/* global describe, it */ var assert = require('assert'); var BN = require('../').BN; var fixtures = require('./fixtures'); describe('BN.js/Arithmetic', function () { describe('.add()', function () { it('should add numbers', function () { assert.equal(new BN(14).add(new BN(26)).toString(16), '28'); var k = new BN(0x1234); var r = k; for (var i = 0; i < 257; i++) { r = r.add(k); } assert.equal(r.toString(16), '125868'); }); it('should handle carry properly (in-place)', function () { var k = new BN('abcdefabcdefabcdef', 16); var r = new BN('deadbeef', 16); for (var i = 0; i < 257; i++) { r.iadd(k); } assert.equal(r.toString(16), 'ac79bd9b79be7a277bde'); }); it('should properly do positive + negative', function () { var a = new BN('abcd', 16); var b = new BN('-abce', 16); assert.equal(a.iadd(b).toString(16), '-1'); a = new BN('abcd', 16); b = new BN('-abce', 16); assert.equal(a.add(b).toString(16), '-1'); assert.equal(b.add(a).toString(16), '-1'); }); }); describe('.iaddn()', function () { it('should allow a sign change', function () { var a = new BN(-100); assert.equal(a.negative, 1); a.iaddn(200); assert.equal(a.negative, 0); assert.equal(a.toString(), '100'); }); it('should add negative number', function () { var a = new BN(-100); assert.equal(a.negative, 1); a.iaddn(-200); assert.equal(a.toString(), '-300'); }); it('should allow neg + pos with big number', function () { var a = new BN('-1000000000', 10); assert.equal(a.negative, 1); a.iaddn(200); assert.equal(a.toString(), '-999999800'); }); it('should carry limb', function () { var a = new BN('3ffffff', 16); assert.equal(a.iaddn(1).toString(16), '4000000'); }); it('should throw error with num eq 0x4000000', function () { assert.throws(function () { new BN(0).iaddn(0x4000000); }, /^Error: Assertion failed$/); }); }); describe('.sub()', function () { it('should subtract small numbers', function () { assert.equal(new BN(26).sub(new BN(14)).toString(16), 'c'); assert.equal(new BN(14).sub(new BN(26)).toString(16), '-c'); assert.equal(new BN(26).sub(new BN(26)).toString(16), '0'); assert.equal(new BN(-26).sub(new BN(26)).toString(16), '-34'); }); var a = new BN( '31ff3c61db2db84b9823d320907a573f6ad37c437abe458b1802cda041d6384' + 'a7d8daef41395491e2', 16); var b = new BN( '6f0e4d9f1d6071c183677f601af9305721c91d31b0bbbae8fb790000', 16); var r = new BN( '31ff3c61db2db84b9823d3208989726578fd75276287cd9516533a9acfb9a67' + '76281f34583ddb91e2', 16); it('should subtract big numbers', function () { assert.equal(a.sub(b).cmp(r), 0); }); it('should subtract numbers in place', function () { assert.equal(b.clone().isub(a).neg().cmp(r), 0); }); it('should subtract with carry', function () { // Carry and copy var a = new BN('12345', 16); var b = new BN('1000000000000', 16); assert.equal(a.isub(b).toString(16), '-fffffffedcbb'); a = new BN('12345', 16); b = new BN('1000000000000', 16); assert.equal(b.isub(a).toString(16), 'fffffffedcbb'); }); }); describe('.isubn()', function () { it('should subtract negative number', function () { var r = new BN( '7fffffffffffffffffffffffffffffff5d576e7357a4501ddfe92f46681b', 16); assert.equal(r.isubn(-1).toString(16), '7fffffffffffffffffffffffffffffff5d576e7357a4501ddfe92f46681c'); }); it('should work for positive numbers', function () { var a = new BN(-100); assert.equal(a.negative, 1); a.isubn(200); assert.equal(a.negative, 1); assert.equal(a.toString(), '-300'); }); it('should not allow a sign change', function () { var a = new BN(-100); assert.equal(a.negative, 1); a.isubn(-200); assert.equal(a.negative, 0); assert.equal(a.toString(), '100'); }); it('should change sign on small numbers at 0', function () { var a = new BN(0).subn(2); assert.equal(a.toString(), '-2'); }); it('should change sign on small numbers at 1', function () { var a = new BN(1).subn(2); assert.equal(a.toString(), '-1'); }); it('should throw error with num eq 0x4000000', function () { assert.throws(function () { new BN(0).isubn(0x4000000); }, /^Error: Assertion failed$/); }); }); function testMethod (name, mul) { describe(name, function () { it('should multiply numbers of different signs', function () { var offsets = [ 1, // smallMulTo 250, // comb10MulTo 1000, // bigMulTo 15000 // jumboMulTo ]; for (var i = 0; i < offsets.length; ++i) { var x = new BN(1).ishln(offsets[i]); assert.equal(mul(x, x).isNeg(), false); assert.equal(mul(x, x.neg()).isNeg(), true); assert.equal(mul(x.neg(), x).isNeg(), true); assert.equal(mul(x.neg(), x.neg()).isNeg(), false); } }); it('should multiply with carry', function () { var n = new BN(0x1001); var r = n; for (var i = 0; i < 4; i++) { r = mul(r, n); } assert.equal(r.toString(16), '100500a00a005001'); }); it('should correctly multiply big numbers', function () { var n = new BN( '79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', 16 ); assert.equal( mul(n, n).toString(16), '39e58a8055b6fb264b75ec8c646509784204ac15a8c24e05babc9729ab9' + 'b055c3a9458e4ce3289560a38e08ba8175a9446ce14e608245ab3a9' + '978a8bd8acaa40'); assert.equal( mul(mul(n, n), n).toString(16), '1b888e01a06e974017a28a5b4da436169761c9730b7aeedf75fc60f687b' + '46e0cf2cb11667f795d5569482640fe5f628939467a01a612b02350' + '0d0161e9730279a7561043af6197798e41b7432458463e64fa81158' + '907322dc330562697d0d600'); }); it('should multiply neg number on 0', function () { assert.equal( mul(new BN('-100000000000'), new BN('3').div(new BN('4'))) .toString(16), '0' ); }); it('should regress mul big numbers', function () { var q = fixtures.dhGroups.p17.q; var qs = fixtures.dhGroups.p17.qs; q = new BN(q, 16); assert.equal(mul(q, q).toString(16), qs); }); }); } testMethod('.mul()', function (x, y) { return BN.prototype.mul.apply(x, [ y ]); }); testMethod('.mulf()', function (x, y) { return BN.prototype.mulf.apply(x, [ y ]); }); describe('.imul()', function () { it('should multiply numbers in-place', function () { var a = new BN('abcdef01234567890abcd', 16); var b = new BN('deadbeefa551edebabba8', 16); var c = a.mul(b); assert.equal(a.imul(b).toString(16), c.toString(16)); a = new BN('abcdef01234567890abcd214a25123f512361e6d236', 16); b = new BN('deadbeefa551edebabba8121234fd21bac0341324dd', 16); c = a.mul(b); assert.equal(a.imul(b).toString(16), c.toString(16)); }); it('should multiply by 0', function () { var a = new BN('abcdef01234567890abcd', 16); var b = new BN('0', 16); var c = a.mul(b); assert.equal(a.imul(b).toString(16), c.toString(16)); }); it('should regress mul big numbers in-place', function () { var q = fixtures.dhGroups.p17.q; var qs = fixtures.dhGroups.p17.qs; q = new BN(q, 16); assert.equal(q.isqr().toString(16), qs); }); }); describe('.muln()', function () { it('should multiply number by small number', function () { var a = new BN('abcdef01234567890abcd', 16); var b = new BN('dead', 16); var c = a.mul(b); assert.equal(a.muln(0xdead).toString(16), c.toString(16)); }); it('should throw error with num eq 0x4000000', function () { assert.throws(function () { new BN(0).imuln(0x4000000); }, /^Error: Assertion failed$/); }); }); describe('.pow()', function () { it('should raise number to the power', function () { var a = new BN('ab', 16); var b = new BN('13', 10); var c = a.pow(b); assert.equal(c.toString(16), '15963da06977df51909c9ba5b'); }); }); describe('.div()', function () { it('should divide small numbers (<=26 bits)', function () { assert.equal(new BN('256').div(new BN(10)).toString(10), '25'); assert.equal(new BN('-256').div(new BN(10)).toString(10), '-25'); assert.equal(new BN('256').div(new BN(-10)).toString(10), '-25'); assert.equal(new BN('-256').div(new BN(-10)).toString(10), '25'); assert.equal(new BN('10').div(new BN(256)).toString(10), '0'); assert.equal(new BN('-10').div(new BN(256)).toString(10), '0'); assert.equal(new BN('10').div(new BN(-256)).toString(10), '0'); assert.equal(new BN('-10').div(new BN(-256)).toString(10), '0'); }); it('should divide large numbers (>53 bits)', function () { assert.equal(new BN('1222222225255589').div(new BN('611111124969028')) .toString(10), '1'); assert.equal(new BN('-1222222225255589').div(new BN('611111124969028')) .toString(10), '-1'); assert.equal(new BN('1222222225255589').div(new BN('-611111124969028')) .toString(10), '-1'); assert.equal(new BN('-1222222225255589').div(new BN('-611111124969028')) .toString(10), '1'); assert.equal(new BN('611111124969028').div(new BN('1222222225255589')) .toString(10), '0'); assert.equal(new BN('-611111124969028').div(new BN('1222222225255589')) .toString(10), '0'); assert.equal(new BN('611111124969028').div(new BN('-1222222225255589')) .toString(10), '0'); assert.equal(new BN('-611111124969028').div(new BN('-1222222225255589')) .toString(10), '0'); }); it('should divide numbers', function () { assert.equal(new BN('69527932928').div(new BN('16974594')).toString(16), 'fff'); assert.equal(new BN('-69527932928').div(new BN('16974594')).toString(16), '-fff'); var b = new BN( '39e58a8055b6fb264b75ec8c646509784204ac15a8c24e05babc9729ab9' + 'b055c3a9458e4ce3289560a38e08ba8175a9446ce14e608245ab3a9' + '978a8bd8acaa40', 16); var n = new BN( '79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', 16 ); assert.equal(b.div(n).toString(16), n.toString(16)); assert.equal(new BN('1').div(new BN('-5')).toString(10), '0'); }); it('should not fail on regression after moving to _wordDiv', function () { // Regression after moving to word div var p = new BN( 'fffffffffffffffffffffffffffffffffffffffffffffffffffffffefffffc2f', 16); var a = new BN( '79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', 16); var as = a.sqr(); assert.equal( as.div(p).toString(16), '39e58a8055b6fb264b75ec8c646509784204ac15a8c24e05babc9729e58090b9'); p = new BN( 'ffffffff00000001000000000000000000000000ffffffffffffffffffffffff', 16); a = new BN( 'fffffffe00000003fffffffd0000000200000001fffffffe00000002ffffffff' + 'ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff', 16); assert.equal( a.div(p).toString(16), 'ffffffff00000002000000000000000000000001000000000000000000000001'); }); }); describe('.idivn()', function () { it('should divide numbers in-place', function () { assert.equal(new BN('10', 16).idivn(3).toString(16), '5'); assert.equal(new BN('12', 16).idivn(3).toString(16), '6'); assert.equal(new BN('10000000000000000').idivn(3).toString(10), '3333333333333333'); assert.equal( new BN('100000000000000000000000000000').idivn(3).toString(10), '33333333333333333333333333333'); var t = new BN(3); assert.equal( new BN('12345678901234567890123456', 16).idivn(3).toString(16), new BN('12345678901234567890123456', 16).div(t).toString(16)); }); }); describe('.divRound()', function () { it('should divide numbers with rounding', function () { assert.equal(new BN(9).divRound(new BN(20)).toString(10), '0'); assert.equal(new BN(10).divRound(new BN(20)).toString(10), '1'); assert.equal(new BN(150).divRound(new BN(20)).toString(10), '8'); assert.equal(new BN(149).divRound(new BN(20)).toString(10), '7'); assert.equal(new BN(149).divRound(new