func ExampleToHumanSize() {
nths1 := gonumbers.ToHumanSize()
res1, err1 := nths1.Perform(333)
if err1 != nil {
fmt.Println(err1)
}
fmt.Println(res1)
nths2 := gonumbers.ToHumanSize()
res2, err2 := nths2.Perform(1234)
if err2 != nil {
fmt.Println(err2)
}
fmt.Println(res2)
nths3 := gonumbers.ToHumanSize()
res3, err3 := nths3.Perform(1234567890)
if err3 != nil {
fmt.Println(err3)
}
fmt.Println(res3)
nths4 := gonumbers.ToHumanSize()
nths4.Options(gonumbers.Precision(2))
res4, err4 := nths4.Perform(1234567)
if err4 != nil {
fmt.Println(err4)
}
fmt.Println(res4)
nths5 := gonumbers.ToHumanSize()
nths5.Options(gonumbers.Precision(2), gonumbers.Separator(","))
res5, err5 := nths5.Perform(1234567)
if err5 != nil {
fmt.Println(err5)
}
fmt.Println(res5)
nths6 := gonumbers.ToHumanSize()
nths6.Options(gonumbers.Precision(5))
res6, err6 := nths6.Perform(524288000)
if err6 != nil {
fmt.Println(err6)
}
fmt.Println(res6)
// Output:
// 333 Bytes
// 1.21 KB
// 1.15 GB
// 1.2 MB
// 1,2 MB
// 500 MB
}
func Test_ToCurrency(t *testing.T) {
for _, test := range testsNTC {
ntc := gonumbers.ToCurrency()
if test.addPrecision {
ntc.Options(gonumbers.Precision(test.precision))
}
if test.addUnit {
ntc.Options(gonumbers.Unit(test.unit))
}
if test.addSeparator {
ntc.Options(gonumbers.Separator(test.separator))
}
if test.addDelimiter {
ntc.Options(gonumbers.Delimiter(test.delimiter))
}
assert(t, test.out, ntc.Perform(test.in))
}
}
func ExampleToHuman() {
nth1 := gonumbers.ToHuman()
fmt.Println(nth1.Perform(123))
nth2 := gonumbers.ToHuman()
fmt.Println(nth2.Perform(1234))
nth3 := gonumbers.ToHuman()
fmt.Println(nth3.Perform(12345))
nth4 := gonumbers.ToHuman()
fmt.Println(nth4.Perform(1234567))
nth5 := gonumbers.ToHuman()
fmt.Println(nth5.Perform(1234567890))
nth6 := gonumbers.ToHuman()
fmt.Println(nth6.Perform(1234567890123))
nth7 := gonumbers.ToHuman()
fmt.Println(nth7.Perform(1234567890123456))
nth8 := gonumbers.ToHuman()
nth8.Options(gonumbers.Precision(2))
fmt.Println(nth8.Perform(489939))
nth9 := gonumbers.ToHuman()
nth9.Options(gonumbers.Precision(4))
fmt.Println(nth9.Perform(489939))
nth10 := gonumbers.ToHuman()
nth10.Options(gonumbers.Precision(4), gonumbers.Separator(","))
fmt.Println(nth10.Perform(489939))
// Output:
// 123
// 1.23 Thousand
// 12.3 Thousand
// 1.23 Million
// 1.23 Billion
// 1.23 Trillion
// 1.23 Quadrillion
// 490 Thousand
// 489.9 Thousand
// 489,9 Thousand
}
func ExampleToCurrency() {
ntc1 := gonumbers.ToCurrency()
res1 := ntc1.Perform(1234567890.50)
fmt.Println(res1)
ntc2 := gonumbers.ToCurrency()
ntc2.Options(gonumbers.Precision(2))
res2 := ntc2.Perform(1234567890.506)
fmt.Println(res2)
ntc3 := gonumbers.ToCurrency()
ntc3.Options(gonumbers.Precision(2), gonumbers.Unit("$"), gonumbers.Separator("."))
