# Mathutil Package mathutil implements some functions for math calculation.

## Source: - [https://github.com/duke-git/lancet/blob/main/mathutil/mathutil.go](https://github.com/duke-git/lancet/blob/main/mathutil/mathutil.go)

## Example: ```go import ( "github.com/duke-git/lancet/v2/mathutil" ) ```

## Index - [Average](#Average) - [Exponent](#Exponent) - [Fibonacci](#Fibonacci) - [Factorial](#Factorial) - [Max](#Max) - [MaxBy](#MaxBy) - [Min](#Min) - [MinBy](#MaxBy) - [Percent](#Percent) - [RoundToFloat](#RoundToFloat) - [RoundToString](#RoundToString) - [TruncRound](#TruncRound) - [Range](#Range) - [RangeWithStep](#RangeWithStep) - [AngleToRadian](#AngleToRadian) - [RadianToAngle](#RadianToAngle) - [PointDistance](#PointDistance) - [IsPrime](#IsPrime) - [GCD](#GCD) - [LCM](#LCM) - [Cos](#Cos) - [Sin](#Sin) - [Log](#Log) - [Sum](#Sum) - [Abs](#Abs)

## Documentation ### Average

Return average value of numbers. Maybe call RoundToFloat to round result.

Signature: ```go func Average[T constraints.Integer | constraints.Float](numbers ...T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Average(1, 2) avg := mathutil.Average(1.2, 1.4) result2 := mathutil.RoundToFloat(avg, 1) fmt.Println(result1) fmt.Println(result2) // Output: // 1 // 1.3 } ``` ### Exponent

Calculate x to the nth power.

Signature: ```go func Exponent(x, n int64) int64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Exponent(10, 0) result2 := mathutil.Exponent(10, 1) result3 := mathutil.Exponent(10, 2) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 1 // 10 // 100 } ``` ### Fibonacci

Calculate the nth number of fibonacci sequence.

Signature: ```go func Fibonacci(first, second, n int) int ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Fibonacci(1, 1, 1) result2 := mathutil.Fibonacci(1, 1, 2) result3 := mathutil.Fibonacci(1, 1, 5) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 1 // 1 // 5 } ``` ### Factorial

Calculate the factorial of x.

Signature: ```go func Factorial(x uint) uint ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Factorial(1) result2 := mathutil.Factorial(2) result3 := mathutil.Factorial(3) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 1 // 2 // 6 } ``` ### Max

Return max value of numbers.

Signature: ```go func Max[T constraints.Integer | constraints.Float](numbers ...T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Max(1, 2, 3) result2 := mathutil.Max(1.2, 1.4, 1.1, 1.4) fmt.Println(result1) fmt.Println(result2) // Output: // 3 // 1.4 } ``` ### MaxBy

Return the maximum value of a slice using the given comparator function.

Signature: ```go func MaxBy[T any](slice []T, comparator func(T, T) bool) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.MaxBy([]string{"a", "ab", "abc"}, func(v1, v2 string) bool { return len(v1) > len(v2) }) result2 := mathutil.MaxBy([]string{"abd", "abc", "ab"}, func(v1, v2 string) bool { return len(v1) > len(v2) }) result3 := mathutil.MaxBy([]string{}, func(v1, v2 string) bool { return len(v1) > len(v2) }) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // abc // abd // } ``` ### Min

Return the minimum value of numbers.

Signature: ```go func Min[T constraints.Integer | constraints.Float](numbers ...T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Min(1, 2, 3) result2 := mathutil.Min(1.2, 1.4, 1.1, 1.4) fmt.Println(result1) fmt.Println(result2) // Output: // 1 // 1.1 } ``` ### MinBy

Return the minimum value of a slice using the given comparator function.

Signature: ```go func MinBy[T any](slice []T, comparator func(T, T) bool) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.MinBy([]string{"a", "ab", "abc"}, func(v1, v2 string) bool { return len(v1) < len(v2) }) result2 := mathutil.MinBy([]string{"ab", "ac", "abc"}, func(v1, v2 string) bool { return len(v1) < len(v2) }) result3 := mathutil.MinBy([]string{}, func(v1, v2 string) bool { return len(v1) < len(v2) }) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // a // ab // } ``` ### Percent

calculate the percentage of val to total, retain n decimal places.

Signature: ```go func Percent(val, total float64, n int) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Percent(1, 2, 2) result2 := mathutil.Percent(0.1, 0.3, 2) result3 := mathutil.Percent(-30305, 408420, 2) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 50 // 33.33 // -7.42 } ``` ### RoundToFloat

Round float up to n decimal places.

Signature: ```go func RoundToFloat(x float64, n int) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.RoundToFloat(0.124, 2) result2 := mathutil.RoundToFloat(0.125, 2) result3 := mathutil.RoundToFloat(0.125, 3) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 0.12 // 0.13 // 0.125 } ``` ### RoundToString

Round float up to n decimal places. will return string.

Signature: ```go func RoundToString(x float64, n int) string ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.RoundToString(0.124, 2) result2 := mathutil.RoundToString(0.125, 2) result3 := mathutil.RoundToString(0.125, 3) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 0.12 // 0.13 // 0.125 } ``` ### TruncRound

Round float off n decimal places.