BN(17)).toString(10), '9'); assert.equal(new BN(144).divRound(new BN(17)).toString(10), '8'); assert.equal(new BN(-144).divRound(new BN(17)).toString(10), '-8'); }); it('should return 1 on exact division', function () { assert.equal(new BN(144).divRound(new BN(144)).toString(10), '1'); }); }); describe('.mod()', function () { it('should modulo small numbers (<=26 bits)', function () { assert.equal(new BN('256').mod(new BN(10)).toString(10), '6'); assert.equal(new BN('-256').mod(new BN(10)).toString(10), '-6'); assert.equal(new BN('256').mod(new BN(-10)).toString(10), '6'); assert.equal(new BN('-256').mod(new BN(-10)).toString(10), '-6'); assert.equal(new BN('10').mod(new BN(256)).toString(10), '10'); assert.equal(new BN('-10').mod(new BN(256)).toString(10), '-10'); assert.equal(new BN('10').mod(new BN(-256)).toString(10), '10'); assert.equal(new BN('-10').mod(new BN(-256)).toString(10), '-10'); }); it('should modulo large numbers (>53 bits)', function () { assert.equal(new BN('1222222225255589').mod(new BN('611111124969028')) .toString(10), '611111100286561'); assert.equal(new BN('-1222222225255589').mod(new BN('611111124969028')) .toString(10), '-611111100286561'); assert.equal(new BN('1222222225255589').mod(new BN('-611111124969028')) .toString(10), '611111100286561'); assert.equal(new BN('-1222222225255589').mod(new BN('-611111124969028')) .toString(10), '-611111100286561'); assert.equal(new BN('611111124969028').mod(new BN('1222222225255589')) .toString(10), '611111124969028'); assert.equal(new BN('-611111124969028').mod(new BN('1222222225255589')) .toString(10), '-611111124969028'); assert.equal(new BN('611111124969028').mod(new BN('-1222222225255589')) .toString(10), '611111124969028'); assert.equal(new BN('-611111124969028').mod(new BN('-1222222225255589')) .toString(10), '-611111124969028'); }); it('should mod numbers', function () { assert.equal(new BN('10').mod(new BN(256)).toString(16), 'a'); assert.equal(new BN('69527932928').mod(new BN('16974594')).toString(16), '102f302'); // 178 = 10 * 17 + 8 assert.equal(new BN(178).div(new BN(10)).toNumber(), 17); assert.equal(new BN(178).mod(new BN(10)).toNumber(), 8); assert.equal(new BN(178).umod(new BN(10)).toNumber(), 8); // -178 = 10 * (-17) + (-8) assert.equal(new BN(-178).div(new BN(10)).toNumber(), -17); assert.equal(new BN(-178).mod(new BN(10)).toNumber(), -8); assert.equal(new BN(-178).umod(new BN(10)).toNumber(), 2); // 178 = -10 * (-17) + 8 assert.equal(new BN(178).div(new BN(-10)).toNumber(), -17); assert.equal(new BN(178).mod(new BN(-10)).toNumber(), 8); assert.equal(new BN(178).umod(new BN(-10)).toNumber(), 8); // -178 = -10 * (17) + (-8) assert.equal(new BN(-178).div(new BN(-10)).toNumber(), 17); assert.equal(new BN(-178).mod(new BN(-10)).toNumber(), -8); assert.equal(new BN(-178).umod(new BN(-10)).toNumber(), 2); // -4 = 1 * (-3) + -1 assert.equal(new BN(-4).div(new BN(-3)).toNumber(), 1); assert.equal(new BN(-4).mod(new BN(-3)).toNumber(), -1); // -4 = -1 * (3) + -1 assert.equal(new BN(-4).mod(new BN(3)).toNumber(), -1); // -4 = 1 * (-3) + (-1 + 3) assert.equal(new BN(-4).umod(new BN(-3)).toNumber(), 2); var p = new BN( 'ffffffff00000001000000000000000000000000ffffffffffffffffffffffff', 16); var a = new BN( 'fffffffe00000003fffffffd0000000200000001fffffffe00000002ffffffff' + 'ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff', 16); assert.equal( a.mod(p).toString(16), '0'); }); it('should properly carry the sign inside division', function () { var a = new BN('945304eb96065b2a98b57a48a06ae28d285a71b5', 'hex'); var b = new BN( 'fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffe', 