WIP: logger/unwrap: add unwrap method #143
535
logger/unwrap/unwrap.go
Normal file
535
logger/unwrap/unwrap.go
Normal file
@ -0,0 +1,535 @@
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package unwrap
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import (
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"bytes"
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"fmt"
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"io"
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"reflect"
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"strconv"
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"strings"
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"go.unistack.org/micro/v3/codec"
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)
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const sf = "0-+# "
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var hexDigits = "0123456789abcdef"
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var (
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panicBytes = []byte("(PANIC=")
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plusBytes = []byte("+")
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iBytes = []byte("i")
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trueBytes = []byte("true")
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falseBytes = []byte("false")
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interfaceBytes = []byte("(interface {})")
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openBraceBytes = []byte("{")
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closeBraceBytes = []byte("}")
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asteriskBytes = []byte("*")
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ampBytes = []byte("&")
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colonBytes = []byte(":")
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openParenBytes = []byte("(")
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closeParenBytes = []byte(")")
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spaceBytes = []byte(" ")
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commaBytes = []byte(",")
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pointerChainBytes = []byte("->")
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nilAngleBytes = []byte("<nil>")
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circularShortBytes = []byte("<shown>")
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invalidAngleBytes = []byte("<invalid>")
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openBracketBytes = []byte("[")
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closeBracketBytes = []byte("]")
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percentBytes = []byte("%")
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precisionBytes = []byte(".")
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openAngleBytes = []byte("<")
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closeAngleBytes = []byte(">")
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openMapBytes = []byte("{")
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closeMapBytes = []byte("}")
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)
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type unwrap struct {
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val interface{}
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s fmt.State
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depth int
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pointers map[uintptr]int
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opts *Options
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ignoreNextType bool
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}
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type Options struct {
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Codec codec.Codec
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Indent string
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UnwrapMethods bool
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}
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func NewOptions(opts ...Option) Options {
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options := Options{
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Indent: " ",
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UnwrapMethods: false,
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}
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for _, o := range opts {
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o(&options)
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}
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return options
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}
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type Option func(*Options)
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func UnwrapIndent(f string) Option {
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return func(o *Options) {
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o.Indent = f
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}
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}
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func UnwrapMethods(b bool) Option {
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return func(o *Options) {
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o.UnwrapMethods = b
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}
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}
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func UnwrapCodec(c codec.Codec) Option {
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return func(o *Options) {
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o.Codec = c
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}
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}
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func Unwrap(val interface{}, opts ...Option) *unwrap {
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options := NewOptions(opts...)
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return &unwrap{val: val, opts: &options, pointers: make(map[uintptr]int)}
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}
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func (f *unwrap) unpackValue(v reflect.Value) reflect.Value {
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if v.Kind() == reflect.Interface {
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f.ignoreNextType = false
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if !v.IsNil() {
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v = v.Elem()
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}
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}
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return v
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}
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// formatPtr handles formatting of pointers by indirecting them as necessary.
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func (f *unwrap) formatPtr(v reflect.Value) {
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// Display nil if top level pointer is nil.
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showTypes := f.s.Flag('#')
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if v.IsNil() && (!showTypes || f.ignoreNextType) {
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_, _ = f.s.Write(nilAngleBytes)
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return
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}
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// Remove pointers at or below the current depth from map used to detect
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// circular refs.
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for k, depth := range f.pointers {
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if depth >= f.depth {
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delete(f.pointers, k)
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}
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}
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// Keep list of all dereferenced pointers to possibly show later.
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pointerChain := make([]uintptr, 0)
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// Figure out how many levels of indirection there are by derferencing
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// pointers and unpacking interfaces down the chain while detecting circular
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// references.
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nilFound := false
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cycleFound := false
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indirects := 0
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ve := v
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for ve.Kind() == reflect.Ptr {
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if ve.IsNil() {
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nilFound = true
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break
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}
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indirects++
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addr := ve.Pointer()
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pointerChain = append(pointerChain, addr)
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if pd, ok := f.pointers[addr]; ok && pd < f.depth {
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cycleFound = true
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indirects--
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break
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}
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f.pointers[addr] = f.depth
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ve = ve.Elem()
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if ve.Kind() == reflect.Interface {
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if ve.IsNil() {
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nilFound = true
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break
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}
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ve = ve.Elem()
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}
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}
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// Display type or indirection level depending on flags.
