// SPDX-License-Identifier: MIT pragma solidity ^0.7.0; import {TokenInterface} from "../../common/interfaces.sol"; import {DSMath} from "../../common/math.sol"; import {Basic} from "../../common/basic.sol"; import {ISushiSwapRouter, ISushiSwapFactory} from "./interface.sol"; abstract contract Helpers is DSMath, Basic { /** * @dev ISushiSwapRouter */ ISushiSwapRouter internal constant router = ISushiSwapRouter(0x1b02dA8Cb0d097eB8D57A175b88c7D8b47997506); function getExpectedBuyAmt(address[] memory paths, uint256 sellAmt) internal view returns (uint256 buyAmt) { uint256[] memory amts = router.getAmountsOut(sellAmt, paths); buyAmt = amts[1]; } function getExpectedSellAmt(address[] memory paths, uint256 buyAmt) internal view returns (uint256 sellAmt) { uint256[] memory amts = router.getAmountsIn(buyAmt, paths); sellAmt = amts[0]; } function checkPair(address[] memory paths) internal view { address pair = ISushiSwapFactory(router.factory()).getPair( paths[0], paths[1] ); require(pair != address(0), "No-exchange-address"); } function getPaths(address buyAddr, address sellAddr) internal pure returns (address[] memory paths) { paths = new address[](2); paths[0] = address(sellAddr); paths[1] = address(buyAddr); } function getMinAmount( TokenInterface token, uint256 amt, uint256 slippage ) internal view returns (uint256 minAmt) { uint256 _amt18 = convertTo18(token.decimals(), amt); minAmt = wmul(_amt18, sub(WAD, slippage)); minAmt = convert18ToDec(token.decimals(), minAmt); } function _addLiquidity( address tokenA, address tokenB, uint256 _amt, uint256 unitAmt, uint256 slippage ) internal returns ( uint256 _amtA, uint256 _amtB, uint256 _liquidity ) { (TokenInterface _tokenA, TokenInterface _tokenB) = changeAvaxAddress( tokenA, tokenB ); _amtA = _amt == uint256(-1) ? getTokenBal(TokenInterface(tokenA)) : _amt; _amtB = convert18ToDec( _tokenB.decimals(), wmul(unitAmt, convertTo18(_tokenA.decimals(), _amtA)) ); bool isAvax = address(_tokenA) == wavaxAddr; convertAvaxToWavax(isAvax, _tokenA, _amtA); isAvax = address(_tokenB) == wavaxAddr; convertAvaxToWavax(isAvax, _tokenB, _amtB); approve(_tokenA, address(router), _amtA); approve(_tokenB, address(router), _amtB); uint256 minAmtA = getMinAmount(_tokenA, _amtA, slippage); uint256 minAmtB = getMinAmount(_tokenB, _amtB, slippage); (_amtA, _amtB, _liquidity) = router.addLiquidity( address(_tokenA), address(_tokenB), _amtA, _amtB, minAmtA, minAmtB, address(this), block.timestamp + 1 ); } function _removeLiquidity( address tokenA, address tokenB, uint256 _amt, uint256 unitAmtA, uint256 unitAmtB ) internal returns ( uint256 _amtA, uint256 _amtB, uint256 _uniAmt ) { TokenInterface _tokenA; TokenInterface _tokenB; (_tokenA, _tokenB, _uniAmt) = _getRemoveLiquidityData( tokenA, tokenB, _amt ); { uint256 minAmtA = convert18ToDec( _tokenA.decimals(), wmul(unitAmtA, _uniAmt) ); uint256 minAmtB = convert18ToDec( _tokenB.decimals(), wmul(unitAmtB, _uniAmt) ); (_amtA, _amtB) = router.removeLiquidity( address(_tokenA), address(_tokenB), _uniAmt, minAmtA, minAmtB, address(this), block.timestamp + 1 ); } bool isAvax = address(_tokenA) == wavaxAddr; convertWavaxToAvax(isAvax, _tokenA, _amtA); isAvax = address(_tokenB) == wavaxAddr; convertWavaxToAvax(isAvax, _tokenB, _amtB); } function _getRemoveLiquidityData( address tokenA, address tokenB, uint256 _amt ) internal returns ( TokenInterface _tokenA, TokenInterface _tokenB, uint256 _uniAmt ) { (_tokenA, _tokenB) = changeAvaxAddress(tokenA, tokenB); address exchangeAddr = ISushiSwapFactory(router.factory()).getPair( address(_tokenA), address(_tokenB) ); require(exchangeAddr != address(0), "pair-not-found."); TokenInterface uniToken = TokenInterface(exchangeAddr); _uniAmt = _amt == uint256(-1) ? uniToken.balanceOf(address(this)) : _amt; approve(uniToken, address(router), _uniAmt); } }