mirror of
https://github.com/golang/go
synced 2024-11-20 08:04:42 -07:00
big: usable zero Rat values without need for explicit initialization
- no explicit API change, but new(big.Rat) now creates a big.Rat value of 0 that is immediately usable, in sync. w/ the conventions elsewhere - various cleanups along the way R=r CC=golang-dev https://golang.org/cl/5301056
This commit is contained in:
parent
d481d7c854
commit
696ced50fe
@ -176,7 +176,7 @@ func (z *Int) Quo(x, y *Int) *Int {
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// If y == 0, a division-by-zero run-time panic occurs.
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// Rem implements truncated modulus (like Go); see QuoRem for more details.
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func (z *Int) Rem(x, y *Int) *Int {
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_, z.abs = nat(nil).div(z.abs, x.abs, y.abs)
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_, z.abs = nat{}.div(z.abs, x.abs, y.abs)
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z.neg = len(z.abs) > 0 && x.neg // 0 has no sign
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return z
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}
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@ -35,7 +35,7 @@ import (
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// During arithmetic operations, denormalized values may occur but are
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// always normalized before returning the final result. The normalized
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// representation of 0 is the empty or nil slice (length = 0).
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//
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type nat []Word
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var (
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@ -447,10 +447,10 @@ func (z nat) mulRange(a, b uint64) nat {
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case a == b:
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return z.setUint64(a)
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case a+1 == b:
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return z.mul(nat(nil).setUint64(a), nat(nil).setUint64(b))
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return z.mul(nat{}.setUint64(a), nat{}.setUint64(b))
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}
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m := (a + b) / 2
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return z.mul(nat(nil).mulRange(a, m), nat(nil).mulRange(m+1, b))
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return z.mul(nat{}.mulRange(a, m), nat{}.mulRange(m+1, b))
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}
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// q = (x-r)/y, with 0 <= r < y
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@ -589,7 +589,6 @@ func (x nat) bitLen() int {
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// MaxBase is the largest number base accepted for string conversions.
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const MaxBase = 'z' - 'a' + 10 + 1 // = hexValue('z') + 1
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func hexValue(ch int) Word {
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d := MaxBase + 1 // illegal base
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switch {
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@ -786,7 +785,7 @@ func (x nat) string(charset string) string {
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}
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// preserve x, create local copy for use in repeated divisions
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q := nat(nil).set(x)
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q := nat{}.set(x)
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var r Word
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// convert
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@ -1192,11 +1191,11 @@ func (n nat) probablyPrime(reps int) bool {
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return false
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}
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nm1 := nat(nil).sub(n, natOne)
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nm1 := nat{}.sub(n, natOne)
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// 1<<k * q = nm1;
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q, k := nm1.powersOfTwoDecompose()
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nm3 := nat(nil).sub(nm1, natTwo)
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nm3 := nat{}.sub(nm1, natTwo)
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rand := rand.New(rand.NewSource(int64(n[0])))
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var x, y, quotient nat
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@ -67,7 +67,7 @@ var prodNN = []argNN{
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func TestSet(t *testing.T) {
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for _, a := range sumNN {
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z := nat(nil).set(a.z)
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z := nat{}.set(a.z)
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if z.cmp(a.z) != 0 {
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t.Errorf("got z = %v; want %v", z, a.z)
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}
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@ -129,7 +129,7 @@ var mulRangesN = []struct {
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func TestMulRangeN(t *testing.T) {
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for i, r := range mulRangesN {
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prod := nat(nil).mulRange(r.a, r.b).decimalString()
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prod := nat{}.mulRange(r.a, r.b).decimalString()
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if prod != r.prod {
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t.Errorf("#%d: got %s; want %s", i, prod, r.prod)
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}
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@ -175,7 +175,7 @@ func toString(x nat, charset string) string {
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s := make([]byte, i)
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// don't destroy x
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q := nat(nil).set(x)
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q := nat{}.set(x)
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// convert
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for len(q) > 0 {
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@ -212,7 +212,7 @@ func TestString(t *testing.T) {
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t.Errorf("string%+v\n\tgot s = %s; want %s", a, s, a.s)
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}
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x, b, err := nat(nil).scan(strings.NewReader(a.s), len(a.c))
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x, b, err := nat{}.scan(strings.NewReader(a.s), len(a.c))
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if x.cmp(a.x) != 0 {
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t.Errorf("scan%+v\n\tgot z = %v; want %v", a, x, a.x)
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}
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@ -271,7 +271,7 @@ var natScanTests = []struct {