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if showTypes && !f.ignoreNextType {
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if f.depth > 0 {
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_, _ = f.s.Write(openParenBytes)
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}
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if f.depth > 0 {
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_, _ = f.s.Write(bytes.Repeat(asteriskBytes, indirects))
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} else {
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_, _ = f.s.Write(bytes.Repeat(ampBytes, indirects))
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}
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_, _ = f.s.Write([]byte(ve.Type().String()))
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if f.depth > 0 {
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_, _ = f.s.Write(closeParenBytes)
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}
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} else {
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if nilFound || cycleFound {
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indirects += strings.Count(ve.Type().String(), "*")
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}
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_, _ = f.s.Write(openAngleBytes)
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_, _ = f.s.Write([]byte(strings.Repeat("*", indirects)))
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_, _ = f.s.Write(closeAngleBytes)
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}
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// Display pointer information depending on flags.
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if f.s.Flag('+') && (len(pointerChain) > 0) {
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_, _ = f.s.Write(openParenBytes)
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for i, addr := range pointerChain {
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if i > 0 {
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_, _ = f.s.Write(pointerChainBytes)
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}
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getHexPtr(f.s, addr)
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}
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_, _ = f.s.Write(closeParenBytes)
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}
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// Display dereferenced value.
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switch {
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case nilFound:
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_, _ = f.s.Write(nilAngleBytes)
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case cycleFound:
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_, _ = f.s.Write(circularShortBytes)
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default:
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f.ignoreNextType = true
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f.format(ve)
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}
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}
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// format is the main workhorse for providing the Formatter interface. It
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// uses the passed reflect value to figure out what kind of object we are
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// dealing with and formats it appropriately. It is a recursive function,
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// however circular data structures are detected and handled properly.
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func (f *unwrap) format(v reflect.Value) {
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if f.opts.Codec != nil {
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buf, err := f.opts.Codec.Marshal(v.Interface())
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if err != nil {
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_, _ = f.s.Write(invalidAngleBytes)
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return
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}
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_, _ = f.s.Write(buf)
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return
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}
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// Handle invalid reflect values immediately.
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kind := v.Kind()
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if kind == reflect.Invalid {
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_, _ = f.s.Write(invalidAngleBytes)
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return
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}
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// Handle pointers specially.
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if kind == reflect.Ptr {
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f.formatPtr(v)
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return
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}
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// get type information unless already handled elsewhere.
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if !f.ignoreNextType && f.s.Flag('#') {
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if v.Type().Kind() != reflect.Map {
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_, _ = f.s.Write(openParenBytes)
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}
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_, _ = f.s.Write([]byte(v.Type().String()))
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if v.Type().Kind() != reflect.Map {
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_, _ = f.s.Write(closeParenBytes)
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}
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}
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f.ignoreNextType = false
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// Call Stringer/error interfaces if they exist and the handle methods
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// flag is enabled.
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if !f.opts.UnwrapMethods {
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if (kind != reflect.Invalid) && (kind != reflect.Interface) {
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if handled := handleMethods(f.opts, f.s, v); handled {
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return
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}
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}
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}
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switch kind {
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case reflect.Invalid:
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_, _ = f.s.Write(invalidAngleBytes)
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case reflect.Bool:
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getBool(f.s, v.Bool())
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case reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Int:
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getInt(f.s, v.Int(), 10)
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case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint:
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getUint(f.s, v.Uint(), 10)
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case reflect.Float32:
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getFloat(f.s, v.Float(), 32)
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case reflect.Float64:
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getFloat(f.s, v.Float(), 64)
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case reflect.Complex64:
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getComplex(f.s, v.Complex(), 32)
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case reflect.Complex128:
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getComplex(f.s, v.Complex(), 64)
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case reflect.Slice:
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if v.IsNil() {
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_, _ = f.s.Write(nilAngleBytes)
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break
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}
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fallthrough
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case reflect.Array:
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_, _ = f.s.Write(openBracketBytes)
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f.depth++
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numEntries := v.Len()
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for i := 0; i < numEntries; i++ {
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if i > 0 {
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_, _ = f.s.Write(spaceBytes)
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}
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f.ignoreNextType = true
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f.format(f.unpackValue(v.Index(i)))
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}
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f.depth--
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_, _ = f.s.Write(closeBracketBytes)
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case reflect.String:
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_, _ = f.s.Write([]byte(`"` + v.String() + `"`))
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case reflect.Interface:
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// The only time we should get here is for nil interfaces due to
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// unpackValue calls.
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if v.IsNil() {
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_, _ = f.s.Write(nilAngleBytes)
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}
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case reflect.Ptr:
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// Do nothing. We should never get here since pointers have already
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// been handled above.
