// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package big import ( "bytes"; "encoding/hex"; "testing"; "testing/quick"; ) func newZ(x int64) *Int { var z Int; return z.New(x); } type funZZ func(z, x, y *Int) *Int type argZZ struct { z, x, y *Int; } var sumZZ = []argZZ{ argZZ{newZ(0), newZ(0), newZ(0)}, argZZ{newZ(1), newZ(1), newZ(0)}, argZZ{newZ(1111111110), newZ(123456789), newZ(987654321)}, argZZ{newZ(-1), newZ(-1), newZ(0)}, argZZ{newZ(864197532), newZ(-123456789), newZ(987654321)}, argZZ{newZ(-1111111110), newZ(-123456789), newZ(-987654321)}, } var prodZZ = []argZZ{ argZZ{newZ(0), newZ(0), newZ(0)}, argZZ{newZ(0), newZ(1), newZ(0)}, argZZ{newZ(1), newZ(1), newZ(1)}, argZZ{newZ(-991 * 991), newZ(991), newZ(-991)}, // TODO(gri) add larger products } func TestSetZ(t *testing.T) { for _, a := range sumZZ { var z Int; z.Set(a.z); if (&z).Cmp(a.z) != 0 { t.Errorf("got z = %v; want %v", z, a.z) } } } func testFunZZ(t *testing.T, msg string, f funZZ, a argZZ) { var z Int; f(&z, a.x, a.y); if (&z).Cmp(a.z) != 0 { t.Errorf("%s%+v\n\tgot z = %v; want %v", msg, a, &z, a.z) } } func TestSumZZ(t *testing.T) { AddZZ := func(z, x, y *Int) *Int { return z.Add(x, y) }; SubZZ := func(z, x, y *Int) *Int { return z.Sub(x, y) }; for _, a := range sumZZ { arg := a; testFunZZ(t, "AddZZ", AddZZ, arg); arg = argZZ{a.z, a.y, a.x}; testFunZZ(t, "AddZZ symmetric", AddZZ, arg); arg = argZZ{a.x, a.z, a.y}; testFunZZ(t, "SubZZ", SubZZ, arg); arg = argZZ{a.y, a.z, a.x}; testFunZZ(t, "SubZZ symmetric", SubZZ, arg); } } func TestProdZZ(t *testing.T) { MulZZ := func(z, x, y *Int) *Int { return z.Mul(x, y) }; for _, a := range prodZZ { arg := a; testFunZZ(t, "MulZZ", MulZZ, arg); arg = argZZ{a.z, a.y, a.x}; testFunZZ(t, "MulZZ symmetric", MulZZ, arg); } } var facts = map[int]string{ 0: "1", 1: "1", 2: "2", 10: "3628800", 20: "2432902008176640000", 100: "933262154439441526816992388562667004907159682643816214685929" "638952175999932299156089414639761565182862536979208272237582" "51185210916864000000000000000000000000", } func fact(n int) *Int { var z Int; z.New(1); for i := 2; i <= n; i++ { var t Int; t.New(int64(i)); z.Mul(&z, &t); } return &z; } func TestFact(t *testing.T) { for n, s := range facts { f := fact(n).String(); if f != s { t.Errorf("%d! = %s; want %s", n, f, s) } } } type fromStringTest struct { in string; base int; out int64; ok bool; } var fromStringTests = []fromStringTest{ fromStringTest{in: "", ok: false}, fromStringTest{in: "a", ok: false}, fromStringTest{in: "z", ok: false}, fromStringTest{in: "+", ok: false}, fromStringTest{"0", 0, 0, true}, fromStringTest{"0", 10, 0, true}, fromStringTest{"0", 16, 0, true}, fromStringTest{"10", 0, 10, true}, fromStringTest{"10", 10, 10, true}, fromStringTest{"10", 16, 16, true}, fromStringTest{"-10", 16, -16, true}, fromStringTest{in: "0x", ok: false}, fromStringTest{"0x10", 0, 16, true}, fromStringTest{in: "0x10", base: 16, ok: false}, fromStringTest{"-0x10", 0, -16, true}, } func TestSetString(t *testing.T) { for i, test := range fromStringTests { n, ok := new(Int).SetString(test.in, test.base); if ok != test.ok { t.Errorf("#%d (input '%s') ok incorrect (should be %t)", i, test.in, test.ok); continue; } if !ok { continue } if n.Cmp(new(Int).New(test.out)) != 0 { t.Errorf("#%d (input '%s') got: %s want: %d\n", i, test.in, n, test.out) } } } type divSignsTest struct { x, y int64; q, r int64; } // These examples taken from the Go Language Spec, section "Arithmetic operators" var divSignsTests = []divSignsTest{ divSignsTest{5, 3, 1, 2}, divSignsTest{-5, 3, -1, -2}, divSignsTest{5, -3, -1, 2}, divSignsTest{-5, -3, 1, -2}, divSignsTest{1, 2, 0, 1}, } func TestDivSigns(t *testing.T) { for i, test := range divSignsTests { x := new(Int).New(test.x); y := new(Int).New(test.y); q, r := new(Int).Div(x, y); expectedQ := new(Int).New(test.q); expectedR := new(Int).New(test.r); if q.Cmp(expectedQ) != 0 || r.Cmp(expectedR) != 0 { t.Errorf("#%d: got (%s, %s) want (%s, %s)", i, q, r, expectedQ, expectedR) } } } func checkSetBytes(b []byte) bool { hex1 := hex.EncodeToString(new(Int).SetBytes(b).Bytes()); hex2 := hex.EncodeToString(b); for