Signature: ```go func TruncRound(x float64, n int) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.TruncRound(0.124, 2) result2 := mathutil.TruncRound(0.125, 2) result3 := mathutil.TruncRound(0.125, 3) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 0.12 // 0.12 // 0.125 } ``` ### Range

Creates a slice of numbers from start with specified count, element step is 1.

Signature: ```go func Range[T constraints.Integer | constraints.Float](start T, count int) []T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Range(1, 4) result2 := mathutil.Range(1, -4) result3 := mathutil.Range(-4, 4) result4 := mathutil.Range(1.0, 4) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) fmt.Println(result4) // Output: // [1 2 3 4] // [1 2 3 4] // [-4 -3 -2 -1] // [1 2 3 4] } ``` ### RangeWithStep

Creates a slice of numbers from start to end with specified step.

Signature: ```go func RangeWithStep[T constraints.Integer | constraints.Float](start, end, step T) []T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.RangeWithStep(1, 4, 1) result2 := mathutil.RangeWithStep(1, -1, 0) result3 := mathutil.RangeWithStep(-4, 1, 2) result4 := mathutil.RangeWithStep(1.0, 4.0, 1.1) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) fmt.Println(result4) // Output: // [1 2 3] // [] // [-4 -2 0] // [1 2.1 3.2] } ``` ### AngleToRadian

Converts angle value to radian value.

Signature: ```go func AngleToRadian(angle float64) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.AngleToRadian(45) result2 := mathutil.AngleToRadian(90) result3 := mathutil.AngleToRadian(180) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 0.7853981633974483 // 1.5707963267948966 // 3.141592653589793 } ``` ### RadianToAngle

Converts radian value to angle value.

Signature: ```go func RadianToAngle(radian float64) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.RadianToAngle(math.Pi) result2 := mathutil.RadianToAngle(math.Pi / 2) result3 := mathutil.RadianToAngle(math.Pi / 4) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 180 // 90 // 45 } ``` ### PointDistance

Caculates two points distance.

Signature: ```go func PointDistance(x1, y1, x2, y2 float64) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.PointDistance(1, 1, 4, 5) fmt.Println(result1) // Output: // 5 } ``` ### IsPrime

Checks if number is prime number.

Signature: ```go func IsPrime(n int) bool ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.IsPrime(-1) result2 := mathutil.IsPrime(0) result3 := mathutil.IsPrime(1) result4 := mathutil.IsPrime(2) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) fmt.Println(result4) // Output: // false // false // false // true } ``` ### GCD

Return greatest common divisor (GCD) of integers.

Signature: ```go func GCD[T constraints.Integer](integers ...T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.GCD(1, 1) result2 := mathutil.GCD(1, -1) result3 := mathutil.GCD(-1, 1) result4 := mathutil.GCD(-1, -1) result5 := mathutil.GCD(3, 6, 9) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) fmt.Println(result4) fmt.Println(result5) // Output: // 1 // 1 // -1 // -1 // 3 } ``` ### LCM

Return Least Common Multiple (LCM) of integers.

Signature: ```go func LCM[T constraints.Integer](integers ...T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.LCM(1, 1) result2 := mathutil.LCM(1, 2) result3 := mathutil.LCM(3, 6, 9) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 1 // 2 // 18 } ``` ### Cos

Returns the cosine of the radian argument.

Signature: ```go func Cos(radian float64, precision ...int) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Cos(0) result2 := mathutil.Cos(90) result3 := mathutil.Cos(180) result4 := mathutil.Cos(math.Pi) result5 := mathutil.Cos(math.Pi / 2) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) fmt.Println(result4) fmt.Println(result5) // Output: // 1 // -0.447 // -0.598 // -1 // 0 } ``` ### Sin

Returns the sine of the radian argument.

Signature: ```go func Sin(radian float64, precision ...int) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Sin(0) result2 := mathutil.Sin(90) result3 := mathutil.Sin(180) result4 := mathutil.Sin(math.Pi) result5 := mathutil.Sin(math.Pi / 2) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) fmt.Println(result4) fmt.Println(result5) // Output: // 0 // 0.894 // -0.801 // 0 // 1 } ``` ### Log

Returns the logarithm of base n.

Signature: ```go func Log(n, base float64) float64 ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Log(8, 2) result2 := mathutil.TruncRound(mathutil.Log(5, 2), 2) result3 := mathutil.TruncRound(mathutil.Log(27, 3), 0) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 3 // 2.32 // 3 } ``` ### Sum

Returns sum of passed numbers.

Signature: ```go func Sum[T constraints.Integer | constraints.Float](numbers ...T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := mathutil.Sum(1, 2) result2 := mathutil.Sum(0.1, float64(1)) fmt.Println(result1) fmt.Println(result2) // Output: // 3 // 1.1 } ``` ### Abs

Returns the absolute value of x.

Signature: ```go func Abs[T constraints.Integer | constraints.Float](x T) T ``` Example: ```go package main import ( "fmt" "github.com/duke-git/lancet/v2/mathutil" ) func main() { result1 := Abs(-1) result2 := Abs(-0.1) result3 := Abs(float32(0.2)) fmt.Println(result1) fmt.Println(result2) fmt.Println(result3) // Output: // 1 // 0.1 // 0.2 } ```