000000000000000000000000000000 { result := mul(uUNIT, 12) }
case 10000000000000000000000000000000 { result := mul(uUNIT, 13) }
case 100000000000000000000000000000000 { result := mul(uUNIT, 14) }
case 1000000000000000000000000000000000 { result := mul(uUNIT, 15) }
case 10000000000000000000000000000000000 { result := mul(uUNIT, 16) }
case 100000000000000000000000000000000000 { result := mul(uUNIT, 17) }
case 1000000000000000000000000000000000000 { result := mul(uUNIT, 18) }
case 10000000000000000000000000000000000000 { result := mul(uUNIT, 19) }
case 100000000000000000000000000000000000000 { result := mul(uUNIT, 20) }
case 1000000000000000000000000000000000000000 { result := mul(uUNIT, 21) }
case 10000000000000000000000000000000000000000 { result := mul(uUNIT, 22) }
case 100000000000000000000000000000000000000000 { result := mul(uUNIT, 23) }
case 1000000000000000000000000000000000000000000 { result := mul(uUNIT, 24) }
case 10000000000000000000000000000000000000000000 { result := mul(uUNIT, 25) }
case 100000000000000000000000000000000000000000000 { result := mul(uUNIT, 26) }
case 1000000000000000000000000000000000000000000000 { result := mul(uUNIT, 27) }
case 10000000000000000000000000000000000000000000000 { result := mul(uUNIT, 28) }
case 100000000000000000000000000000000000000000000000 { result := mul(uUNIT, 29) }
case 1000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 30) }
case 10000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 31) }
case 100000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 32) }
case 1000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 33) }
case 10000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 34) }
case 100000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 35) }
case 1000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 36) }
case 10000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 37) }
case 100000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 38) }
case 1000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 39) }
case 10000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 40) }
case 100000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 41) }
case 1000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 42) }
case 10000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 43) }
case 100000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 44) }
case 1000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 45) }
case 10000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 46) }
case 100000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 47) }
case 1000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 48) }
case 10000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 49) }
case 100000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 50) }
case 1000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 51) }
case 10000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 52) }
case 100000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 53) }
case 1000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 54) }
case 10000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 55) }
case 100000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 56) }
case 1000000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 57) }
case 10000000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 58) }
case 100000000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 59) }
default { result := uMAX_UD60x18 }
}
if (result.unwrap() == uMAX_UD60x18) {
unchecked {
// Inline the fixed-point division to save gas.
result = wrap(log2(x).unwrap() * uUNIT / uLOG2_10);
}
}
}
/// @notice Calculates the binary logarithm of x using the iterative approximation algorithm:
///
/// $$
/// log_2{x} = n + log_2{y}, \text{ where } y = x*2^{-n}, \ y \in [1, 2)
/// $$
///
/// For $0 \leq x \lt 1$, the input is inverted:
///
/// $$
/// log_2{x} = -log_2{\frac{1}{x}}
/// $$
///
/// @dev See https://en.wikipedia.org/wiki/Binary_logarithm#Iterative_approximation
///
/// Notes:
/// - Due to the lossy precision of the iterative approximation, the results are not perfectly accurate to the last decimal.
///
/// Requirements:
/// - x must be greater than zero.
///
/// @param x The UD60x18 number for which to calculate the binary logarithm.
/// @return result The binary logarithm as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function log2(UD60x18 x) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
if (xUint < uUNIT) {
revert Errors.PRBMath_UD60x18_Log_InputTooSmall(x);
}
unchecked {
// Calculate the integer part of the logarithm.
uint256 n = Common.msb(xUint / uUNIT);
// This is the integer part of the logarithm as a UD60x18 number. The operation can't overflow because n
// n is at most 255 and UNIT is 1e18.
uint256 resultUint = n * uUNIT;
// Calculate $y = x * 2^{-n}$.
uint256 y = xUint >> n;
// If y is the unit number, the fractional part is zero.
if (y == uUNIT) {
return wrap(resultUint);
}
// Calculate the fractional part via the iterative approximation.
// The `delta >>= 1` part is equivalent to `delta /= 2`, but shifting bits is more gas efficient.
uint256 DOUBLE_UNIT = 2e18;
for (uint256 delta = uHALF_UNIT; delta > 0; delta >>= 1) {
y = (y * y) / uUNIT;
// Is y^2 >= 2e18 and so in the range [2e18, 4e18)?
if (y >= DOUBLE_UNIT) {
// Add the 2^{-m} factor to the logarithm.
resultUint += delta;
// Halve y, which corresponds to z/2 in the Wikipedia article.
y >>= 1;
}
}
result = wrap(resultUint);
}
}
/// @notice Multiplies two UD60x18 numbers together, returning a new UD60x18 number.
///
/// @dev Uses {Common.mulDiv} to enable overflow-safe multiplication and division.
///
/// Notes:
/// - Refer to the notes in {Common.mulDiv}.
///
/// Requirements:
/// - Refer to the requirements in {Common.mulDiv}.
///
/// @dev See the documentation in {Common.mulDiv18}.
/// @param x The multiplicand as a UD60x18 number.
/// @param y The multiplier as a UD60x18 number.
/// @return result The product as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function mul(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
result = wrap(Common.mulDiv18(x.unwrap(), y.unwrap()));
}
/// @notice Raises x to the power of y.
///
/// For $1 \leq x \leq \infty$, the following standard formula is used:
///
/// $$
/// x^y = 2^{log_2{x} * y}
/// $$
///
/// For $0 \leq x \lt 1$, since the unsigned {log2} is undefined, an equivalent formula is used:
///
/// $$
/// i = \frac{1}{x}
/// w = 2^{log_2{i} * y}
/// x^y = \frac{1}{w}
/// $$
///
/// @dev Notes:
/// - Refer to the notes in {log2} and {mul}.
/// - Returns `UNIT` for 0^0.
/// - It may not perform well with very small values of x. Consider using SD59x18 as an alternative.
///
/// Requirements:
/// - Refer to the requirements in {exp2}, {log2}, and {mul}.
///
/// @param x The base as a UD60x18 number.
/// @param y The exponent as a UD60x18 number.
/// @return result The result as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function pow(UD60x18 x, UD60x18 y) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
uint256 yUint = y.unwrap();
// If both x and y are zero, the result is `UNIT`. If just x is zero, the result is always zero.
if (xUint == 0) {
return yUint == 0 ? UNIT : ZERO;
}
// If x is `UNIT`, the result is always `UNIT`.
else if (xUint == uUNIT) {
return UNIT;
}
// If y is zero, the result is always `UNIT`.
if (yUint == 0) {
return UNIT;
}
// If y is `UNIT`, the result is always x.
else if (yUint == uUNIT) {
return x;
}
// If x is greater than `UNIT`, use the standard formula.
if (xUint > uUNIT) {
result = exp2(mul(log2(x), y));
}
// Conversely, if x is less than `UNIT`, use the equivalent formula.
else {
UD60x18 i = wrap(uUNIT_SQUARED / xUint);
UD60x18 w = exp2(mul(log2(i), y));
result = wrap(uUNIT_SQUARED / w.unwrap());
}
}
/// @notice Raises x (a UD60x18 number) to the power y (an unsigned basic integer) using the well-known
/// algorithm "exponentiation by squaring".
///
/// @dev See https://en.wikipedia.org/wiki/Exponentiation_by_squaring.
///
/// Notes:
/// - Refer to the notes in {Common.mulDiv18}.
/// - Returns `UNIT` for 0^0.
///
/// Requirements:
/// - The result must fit in UD60x18.
///
/// @param x The base as a UD60x18 number.
/// @param y The exponent as a uint256.
/// @return result The result as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function powu(UD60x18 x, uint256 y) pure returns (UD60x18 result) {
// Calculate the first iteration of the loop in advance.
uint256 xUint = x.unwrap();
uint256 resultUint = y & 1 > 0 ? xUint : uUNIT;
// Equivalent to `for(y /= 2; y > 0; y /= 2)`.
for (y >>= 1; y > 0; y >>= 1) {
xUint = Common.mulDiv18(xUint, xUint);
// Equivalent to `y % 2 == 1`.
if (y & 1 > 0) {
resultUint = Common.mulDiv18(resultUint, xUint);
}
}
result = wrap(resultUint);
}
/// @notice Calculates the square root of x using the Babylonian method.
///
/// @dev See https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Babylonian_method.
///
/// Notes:
/// - The result is rounded toward zero.
///
/// Requirements:
/// - x must be less than `MAX_UD60x18 / UNIT`.
///
/// @param x The UD60x18 number for which to calculate the square root.
/// @return result The result as a UD60x18 number.
/// @custom:smtchecker abstract-function-nondet
function sqrt(UD60x18 x) pure returns (UD60x18 result) {
uint256 xUint = x.unwrap();
unchecked {
if (xUint > uMAX_UD60x18 / uUNIT) {
revert Errors.PRBMath_UD60x18_Sqrt_Overflow(x);
}
// Multiply x by `UNIT` to account for the factor of `UNIT` picked up when multiplying two UD60x18 numbers.
// In this case, the two numbers are both the square root.
result = wrap(Common.sqrt(xUint * uUNIT));
}
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "./Casting.sol" as Casting;
import "./Helpers.sol" as Helpers;
import "./Math.sol" as Math;
/// @notice The unsigned 60.18-decimal fixed-point number representation, which can have up to 60 digits and up to 18
/// decimals. The values of this are bound by the minimum and the maximum values permitted by the Solidity type uint256.
/// @dev The value type is defined here so it can be imported in all other files.
type UD60x18 is uint256;
/*//////////////////////////////////////////////////////////////////////////
CASTING
//////////////////////////////////////////////////////////////////////////*/
using {
Casting.intoSD1x18,
Casting.intoUD2x18,
Casting.intoSD59x18,
Casting.intoUint128,
Casting.intoUint256,
Casting.intoUint40,
Casting.unwrap
} for UD60x18 global;
/*//////////////////////////////////////////////////////////////////////////
MATHEMATICAL FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
// The global "using for" directive makes the functions in this library callable on the UD60x18 type.
using {
Math.avg,
Math.ceil,
Math.div,
Math.exp,
Math.exp2,
Math.floor,
Math.frac,
Math.gm,
Math.inv,
Math.ln,
Math.log10,
Math.log2,
Math.mul,
Math.pow,
Math.powu,
Math.sqrt
} for UD60x18 global;
/*//////////////////////////////////////////////////////////////////////////
HELPER FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
// The global "using for" directive makes the functions in this library callable on the UD60x18 type.
using {
Helpers.add,
Helpers.and,
Helpers.eq,
Helpers.gt,
Helpers.gte,
Helpers.isZero,
Helpers.lshift,
Helpers.lt,
Helpers.lte,
Helpers.mod,
Helpers.neq,
Helpers.not,
Helpers.or,
Helpers.rshift,
Helpers.sub,
Helpers.uncheckedAdd,
Helpers.uncheckedSub,
Helpers.xor
} for UD60x18 global;
/*//////////////////////////////////////////////////////////////////////////
OPERATORS
//////////////////////////////////////////////////////////////////////////*/
// The global "using for" directive makes it possible to use these operators on the UD60x18 type.
using {
Helpers.add as +,
Helpers.and2 as &,
Math.div as /,
Helpers.eq as ==,
Helpers.gt as >,
Helpers.gte as >=,
Helpers.lt as <,
Helpers.lte as <=,
Helpers.or as |,
Helpers.mod as %,
Math.mul as *,
Helpers.neq as !=,
Helpers.not as ~,
Helpers.sub as -,
Helpers.xor as ^
} for UD60x18 global;// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (interfaces/IERC4906.sol)
pragma solidity ^0.8.20;
import {IERC165} from "./IERC165.sol";
import {IERC721} from "./IERC721.sol";
/// @title EIP-721 Metadata Update Extension
interface IERC4906 is IERC165, IERC721 {
/// @dev This event emits when the metadata of a token is changed.
