mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-12-18 16:31:06 +00:00
511 lines
12 KiB
Go
511 lines
12 KiB
Go
package validator
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import (
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"context"
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"fmt"
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"reflect"
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"strconv"
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"unsafe"
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)
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// per validate construct
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type validate struct {
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v *Validate
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top reflect.Value
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ns []byte
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actualNs []byte
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errs ValidationErrors
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includeExclude map[string]struct{} // reset only if StructPartial or StructExcept are called, no need otherwise
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ffn FilterFunc
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slflParent reflect.Value // StructLevel & FieldLevel
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slCurrent reflect.Value // StructLevel & FieldLevel
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flField reflect.Value // StructLevel & FieldLevel
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cf *cField // StructLevel & FieldLevel
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ct *cTag // StructLevel & FieldLevel
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misc []byte // misc reusable
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str1 string // misc reusable
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str2 string // misc reusable
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fldIsPointer bool // StructLevel & FieldLevel
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isPartial bool
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hasExcludes bool
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}
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// parent and current will be the same the first run of validateStruct
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func (v *validate) validateStruct(ctx context.Context, parent reflect.Value, current reflect.Value, typ reflect.Type, ns []byte, structNs []byte, ct *cTag) {
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cs, ok := v.v.structCache.Get(typ)
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if !ok {
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cs = v.v.extractStructCache(current, typ.Name())
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}
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if len(ns) == 0 && len(cs.name) != 0 {
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ns = append(ns, cs.name...)
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ns = append(ns, '.')
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structNs = append(structNs, cs.name...)
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structNs = append(structNs, '.')
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}
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// ct is nil on top level struct, and structs as fields that have no tag info
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// so if nil or if not nil and the structonly tag isn't present
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if ct == nil || ct.typeof != typeStructOnly {
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var f *cField
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for i := 0; i < len(cs.fields); i++ {
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f = cs.fields[i]
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if v.isPartial {
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if v.ffn != nil {
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// used with StructFiltered
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if v.ffn(append(structNs, f.name...)) {
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continue
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}
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} else {
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// used with StructPartial & StructExcept
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_, ok = v.includeExclude[string(append(structNs, f.name...))]
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if (ok && v.hasExcludes) || (!ok && !v.hasExcludes) {
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continue
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}
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}
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}
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v.traverseField(ctx, current, current.Field(f.idx), ns, structNs, f, f.cTags)
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}
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}
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// check if any struct level validations, after all field validations already checked.
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// first iteration will have no info about nostructlevel tag, and is checked prior to
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// calling the next iteration of validateStruct called from traverseField.
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if cs.fn != nil {
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v.slflParent = parent
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v.slCurrent = current
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v.ns = ns
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v.actualNs = structNs
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cs.fn(ctx, v)
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}
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}
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// traverseField validates any field, be it a struct or single field, ensures it's validity and passes it along to be validated via it's tag options
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func (v *validate) traverseField(ctx context.Context, parent reflect.Value, current reflect.Value, ns []byte, structNs []byte, cf *cField, ct *cTag) {
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var typ reflect.Type
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var kind reflect.Kind
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current, kind, v.fldIsPointer = v.extractTypeInternal(current, false)
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var isNestedStruct bool
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switch kind {
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case reflect.Ptr, reflect.Interface, reflect.Invalid:
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if ct == nil {
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return
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}
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if ct.typeof == typeOmitEmpty || ct.typeof == typeIsDefault {
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return
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}
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if ct.typeof == typeOmitNil && (kind != reflect.Invalid && current.IsNil()) {
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return
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}
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if ct.hasTag {
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if kind == reflect.Invalid {
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v.str1 = string(append(ns, cf.altName...))
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if v.v.hasTagNameFunc {
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v.str2 = string(append(structNs, cf.name...))
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} else {
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v.str2 = v.str1
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}
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v.errs = append(v.errs,
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&fieldError{
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v: v.v,
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tag: ct.aliasTag,
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actualTag: ct.tag,
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ns: v.str1,
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structNs: v.str2,
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fieldLen: uint8(len(cf.altName)),
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structfieldLen: uint8(len(cf.name)),
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param: ct.param,
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kind: kind,
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},
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)
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return
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}
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v.str1 = string(append(ns, cf.altName...))
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if v.v.hasTagNameFunc {
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v.str2 = string(append(structNs, cf.name...))