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case reflect.Map:
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// nil maps should be indicated as different than empty maps
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if v.IsNil() {
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_, _ = f.s.Write(nilAngleBytes)
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break
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}
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_, _ = f.s.Write(openMapBytes)
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f.depth++
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keys := v.MapKeys()
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for i, key := range keys {
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if i > 0 {
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_, _ = f.s.Write(spaceBytes)
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}
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f.ignoreNextType = true
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f.format(f.unpackValue(key))
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_, _ = f.s.Write(colonBytes)
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f.ignoreNextType = true
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f.format(f.unpackValue(v.MapIndex(key)))
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}
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f.depth--
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_, _ = f.s.Write(closeMapBytes)
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case reflect.Struct:
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numFields := v.NumField()
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_, _ = f.s.Write(openBraceBytes)
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f.depth++
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vt := v.Type()
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for i := 0; i < numFields; i++ {
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if i > 0 {
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_, _ = f.s.Write(commaBytes)
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_, _ = f.s.Write(spaceBytes)
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}
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vtf := vt.Field(i)
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if f.s.Flag('+') || f.s.Flag('#') {
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_, _ = f.s.Write([]byte(vtf.Name))
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_, _ = f.s.Write(colonBytes)
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}
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f.format(f.unpackValue(v.Field(i)))
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}
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f.depth--
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_, _ = f.s.Write(closeBraceBytes)
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case reflect.Uintptr:
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getHexPtr(f.s, uintptr(v.Uint()))
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case reflect.UnsafePointer, reflect.Chan, reflect.Func:
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getHexPtr(f.s, v.Pointer())
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// There were not any other types at the time this code was written, but
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// fall back to letting the default fmt package handle it if any get added.
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default:
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format := f.buildDefaultFormat()
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if v.CanInterface() {
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_, _ = fmt.Fprintf(f.s, format, v.Interface())
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} else {
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_, _ = fmt.Fprintf(f.s, format, v.String())
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}
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}
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}
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func (f *unwrap) Format(s fmt.State, verb rune) {
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f.s = s
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// Use standard formatting for verbs that are not v.
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if verb != 'v' {
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format := f.constructOrigFormat(verb)
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_, _ = fmt.Fprintf(s, format, f.val)
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return
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}
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if f.val == nil {
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if s.Flag('#') {
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_, _ = s.Write(interfaceBytes)
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}
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_, _ = s.Write(nilAngleBytes)
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return
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}
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f.format(reflect.ValueOf(f.val))
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}
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// handle special methods like error.Error() or fmt.Stringer interface
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func handleMethods(_ *Options, w io.Writer, v reflect.Value) (handled bool) {
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if !v.CanInterface() {
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// not our case
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return false
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}
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if !v.CanAddr() {
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// not our case
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return false
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}
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|
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if v.CanAddr() {
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v = v.Addr()
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}
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// Is it an error or Stringer?
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switch iface := v.Interface().(type) {
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case error:
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defer catchPanic(w, v)
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_, _ = w.Write([]byte(iface.Error()))
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return true
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case fmt.Stringer:
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defer catchPanic(w, v)
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_, _ = w.Write([]byte(iface.String()))
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return true
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}
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return false
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}
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|
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// getBool outputs a boolean value as true or false to Writer w.
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func getBool(w io.Writer, val bool) {
|
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if val {
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_, _ = w.Write(trueBytes)
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} else {
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_, _ = w.Write(falseBytes)
|
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}
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}
|
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|
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// getInt outputs a signed integer value to Writer w.
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func getInt(w io.Writer, val int64, base int) {
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_, _ = w.Write([]byte(strconv.FormatInt(val, base)))
|
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}
|
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|
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// getUint outputs an unsigned integer value to Writer w.
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func getUint(w io.Writer, val uint64, base int) {
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_, _ = w.Write([]byte(strconv.FormatUint(val, base)))
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}
|
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|
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// getFloat outputs a floating point value using the specified precision,
|
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// which is expected to be 32 or 64bit, to Writer w.
|
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func getFloat(w io.Writer, val float64, precision int) {
|
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_, _ = w.Write([]byte(strconv.FormatFloat(val, 'g', -1, precision)))
|
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}
|
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|
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// getComplex outputs a complex value using the specified float precision
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// for the real and imaginary parts to Writer w.
|
||||
func getComplex(w io.Writer, c complex128, floatPrecision int) {
|
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r := real(c)
|
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_, _ = w.Write(openParenBytes)
|
||||
_, _ = w.Write([]byte(strconv.FormatFloat(r, 'g', -1, floatPrecision)))
|
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i := imag(c)
|
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if i >= 0 {
|
||||
_, _ = w.Write(plusBytes)
|
||||
}
|
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_, _ = w.Write([]byte(strconv.FormatFloat(i, 'g', -1, floatPrecision)))
|
||||
_, _ = w.Write(iBytes)
|
||||
_, _ = w.Write(closeParenBytes)
|
||||
}
|
||||
|
||||
// getHexPtr outputs a uintptr formatted as hexadecimal with a leading '0x'
|
||||
// prefix to Writer w.
|
||||
func getHexPtr(w io.Writer, p uintptr) {
|
||||
// Null pointer.
