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int.go
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int.go
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package types
import (
"encoding/json"
"testing"
"math/big"
"math/rand"
)
func newIntegerFromString(s string) (*big.Int, bool) {
return new(big.Int).SetString(s, 0)
}
func equal(i *big.Int, i2 *big.Int) bool { return i.Cmp(i2) == 0 }
func gt(i *big.Int, i2 *big.Int) bool { return i.Cmp(i2) == 1 }
func lt(i *big.Int, i2 *big.Int) bool { return i.Cmp(i2) == -1 }
func add(i *big.Int, i2 *big.Int) *big.Int { return new(big.Int).Add(i, i2) }
func sub(i *big.Int, i2 *big.Int) *big.Int { return new(big.Int).Sub(i, i2) }
func mul(i *big.Int, i2 *big.Int) *big.Int { return new(big.Int).Mul(i, i2) }
func div(i *big.Int, i2 *big.Int) *big.Int { return new(big.Int).Div(i, i2) }
func mod(i *big.Int, i2 *big.Int) *big.Int { return new(big.Int).Mod(i, i2) }
func neg(i *big.Int) *big.Int { return new(big.Int).Neg(i) }
func random(i *big.Int) *big.Int { return new(big.Int).Rand(rand.New(rand.NewSource(rand.Int63())), i) }
func min(i *big.Int, i2 *big.Int) *big.Int {
if i.Cmp(i2) == 1 {
return new(big.Int).Set(i2)
}
return new(big.Int).Set(i)
}
// MarshalAmino for custom encoding scheme
func marshalAmino(i *big.Int) (string, error) {
bz, err := i.MarshalText()
return string(bz), err
}
// UnmarshalAmino for custom decoding scheme
func unmarshalAmino(i *big.Int, text string) (err error) {
return i.UnmarshalText([]byte(text))
}
// MarshalJSON for custom encoding scheme
// Must be encoded as a string for JSON precision
func marshalJSON(i *big.Int) ([]byte, error) {
text, err := i.MarshalText()
if err != nil {
return nil, err
}
return json.Marshal(string(text))
}
// UnmarshalJSON for custom decoding scheme
// Must be encoded as a string for JSON precision
func unmarshalJSON(i *big.Int, bz []byte) error {
var text string
err := json.Unmarshal(bz, &text)
if err != nil {
return err
}
return i.UnmarshalText([]byte(text))
}
// Int wraps integer with 256 bit range bound
// Checks overflow, underflow and division by zero
// Exists in range from -(2^255-1) to 2^255-1
type Int struct {
i *big.Int
}
// BigInt converts Int to big.Int
func (i Int) BigInt() *big.Int {
return new(big.Int).Set(i.i)
}
// NewInt constructs Int from int64
func NewInt(n int64) Int {
return Int{big.NewInt(n)}
}
// NewIntFromBigInt constructs Int from big.Int
func NewIntFromBigInt(i *big.Int) Int {
if i.BitLen() > 255 {
panic("NewIntFromBigInt() out of bound")
}
return Int{i}
}
// NewIntFromString constructs Int from string
func NewIntFromString(s string) (res Int, ok bool) {
i, ok := newIntegerFromString(s)
if !ok {
return
}
// Check overflow
if i.BitLen() > 255 {
ok = false
return
}
return Int{i}, true
}
// NewIntWithDecimal constructs Int with decimal
// Result value is n*10^dec
func NewIntWithDecimal(n int64, dec int) Int {
if dec < 0 {
panic("NewIntWithDecimal() decimal is negative")
}
exp := new(big.Int).Exp(big.NewInt(10), big.NewInt(int64(dec)), nil)
i := new(big.Int)
i.Mul(big.NewInt(n), exp)
// Check overflow
if i.BitLen() > 255 {
panic("NewIntWithDecimal() out of bound")
}
return Int{i}
}
// ZeroInt returns Int value with zero
func ZeroInt() Int { return Int{big.NewInt(0)} }
// OneInt returns Int value with one
func OneInt() Int { return Int{big.NewInt(1)} }
// Int64 converts Int to int64
// Panics if the value is out of range
func (i Int) Int64() int64 {
if !i.i.IsInt64() {
panic("Int64() out of bound")
}
return i.i.Int64()
}
// IsInt64 returns true if Int64() not panics
func (i Int) IsInt64() bool {
return i.i.IsInt64()
}
// IsZero returns true if Int is zero
func (i Int) IsZero() bool {
return i.i.Sign() == 0
}
// Sign returns sign of Int
func (i Int) Sign() int {
return i.i.Sign()
}
// Equal compares two Ints
func (i Int) Equal(i2 Int) bool {
return equal(i.i, i2.i)
}
// GT returns true if first Int is greater than second
func (i Int) GT(i2 Int) bool {
return gt(i.i, i2.i)
}
// LT returns true if first Int is lesser than second
func (i Int) LT(i2 Int) bool {
return lt(i.i, i2.i)
}
