mirror of
https://github.com/cwinfo/matterbridge.git
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634 lines
19 KiB
Go
634 lines
19 KiB
Go
// Copyright 2020 The Libc Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package libc // import "modernc.org/libc"
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import (
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"bytes"
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"fmt"
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"runtime"
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"strconv"
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"strings"
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"unsafe"
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)
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const (
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modNone = iota
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modHH
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modH
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modL
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modLL
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modLD
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modQ
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modCapitalL
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modJ
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modZ
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modCapitalZ
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modT
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mod32
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mod64
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)
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// Format of the format string
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//
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// The format string is a character string, beginning and ending in its initial
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// shift state, if any. The format string is composed of zero or more
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// directives: ordinary characters (not %), which are copied unchanged to
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// the output stream; and conversion specifications, each of which results in
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// fetching zero or more subsequent arguments.
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func printf(format, args uintptr) []byte {
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format0 := format
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args0 := args
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buf := bytes.NewBuffer(nil)
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for {
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switch c := *(*byte)(unsafe.Pointer(format)); c {
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case '%':
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format = printfConversion(buf, format, &args)
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case 0:
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if dmesgs {
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dmesg("%v: %q, %#x -> %q", origin(1), GoString(format0), args0, buf.Bytes())
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}
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return buf.Bytes()
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default:
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format++
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buf.WriteByte(c)
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}
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}
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}
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// Each conversion specification is introduced by the character %, and ends
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// with a conversion specifier. In between there may be (in this order) zero
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// or more flags, an optional minimum field width, an optional precision and
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// an optional length modifier.
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func printfConversion(buf *bytes.Buffer, format uintptr, args *uintptr) uintptr {
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format++ // '%'
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spec := "%"
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// Flags characters
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//
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// The character % is followed by zero or more of the following flags:
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flags:
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for {
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switch c := *(*byte)(unsafe.Pointer(format)); c {
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case '#':
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// The value should be converted to an "alternate form". For o conversions,
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// the first character of the output string is made zero (by prefixing a 0 if
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// it was not zero already). For x and X conversions, a nonzero result has
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// the string "0x" (or "0X" for X conversions) prepended to it. For a, A, e,
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// E, f, F, g, and G conversions, the result will always contain a decimal
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// point, even if no digits follow it (normally, a decimal point appears in the
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// results of those conversions only if a digit follows). For g and G
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// conversions, trailing zeros are not removed from the result as they would
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// otherwise be. For other conversions, the result is undefined.
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format++
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spec += "#"
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case '0':
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// The value should be zero padded. For d, i, o, u, x, X, a, A, e, E, f, F,
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// g, and G conversions, the converted value is padded on the left with zeros
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// rather than blanks. If the 0 and - flags both appear, the 0 flag is
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// ignored. If a precision is given with a numeric conversion (d, i, o, u, x,
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// and X), the 0 flag is ignored. For other conversions, the behav‐ ior is
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// undefined.
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format++
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spec += "0"
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case '-':
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// The converted value is to be left adjusted on the field boundary. (The
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// default is right justification.) The converted value is padded on the right
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// with blanks, rather than on the left with blanks or zeros. A - overrides a
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// 0 if both are given.
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format++
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spec += "-"
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case ' ':
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// A blank should be left before a positive number (or empty string) produced
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// by a signed conversion.
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format++
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spec += " "
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case '+':
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// A sign (+ or -) should always be placed before a number produced by a signed
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// conversion. By default, a sign is used only for negative numbers. A +
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// overrides a space if both are used.
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format++
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spec += "+"
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default:
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break flags
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}
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}
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format, width, hasWidth := parseFieldWidth(format)
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if hasWidth {
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spec += strconv.Itoa(width)
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}
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format, prec, hasPrecision := parsePrecision(format, args)
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format, mod := parseLengthModifier(format)
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var str string
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more:
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// Conversion specifiers
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//
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// A character that specifies the type of conversion to be applied. The
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// conversion specifiers and their meanings are:
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switch c := *(*byte)(unsafe.Pointer(format)); c {
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case 'd', 'i':
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// The int argument is converted to signed decimal notation. The precision,
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// if any, gives the minimum number of digits that must appear; if the
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// converted value requires fewer digits, it is padded on the left with zeros.
