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https://github.com/superseriousbusiness/gotosocial.git
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752c38b0d5
Bumps [github.com/minio/minio-go/v7](https://github.com/minio/minio-go) from 7.0.48 to 7.0.49. - [Release notes](https://github.com/minio/minio-go/releases) - [Commits](https://github.com/minio/minio-go/compare/v7.0.48...v7.0.49) --- updated-dependencies: - dependency-name: github.com/minio/minio-go/v7 dependency-type: direct:production update-type: version-update:semver-patch ... Signed-off-by: dependabot[bot] <support@github.com> Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
193 lines
4.2 KiB
Go
193 lines
4.2 KiB
Go
package humanize
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/*
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Slightly adapted from the source to fit go-humanize.
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Author: https://github.com/gorhill
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Source: https://gist.github.com/gorhill/5285193
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*/
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import (
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"math"
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"strconv"
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)
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var (
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renderFloatPrecisionMultipliers = [...]float64{
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1,
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10,
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100,
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1000,
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10000,
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100000,
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1000000,
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10000000,
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100000000,
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1000000000,
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}
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renderFloatPrecisionRounders = [...]float64{
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0.5,
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0.05,
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0.005,
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0.0005,
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0.00005,
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0.000005,
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0.0000005,
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0.00000005,
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0.000000005,
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0.0000000005,
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}
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)
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// FormatFloat produces a formatted number as string based on the following user-specified criteria:
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// * thousands separator
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// * decimal separator
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// * decimal precision
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//
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// Usage: s := RenderFloat(format, n)
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// The format parameter tells how to render the number n.
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//
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// See examples: http://play.golang.org/p/LXc1Ddm1lJ
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//
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// Examples of format strings, given n = 12345.6789:
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// "#,###.##" => "12,345.67"
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// "#,###." => "12,345"
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// "#,###" => "12345,678"
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// "#\u202F###,##" => "12 345,68"
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// "#.###,###### => 12.345,678900
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// "" (aka default format) => 12,345.67
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//
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// The highest precision allowed is 9 digits after the decimal symbol.
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// There is also a version for integer number, FormatInteger(),
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// which is convenient for calls within template.
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func FormatFloat(format string, n float64) string {
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// Special cases:
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// NaN = "NaN"
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// +Inf = "+Infinity"
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// -Inf = "-Infinity"
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if math.IsNaN(n) {
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return "NaN"
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}
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if n > math.MaxFloat64 {
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return "Infinity"
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}
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if n < (0.0 - math.MaxFloat64) {
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return "-Infinity"
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}
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// default format
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precision := 2
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decimalStr := "."
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thousandStr := ","
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positiveStr := ""
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negativeStr := "-"
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if len(format) > 0 {
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format := []rune(format)
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// If there is an explicit format directive,
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// then default values are these:
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precision = 9
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thousandStr = ""
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// collect indices of meaningful formatting directives
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formatIndx := []int{}
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for i, char := range format {
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if char != '#' && char != '0' {
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formatIndx = append(formatIndx, i)
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}
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}
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if len(formatIndx) > 0 {
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// Directive at index 0:
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// Must be a '+'
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// Raise an error if not the case
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// index: 0123456789
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// +0.000,000
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// +000,000.0
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// +0000.00
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// +0000
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if formatIndx[0] == 0 {
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if format[formatIndx[0]] != '+' {
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panic("RenderFloat(): invalid positive sign directive")
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}
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positiveStr = "+"
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formatIndx = formatIndx[1:]
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}
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// Two directives:
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// First is thousands separator
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// Raise an error if not followed by 3-digit
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// 0123456789
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// 0.000,000
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// 000,000.00
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if len(formatIndx) == 2 {
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if (formatIndx[1] - formatIndx[0]) != 4 {
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panic("RenderFloat(): thousands separator directive must be followed by 3 digit-specifiers")
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}
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thousandStr = string(format[formatIndx[0]])
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formatIndx = formatIndx[1:]
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}
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// One directive:
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// Directive is decimal separator
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// The number of digit-specifier following the separator indicates wanted precision
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// 0123456789
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// 0.00
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// 000,0000
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if len(formatIndx) == 1 {
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decimalStr = string(format[formatIndx[0]])
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precision = len(format) - formatIndx[0] - 1
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}
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}
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}
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// generate sign part
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var signStr string
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if n >= 0.000000001 {
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signStr = positiveStr
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} else if n <= -0.000000001 {
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signStr = negativeStr
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n = -n
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} else {
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signStr = ""
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n = 0.0
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}
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// split number into integer and fractional parts
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intf, fracf := math.Modf(n + renderFloatPrecisionRounders[precision])
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// generate integer part string
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intStr := strconv.FormatInt(int64(intf), 10)
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// add thousand separator if required
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if len(thousandStr) > 0 {
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for i := len(intStr); i > 3; {
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i -= 3
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intStr = intStr[:i] + thousandStr + intStr[i:]
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}
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}
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// no fractional part, we can leave now
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if precision == 0 {
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return signStr + intStr
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}
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// generate fractional part
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fracStr := strconv.Itoa(int(fracf * renderFloatPrecisionMultipliers[precision]))
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// may need padding
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if len(fracStr) < precision {
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fracStr = "000000000000000"[:precision-len(fracStr)] + fracStr
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}
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return signStr + intStr + decimalStr + fracStr
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}
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// FormatInteger produces a formatted number as string.
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// See FormatFloat.
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func FormatInteger(format string, n int) string {
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return FormatFloat(format, float64(n))
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}
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