forked from cerc-io/plugeth
289b30715d
This commit converts the dependency management from Godeps to the vendor folder, also switching the tool from godep to trash. Since the upstream tool lacks a few features proposed via a few PRs, until those PRs are merged in (if), use github.com/karalabe/trash. You can update dependencies via trash --update. All dependencies have been updated to their latest version. Parts of the build system are reworked to drop old notions of Godeps and invocation of the go vet command so that it doesn't run against the vendor folder, as that will just blow up during vetting. The conversion drops OpenCL (and hence GPU mining support) from ethash and our codebase. The short reasoning is that there's noone to maintain and having opencl libs in our deps messes up builds as go install ./... tries to build them, failing with unsatisfied link errors for the C OpenCL deps. golang.org/x/net/context is not vendored in. We expect it to be fetched by the user (i.e. using go get). To keep ci.go builds reproducible the package is "vendored" in build/_vendor.
435 lines
13 KiB
Go
435 lines
13 KiB
Go
// Copyright 2013 The Go 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 unicode provides Unicode encodings such as UTF-16.
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package unicode // import "golang.org/x/text/encoding/unicode"
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import (
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"errors"
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"unicode/utf16"
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"unicode/utf8"
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"golang.org/x/text/encoding"
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"golang.org/x/text/encoding/internal"
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"golang.org/x/text/encoding/internal/identifier"
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"golang.org/x/text/internal/utf8internal"
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"golang.org/x/text/runes"
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"golang.org/x/text/transform"
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)
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// TODO: I think the Transformers really should return errors on unmatched
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// surrogate pairs and odd numbers of bytes. This is not required by RFC 2781,
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// which leaves it open, but is suggested by WhatWG. It will allow for all error
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// modes as defined by WhatWG: fatal, HTML and Replacement. This would require
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// the introduction of some kind of error type for conveying the erroneous code
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// point.
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// UTF8 is the UTF-8 encoding.
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var UTF8 encoding.Encoding = utf8enc
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var utf8enc = &internal.Encoding{
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&internal.SimpleEncoding{utf8Decoder{}, runes.ReplaceIllFormed()},
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"UTF-8",
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identifier.UTF8,
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}
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type utf8Decoder struct{ transform.NopResetter }
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func (utf8Decoder) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) {
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var pSrc int // point from which to start copy in src
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var accept utf8internal.AcceptRange
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// The decoder can only make the input larger, not smaller.
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n := len(src)
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if len(dst) < n {
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err = transform.ErrShortDst
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n = len(dst)
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atEOF = false
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}
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for nSrc < n {
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c := src[nSrc]
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if c < utf8.RuneSelf {
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nSrc++
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continue
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}
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first := utf8internal.First[c]
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size := int(first & utf8internal.SizeMask)
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if first == utf8internal.FirstInvalid {
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goto handleInvalid // invalid starter byte
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}
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accept = utf8internal.AcceptRanges[first>>utf8internal.AcceptShift]
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if nSrc+size > n {
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if !atEOF {
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// We may stop earlier than necessary here if the short sequence
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// has invalid bytes. Not checking for this simplifies the code
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// and may avoid duplicate computations in certain conditions.
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if err == nil {
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err = transform.ErrShortSrc
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}
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break
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}
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// Determine the maximal subpart of an ill-formed subsequence.
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switch {
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case nSrc+1 >= n || src[nSrc+1] < accept.Lo || accept.Hi < src[nSrc+1]:
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size = 1
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case nSrc+2 >= n || src[nSrc+2] < utf8internal.LoCB || utf8internal.HiCB < src[nSrc+2]:
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size = 2
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default:
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size = 3 // As we are short, the maximum is 3.
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}
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goto handleInvalid
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}
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if c = src[nSrc+1]; c < accept.Lo || accept.Hi < c {
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size = 1
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goto handleInvalid // invalid continuation byte
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} else if size == 2 {
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} else if c = src[nSrc+2]; c < utf8internal.LoCB || utf8internal.HiCB < c {
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size = 2
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goto handleInvalid // invalid continuation byte
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} else if size == 3 {
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} else if c = src[nSrc+3]; c < utf8internal.LoCB || utf8internal.HiCB < c {
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size = 3
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goto handleInvalid // invalid continuation byte
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}
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nSrc += size
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continue
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handleInvalid:
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// Copy the scanned input so far.
