const { ethers } = require('hardhat'); const { expect } = require('chai'); const { loadFixture } = require('@nomicfoundation/hardhat-network-helpers'); const { PANIC_CODES } = require('@nomicfoundation/hardhat-chai-matchers/panic'); const { Rounding } = require('../../helpers/enums'); const { min, max, modExp } = require('../../helpers/math'); const { generators } = require('../../helpers/random'); const { product, range } = require('../../helpers/iterate'); const RoundingDown = [Rounding.Floor, Rounding.Trunc]; const RoundingUp = [Rounding.Ceil, Rounding.Expand]; const bytes = (value, width = undefined) => ethers.Typed.bytes(ethers.toBeHex(value, width)); const uint256 = value => ethers.Typed.uint256(value); bytes.zero = '0x'; uint256.zero = 0n; const testCommutative = (fn, lhs, rhs, expected, ...extra) => Promise.all([ expect(fn(lhs, rhs, ...extra)).to.eventually.deep.equal(expected), expect(fn(rhs, lhs, ...extra)).to.eventually.deep.equal(expected), ]); const splitHighLow = n => [n / (1n << 256n), n % (1n << 256n)]; async function fixture() { const mock = await ethers.deployContract('$Math'); // disambiguation, we use the version with explicit rounding mock.$mulDiv = mock['$mulDiv(uint256,uint256,uint256,uint8)']; mock.$sqrt = mock['$sqrt(uint256,uint8)']; mock.$log2 = mock['$log2(uint256,uint8)']; mock.$log10 = mock['$log10(uint256,uint8)']; mock.$log256 = mock['$log256(uint256,uint8)']; return { mock }; } describe('Math', function () { beforeEach(async function () { Object.assign(this, await loadFixture(fixture)); }); describe('add512', function () { it('adds correctly without reverting', async function () { const values = [0n, 1n, 17n, 42n, ethers.MaxUint256 - 1n, ethers.MaxUint256]; for (const [a, b] of product(values, values)) { await expect(this.mock.$add512(a, b)).to.eventually.deep.equal(splitHighLow(a + b)); } }); }); describe('mul512', function () { it('multiplies correctly without reverting', async function () { const values = [0n, 1n, 17n, 42n, ethers.MaxUint256 - 1n, ethers.MaxUint256]; for (const [a, b] of product(values, values)) { await expect(this.mock.$mul512(a, b)).to.eventually.deep.equal(splitHighLow(a * b)); } }); }); describe('tryAdd', function () { it('adds correctly', async function () { const a = 5678n; const b = 1234n; await testCommutative(this.mock.$tryAdd, a, b, [true, a + b]); }); it('reverts on addition overflow', async function () { const a = ethers.MaxUint256; const b = 1n; await testCommutative(this.mock.$tryAdd, a, b, [false, 0n]); }); }); describe('trySub', function () { it('subtracts correctly', async function () { const a = 5678n; const b = 1234n; await expect(this.mock.$trySub(a, b)).to.eventually.deep.equal([true, a - b]); }); it('reverts if subtraction result would be negative', async function () { const a = 1234n; const b = 5678n; await expect(this.mock.$trySub(a, b)).to.eventually.deep.equal([false, 0n]); }); }); describe('tryMul', function () { it('multiplies correctly', async function () { const a = 1234n; const b = 5678n; await testCommutative(this.mock.$tryMul, a, b, [true, a * b]); }); it('multiplies by zero correctly', async function () { const a = 0n; const b = 5678n; await testCommutative(this.mock.$tryMul, a, b, [true, a * b]); }); it('reverts on multiplication overflow', async function () { const a = ethers.MaxUint256; const b = 2n; await testCommutative(this.mock.$tryMul, a, b, [false, 0n]); }); }); describe('tryDiv', function () { it('divides correctly', async function () { const a = 5678n; const b = 5678n; await expect(this.mock.$tryDiv(a, b)).to.eventually.deep.equal([true, a / b]); }); it('divides zero correctly', async function () { const a = 0n; const b = 5678n; await expect(this.mock.$tryDiv(a, b)).to.eventually.deep.equal([true, a / b]); }); it('returns complete number result on non-even division', async function () { const a = 7000n; const b = 5678n; await expect(this.mock.$tryDiv(a, b)).to.eventually.deep.equal([true, a / b]); }); it('reverts on division by zero', async function () { const a = 5678n; const b = 0n; await expect(this.mock.