res3 := ntc3.Perform(1234567890)
fmt.Println(res3)
ntc4 := gonumbers.ToCurrency()
ntc4.Options(gonumbers.Precision(3), gonumbers.Unit("CAD$"), gonumbers.Separator("."), gonumbers.Delimiter(","))
res4 := ntc4.Perform(1234567890.506)
fmt.Println(res4)
ntc5 := gonumbers.ToCurrency()
ntc5.Options(gonumbers.Precision(2), gonumbers.Separator("."), gonumbers.Delimiter(""))
res5 := ntc5.Perform(1234567890.50)
fmt.Println(res5)
ntc6 := gonumbers.ToCurrency()
ntc6.Options(gonumbers.Precision(2), gonumbers.Separator(","), gonumbers.Delimiter("."))
res6 := ntc6.Perform(1234567890.506)
fmt.Println(res6)
// Output:
// $1,234,567,890.50
// $1,234,567,890.51
// $1,234,567,890.00
// CAD$1,234,567,890.506
// $1234567890.50
// $1.234.567.890,51
}
func Test_ToHuman(t *testing.T) {
tests := []struct {
in float64
out string
precision int
separator string
addPrecision, addSeparator bool
}{
{in: 123, out: "123"},
{in: 1234, out: "1.23 Thousand"},
{in: 12345, out: "12.3 Thousand"},
{in: 1234567, out: "1.23 Million"},
{in: 1234567890, out: "1.23 Billion"},
{in: 1234567890123, out: "1.23 Trillion"},
{in: 1234567890123456, out: "1.23 Quadrillion"},
{
in: 489939,
addPrecision: true,
precision: 2,
out: "490 Thousand",
},
{
in: 489939,
addPrecision: true,
precision: 4,
out: "489.9 Thousand",
},
{
in: 489939,
addPrecision: true,
precision: 4,
addSeparator: true,
separator: ",",
out: "489,9 Thousand",
},
}
for _, test := range tests {
nth := gonumbers.ToHuman()
if test.addPrecision {
nth.Options(gonumbers.Precision(test.precision))
}
if test.addSeparator {
nth.Options(gonumbers.Separator(test.separator))
}
assert(t, test.out, nth.Perform(test.in))
}
}
func Test_ToHumanSize(t *testing.T) {
nths1 := gonumbers.ToHumanSize()
nths1.Options(gonumbers.Prefix("ahhaha"))
nths1_final, err1 := nths1.Perform(123)
assert_not(t, nil, err1)
contains(t, err1.Error(), "Prefix must be binary or si.")
assert(t, "", nths1_final)
tests := []struct {
in float64
addPrecision bool
precision int
addSeparator bool
separator string
addDelimiter bool
delimiter string
addPrefix bool
prefix string
out string
}{
{
in: 333,
out: "333 Bytes",
},
{
in: 1234,
out: "1.21 KB",
},
{
in: 1234567890,
out: "1.15 GB",
},
{
in: 1234567,
addPrecision: true,
precision: 2,
out: "1.2 MB",
},
{
in: 524288000,
addPrecision: true,
precision: 5,
out: "500 MB",
},
{
in: 1234567,
addPrecision: true,
precision: 2,
addSeparator: true,
separator: ",",
out: "1,2 MB",
},
}
for _, test := range tests {
nths := gonumbers.ToHumanSize()
if test.addPrecision {
nths.Options(gonumbers.Precision(test.precision))
}
if test.addSeparator {
nths.Options(gonumbers.Separator(test.separator))
}
if test.addDelimiter {
nths.Options(gonumbers.Delimiter(test.delimiter))
}
if test.addPrefix {
nths.Options(gonumbers.Prefix(test.prefix))
}
nths_final, err := nths.Perform(test.in)
assert(t, nil, err)
assert(t, test.out, nths_final)
}
}