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func TestScanBase(t *testing.T) {
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for _, a := range natScanTests {
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r := strings.NewReader(a.s)
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x, b, err := nat(nil).scan(r, a.base)
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x, b, err := nat{}.scan(r, a.base)
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if err == nil && !a.ok {
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t.Errorf("scan%+v\n\texpected error", a)
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}
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@ -651,17 +651,17 @@ var expNNTests = []struct {
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func TestExpNN(t *testing.T) {
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for i, test := range expNNTests {
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x, _, _ := nat(nil).scan(strings.NewReader(test.x), 0)
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y, _, _ := nat(nil).scan(strings.NewReader(test.y), 0)
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out, _, _ := nat(nil).scan(strings.NewReader(test.out), 0)
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x, _, _ := nat{}.scan(strings.NewReader(test.x), 0)
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y, _, _ := nat{}.scan(strings.NewReader(test.y), 0)
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out, _, _ := nat{}.scan(strings.NewReader(test.out), 0)
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var m nat
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if len(test.m) > 0 {
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m, _, _ = nat(nil).scan(strings.NewReader(test.m), 0)
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m, _, _ = nat{}.scan(strings.NewReader(test.m), 0)
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}
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z := nat(nil).expNN(x, y, m)
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z := nat{}.expNN(x, y, m)
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if z.cmp(out) != 0 {
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t.Errorf("#%d got %v want %v", i, z, out)
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}
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@ -14,10 +14,10 @@ import (
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)
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// A Rat represents a quotient a/b of arbitrary precision.
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// The zero value for a Rat, 0/0, is not a legal Rat.
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// The zero value for a Rat represents the value 0.
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type Rat struct {
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a Int
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b nat
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b nat // len(b) == 0 acts like b == 1
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}
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// NewRat creates a new Rat with numerator a and denominator b.
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@ -29,8 +29,11 @@ func NewRat(a, b int64) *Rat {
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func (z *Rat) SetFrac(a, b *Int) *Rat {
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z.a.neg = a.neg != b.neg
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babs := b.abs
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if len(babs) == 0 {
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panic("division by zero")
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}
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if &z.a == b || alias(z.a.abs, babs) {
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babs = nat(nil).set(babs) // make a copy
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babs = nat{}.set(babs) // make a copy
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}
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z.a.abs = z.a.abs.set(a.abs)
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z.b = z.b.set(babs)
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@ -40,6 +43,9 @@ func (z *Rat) SetFrac(a, b *Int) *Rat {
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// SetFrac64 sets z to a/b and returns z.
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func (z *Rat) SetFrac64(a, b int64) *Rat {
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z.a.SetInt64(a)
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if b == 0 {
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panic("division by zero")
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}
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if b < 0 {
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b = -b
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z.a.neg = !z.a.neg
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@ -51,14 +57,14 @@ func (z *Rat) SetFrac64(a, b int64) *Rat {
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// SetInt sets z to x (by making a copy of x) and returns z.
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func (z *Rat) SetInt(x *Int) *Rat {
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z.a.Set(x)
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z.b = z.b.setWord(1)
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z.b = z.b.make(0)
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return z
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}
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// SetInt64 sets z to x and returns z.
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func (z *Rat) SetInt64(x int64) *Rat {
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z.a.SetInt64(x)
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z.b = z.b.setWord(1)
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z.b = z.b.make(0)
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return z
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}
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@ -91,7 +97,15 @@ func (z *Rat) Inv(x *Rat) *Rat {
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panic("division by zero")
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}
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z.Set(x)
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z.a.abs, z.b = z.b, z.a.abs // sign doesn't change
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a := z.b
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if len(a) == 0 {
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a = a.setWord(1) // materialize numerator
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}
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b := z.a.abs
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if b.cmp(natOne) == 0 {
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b = b.make(0) // normalize denominator
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}
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z.a.abs, z.b = a, b // sign doesn't change
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return z
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}
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@ -107,21 +121,24 @@ func (x *Rat) Sign() int {
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// IsInt returns true if the denominator of x is 1.
