Added Banker Rounding (#61)

* made GTE/GT/LT/LTE go-lint compliant

* added banker rounding and tests (RoundBank, StringFixedBank)
This commit is contained in:
Rigel 2017-09-11 08:58:34 -04:00 committed by Victor Quinn
parent 730de27aa5
commit aed1bfe463
2 changed files with 137 additions and 4 deletions

View file

@ -431,23 +431,23 @@ func (d Decimal) Equals(d2 Decimal) bool {
return d.Equal(d2)
}
// Greater Than (GT) returns true when d is greater than d2.
// GreaterThan (GT) returns true when d is greater than d2.
func (d Decimal) GreaterThan(d2 Decimal) bool {
return d.Cmp(d2) == 1
}
// Greater Than or Equal (GTE) returns true when d is greater than or equal to d2.
// GreaterThanOrEqual (GTE) returns true when d is greater than or equal to d2.
func (d Decimal) GreaterThanOrEqual(d2 Decimal) bool {
cmp := d.Cmp(d2)
return cmp == 1 || cmp == 0
}
// Less Than (LT) returns true when d is less than d2.
// LessThan (LT) returns true when d is less than d2.
func (d Decimal) LessThan(d2 Decimal) bool {
return d.Cmp(d2) == -1
}
// Less Than or Equal (LTE) returns true when d is less than or equal to d2.
// LessThanOrEqual (LTE) returns true when d is less than or equal to d2.
func (d Decimal) LessThanOrEqual(d2 Decimal) bool {
cmp := d.Cmp(d2)
return cmp == -1 || cmp == 0
@ -539,6 +539,24 @@ func (d Decimal) StringFixed(places int32) string {
return rounded.string(false)
}
// StringFixedBank returns a banker rounded fixed-point string with places digits
// after the decimal point.
//
// Example:
//
// NewFromFloat(0).StringFixed(2) // output: "0.00"
// NewFromFloat(0).StringFixed(0) // output: "0"
// NewFromFloat(5.45).StringFixed(0) // output: "5"
// NewFromFloat(5.45).StringFixed(1) // output: "5.4"
// NewFromFloat(5.45).StringFixed(2) // output: "5.45"
// NewFromFloat(5.45).StringFixed(3) // output: "5.450"
// NewFromFloat(545).StringFixed(-1) // output: "550"
//
func (d Decimal) StringFixedBank(places int32) string {
rounded := d.RoundBank(places)
return rounded.string(false)
}
// Round rounds the decimal to places decimal places.
// If places < 0, it will round the integer part to the nearest 10^(-places).
//
@ -568,6 +586,37 @@ func (d Decimal) Round(places int32) Decimal {
return ret
}
// RoundBank rounds the decimal to places decimal places.
// If the final digit to round is equidistant from the nearest two integers the
// rounded value is taken as the even number
//
// If places < 0, it will round the integer part to the nearest 10^(-places).
//
// Examples:
//
// NewFromFloat(5.45).Round(1).String() // output: "5.4"
// NewFromFloat(545).Round(-1).String() // output: "540"
// NewFromFloat(5.46).Round(1).String() // output: "5.5"
// NewFromFloat(546).Round(-1).String() // output: "550"
// NewFromFloat(5.55).Round(1).String() // output: "5.6"
// NewFromFloat(555).Round(-1).String() // output: "560"
//
func (d Decimal) RoundBank(places int32) Decimal {
round := d.Round(places)
remainder := d.Sub(round).Abs()
if remainder.value.Cmp(fiveInt) == 0 && round.value.Bit(0) != 0 {
if round.value.Sign() < 0 {
round.value.Add(round.value, oneInt)
} else {
round.value.Sub(round.value, oneInt)
}
}
return round
}
// Floor returns the nearest integer value less than or equal to d.
func (d Decimal) Floor() Decimal {
d.ensureInitialized()

View file

@ -550,6 +550,90 @@ func TestDecimal_RoundAndStringFixed(t *testing.T) {
}
}
func TestDecimal_BankRoundAndStringFixed(t *testing.T) {
type testData struct {
input string
places int32
expected string
expectedFixed string
}
tests := []testData{
{"1.454", 0, "1", ""},
{"1.454", 1, "1.5", ""},
{"1.454", 2, "1.45", ""},
{"1.454", 3, "1.454", ""},
{"1.454", 4, "1.454", "1.4540"},
{"1.454", 5, "1.454", "1.45400"},
{"1.554", 0, "2", ""},
{"1.554", 1, "1.6", ""},
{"1.554", 2, "1.55", ""},
{"0.554", 0, "1", ""},
{"0.454", 0, "0", ""},
{"0.454", 5, "0.454", "0.45400"},
{"0", 0, "0", ""},
{"0", 1, "0", "0.0"},
{"0", 2, "0", "0.00"},
{"0", -1, "0", ""},
{"5", 2, "5", "5.00"},
{"5", 1, "5", "5.0"},
{"5", 0, "5", ""},
{"500", 2, "500", "500.00"},
{"545", -2, "500", ""},
{"545", -3, "1000", ""},
{"545", -4, "0", ""},
{"499", -3, "0", ""},
{"499", -4, "0", ""},
{"1.45", 1, "1.4", ""},
{"1.55", 1, "1.6", ""},
{"1.65", 1, "1.6", ""},
{"545", -1, "540", ""},
{"565", -1, "560", ""},
{"555", -1, "560", ""},
}
// add negative number tests
for _, test := range tests {
expected := test.expected
if expected != "0" {
expected = "-" + expected
}
expectedStr := test.expectedFixed
if strings.ContainsAny(expectedStr, "123456789") && expectedStr != "" {
expectedStr = "-" + expectedStr
}
tests = append(tests,
testData{"-" + test.input, test.places, expected, expectedStr})
}
for _, test := range tests {
d, err := NewFromString(test.input)
if err != nil {
panic(err)
}
// test Round
expected, err := NewFromString(test.expected)
if err != nil {
panic(err)
}
got := d.RoundBank(test.places)
if !got.Equal(expected) {
t.Errorf("Bank Rounding %s to %d places, got %s, expected %s",
d, test.places, got, expected)
}
// test StringFixed
if test.expectedFixed == "" {
test.expectedFixed = test.expected
}
gotStr := d.StringFixedBank(test.places)
if gotStr != test.expectedFixed {
t.Errorf("(%s).StringFixed(%d): got %s, expected %s",
d, test.places, gotStr, test.expectedFixed)
}
}
}
func TestDecimal_Uninitialized(t *testing.T) {
a := Decimal{}
b := Decimal{}