// Add adds Int from another
func (i Int) Add(i2 Int) (res Int) {
res = Int{add(i.i, i2.i)}
// Check overflow
if res.i.BitLen() > 255 {
panic("Int overflow")
}
return
}
// AddRaw adds int64 to Int
func (i Int) AddRaw(i2 int64) Int {
return i.Add(NewInt(i2))
}
// Sub subtracts Int from another
func (i Int) Sub(i2 Int) (res Int) {
res = Int{sub(i.i, i2.i)}
// Check overflow
if res.i.BitLen() > 255 {
panic("Int overflow")
}
return
}
// SubRaw subtracts int64 from Int
func (i Int) SubRaw(i2 int64) Int {
return i.Sub(NewInt(i2))
}
// Mul multiples two Ints
func (i Int) Mul(i2 Int) (res Int) {
// Check overflow
if i.i.BitLen()+i2.i.BitLen()-1 > 255 {
panic("Int overflow")
}
res = Int{mul(i.i, i2.i)}
// Check overflow if sign of both are same
if res.i.BitLen() > 255 {
panic("Int overflow")
}
return
}
// MulRaw multipies Int and int64
func (i Int) MulRaw(i2 int64) Int {
return i.Mul(NewInt(i2))
}
// Div divides Int with Int
func (i Int) Div(i2 Int) (res Int) {
// Check division-by-zero
if i2.i.Sign() == 0 {
panic("Division by zero")
}
return Int{div(i.i, i2.i)}
}
// DivRaw divides Int with int64
func (i Int) DivRaw(i2 int64) Int {
return i.Div(NewInt(i2))
}
// Mod returns remainder after dividing with Int
func (i Int) Mod(i2 Int) Int {
if i2.Sign() == 0 {
panic("division-by-zero")
}
return Int{mod(i.i, i2.i)}
}
// ModRaw returns remainder after dividing with int64
func (i Int) ModRaw(i2 int64) Int {
return i.Mod(NewInt(i2))
}
// Neg negates Int
func (i Int) Neg() (res Int) {
return Int{neg(i.i)}
}
// Return the minimum of the ints
func MinInt(i1, i2 Int) Int {
return Int{min(i1.BigInt(), i2.BigInt())}
}
// Human readable string
func (i Int) String() string {
return i.i.String()
}
// Testing purpose random Int generator
func randomInt(i Int) Int {
return NewIntFromBigInt(random(i.BigInt()))
}
// MarshalAmino defines custom encoding scheme
func (i Int) MarshalAmino() (string, error) {
if i.i == nil { // Necessary since default Uint initialization has i.i as nil
i.i = new(big.Int)
}
return marshalAmino(i.i)
}
// UnmarshalAmino defines custom decoding scheme
func (i *Int) UnmarshalAmino(text string) error {
if i.i == nil { // Necessary since default Int initialization has i.i as nil
i.i = new(big.Int)
}
return unmarshalAmino(i.i, text)
}
// MarshalJSON defines custom encoding scheme
func (i Int) MarshalJSON() ([]byte, error) {
if i.i == nil { // Necessary since default Uint initialization has i.i as nil
i.i = new(big.Int)
}
return marshalJSON(i.i)
}
// UnmarshalJSON defines custom decoding scheme
func (i *Int) UnmarshalJSON(bz []byte) error {
if i.i == nil { // Necessary since default Int initialization has i.i as nil
i.i = new(big.Int)
}
return unmarshalJSON(i.i, bz)
}
// Int wraps integer with 256 bit range bound
// Checks overflow, underflow and division by zero
// Exists in range from 0 to 2^256-1
type Uint struct {
i *big.Int
}
// BigInt converts Uint to big.Unt
func (i Uint) BigInt() *big.Int {
return new(big.Int).Set(i.i)
}
// NewUint constructs Uint from int64
func NewUint(n uint64) Uint {
i := new(big.Int)
i.SetUint64(n)
return Uint{i}
}
// NewUintFromBigUint constructs Uint from big.Uint
func NewUintFromBigInt(i *big.Int) Uint {
// Check overflow
if i.Sign() == -1 || i.Sign() == 1 && i.BitLen() > 256 {
panic("Uint overflow")
}
return Uint{i}
}
// NewUintFromString constructs Uint from string
func NewUintFromString(s string) (res Uint, ok bool) {
i, ok := newIntegerFromString(s)
if !ok {
return
}
// Check overflow
if i.Sign() == -1 || i.Sign() == 1 && i.BitLen() > 256 {
ok = false
return
}
return Uint{i}, true
}
// NewUintWithDecimal constructs Uint with decimal
// Result value is n*10^dec
func NewUintWithDecimal(n uint64, dec int) Uint {
if dec < 0 {
panic("NewUintWithDecimal() decimal is negative")
}
exp := new(big.Int).Exp(big.NewInt(10), big.NewInt(int64(dec)), nil)
i := new(big.Int)
i.Mul(new(big.Int).SetUint64(n), exp)
// Check overflow
if i.Sign() == -1 || i.Sign() == 1 && i.BitLen() > 256 {
panic("NewUintWithDecimal() out of bound")
}
return Uint{i}
}
// ZeroUint returns Uint value with zero