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// The default precision is 1. When 0 is printed with an explicit precision 0,
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// the output is empty.
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format++
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var arg int64
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if isWindows && mod == modL {
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mod = modNone
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}
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switch mod {
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case modL, modLL, mod64:
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arg = VaInt64(args)
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case modH:
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arg = int64(int16(VaInt32(args)))
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case modHH:
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arg = int64(int8(VaInt32(args)))
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case mod32, modNone:
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arg = int64(VaInt32(args))
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default:
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panic(todo("", mod))
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}
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if arg == 0 && hasPrecision && prec == 0 {
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break
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}
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if hasPrecision {
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panic(todo("", prec))
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}
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f := spec + "d"
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str = fmt.Sprintf(f, arg)
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case 'u':
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// The unsigned int argument is converted to unsigned decimal notation. The
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// precision, if any, gives the minimum number of digits that must appear; if
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// the converted value requires fewer digits, it is padded on the left with
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// zeros. The default precision is 1. When 0 is printed with an explicit
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// precision 0, the output is empty.
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format++
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var arg uint64
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if isWindows && mod == modL {
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mod = modNone
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}
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switch mod {
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case modNone:
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arg = uint64(VaUint32(args))
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case modL, modLL, mod64:
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arg = VaUint64(args)
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case modH:
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arg = uint64(uint16(VaInt32(args)))
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case modHH:
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arg = uint64(uint8(VaInt32(args)))
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case mod32:
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arg = uint64(VaInt32(args))
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default:
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panic(todo("", mod))
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}
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if arg == 0 && hasPrecision && prec == 0 {
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break
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}
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if hasPrecision {
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panic(todo("", prec))
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}
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f := spec + "d"
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str = fmt.Sprintf(f, arg)
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case 'o':
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// The unsigned int argument is converted to unsigned octal notation. The
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// precision, if any, gives the minimum number of digits that must appear; if
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// the converted value requires fewer digits, it is padded on the left with
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// zeros. The default precision is 1. When 0 is printed with an explicit
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// precision 0, the output is empty.
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format++
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var arg uint64
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if isWindows && mod == modL {
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mod = modNone
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}
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switch mod {
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case modNone:
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arg = uint64(VaUint32(args))
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case modL, modLL, mod64:
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arg = VaUint64(args)
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case modH:
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arg = uint64(uint16(VaInt32(args)))
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case modHH:
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arg = uint64(uint8(VaInt32(args)))
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case mod32:
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arg = uint64(VaInt32(args))
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default:
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panic(todo("", mod))
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}
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if arg == 0 && hasPrecision && prec == 0 {
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break
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}
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if hasPrecision {
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panic(todo("", prec))
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}
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f := spec + "o"
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str = fmt.Sprintf(f, arg)
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case 'I':
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if !isWindows {
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panic(todo("%#U", c))
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}
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format++
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switch c = *(*byte)(unsafe.Pointer(format)); c {
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case 'x', 'X':
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// https://docs.microsoft.com/en-us/windows/win32/api/winuser/nf-winuser-wsprintfa
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//
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// Ix, IX
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//
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// 64-bit unsigned hexadecimal integer in lowercase or uppercase on 64-bit
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// platforms, 32-bit unsigned hexadecimal integer in lowercase or uppercase on
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// 32-bit platforms.
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if unsafe.Sizeof(int(0)) == 4 {
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mod = mod32
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}
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case '3':
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// https://en.wikipedia.org/wiki/Printf_format_string#Length_field
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//
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// I32 For integer types, causes printf to expect a 32-bit (double word) integer argument.
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format++
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switch c = *(*byte)(unsafe.Pointer(format)); c {
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case '2':
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format++
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mod = mod32
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goto more
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default:
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panic(todo("%#U", c))
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}
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case '6':
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// https://en.wikipedia.org/wiki/Printf_format_string#Length_field
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//
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// I64 For integer types, causes printf to expect a 64-bit (quad word) integer argument.
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format++
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switch c = *(*byte)(unsafe.Pointer(format)); c {
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case '4':
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format++
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mod = mod64
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goto more
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default:
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panic(todo("%#U", c))
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}
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default:
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panic(todo("%#U", c))
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}
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fallthrough
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case 'X':
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fallthrough
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case 'x':
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// The unsigned int argument is converted to unsigned hexadecimal notation.