/// So that the third-party platforms such as NFT market could
/// timely update the images and related attributes of the NFT.
event MetadataUpdate(uint256 _tokenId);
/// @dev This event emits when the metadata of a range of tokens is changed.
/// So that the third-party platforms such as NFT market could
/// timely update the images and related attributes of the NFTs.
event BatchMetadataUpdate(uint256 _fromTokenId, uint256 _toTokenId);
}// SPDX-License-Identifier: GPL-3.0-or-later
pragma solidity >=0.8.22;
/// @title IAdminable
/// @notice Contract module that provides a basic access control mechanism, with an admin that can be
/// granted exclusive access to specific functions. The inheriting contract must set the initial admin
/// in the constructor.
interface IAdminable {
/*//////////////////////////////////////////////////////////////////////////
EVENTS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Emitted when the admin is transferred.
/// @param oldAdmin The address of the old admin.
/// @param newAdmin The address of the new admin.
event TransferAdmin(address indexed oldAdmin, address indexed newAdmin);
/*//////////////////////////////////////////////////////////////////////////
CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice The address of the admin account or contract.
function admin() external view returns (address);
/*//////////////////////////////////////////////////////////////////////////
NON-CONSTANT FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Transfers the contract admin to a new address.
///
/// @dev Notes:
/// - Does not revert if the admin is the same.
/// - This function can potentially leave the contract without an admin, thereby removing any
/// functionality that is only available to the admin.
///
/// Requirements:
/// - `msg.sender` must be the contract admin.
///
/// @param newAdmin The address of the new admin.
function transferAdmin(address newAdmin) external;
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "../Common.sol" as Common;
import "./Errors.sol" as Errors;
import { uMAX_SD1x18 } from "../sd1x18/Constants.sol";
import { SD1x18 } from "../sd1x18/ValueType.sol";
import { SD59x18 } from "../sd59x18/ValueType.sol";
import { UD60x18 } from "../ud60x18/ValueType.sol";
import { UD2x18 } from "./ValueType.sol";
/// @notice Casts a UD2x18 number into SD1x18.
/// - x must be less than or equal to `uMAX_SD1x18`.
function intoSD1x18(UD2x18 x) pure returns (SD1x18 result) {
uint64 xUint = UD2x18.unwrap(x);
if (xUint > uint64(uMAX_SD1x18)) {
revert Errors.PRBMath_UD2x18_IntoSD1x18_Overflow(x);
}
result = SD1x18.wrap(int64(xUint));
}
/// @notice Casts a UD2x18 number into SD59x18.
/// @dev There is no overflow check because the domain of UD2x18 is a subset of SD59x18.
function intoSD59x18(UD2x18 x) pure returns (SD59x18 result) {
result = SD59x18.wrap(int256(uint256(UD2x18.unwrap(x))));
}
/// @notice Casts a UD2x18 number into UD60x18.
/// @dev There is no overflow check because the domain of UD2x18 is a subset of UD60x18.
function intoUD60x18(UD2x18 x) pure returns (UD60x18 result) {
result = UD60x18.wrap(UD2x18.unwrap(x));
}
/// @notice Casts a UD2x18 number into uint128.
/// @dev There is no overflow check because the domain of UD2x18 is a subset of uint128.
function intoUint128(UD2x18 x) pure returns (uint128 result) {
result = uint128(UD2x18.unwrap(x));
}
/// @notice Casts a UD2x18 number into uint256.
/// @dev There is no overflow check because the domain of UD2x18 is a subset of uint256.
function intoUint256(UD2x18 x) pure returns (uint256 result) {
result = uint256(UD2x18.unwrap(x));
}
/// @notice Casts a UD2x18 number into uint40.
/// @dev Requirements:
/// - x must be less than or equal to `MAX_UINT40`.
function intoUint40(UD2x18 x) pure returns (uint40 result) {
uint64 xUint = UD2x18.unwrap(x);
if (xUint > uint64(Common.MAX_UINT40)) {
revert Errors.PRBMath_UD2x18_IntoUint40_Overflow(x);
}
result = uint40(xUint);
}
/// @notice Alias for {wrap}.
function ud2x18(uint64 x) pure returns (UD2x18 result) {
result = UD2x18.wrap(x);
}
/// @notice Unwrap a UD2x18 number into uint64.
function unwrap(UD2x18 x) pure returns (uint64 result) {
result = UD2x18.unwrap(x);
}
/// @notice Wraps a uint64 number into UD2x18.
function wrap(uint64 x) pure returns (UD2x18 result) {
result = UD2x18.wrap(x);
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { UD2x18 } from "./ValueType.sol";
/// @dev Euler's number as a UD2x18 number.
UD2x18 constant E = UD2x18.wrap(2_718281828459045235);
/// @dev The maximum value a UD2x18 number can have.
uint64 constant uMAX_UD2x18 = 18_446744073709551615;
UD2x18 constant MAX_UD2x18 = UD2x18.wrap(uMAX_UD2x18);
/// @dev PI as a UD2x18 number.
UD2x18 constant PI = UD2x18.wrap(3_141592653589793238);
/// @dev The unit number, which gives the decimal precision of UD2x18.
UD2x18 constant UNIT = UD2x18.wrap(1e18);
uint64 constant uUNIT = 1e18;// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { UD2x18 } from "./ValueType.sol";
/// @notice Thrown when trying to cast a UD2x18 number that doesn't fit in SD1x18.
error PRBMath_UD2x18_IntoSD1x18_Overflow(UD2x18 x);
/// @notice Thrown when trying to cast a UD2x18 number that doesn't fit in uint40.
error PRBMath_UD2x18_IntoUint40_Overflow(UD2x18 x);// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "./Casting.sol" as Casting;
/// @notice The unsigned 2.18-decimal fixed-point number representation, which can have up to 2 digits and up to 18
/// decimals. The values of this are bound by the minimum and the maximum values permitted by the underlying Solidity
/// type uint64. This is useful when end users want to use uint64 to save gas, e.g. with tight variable packing in contract
/// storage.
type UD2x18 is uint64;
/*//////////////////////////////////////////////////////////////////////////
CASTING
//////////////////////////////////////////////////////////////////////////*/
using {
Casting.intoSD1x18,
Casting.intoSD59x18,
Casting.intoUD60x18,
Casting.intoUint256,
Casting.intoUint128,
Casting.intoUint40,
Casting.unwrap
} for UD2x18 global;// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
// Common.sol
//
// Common mathematical functions used in both SD59x18 and UD60x18. Note that these global functions do not
// always operate with SD59x18 and UD60x18 numbers.
/*//////////////////////////////////////////////////////////////////////////
CUSTOM ERRORS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Thrown when the resultant value in {mulDiv} overflows uint256.
error PRBMath_MulDiv_Overflow(uint256 x, uint256 y, uint256 denominator);
/// @notice Thrown when the resultant value in {mulDiv18} overflows uint256.
error PRBMath_MulDiv18_Overflow(uint256 x, uint256 y);
/// @notice Thrown when one of the inputs passed to {mulDivSigned} is `type(int256).min`.
error PRBMath_MulDivSigned_InputTooSmall();
/// @notice Thrown when the resultant value in {mulDivSigned} overflows int256.
error PRBMath_MulDivSigned_Overflow(int256 x, int256 y);
/*//////////////////////////////////////////////////////////////////////////
CONSTANTS
//////////////////////////////////////////////////////////////////////////*/
/// @dev The maximum value a uint128 number can have.
uint128 constant MAX_UINT128 = type(uint128).max;
/// @dev The maximum value a uint40 number can have.
uint40 constant MAX_UINT40 = type(uint40).max;
/// @dev The unit number, which the decimal precision of the fixed-point types.
uint256 constant UNIT = 1e18;
/// @dev The unit number inverted mod 2^256.
uint256 constant UNIT_INVERSE = 78156646155174841979727994598816262306175212592076161876661_508869554232690281;
/// @dev The the largest power of two that divides the decimal value of `UNIT`. The logarithm of this value is the least significant
/// bit in the binary representation of `UNIT`.
uint256 constant UNIT_LPOTD = 262144;
/*//////////////////////////////////////////////////////////////////////////
FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
/// @notice Calculates the binary exponent of x using the binary fraction method.
/// @dev Has to use 192.64-bit fixed-point numbers. See https://ethereum.stackexchange.com/a/96594/24693.
/// @param x The exponent as an unsigned 192.64-bit fixed-point number.
/// @return result The result as an unsigned 60.18-decimal fixed-point number.
/// @custom:smtchecker abstract-function-nondet
function exp2(uint256 x) pure returns (uint256 result) {
unchecked {
// Start from 0.5 in the 192.64-bit fixed-point format.
result = 0x800000000000000000000000000000000000000000000000;
// The following logic multiplies the result by $\sqrt{2^{-i}}$ when the bit at position i is 1. Key points:
//
// 1. Intermediate results will not overflow, as the starting point is 2^191 and all magic factors are under 2^65.
// 2. The rationale for organizing the if statements into groups of 8 is gas savings. If the result of performing
// a bitwise AND operation between x and any value in the array [0x80; 0x40; 0x20; 0x10; 0x08; 0x04; 0x02; 0x01] is 1,
// we know that `x & 0xFF` is also 1.