func ZeroUint() Uint { return Uint{big.NewInt(0)} }
// OneUint returns Uint value with one
func OneUint() Uint { return Uint{big.NewInt(1)} }
// Uint64 converts Uint to uint64
// Panics if the value is out of range
func (i Uint) Uint64() uint64 {
if !i.i.IsUint64() {
panic("Uint64() out of bound")
}
return i.i.Uint64()
}
// IsUint64 returns true if Uint64() not panics
func (i Uint) IsUint64() bool {
return i.i.IsUint64()
}
// IsZero returns true if Uint is zero
func (i Uint) IsZero() bool {
return i.i.Sign() == 0
}
// Sign returns sign of Uint
func (i Uint) Sign() int {
return i.i.Sign()
}
// Equal compares two Uints
func (i Uint) Equal(i2 Uint) bool {
return equal(i.i, i2.i)
}
// GT returns true if first Uint is greater than second
func (i Uint) GT(i2 Uint) bool {
return gt(i.i, i2.i)
}
// LT returns true if first Uint is lesser than second
func (i Uint) LT(i2 Uint) bool {
return lt(i.i, i2.i)
}
// Add adds Uint from another
func (i Uint) Add(i2 Uint) (res Uint) {
res = Uint{add(i.i, i2.i)}
// Check overflow
if res.Sign() == -1 || res.Sign() == 1 && res.i.BitLen() > 256 {
panic("Uint overflow")
}
return
}
// AddRaw adds uint64 to Uint
func (i Uint) AddRaw(i2 uint64) Uint {
return i.Add(NewUint(i2))
}
// Sub subtracts Uint from another
func (i Uint) Sub(i2 Uint) (res Uint) {
res = Uint{sub(i.i, i2.i)}
// Check overflow
if res.Sign() == -1 || res.Sign() == 1 && res.i.BitLen() > 256 {
panic("Uint overflow")
}
return
}
// SubRaw subtracts uint64 from Uint
func (i Uint) SubRaw(i2 uint64) Uint {
return i.Sub(NewUint(i2))
}
// Mul multiples two Uints
func (i Uint) Mul(i2 Uint) (res Uint) {
// Check overflow
if i.i.BitLen()+i2.i.BitLen()-1 > 256 {
panic("Uint overflow")
}
res = Uint{mul(i.i, i2.i)}
// Check overflow
if res.Sign() == -1 || res.Sign() == 1 && res.i.BitLen() > 256 {
panic("Uint overflow")
}
return
}
// MulRaw multipies Uint and uint64
func (i Uint) MulRaw(i2 uint64) Uint {
return i.Mul(NewUint(i2))
}
// Div divides Uint with Uint
func (i Uint) Div(i2 Uint) (res Uint) {
// Check division-by-zero
if i2.Sign() == 0 {
panic("division-by-zero")
}
return Uint{div(i.i, i2.i)}
}
// Div divides Uint with uint64
func (i Uint) DivRaw(i2 uint64) Uint {
return i.Div(NewUint(i2))
}
// Mod returns remainder after dividing with Uint
func (i Uint) Mod(i2 Uint) Uint {
if i2.Sign() == 0 {
panic("division-by-zero")
}
return Uint{mod(i.i, i2.i)}
}
// ModRaw returns remainder after dividing with uint64
func (i Uint) ModRaw(i2 uint64) Uint {
return i.Mod(NewUint(i2))
}
// Return the minimum of the Uints
func MinUint(i1, i2 Uint) Uint {
return Uint{min(i1.BigInt(), i2.BigInt())}
}
// Human readable string
func (i Uint) String() string {
return i.i.String()
}
// Testing purpose random Uint generator
func randomUint(i Uint) Uint {
return NewUintFromBigInt(random(i.BigInt()))
}
// MarshalAmino defines custom encoding scheme
func (i Uint) MarshalAmino() (string, error) {
if i.i == nil { // Necessary since default Uint initialization has i.i as nil
i.i = new(big.Int)
}
return marshalAmino(i.i)
}
// UnmarshalAmino defines custom decoding scheme
func (i *Uint) UnmarshalAmino(text string) error {
if i.i == nil { // Necessary since default Uint initialization has i.i as nil
i.i = new(big.Int)
}
return unmarshalAmino(i.i, text)
}
// MarshalJSON defines custom encoding scheme
func (i Uint) MarshalJSON() ([]byte, error) {
if i.i == nil { // Necessary since default Uint initialization has i.i as nil
i.i = new(big.Int)
}
return marshalJSON(i.i)
}
// UnmarshalJSON defines custom decoding scheme
func (i *Uint) UnmarshalJSON(bz []byte) error {
if i.i == nil { // Necessary since default Uint initialization has i.i as nil
i.i = new(big.Int)
}
return unmarshalJSON(i.i, bz)
}
//__________________________________________________________________________
// intended to be used with require/assert: require.True(IntEq(...))
func IntEq(t *testing.T, exp, got Int) (*testing.T, bool, string, string, string) {
return t, exp.Equal(got), "expected:\t%v\ngot:\t\t%v", exp.String(), got.String()
}
func MinInt64(i1, i2 int64) int64 {
if i1 < i2 {
return i1
} else {
return i2
}
}