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2 changed files with 156 additions and 0 deletions
77
decimal.go
77
decimal.go
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@ -19,6 +19,7 @@ package decimal
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import (
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import (
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"database/sql/driver"
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"database/sql/driver"
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"encoding/binary"
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"encoding/binary"
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"errors"
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"fmt"
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"fmt"
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"math"
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"math"
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"math/big"
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"math/big"
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@ -124,6 +125,26 @@ func NewFromBigInt(value *big.Int, exp int32) Decimal {
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}
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}
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}
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}
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// NewFromBigRat returns a new Decimal from a big.Rat. The numerator and
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// denominator are divided and rounded to the given precision.
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//
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// Example:
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//
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// d1 := NewFromBigRat(big.NewRat(0, 1), 0) // output: "0"
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// d2 := NewFromBigRat(big.NewRat(4, 5), 1) // output: "0.8"
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// d3 := NewFromBigRat(big.NewRat(1000, 3), 3) // output: "333.333"
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// d4 := NewFromBigRat(big.NewRat(2, 7), 4) // output: "0.2857"
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//
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func NewFromBigRat(value *big.Rat, precision int32) Decimal {
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return Decimal{
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value: new(big.Int).Set(value.Num()),
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exp: 0,
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}.DivRound(Decimal{
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value: new(big.Int).Set(value.Denom()),
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exp: 0,
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}, precision)
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}
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// NewFromString returns a new Decimal from a string representation.
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// NewFromString returns a new Decimal from a string representation.
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// Trailing zeroes are not trimmed.
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// Trailing zeroes are not trimmed.
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//
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//
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@ -2006,3 +2027,59 @@ func (d Decimal) Tan() Decimal {
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}
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}
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return y
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return y
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}
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}
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// More math
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// Sqrt returns the square root of d, accurate to DivisionPrecision decimal places.
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// Sqrt is only valid for non-negative numbers; it will return an error otherwise.
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func (d Decimal) Sqrt() (Decimal, error) {
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s, _, err := d.SqrtRound(int32(DivisionPrecision))
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return s, err
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}
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// ErrImaginaryResult indicates an operation that would produce an imaginary result.
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var ErrImaginaryResult = errors.New("The result of this operation is imaginary.")
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// SqrtMaxIter sets a limit for number of iterations for the Sqrt function
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const SqrtMaxIter = 1000000
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// SqrtRound returns the square root of d, accurate to precision decimal places.
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// The bool precise returns whether the precision was achieved.
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// SqrtRound is only valid for non-negative numbers; it will return an error otherwise.
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func (d Decimal) SqrtRound(precision int32) (Decimal, bool, error) {
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var (
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maxError = New(1, -precision)
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one = NewFromFloat(1)
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lo, hi Decimal
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)
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// Handle cases where d < 0, d = 0, 0 < d < 1, and d > 1
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if d.GreaterThanOrEqual(one) {
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lo = Zero
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hi = d
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} else if d.Equal(one) {
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return one, true, nil
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} else if d.LessThan(Zero) {
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return Zero, false, ErrImaginaryResult
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} else if d.Equal(Zero) {
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return Zero, true, nil
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} else {
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// d is between 0 and 1. Therefore, 0 < d < Sqrt(d) < 1.
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lo = d
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hi = one
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}
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var mid Decimal
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for i := 0; i < SqrtMaxIter; i++ {
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mid = lo.Add(hi).Div(New(2, 0)) //mid = (lo+hi)/2;
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if mid.Mul(mid).Sub(d).Abs().LessThan(maxError) {
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return mid, true, nil
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}
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if mid.Mul(mid).GreaterThan(d) {
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hi = mid
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} else {
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lo = mid
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}
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}
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return mid, false, nil
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}
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@ -556,6 +556,51 @@ func TestNewFromBigIntWithExponent(t *testing.T) {
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}
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}
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}
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}
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func TestNewFromBigRat(t *testing.T) {
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mustParseRat := func(val string) *big.Rat {
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num, _ := new(big.Rat).SetString(val)
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return num
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}
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type Inp struct {
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val *big.Rat
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prec int32
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}
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tests := map[Inp]string{
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Inp{big.NewRat(0, 1), 16}: "0",
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Inp{big.NewRat(4, 5), 16}: "0.8",
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Inp{big.NewRat(10, 2), 16}: "5",
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Inp{big.NewRat(1023427554493, 43432632), 16}: "23563.5628642767953828", // rounded
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Inp{big.NewRat(1, 434324545566634), 16}: "0.0000000000000023",
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Inp{big.NewRat(1, 3), 16}: "0.3333333333333333",
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Inp{big.NewRat(2, 3), 2}: "0.67", // rounded
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Inp{big.NewRat(2, 3), 16}: "0.6666666666666667", // rounded
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Inp{big.NewRat(10000, 3), 16}: "3333.3333333333333333",
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Inp{mustParseRat("30702832066636633479"), 16}: "30702832066636633479",
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Inp{mustParseRat("487028320159896636679.1827512895753"), 16}: "487028320159896636679.1827512895753",
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Inp{mustParseRat("127028320612589896636633479.173582751289575278357832"), -2}: "127028320612589896636633500", // rounded
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Inp{mustParseRat("127028320612589896636633479.173582751289575278357832"), 16}: "127028320612589896636633479.1735827512895753", // rounded
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Inp{mustParseRat("127028320612589896636633479.173582751289575278357832"), 32}: "127028320612589896636633479.173582751289575278357832",
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}
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// add negatives
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for p, s := range tests {
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if p.val.Cmp(new(big.Rat)) > 0 {
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tests[Inp{p.val.Neg(p.val), p.prec}] = "-" + s
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}
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}
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for input, s := range tests {
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d := NewFromBigRat(input.val, input.prec)
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if d.String() != s {
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t.Errorf("expected %s, got %s (%s, %d)",
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s, d.String(),
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d.value.String(), d.exp)
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}
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}
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}
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func TestCopy(t *testing.T) {
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func TestCopy(t *testing.T) {
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origin := New(1, 0)
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origin := New(1, 0)
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cpy := origin.Copy()
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cpy := origin.Copy()
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@ -3194,6 +3239,40 @@ func TestAvg(t *testing.T) {
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}
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}
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}
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}
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func TestSqrtRound(t *testing.T) {
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i := NewFromFloat(-1)
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if _, err := i.Sqrt(); err != ErrImaginaryResult {
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t.Errorf("Square root of -1 should produce error")
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}
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var vals = map[string]string{
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// value : Sqrt(value)
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"0.0": "0.0",
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"0.002342": "0.0483942145302514",
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"1.0": "1.0",
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"3.0": "1.7320508075688773",
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"4.0": "2.0",
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"4.5": "2.1213203435596426",
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"3289854.0": "1813.7954680724064485",
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}
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for val, expected := range vals {
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v, err := NewFromString(val)
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if err != nil {
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t.Errorf("error parsing test value into Decimal")
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}
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e, err := NewFromString(expected)
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if err != nil {
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t.Errorf("error parsing test expected value into Decimal")
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}
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if sqrt, err := v.Sqrt(); err != nil || !sqrt.Equal(e) {
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t.Errorf("Square root of %s should be %s, not %s (error: %s)", v, e, sqrt, err)
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}
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}
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}
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func TestRoundBankAnomaly(t *testing.T) {
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func TestRoundBankAnomaly(t *testing.T) {
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a := New(25, -1)
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a := New(25, -1)
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b := New(250, -2)
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b := New(250, -2)
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