if (x & 0xFF00000000000000 > 0) {
if (x & 0x8000000000000000 > 0) {
result = (result * 0x16A09E667F3BCC909) >> 64;
}
if (x & 0x4000000000000000 > 0) {
result = (result * 0x1306FE0A31B7152DF) >> 64;
}
if (x & 0x2000000000000000 > 0) {
result = (result * 0x1172B83C7D517ADCE) >> 64;
}
if (x & 0x1000000000000000 > 0) {
result = (result * 0x10B5586CF9890F62A) >> 64;
}
if (x & 0x800000000000000 > 0) {
result = (result * 0x1059B0D31585743AE) >> 64;
}
if (x & 0x400000000000000 > 0) {
result = (result * 0x102C9A3E778060EE7) >> 64;
}
if (x & 0x200000000000000 > 0) {
result = (result * 0x10163DA9FB33356D8) >> 64;
}
if (x & 0x100000000000000 > 0) {
result = (result * 0x100B1AFA5ABCBED61) >> 64;
}
}
if (x & 0xFF000000000000 > 0) {
if (x & 0x80000000000000 > 0) {
result = (result * 0x10058C86DA1C09EA2) >> 64;
}
if (x & 0x40000000000000 > 0) {
result = (result * 0x1002C605E2E8CEC50) >> 64;
}
if (x & 0x20000000000000 > 0) {
result = (result * 0x100162F3904051FA1) >> 64;
}
if (x & 0x10000000000000 > 0) {
result = (result * 0x1000B175EFFDC76BA) >> 64;
}
if (x & 0x8000000000000 > 0) {
result = (result * 0x100058BA01FB9F96D) >> 64;
}
if (x & 0x4000000000000 > 0) {
result = (result * 0x10002C5CC37DA9492) >> 64;
}
if (x & 0x2000000000000 > 0) {
result = (result * 0x1000162E525EE0547) >> 64;
}
if (x & 0x1000000000000 > 0) {
result = (result * 0x10000B17255775C04) >> 64;
}
}
if (x & 0xFF0000000000 > 0) {
if (x & 0x800000000000 > 0) {
result = (result * 0x1000058B91B5BC9AE) >> 64;
}
if (x & 0x400000000000 > 0) {
result = (result * 0x100002C5C89D5EC6D) >> 64;
}
if (x & 0x200000000000 > 0) {
result = (result * 0x10000162E43F4F831) >> 64;
}
if (x & 0x100000000000 > 0) {
result = (result * 0x100000B1721BCFC9A) >> 64;
}
if (x & 0x80000000000 > 0) {
result = (result * 0x10000058B90CF1E6E) >> 64;
}
if (x & 0x40000000000 > 0) {
result = (result * 0x1000002C5C863B73F) >> 64;
}
if (x & 0x20000000000 > 0) {
result = (result * 0x100000162E430E5A2) >> 64;
}
if (x & 0x10000000000 > 0) {
result = (result * 0x1000000B172183551) >> 64;
}
}
if (x & 0xFF00000000 > 0) {
if (x & 0x8000000000 > 0) {
result = (result * 0x100000058B90C0B49) >> 64;
}
if (x & 0x4000000000 > 0) {
result = (result * 0x10000002C5C8601CC) >> 64;
}
if (x & 0x2000000000 > 0) {
result = (result * 0x1000000162E42FFF0) >> 64;
}
if (x & 0x1000000000 > 0) {
result = (result * 0x10000000B17217FBB) >> 64;
}
if (x & 0x800000000 > 0) {
result = (result * 0x1000000058B90BFCE) >> 64;
}
if (x & 0x400000000 > 0) {
result = (result * 0x100000002C5C85FE3) >> 64;
}
if (x & 0x200000000 > 0) {
result = (result * 0x10000000162E42FF1) >> 64;
}
if (x & 0x100000000 > 0) {
result = (result * 0x100000000B17217F8) >> 64;
}
}
if (x & 0xFF000000 > 0) {
if (x & 0x80000000 > 0) {
result = (result * 0x10000000058B90BFC) >> 64;
}
if (x & 0x40000000 > 0) {
result = (result * 0x1000000002C5C85FE) >> 64;
}
if (x & 0x20000000 > 0) {
result = (result * 0x100000000162E42FF) >> 64;
}
if (x & 0x10000000 > 0) {
result = (result * 0x1000000000B17217F) >> 64;
}
if (x & 0x8000000 > 0) {
result = (result * 0x100000000058B90C0) >> 64;
}
if (x & 0x4000000 > 0) {
result = (result * 0x10000000002C5C860) >> 64;
}
if (x & 0x2000000 > 0) {
result = (result * 0x1000000000162E430) >> 64;
}
if (x & 0x1000000 > 0) {
result = (result * 0x10000000000B17218) >> 64;
}
}
if (x & 0xFF0000 > 0) {
if (x & 0x800000 > 0) {
result = (result * 0x1000000000058B90C) >> 64;
}
if (x & 0x400000 > 0) {
result = (result * 0x100000000002C5C86) >> 64;
}
if (x & 0x200000 > 0) {
result = (result * 0x10000000000162E43) >> 64;
}
if (x & 0x100000 > 0) {
result = (result * 0x100000000000B1721) >> 64;
}
if (x & 0x80000 > 0) {
result = (result * 0x10000000000058B91) >> 64;
}
if (x & 0x40000 > 0) {
result = (result * 0x1000000000002C5C8) >> 64;
}
if (x & 0x20000 > 0) {
result = (result * 0x100000000000162E4) >> 64;
}
if (x & 0x10000 > 0) {
result = (result * 0x1000000000000B172) >> 64;
}
}
if (x & 0xFF00 > 0) {
if (x & 0x8000 > 0) {
result = (result * 0x100000000000058B9) >> 64;
}
if (x & 0x4000 > 0) {
result = (result * 0x10000000000002C5D) >> 64;
}
if (x & 0x2000 > 0) {
result = (result * 0x1000000000000162E) >> 64;
}
if (x & 0x1000 > 0) {
result = (result * 0x10000000000000B17) >> 64;
}
if (x & 0x800 > 0) {
result = (result * 0x1000000000000058C) >> 64;
}
if (x & 0x400 > 0) {
result = (result * 0x100000000000002C6) >> 64;
}
if (x & 0x200 > 0) {
result = (result * 0x10000000000000163) >> 64;
}
if (x & 0x100 > 0) {
result = (result * 0x100000000000000B1) >> 64;
}
}
if (x & 0xFF > 0) {
if (x & 0x80 > 0) {
result = (result * 0x10000000000000059) >> 64;
}
if (x & 0x40 > 0) {
result = (result * 0x1000000000000002C) >> 64;
}
if (x & 0x20 > 0) {
result = (result * 0x10000000000000016) >> 64;
}
if (x & 0x10 > 0) {
result = (result * 0x1000000000000000B) >> 64;
}
if (x & 0x8 > 0) {
result = (result * 0x10000000000000006) >> 64;
}
if (x & 0x4 > 0) {
result = (result * 0x10000000000000003) >> 64;
}
if (x & 0x2 > 0) {
result = (result * 0x10000000000000001) >> 64;
}
if (x & 0x1 > 0) {
result = (result * 0x10000000000000001) >> 64;
}
}
// In the code snippet below, two operations are executed simultaneously:
//
// 1. The result is multiplied by $(2^n + 1)$, where $2^n$ represents the integer part, and the additional 1
// accounts for the initial guess of 0.5. This is achieved by subtracting from 191 instead of 192.
// 2. The result is then converted to an unsigned 60.18-decimal fixed-point format.
//
// The underlying logic is based on the relationship $2^{191-ip} = 2^{ip} / 2^{191}$, where $ip$ denotes the,
// integer part, $2^n$.
result *= UNIT;
result >>= (191 - (x >> 64));
}
}
/// @notice Finds the zero-based index of the first 1 in the binary representation of x.
///
/// @dev See the note on "msb" in this Wikipedia article: https://en.wikipedia.org/wiki/Find_first_set
///
/// Each step in this implementation is equivalent to this high-level code:
///
/// ```solidity
/// if (x >= 2 ** 128) {
/// x >>= 128;
/// result += 128;
/// }
/// ```
///
/// Where 128 is replaced with each respective power of two factor. See the full high-level implementation here:
/// https://gist.github.com/PaulRBerg/f932f8693f2733e30c4d479e8e980948
///
/// The Yul instructions used below are:
///
/// - "gt" is "greater than"
/// - "or" is the OR bitwise operator
/// - "shl" is "shift left"
/// - "shr" is "shift right"
///
/// @param x The uint256 number for which to find the index of the most significant bit.
/// @return result The index of the most significant bit as a uint256.
/// @custom:smtchecker abstract-function-nondet
function msb(uint256 x) pure returns (uint256 result) {
// 2^128
assembly ("memory-safe") {
let factor := shl(7, gt(x, 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF))
x := shr(factor, x)
result := or(result, factor)
}
// 2^64
assembly ("memory-safe") {
let factor := shl(6, gt(x, 0xFFFFFFFFFFFFFFFF))
x := shr(factor, x)
result := or(result, factor)
}
// 2^32
assembly ("memory-safe") {
let factor := shl(5, gt(x, 0xFFFFFFFF))
x := shr(factor, x)
result := or(result, factor)
}
// 2^16
assembly ("memory-safe") {
let factor := shl(4, gt(x, 0xFFFF))
x := shr(factor, x)
result := or(result, factor)
}
// 2^8
assembly ("memory-safe") {
let factor := shl(3, gt(x, 0xFF))
x := shr(factor, x)
result := or(result, factor)
}
// 2^4
assembly ("memory-safe") {
let factor := shl(2, gt(x, 0xF))
x := shr(factor, x)
result := or(result, factor)
}
// 2^2
assembly ("memory-safe") {
let factor := shl(1, gt(x, 0x3))
x := shr(factor, x)
result := or(result, factor)
}
// 2^1
// No need to shift x any more.
assembly ("memory-safe") {
let factor := gt(x, 0x1)
result := or(result, factor)
}
}
/// @notice Calculates x*y÷denominator with 512-bit precision.
///
/// @dev Credits to Remco Bloemen under MIT license https://xn--2-umb.com/21/muldiv.
///
/// Notes:
/// - The result is rounded toward zero.
///
/// Requirements:
/// - The denominator must not be zero.
/// - The result must fit in uint256.
///
/// @param x The multiplicand as a uint256.
/// @param y The multiplier as a uint256.
/// @param denominator The divisor as a uint256.
/// @return result The result as a uint256.
/// @custom:smtchecker abstract-function-nondet
function mulDiv(uint256 x, uint256 y, uint256 denominator) pure returns (uint256 result) {
// 512-bit multiply [prod1 prod0] = x * y. Compute the product mod 2^256 and mod 2^256 - 1, then use
// use the Chinese Remainder Theorem to reconstruct the 512-bit result. The result is stored in two 256
// variables such that product = prod1 * 2^256 + prod0.
uint256 prod0; // Least significant 256 bits of the product
uint256 prod1; // Most significant 256 bits of the product
assembly ("memory-safe") {
let mm := mulmod(x, y, not(0))
prod0 := mul(x, y)
prod1 := sub(sub(mm, prod0), lt(mm, prod0))
}
// Handle non-overflow cases, 256 by 256 division.
if (prod1 == 0) {
unchecked {
return prod0 / denominator;
}
}
// Make sure the result is less than 2^256. Also prevents denominator == 0.
if (prod1 >= denominator) {
revert PRBMath_MulDiv_Overflow(x, y, denominator);
}
////////////////////////////////////////////////////////////////////////////
// 512 by 256 division
////////////////////////////////////////////////////////////////////////////
// Make division exact by subtracting the remainder from [prod1 prod0].
uint256 remainder;
assembly ("memory-safe") {
// Compute remainder using the mulmod Yul instruction.
remainder := mulmod(x, y, denominator)
// Subtract 256 bit number from 512-bit number.
prod1 := sub(prod1, gt(remainder, prod0))
prod0 := sub(prod0, remainder)
}
unchecked {
// Calculate the largest power of two divisor of the denominator using the unary operator ~. This operation cannot overflow
// because the denominator cannot be zero at this point in the function execution. The result is always >= 1.
// For more detail, see https://cs.stackexchange.com/q/138556/92363.
uint256 lpotdod = denominator & (~denominator + 1);
uint256 flippedLpotdod;
assembly ("memory-safe") {
// Factor powers of two out of denominator.
denominator := div(denominator, lpotdod)
// Divide [prod1 prod0] by lpotdod.
prod0 := div(prod0, lpotdod)
// Get the flipped value `2^256 / lpotdod`. If the `lpotdod` is zero, the flipped value is one.
// `sub(0, lpotdod)` produces the two's complement version of `lpotdod`, which is equivalent to flipping all the bits.
// However, `div` interprets this value as an unsigned value: https://ethereum.stackexchange.com/q/147168/24693
flippedLpotdod := add(div(sub(0, lpotdod), lpotdod), 1)
}
// Shift in bits from prod1 into prod0.
prod0 |= prod1 * flippedLpotdod;
// Invert denominator mod 2^256. Now that denominator is an odd number, it has an inverse modulo 2^256 such
// that denominator * inv = 1 mod 2^256. Compute the inverse by starting with a seed that is correct for
// four bits. That is, denominator * inv = 1 mod 2^4.
uint256 inverse = (3 * denominator) ^ 2;
// Use the Newton-Raphson iteration to improve the precision. Thanks to Hensel's lifting lemma, this also works
// in modular arithmetic, doubling the correct bits in each step.
inverse *= 2 - denominator * inverse; // inverse mod 2^8
inverse *= 2 - denominator * inverse; // inverse mod 2^16
inverse *= 2 - denominator * inverse; // inverse mod 2^32
inverse *= 2 - denominator * inverse; // inverse mod 2^64
inverse *= 2 - denominator * inverse; // inverse mod 2^128
inverse *= 2 - denominator * inverse; // inverse mod 2^256
// Because the division is now exact we can divide by multiplying with the modular inverse of denominator.
