mirror of
https://github.com/ceph/ceph-csi.git
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4ebfe5ded2
Bumps [k8s.io/klog/v2](https://github.com/kubernetes/klog) from 2.40.1 to 2.60.1. - [Release notes](https://github.com/kubernetes/klog/releases) - [Changelog](https://github.com/kubernetes/klog/blob/main/RELEASE.md) - [Commits](https://github.com/kubernetes/klog/compare/v2.40.1...v2.60.1) --- updated-dependencies: - dependency-name: k8s.io/klog/v2 dependency-type: direct:production update-type: version-update:semver-minor ... Signed-off-by: dependabot[bot] <support@github.com>
226 lines
7.1 KiB
Go
226 lines
7.1 KiB
Go
/*
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Copyright 2021 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package serialize
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import (
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"bytes"
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"fmt"
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"strconv"
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)
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// WithValues implements LogSink.WithValues. The old key/value pairs are
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// assumed to be well-formed, the new ones are checked and padded if
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// necessary. It returns a new slice.
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func WithValues(oldKV, newKV []interface{}) []interface{} {
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if len(newKV) == 0 {
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return oldKV
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}
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newLen := len(oldKV) + len(newKV)
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hasMissingValue := newLen%2 != 0
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if hasMissingValue {
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newLen++
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}
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// The new LogSink must have its own slice.
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kv := make([]interface{}, 0, newLen)
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kv = append(kv, oldKV...)
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kv = append(kv, newKV...)
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if hasMissingValue {
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kv = append(kv, missingValue)
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}
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return kv
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}
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// TrimDuplicates deduplicates elements provided in multiple key/value tuple
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// slices, whilst maintaining the distinction between where the items are
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// contained.
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func TrimDuplicates(kvLists ...[]interface{}) [][]interface{} {
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// maintain a map of all seen keys
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seenKeys := map[interface{}]struct{}{}
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// build the same number of output slices as inputs
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outs := make([][]interface{}, len(kvLists))
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// iterate over the input slices backwards, as 'later' kv specifications
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// of the same key will take precedence over earlier ones
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for i := len(kvLists) - 1; i >= 0; i-- {
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// initialise this output slice
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outs[i] = []interface{}{}
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// obtain a reference to the kvList we are processing
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// and make sure it has an even number of entries
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kvList := kvLists[i]
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if len(kvList)%2 != 0 {
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kvList = append(kvList, missingValue)
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}
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// start iterating at len(kvList) - 2 (i.e. the 2nd last item) for
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// slices that have an even number of elements.
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// We add (len(kvList) % 2) here to handle the case where there is an
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// odd number of elements in a kvList.
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// If there is an odd number, then the last element in the slice will
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// have the value 'null'.
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for i2 := len(kvList) - 2 + (len(kvList) % 2); i2 >= 0; i2 -= 2 {
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k := kvList[i2]
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// if we have already seen this key, do not include it again
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if _, ok := seenKeys[k]; ok {
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continue
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}
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// make a note that we've observed a new key
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seenKeys[k] = struct{}{}
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// attempt to obtain the value of the key
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var v interface{}
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// i2+1 should only ever be out of bounds if we handling the first
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// iteration over a slice with an odd number of elements
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if i2+1 < len(kvList) {
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v = kvList[i2+1]
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}
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// add this KV tuple to the *start* of the output list to maintain
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// the original order as we are iterating over the slice backwards
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outs[i] = append([]interface{}{k, v}, outs[i]...)
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}
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}
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return outs
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}
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const missingValue = "(MISSING)"
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// KVListFormat serializes all key/value pairs into the provided buffer.
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// A space gets inserted before the first pair and between each pair.
