mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-11 20:12:45 +00:00
516 lines
12 KiB
Go
516 lines
12 KiB
Go
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package minify
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import (
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"bytes"
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"encoding/base64"
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"github.com/tdewolff/parse/v2"
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"github.com/tdewolff/parse/v2/strconv"
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)
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var (
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textMimeBytes = []byte("text/plain")
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charsetASCIIBytes = []byte("charset=us-ascii")
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dataBytes = []byte("data:")
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base64Bytes = []byte(";base64")
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)
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// Epsilon is the closest number to zero that is not considered to be zero.
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var Epsilon = 0.00001
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// Mediatype minifies a given mediatype by removing all whitespace.
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func Mediatype(b []byte) []byte {
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j := 0
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start := 0
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inString := false
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for i, c := range b {
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if !inString && parse.IsWhitespace(c) {
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if start != 0 {
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j += copy(b[j:], b[start:i])
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} else {
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j += i
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}
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start = i + 1
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} else if c == '"' {
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inString = !inString
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}
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}
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if start != 0 {
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j += copy(b[j:], b[start:])
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return parse.ToLower(b[:j])
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}
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return parse.ToLower(b)
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}
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// DataURI minifies a data URI and calls a minifier by the specified mediatype. Specifications: https://www.ietf.org/rfc/rfc2397.txt.
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func DataURI(m *M, dataURI []byte) []byte {
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origData := parse.Copy(dataURI)
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mediatype, data, err := parse.DataURI(dataURI)
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if err != nil {
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return dataURI
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}
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data, _ = m.Bytes(string(mediatype), data)
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base64Len := len(";base64") + base64.StdEncoding.EncodedLen(len(data))
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asciiLen := len(data)
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for _, c := range data {
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if parse.DataURIEncodingTable[c] {
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asciiLen += 2
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}
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if asciiLen > base64Len {
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break
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}
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}
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if len(origData) < base64Len && len(origData) < asciiLen {
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return origData
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}
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if base64Len < asciiLen {
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encoded := make([]byte, base64Len-len(";base64"))
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base64.StdEncoding.Encode(encoded, data)
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data = encoded
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mediatype = append(mediatype, base64Bytes...)
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} else {
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data = parse.EncodeURL(data, parse.DataURIEncodingTable)
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}
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if len("text/plain") <= len(mediatype) && parse.EqualFold(mediatype[:len("text/plain")], textMimeBytes) {
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mediatype = mediatype[len("text/plain"):]
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}
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for i := 0; i+len(";charset=us-ascii") <= len(mediatype); i++ {
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// must start with semicolon and be followed by end of mediatype or semicolon
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if mediatype[i] == ';' && parse.EqualFold(mediatype[i+1:i+len(";charset=us-ascii")], charsetASCIIBytes) && (i+len(";charset=us-ascii") >= len(mediatype) || mediatype[i+len(";charset=us-ascii")] == ';') {
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mediatype = append(mediatype[:i], mediatype[i+len(";charset=us-ascii"):]...)
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break
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}
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}
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return append(append(append(dataBytes, mediatype...), ','), data...)
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}
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// MaxInt is the maximum value of int.
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const MaxInt = int(^uint(0) >> 1)
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// MinInt is the minimum value of int.
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const MinInt = -MaxInt - 1
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// Decimal minifies a given byte slice containing a decimal and removes superfluous characters. It differs from Number in that it does not parse exponents.
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// It does not parse or output exponents. prec is the number of significant digits. When prec is zero it will keep all digits. Only digits after the dot can be removed to reach the number of significant digits. Very large number may thus have more significant digits.