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func (x *Rat) IsInt() bool {
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return len(x.b) == 1 && x.b[0] == 1
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return len(x.b) == 0 || x.b.cmp(natOne) == 0
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}
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// Num returns the numerator of z; it may be <= 0.
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// The result is a reference to z's numerator; it
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// may change if a new value is assigned to z.
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func (z *Rat) Num() *Int {
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return &z.a
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// Num returns the numerator of x; it may be <= 0.
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// The result is a reference to x's numerator; it
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// may change if a new value is assigned to x.
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func (x *Rat) Num() *Int {
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return &x.a
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}
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// Denom returns the denominator of z; it is always > 0.
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// The result is a reference to z's denominator; it
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// may change if a new value is assigned to z.
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func (z *Rat) Denom() *Int {
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return &Int{false, z.b}
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// Denom returns the denominator of x; it is always > 0.
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// The result is a reference to x's denominator; it
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// may change if a new value is assigned to x.
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func (x *Rat) Denom() *Int {
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if len(x.b) == 0 {
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return &Int{abs: nat{1}}
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}
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return &Int{abs: x.b}
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}
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func gcd(x, y nat) nat {
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@ -139,24 +156,47 @@ func gcd(x, y nat) nat {
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}
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func (z *Rat) norm() *Rat {
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f := gcd(z.a.abs, z.b)
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if len(z.a.abs) == 0 {
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// z == 0
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z.a.neg = false // normalize sign
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z.b = z.b.setWord(1)
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return z
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}
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if f.cmp(natOne) != 0 {
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z.a.abs, _ = z.a.abs.div(nil, z.a.abs, f)
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z.b, _ = z.b.div(nil, z.b, f)
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switch {
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case len(z.a.abs) == 0:
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// z == 0 - normalize sign and denominator
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z.a.neg = false
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z.b = z.b.make(0)
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case len(z.b) == 0:
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// z is normalized int - nothing to do
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case z.b.cmp(natOne) == 0:
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// z is int - normalize denominator
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z.b = z.b.make(0)
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default:
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if f := gcd(z.a.abs, z.b); f.cmp(natOne) != 0 {
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z.a.abs, _ = z.a.abs.div(nil, z.a.abs, f)
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z.b, _ = z.b.div(nil, z.b, f)
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}
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}
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return z
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}
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func mulNat(x *Int, y nat) *Int {
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// mulDenom sets z to the denominator product x*y (by taking into
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// account that 0 values for x or y must be interpreted as 1) and
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// returns z.
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func mulDenom(z, x, y nat) nat {
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switch {
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case len(x) == 0:
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return z.set(y)
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case len(y) == 0:
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return z.set(x)
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}
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return z.mul(x, y)
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}
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// scaleDenom computes x*f.
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// If f == 0 (zero value of denominator), the result is (a copy of) x.
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func scaleDenom(x *Int, f nat) *Int {
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var z Int
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z.abs = z.abs.mul(x.abs, y)
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z.neg = len(z.abs) > 0 && x.neg
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if len(f) == 0 {
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return z.Set(x)
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}
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z.abs = z.abs.mul(x.abs, f)
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z.neg = x.neg
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return &z
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}
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@ -167,31 +207,31 @@ func mulNat(x *Int, y nat) *Int {
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// +1 if x > y
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//
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func (x *Rat) Cmp(y *Rat) int {
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return mulNat(&x.a, y.b).Cmp(mulNat(&y.a, x.b))
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return scaleDenom(&x.a, y.b).Cmp(scaleDenom(&y.a, x.b))
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}
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// Add sets z to the sum x+y and returns z.
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func (z *Rat) Add(x, y *Rat) *Rat {
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a1 := mulNat(&x.a, y.b)
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a2 := mulNat(&y.a, x.b)
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a1 := scaleDenom(&x.a, y.b)
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a2 := scaleDenom(&y.a, x.b)
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z.a.Add(a1, a2)
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z.b = z.b.mul(x.b, y.b)
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z.b = mulDenom(z.b, x.b, y.b)
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return z.norm()
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}
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// Sub sets z to the difference x-y and returns z.
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func (z *Rat) Sub(x, y *Rat) *Rat {
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a1 := mulNat(&x.a, y.b)
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a2 := mulNat(&y.a, x.b)
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a1 := scaleDenom(&x.a, y.b)
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a2 := scaleDenom(&y.a, x.b)
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z.a.Sub(a1, a2)
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z.b = z.b.mul(x.b, y.b)
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z.b = mulDenom(z.b, x.b, y.b)
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return z.norm()
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}
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// Mul sets z to the product x*y and returns z.