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// The letters abcdef are used for x conversions; the letters ABCDEF are used
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// for X conversions. The precision, if any, gives the minimum number of
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// digits that must appear; if the converted value requires fewer digits, it is
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// padded on the left with zeros. The default precision is 1. When 0 is
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// printed with an explicit precision 0, the output is empty.
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format++
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var arg uint64
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if isWindows && mod == modL {
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mod = modNone
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}
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switch mod {
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case modNone:
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arg = uint64(VaUint32(args))
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case modL, modLL, mod64:
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arg = VaUint64(args)
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case modH:
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arg = uint64(uint16(VaInt32(args)))
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case modHH:
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arg = uint64(uint8(VaInt32(args)))
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case mod32:
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arg = uint64(VaInt32(args))
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default:
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panic(todo("", mod))
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}
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if arg == 0 && hasPrecision && prec == 0 {
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break
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}
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if strings.Contains(spec, "#") && arg == 0 {
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spec = strings.ReplaceAll(spec, "#", "")
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}
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var f string
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switch {
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case hasPrecision:
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f = fmt.Sprintf("%s.%d%c", spec, prec, c)
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default:
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f = spec + string(c)
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}
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str = fmt.Sprintf(f, arg)
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case 'e', 'E':
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// The double argument is rounded and converted in the style [-]d.ddde±dd where
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// there is one digit before the decimal-point character and the number of
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// digits after it is equal to the precision; if the precision is missing, it
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// is taken as 6; if the precision is zero, no decimal-point character appears.
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// An E conversion uses the letter E (rather than e) to intro‐ duce the
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// exponent. The exponent always contains at least two digits; if the value is
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// zero, the exponent is 00.
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format++
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arg := VaFloat64(args)
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if !hasPrecision {
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prec = 6
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}
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f := fmt.Sprintf("%s.%d%c", spec, prec, c)
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str = fmt.Sprintf(f, arg)
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case 'f', 'F':
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// The double argument is rounded and converted to decimal notation in the
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// style [-]ddd.ddd, where the number of digits after the decimal-point
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// character is equal to the precision specification. If the precision
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// is missing, it is taken as 6; if the precision is explicitly zero, no
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// decimal-point character appears. If a decimal point appears, at least one
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// digit appears before it.
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format++
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arg := VaFloat64(args)
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if !hasPrecision {
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prec = 6
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}
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f := fmt.Sprintf("%s.%d%c", spec, prec, c)
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str = fixNanInf(fmt.Sprintf(f, arg))
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case 'G':
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fallthrough
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case 'g':
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// The double argument is converted in style f or e (or F or E for G
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// conversions). The precision specifies the number of significant digits. If
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// the precision is missing, 6 digits are given; if the precision is zero, it
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// is treated as 1. Style e is used if the exponent from its conversion is
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// less than -4 or greater than or equal to the precision. Trailing zeros are
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// removed from the fractional part of the result; a decimal point appears only
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// if it is followed by at least one digit.
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format++
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arg := VaFloat64(args)
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if !hasPrecision {
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prec = 6
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}
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if prec == 0 {
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prec = 1
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}
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f := fmt.Sprintf("%s.%d%c", spec, prec, c)
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str = fixNanInf(fmt.Sprintf(f, arg))
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case 's':
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// If no l modifier is present: the const char * argument is expected to be a
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// pointer to an array of character type (pointer to a string). Characters
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// from the array are written up to (but not including) a terminating null byte
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// ('\0'); if a precision is specified, no more than the number specified are
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// written. If a precision is given, no null byte need be present; if
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// the precision is not specified, or is greater than the size of the array,
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// the array must contain a terminating null byte.
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//
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// If an l modifier is present: the const wchar_t * argument is expected
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// to be a pointer to an array of wide characters. Wide characters from the
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// array are converted to multibyte characters (each by a call to the
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// wcrtomb(3) function, with a conversion state starting in the initial state
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// before the first wide character), up to and including a terminating null
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// wide character. The resulting multibyte characters are written up to
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// (but not including) the terminating null byte. If a precision is specified,
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// no more bytes than the number specified are written, but no partial
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// multibyte characters are written. Note that the precision determines the
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// number of bytes written, not the number of wide characters or screen
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// positions. The array must contain a terminating null wide character,
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// unless a precision is given and it is so small that the number of bytes
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// written exceeds it before the end of the array is reached.
