mirror of
https://codeberg.org/forgejo/forgejo.git
synced 2024-12-27 08:42:14 +01:00
86e2789960
* update github.com/PuerkitoBio/goquery * update github.com/alecthomas/chroma * update github.com/blevesearch/bleve/v2 * update github.com/caddyserver/certmagic * update github.com/go-enry/go-enry/v2 * update github.com/go-git/go-billy/v5 * update github.com/go-git/go-git/v5 * update github.com/go-redis/redis/v8 * update github.com/go-testfixtures/testfixtures/v3 * update github.com/jaytaylor/html2text * update github.com/json-iterator/go * update github.com/klauspost/compress * update github.com/markbates/goth * update github.com/mattn/go-isatty * update github.com/mholt/archiver/v3 * update github.com/microcosm-cc/bluemonday * update github.com/minio/minio-go/v7 * update github.com/prometheus/client_golang * update github.com/unrolled/render * update github.com/xanzy/go-gitlab * update github.com/yuin/goldmark * update github.com/yuin/goldmark-highlighting Co-authored-by: techknowlogick <techknowlogick@gitea.io>
549 lines
17 KiB
Go
Vendored
549 lines
17 KiB
Go
Vendored
// Copyright (c) 2016 Uber Technologies, Inc.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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package zap
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import (
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"fmt"
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"math"
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"time"
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"go.uber.org/zap/zapcore"
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)
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// Field is an alias for Field. Aliasing this type dramatically
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// improves the navigability of this package's API documentation.
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type Field = zapcore.Field
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var (
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_minTimeInt64 = time.Unix(0, math.MinInt64)
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_maxTimeInt64 = time.Unix(0, math.MaxInt64)
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)
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// Skip constructs a no-op field, which is often useful when handling invalid
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// inputs in other Field constructors.
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func Skip() Field {
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return Field{Type: zapcore.SkipType}
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}
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// nilField returns a field which will marshal explicitly as nil. See motivation
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// in https://github.com/uber-go/zap/issues/753 . If we ever make breaking
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// changes and add zapcore.NilType and zapcore.ObjectEncoder.AddNil, the
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// implementation here should be changed to reflect that.
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func nilField(key string) Field { return Reflect(key, nil) }
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// Binary constructs a field that carries an opaque binary blob.
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//
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// Binary data is serialized in an encoding-appropriate format. For example,
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// zap's JSON encoder base64-encodes binary blobs. To log UTF-8 encoded text,
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// use ByteString.
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func Binary(key string, val []byte) Field {
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return Field{Key: key, Type: zapcore.BinaryType, Interface: val}
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}
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// Bool constructs a field that carries a bool.
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func Bool(key string, val bool) Field {
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var ival int64
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if val {
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ival = 1
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}
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return Field{Key: key, Type: zapcore.BoolType, Integer: ival}
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}
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// Boolp constructs a field that carries a *bool. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Boolp(key string, val *bool) Field {
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if val == nil {
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return nilField(key)
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}
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return Bool(key, *val)
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}
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// ByteString constructs a field that carries UTF-8 encoded text as a []byte.
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// To log opaque binary blobs (which aren't necessarily valid UTF-8), use
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// Binary.
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func ByteString(key string, val []byte) Field {
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return Field{Key: key, Type: zapcore.ByteStringType, Interface: val}
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}
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// Complex128 constructs a field that carries a complex number. Unlike most
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// numeric fields, this costs an allocation (to convert the complex128 to
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// interface{}).
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func Complex128(key string, val complex128) Field {
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return Field{Key: key, Type: zapcore.Complex128Type, Interface: val}
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}
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// Complex128p constructs a field that carries a *complex128. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Complex128p(key string, val *complex128) Field {
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if val == nil {
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return nilField(key)
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}
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return Complex128(key, *val)
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}
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// Complex64 constructs a field that carries a complex number. Unlike most
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// numeric fields, this costs an allocation (to convert the complex64 to
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// interface{}).
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func Complex64(key string, val complex64) Field {
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return Field{Key: key, Type: zapcore.Complex64Type, Interface: val}
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}
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// Complex64p constructs a field that carries a *complex64. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Complex64p(key string, val *complex64) Field {
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if val == nil {
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return nilField(key)
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}
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return Complex64(key, *val)
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}
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// Float64 constructs a field that carries a float64. The way the
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// floating-point value is represented is encoder-dependent, so marshaling is
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// necessarily lazy.
