e0adcd5f70
Since these constants can be useful for int64, Amount, and float64 math, it doesn't make sense to make them just one type, and require type conversions for the rest. ok @davecgh
112 lines
3.6 KiB
Go
112 lines
3.6 KiB
Go
// Copyright (c) 2013, 2014 Conformal Systems LLC.
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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package btcutil
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import (
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"errors"
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"math"
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"strconv"
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)
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// AmountUnit describes a method of converting an Amount to something
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// other than the base unit of a bitcoin. The value of the AmountUnit
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// is the exponent component of the decadic multiple to convert from
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// an amount in bitcoin to an amount counted in units.
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type AmountUnit int
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// These constants define various units used when describing a bitcoin
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// monetary amount.
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const (
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AmountMegaBTC AmountUnit = 6
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AmountKiloBTC AmountUnit = 3
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AmountBTC AmountUnit = 0
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AmountMilliBTC AmountUnit = -3
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AmountMicroBTC AmountUnit = -6
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AmountSatoshi AmountUnit = -8
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)
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// String returns the unit as a string. For recognized units, the SI
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// prefix is used, or "Satoshi" for the base unit. For all unrecognized
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// units, "1eN BTC" is returned, where N is the AmountUnit.
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func (u AmountUnit) String() string {
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switch u {
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case AmountMegaBTC:
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return "MBTC"
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case AmountKiloBTC:
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return "kBTC"
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case AmountBTC:
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return "BTC"
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case AmountMilliBTC:
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return "mBTC"
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case AmountMicroBTC:
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return "μBTC"
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case AmountSatoshi:
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return "Satoshi"
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default:
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return "1e" + strconv.FormatInt(int64(u), 10) + " BTC"
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}
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}
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// Amount represents the base bitcoin monetary unit (colloquially referred
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// to as a `Satoshi'). A single Amount is equal to 1e-8 of a bitcoin.
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type Amount int64
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// round converts a floating point number, which may or may not be representable
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// as an integer, to the Amount integer type by rounding to the nearest integer.
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// This is performed by adding or subtracting 0.5 depending on the sign, and
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// relying on integer truncation to round the value to the nearest Amount.
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func round(f float64) Amount {
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if f < 0 {
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return Amount(f - 0.5)
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}
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return Amount(f + 0.5)
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}
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// NewAmount creates an Amount from a floating point value representing
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// some value in bitcoin. NewAmount errors if f is NaN or +-Infinity, but
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// does not check that the amount is within the total amount of bitcoin
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// producable as f may not refer to an amount at a single moment in time.
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func NewAmount(f float64) (Amount, error) {
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// The amount is only considered invalid if it cannot be represented
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// as an integer type. This may happen if f is NaN or +-Infinity.
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switch {
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case math.IsNaN(f):
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fallthrough
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case math.IsInf(f, 1):
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fallthrough
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case math.IsInf(f, -1):
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return 0, errors.New("invalid bitcoin amount")
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}
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return round(f * SatoshiPerBitcoin), nil
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}
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// ToUnit converts a monetary amount counted in bitcoin base units to a
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// floating point value representing an amount of bitcoin.
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func (a Amount) ToUnit(u AmountUnit) float64 {
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return float64(a) / math.Pow10(int(u+8))
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}
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// Format formats a monetary amount counted in bitcoin base units as a
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// string for a given unit. The conversion will succeed for any unit,
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// however, known units will be formated with an appended label describing
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// the units with SI notation, or "Satoshi" for the base unit.
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func (a Amount) Format(u AmountUnit) string {
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units := " " + u.String()
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return strconv.FormatFloat(a.ToUnit(u), 'f', -int(u+8), 64) + units
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}
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// String is the equivalent of calling Format with AmountBTC.
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func (a Amount) String() string {
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return a.Format(AmountBTC)
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}
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// MulF64 multiplies an Amount by a floating point value. While this is not
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// an operation that must typically be done by a full node or wallet, it is
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// useful for services that build on top of bitcoin (for example, calculating
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// a fee by multiplying by a percentage).
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func (a Amount) MulF64(f float64) Amount {
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return round(float64(a) * f)
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}
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