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format++
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arg := VaUintptr(args)
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switch mod {
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case modNone:
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var f string
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switch {
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case hasPrecision:
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f = fmt.Sprintf("%s.%ds", spec, prec)
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str = fmt.Sprintf(f, GoString(arg))
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default:
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f = spec + "s"
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str = fmt.Sprintf(f, GoString(arg))
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}
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default:
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panic(todo(""))
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}
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case 'p':
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// The void * pointer argument is printed in hexadecimal (as if by %#x or
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// %#lx).
|
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format++
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switch runtime.GOOS {
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case "windows":
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switch runtime.GOARCH {
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case "386", "arm":
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fmt.Fprintf(buf, "%08X", VaUintptr(args))
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default:
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fmt.Fprintf(buf, "%016X", VaUintptr(args))
|
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}
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default:
|
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fmt.Fprintf(buf, "%#0x", VaUintptr(args))
|
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}
|
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case 'c':
|
||
// If no l modifier is present, the int argument is converted to an unsigned
|
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// char, and the resulting character is written. If an l modifier is present,
|
||
// the wint_t (wide character) ar‐ gument is converted to a multibyte sequence
|
||
// by a call to the wcrtomb(3) function, with a conversion state starting in
|
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// the initial state, and the resulting multibyte string is writ‐ ten.
|
||
format++
|
||
switch mod {
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case modNone:
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arg := VaInt32(args)
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buf.WriteByte(byte(arg))
|
||
default:
|
||
panic(todo(""))
|
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}
|
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case '%':
|
||
// A '%' is written. No argument is converted. The complete conversion
|
||
// specification is '%%'.
|
||
format++
|
||
buf.WriteByte('%')
|
||
default:
|
||
panic(todo("%#U", c))
|
||
}
|
||
|
||
buf.WriteString(str)
|
||
return format
|
||
}
|
||
|
||
// Field width
|
||
//
|
||
// An optional decimal digit string (with nonzero first digit) specifying a
|
||
// minimum field width. If the converted value has fewer characters than the
|
||
// field width, it will be padded with spa‐ ces on the left (or right, if the
|
||
// left-adjustment flag has been given). Instead of a decimal digit string one
|
||
// may write "*" or "*m$" (for some decimal integer m) to specify that the
|
||
// field width is given in the next argument, or in the m-th argument,
|
||
// respectively, which must be of type int. A negative field width is taken as
|
||
// a '-' flag followed by a positive field width. In no case does a
|
||
// nonexistent or small field width cause truncation of a field; if the result
|
||
// of a conversion is wider than the field width, the field is expanded to
|
||
// contain the conversion result.
|
||
func parseFieldWidth(format uintptr) (_ uintptr, n int, ok bool) {
|
||
first := true
|
||
for {
|
||
var digit int
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||
switch c := *(*byte)(unsafe.Pointer(format)); {
|
||
case first && c == '0':
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||
return format, n, ok
|
||
case first && c == '*':
|
||
panic(todo(""))
|
||
case c >= '0' && c <= '9':
|
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format++
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ok = true
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first = false
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digit = int(c) - '0'
|
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default:
|
||
return format, n, ok
|
||
}
|
||
|
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n0 := n
|
||
n = 10*n + digit
|
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if n < n0 {
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panic(todo(""))
|
||
}
|
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}
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}
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|
||
// Precision
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||
//
|
||
// An optional precision, in the form of a period ('.') followed by an
|
||
// optional decimal digit string. Instead of a decimal digit string one may
|
||
// write "*" or "*m$" (for some decimal integer m) to specify that the
|
||
// precision is given in the next argument, or in the m-th argument,
|
||
// respectively, which must be of type int. If the precision is given as just
|
||
// '.', the precision is taken to be zero. A negative precision is taken
|
||
// as if the precision were omitted. This gives the minimum number of digits
|
||
// to appear for d, i, o, u, x, and X conversions, the number of digits to
|
||
// appear after the radix character for a, A, e, E, f, and F conversions, the
|
||
// maximum number of significant digits for g and G conversions, or the maximum
|
||
// number of characters to be printed from a string for s and S conversions.