$tryDiv(a, b)).to.eventually.deep.equal([false, 0n]); }); }); describe('tryMod', function () { describe('modulos correctly', function () { it('when the dividend is smaller than the divisor', async function () { const a = 284n; const b = 5678n; await expect(this.mock.$tryMod(a, b)).to.eventually.deep.equal([true, a % b]); }); it('when the dividend is equal to the divisor', async function () { const a = 5678n; const b = 5678n; await expect(this.mock.$tryMod(a, b)).to.eventually.deep.equal([true, a % b]); }); it('when the dividend is larger than the divisor', async function () { const a = 7000n; const b = 5678n; await expect(this.mock.$tryMod(a, b)).to.eventually.deep.equal([true, a % b]); }); it('when the dividend is a multiple of the divisor', async function () { const a = 17034n; // 17034 == 5678 * 3 const b = 5678n; await expect(this.mock.$tryMod(a, b)).to.eventually.deep.equal([true, a % b]); }); }); it('reverts with a 0 divisor', async function () { const a = 5678n; const b = 0n; await expect(this.mock.$tryMod(a, b)).to.eventually.deep.equal([false, 0n]); }); }); describe('saturatingAdd', function () { it('adds correctly', async function () { const a = 5678n; const b = 1234n; await testCommutative(this.mock.$saturatingAdd, a, b, a + b); await testCommutative(this.mock.$saturatingAdd, a, 0n, a); await testCommutative(this.mock.$saturatingAdd, ethers.MaxUint256, 0n, ethers.MaxUint256); }); it('bounds on addition overflow', async function () { await testCommutative(this.mock.$saturatingAdd, ethers.MaxUint256, 1n, ethers.MaxUint256); await expect(this.mock.$saturatingAdd(ethers.MaxUint256, ethers.MaxUint256)).to.eventually.equal( ethers.MaxUint256, ); }); }); describe('saturatingSub', function () { it('subtracts correctly', async function () { const a = 5678n; const b = 1234n; await expect(this.mock.$saturatingSub(a, b)).to.eventually.equal(a - b); await expect(this.mock.$saturatingSub(a, a)).to.eventually.equal(0n); await expect(this.mock.$saturatingSub(a, 0n)).to.eventually.equal(a); await expect(this.mock.$saturatingSub(0n, a)).to.eventually.equal(0n); await expect(this.mock.$saturatingSub(ethers.MaxUint256, 1n)).to.eventually.equal(ethers.MaxUint256 - 1n); }); it('bounds on subtraction overflow', async function () { await expect(this.mock.$saturatingSub(0n, 1n)).to.eventually.equal(0n); await expect(this.mock.$saturatingSub(1n, 2n)).to.eventually.equal(0n); await expect(this.mock.$saturatingSub(1n, ethers.MaxUint256)).to.eventually.equal(0n); await expect(this.mock.$saturatingSub(ethers.MaxUint256 - 1n, ethers.MaxUint256)).to.eventually.equal(0n); }); }); describe('saturatingMul', function () { it('multiplies correctly', async function () { const a = 1234n; const b = 5678n; await testCommutative(this.mock.$saturatingMul, a, b, a * b); }); it('multiplies by zero correctly', async function () { const a = 0n; const b = 5678n; await testCommutative(this.mock.$saturatingMul, a, b, 0n); }); it('bounds on multiplication overflow', async function () { const a = ethers.MaxUint256; const b = 2n; await testCommutative(this.mock.$saturatingMul, a, b, ethers.MaxUint256); }); }); describe('max', function () { it('is correctly detected in both position', async function () { await testCommutative(this.mock.$max, 1234n, 5678n, max(1234n, 5678n)); }); }); describe('min', function () { it('is correctly detected in both position', async function () { await testCommutative(this.mock.$min, 1234n, 5678n, min(1234n, 5678n)); }); }); describe('average', function () { it('is correctly calculated with two odd numbers', async function () { const a = 57417n; const b = 95431n; await expect(this.mock.$average(a, b)).to.eventually.equal((a + b) / 2n); }); it('is correctly calculated with two even numbers', async function () { const a = 42304n; const b = 84346n; await expect(this.mock.$average(a, b)).to.eventually.equal((a + b) / 2n); }); it('is correctly calculated with one even and one odd number', async function () { const a = 57417n; const b = 84346n; await expect(this.mock.