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nDst += copy(dst[nDst:], src[pSrc:nSrc])
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// Append RuneError to the destination.
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const runeError = "\ufffd"
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if nDst+len(runeError) > len(dst) {
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return nDst, nSrc, transform.ErrShortDst
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}
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nDst += copy(dst[nDst:], runeError)
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// Skip the maximal subpart of an ill-formed subsequence according to
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// the W3C standard way instead of the Go way. This Transform is
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// probably the only place in the text repo where it is warranted.
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nSrc += size
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pSrc = nSrc
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// Recompute the maximum source length.
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if sz := len(dst) - nDst; sz < len(src)-nSrc {
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err = transform.ErrShortDst
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n = nSrc + sz
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atEOF = false
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}
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}
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return nDst + copy(dst[nDst:], src[pSrc:nSrc]), nSrc, err
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}
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// UTF16 returns a UTF-16 Encoding for the given default endianness and byte
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// order mark (BOM) policy.
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//
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// When decoding from UTF-16 to UTF-8, if the BOMPolicy is IgnoreBOM then
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// neither BOMs U+FEFF nor noncharacters U+FFFE in the input stream will affect
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// the endianness used for decoding, and will instead be output as their
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// standard UTF-8 encodings: "\xef\xbb\xbf" and "\xef\xbf\xbe". If the BOMPolicy
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// is UseBOM or ExpectBOM a staring BOM is not written to the UTF-8 output.
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// Instead, it overrides the default endianness e for the remainder of the
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// transformation. Any subsequent BOMs U+FEFF or noncharacters U+FFFE will not
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// affect the endianness used, and will instead be output as their standard
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// UTF-8 encodings. For UseBOM, if there is no starting BOM, it will proceed
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// with the default Endianness. For ExpectBOM, in that case, the transformation
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// will return early with an ErrMissingBOM error.
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//
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// When encoding from UTF-8 to UTF-16, a BOM will be inserted at the start of
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// the output if the BOMPolicy is UseBOM or ExpectBOM. Otherwise, a BOM will not
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// be inserted. The UTF-8 input does not need to contain a BOM.
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//
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// There is no concept of a 'native' endianness. If the UTF-16 data is produced
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// and consumed in a greater context that implies a certain endianness, use
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// IgnoreBOM. Otherwise, use ExpectBOM and always produce and consume a BOM.
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//
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// In the language of http://www.unicode.org/faq/utf_bom.html#bom10, IgnoreBOM
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// corresponds to "Where the precise type of the data stream is known... the
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// BOM should not be used" and ExpectBOM corresponds to "A particular
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// protocol... may require use of the BOM".
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func UTF16(e Endianness, b BOMPolicy) encoding.Encoding {
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return utf16Encoding{config{e, b}, mibValue[e][b&bomMask]}
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}
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// mibValue maps Endianness and BOMPolicy settings to MIB constants. Note that
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// some configurations map to the same MIB identifier. RFC 2781 has requirements
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// and recommendations. Some of the "configurations" are merely recommendations,
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// so multiple configurations could match.
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var mibValue = map[Endianness][numBOMValues]identifier.MIB{
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BigEndian: [numBOMValues]identifier.MIB{
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IgnoreBOM: identifier.UTF16BE,
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UseBOM: identifier.UTF16, // BigEnding default is preferred by RFC 2781.
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// TODO: acceptBOM | strictBOM would map to UTF16BE as well.
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},
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LittleEndian: [numBOMValues]identifier.MIB{
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IgnoreBOM: identifier.UTF16LE,
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UseBOM: identifier.UTF16, // LittleEndian default is allowed and preferred on Windows.
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// TODO: acceptBOM | strictBOM would map to UTF16LE as well.
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},
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// ExpectBOM is not widely used and has no valid MIB identifier.
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}
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// All lists a configuration for each IANA-defined UTF-16 variant.
