matterbridge/vendor/github.com/av-elier/go-decimal-to-rational/README.md

# go-decimal-to-rational

[![Build Status](https://travis-ci.org/av-elier/go-decimal-to-rational.svg?branch=master)](https://travis-ci.org/av-elier/go-decimal-to-rational)

Go library to convert decimal (float64) to rational fraction with required precision

Relies on [Continued Fraction](http://mathworld.wolfram.com/ContinuedFraction.html) algorythm.

It's sometimes more appropriate than default big.Rat SetString, because
you can get `2/3` from `0.6666` by specifiing required precision. In big.Rat SetString
you can only get `3333/50000`, and have no way to manipulate than (as of go 1.11).

# Example
```go
func ExampleNewRatP() {
	fmt.Println(NewRatP(0.6666, 0.01).String())
	fmt.Println(NewRatP(0.981, 0.001).String())
	fmt.Println(NewRatP(0.75, 0.01).String())
	// Output:
	// 2/3
	// 981/1000
	// 3/4
}
```
```go
func ExampleNewRatI() {
	fmt.Println(NewRatI(0.6667, 3).String())
	fmt.Println(NewRatI(0.6667, 4).String())
	// Output:
	// 2/3
	// 6667/10000
}
```

# Docs
```
import dectofrac "github.com/av-elier/go-decimal-to-rational"
```

#### func NewRatI

```go
func NewRatI(val float64, iterations int64) *big.Rat
```
NewRatI returns rational from decimal using `iterations` number of
iterations in Continued Fraction algorythm

#### func NewRatP

```go
func NewRatP(val float64, stepPrecision float64) *big.Rat
```
NewRatP returns rational from decimal by going as mush iterations, until
next fraction is less than `stepPrecision`
Convert .tgs with go libraries (and cgo) (telegram) (#1569) This commit adds support for go/cgo tgs conversion when building with the -tags `cgo` The default binaries are still "pure" go and uses the old way of converting. * Move lottie_convert.py conversion code to its own file * Add optional libtgsconverter * Update vendor * Apply suggestions from code review * Update bridge/helper/libtgsconverter.go Co-authored-by: Wim <wim@42.be> 2021-08-24 20:32:50 +00:00			`# go-decimal-to-rational`

			`[![Build Status](https://travis-ci.org/av-elier/go-decimal-to-rational.svg?branch=master)](https://travis-ci.org/av-elier/go-decimal-to-rational)`

			`Go library to convert decimal (float64) to rational fraction with required precision`

			`Relies on [Continued Fraction](http://mathworld.wolfram.com/ContinuedFraction.html) algorythm.`

			`It's sometimes more appropriate than default big.Rat SetString, because`
			you can get `2/3` from `0.6666` by specifiing required precision. In big.Rat SetString
			you can only get `3333/50000`, and have no way to manipulate than (as of go 1.11).

			`# Example`
			```go
			`func ExampleNewRatP() {`
			`fmt.Println(NewRatP(0.6666, 0.01).String())`
			`fmt.Println(NewRatP(0.981, 0.001).String())`
			`fmt.Println(NewRatP(0.75, 0.01).String())`
			`// Output:`
			`// 2/3`
			`// 981/1000`
			`// 3/4`
			`}`
			```
			```go
			`func ExampleNewRatI() {`
			`fmt.Println(NewRatI(0.6667, 3).String())`
			`fmt.Println(NewRatI(0.6667, 4).String())`
			`// Output:`
			`// 2/3`
			`// 6667/10000`
			`}`
			```

			`# Docs`
			```
			`import dectofrac "github.com/av-elier/go-decimal-to-rational"`
			```

			`#### func NewRatI`

			```go
			`func NewRatI(val float64, iterations int64) *big.Rat`
			```
			NewRatI returns rational from decimal using `iterations` number of
			`iterations in Continued Fraction algorythm`

			`#### func NewRatP`

			```go
			`func NewRatP(val float64, stepPrecision float64) *big.Rat`
			```
			`NewRatP returns rational from decimal by going as mush iterations, until`
			next fraction is less than `stepPrecision`