$average(a, b)).to.eventually.equal((a + b) / 2n); }); it('is correctly calculated with two max uint256 numbers', async function () { const a = ethers.MaxUint256; await expect(this.mock.$average(a, a)).to.eventually.equal(a); }); }); describe('ceilDiv', function () { it('reverts on zero division', async function () { const a = 2n; const b = 0n; // It's unspecified because it's a low level 0 division error await expect(this.mock.$ceilDiv(a, b)).to.be.revertedWithPanic(PANIC_CODES.DIVISION_BY_ZERO); }); it('does not round up a zero result', async function () { const a = 0n; const b = 2n; const r = 0n; await expect(this.mock.$ceilDiv(a, b)).to.eventually.equal(r); }); it('does not round up on exact division', async function () { const a = 10n; const b = 5n; const r = 2n; await expect(this.mock.$ceilDiv(a, b)).to.eventually.equal(r); }); it('rounds up on division with remainders', async function () { const a = 42n; const b = 13n; const r = 4n; await expect(this.mock.$ceilDiv(a, b)).to.eventually.equal(r); }); it('does not overflow', async function () { const a = ethers.MaxUint256; const b = 2n; const r = 1n << 255n; await expect(this.mock.$ceilDiv(a, b)).to.eventually.equal(r); }); it('correctly computes max uint256 divided by 1', async function () { const a = ethers.MaxUint256; const b = 1n; const r = ethers.MaxUint256; await expect(this.mock.$ceilDiv(a, b)).to.eventually.equal(r); }); }); describe('mulDiv', function () { it('divide by 0', async function () { const a = 1n; const b = 1n; const c = 0n; await expect(this.mock.$mulDiv(a, b, c, Rounding.Floor)).to.be.revertedWithPanic(PANIC_CODES.DIVISION_BY_ZERO); }); it('reverts with result higher than 2 ^ 256', async function () { const a = 5n; const b = ethers.MaxUint256; const c = 2n; await expect(this.mock.$mulDiv(a, b, c, Rounding.Floor)).to.be.revertedWithPanic( PANIC_CODES.ARITHMETIC_UNDER_OR_OVERFLOW, ); }); describe('does round down', function () { it('small values', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$mulDiv(3n, 4n, 5n, rounding)).to.eventually.equal(2n); await expect(this.mock.$mulDiv(3n, 5n, 5n, rounding)).to.eventually.equal(3n); } }); it('large values', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$mulDiv(42n, ethers.MaxUint256 - 1n, ethers.MaxUint256, rounding)).to.eventually.equal( 41n, ); await expect(this.mock.$mulDiv(17n, ethers.MaxUint256, ethers.MaxUint256, rounding)).to.eventually.equal(17n); await expect( this.mock.$mulDiv(ethers.MaxUint256 - 1n, ethers.MaxUint256 - 1n, ethers.MaxUint256, rounding), ).to.eventually.equal(ethers.MaxUint256 - 2n); await expect( this.mock.$mulDiv(ethers.MaxUint256, ethers.MaxUint256 - 1n, ethers.MaxUint256, rounding), ).to.eventually.equal(ethers.MaxUint256 - 1n); await expect( this.mock.$mulDiv(ethers.MaxUint256, ethers.MaxUint256, ethers.MaxUint256, rounding), ).to.eventually.equal(ethers.MaxUint256); } }); }); describe('does round up', function () { it('small values', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$mulDiv(3n, 4n, 5n, rounding)).to.eventually.equal(3n); await expect(this.mock.$mulDiv(3n, 5n, 5n, rounding)).to.eventually.equal(3n); } }); it('large values', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$mulDiv(42n, ethers.MaxUint256 - 1n, ethers.MaxUint256, rounding)).to.eventually.equal( 42n, ); await expect(this.mock.$mulDiv(17n, ethers.MaxUint256, ethers.MaxUint256, rounding)).to.eventually.equal(17n); await expect( this.mock.$mulDiv(ethers.MaxUint256 - 1n, ethers.MaxUint256 - 1n, ethers.MaxUint256, rounding), ).to.eventually.equal(ethers.MaxUint256 - 1n); await expect( this.mock.$mulDiv(ethers.MaxUint256, ethers.MaxUint256 - 1n, ethers.MaxUint256, rounding), ).to.eventually.equal(ethers.MaxUint256 - 1n); await expect( this.mock.$mulDiv(ethers.MaxUint256, ethers.MaxUint256, ethers.MaxUint256, rounding), ).to.eventually.equal(ethers.MaxUint256); } }); }); }); describe('mulShr', function () { it('reverts with result higher than 2 ^ 256', async function () { const a = 5n; const b = ethers.MaxUint256; const c = 1n; await expect(this.mock.