'hex'); assert.equal(a.mul(b).mod(a).cmpn(0), 0); }); }); describe('.modn()', function () { it('should act like .mod() on small numbers', function () { assert.equal(new BN('10', 16).modn(256).toString(16), '10'); assert.equal(new BN('100', 16).modn(256).toString(16), '0'); assert.equal(new BN('1001', 16).modn(256).toString(16), '1'); assert.equal(new BN('100000000001', 16).modn(256).toString(16), '1'); assert.equal(new BN('100000000001', 16).modn(257).toString(16), new BN('100000000001', 16).mod(new BN(257)).toString(16)); assert.equal(new BN('123456789012', 16).modn(3).toString(16), new BN('123456789012', 16).mod(new BN(3)).toString(16)); }); }); describe('.abs()', function () { it('should return absolute value', function () { assert.equal(new BN(0x1001).abs().toString(), '4097'); assert.equal(new BN(-0x1001).abs().toString(), '4097'); assert.equal(new BN('ffffffff', 16).abs().toString(), '4294967295'); }); }); describe('.invm()', function () { it('should invert relatively-prime numbers', function () { var p = new BN(257); var a = new BN(3); var b = a.invm(p); assert.equal(a.mul(b).mod(p).toString(16), '1'); var p192 = new BN( 'fffffffffffffffffffffffffffffffeffffffffffffffff', 16); a = new BN('deadbeef', 16); b = a.invm(p192); assert.equal(a.mul(b).mod(p192).toString(16), '1'); // Even base var phi = new BN('872d9b030ba368706b68932cf07a0e0c', 16); var e = new BN(65537); var d = e.invm(phi); assert.equal(e.mul(d).mod(phi).toString(16), '1'); // Even base (take #2) a = new BN('5'); b = new BN('6'); var r = a.invm(b); assert.equal(r.mul(a).mod(b).toString(16), '1'); }); }); describe('.gcd()', function () { it('should return GCD', function () { assert.equal(new BN(3).gcd(new BN(2)).toString(10), '1'); assert.equal(new BN(18).gcd(new BN(12)).toString(10), '6'); assert.equal(new BN(-18).gcd(new BN(12)).toString(10), '6'); assert.equal(new BN(-18).gcd(new BN(-12)).toString(10), '6'); assert.equal(new BN(-18).gcd(new BN(0)).toString(10), '18'); assert.equal(new BN(0).gcd(new BN(-18)).toString(10), '18'); assert.equal(new BN(2).gcd(new BN(0)).toString(10), '2'); assert.equal(new BN(0).gcd(new BN(3)).toString(10), '3'); assert.equal(new BN(0).gcd(new BN(0)).toString(10), '0'); }); }); describe('.egcd()', function () { it('should return EGCD', function () { assert.equal(new BN(3).egcd(new BN(2)).gcd.toString(10), '1'); assert.equal(new BN(18).egcd(new BN(12)).gcd.toString(10), '6'); assert.equal(new BN(-18).egcd(new BN(12)).gcd.toString(10), '6'); assert.equal(new BN(0).egcd(new BN(12)).gcd.toString(10), '12'); }); it('should not allow 0 input', function () { assert.throws(function () { new BN(1).egcd(0); }, /^Error: Assertion failed$/); }); it('should not allow negative input', function () { assert.throws(function () { new BN(1).egcd(-1); }, /^Error: Assertion failed$/); }); }); describe('BN.max(a, b)', function () { it('should return maximum', function () { assert.equal(BN.max(new BN(3), new BN(2)).toString(16), '3'); assert.equal(BN.max(new BN(2), new BN(3)).toString(16), '3'); assert.equal(BN.max(new BN(2), new BN(2)).toString(16), '2'); assert.equal(BN.max(new BN(2), new BN(-2)).toString(16), '2'); }); }); describe('BN.min(a, b)', function () { it('should return minimum', function () { assert.equal(BN.min(new BN(3), new BN(2)).toString(16), '2'); assert.equal(BN.min(new BN(2), new BN(3)).toString(16), '2'); assert.equal(BN.min(new BN(2), new BN(2)).toString(16), '2'); assert.equal(BN.min(new BN(2), new BN(-2)).toString(16), '-2'); }); }); describe('BN.ineg', function () { it('shouldn\'t change sign for zero', function () { assert.equal(new BN(0).ineg().toString(10), '0'); }); }); });