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func Decimal(num []byte, prec int) []byte {
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if len(num) <= 1 {
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return num
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}
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// omit first + and register mantissa start and end, whether it's negative and the exponent
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neg := false
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start := 0
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dot := -1
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end := len(num)
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if 0 < end && (num[0] == '+' || num[0] == '-') {
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if num[0] == '-' {
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neg = true
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}
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start++
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}
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for i, c := range num[start:] {
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if c == '.' {
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dot = start + i
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break
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}
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}
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if dot == -1 {
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dot = end
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}
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// trim leading zeros but leave at least one digit
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for start < end-1 && num[start] == '0' {
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start++
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}
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// trim trailing zeros
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i := end - 1
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for ; dot < i; i-- {
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if num[i] != '0' {
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end = i + 1
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break
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}
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}
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if i == dot {
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end = dot
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if start == end {
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num[start] = '0'
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return num[start : start+1]
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}
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} else if start == end-1 && num[start] == '0' {
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return num[start:end]
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}
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// apply precision
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if 0 < prec && dot <= start+prec {
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precEnd := start + prec + 1 // include dot
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if dot == start { // for numbers like .012
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digit := start + 1
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for digit < end && num[digit] == '0' {
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digit++
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}
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precEnd = digit + prec
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}
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if precEnd < end {
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end = precEnd
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// process either an increase from a lesser significant decimal (>= 5)
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// or remove trailing zeros after the dot, or both
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i := end - 1
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inc := '5' <= num[end]
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for ; start < i; i-- {
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if i == dot {
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// no-op
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} else if inc && num[i] != '9' {
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num[i]++
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inc = false
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break
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} else if inc && i < dot { // end inc for integer
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num[i] = '0'
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} else if !inc && (i < dot || num[i] != '0') {
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break
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}
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}
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if i < dot {
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end = dot
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} else {
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end = i + 1
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}
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if inc {
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if dot == start && end == start+1 {
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num[start] = '1'
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} else if num[start] == '9' {
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num[start] = '1'
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num[start+1] = '0'
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end++
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} else {
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num[start]++
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}
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}
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}
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}
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if neg {
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start--
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num[start] = '-'
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}
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return num[start:end]
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}
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// Number minifies a given byte slice containing a number and removes superfluous characters.
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func Number(num []byte, prec int) []byte {
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if len(num) <= 1 {
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return num
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}
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// omit first + and register mantissa start and end, whether it's negative and the exponent
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neg := false
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start := 0
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dot := -1
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end := len(num)
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origExp := 0
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if num[0] == '+' || num[0] == '-' {
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if num[0] == '-' {
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neg = true
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}
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start++
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}
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for i, c := range num[start:] {
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if c == '.' {
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dot = start + i
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} else if c == 'e' || c == 'E' {
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end = start + i
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i += start + 1
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if i < len(num) && num[i] == '+' {
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i++
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}
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if tmpOrigExp, n := strconv.ParseInt(num[i:]); 0 < n && int64(MinInt) <= tmpOrigExp && tmpOrigExp <= int64(MaxInt) {
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// range checks for when int is 32 bit
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origExp = int(tmpOrigExp)
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} else {
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return num
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}
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break
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}
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}
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if dot == -1 {
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dot = end
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}
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// trim leading zeros but leave at least one digit
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for start < end-1 && num[start] == '0' {
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start++
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}
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// trim trailing zeros
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i := end - 1
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for ; dot < i; i-- {
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if num[i] != '0' {
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end = i + 1
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break
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}
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}
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if i == dot {
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end = dot