$mulShr(a, b, c, Rounding.Floor)).to.be.revertedWithPanic( PANIC_CODES.ARITHMETIC_UNDER_OR_OVERFLOW, ); }); describe('does round down', function () { it('small values', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$mulShr(3n, 5n, 1n, rounding)).to.eventually.equal(7n); await expect(this.mock.$mulShr(3n, 5n, 2n, rounding)).to.eventually.equal(3n); } }); it('large values', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$mulShr(42n, ethers.MaxUint256, 255n, rounding)).to.eventually.equal(83n); await expect(this.mock.$mulShr(17n, ethers.MaxUint256, 255n, rounding)).to.eventually.equal(33n); await expect(this.mock.$mulShr(ethers.MaxUint256, ethers.MaxInt256 + 1n, 255n, rounding)).to.eventually.equal( ethers.MaxUint256, ); await expect(this.mock.$mulShr(ethers.MaxUint256, ethers.MaxInt256, 255n, rounding)).to.eventually.equal( ethers.MaxUint256 - 2n, ); } }); }); describe('does round up', function () { it('small values', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$mulShr(3n, 5n, 1n, rounding)).to.eventually.equal(8n); await expect(this.mock.$mulShr(3n, 5n, 2n, rounding)).to.eventually.equal(4n); } }); it('large values', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$mulShr(42n, ethers.MaxUint256, 255n, rounding)).to.eventually.equal(84n); await expect(this.mock.$mulShr(17n, ethers.MaxUint256, 255n, rounding)).to.eventually.equal(34n); await expect(this.mock.$mulShr(ethers.MaxUint256, ethers.MaxInt256 + 1n, 255n, rounding)).to.eventually.equal( ethers.MaxUint256, ); await expect(this.mock.$mulShr(ethers.MaxUint256, ethers.MaxInt256, 255n, rounding)).to.eventually.equal( ethers.MaxUint256 - 1n, ); } }); }); }); describe('invMod', function () { for (const factors of [ [0n], [1n], [2n], [17n], [65537n], [0xffffffff00000001000000000000000000000000ffffffffffffffffffffffffn], [3n, 5n], [3n, 7n], [47n, 53n], ]) { const p = factors.reduce((acc, f) => acc * f, 1n); describe(`using p=${p} which is ${p > 1 && factors.length > 1 ? 'not ' : ''}a prime`, function () { it('trying to inverse 0 returns 0', async function () { await expect(this.mock.$invMod(0, p)).to.eventually.equal(0n); await expect(this.mock.$invMod(p, p)).to.eventually.equal(0n); // p is 0 mod p }); if (p != 0) { for (const value of Array.from({ length: 16 }, generators.uint256)) { const isInversible = factors.every(f => value % f); it(`trying to inverse ${value}`, async function () { const result = await this.mock.$invMod(value, p); if (isInversible) { expect((value * result) % p).to.equal(1n); } else { expect(result).to.equal(0n); } }); } } }); } }); describe('modExp', function () { for (const [name, type] of Object.entries({ uint256, bytes })) { describe(`with ${name} inputs`, function () { it('is correctly calculating modulus', async function () { const b = 3n; const e = 200n; const m = 50n; await expect(this.mock.$modExp(type(b), type(e), type(m))).to.eventually.equal(type(b ** e % m).value); }); it('is correctly reverting when modulus is zero', async function () { const b = 3n; const e = 200n; const m = 0n; await expect(this.mock.$modExp(type(b), type(e), type(m))).to.be.revertedWithPanic( PANIC_CODES.DIVISION_BY_ZERO, ); }); }); } describe('with large bytes inputs', function () { for (const [[b, log2b], [e, log2e], [m, log2m]] of product( range(320, 512, 64).map(e => [2n ** BigInt(e) + 1n, e]), range(320, 512, 64).map(e => [2n ** BigInt(e) + 1n, e]), range(320, 512, 64).map(e => [2n ** BigInt(e) + 1n, e]), )) { it(`calculates b ** e % m (b=2**${log2b}+1) (e=2**${log2e}+1) (m=2**${log2m}+1)`, async function () { const mLength = ethers.dataLength(ethers.toBeHex(m)); await expect(this.mock.$modExp(bytes(b), bytes(e), bytes(m))).to.eventually.equal( bytes(modExp(b, e, m), mLength).value, ); }); } }); }); describe('tryModExp', function () { for (const [name, type] of Object.entries({ uint256, bytes })) { describe(`with ${name} inputs`, function () { it('is correctly calculating modulus', async function () { const b = 3n; const e = 200n; const m = 50n; await expect(this.mock.