len(hex1) < len(hex2) { hex1 = "0" + hex1 } for len(hex1) > len(hex2) { hex2 = "0" + hex2 } return hex1 == hex2; } func TestSetBytes(t *testing.T) { err := quick.Check(checkSetBytes, nil); if err != nil { t.Error(err) } } func checkBytes(b []byte) bool { b2 := new(Int).SetBytes(b).Bytes(); return bytes.Compare(b, b2) == 0; } func TestBytes(t *testing.T) { err := quick.Check(checkSetBytes, nil); if err != nil { t.Error(err) } } func checkDiv(x, y []byte) bool { u := new(Int).SetBytes(x); v := new(Int).SetBytes(y); if len(v.abs) == 0 { return true } q, r := new(Int).Div(u, v); if r.Cmp(v) >= 0 { return false } uprime := new(Int).Set(q); uprime.Mul(uprime, v); uprime.Add(uprime, r); return uprime.Cmp(u) == 0; } type divTest struct { x, y string; q, r string; } var divTests = []divTest{ divTest{ "476217953993950760840509444250624797097991362735329973741718102894495832294430498335824897858659711275234906400899559094370964723884706254265559534144986498357", "9353930466774385905609975137998169297361893554149986716853295022578535724979483772383667534691121982974895531435241089241440253066816724367338287092081996", "50911", "1", }, divTest{ "11510768301994997771168", "1328165573307167369775", "8", "885443715537658812968", }, } func TestDiv(t *testing.T) { err := quick.Check(checkDiv, nil); if err != nil { t.Error(err) } for i, test := range divTests { x, _ := new(Int).SetString(test.x, 10); y, _ := new(Int).SetString(test.y, 10); expectedQ, _ := new(Int).SetString(test.q, 10); expectedR, _ := new(Int).SetString(test.r, 10); q, r := new(Int).Div(x, y); if q.Cmp(expectedQ) != 0 || r.Cmp(expectedR) != 0 { t.Errorf("#%d got (%s, %s) want (%s, %s)", i, q, r, expectedQ, expectedR) } } } func TestDivStepD6(t *testing.T) { // See Knuth, Volume 2, section 4.3.1, exercise 21. This code exercises // a code path which only triggers 1 in 10^{-19} cases. u := &Int{false, []Word{0, 0, 1 + 1<<(_W-1), _M ^ (1 << (_W - 1))}}; v := &Int{false, []Word{5, 2 + 1<<(_W-1), 1 << (_W - 1)}}; q, r := new(Int).Div(u, v); const expectedQ64 = "18446744073709551613"; const expectedR64 = "3138550867693340382088035895064302439801311770021610913807"; const expectedQ32 = "4294967293"; const expectedR32 = "39614081266355540837921718287"; if q.String() != expectedQ64 && q.String() != expectedQ32 || r.String() != expectedR64 && r.String() != expectedR32 { t.Errorf("got (%s, %s) want (%s, %s) or (%s, %s)", q, r, expectedQ64, expectedR64, expectedQ32, expectedR32) } } type lenTest struct { in string; out int; } var lenTests = []lenTest{ lenTest{"0", 0}, lenTest{"1", 1}, lenTest{"2", 2}, lenTest{"4", 3}, lenTest{"0x8000", 16}, lenTest{"0x80000000", 32}, lenTest{"0x800000000000", 48}, lenTest{"0x8000000000000000", 64}, lenTest{"0x80000000000000000000", 80}, } func TestLen(t *testing.T) { for i, test := range lenTests { n, ok := new(Int).SetString(test.in, 0); if !ok { t.Errorf("#%d test input invalid: %s", i, test.in); continue; } if n.Len() != test.out { t.Errorf("#%d got %d want %d\n", i, n.Len(), test.out) } } } type expTest struct { x, y, m string; out string; } var expTests = []expTest{ expTest{"5", "0", "", "1"}, expTest{"-5", "0", "", "-1"}, expTest{"5", "1", "", "5"}, expTest{"-5", "1", "", "-5"}, expTest{"5", "2", "", "25"}, expTest{"1", "65537", "2", "1"}, expTest{"0x8000000000000000", "2", "", "0x40000000000000000000000000000000"}, expTest{"0x8000000000000000", "2", "6719", "4944"}, expTest{"0x8000000000000000", "3", "6719", "5447"}, expTest{"0x8000000000000000", "1000", "6719", "1603"}, expTest{"0x8000000000000000", "1000000", "6719", "3199"}, expTest{ "2938462938472983472983659726349017249287491026512746239764525612965293865296239471239874193284792387498274256129746192347", "298472983472983471903246121093472394872319615612417471234712061", "29834729834729834729347290846729561262544958723956495615629569234729836259263598127342374289365912465901365498236492183464", "23537740700184054162508175125554701713153216681790245129157191391322321508055833908509185839069455749219131480588829346291", }, } func TestExp(t *testing.T) { for i, test := range expTests { x, ok1 := new(Int).SetString(test.x, 