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func Float64(key string, val float64) Field {
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return Field{Key: key, Type: zapcore.Float64Type, Integer: int64(math.Float64bits(val))}
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}
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// Float64p constructs a field that carries a *float64. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Float64p(key string, val *float64) Field {
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if val == nil {
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return nilField(key)
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}
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return Float64(key, *val)
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}
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// Float32 constructs a field that carries a float32. The way the
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// floating-point value is represented is encoder-dependent, so marshaling is
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// necessarily lazy.
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func Float32(key string, val float32) Field {
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return Field{Key: key, Type: zapcore.Float32Type, Integer: int64(math.Float32bits(val))}
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}
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// Float32p constructs a field that carries a *float32. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Float32p(key string, val *float32) Field {
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if val == nil {
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return nilField(key)
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}
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return Float32(key, *val)
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}
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// Int constructs a field with the given key and value.
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func Int(key string, val int) Field {
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return Int64(key, int64(val))
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}
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// Intp constructs a field that carries a *int. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Intp(key string, val *int) Field {
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if val == nil {
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return nilField(key)
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}
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return Int(key, *val)
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}
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// Int64 constructs a field with the given key and value.
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func Int64(key string, val int64) Field {
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return Field{Key: key, Type: zapcore.Int64Type, Integer: val}
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}
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// Int64p constructs a field that carries a *int64. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Int64p(key string, val *int64) Field {
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if val == nil {
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return nilField(key)
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}
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return Int64(key, *val)
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}
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// Int32 constructs a field with the given key and value.
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func Int32(key string, val int32) Field {
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return Field{Key: key, Type: zapcore.Int32Type, Integer: int64(val)}
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}
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// Int32p constructs a field that carries a *int32. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Int32p(key string, val *int32) Field {
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if val == nil {
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return nilField(key)
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}
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return Int32(key, *val)
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}
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// Int16 constructs a field with the given key and value.
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func Int16(key string, val int16) Field {
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return Field{Key: key, Type: zapcore.Int16Type, Integer: int64(val)}
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}
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// Int16p constructs a field that carries a *int16. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Int16p(key string, val *int16) Field {
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if val == nil {
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return nilField(key)
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}
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return Int16(key, *val)
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}
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// Int8 constructs a field with the given key and value.
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func Int8(key string, val int8) Field {
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return Field{Key: key, Type: zapcore.Int8Type, Integer: int64(val)}
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}
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// Int8p constructs a field that carries a *int8. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Int8p(key string, val *int8) Field {
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if val == nil {
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return nilField(key)
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}
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return Int8(key, *val)
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}
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// String constructs a field with the given key and value.
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func String(key string, val string) Field {
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return Field{Key: key, Type: zapcore.StringType, String: val}
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}
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// Stringp constructs a field that carries a *string. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Stringp(key string, val *string) Field {
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if val == nil {
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return nilField(key)
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}
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return String(key, *val)
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}
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// Uint constructs a field with the given key and value.
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func Uint(key string, val uint) Field {
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return Uint64(key, uint64(val))
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}
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// Uintp constructs a field that carries a *uint. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Uintp(key string, val *uint) Field {
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if val == nil {
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return nilField(key)
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}
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return Uint(key, *val)
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}
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// Uint64 constructs a field with the given key and value.
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func Uint64(key string, val uint64) Field {
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return Field{Key: key, Type: zapcore.Uint64Type, Integer: int64(val)}
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}
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// Uint64p constructs a field that carries a *uint64. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Uint64p(key string, val *uint64) Field {
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if val == nil {
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return nilField(key)
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}
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return Uint64(key, *val)
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}
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// Uint32 constructs a field with the given key and value.
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func Uint32(key string, val uint32) Field {
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return Field{Key: key, Type: zapcore.Uint32Type, Integer: int64(val)}
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}
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// Uint32p constructs a field that carries a *uint32. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Uint32p(key string, val *uint32) Field {
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if val == nil {
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return nilField(key)
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}
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return Uint32(key, *val)
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}
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// Uint16 constructs a field with the given key and value.
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func Uint16(key string, val uint16) Field {
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return Field{Key: key, Type: zapcore.Uint16Type, Integer: int64(val)}
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}
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// Uint16p constructs a field that carries a *uint16. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Uint16p(key string, val *uint16) Field {
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if val == nil {
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return nilField(key)
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}
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return Uint16(key, *val)
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}
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// Uint8 constructs a field with the given key and value.