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func (z *Rat) Mul(x, y *Rat) *Rat {
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z.a.Mul(&x.a, &y.a)
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z.b = z.b.mul(x.b, y.b)
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z.b = mulDenom(z.b, x.b, y.b)
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return z.norm()
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}
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@ -201,8 +241,8 @@ func (z *Rat) Quo(x, y *Rat) *Rat {
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if len(y.a.abs) == 0 {
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panic("division by zero")
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}
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a := mulNat(&x.a, y.b)
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b := mulNat(&y.a, x.b)
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a := scaleDenom(&x.a, y.b)
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b := scaleDenom(&y.a, x.b)
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z.a.abs = a.abs
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z.b = b.abs
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z.a.neg = a.neg != b.neg
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@ -281,7 +321,7 @@ func (z *Rat) SetString(s string) (*Rat, bool) {
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z.norm()
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} else {
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z.a.abs = z.a.abs.mul(z.a.abs, powTen)
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z.b = z.b.setWord(1)
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z.b = z.b.make(0)
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}
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return z, true
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@ -289,7 +329,11 @@ func (z *Rat) SetString(s string) (*Rat, bool) {
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// String returns a string representation of z in the form "a/b" (even if b == 1).
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func (z *Rat) String() string {
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return z.a.String() + "/" + z.b.decimalString()
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s := "/1"
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if len(z.b) != 0 {
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s = "/" + z.b.decimalString()
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}
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return z.a.String() + s
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}
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// RatString returns a string representation of z in the form "a/b" if b != 1,
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@ -311,6 +355,7 @@ func (z *Rat) FloatString(prec int) string {
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}
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return s
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}
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// z.b != 0
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q, r := nat{}.div(nat{}, z.a.abs, z.b)
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@ -11,6 +11,46 @@ import (
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"testing"
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)
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func TestZeroRat(t *testing.T) {
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var x, y, z Rat
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y.SetFrac64(0, 42)
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if x.Cmp(&y) != 0 {
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t.Errorf("x and y should be both equal and zero")
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}
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if s := x.String(); s != "0/1" {
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t.Errorf("got x = %s, want 0/1", s)
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}
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if s := x.RatString(); s != "0" {
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t.Errorf("got x = %s, want 0", s)
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}
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z.Add(&x, &y)
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if s := z.RatString(); s != "0" {
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t.Errorf("got x+y = %s, want 0", s)
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}
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z.Sub(&x, &y)
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if s := z.RatString(); s != "0" {
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t.Errorf("got x-y = %s, want 0", s)
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}
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z.Mul(&x, &y)
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if s := z.RatString(); s != "0" {
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t.Errorf("got x*y = %s, want 0", s)
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}
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// check for division by zero
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defer func() {
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if s := recover(); s == nil || s.(string) != "division by zero" {
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panic(s)
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}
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}()
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z.Quo(&x, &y)
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}
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var setStringTests = []struct {
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in, out string
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ok bool
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@ -174,7 +214,7 @@ func TestIsInt(t *testing.T) {
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}
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|
||||
func TestRatAbs(t *testing.T) {
|
||||
zero := NewRat(0, 1)
|
||||
zero := new(Rat)
|
||||
for _, a := range setStringTests {
|
||||
x, ok := new(Rat).SetString(a.in)
|
||||
if !ok {
|
||||
@ -192,7 +232,7 @@ func TestRatAbs(t *testing.T) {
|
||||
}
|
||||
|
||||
func TestRatNeg(t *testing.T) {
|
||||
zero := NewRat(0, 1)
|
||||
zero := new(Rat)
|
||||
for _, a := range setStringTests {
|
||||
x, ok := new(Rat).SetString(a.in)
|
||||
if !ok {
|
||||
@ -207,7 +247,7 @@ func TestRatNeg(t *testing.T) {
|
||||
}
|
||||
|
||||
func TestRatInv(t *testing.T) {
|
||||
zero := NewRat(0, 1)
|
||||
zero := new(Rat)
|
||||
for _, a := range setStringTests {
|
||||
x, ok := new(Rat).SetString(a.in)
|
||||
if !ok {
|
||||
|
Loading…
Reference in New Issue
Block a user