// This will give us the correct result modulo 2^256. Since the preconditions guarantee that the outcome is
// less than 2^256, this is the final result. We don't need to compute the high bits of the result and prod1
// is no longer required.
result = prod0 * inverse;
}
}
/// @notice Calculates x*y÷1e18 with 512-bit precision.
///
/// @dev A variant of {mulDiv} with constant folding, i.e. in which the denominator is hard coded to 1e18.
///
/// Notes:
/// - The body is purposely left uncommented; to understand how this works, see the documentation in {mulDiv}.
/// - The result is rounded toward zero.
/// - We take as an axiom that the result cannot be `MAX_UINT256` when x and y solve the following system of equations:
///
/// $$
/// \begin{cases}
/// x * y = MAX\_UINT256 * UNIT \\
/// (x * y) \% UNIT \geq \frac{UNIT}{2}
/// \end{cases}
/// $$
///
/// Requirements:
/// - Refer to the requirements in {mulDiv}.
/// - The result must fit in uint256.
///
/// @param x The multiplicand as an unsigned 60.18-decimal fixed-point number.
/// @param y The multiplier as an unsigned 60.18-decimal fixed-point number.
/// @return result The result as an unsigned 60.18-decimal fixed-point number.
/// @custom:smtchecker abstract-function-nondet
function mulDiv18(uint256 x, uint256 y) pure returns (uint256 result) {
uint256 prod0;
uint256 prod1;
assembly ("memory-safe") {
let mm := mulmod(x, y, not(0))
prod0 := mul(x, y)
prod1 := sub(sub(mm, prod0), lt(mm, prod0))
}
if (prod1 == 0) {
unchecked {
return prod0 / UNIT;
}
}
if (prod1 >= UNIT) {
revert PRBMath_MulDiv18_Overflow(x, y);
}
uint256 remainder;
assembly ("memory-safe") {
remainder := mulmod(x, y, UNIT)
result :=
mul(
or(
div(sub(prod0, remainder), UNIT_LPOTD),
mul(sub(prod1, gt(remainder, prod0)), add(div(sub(0, UNIT_LPOTD), UNIT_LPOTD), 1))
),
UNIT_INVERSE
)
}
}
/// @notice Calculates x*y÷denominator with 512-bit precision.
///
/// @dev This is an extension of {mulDiv} for signed numbers, which works by computing the signs and the absolute values separately.
///
/// Notes:
/// - The result is rounded toward zero.
///
/// Requirements:
/// - Refer to the requirements in {mulDiv}.
/// - None of the inputs can be `type(int256).min`.
/// - The result must fit in int256.
///
/// @param x The multiplicand as an int256.
/// @param y The multiplier as an int256.
/// @param denominator The divisor as an int256.
/// @return result The result as an int256.
/// @custom:smtchecker abstract-function-nondet
function mulDivSigned(int256 x, int256 y, int256 denominator) pure returns (int256 result) {
if (x == type(int256).min || y == type(int256).min || denominator == type(int256).min) {
revert PRBMath_MulDivSigned_InputTooSmall();
}
// Get hold of the absolute values of x, y and the denominator.
uint256 xAbs;
uint256 yAbs;
uint256 dAbs;
unchecked {
xAbs = x < 0 ? uint256(-x) : uint256(x);
yAbs = y < 0 ? uint256(-y) : uint256(y);
dAbs = denominator < 0 ? uint256(-denominator) : uint256(denominator);
}
// Compute the absolute value of x*y÷denominator. The result must fit in int256.
uint256 resultAbs = mulDiv(xAbs, yAbs, dAbs);
if (resultAbs > uint256(type(int256).max)) {
revert PRBMath_MulDivSigned_Overflow(x, y);
}
// Get the signs of x, y and the denominator.
uint256 sx;
uint256 sy;
uint256 sd;
assembly ("memory-safe") {
// "sgt" is the "signed greater than" assembly instruction and "sub(0,1)" is -1 in two's complement.
sx := sgt(x, sub(0, 1))
sy := sgt(y, sub(0, 1))
sd := sgt(denominator, sub(0, 1))
}
// XOR over sx, sy and sd. What this does is to check whether there are 1 or 3 negative signs in the inputs.
// If there are, the result should be negative. Otherwise, it should be positive.
unchecked {
result = sx ^ sy ^ sd == 0 ? -int256(resultAbs) : int256(resultAbs);
}
}
/// @notice Calculates the square root of x using the Babylonian method.
///
/// @dev See https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Babylonian_method.
///
/// Notes:
/// - If x is not a perfect square, the result is rounded down.
/// - Credits to OpenZeppelin for the explanations in comments below.
///
/// @param x The uint256 number for which to calculate the square root.
/// @return result The result as a uint256.
/// @custom:smtchecker abstract-function-nondet
function sqrt(uint256 x) pure returns (uint256 result) {
if (x == 0) {
return 0;
}
// For our first guess, we calculate the biggest power of 2 which is smaller than the square root of x.
//
// We know that the "msb" (most significant bit) of x is a power of 2 such that we have:
//
// $$
// msb(x) <= x <= 2*msb(x)$
// $$
//
// We write $msb(x)$ as $2^k$, and we get:
//
// $$
// k = log_2(x)
// $$
//
// Thus, we can write the initial inequality as:
//
// $$
// 2^{log_2(x)} <= x <= 2*2^{log_2(x)+1} \\
// sqrt(2^k) <= sqrt(x) < sqrt(2^{k+1}) \\
// 2^{k/2} <= sqrt(x) < 2^{(k+1)/2} <= 2^{(k/2)+1}
// $$
//
// Consequently, $2^{log_2(x) /2} is a good first approximation of sqrt(x) with at least one correct bit.
uint256 xAux = uint256(x);
result = 1;
if (xAux >= 2 ** 128) {
xAux >>= 128;
result <<= 64;
}
if (xAux >= 2 ** 64) {
xAux >>= 64;
result <<= 32;
}
if (xAux >= 2 ** 32) {
xAux >>= 32;
result <<= 16;
}
if (xAux >= 2 ** 16) {
xAux >>= 16;
result <<= 8;
}
if (xAux >= 2 ** 8) {
xAux >>= 8;
result <<= 4;
}
if (xAux >= 2 ** 4) {
xAux >>= 4;
result <<= 2;
}
if (xAux >= 2 ** 2) {
result <<= 1;
}
// At this point, `result` is an estimation with at least one bit of precision. We know the true value has at
// most 128 bits, since it is the square root of a uint256. Newton's method converges quadratically (precision
// doubles at every iteration). We thus need at most 7 iteration to turn our partial result with one bit of
// precision into the expected uint128 result.
unchecked {
result = (result + x / result) >> 1;
result = (result + x / result) >> 1;
result = (result + x / result) >> 1;
result = (result + x / result) >> 1;
result = (result + x / result) >> 1;
result = (result + x / result) >> 1;
result = (result + x / result) >> 1;
// If x is not a perfect square, round the result toward zero.
uint256 roundedResult = x / result;
if (result >= roundedResult) {
result = roundedResult;
}
}
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { SD1x18 } from "./ValueType.sol";
/// @dev Euler's number as an SD1x18 number.
SD1x18 constant E = SD1x18.wrap(2_718281828459045235);
/// @dev The maximum value an SD1x18 number can have.
int64 constant uMAX_SD1x18 = 9_223372036854775807;
SD1x18 constant MAX_SD1x18 = SD1x18.wrap(uMAX_SD1x18);
/// @dev The maximum value an SD1x18 number can have.
int64 constant uMIN_SD1x18 = -9_223372036854775808;
SD1x18 constant MIN_SD1x18 = SD1x18.wrap(uMIN_SD1x18);
/// @dev PI as an SD1x18 number.
SD1x18 constant PI = SD1x18.wrap(3_141592653589793238);
/// @dev The unit number, which gives the decimal precision of SD1x18.
SD1x18 constant UNIT = SD1x18.wrap(1e18);
int64 constant uUNIT = 1e18;// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "./Casting.sol" as Casting;
/// @notice The signed 1.18-decimal fixed-point number representation, which can have up to 1 digit and up to 18
/// decimals. The values of this are bound by the minimum and the maximum values permitted by the underlying Solidity
/// type int64. This is useful when end users want to use int64 to save gas, e.g. with tight variable packing in contract
/// storage.
type SD1x18 is int64;
/*//////////////////////////////////////////////////////////////////////////
CASTING
//////////////////////////////////////////////////////////////////////////*/
using {
Casting.intoSD59x18,
Casting.intoUD2x18,
Casting.intoUD60x18,
Casting.intoUint256,
Casting.intoUint128,
Casting.intoUint40,
Casting.unwrap
} for SD1x18 global;// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { SD59x18 } from "./ValueType.sol";
// NOTICE: the "u" prefix stands for "unwrapped".
/// @dev Euler's number as an SD59x18 number.
SD59x18 constant E = SD59x18.wrap(2_718281828459045235);
/// @dev The maximum input permitted in {exp}.
int256 constant uEXP_MAX_INPUT = 133_084258667509499440;
SD59x18 constant EXP_MAX_INPUT = SD59x18.wrap(uEXP_MAX_INPUT);
/// @dev Any value less than this returns 0 in {exp}.
int256 constant uEXP_MIN_THRESHOLD = -41_446531673892822322;
SD59x18 constant EXP_MIN_THRESHOLD = SD59x18.wrap(uEXP_MIN_THRESHOLD);
/// @dev The maximum input permitted in {exp2}.
int256 constant uEXP2_MAX_INPUT = 192e18 - 1;
SD59x18 constant EXP2_MAX_INPUT = SD59x18.wrap(uEXP2_MAX_INPUT);
/// @dev Any value less than this returns 0 in {exp2}.
int256 constant uEXP2_MIN_THRESHOLD = -59_794705707972522261;
SD59x18 constant EXP2_MIN_THRESHOLD = SD59x18.wrap(uEXP2_MIN_THRESHOLD);
/// @dev Half the UNIT number.
int256 constant uHALF_UNIT = 0.5e18;
SD59x18 constant HALF_UNIT = SD59x18.wrap(uHALF_UNIT);
/// @dev $log_2(10)$ as an SD59x18 number.
int256 constant uLOG2_10 = 3_321928094887362347;
SD59x18 constant LOG2_10 = SD59x18.wrap(uLOG2_10);
/// @dev $log_2(e)$ as an SD59x18 number.
int256 constant uLOG2_E = 1_442695040888963407;
SD59x18 constant LOG2_E = SD59x18.wrap(uLOG2_E);
/// @dev The maximum value an SD59x18 number can have.
int256 constant uMAX_SD59x18 = 57896044618658097711785492504343953926634992332820282019728_792003956564819967;
SD59x18 constant MAX_SD59x18 = SD59x18.wrap(uMAX_SD59x18);
/// @dev The maximum whole value an SD59x18 number can have.
int256 constant uMAX_WHOLE_SD59x18 = 57896044618658097711785492504343953926634992332820282019728_000000000000000000;
SD59x18 constant MAX_WHOLE_SD59x18 = SD59x18.wrap(uMAX_WHOLE_SD59x18);
/// @dev The minimum value an SD59x18 number can have.
int256 constant uMIN_SD59x18 = -57896044618658097711785492504343953926634992332820282019728_792003956564819968;
SD59x18 constant MIN_SD59x18 = SD59x18.wrap(uMIN_SD59x18);
/// @dev The minimum whole value an SD59x18 number can have.
int256 constant uMIN_WHOLE_SD59x18 = -57896044618658097711785492504343953926634992332820282019728_000000000000000000;
SD59x18 constant MIN_WHOLE_SD59x18 = SD59x18.wrap(uMIN_WHOLE_SD59x18);
/// @dev PI as an SD59x18 number.