$tryModExp(type(b), type(e), type(m))).to.eventually.deep.equal([ true, type(b ** e % m).value, ]); }); it('is correctly reverting when modulus is zero', async function () { const b = 3n; const e = 200n; const m = 0n; await expect(this.mock.$tryModExp(type(b), type(e), type(m))).to.eventually.deep.equal([false, type.zero]); }); }); } describe('with large bytes inputs', function () { for (const [[b, log2b], [e, log2e], [m, log2m]] of product( range(320, 513, 64).map(e => [2n ** BigInt(e) + 1n, e]), range(320, 513, 64).map(e => [2n ** BigInt(e) + 1n, e]), range(320, 513, 64).map(e => [2n ** BigInt(e) + 1n, e]), )) { it(`calculates b ** e % m (b=2**${log2b}+1) (e=2**${log2e}+1) (m=2**${log2m}+1)`, async function () { const mLength = ethers.dataLength(ethers.toBeHex(m)); await expect(this.mock.$tryModExp(bytes(b), bytes(e), bytes(m))).to.eventually.deep.equal([ true, bytes(modExp(b, e, m), mLength).value, ]); }); } }); }); describe('sqrt', function () { it('rounds down', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$sqrt(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$sqrt(1n, rounding)).to.eventually.equal(1n); await expect(this.mock.$sqrt(2n, rounding)).to.eventually.equal(1n); await expect(this.mock.$sqrt(3n, rounding)).to.eventually.equal(1n); await expect(this.mock.$sqrt(4n, rounding)).to.eventually.equal(2n); await expect(this.mock.$sqrt(144n, rounding)).to.eventually.equal(12n); await expect(this.mock.$sqrt(999999n, rounding)).to.eventually.equal(999n); await expect(this.mock.$sqrt(1000000n, rounding)).to.eventually.equal(1000n); await expect(this.mock.$sqrt(1000001n, rounding)).to.eventually.equal(1000n); await expect(this.mock.$sqrt(1002000n, rounding)).to.eventually.equal(1000n); await expect(this.mock.$sqrt(1002001n, rounding)).to.eventually.equal(1001n); await expect(this.mock.$sqrt(ethers.MaxUint256, rounding)).to.eventually.equal( 340282366920938463463374607431768211455n, ); } }); it('rounds up', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$sqrt(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$sqrt(1n, rounding)).to.eventually.equal(1n); await expect(this.mock.$sqrt(2n, rounding)).to.eventually.equal(2n); await expect(this.mock.$sqrt(3n, rounding)).to.eventually.equal(2n); await expect(this.mock.$sqrt(4n, rounding)).to.eventually.equal(2n); await expect(this.mock.$sqrt(144n, rounding)).to.eventually.equal(12n); await expect(this.mock.$sqrt(999999n, rounding)).to.eventually.equal(1000n); await expect(this.mock.$sqrt(1000000n, rounding)).to.eventually.equal(1000n); await expect(this.mock.$sqrt(1000001n, rounding)).to.eventually.equal(1001n); await expect(this.mock.$sqrt(1002000n, rounding)).to.eventually.equal(1001n); await expect(this.mock.$sqrt(1002001n, rounding)).to.eventually.equal(1001n); await expect(this.mock.$sqrt(ethers.MaxUint256, rounding)).to.eventually.equal( 340282366920938463463374607431768211456n, ); } }); }); describe('log', function () { describe('log2', function () { it('rounds down', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$log2(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log2(1n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log2(2n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log2(3n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log2(4n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log2(5n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log2(6n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log2(7n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log2(8n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log2(9n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log2(ethers.MaxUint256, rounding)).to.eventually.equal(255n); } }); it('rounds up', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$log2(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log2(1n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log2(2n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log2(3n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log2(4n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log2(5n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log2(6n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log2(7n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log2(8n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log2(9n, rounding)).to.eventually.equal(4n); await expect(this.mock.