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var All = []encoding.Encoding{
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UTF8,
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UTF16(BigEndian, UseBOM),
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UTF16(BigEndian, IgnoreBOM),
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UTF16(LittleEndian, IgnoreBOM),
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}
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// BOMPolicy is a UTF-16 encoding's byte order mark policy.
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type BOMPolicy uint8
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const (
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writeBOM BOMPolicy = 0x01
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acceptBOM BOMPolicy = 0x02
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requireBOM BOMPolicy = 0x04
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bomMask BOMPolicy = 0x07
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// HACK: numBOMValues == 8 triggers a bug in the 1.4 compiler (cannot have a
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// map of an array of length 8 of a type that is also used as a key or value
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// in another map). See golang.org/issue/11354.
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// TODO: consider changing this value back to 8 if the use of 1.4.* has
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// been minimized.
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numBOMValues = 8 + 1
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// IgnoreBOM means to ignore any byte order marks.
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IgnoreBOM BOMPolicy = 0
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// Common and RFC 2781-compliant interpretation for UTF-16BE/LE.
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// UseBOM means that the UTF-16 form may start with a byte order mark, which
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// will be used to override the default encoding.
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UseBOM BOMPolicy = writeBOM | acceptBOM
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// Common and RFC 2781-compliant interpretation for UTF-16.
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// ExpectBOM means that the UTF-16 form must start with a byte order mark,
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// which will be used to override the default encoding.
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ExpectBOM BOMPolicy = writeBOM | acceptBOM | requireBOM
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// Used in Java as Unicode (not to be confused with Java's UTF-16) and
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// ICU's UTF-16,version=1. Not compliant with RFC 2781.
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// TODO (maybe): strictBOM: BOM must match Endianness. This would allow:
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// - UTF-16(B|L)E,version=1: writeBOM | acceptBOM | requireBOM | strictBOM
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// (UnicodeBig and UnicodeLittle in Java)
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// - RFC 2781-compliant, but less common interpretation for UTF-16(B|L)E:
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// acceptBOM | strictBOM (e.g. assigned to CheckBOM).
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// This addition would be consistent with supporting ExpectBOM.
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)
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// Endianness is a UTF-16 encoding's default endianness.
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type Endianness bool
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const (
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// BigEndian is UTF-16BE.
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BigEndian Endianness = false
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// LittleEndian is UTF-16LE.
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LittleEndian Endianness = true
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)
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// ErrMissingBOM means that decoding UTF-16 input with ExpectBOM did not find a
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// starting byte order mark.
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var ErrMissingBOM = errors.New("encoding: missing byte order mark")
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type utf16Encoding struct {
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config
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mib identifier.MIB
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}
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type config struct {
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endianness Endianness
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bomPolicy BOMPolicy
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}
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func (u utf16Encoding) NewDecoder() *encoding.Decoder {
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return &encoding.Decoder{Transformer: &utf16Decoder{
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initial: u.config,
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current: u.config,
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}}
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}
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func (u utf16Encoding) NewEncoder() *encoding.Encoder {
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return &encoding.Encoder{Transformer: &utf16Encoder{
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endianness: u.endianness,
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initialBOMPolicy: u.bomPolicy,
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currentBOMPolicy: u.bomPolicy,
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}}
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}
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func (u utf16Encoding) ID() (mib identifier.MIB, other string) {
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return u.mib, ""
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}
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func (u utf16Encoding) String() string {
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e, b := "B", ""
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if u.endianness == LittleEndian {
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e = "L"
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}
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switch u.bomPolicy {
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case ExpectBOM:
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b = "Expect"
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case UseBOM:
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b = "Use"
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case IgnoreBOM:
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b = "Ignore"
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}
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return "UTF-16" + e + "E (" + b + " BOM)"
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}
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type utf16Decoder struct {
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initial config
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current config
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}
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func (u *utf16Decoder) Reset() {
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u.current = u.initial
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}
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func (u *utf16Decoder) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) {
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if len(src) == 0 {
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if atEOF && u.current.bomPolicy&requireBOM != 0 {
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return 0, 0, ErrMissingBOM
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}
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return 0, 0, nil
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}
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if u.current.bomPolicy&acceptBOM != 0 {
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if len(src) < 2 {
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return 0, 0, transform.ErrShortSrc
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}
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switch {
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case src[0] == 0xfe && src[1] == 0xff:
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u.current.endianness = BigEndian
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nSrc = 2
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case src[0] == 0xff && src[1] == 0xfe:
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u.current.endianness = LittleEndian
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nSrc = 2
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default:
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if u.current.bomPolicy&requireBOM != 0 {
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return 0, 0, ErrMissingBOM
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}
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}
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u.current.bomPolicy = IgnoreBOM
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}
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var r rune
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var dSize, sSize int
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for nSrc < len(src) {
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if nSrc+1 < len(src) {
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x := uint16(src[nSrc+0])<<8 | uint16(src[nSrc+1])
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if u.current.endianness == LittleEndian {
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x = x>>8 | x<<8
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}
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r, sSize = rune(x), 2
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if utf16.IsSurrogate(r) {
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if nSrc+3 < len(src) {
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x = uint16(src[nSrc+2])<<8 | uint16(src[nSrc+3])
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if u.current.endianness == LittleEndian {
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x = x>>8 | x<<8
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}
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// Save for next iteration if it is not a high surrogate.