SD59x18 constant PI = SD59x18.wrap(3_141592653589793238);
/// @dev The unit number, which gives the decimal precision of SD59x18.
int256 constant uUNIT = 1e18;
SD59x18 constant UNIT = SD59x18.wrap(1e18);
/// @dev The unit number squared.
int256 constant uUNIT_SQUARED = 1e36;
SD59x18 constant UNIT_SQUARED = SD59x18.wrap(uUNIT_SQUARED);
/// @dev Zero as an SD59x18 number.
SD59x18 constant ZERO = SD59x18.wrap(0);// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "./Casting.sol" as Casting;
import "./Helpers.sol" as Helpers;
import "./Math.sol" as Math;
/// @notice The signed 59.18-decimal fixed-point number representation, which can have up to 59 digits and up to 18
/// decimals. The values of this are bound by the minimum and the maximum values permitted by the underlying Solidity
/// type int256.
type SD59x18 is int256;
/*//////////////////////////////////////////////////////////////////////////
CASTING
//////////////////////////////////////////////////////////////////////////*/
using {
Casting.intoInt256,
Casting.intoSD1x18,
Casting.intoUD2x18,
Casting.intoUD60x18,
Casting.intoUint256,
Casting.intoUint128,
Casting.intoUint40,
Casting.unwrap
} for SD59x18 global;
/*//////////////////////////////////////////////////////////////////////////
MATHEMATICAL FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
using {
Math.abs,
Math.avg,
Math.ceil,
Math.div,
Math.exp,
Math.exp2,
Math.floor,
Math.frac,
Math.gm,
Math.inv,
Math.log10,
Math.log2,
Math.ln,
Math.mul,
Math.pow,
Math.powu,
Math.sqrt
} for SD59x18 global;
/*//////////////////////////////////////////////////////////////////////////
HELPER FUNCTIONS
//////////////////////////////////////////////////////////////////////////*/
using {
Helpers.add,
Helpers.and,
Helpers.eq,
Helpers.gt,
Helpers.gte,
Helpers.isZero,
Helpers.lshift,
Helpers.lt,
Helpers.lte,
Helpers.mod,
Helpers.neq,
Helpers.not,
Helpers.or,
Helpers.rshift,
Helpers.sub,
Helpers.uncheckedAdd,
Helpers.uncheckedSub,
Helpers.uncheckedUnary,
Helpers.xor
} for SD59x18 global;
/*//////////////////////////////////////////////////////////////////////////
OPERATORS
//////////////////////////////////////////////////////////////////////////*/
// The global "using for" directive makes it possible to use these operators on the SD59x18 type.
using {
Helpers.add as +,
Helpers.and2 as &,
Math.div as /,
Helpers.eq as ==,
Helpers.gt as >,
Helpers.gte as >=,
Helpers.lt as <,
Helpers.lte as <=,
Helpers.mod as %,
Math.mul as *,
Helpers.neq as !=,
Helpers.not as ~,
Helpers.or as |,
Helpers.sub as -,
Helpers.unary as -,
Helpers.xor as ^
} for SD59x18 global;// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (interfaces/IERC165.sol)
pragma solidity ^0.8.20;
import {IERC165} from "../utils/introspection/IERC165.sol";// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v5.0.0) (interfaces/IERC721.sol)
pragma solidity ^0.8.20;
import {IERC721} from "../token/ERC721/IERC721.sol";// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "../Common.sol" as Common;
import "./Errors.sol" as CastingErrors;
import { SD59x18 } from "../sd59x18/ValueType.sol";
import { UD2x18 } from "../ud2x18/ValueType.sol";
import { UD60x18 } from "../ud60x18/ValueType.sol";
import { SD1x18 } from "./ValueType.sol";
/// @notice Casts an SD1x18 number into SD59x18.
/// @dev There is no overflow check because the domain of SD1x18 is a subset of SD59x18.
function intoSD59x18(SD1x18 x) pure returns (SD59x18 result) {
result = SD59x18.wrap(int256(SD1x18.unwrap(x)));
}
/// @notice Casts an SD1x18 number into UD2x18.
/// - x must be positive.
function intoUD2x18(SD1x18 x) pure returns (UD2x18 result) {
int64 xInt = SD1x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD1x18_ToUD2x18_Underflow(x);
}
result = UD2x18.wrap(uint64(xInt));
}
/// @notice Casts an SD1x18 number into UD60x18.
/// @dev Requirements:
/// - x must be positive.
function intoUD60x18(SD1x18 x) pure returns (UD60x18 result) {
int64 xInt = SD1x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD1x18_ToUD60x18_Underflow(x);
}
result = UD60x18.wrap(uint64(xInt));
}
/// @notice Casts an SD1x18 number into uint256.
/// @dev Requirements:
/// - x must be positive.
function intoUint256(SD1x18 x) pure returns (uint256 result) {
int64 xInt = SD1x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD1x18_ToUint256_Underflow(x);
}
result = uint256(uint64(xInt));
}
/// @notice Casts an SD1x18 number into uint128.
/// @dev Requirements:
/// - x must be positive.
function intoUint128(SD1x18 x) pure returns (uint128 result) {
int64 xInt = SD1x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD1x18_ToUint128_Underflow(x);
}
result = uint128(uint64(xInt));
}
/// @notice Casts an SD1x18 number into uint40.
/// @dev Requirements:
/// - x must be positive.
/// - x must be less than or equal to `MAX_UINT40`.
function intoUint40(SD1x18 x) pure returns (uint40 result) {
int64 xInt = SD1x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD1x18_ToUint40_Underflow(x);
}
if (xInt > int64(uint64(Common.MAX_UINT40))) {
revert CastingErrors.PRBMath_SD1x18_ToUint40_Overflow(x);
}
result = uint40(uint64(xInt));
}
/// @notice Alias for {wrap}.
function sd1x18(int64 x) pure returns (SD1x18 result) {
result = SD1x18.wrap(x);
}
/// @notice Unwraps an SD1x18 number into int64.
function unwrap(SD1x18 x) pure returns (int64 result) {
result = SD1x18.unwrap(x);
}
/// @notice Wraps an int64 number into SD1x18.
function wrap(int64 x) pure returns (SD1x18 result) {
result = SD1x18.wrap(x);
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "./Errors.sol" as CastingErrors;
import { MAX_UINT128, MAX_UINT40 } from "../Common.sol";
import { uMAX_SD1x18, uMIN_SD1x18 } from "../sd1x18/Constants.sol";
import { SD1x18 } from "../sd1x18/ValueType.sol";
import { uMAX_UD2x18 } from "../ud2x18/Constants.sol";
import { UD2x18 } from "../ud2x18/ValueType.sol";
import { UD60x18 } from "../ud60x18/ValueType.sol";
import { SD59x18 } from "./ValueType.sol";
/// @notice Casts an SD59x18 number into int256.
/// @dev This is basically a functional alias for {unwrap}.
function intoInt256(SD59x18 x) pure returns (int256 result) {
result = SD59x18.unwrap(x);
}
/// @notice Casts an SD59x18 number into SD1x18.
/// @dev Requirements:
/// - x must be greater than or equal to `uMIN_SD1x18`.
/// - x must be less than or equal to `uMAX_SD1x18`.
function intoSD1x18(SD59x18 x) pure returns (SD1x18 result) {
int256 xInt = SD59x18.unwrap(x);
if (xInt < uMIN_SD1x18) {
revert CastingErrors.PRBMath_SD59x18_IntoSD1x18_Underflow(x);
}
if (xInt > uMAX_SD1x18) {
revert CastingErrors.PRBMath_SD59x18_IntoSD1x18_Overflow(x);
}
result = SD1x18.wrap(int64(xInt));
}
/// @notice Casts an SD59x18 number into UD2x18.
/// @dev Requirements:
/// - x must be positive.
/// - x must be less than or equal to `uMAX_UD2x18`.
function intoUD2x18(SD59x18 x) pure returns (UD2x18 result) {
int256 xInt = SD59x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD59x18_IntoUD2x18_Underflow(x);
}
if (xInt > int256(uint256(uMAX_UD2x18))) {
revert CastingErrors.PRBMath_SD59x18_IntoUD2x18_Overflow(x);
}
result = UD2x18.wrap(uint64(uint256(xInt)));
}
/// @notice Casts an SD59x18 number into UD60x18.
/// @dev Requirements:
/// - x must be positive.
function intoUD60x18(SD59x18 x) pure returns (UD60x18 result) {
int256 xInt = SD59x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD59x18_IntoUD60x18_Underflow(x);
}
result = UD60x18.wrap(uint256(xInt));
}
/// @notice Casts an SD59x18 number into uint256.
/// @dev Requirements:
/// - x must be positive.
function intoUint256(SD59x18 x) pure returns (uint256 result) {
int256 xInt = SD59x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD59x18_IntoUint256_Underflow(x);
}
result = uint256(xInt);
}
/// @notice Casts an SD59x18 number into uint128.
/// @dev Requirements:
/// - x must be positive.
/// - x must be less than or equal to `uMAX_UINT128`.
function intoUint128(SD59x18 x) pure returns (uint128 result) {
int256 xInt = SD59x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD59x18_IntoUint128_Underflow(x);
}
if (xInt > int256(uint256(MAX_UINT128))) {
revert CastingErrors.PRBMath_SD59x18_IntoUint128_Overflow(x);
}
result = uint128(uint256(xInt));
}
/// @notice Casts an SD59x18 number into uint40.
/// @dev Requirements:
/// - x must be positive.