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} else {
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v.str2 = v.str1
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}
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if !ct.runValidationWhenNil {
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v.errs = append(v.errs,
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&fieldError{
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v: v.v,
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tag: ct.aliasTag,
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actualTag: ct.tag,
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ns: v.str1,
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structNs: v.str2,
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fieldLen: uint8(len(cf.altName)),
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structfieldLen: uint8(len(cf.name)),
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value: getValue(current),
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param: ct.param,
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kind: kind,
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typ: current.Type(),
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},
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)
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return
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}
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}
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if kind == reflect.Invalid {
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return
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}
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case reflect.Struct:
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isNestedStruct = !current.Type().ConvertibleTo(timeType)
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// For backward compatibility before struct level validation tags were supported
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// as there were a number of projects relying on `required` not failing on non-pointer
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// structs. Since it's basically nonsensical to use `required` with a non-pointer struct
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// are explicitly skipping the required validation for it. This WILL be removed in the
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// next major version.
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if isNestedStruct && !v.v.requiredStructEnabled && ct != nil && ct.tag == requiredTag {
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ct = ct.next
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}
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}
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typ = current.Type()
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OUTER:
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for {
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if ct == nil || !ct.hasTag || (isNestedStruct && len(cf.name) == 0) {
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// isNestedStruct check here
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if isNestedStruct {
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// if len == 0 then validating using 'Var' or 'VarWithValue'
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// Var - doesn't make much sense to do it that way, should call 'Struct', but no harm...
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// VarWithField - this allows for validating against each field within the struct against a specific value
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// pretty handy in certain situations
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if len(cf.name) > 0 {
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ns = append(append(ns, cf.altName...), '.')
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structNs = append(append(structNs, cf.name...), '.')
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}
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v.validateStruct(ctx, parent, current, typ, ns, structNs, ct)
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}
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return
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}
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switch ct.typeof {
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case typeNoStructLevel:
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return
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case typeStructOnly:
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if isNestedStruct {
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// if len == 0 then validating using 'Var' or 'VarWithValue'
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// Var - doesn't make much sense to do it that way, should call 'Struct', but no harm...
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// VarWithField - this allows for validating against each field within the struct against a specific value
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// pretty handy in certain situations
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if len(cf.name) > 0 {
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ns = append(append(ns, cf.altName...), '.')
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structNs = append(append(structNs, cf.name...), '.')
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}
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v.validateStruct(ctx, parent, current, typ, ns, structNs, ct)
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}
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return
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case typeOmitEmpty:
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// set Field Level fields
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v.slflParent = parent
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v.flField = current
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v.cf = cf
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v.ct = ct
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if !hasValue(v) {
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return
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}
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ct = ct.next
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continue
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case typeOmitNil:
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v.slflParent = parent
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v.flField = current
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v.cf = cf
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v.ct = ct
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switch field := v.Field(); field.Kind() {
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case reflect.Slice, reflect.Map, reflect.Ptr, reflect.Interface, reflect.Chan, reflect.Func:
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if field.IsNil() {
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return
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}
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default:
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if v.fldIsPointer && field.Interface() == nil {
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return
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}
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}
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ct = ct.next
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continue
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case typeEndKeys:
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return
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case typeDive:
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ct = ct.next
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// traverse slice or map here
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// or panic ;)
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switch kind {
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case reflect.Slice, reflect.Array:
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var i64 int64
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reusableCF := &cField{}
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for i := 0; i < current.Len(); i++ {
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i64 = int64(i)
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v.misc = append(v.misc[0:0], cf.name...)
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v.misc = append(v.misc, '[')
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v.misc = strconv.AppendInt(v.misc, i64, 10)
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v.misc = append(v.misc, ']')
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reusableCF.name = string(v.misc)
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if cf.namesEqual {
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reusableCF.altName = reusableCF.name
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} else {
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v.misc = append(v.misc[0:0], cf.altName...)
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v.misc = append(v.misc, '[')
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v.misc = strconv.AppendInt(v.misc, i64, 10)
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v.misc = append(v.misc, ']')
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reusableCF.altName = string(v.misc)
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}
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v.traverseField(ctx, parent, current.Index(i), ns, structNs, reusableCF, ct)
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}
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case reflect.Map:
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var pv string
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reusableCF := &cField{}
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for _, key := range current.MapKeys() {
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pv = fmt.Sprintf("%v", key.Interface())
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v.misc = append(v.misc[0:0], cf.name...)
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v.misc = append(v.misc, '[')
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v.misc = append(v.misc, pv...)