0); y, ok2 := new(Int).SetString(test.y, 0); out, ok3 := new(Int).SetString(test.out, 0); var ok4 bool; var m *Int; if len(test.m) == 0 { m, ok4 = nil, true } else { m, ok4 = new(Int).SetString(test.m, 0) } if !ok1 || !ok2 || !ok3 || !ok4 { t.Errorf("#%d error in input", i); continue; } z := new(Int).Exp(x, y, m); if z.Cmp(out) != 0 { t.Errorf("#%d got %s want %s", i, z, out) } } } func checkGcd(aBytes, bBytes []byte) bool { a := new(Int).SetBytes(aBytes); b := new(Int).SetBytes(bBytes); x := new(Int); y := new(Int); d := new(Int); GcdInt(d, x, y, a, b); x.Mul(x, a); y.Mul(y, b); x.Add(x, y); return x.Cmp(d) == 0; } type gcdTest struct { a, b int64; d, x, y int64; } var gcdTests = []gcdTest{ gcdTest{120, 23, 1, -9, 47}, } func TestGcd(t *testing.T) { for i, test := range gcdTests { a := new(Int).New(test.a); b := new(Int).New(test.b); x := new(Int); y := new(Int); d := new(Int); expectedX := new(Int).New(test.x); expectedY := new(Int).New(test.y); expectedD := new(Int).New(test.d); GcdInt(d, x, y, a, b); if expectedX.Cmp(x) != 0 || expectedY.Cmp(y) != 0 || expectedD.Cmp(d) != 0 { t.Errorf("#%d got (%s %s %s) want (%s %s %s)", i, x, y, d, expectedX, expectedY, expectedD) } } quick.Check(checkGcd, nil); } var primes = []string{ "2", "3", "5", "7", "11", "98920366548084643601728869055592650835572950932266967461790948584315647051443", "94560208308847015747498523884063394671606671904944666360068158221458669711639", // http://primes.utm.edu/lists/small/small3.html "449417999055441493994709297093108513015373787049558499205492347871729927573118262811508386655998299074566974373711472560655026288668094291699357843464363003144674940345912431129144354948751003607115263071543163", "230975859993204150666423538988557839555560243929065415434980904258310530753006723857139742334640122533598517597674807096648905501653461687601339782814316124971547968912893214002992086353183070342498989426570593", "5521712099665906221540423207019333379125265462121169655563495403888449493493629943498064604536961775110765377745550377067893607246020694972959780839151452457728855382113555867743022746090187341871655890805971735385789993", "203956878356401977405765866929034577280193993314348263094772646453283062722701277632936616063144088173312372882677123879538709400158306567338328279154499698366071906766440037074217117805690872792848149112022286332144876183376326512083574821647933992961249917319836219304274280243803104015000563790123", } var composites = []string{ "21284175091214687912771199898307297748211672914763848041968395774954376176754", "6084766654921918907427900243509372380954290099172559290432744450051395395951", "84594350493221918389213352992032324280367711247940675652888030554255915464401", "82793403787388584738507275144194252681", } func TestProbablyPrime(t *testing.T) { for i, s := range primes { p, _ := new(Int).SetString(s, 10); if !ProbablyPrime(p, 20) { t.Errorf("#%d prime found to be non-prime", i) } } for i, s := range composites { c, _ := new(Int).SetString(s, 10); if ProbablyPrime(c, 20) { t.Errorf("#%d composite found to be prime", i) } } } type rshTest struct { in string; shift int; out string; } var rshTests = []rshTest{ rshTest{"0", 0, "0"}, rshTest{"0", 1, "0"}, rshTest{"0", 2, "0"}, rshTest{"1", 0, "1"}, rshTest{"1", 1, "0"}, rshTest{"1", 2, "0"}, rshTest{"2", 0, "2"}, rshTest{"2", 1, "1"}, rshTest{"2", 2, "0"}, rshTest{"4294967296", 0, "4294967296"}, rshTest{"4294967296", 1, "2147483648"}, rshTest{"4294967296", 2, "1073741824"}, rshTest{"18446744073709551616", 0, "18446744073709551616"}, rshTest{"18446744073709551616", 1, "9223372036854775808"}, rshTest{"18446744073709551616", 2, "4611686018427387904"}, rshTest{"18446744073709551616", 64, "1"}, rshTest{"340282366920938463463374607431768211456", 64, "18446744073709551616"}, rshTest{"340282366920938463463374607431768211456", 128, "1"}, } func TestRsh(t *testing.T) { for i, test := range rshTests { in, _ := new(Int).SetString(test.in, 10); expected, _ := new(Int).SetString(test.out, 10); out := new(Int).Rsh(in, test.shift); if out.Cmp(expected) != 0 { t.Errorf("#%d got %s want %s", i, out, expected) } } }