const {expect} = require("chai"); const hre = require("hardhat"); const {ethers} = hre; const WAD = ethers.utils.parseUnits("1", 18); //#region DSMath function let wdiv = (x, y) => { return x.mul(WAD).add(y.div(2)).div(y); }; let wmul = (x, y) => { return x.mul(y).add(WAD.div(2)).div(WAD); }; //#endregion describe("Gelato Debt Bridge Connector Unit Test", function () { this.timeout(0); if (hre.network.name !== "hardhat") { console.error("Test Suite is meant to be run on hardhat only"); process.exit(1); } let connectGelatoDebtBridgeFromMaker; before(async function () { const ConnectGelatoDebtBridgeFromMaker = await ethers.getContractFactory( "ConnectGelatoDebtBridgeFromMaker" ); connectGelatoDebtBridgeFromMaker = await ConnectGelatoDebtBridgeFromMaker.deploy( 0 ); connectGelatoDebtBridgeFromMaker.deployed(); }); it("#1: wCalcCollateralToWithdraw should return the amount of collateral to withdraw on protocol 1 and to put on protocol 2", async function () { // 3 times more collateral than borrowed amount in protocol 1 let minColRatioOnMaker = ethers.utils.parseUnits("3", 18); // 1.5 times more collateral than borrowed amount in protocol 2 let minColRatioOnPositionB = ethers.utils.parseUnits("15", 17); // The amount of collateral locked let col = ethers.utils.parseUnits("1", 18); // The amount of borrowed token let borrowedToken = ethers.utils.parseUnits("100", 18); // how much one collateral is worth on borrowed token let collateralPrice = ethers.utils.parseUnits("250", 18); // the amount of collateral in borrowed token let collateral = col .mul(collateralPrice) .div(ethers.utils.parseUnits("1", 18)); // div to have everything in wad standard // Check this document https://drive.google.com/file/d/1OV3ZbJPd2Yr-3l0rst6tK3ycfhhg6Nfh/view?usp=sharing for more details one the used formula //#region CALCULATION REPLICATION let expectedColToWithdraw = wmul( wmul(minColRatioOnMaker, minColRatioOnPositionB), borrowedToken ); // doc ref : c_r x comp_r x d_2 expectedColToWithdraw = expectedColToWithdraw.sub( wmul(minColRatioOnMaker, collateral) ); // doc ref : c_r x comp_r x d_2 - c_r x e_2 expectedColToWithdraw = wdiv( expectedColToWithdraw, minColRatioOnPositionB.sub(minColRatioOnMaker) ); // doc ref : (c_r x comp_r x d_2 - c_r x e_2)/ (comp_r - c_r) expectedColToWithdraw = collateral.sub(expectedColToWithdraw); // doc ref : e_2 - ((c_r x comp_r x d_2 - c_r x e_2)/ (comp_r - c_r)) // Extra step to convert back to col type expectedColToWithdraw = wdiv(expectedColToWithdraw, collateralPrice); //#endregion expect( await connectGelatoDebtBridgeFromMaker.wCalcCollateralToWithdraw( minColRatioOnMaker, minColRatioOnPositionB, collateralPrice, collateral, borrowedToken ) ).to.be.equal(expectedColToWithdraw); }); it("#2: _wCalcDebtToRepay should return the amount of borrowed token to pay back on protocol 1", async function () { // 3 times more collateral than borrowed amount in protocol 1 let minColRatioOnMaker = ethers.utils.parseUnits("3", 18); // 1.5 times more collateral than borrowed amount in protocol 2 let minColRatioOnPositionB = ethers.utils.parseUnits("15", 17); // The amount of collateral locked let col = ethers.utils.parseUnits("1", 18); // The amount of borrowed token let borrowedToken = ethers.utils.parseUnits("100", 18); // how much one collateral is worth on borrowed token let collateralPrice = ethers.utils.parseUnits("250", 18); // the amount of collateral in borrowed token let collateral = col .mul(collateralPrice) .div(ethers.utils.parseUnits("1", 18)); // div to have everything in wad standard // Check this document https://drive.google.com/file/d/1OV3ZbJPd2Yr-3l0rst6tK3ycfhhg6Nfh/view?usp=sharing for more details one the used formula //#region CALCULATION REPLICATION let expectedBorToPayBack = wmul( wmul(minColRatioOnMaker, minColRatioOnPositionB), borrowedToken ); // doc ref : c_r x comp_r x d_2 expectedBorToPayBack = expectedBorToPayBack.sub( wmul(minColRatioOnMaker, collateral) ); // doc ref : c_r x comp_r x d_2 - c_r x e_2 expectedBorToPayBack = wdiv( expectedBorToPayBack, minColRatioOnPositionB.sub(minColRatioOnMaker) ); // doc ref : (c_r x comp_r x d_2 - c_r x e_2)/ (comp_r - c_r) expectedBorToPayBack = wmul( wdiv(ethers.utils.parseUnits("1", 18), minColRatioOnMaker), expectedBorToPayBack ); // doc ref : (1/c_r)((c_r x comp_r x d_2 - c_r x e_2)/ (comp_r - c_r)) expectedBorToPayBack = borrowedToken.sub(expectedBorToPayBack); // doc ref : d_2 - (1/c_r)((c_r x comp_r x d_2 - c_r x e_2)/ (comp_r - c_r)) //#endregion expect( await connectGelatoDebtBridgeFromMaker.wCalcDebtToRepay( minColRatioOnMaker, minColRatioOnPositionB, collateral, borrowedToken ) ).to.be.equal(expectedBorToPayBack); }); });