$log2(ethers.MaxUint256, rounding)).to.eventually.equal(256n); } }); }); describe('log10', function () { it('rounds down', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$log10(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log10(1n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log10(2n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log10(9n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log10(10n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log10(11n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log10(99n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log10(100n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log10(101n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log10(999n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log10(1000n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log10(1001n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log10(ethers.MaxUint256, rounding)).to.eventually.equal(77n); } }); it('rounds up', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$log10(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log10(1n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log10(2n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log10(9n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log10(10n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log10(11n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log10(99n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log10(100n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log10(101n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log10(999n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log10(1000n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log10(1001n, rounding)).to.eventually.equal(4n); await expect(this.mock.$log10(ethers.MaxUint256, rounding)).to.eventually.equal(78n); } }); }); describe('log256', function () { it('rounds down', async function () { for (const rounding of RoundingDown) { await expect(this.mock.$log256(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log256(1n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log256(2n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log256(255n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log256(256n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log256(257n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log256(65535n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log256(65536n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log256(65537n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log256(ethers.MaxUint256, rounding)).to.eventually.equal(31n); } }); it('rounds up', async function () { for (const rounding of RoundingUp) { await expect(this.mock.$log256(0n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log256(1n, rounding)).to.eventually.equal(0n); await expect(this.mock.$log256(2n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log256(255n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log256(256n, rounding)).to.eventually.equal(1n); await expect(this.mock.$log256(257n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log256(65535n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log256(65536n, rounding)).to.eventually.equal(2n); await expect(this.mock.$log256(65537n, rounding)).to.eventually.equal(3n); await expect(this.mock.$log256(ethers.MaxUint256, rounding)).to.eventually.equal(32n); } }); }); }); });