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https://github.com/superseriousbusiness/gotosocial.git
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9d0df426da
* feat: vendor minio client * feat: introduce storage package with s3 support * feat: serve s3 files directly this saves a lot of bandwith as the files are fetched from the object store directly * fix: use explicit local storage in tests * feat: integrate s3 storage with the main server * fix: add s3 config to cli tests * docs: explicitly set values in example config also adds license header to the storage package * fix: use better http status code on s3 redirect HTTP 302 Found is the best fit, as it signifies that the resource requested was found but not under its presumed URL 307/TemporaryRedirect would mean that this resource is usually located here, not in this case 303/SeeOther indicates that the redirection does not link to the requested resource but to another page * refactor: use context in storage driver interface
192 lines
4.2 KiB
Go
192 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 < -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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