|
||
func parsePrecision(format uintptr, args *uintptr) (_ uintptr, n int, ok bool) {
|
||
for {
|
||
switch c := *(*byte)(unsafe.Pointer(format)); c {
|
||
case '.':
|
||
format++
|
||
first := true
|
||
for {
|
||
switch c := *(*byte)(unsafe.Pointer(format)); {
|
||
case first && c == '*':
|
||
format++
|
||
n = int(VaInt32(args))
|
||
return format, n, true
|
||
case c >= '0' && c <= '9':
|
||
format++
|
||
first = false
|
||
n0 := n
|
||
n = 10*n + (int(c) - '0')
|
||
if n < n0 {
|
||
panic(todo(""))
|
||
}
|
||
default:
|
||
return format, n, true
|
||
}
|
||
}
|
||
default:
|
||
return format, 0, false
|
||
}
|
||
}
|
||
}
|
||
|
||
// Length modifier
|
||
//
|
||
// Here, "integer conversion" stands for d, i, o, u, x, or X conversion.
|
||
//
|
||
// hh A following integer conversion corresponds to a signed char or
|
||
// unsigned char argument, or a following n conversion corresponds to a pointer
|
||
// to a signed char argument.
|
||
//
|
||
// h A following integer conversion corresponds to a short int or unsigned
|
||
// short int argument, or a following n conversion corresponds to a pointer to
|
||
// a short int argument.
|
||
//
|
||
// l (ell) A following integer conversion corresponds to a long int or
|
||
// unsigned long int argument, or a following n conversion corresponds to a
|
||
// pointer to a long int argument, or a fol‐ lowing c conversion corresponds to
|
||
// a wint_t argument, or a following s conversion corresponds to a pointer to
|
||
// wchar_t argument.
|
||
//
|
||
// ll (ell-ell). A following integer conversion corresponds to a long long
|
||
// int or unsigned long long int argument, or a following n conversion
|
||
// corresponds to a pointer to a long long int argument.
|
||
//
|
||
// q A synonym for ll. This is a nonstandard extension, derived from BSD;
|
||
// avoid its use in new code.
|
||
//
|
||
// L A following a, A, e, E, f, F, g, or G conversion corresponds to a
|
||
// long double argument. (C99 allows %LF, but SUSv2 does not.)
|
||
//
|
||
// j A following integer conversion corresponds to an intmax_t or
|
||
// uintmax_t argument, or a following n conversion corresponds to a pointer to
|
||
// an intmax_t argument.
|
||
//
|
||
// z A following integer conversion corresponds to a size_t or ssize_t
|
||
// argument, or a following n conversion corresponds to a pointer to a size_t
|
||
// argument.
|
||
//
|
||
// Z A nonstandard synonym for z that predates the appearance of z. Do
|
||
// not use in new code.
|
||
//
|
||
// t A following integer conversion corresponds to a ptrdiff_t argument,
|
||
// or a following n conversion corresponds to a pointer to a ptrdiff_t
|
||
// argument.
|
||
|
||
func parseLengthModifier(format uintptr) (_ uintptr, n int) {
|
||
switch c := *(*byte)(unsafe.Pointer(format)); c {
|
||
case 'h':
|
||
format++
|
||
n = modH
|
||
switch c := *(*byte)(unsafe.Pointer(format)); c {
|
||
case 'h':
|
||
format++
|
||
n = modHH
|
||
}
|
||
return format, n
|
||
case 'l':
|
||
format++
|
||
n = modL
|
||
switch c := *(*byte)(unsafe.Pointer(format)); c {
|
||
case 'l':
|
||
format++
|
||
n = modLL
|
||
}
|
||
return format, n
|
||
case 'q':
|
||
panic(todo(""))
|
||
case 'L':
|
||
format++
|
||
n = modLD
|
||
return format, n
|
||
case 'j':
|
||
panic(todo(""))
|
||
case 'z':
|
||
panic(todo(""))
|
||
case 'Z':
|
||
panic(todo(""))
|
||
case 't':
|
||
panic(todo(""))
|
||
default:
|
||
return format, 0
|
||
}
|
||
}
|
||
|
||
func fixNanInf(s string) string {
|
||
switch s {
|
||
case "NaN":
|
||
return "nan"
|
||
case "+Inf", "-Inf":
|
||
return "inf"
|
||
default:
|
||
return s
|
||
}
|
||
}
|