Documentation ¶
Overview ¶
Package math includes important helpers for Ethereum such as fast integer square roots.
Index ¶
- Variables
- func Add64(a, b uint64) (uint64, error)
- func AddInt(i ...int) (int, error)
- func CachedSquareRoot(balance uint64) uint64
- func CeilDiv8(n int) int
- func Div64(a, b uint64) (uint64, error)
- func Int(u uint64) (int, error)
- func IntegerSquareRoot(n uint64) uint64
- func IsPowerOf2(n uint64) bool
- func IsValidUint256(bi *big.Int) bool
- func Max(a, b uint64) uint64
- func Min(a, b uint64) uint64
- func Mod64(a, b uint64) (uint64, error)
- func Mul64(a, b uint64) (uint64, error)
- func PowerOf2(n uint64) uint64
- func Sub64(a, b uint64) (uint64, error)
- type Gwei
- type Wei
Constants ¶
This section is empty.
Variables ¶
var ( ErrOverflow = errors.New("integer overflow") ErrDivByZero = errors.New("integer divide by zero") ErrMulOverflow = errors.New("multiplication overflows") ErrAddOverflow = errors.New("addition overflows") ErrSubUnderflow = errors.New("subtraction underflow") )
ErrOverflow occurs when an operation exceeds max or minimum values.
Functions ¶
func Add64 ¶
Add64 adds 2 64-bit unsigned integers and checks if they lead to an overflow. If they do not, it returns the result without an error.
func CachedSquareRoot ¶
CachedSquareRoot implements Newton's algorithm to compute the square root of the given uint64 starting from the last cached value
func Int ¶
Int returns the integer value of the uint64 argument. If there is an overflow, then an error is returned.
func IntegerSquareRoot ¶
IntegerSquareRoot defines a function that returns the largest possible integer root of a number using go's standard library.
func IsPowerOf2 ¶
IsPowerOf2 returns true if n is an exact power of two. False otherwise.
func IsValidUint256 ¶
IsValidUint256 given a bigint checks if the value is a valid Uint256
func Max ¶
Max returns the larger integer of the two given ones.This is used over the Max function in the standard math library because that max function has to check for some special floating point cases making it slower by a magnitude of 10.
func Min ¶
Min returns the smaller integer of the two given ones. This is used over the Min function in the standard math library because that min function has to check for some special floating point cases making it slower by a magnitude of 10.
func Mod64 ¶
Mod64 finds remainder of division of two 64-bit unsigned integers and checks for errors.
func Mul64 ¶
Mul64 multiples 2 64-bit unsigned integers and checks if they lead to an overflow. If they do not, it returns the result without an error.