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func Uint8(key string, val uint8) Field {
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return Field{Key: key, Type: zapcore.Uint8Type, Integer: int64(val)}
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}
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// Uint8p constructs a field that carries a *uint8. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Uint8p(key string, val *uint8) Field {
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if val == nil {
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return nilField(key)
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}
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return Uint8(key, *val)
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}
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// Uintptr constructs a field with the given key and value.
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func Uintptr(key string, val uintptr) Field {
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return Field{Key: key, Type: zapcore.UintptrType, Integer: int64(val)}
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}
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// Uintptrp constructs a field that carries a *uintptr. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Uintptrp(key string, val *uintptr) Field {
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if val == nil {
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return nilField(key)
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}
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return Uintptr(key, *val)
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}
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// Reflect constructs a field with the given key and an arbitrary object. It uses
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// an encoding-appropriate, reflection-based function to lazily serialize nearly
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// any object into the logging context, but it's relatively slow and
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// allocation-heavy. Outside tests, Any is always a better choice.
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//
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// If encoding fails (e.g., trying to serialize a map[int]string to JSON), Reflect
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// includes the error message in the final log output.
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func Reflect(key string, val interface{}) Field {
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return Field{Key: key, Type: zapcore.ReflectType, Interface: val}
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}
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// Namespace creates a named, isolated scope within the logger's context. All
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// subsequent fields will be added to the new namespace.
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//
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// This helps prevent key collisions when injecting loggers into sub-components
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// or third-party libraries.
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func Namespace(key string) Field {
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return Field{Key: key, Type: zapcore.NamespaceType}
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}
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// Stringer constructs a field with the given key and the output of the value's
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// String method. The Stringer's String method is called lazily.
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func Stringer(key string, val fmt.Stringer) Field {
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return Field{Key: key, Type: zapcore.StringerType, Interface: val}
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}
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// Time constructs a Field with the given key and value. The encoder
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// controls how the time is serialized.
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func Time(key string, val time.Time) Field {
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if val.Before(_minTimeInt64) || val.After(_maxTimeInt64) {
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return Field{Key: key, Type: zapcore.TimeFullType, Interface: val}
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}
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return Field{Key: key, Type: zapcore.TimeType, Integer: val.UnixNano(), Interface: val.Location()}
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}
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// Timep constructs a field that carries a *time.Time. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Timep(key string, val *time.Time) Field {
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if val == nil {
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return nilField(key)
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}
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return Time(key, *val)
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}
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// Stack constructs a field that stores a stacktrace of the current goroutine
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// under provided key. Keep in mind that taking a stacktrace is eager and
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// expensive (relatively speaking); this function both makes an allocation and
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// takes about two microseconds.
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func Stack(key string) Field {
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return StackSkip(key, 1) // skip Stack
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}
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// StackSkip constructs a field similarly to Stack, but also skips the given
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// number of frames from the top of the stacktrace.
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func StackSkip(key string, skip int) Field {
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// Returning the stacktrace as a string costs an allocation, but saves us
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// from expanding the zapcore.Field union struct to include a byte slice. Since
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// taking a stacktrace is already so expensive (~10us), the extra allocation
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// is okay.
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return String(key, takeStacktrace(skip+1)) // skip StackSkip
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}
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// Duration constructs a field with the given key and value. The encoder
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// controls how the duration is serialized.
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func Duration(key string, val time.Duration) Field {
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return Field{Key: key, Type: zapcore.DurationType, Integer: int64(val)}
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}
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// Durationp constructs a field that carries a *time.Duration. The returned Field will safely
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// and explicitly represent `nil` when appropriate.
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func Durationp(key string, val *time.Duration) Field {
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if val == nil {
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return nilField(key)
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}
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return Duration(key, *val)
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}
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// Object constructs a field with the given key and ObjectMarshaler. It
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// provides a flexible, but still type-safe and efficient, way to add map- or
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// struct-like user-defined types to the logging context. The struct's
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// MarshalLogObject method is called lazily.
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func Object(key string, val zapcore.ObjectMarshaler) Field {
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return Field{Key: key, Type: zapcore.ObjectMarshalerType, Interface: val}
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}
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// Inline constructs a Field that is similar to Object, but it
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// will add the elements of the provided ObjectMarshaler to the
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// current namespace.