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if start == end {
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num[start] = '0'
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return num[start : start+1]
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}
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} else if start == end-1 && num[start] == '0' {
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return num[start:end]
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}
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// apply precision
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if 0 < prec { //&& (dot <= start+prec || start+prec+1 < dot || 0 < origExp) { // don't minify 9 to 10, but do 999 to 1e3 and 99e1 to 1e3
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precEnd := start + prec
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if dot == start { // for numbers like .012
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digit := start + 1
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for digit < end && num[digit] == '0' {
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digit++
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}
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precEnd = digit + prec
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} else if dot < precEnd { // for numbers where precision will include the dot
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precEnd++
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}
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if precEnd < end && (dot < end || 1 < dot-precEnd+origExp) { // do not minify 9=>10 or 99=>100 or 9e1=>1e2 (but 90), but 999=>1e3 and 99e1=>1e3
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end = precEnd
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inc := '5' <= num[end]
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if dot == end {
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inc = end+1 < len(num) && '5' <= num[end+1]
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}
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if precEnd < dot {
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origExp += dot - precEnd
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dot = precEnd
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}
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// process either an increase from a lesser significant decimal (>= 5)
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// and remove trailing zeros
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i := end - 1
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for ; start < i; i-- {
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if i == dot {
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// no-op
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} else if inc && num[i] != '9' {
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num[i]++
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inc = false
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break
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} else if !inc && num[i] != '0' {
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break
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}
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}
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end = i + 1
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if end < dot {
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origExp += dot - end
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dot = end
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}
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if inc { // single digit left
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if dot == start {
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num[start] = '1'
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dot = start + 1
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} else if num[start] == '9' {
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num[start] = '1'
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origExp++
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} else {
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num[start]++
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}
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}
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}
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}
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// n is the number of significant digits
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// normExp would be the exponent if it were normalised (0.1 <= f < 1)
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n := 0
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normExp := 0
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if dot == start {
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for i = dot + 1; i < end; i++ {
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if num[i] != '0' {
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n = end - i
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normExp = dot - i + 1
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break
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}
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}
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} else if dot == end {
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normExp = end - start
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for i = end - 1; start <= i; i-- {
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if num[i] != '0' {
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n = i + 1 - start
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end = i + 1
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break
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}
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}
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} else {
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n = end - start - 1
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normExp = dot - start
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}
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if origExp < 0 && (normExp < MinInt-origExp || normExp-n < MinInt-origExp) || 0 < origExp && (MaxInt-origExp < normExp || MaxInt-origExp < normExp-n) {
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return num // exponent overflow
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}
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normExp += origExp
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// intExp would be the exponent if it were an integer
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intExp := normExp - n
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lenIntExp := strconv.LenInt(int64(intExp))
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lenNormExp := strconv.LenInt(int64(normExp))
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// there are three cases to consider when printing the number
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// case 1: without decimals and with a positive exponent (large numbers: 5e4)
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// case 2: with decimals and with a negative exponent (small numbers with many digits: .123456e-4)
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// case 3: with decimals and without an exponent (around zero: 5.6)
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// case 4: without decimals and with a negative exponent (small numbers: 123456e-9)
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if n <= normExp {
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// case 1: print number with positive exponent
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if dot < end {
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// remove dot, either from the front or copy the smallest part
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if dot == start {
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start = end - n
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} else if dot-start < end-dot-1 {
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copy(num[start+1:], num[start:dot])
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start++
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} else {
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copy(num[dot:], num[dot+1:end])
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end--
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}
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}
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if n+3 <= normExp {
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num[end] = 'e'
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end++
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for i := end + lenIntExp - 1; end <= i; i-- {
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num[i] = byte(intExp%10) + '0'
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intExp /= 10
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}
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end += lenIntExp
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} else if n+2 == normExp {
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num[end] = '0'
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num[end+1] = '0'
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end += 2
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} else if n+1 == normExp {
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num[end] = '0'
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end++
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}
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} else if normExp < -3 && lenNormExp < lenIntExp && dot < end {
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// case 2: print normalized number (0.1 <= f < 1)
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zeroes := -normExp + origExp
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if 0 < zeroes {
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copy(num[start+1:], num[start+1+zeroes:end])
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end -= zeroes
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} else if zeroes < 0 {
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copy(num[start+1:], num[start:dot])
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num[start] = '.'