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if isHighSurrogate(rune(x)) {
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r, sSize = utf16.DecodeRune(r, rune(x)), 4
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}
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} else if !atEOF {
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err = transform.ErrShortSrc
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break
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}
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}
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if dSize = utf8.RuneLen(r); dSize < 0 {
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r, dSize = utf8.RuneError, 3
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}
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} else if atEOF {
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// Single trailing byte.
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r, dSize, sSize = utf8.RuneError, 3, 1
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} else {
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err = transform.ErrShortSrc
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break
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}
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if nDst+dSize > len(dst) {
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err = transform.ErrShortDst
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break
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}
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nDst += utf8.EncodeRune(dst[nDst:], r)
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nSrc += sSize
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}
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return nDst, nSrc, err
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}
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func isHighSurrogate(r rune) bool {
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return 0xDC00 <= r && r <= 0xDFFF
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}
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type utf16Encoder struct {
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endianness Endianness
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initialBOMPolicy BOMPolicy
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currentBOMPolicy BOMPolicy
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}
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func (u *utf16Encoder) Reset() {
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u.currentBOMPolicy = u.initialBOMPolicy
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}
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func (u *utf16Encoder) Transform(dst, src []byte, atEOF bool) (nDst, nSrc int, err error) {
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if u.currentBOMPolicy&writeBOM != 0 {
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if len(dst) < 2 {
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return 0, 0, transform.ErrShortDst
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}
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dst[0], dst[1] = 0xfe, 0xff
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u.currentBOMPolicy = IgnoreBOM
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nDst = 2
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}
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r, size := rune(0), 0
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for nSrc < len(src) {
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r = rune(src[nSrc])
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// Decode a 1-byte rune.
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if r < utf8.RuneSelf {
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size = 1
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} else {
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// Decode a multi-byte rune.
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r, size = utf8.DecodeRune(src[nSrc:])
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if size == 1 {
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// All valid runes of size 1 (those below utf8.RuneSelf) were
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// handled above. We have invalid UTF-8 or we haven't seen the
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// full character yet.
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if !atEOF && !utf8.FullRune(src[nSrc:]) {
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err = transform.ErrShortSrc
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break
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}
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}
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}
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if r <= 0xffff {
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if nDst+2 > len(dst) {
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err = transform.ErrShortDst
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break
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}
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dst[nDst+0] = uint8(r >> 8)
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dst[nDst+1] = uint8(r)
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nDst += 2
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} else {
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if nDst+4 > len(dst) {
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err = transform.ErrShortDst
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break
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}
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r1, r2 := utf16.EncodeRune(r)
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dst[nDst+0] = uint8(r1 >> 8)
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dst[nDst+1] = uint8(r1)
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dst[nDst+2] = uint8(r2 >> 8)
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dst[nDst+3] = uint8(r2)
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nDst += 4
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}
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nSrc += size
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}
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if u.endianness == LittleEndian {
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for i := 0; i < nDst; i += 2 {
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dst[i], dst[i+1] = dst[i+1], dst[i]
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}
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}
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return nDst, nSrc, err
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}
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