|
||||
num := uint64(p)
|
||||
if num == 0 {
|
||||
_, _ = w.Write(nilAngleBytes)
|
||||
return
|
||||
}
|
||||
|
||||
// Max uint64 is 16 bytes in hex + 2 bytes for '0x' prefix
|
||||
buf := make([]byte, 18)
|
||||
|
||||
// It's simpler to construct the hex string right to left.
|
||||
base := uint64(16)
|
||||
i := len(buf) - 1
|
||||
for num >= base {
|
||||
buf[i] = hexDigits[num%base]
|
||||
num /= base
|
||||
i--
|
||||
}
|
||||
buf[i] = hexDigits[num]
|
||||
|
||||
// Add '0x' prefix.
|
||||
i--
|
||||
buf[i] = 'x'
|
||||
i--
|
||||
buf[i] = '0'
|
||||
|
||||
// Strip unused leading bytes.
|
||||
buf = buf[i:]
|
||||
_, _ = w.Write(buf)
|
||||
}
|
||||
|
||||
func catchPanic(w io.Writer, _ reflect.Value) {
|
||||
if err := recover(); err != nil {
|
||||
_, _ = w.Write(panicBytes)
|
||||
_, _ = fmt.Fprintf(w, "%v", err)
|
||||
_, _ = w.Write(closeParenBytes)
|
||||
}
|
||||
}
|
||||
|
||||
func (f *unwrap) buildDefaultFormat() (format string) {
|
||||
buf := bytes.NewBuffer(percentBytes)
|
||||
|
||||
for _, flag := range sf {
|
||||
if f.s.Flag(int(flag)) {
|
||||
_, _ = buf.WriteRune(flag)
|
||||
}
|
||||
}
|
||||
|
||||
_, _ = buf.WriteRune('v')
|
||||
|
||||
format = buf.String()
|
||||
return format
|
||||
}
|
||||
|
||||
func (f *unwrap) constructOrigFormat(verb rune) (format string) {
|
||||
buf := bytes.NewBuffer(percentBytes)
|
||||
|
||||
for _, flag := range sf {
|
||||
if f.s.Flag(int(flag)) {
|
||||
_, _ = buf.WriteRune(flag)
|
||||
}
|
||||
}
|
||||
|
||||
if width, ok := f.s.Width(); ok {
|
||||
_, _ = buf.WriteString(strconv.Itoa(width))
|
||||
}
|
||||
|
||||
if precision, ok := f.s.Precision(); ok {
|
||||
_, _ = buf.Write(precisionBytes)
|
||||
_, _ = buf.WriteString(strconv.Itoa(precision))
|
||||
}
|
||||
|
||||
_, _ = buf.WriteRune(verb)
|
||||
|
||||
format = buf.String()
|
||||
return format
|
||||
}
|
46
logger/unwrap/unwrap_test.go
Normal file
46
logger/unwrap/unwrap_test.go
Normal file
@ -0,0 +1,46 @@
|
||||
package unwrap
|
||||
|
||||
import (
|
||||
"testing"
|
||||
|
||||
"go.unistack.org/micro/v3/codec"
|
||||
)
|
||||
|
||||
func TestUnwrap(t *testing.T) {
|
||||
string1 := "string1"
|
||||
string2 := "string2"
|
||||
|
||||
type val1 struct {
|
||||
mp map[string]string
|
||||
val *val1
|
||||
str *string
|
||||
ar []*string
|
||||
}
|
||||
|
||||
v1 := &val1{ar: []*string{&string1, &string2}, str: &string1, val: &val1{str: &string2}, mp: map[string]string{"key": "val"}}
|
||||
|
||||
t.Logf("output: %#v", Unwrap(v1))
|
||||
|
||||
type val2 struct {
|
||||
mp map[string]string
|
||||
val *val2
|
||||
str string
|
||||
ar []string
|
||||
}
|
||||
|
||||
v2 := &val2{ar: []string{string1, string2}, str: string1, val: &val2{str: string2}, mp: map[string]string{"key": "val"}}
|
||||
|
||||
t.Logf("output: %#v", v2)
|
||||
}
|
||||
|
||||
func TestUnwrapCodec(t *testing.T) {
|
||||
type val struct {
|
||||
MP map[string]string `json:"mp"`
|
||||
STR string `json:"str"`
|
||||
AR []string `json:"ar"`
|
||||
}
|
||||
|
||||
v1 := &val{AR: []string{"string1", "string2"}, STR: "string", MP: map[string]string{"key": "val"}}
|
||||
|
||||
t.Logf("output: %#v", Unwrap(v1, UnwrapCodec(codec.NewCodec())))
|
||||
}
|
Loading…
x
Reference in New Issue
Block a user