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}
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num[end] = 'e'
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num[end+1] = '-'
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end += 2
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for i := end + lenNormExp - 1; end <= i; i-- {
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num[i] = -byte(normExp%10) + '0'
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normExp /= 10
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}
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end += lenNormExp
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} else if -lenIntExp-1 <= normExp {
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// case 3: print number without exponent
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zeroes := -normExp
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if 0 < zeroes {
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// dot placed at the front and negative exponent, adding zeroes
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newDot := end - n - zeroes - 1
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if newDot != dot {
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d := start - newDot
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if 0 < d {
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if dot < end {
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// copy original digits after the dot towards the end
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copy(num[dot+1+d:], num[dot+1:end])
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if start < dot {
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// copy original digits before the dot towards the end
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copy(num[start+d+1:], num[start:dot])
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}
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} else if start < dot {
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// copy original digits before the dot towards the end
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copy(num[start+d:], num[start:dot])
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}
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newDot = start
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end += d
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} else {
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start += -d
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}
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num[newDot] = '.'
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for i := 0; i < zeroes; i++ {
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num[newDot+1+i] = '0'
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}
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}
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} else {
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// dot placed in the middle of the number
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if dot == start {
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// when there are zeroes after the dot
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dot = end - n - 1
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start = dot
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} else if end <= dot {
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// when input has no dot in it
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dot = end
|
||
|
end++
|
||
|
}
|
||
|
newDot := start + normExp
|
||
|
// move digits between dot and newDot towards the end
|
||
|
if dot < newDot {
|
||
|
copy(num[dot:], num[dot+1:newDot+1])
|
||
|
} else if newDot < dot {
|
||
|
copy(num[newDot+1:], num[newDot:dot])
|
||
|
}
|
||
|
num[newDot] = '.'
|
||
|
}
|
||
|
} else {
|
||
|
// case 4: print number with negative exponent
|
||
|
// find new end, considering moving numbers to the front, removing the dot and increasing the length of the exponent
|
||
|
newEnd := end
|
||
|
if dot == start {
|
||
|
newEnd = start + n
|
||
|
} else {
|
||
|
newEnd--
|
||
|
}
|
||
|
newEnd += 2 + lenIntExp
|
||
|
|
||
|
exp := intExp
|
||
|
lenExp := lenIntExp
|
||
|
if newEnd < len(num) {
|
||
|
// it saves space to convert the decimal to an integer and decrease the exponent
|
||
|
if dot < end {
|
||
|
if dot == start {
|
||
|
copy(num[start:], num[end-n:end])
|
||
|
end = start + n
|
||
|
} else {
|
||
|
copy(num[dot:], num[dot+1:end])
|
||
|
end--
|
||
|
}
|
||
|
}
|
||
|
} else {
|
||
|
// it does not save space and will panic, so we revert to the original representation
|
||
|
exp = origExp
|
||
|
lenExp = 1
|
||
|
if origExp <= -10 || 10 <= origExp {
|
||
|
lenExp = strconv.LenInt(int64(origExp))
|
||
|
}
|
||
|
}
|
||
|
num[end] = 'e'
|
||
|
num[end+1] = '-'
|
||
|
end += 2
|
||
|
for i := end + lenExp - 1; end <= i; i-- {
|
||
|
num[i] = -byte(exp%10) + '0'
|
||
|
exp /= 10
|
||
|
}
|
||
|
end += lenExp
|
||
|
}
|
||
|
|
||
|
if neg {
|
||
|
start--
|
||
|
num[start] = '-'
|
||
|
}
|
||
|
return num[start:end]
|
||
|
}
|
||
|
|
||
|
func UpdateErrorPosition(err error, input *parse.Input, offset int) error {
|
||
|
if perr, ok := err.(*parse.Error); ok {
|
||
|
r := bytes.NewBuffer(input.Bytes())
|
||
|
line, column, _ := parse.Position(r, offset)
|
||
|
perr.Line += line - 1
|
||
|
perr.Column += column - 1
|
||
|
return perr
|
||
|
}
|
||
|
return err
|
||
|
}
|