/// - x must be less than or equal to `MAX_UINT40`.
function intoUint40(SD59x18 x) pure returns (uint40 result) {
int256 xInt = SD59x18.unwrap(x);
if (xInt < 0) {
revert CastingErrors.PRBMath_SD59x18_IntoUint40_Underflow(x);
}
if (xInt > int256(uint256(MAX_UINT40))) {
revert CastingErrors.PRBMath_SD59x18_IntoUint40_Overflow(x);
}
result = uint40(uint256(xInt));
}
/// @notice Alias for {wrap}.
function sd(int256 x) pure returns (SD59x18 result) {
result = SD59x18.wrap(x);
}
/// @notice Alias for {wrap}.
function sd59x18(int256 x) pure returns (SD59x18 result) {
result = SD59x18.wrap(x);
}
/// @notice Unwraps an SD59x18 number into int256.
function unwrap(SD59x18 x) pure returns (int256 result) {
result = SD59x18.unwrap(x);
}
/// @notice Wraps an int256 number into SD59x18.
function wrap(int256 x) pure returns (SD59x18 result) {
result = SD59x18.wrap(x);
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { wrap } from "./Casting.sol";
import { SD59x18 } from "./ValueType.sol";
/// @notice Implements the checked addition operation (+) in the SD59x18 type.
function add(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
return wrap(x.unwrap() + y.unwrap());
}
/// @notice Implements the AND (&) bitwise operation in the SD59x18 type.
function and(SD59x18 x, int256 bits) pure returns (SD59x18 result) {
return wrap(x.unwrap() & bits);
}
/// @notice Implements the AND (&) bitwise operation in the SD59x18 type.
function and2(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
return wrap(x.unwrap() & y.unwrap());
}
/// @notice Implements the equal (=) operation in the SD59x18 type.
function eq(SD59x18 x, SD59x18 y) pure returns (bool result) {
result = x.unwrap() == y.unwrap();
}
/// @notice Implements the greater than operation (>) in the SD59x18 type.
function gt(SD59x18 x, SD59x18 y) pure returns (bool result) {
result = x.unwrap() > y.unwrap();
}
/// @notice Implements the greater than or equal to operation (>=) in the SD59x18 type.
function gte(SD59x18 x, SD59x18 y) pure returns (bool result) {
result = x.unwrap() >= y.unwrap();
}
/// @notice Implements a zero comparison check function in the SD59x18 type.
function isZero(SD59x18 x) pure returns (bool result) {
result = x.unwrap() == 0;
}
/// @notice Implements the left shift operation (<<) in the SD59x18 type.
function lshift(SD59x18 x, uint256 bits) pure returns (SD59x18 result) {
result = wrap(x.unwrap() << bits);
}
/// @notice Implements the lower than operation (<) in the SD59x18 type.
function lt(SD59x18 x, SD59x18 y) pure returns (bool result) {
result = x.unwrap() < y.unwrap();
}
/// @notice Implements the lower than or equal to operation (<=) in the SD59x18 type.
function lte(SD59x18 x, SD59x18 y) pure returns (bool result) {
result = x.unwrap() <= y.unwrap();
}
/// @notice Implements the unchecked modulo operation (%) in the SD59x18 type.
function mod(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
result = wrap(x.unwrap() % y.unwrap());
}
/// @notice Implements the not equal operation (!=) in the SD59x18 type.
function neq(SD59x18 x, SD59x18 y) pure returns (bool result) {
result = x.unwrap() != y.unwrap();
}
/// @notice Implements the NOT (~) bitwise operation in the SD59x18 type.
function not(SD59x18 x) pure returns (SD59x18 result) {
result = wrap(~x.unwrap());
}
/// @notice Implements the OR (|) bitwise operation in the SD59x18 type.
function or(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
result = wrap(x.unwrap() | y.unwrap());
}
/// @notice Implements the right shift operation (>>) in the SD59x18 type.
function rshift(SD59x18 x, uint256 bits) pure returns (SD59x18 result) {
result = wrap(x.unwrap() >> bits);
}
/// @notice Implements the checked subtraction operation (-) in the SD59x18 type.
function sub(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
result = wrap(x.unwrap() - y.unwrap());
}
/// @notice Implements the checked unary minus operation (-) in the SD59x18 type.
function unary(SD59x18 x) pure returns (SD59x18 result) {
result = wrap(-x.unwrap());
}
/// @notice Implements the unchecked addition operation (+) in the SD59x18 type.
function uncheckedAdd(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
unchecked {
result = wrap(x.unwrap() + y.unwrap());
}
}
/// @notice Implements the unchecked subtraction operation (-) in the SD59x18 type.
function uncheckedSub(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
unchecked {
result = wrap(x.unwrap() - y.unwrap());
}
}
/// @notice Implements the unchecked unary minus operation (-) in the SD59x18 type.
function uncheckedUnary(SD59x18 x) pure returns (SD59x18 result) {
unchecked {
result = wrap(-x.unwrap());
}
}
/// @notice Implements the XOR (^) bitwise operation in the SD59x18 type.
function xor(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
result = wrap(x.unwrap() ^ y.unwrap());
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import "../Common.sol" as Common;
import "./Errors.sol" as Errors;
import {
uEXP_MAX_INPUT,
uEXP2_MAX_INPUT,
uEXP_MIN_THRESHOLD,
uEXP2_MIN_THRESHOLD,
uHALF_UNIT,
uLOG2_10,
uLOG2_E,
uMAX_SD59x18,
uMAX_WHOLE_SD59x18,
uMIN_SD59x18,
uMIN_WHOLE_SD59x18,
UNIT,
uUNIT,
uUNIT_SQUARED,
ZERO
} from "./Constants.sol";
import { wrap } from "./Helpers.sol";
import { SD59x18 } from "./ValueType.sol";
/// @notice Calculates the absolute value of x.
///
/// @dev Requirements:
/// - x must be greater than `MIN_SD59x18`.
///
/// @param x The SD59x18 number for which to calculate the absolute value.
/// @param result The absolute value of x as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function abs(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt == uMIN_SD59x18) {
revert Errors.PRBMath_SD59x18_Abs_MinSD59x18();
}
result = xInt < 0 ? wrap(-xInt) : x;
}
/// @notice Calculates the arithmetic average of x and y.
///
/// @dev Notes:
/// - The result is rounded toward zero.
///
/// @param x The first operand as an SD59x18 number.
/// @param y The second operand as an SD59x18 number.
/// @return result The arithmetic average as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function avg(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
int256 yInt = y.unwrap();
unchecked {
// This operation is equivalent to `x / 2 + y / 2`, and it can never overflow.
int256 sum = (xInt >> 1) + (yInt >> 1);
if (sum < 0) {
// If at least one of x and y is odd, add 1 to the result, because shifting negative numbers to the right
// rounds toward negative infinity. The right part is equivalent to `sum + (x % 2 == 1 || y % 2 == 1)`.
assembly ("memory-safe") {
result := add(sum, and(or(xInt, yInt), 1))
}
} else {
// Add 1 if both x and y are odd to account for the double 0.5 remainder truncated after shifting.
result = wrap(sum + (xInt & yInt & 1));
}
}
}
/// @notice Yields the smallest whole number greater than or equal to x.
///
/// @dev Optimized for fractional value inputs, because every whole value has (1e18 - 1) fractional counterparts.
/// See https://en.wikipedia.org/wiki/Floor_and_ceiling_functions.
///
/// Requirements:
/// - x must be less than or equal to `MAX_WHOLE_SD59x18`.
///
/// @param x The SD59x18 number to ceil.
/// @param result The smallest whole number greater than or equal to x, as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function ceil(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt > uMAX_WHOLE_SD59x18) {
revert Errors.PRBMath_SD59x18_Ceil_Overflow(x);
}
int256 remainder = xInt % uUNIT;
if (remainder == 0) {
result = x;
} else {
unchecked {
// Solidity uses C fmod style, which returns a modulus with the same sign as x.
int256 resultInt = xInt - remainder;
if (xInt > 0) {
resultInt += uUNIT;
}
result = wrap(resultInt);
}
}
}
/// @notice Divides two SD59x18 numbers, returning a new SD59x18 number.
///
/// @dev This is an extension of {Common.mulDiv} for signed numbers, which works by computing the signs and the absolute
/// values separately.
///
/// Notes:
/// - Refer to the notes in {Common.mulDiv}.
/// - The result is rounded toward zero.
///
/// Requirements:
/// - Refer to the requirements in {Common.mulDiv}.
/// - None of the inputs can be `MIN_SD59x18`.
/// - The denominator must not be zero.
/// - The result must fit in SD59x18.
///
/// @param x The numerator as an SD59x18 number.
/// @param y The denominator as an SD59x18 number.
/// @param result The quotient as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function div(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
int256 yInt = y.unwrap();
if (xInt == uMIN_SD59x18 || yInt == uMIN_SD59x18) {
revert Errors.PRBMath_SD59x18_Div_InputTooSmall();
}
// Get hold of the absolute values of x and y.
uint256 xAbs;
uint256 yAbs;
unchecked {
xAbs = xInt < 0 ? uint256(-xInt) : uint256(xInt);
yAbs = yInt < 0 ? uint256(-yInt) : uint256(yInt);
}
// Compute the absolute value (x*UNIT÷y). The resulting value must fit in SD59x18.
uint256 resultAbs = Common.mulDiv(xAbs, uint256(uUNIT), yAbs);
if (resultAbs > uint256(uMAX_SD59x18)) {
revert Errors.PRBMath_SD59x18_Div_Overflow(x, y);
}
// Check if x and y have the same sign using two's complement representation. The left-most bit represents the sign (1 for
// negative, 0 for positive or zero).
bool sameSign = (xInt ^ yInt) > -1;
// If the inputs have the same sign, the result should be positive. Otherwise, it should be negative.
unchecked {
result = wrap(sameSign ? int256(resultAbs) : -int256(resultAbs));
}
}
/// @notice Calculates the natural exponent of x using the following formula:
///
/// $$
/// e^x = 2^{x * log_2{e}}
/// $$
///
/// @dev Notes:
/// - Refer to the notes in {exp2}.
///
/// Requirements:
/// - Refer to the requirements in {exp2}.
/// - x must be less than 133_084258667509499441.
///
/// @param x The exponent as an SD59x18 number.
/// @return result The result as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function exp(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
// Any input less than the threshold returns zero.
// This check also prevents an overflow for very small numbers.
if (xInt < uEXP_MIN_THRESHOLD) {
return ZERO;
}
// This check prevents values greater than 192e18 from being passed to {exp2}.
if (xInt > uEXP_MAX_INPUT) {
revert Errors.PRBMath_SD59x18_Exp_InputTooBig(x);
}
unchecked {
// Inline the fixed-point multiplication to save gas.
int256 doubleUnitProduct = xInt * uLOG2_E;
result = exp2(wrap(doubleUnitProduct / uUNIT));
}
}
/// @notice Calculates the binary exponent of x using the binary fraction method using the following formula:
///
/// $$
/// 2^{-x} = \frac{1}{2^x}
/// $$
///
/// @dev See https://ethereum.stackexchange.com/q/79903/24693.
///
/// Notes:
/// - If x is less than -59_794705707972522261, the result is zero.
///
/// Requirements:
/// - x must be less than 192e18.
/// - The result must fit in SD59x18.
///
/// @param x The exponent as an SD59x18 number.
/// @return result The result as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function exp2(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt < 0) {
// The inverse of any number less than the threshold is truncated to zero.
if (xInt < uEXP2_MIN_THRESHOLD) {
return ZERO;
}
unchecked {
// Inline the fixed-point inversion to save gas.
result = wrap(uUNIT_SQUARED / exp2(wrap(-xInt)).unwrap());
}
} else {
// Numbers greater than or equal to 192e18 don't fit in the 192.64-bit format.
if (xInt > uEXP2_MAX_INPUT) {
revert Errors.PRBMath_SD59x18_Exp2_InputTooBig(x);
}
unchecked {
// Convert x to the 192.64-bit fixed-point format.
uint256 x_192x64 = uint256((xInt << 64) / uUNIT);
// It is safe to cast the result to int256 due to the checks above.
result = wrap(int256(Common.exp2(x_192x64)));
}
}
}
/// @notice Yields the greatest whole number less than or equal to x.
///
/// @dev Optimized for fractional value inputs, because for every whole value there are (1e18 - 1) fractional
/// counterparts. See https://en.wikipedia.org/wiki/Floor_and_ceiling_functions.
///
/// Requirements:
/// - x must be greater than or equal to `MIN_WHOLE_SD59x18`.
///
/// @param x The SD59x18 number to floor.
/// @param result The greatest whole number less than or equal to x, as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function floor(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt < uMIN_WHOLE_SD59x18) {
revert Errors.PRBMath_SD59x18_Floor_Underflow(x);
}
int256 remainder = xInt % uUNIT;
if (remainder == 0) {
result = x;
} else {
unchecked {
// Solidity uses C fmod style, which returns a modulus with the same sign as x.
int256 resultInt = xInt - remainder;
if (xInt < 0) {
resultInt -= uUNIT;
}
result = wrap(resultInt);
}
}
}
/// @notice Yields the excess beyond the floor of x for positive numbers and the part of the number to the right.