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v.misc = append(v.misc, ']')
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reusableCF.name = string(v.misc)
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if cf.namesEqual {
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reusableCF.altName = reusableCF.name
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} else {
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v.misc = append(v.misc[0:0], cf.altName...)
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v.misc = append(v.misc, '[')
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v.misc = append(v.misc, pv...)
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v.misc = append(v.misc, ']')
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reusableCF.altName = string(v.misc)
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}
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if ct != nil && ct.typeof == typeKeys && ct.keys != nil {
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v.traverseField(ctx, parent, key, ns, structNs, reusableCF, ct.keys)
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// can be nil when just keys being validated
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if ct.next != nil {
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v.traverseField(ctx, parent, current.MapIndex(key), ns, structNs, reusableCF, ct.next)
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}
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} else {
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v.traverseField(ctx, parent, current.MapIndex(key), ns, structNs, reusableCF, ct)
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}
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}
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default:
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// throw error, if not a slice or map then should not have gotten here
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// bad dive tag
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panic("dive error! can't dive on a non slice or map")
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}
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return
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case typeOr:
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v.misc = v.misc[0:0]
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for {
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// set Field Level fields
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v.slflParent = parent
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v.flField = current
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v.cf = cf
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v.ct = ct
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if ct.fn(ctx, v) {
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if ct.isBlockEnd {
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ct = ct.next
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continue OUTER
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}
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// drain rest of the 'or' values, then continue or leave
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for {
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ct = ct.next
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if ct == nil {
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continue OUTER
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}
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if ct.typeof != typeOr {
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continue OUTER
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}
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if ct.isBlockEnd {
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ct = ct.next
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continue OUTER
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}
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}
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}
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v.misc = append(v.misc, '|')
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v.misc = append(v.misc, ct.tag...)
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if ct.hasParam {
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v.misc = append(v.misc, '=')
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v.misc = append(v.misc, ct.param...)
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}
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if ct.isBlockEnd || ct.next == nil {
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// if we get here, no valid 'or' value and no more tags
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v.str1 = string(append(ns, cf.altName...))
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if v.v.hasTagNameFunc {
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v.str2 = string(append(structNs, cf.name...))
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} else {
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v.str2 = v.str1
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}
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if ct.hasAlias {
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v.errs = append(v.errs,
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&fieldError{
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v: v.v,
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tag: ct.aliasTag,
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actualTag: ct.actualAliasTag,
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ns: v.str1,
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structNs: v.str2,
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fieldLen: uint8(len(cf.altName)),
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structfieldLen: uint8(len(cf.name)),
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value: getValue(current),
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param: ct.param,
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kind: kind,
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typ: typ,
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},
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)
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} else {
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tVal := string(v.misc)[1:]
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v.errs = append(v.errs,
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&fieldError{
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v: v.v,
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tag: tVal,
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actualTag: tVal,
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ns: v.str1,
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structNs: v.str2,
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fieldLen: uint8(len(cf.altName)),
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structfieldLen: uint8(len(cf.name)),
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value: getValue(current),
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param: ct.param,
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kind: kind,
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typ: typ,
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},
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)
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}
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return
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}
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ct = ct.next
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}
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default:
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// set Field Level fields
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v.slflParent = parent
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v.flField = current
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v.cf = cf
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v.ct = ct
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if !ct.fn(ctx, v) {
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v.str1 = string(append(ns, cf.altName...))
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if v.v.hasTagNameFunc {
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v.str2 = string(append(structNs, cf.name...))
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} else {
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v.str2 = v.str1
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}
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v.errs = append(v.errs,
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&fieldError{
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v: v.v,
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tag: ct.aliasTag,
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actualTag: ct.tag,
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ns: v.str1,
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structNs: v.str2,
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fieldLen: uint8(len(cf.altName)),
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structfieldLen: uint8(len(cf.name)),
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value: getValue(current),
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param: ct.param,
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kind: kind,
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typ: typ,
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},
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)
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return
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}
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ct = ct.next
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}
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}
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}
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func getValue(val reflect.Value) interface{} {
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if val.CanInterface() {
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return val.Interface()
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}
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if val.CanAddr() {
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return reflect.NewAt(val.Type(), unsafe.Pointer(val.UnsafeAddr())).Elem().Interface()
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}
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switch val.Kind() {
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case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
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return val.Int()
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case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
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return val.Uint()
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case reflect.Complex64, reflect.Complex128:
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return val.Complex()
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case reflect.Float32, reflect.Float64:
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return val.Float()
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default:
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return val.String()
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}
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}
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