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Diffstat (limited to 'ethutil/number/int.go')
-rw-r--r-- | ethutil/number/int.go | 181 |
1 files changed, 181 insertions, 0 deletions
diff --git a/ethutil/number/int.go b/ethutil/number/int.go new file mode 100644 index 000000000..9a41fe3e5 --- /dev/null +++ b/ethutil/number/int.go @@ -0,0 +1,181 @@ +package number + +import ( + "math/big" + + "github.com/ethereum/go-ethereum/ethutil" +) + +var tt256 = new(big.Int).Lsh(big.NewInt(1), 256) +var tt256m1 = new(big.Int).Sub(new(big.Int).Lsh(big.NewInt(1), 256), big.NewInt(1)) +var tt255 = new(big.Int).Lsh(big.NewInt(1), 255) + +func limitUnsigned256(x *Number) *Number { + x.num.And(x.num, tt256m1) + return x +} + +func limitSigned256(x *Number) *Number { + if x.num.Cmp(tt255) < 0 { + return x + } else { + x.num.Sub(x.num, tt256) + return x + } +} + +// Number function +type Initialiser func(n int64) *Number + +// A Number represents a generic integer with a bounding function limiter. Limit is called after each operations +// to give "fake" bounded integers. New types of Number can be created through NewInitialiser returning a lambda +// with the new Initialiser. +type Number struct { + num *big.Int + limit func(n *Number) *Number +} + +// Returns a new initialiser for a new *Number without having to expose certain fields +func NewInitialiser(limiter func(*Number) *Number) Initialiser { + return func(n int64) *Number { + return &Number{big.NewInt(n), limiter} + } +} + +// Return a Number with a UNSIGNED limiter up to 256 bits +func Uint256(n int64) *Number { + return &Number{big.NewInt(n), limitUnsigned256} +} + +// Return a Number with a SIGNED limiter up to 256 bits +func Int256(n int64) *Number { + return &Number{big.NewInt(n), limitSigned256} +} + +// Returns a Number with a SIGNED unlimited size +func Big(n int64) *Number { + return &Number{big.NewInt(n), func(x *Number) *Number { return x }} +} + +// Sets i to sum of x+y +func (i *Number) Add(x, y *Number) *Number { + i.num.Add(x.num, y.num) + return i.limit(i) +} + +// Sets i to difference of x-y +func (i *Number) Sub(x, y *Number) *Number { + i.num.Sub(x.num, y.num) + return i.limit(i) +} + +// Sets i to product of x*y +func (i *Number) Mul(x, y *Number) *Number { + i.num.Mul(x.num, y.num) + return i.limit(i) +} + +// Sets i to the quotient prodject of x/y +func (i *Number) Div(x, y *Number) *Number { + i.num.Div(x.num, y.num) + return i.limit(i) +} + +// Sets i to x % y +func (i *Number) Mod(x, y *Number) *Number { + i.num.Mod(x.num, y.num) + return i.limit(i) +} + +// Sets i to x << s +func (i *Number) Lsh(x *Number, s uint) *Number { + i.num.Lsh(x.num, s) + return i.limit(i) +} + +// Sets i to x^y +func (i *Number) Pow(x, y *Number) *Number { + i.num.Exp(x.num, y.num, big.NewInt(0)) + return i.limit(i) +} + +// Setters + +// Set x to i +func (i *Number) Set(x *Number) *Number { + i.num.Set(x.num) + return i.limit(i) +} + +// Set x bytes to i +func (i *Number) SetBytes(x []byte) *Number { + i.num.SetBytes(x) + return i.limit(i) +} + +// Cmp compares x and y and returns: +// +// -1 if x < y +// 0 if x == y +// +1 if x > y +func (i *Number) Cmp(x *Number) int { + return i.num.Cmp(x.num) +} + +// Getters + +// Returns the string representation of i +func (i *Number) String() string { + return i.num.String() +} + +// Returns the byte representation of i +func (i *Number) Bytes() []byte { + return i.num.Bytes() +} + +// Uint64 returns the Uint64 representation of x. If x cannot be represented in an int64, the result is undefined. +func (i *Number) Uint64() uint64 { + return i.num.Uint64() +} + +// Int64 returns the int64 representation of x. If x cannot be represented in an int64, the result is undefined. +func (i *Number) Int64() int64 { + return i.num.Int64() +} + +// Returns the signed version of i +func (i *Number) Int256() *Number { + return Int(0).Set(i) +} + +// Returns the unsigned version of i +func (i *Number) Uint256() *Number { + return Uint(0).Set(i) +} + +// Returns the index of the first bit that's set to 1 +func (i *Number) FirstBitSet() int { + for j := 0; j < i.num.BitLen(); j++ { + if i.num.Bit(j) > 0 { + return j + } + } + + return i.num.BitLen() +} + +// Variables + +var ( + Zero = Uint(0) + One = Uint(1) + Two = Uint(2) + MaxUint256 = Uint(0).SetBytes(ethutil.Hex2Bytes("ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff")) + + MinOne = Int(-1) + + // "typedefs" + Uint = Uint256 + Int = Int256 +) |