/// of the radix point for negative numbers.
/// @dev Based on the odd function definition. https://en.wikipedia.org/wiki/Fractional_part
/// @param x The SD59x18 number to get the fractional part of.
/// @param result The fractional part of x as an SD59x18 number.
function frac(SD59x18 x) pure returns (SD59x18 result) {
result = wrap(x.unwrap() % uUNIT);
}
/// @notice Calculates the geometric mean of x and y, i.e. $\sqrt{x * y}$.
///
/// @dev Notes:
/// - The result is rounded toward zero.
///
/// Requirements:
/// - x * y must fit in SD59x18.
/// - x * y must not be negative, since complex numbers are not supported.
///
/// @param x The first operand as an SD59x18 number.
/// @param y The second operand as an SD59x18 number.
/// @return result The result as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function gm(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
int256 yInt = y.unwrap();
if (xInt == 0 || yInt == 0) {
return ZERO;
}
unchecked {
// Equivalent to `xy / x != y`. Checking for overflow this way is faster than letting Solidity do it.
int256 xyInt = xInt * yInt;
if (xyInt / xInt != yInt) {
revert Errors.PRBMath_SD59x18_Gm_Overflow(x, y);
}
// The product must not be negative, since complex numbers are not supported.
if (xyInt < 0) {
revert Errors.PRBMath_SD59x18_Gm_NegativeProduct(x, y);
}
// We don't need to multiply the result by `UNIT` here because the x*y product picked up a factor of `UNIT`
// during multiplication. See the comments in {Common.sqrt}.
uint256 resultUint = Common.sqrt(uint256(xyInt));
result = wrap(int256(resultUint));
}
}
/// @notice Calculates the inverse of x.
///
/// @dev Notes:
/// - The result is rounded toward zero.
///
/// Requirements:
/// - x must not be zero.
///
/// @param x The SD59x18 number for which to calculate the inverse.
/// @return result The inverse as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function inv(SD59x18 x) pure returns (SD59x18 result) {
result = wrap(uUNIT_SQUARED / x.unwrap());
}
/// @notice Calculates the natural logarithm of x using the following formula:
///
/// $$
/// ln{x} = log_2{x} / log_2{e}
/// $$
///
/// @dev Notes:
/// - Refer to the notes in {log2}.
/// - The precision isn't sufficiently fine-grained to return exactly `UNIT` when the input is `E`.
///
/// Requirements:
/// - Refer to the requirements in {log2}.
///
/// @param x The SD59x18 number for which to calculate the natural logarithm.
/// @return result The natural logarithm as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function ln(SD59x18 x) pure returns (SD59x18 result) {
// Inline the fixed-point multiplication to save gas. This is overflow-safe because the maximum value that
// {log2} can return is ~195_205294292027477728.
result = wrap(log2(x).unwrap() * uUNIT / uLOG2_E);
}
/// @notice Calculates the common logarithm of x using the following formula:
///
/// $$
/// log_{10}{x} = log_2{x} / log_2{10}
/// $$
///
/// However, if x is an exact power of ten, a hard coded value is returned.
///
/// @dev Notes:
/// - Refer to the notes in {log2}.
///
/// Requirements:
/// - Refer to the requirements in {log2}.
///
/// @param x The SD59x18 number for which to calculate the common logarithm.
/// @return result The common logarithm as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function log10(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt < 0) {
revert Errors.PRBMath_SD59x18_Log_InputTooSmall(x);
}
// Note that the `mul` in this block is the standard multiplication operation, not {SD59x18.mul}.
// prettier-ignore
assembly ("memory-safe") {
switch x
case 1 { result := mul(uUNIT, sub(0, 18)) }
case 10 { result := mul(uUNIT, sub(1, 18)) }
case 100 { result := mul(uUNIT, sub(2, 18)) }
case 1000 { result := mul(uUNIT, sub(3, 18)) }
case 10000 { result := mul(uUNIT, sub(4, 18)) }
case 100000 { result := mul(uUNIT, sub(5, 18)) }
case 1000000 { result := mul(uUNIT, sub(6, 18)) }
case 10000000 { result := mul(uUNIT, sub(7, 18)) }
case 100000000 { result := mul(uUNIT, sub(8, 18)) }
case 1000000000 { result := mul(uUNIT, sub(9, 18)) }
case 10000000000 { result := mul(uUNIT, sub(10, 18)) }
case 100000000000 { result := mul(uUNIT, sub(11, 18)) }
case 1000000000000 { result := mul(uUNIT, sub(12, 18)) }
case 10000000000000 { result := mul(uUNIT, sub(13, 18)) }
case 100000000000000 { result := mul(uUNIT, sub(14, 18)) }
case 1000000000000000 { result := mul(uUNIT, sub(15, 18)) }
case 10000000000000000 { result := mul(uUNIT, sub(16, 18)) }
case 100000000000000000 { result := mul(uUNIT, sub(17, 18)) }
case 1000000000000000000 { result := 0 }
case 10000000000000000000 { result := uUNIT }
case 100000000000000000000 { result := mul(uUNIT, 2) }
case 1000000000000000000000 { result := mul(uUNIT, 3) }
case 10000000000000000000000 { result := mul(uUNIT, 4) }
case 100000000000000000000000 { result := mul(uUNIT, 5) }
case 1000000000000000000000000 { result := mul(uUNIT, 6) }
case 10000000000000000000000000 { result := mul(uUNIT, 7) }
case 100000000000000000000000000 { result := mul(uUNIT, 8) }
case 1000000000000000000000000000 { result := mul(uUNIT, 9) }
case 10000000000000000000000000000 { result := mul(uUNIT, 10) }
case 100000000000000000000000000000 { result := mul(uUNIT, 11) }
case 1000000000000000000000000000000 { result := mul(uUNIT, 12) }
case 10000000000000000000000000000000 { result := mul(uUNIT, 13) }
case 100000000000000000000000000000000 { result := mul(uUNIT, 14) }
case 1000000000000000000000000000000000 { result := mul(uUNIT, 15) }
case 10000000000000000000000000000000000 { result := mul(uUNIT, 16) }
case 100000000000000000000000000000000000 { result := mul(uUNIT, 17) }
case 1000000000000000000000000000000000000 { result := mul(uUNIT, 18) }
case 10000000000000000000000000000000000000 { result := mul(uUNIT, 19) }
case 100000000000000000000000000000000000000 { result := mul(uUNIT, 20) }
case 1000000000000000000000000000000000000000 { result := mul(uUNIT, 21) }
case 10000000000000000000000000000000000000000 { result := mul(uUNIT, 22) }
case 100000000000000000000000000000000000000000 { result := mul(uUNIT, 23) }
case 1000000000000000000000000000000000000000000 { result := mul(uUNIT, 24) }
case 10000000000000000000000000000000000000000000 { result := mul(uUNIT, 25) }
case 100000000000000000000000000000000000000000000 { result := mul(uUNIT, 26) }
case 1000000000000000000000000000000000000000000000 { result := mul(uUNIT, 27) }
case 10000000000000000000000000000000000000000000000 { result := mul(uUNIT, 28) }
case 100000000000000000000000000000000000000000000000 { result := mul(uUNIT, 29) }
case 1000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 30) }
case 10000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 31) }
case 100000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 32) }
case 1000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 33) }
case 10000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 34) }
case 100000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 35) }
case 1000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 36) }
case 10000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 37) }
case 100000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 38) }
case 1000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 39) }
case 10000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 40) }
case 100000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 41) }
case 1000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 42) }
case 10000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 43) }
case 100000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 44) }
case 1000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 45) }
case 10000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 46) }
case 100000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 47) }
case 1000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 48) }
case 10000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 49) }
case 100000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 50) }
case 1000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 51) }
case 10000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 52) }
case 100000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 53) }
case 1000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 54) }
case 10000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 55) }
case 100000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 56) }
case 1000000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 57) }
case 10000000000000000000000000000000000000000000000000000000000000000000000000000 { result := mul(uUNIT, 58) }
default { result := uMAX_SD59x18 }
}
if (result.unwrap() == uMAX_SD59x18) {
unchecked {
// Inline the fixed-point division to save gas.
result = wrap(log2(x).unwrap() * uUNIT / uLOG2_10);
}
}
}
/// @notice Calculates the binary logarithm of x using the iterative approximation algorithm:
///
/// $$
/// log_2{x} = n + log_2{y}, \text{ where } y = x*2^{-n}, \ y \in [1, 2)
/// $$
///
/// For $0 \leq x \lt 1$, the input is inverted:
///
/// $$
/// log_2{x} = -log_2{\frac{1}{x}}
/// $$
///
/// @dev See https://en.wikipedia.org/wiki/Binary_logarithm#Iterative_approximation.
///
/// Notes:
/// - Due to the lossy precision of the iterative approximation, the results are not perfectly accurate to the last decimal.
///
/// Requirements:
/// - x must be greater than zero.
///
/// @param x The SD59x18 number for which to calculate the binary logarithm.
/// @return result The binary logarithm as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function log2(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt <= 0) {
revert Errors.PRBMath_SD59x18_Log_InputTooSmall(x);
}
unchecked {
int256 sign;
if (xInt >= uUNIT) {
sign = 1;
} else {
sign = -1;
// Inline the fixed-point inversion to save gas.
xInt = uUNIT_SQUARED / xInt;
}
// Calculate the integer part of the logarithm.
uint256 n = Common.msb(uint256(xInt / uUNIT));
// This is the integer part of the logarithm as an SD59x18 number. The operation can't overflow
// because n is at most 255, `UNIT` is 1e18, and the sign is either 1 or -1.
int256 resultInt = int256(n) * uUNIT;
// Calculate $y = x * 2^{-n}$.
int256 y = xInt >> n;
// If y is the unit number, the fractional part is zero.
if (y == uUNIT) {
return wrap(resultInt * sign);
}
// Calculate the fractional part via the iterative approximation.
// The `delta >>= 1` part is equivalent to `delta /= 2`, but shifting bits is more gas efficient.
int256 DOUBLE_UNIT = 2e18;
for (int256 delta = uHALF_UNIT; delta > 0; delta >>= 1) {
y = (y * y) / uUNIT;
// Is y^2 >= 2e18 and so in the range [2e18, 4e18)?
if (y >= DOUBLE_UNIT) {
// Add the 2^{-m} factor to the logarithm.
resultInt = resultInt + delta;
// Halve y, which corresponds to z/2 in the Wikipedia article.
y >>= 1;
}
}
resultInt *= sign;
result = wrap(resultInt);
}
}
/// @notice Multiplies two SD59x18 numbers together, returning a new SD59x18 number.
///
/// @dev Notes:
/// - Refer to the notes in {Common.mulDiv18}.
///
/// Requirements:
/// - Refer to the requirements in {Common.mulDiv18}.
/// - None of the inputs can be `MIN_SD59x18`.
/// - The result must fit in SD59x18.
///
/// @param x The multiplicand as an SD59x18 number.
/// @param y The multiplier as an SD59x18 number.