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func KVListFormat(b *bytes.Buffer, keysAndValues ...interface{}) {
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for i := 0; i < len(keysAndValues); i += 2 {
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var v interface{}
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k := keysAndValues[i]
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if i+1 < len(keysAndValues) {
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v = keysAndValues[i+1]
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} else {
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v = missingValue
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}
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b.WriteByte(' ')
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// Keys are assumed to be well-formed according to
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// https://github.com/kubernetes/community/blob/master/contributors/devel/sig-instrumentation/migration-to-structured-logging.md#name-arguments
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// for the sake of performance. Keys with spaces,
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// special characters, etc. will break parsing.
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if k, ok := k.(string); ok {
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// Avoid one allocation when the key is a string, which
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// normally it should be.
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b.WriteString(k)
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} else {
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b.WriteString(fmt.Sprintf("%s", k))
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}
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// The type checks are sorted so that more frequently used ones
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// come first because that is then faster in the common
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// cases. In Kubernetes, ObjectRef (a Stringer) is more common
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// than plain strings
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// (https://github.com/kubernetes/kubernetes/pull/106594#issuecomment-975526235).
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switch v := v.(type) {
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case fmt.Stringer:
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writeStringValue(b, true, StringerToString(v))
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case string:
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writeStringValue(b, true, v)
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case error:
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writeStringValue(b, true, ErrorToString(v))
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case []byte:
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// In https://github.com/kubernetes/klog/pull/237 it was decided
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// to format byte slices with "%+q". The advantages of that are:
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// - readable output if the bytes happen to be printable
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// - non-printable bytes get represented as unicode escape
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// sequences (\uxxxx)
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//
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// The downsides are that we cannot use the faster
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// strconv.Quote here and that multi-line output is not
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// supported. If developers know that a byte array is
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// printable and they want multi-line output, they can
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// convert the value to string before logging it.
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b.WriteByte('=')
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b.WriteString(fmt.Sprintf("%+q", v))
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default:
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writeStringValue(b, false, fmt.Sprintf("%+v", v))
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}
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}
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}
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// StringerToString converts a Stringer to a string,
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// handling panics if they occur.
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func StringerToString(s fmt.Stringer) (ret string) {
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defer func() {
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if err := recover(); err != nil {
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ret = fmt.Sprintf("<panic: %s>", err)
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}
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}()
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ret = s.String()
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return
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}
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// ErrorToString converts an error to a string,
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// handling panics if they occur.
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func ErrorToString(err error) (ret string) {
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defer func() {
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if err := recover(); err != nil {
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ret = fmt.Sprintf("<panic: %s>", err)
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}
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}()
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ret = err.Error()
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return
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}
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func writeStringValue(b *bytes.Buffer, quote bool, v string) {
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data := []byte(v)
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index := bytes.IndexByte(data, '\n')
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if index == -1 {
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b.WriteByte('=')
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if quote {
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// Simple string, quote quotation marks and non-printable characters.
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b.WriteString(strconv.Quote(v))
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return
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}
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// Non-string with no line breaks.
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b.WriteString(v)
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return
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}
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// Complex multi-line string, show as-is with indention like this:
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// I... "hello world" key=<
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// <tab>line 1
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// <tab>line 2
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// >
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//
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// Tabs indent the lines of the value while the end of string delimiter
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// is indented with a space. That has two purposes:
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// - visual difference between the two for a human reader because indention
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// will be different
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// - no ambiguity when some value line starts with the end delimiter
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//
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// One downside is that the output cannot distinguish between strings that
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// end with a line break and those that don't because the end delimiter
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// will always be on the next line.
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b.WriteString("=<\n")
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for index != -1 {
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b.WriteByte('\t')
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b.Write(data[0 : index+1])
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data = data[index+1:]
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index = bytes.IndexByte(data, '\n')
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}
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if len(data) == 0 {
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// String ended with line break, don't add another.
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b.WriteString(" >")
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} else {
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// No line break at end of last line, write rest of string and
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// add one.
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b.WriteByte('\t')
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b.Write(data)
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b.WriteString("\n >")
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}
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}
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