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func Inline(val zapcore.ObjectMarshaler) Field {
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return zapcore.Field{
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Type: zapcore.InlineMarshalerType,
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Interface: val,
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}
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}
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// Any takes a key and an arbitrary value and chooses the best way to represent
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// them as a field, falling back to a reflection-based approach only if
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// necessary.
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//
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// Since byte/uint8 and rune/int32 are aliases, Any can't differentiate between
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// them. To minimize surprises, []byte values are treated as binary blobs, byte
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// values are treated as uint8, and runes are always treated as integers.
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func Any(key string, value interface{}) Field {
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switch val := value.(type) {
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case zapcore.ObjectMarshaler:
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return Object(key, val)
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case zapcore.ArrayMarshaler:
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return Array(key, val)
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case bool:
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return Bool(key, val)
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case *bool:
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return Boolp(key, val)
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case []bool:
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return Bools(key, val)
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case complex128:
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return Complex128(key, val)
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case *complex128:
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return Complex128p(key, val)
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case []complex128:
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return Complex128s(key, val)
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case complex64:
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return Complex64(key, val)
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case *complex64:
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return Complex64p(key, val)
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case []complex64:
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return Complex64s(key, val)
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case float64:
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return Float64(key, val)
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case *float64:
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return Float64p(key, val)
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case []float64:
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return Float64s(key, val)
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case float32:
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return Float32(key, val)
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case *float32:
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return Float32p(key, val)
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case []float32:
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return Float32s(key, val)
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case int:
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return Int(key, val)
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case *int:
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return Intp(key, val)
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case []int:
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return Ints(key, val)
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case int64:
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return Int64(key, val)
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case *int64:
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return Int64p(key, val)
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case []int64:
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return Int64s(key, val)
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case int32:
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return Int32(key, val)
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case *int32:
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return Int32p(key, val)
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case []int32:
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return Int32s(key, val)
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case int16:
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return Int16(key, val)
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|
case *int16:
|
|
return Int16p(key, val)
|
|
case []int16:
|
|
return Int16s(key, val)
|
|
case int8:
|
|
return Int8(key, val)
|
|
case *int8:
|
|
return Int8p(key, val)
|
|
case []int8:
|
|
return Int8s(key, val)
|
|
case string:
|
|
return String(key, val)
|
|
case *string:
|
|
return Stringp(key, val)
|
|
case []string:
|
|
return Strings(key, val)
|
|
case uint:
|
|
return Uint(key, val)
|
|
case *uint:
|
|
return Uintp(key, val)
|
|
case []uint:
|
|
return Uints(key, val)
|
|
case uint64:
|
|
return Uint64(key, val)
|
|
case *uint64:
|
|
return Uint64p(key, val)
|
|
case []uint64:
|
|
return Uint64s(key, val)
|
|
case uint32:
|
|
return Uint32(key, val)
|
|
case *uint32:
|
|
return Uint32p(key, val)
|
|
case []uint32:
|
|
return Uint32s(key, val)
|
|
case uint16:
|
|
return Uint16(key, val)
|
|
case *uint16:
|
|
return Uint16p(key, val)
|
|
case []uint16:
|
|
return Uint16s(key, val)
|
|
case uint8:
|
|
return Uint8(key, val)
|
|
case *uint8:
|
|
return Uint8p(key, val)
|
|
case []byte:
|
|
return Binary(key, val)
|
|
case uintptr:
|
|
return Uintptr(key, val)
|
|
case *uintptr:
|
|
return Uintptrp(key, val)
|
|
case []uintptr:
|
|
return Uintptrs(key, val)
|
|
case time.Time:
|
|
return Time(key, val)
|
|
case *time.Time:
|
|
return Timep(key, val)
|
|
case []time.Time:
|
|
return Times(key, val)
|
|
case time.Duration:
|
|
return Duration(key, val)
|
|
case *time.Duration:
|
|
return Durationp(key, val)
|
|
case []time.Duration:
|
|
return Durations(key, val)
|
|
case error:
|
|
return NamedError(key, val)
|
|
case []error:
|
|
return Errors(key, val)
|
|
case fmt.Stringer:
|
|
return Stringer(key, val)
|
|
default:
|
|
return Reflect(key, val)
|
|
}
|
|
}
|