/// @return result The product as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function mul(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
int256 yInt = y.unwrap();
if (xInt == uMIN_SD59x18 || yInt == uMIN_SD59x18) {
revert Errors.PRBMath_SD59x18_Mul_InputTooSmall();
}
// Get hold of the absolute values of x and y.
uint256 xAbs;
uint256 yAbs;
unchecked {
xAbs = xInt < 0 ? uint256(-xInt) : uint256(xInt);
yAbs = yInt < 0 ? uint256(-yInt) : uint256(yInt);
}
// Compute the absolute value (x*y÷UNIT). The resulting value must fit in SD59x18.
uint256 resultAbs = Common.mulDiv18(xAbs, yAbs);
if (resultAbs > uint256(uMAX_SD59x18)) {
revert Errors.PRBMath_SD59x18_Mul_Overflow(x, y);
}
// Check if x and y have the same sign using two's complement representation. The left-most bit represents the sign (1 for
// negative, 0 for positive or zero).
bool sameSign = (xInt ^ yInt) > -1;
// If the inputs have the same sign, the result should be positive. Otherwise, it should be negative.
unchecked {
result = wrap(sameSign ? int256(resultAbs) : -int256(resultAbs));
}
}
/// @notice Raises x to the power of y using the following formula:
///
/// $$
/// x^y = 2^{log_2{x} * y}
/// $$
///
/// @dev Notes:
/// - Refer to the notes in {exp2}, {log2}, and {mul}.
/// - Returns `UNIT` for 0^0.
///
/// Requirements:
/// - Refer to the requirements in {exp2}, {log2}, and {mul}.
///
/// @param x The base as an SD59x18 number.
/// @param y Exponent to raise x to, as an SD59x18 number
/// @return result x raised to power y, as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function pow(SD59x18 x, SD59x18 y) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
int256 yInt = y.unwrap();
// If both x and y are zero, the result is `UNIT`. If just x is zero, the result is always zero.
if (xInt == 0) {
return yInt == 0 ? UNIT : ZERO;
}
// If x is `UNIT`, the result is always `UNIT`.
else if (xInt == uUNIT) {
return UNIT;
}
// If y is zero, the result is always `UNIT`.
if (yInt == 0) {
return UNIT;
}
// If y is `UNIT`, the result is always x.
else if (yInt == uUNIT) {
return x;
}
// Calculate the result using the formula.
result = exp2(mul(log2(x), y));
}
/// @notice Raises x (an SD59x18 number) to the power y (an unsigned basic integer) using the well-known
/// algorithm "exponentiation by squaring".
///
/// @dev See https://en.wikipedia.org/wiki/Exponentiation_by_squaring.
///
/// Notes:
/// - Refer to the notes in {Common.mulDiv18}.
/// - Returns `UNIT` for 0^0.
///
/// Requirements:
/// - Refer to the requirements in {abs} and {Common.mulDiv18}.
/// - The result must fit in SD59x18.
///
/// @param x The base as an SD59x18 number.
/// @param y The exponent as a uint256.
/// @return result The result as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function powu(SD59x18 x, uint256 y) pure returns (SD59x18 result) {
uint256 xAbs = uint256(abs(x).unwrap());
// Calculate the first iteration of the loop in advance.
uint256 resultAbs = y & 1 > 0 ? xAbs : uint256(uUNIT);
// Equivalent to `for(y /= 2; y > 0; y /= 2)`.
uint256 yAux = y;
for (yAux >>= 1; yAux > 0; yAux >>= 1) {
xAbs = Common.mulDiv18(xAbs, xAbs);
// Equivalent to `y % 2 == 1`.
if (yAux & 1 > 0) {
resultAbs = Common.mulDiv18(resultAbs, xAbs);
}
}
// The result must fit in SD59x18.
if (resultAbs > uint256(uMAX_SD59x18)) {
revert Errors.PRBMath_SD59x18_Powu_Overflow(x, y);
}
unchecked {
// Is the base negative and the exponent odd? If yes, the result should be negative.
int256 resultInt = int256(resultAbs);
bool isNegative = x.unwrap() < 0 && y & 1 == 1;
if (isNegative) {
resultInt = -resultInt;
}
result = wrap(resultInt);
}
}
/// @notice Calculates the square root of x using the Babylonian method.
///
/// @dev See https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Babylonian_method.
///
/// Notes:
/// - Only the positive root is returned.
/// - The result is rounded toward zero.
///
/// Requirements:
/// - x cannot be negative, since complex numbers are not supported.
/// - x must be less than `MAX_SD59x18 / UNIT`.
///
/// @param x The SD59x18 number for which to calculate the square root.
/// @return result The result as an SD59x18 number.
/// @custom:smtchecker abstract-function-nondet
function sqrt(SD59x18 x) pure returns (SD59x18 result) {
int256 xInt = x.unwrap();
if (xInt < 0) {
revert Errors.PRBMath_SD59x18_Sqrt_NegativeInput(x);
}
if (xInt > uMAX_SD59x18 / uUNIT) {
revert Errors.PRBMath_SD59x18_Sqrt_Overflow(x);
}
unchecked {
// Multiply x by `UNIT` to account for the factor of `UNIT` picked up when multiplying two SD59x18 numbers.
// In this case, the two numbers are both the square root.
uint256 resultUint = Common.sqrt(uint256(xInt * uUNIT));
result = wrap(int256(resultUint));
}
}// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { SD1x18 } from "./ValueType.sol";
/// @notice Thrown when trying to cast a SD1x18 number that doesn't fit in UD2x18.
error PRBMath_SD1x18_ToUD2x18_Underflow(SD1x18 x);
/// @notice Thrown when trying to cast a SD1x18 number that doesn't fit in UD60x18.
error PRBMath_SD1x18_ToUD60x18_Underflow(SD1x18 x);
/// @notice Thrown when trying to cast a SD1x18 number that doesn't fit in uint128.
error PRBMath_SD1x18_ToUint128_Underflow(SD1x18 x);
/// @notice Thrown when trying to cast a SD1x18 number that doesn't fit in uint256.
error PRBMath_SD1x18_ToUint256_Underflow(SD1x18 x);
/// @notice Thrown when trying to cast a SD1x18 number that doesn't fit in uint40.
error PRBMath_SD1x18_ToUint40_Overflow(SD1x18 x);
/// @notice Thrown when trying to cast a SD1x18 number that doesn't fit in uint40.
error PRBMath_SD1x18_ToUint40_Underflow(SD1x18 x);// SPDX-License-Identifier: MIT
pragma solidity >=0.8.19;
import { SD59x18 } from "./ValueType.sol";
/// @notice Thrown when taking the absolute value of `MIN_SD59x18`.
error PRBMath_SD59x18_Abs_MinSD59x18();
/// @notice Thrown when ceiling a number overflows SD59x18.
error PRBMath_SD59x18_Ceil_Overflow(SD59x18 x);
/// @notice Thrown when converting a basic integer to the fixed-point format overflows SD59x18.
error PRBMath_SD59x18_Convert_Overflow(int256 x);
/// @notice Thrown when converting a basic integer to the fixed-point format underflows SD59x18.
error PRBMath_SD59x18_Convert_Underflow(int256 x);
/// @notice Thrown when dividing two numbers and one of them is `MIN_SD59x18`.
error PRBMath_SD59x18_Div_InputTooSmall();
/// @notice Thrown when dividing two numbers and one of the intermediary unsigned results overflows SD59x18.
error PRBMath_SD59x18_Div_Overflow(SD59x18 x, SD59x18 y);
/// @notice Thrown when taking the natural exponent of a base greater than 133_084258667509499441.
error PRBMath_SD59x18_Exp_InputTooBig(SD59x18 x);
/// @notice Thrown when taking the binary exponent of a base greater than 192e18.
error PRBMath_SD59x18_Exp2_InputTooBig(SD59x18 x);
/// @notice Thrown when flooring a number underflows SD59x18.
error PRBMath_SD59x18_Floor_Underflow(SD59x18 x);
/// @notice Thrown when taking the geometric mean of two numbers and their product is negative.
error PRBMath_SD59x18_Gm_NegativeProduct(SD59x18 x, SD59x18 y);
/// @notice Thrown when taking the geometric mean of two numbers and multiplying them overflows SD59x18.
error PRBMath_SD59x18_Gm_Overflow(SD59x18 x, SD59x18 y);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in SD1x18.
error PRBMath_SD59x18_IntoSD1x18_Overflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in SD1x18.
error PRBMath_SD59x18_IntoSD1x18_Underflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in UD2x18.
error PRBMath_SD59x18_IntoUD2x18_Overflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in UD2x18.
error PRBMath_SD59x18_IntoUD2x18_Underflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in UD60x18.
error PRBMath_SD59x18_IntoUD60x18_Underflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint128.
error PRBMath_SD59x18_IntoUint128_Overflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint128.
error PRBMath_SD59x18_IntoUint128_Underflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint256.
error PRBMath_SD59x18_IntoUint256_Underflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint40.
error PRBMath_SD59x18_IntoUint40_Overflow(SD59x18 x);
/// @notice Thrown when trying to cast a UD60x18 number that doesn't fit in uint40.
error PRBMath_SD59x18_IntoUint40_Underflow(SD59x18 x);
/// @notice Thrown when taking the logarithm of a number less than or equal to zero.
error PRBMath_SD59x18_Log_InputTooSmall(SD59x18 x);
/// @notice Thrown when multiplying two numbers and one of the inputs is `MIN_SD59x18`.
error PRBMath_SD59x18_Mul_InputTooSmall();
/// @notice Thrown when multiplying two numbers and the intermediary absolute result overflows SD59x18.
error PRBMath_SD59x18_Mul_Overflow(SD59x18 x, SD59x18 y);
/// @notice Thrown when raising a number to a power and the intermediary absolute result overflows SD59x18.
error PRBMath_SD59x18_Powu_Overflow(SD59x18 x, uint256 y);
/// @notice Thrown when taking the square root of a negative number.
error PRBMath_SD59x18_Sqrt_NegativeInput(SD59x18 x);
/// @notice Thrown when the calculating the square root overflows SD59x18.
error PRBMath_SD59x18_Sqrt_Overflow(SD59x18 x);{
"remappings": [
"@openzeppelin/contracts/=node_modules/@openzeppelin/contracts/",
"@prb/math/=node_modules/@prb/math/",
"forge-std/=node_modules/forge-std/",
"solady/=node_modules/solady/",
"solarray/=node_modules/solarray/"
],
"optimizer": {
"enabled": true,
"runs": 500
},
"metadata": {
"useLiteralContent": false,
"bytecodeHash": "none",
"appendCBOR": true
},
"outputSelection": {
"*": {
"*": [
"evm.bytecode",
"evm.deployedBytecode",
"abi"
]
}
},
"evmVersion": "paris",
"viaIR": true,
"libraries": {}
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Creation Code
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Constructor Arguments (ABI-Encoded and is the last bytes of the Contract Creation Code above)
000000000000000000000000b1bef51ebca01eb12001a639bdbbff6eeca12b9f000000000000000000000000237f114a9cf62b87383684529d889ddfed917f0c00000000000000000000000000000000000000000000000000000000000001f4
-----Decoded View---------------
Arg [0] : initialAdmin (address): 0xb1bEF51ebCA01EB12001a639bDBbFF6eEcA12B9F
Arg [1] : initialNFTDescriptor (address): 0x237f114a9cF62b87383684529d889DdfEd917f0c
Arg [2] : maxTrancheCount (uint256): 500
-----Encoded View---------------
3 Constructor Arguments found :
Arg [0] : 000000000000000000000000b1bef51ebca01eb12001a639bdbbff6eeca12b9f
Arg [1] : 000000000000000000000000237f114a9cf62b87383684529d889ddfed917f0c
Arg [2] : 00000000000000000000000000000000000000000000000000000000000001f4
Deployed Bytecode Sourcemap
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Swarm Source
none://164736f6c634300081a000a
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0x5A52E9F4dFcdBcd68E50386D484378718167aB60
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A contract address hosts a smart contract, which is a set of code stored on the blockchain that runs when predetermined conditions are met. Learn more about addresses in our Knowledge Base.