const shouldFail = require('../helpers/shouldFail'); const { MAX_UINT256, MIN_INT256, MAX_INT256 } = require('../helpers/constants'); const SafeMathMock = artifacts.require('SafeMathMock'); const { BigNumber } = require('../helpers/setup'); contract('SafeMath', function () { beforeEach(async function () { this.safeMath = await SafeMathMock.new(); }); describe('unsigned', function () { describe('add', function () { it('adds correctly', async function () { const a = new BigNumber(5678); const b = new BigNumber(1234); (await this.safeMath.addUints(a, b)).should.be.bignumber.equal(a.plus(b)); }); it('reverts on addition overflow', async function () { const a = MAX_UINT256; const b = new BigNumber(1); await shouldFail.reverting(this.safeMath.addUints(a, b)); }); }); describe('sub', function () { it('subtracts correctly', async function () { const a = new BigNumber(5678); const b = new BigNumber(1234); (await this.safeMath.subUints(a, b)).should.be.bignumber.equal(a.minus(b)); }); it('reverts if subtraction result would be negative', async function () { const a = new BigNumber(1234); const b = new BigNumber(5678); await shouldFail.reverting(this.safeMath.subUints(a, b)); }); }); describe('mul', function () { it('multiplies correctly', async function () { const a = new BigNumber(1234); const b = new BigNumber(5678); (await this.safeMath.mulUints(a, b)).should.be.bignumber.equal(a.times(b)); }); it('handles a zero product correctly (first number as zero)', async function () { const a = new BigNumber(0); const b = new BigNumber(5678); (await this.safeMath.mulUints(a, b)).should.be.bignumber.equal(a.times(b)); }); it('handles a zero product correctly (second number as zero)', async function () { const a = new BigNumber(5678); const b = new BigNumber(0); (await this.safeMath.mulUints(a, b)).should.be.bignumber.equal(a.times(b)); }); it('reverts on multiplication overflow', async function () { const a = MAX_UINT256; const b = new BigNumber(2); await shouldFail.reverting(this.safeMath.mulUints(a, b)); }); }); describe('div', function () { it('divides correctly', async function () { const a = new BigNumber(5678); const b = new BigNumber(5678); (await this.safeMath.divUints(a, b)).should.be.bignumber.equal(a.div(b)); }); it('divides zero correctly', async function () { const a = new BigNumber(0); const b = new BigNumber(5678); (await this.safeMath.divUints(a, b)).should.be.bignumber.equal(0); }); it('returns complete number result on non-even division', async function () { const a = new BigNumber(7000); const b = new BigNumber(5678); (await this.safeMath.divUints(a, b)).should.be.bignumber.equal(1); }); it('reverts on zero division', async function () { const a = new BigNumber(5678); const b = new BigNumber(0); await shouldFail.reverting(this.safeMath.divUints(a, b)); }); }); describe('mod', function () { describe('modulos correctly', async function () { it('when the dividend is smaller than the divisor', async function () { const a = new BigNumber(284); const b = new BigNumber(5678); (await this.safeMath.modUints(a, b)).should.be.bignumber.equal(a.mod(b)); }); it('when the dividend is equal to the divisor', async function () { const a = new BigNumber(5678); const b = new BigNumber(5678); (await this.safeMath.modUints(a, b)).should.be.bignumber.equal(a.mod(b)); }); it('when the dividend is larger than the divisor', async function () { const a = new BigNumber(7000); const b = new BigNumber(5678); (await this.safeMath.modUints(a, b)).should.be.bignumber.equal(a.mod(b)); }); it('when the dividend is a multiple of the divisor', async function () { const a = new BigNumber(17034); // 17034 == 5678 * 3 const b = new BigNumber(5678); (await this.safeMath.modUints(a, b)).should.be.bignumber.equal(a.mod(b)); }); }); it('reverts with a 0 divisor', async function () { const a = new BigNumber(5678); const b = new BigNumber(0); await shouldFail.reverting(this.safeMath.modUints(a, b)); }); }); }); describe('signed', function () { describe('add', function () { it('adds correctly if it does not overflow and the result is positve', async function () { const a = new BigNumber(1234); const b = new BigNumber(5678); (await this.safeMath.addUints(a, b)).should.be.bignumber.equal(a.plus(b)); }); it('adds correctly if it does not overflow and the result is negative', async function () { const a = MAX_INT256; const b = MIN_INT256; const result = await this.safeMath.addInts(a, b); result.should.be.bignumber.equal(a.plus(b)); }); it('reverts on positive addition overflow', async function () { const a = MAX_INT256; const b = new BigNumber(1); await shouldFail.reverting(this.safeMath.addInts(a, b)); }); it('reverts on negative addition overflow', async function () { const a = MIN_INT256; const b = new BigNumber(-1); await shouldFail.reverting(this.safeMath.addInts(a, b)); }); }); describe('sub', function () { it('subtracts correctly if it does not overflow and the result is positive', async function () { const a = new BigNumber(5678); const b = new BigNumber(1234); const result = await this.safeMath.subInts(a, b); result.should.be.bignumber.equal(a.minus(b)); }); it('subtracts correctly if it does not overflow and the result is negative', async function () { const a = new BigNumber(1234); const b = new BigNumber(5678); const result = await this.safeMath.subInts(a, b); result.should.be.bignumber.equal(a.minus(b)); }); it('reverts on positive subtraction overflow', async function () { const a = MAX_INT256; const b = new BigNumber(-1); await shouldFail.reverting(this.safeMath.subInts(a, b)); }); it('reverts on negative subtraction overflow', async function () { const a = MIN_INT256; const b = new BigNumber(1); await shouldFail.reverting(this.safeMath.subInts(a, b)); }); }); describe('mul', function () { it('multiplies correctly', async function () { const a = new BigNumber(5678); const b = new BigNumber(-1234); const result = await this.safeMath.mulInts(a, b); result.should.be.bignumber.equal(a.times(b)); }); it('handles a zero product correctly', async function () { const a = new BigNumber(0); const b = new BigNumber(5678); const result = await this.safeMath.mulInts(a, b); result.should.be.bignumber.equal(a.times(b)); }); it('reverts on multiplication overflow, positive operands', async function () { const a = MAX_INT256; const b = new BigNumber(2); await shouldFail.reverting(this.safeMath.mulInts(a, b)); }); it('reverts when minimum integer is multiplied by -1', async function () { const a = MIN_INT256; const b = new BigNumber(-1); await shouldFail.reverting(this.safeMath.mulInts(a, b)); }); it('reverts when -1 is multiplied by minimum integer', async function () { const a = new BigNumber(-1); const b = MIN_INT256; await shouldFail.reverting(this.safeMath.mulInts(a, b)); }); }); describe('div', function () { it('divides correctly', async function () { const a = new BigNumber(-5678); const b = new BigNumber(5678); const result = await this.safeMath.divInts(a, b); result.should.be.bignumber.equal(a.div(b)); }); it('reverts on zero division', async function () { const a = new BigNumber(-5678); const b = new BigNumber(0); await shouldFail.reverting(this.safeMath.divInts(a, b)); }); it('reverts on overflow, negative second', async function () { const a = new BigNumber(MIN_INT256); const b = new BigNumber(-1); await shouldFail.reverting(this.safeMath.divInts(a, b)); }); }); }); });