371 lines
11 KiB
Go
371 lines
11 KiB
Go
// Copyright 2015-2018 trivago N.V.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package treflect
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import (
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"fmt"
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"reflect"
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"unsafe"
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)
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// GetMissingMethods checks if a given object implements all methods of a
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// given interface. It returns the interface coverage [0..1] as well as an array
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// of error messages. If the interface is correctly implemented the coverage is
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// 1 and the error message array is empty.
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func GetMissingMethods(objType reflect.Type, ifaceType reflect.Type) (float32, []string) {
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missing := []string{}
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if objType.Implements(ifaceType) {
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return 1.0, missing
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}
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methodCount := ifaceType.NumMethod()
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for mIdx := 0; mIdx < methodCount; mIdx++ {
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ifaceMethod := ifaceType.Method(mIdx)
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objMethod, exists := objType.MethodByName(ifaceMethod.Name)
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signatureMismatch := false
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switch {
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case !exists:
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missing = append(missing, fmt.Sprintf("Missing: \"%s\" %v", ifaceMethod.Name, ifaceMethod.Type))
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continue // ### continue, error found ###
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case ifaceMethod.Type.NumOut() != objMethod.Type.NumOut():
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signatureMismatch = true
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case ifaceMethod.Type.NumIn()+1 != objMethod.Type.NumIn():
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signatureMismatch = true
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default:
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for oIdx := 0; !signatureMismatch && oIdx < ifaceMethod.Type.NumOut(); oIdx++ {
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signatureMismatch = ifaceMethod.Type.Out(oIdx) != objMethod.Type.Out(oIdx)
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}
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for iIdx := 0; !signatureMismatch && iIdx < ifaceMethod.Type.NumIn(); iIdx++ {
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signatureMismatch = ifaceMethod.Type.In(iIdx) != objMethod.Type.In(iIdx+1)
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}
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}
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if signatureMismatch {
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missing = append(missing, fmt.Sprintf("Invalid: \"%s\" %v is not %v", ifaceMethod.Name, objMethod.Type, ifaceMethod.Type))
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}
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}
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return float32(methodCount-len(missing)) / float32(methodCount), missing
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}
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// Int64 converts any signed number type to an int64.
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// The second parameter is returned as false if a non-number type was given.
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func Int64(v interface{}) (int64, bool) {
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switch reflect.TypeOf(v).Kind() {
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case reflect.Int:
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return int64(v.(int)), true
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case reflect.Int8:
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return int64(v.(int8)), true
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case reflect.Int16:
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return int64(v.(int16)), true
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case reflect.Int32:
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return int64(v.(int32)), true
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case reflect.Int64:
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return v.(int64), true
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case reflect.Float32:
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return int64(v.(float32)), true
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case reflect.Float64:
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return int64(v.(float64)), true
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}
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return 0, false
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}
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// Uint64 converts any unsigned number type to an uint64.
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// The second parameter is returned as false if a non-number type was given.
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func Uint64(v interface{}) (uint64, bool) {
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switch reflect.TypeOf(v).Kind() {
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case reflect.Uint:
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return uint64(v.(uint)), true
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case reflect.Uint8:
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return uint64(v.(uint8)), true
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case reflect.Uint16:
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return uint64(v.(uint16)), true
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case reflect.Uint32:
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return uint64(v.(uint32)), true
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case reflect.Uint64:
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return v.(uint64), true
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}
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return 0, false
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}
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// Float32 converts any number type to an float32.
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// The second parameter is returned as false if a non-number type was given.
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func Float32(v interface{}) (float32, bool) {
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switch reflect.TypeOf(v).Kind() {
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case reflect.Int:
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return float32(v.(int)), true
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case reflect.Uint:
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return float32(v.(uint)), true
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case reflect.Int8:
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return float32(v.(int8)), true
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case reflect.Uint8:
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return float32(v.(uint8)), true
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case reflect.Int16:
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return float32(v.(int16)), true
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case reflect.Uint16:
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return float32(v.(uint16)), true
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case reflect.Int32:
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return float32(v.(int32)), true
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case reflect.Uint32:
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return float32(v.(uint32)), true
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case reflect.Int64:
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return float32(v.(int64)), true
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case reflect.Uint64:
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return float32(v.(uint64)), true
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case reflect.Float32:
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return v.(float32), true
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case reflect.Float64:
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return float32(v.(float64)), true
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}
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return 0, false
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}
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// Float64 converts any number type to an float64.
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// The second parameter is returned as false if a non-number type was given.
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func Float64(v interface{}) (float64, bool) {
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switch reflect.TypeOf(v).Kind() {
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case reflect.Int:
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return float64(v.(int)), true
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case reflect.Uint:
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return float64(v.(uint)), true
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case reflect.Int8:
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return float64(v.(int8)), true
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case reflect.Uint8:
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return float64(v.(uint8)), true
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case reflect.Int16:
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return float64(v.(int16)), true
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case reflect.Uint16:
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return float64(v.(uint16)), true
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case reflect.Int32:
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return float64(v.(int32)), true
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case reflect.Uint32:
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return float64(v.(uint32)), true
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case reflect.Int64:
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return float64(v.(int64)), true
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case reflect.Uint64:
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return float64(v.(uint64)), true
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case reflect.Float32:
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return float64(v.(float32)), true
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case reflect.Float64:
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return v.(float64), true
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}
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return 0, false
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}
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// RemovePtrFromType will return the type of t and strips away any pointer(s)
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// in front of the actual type.
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func RemovePtrFromType(t interface{}) reflect.Type {
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var v reflect.Type
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if rt, isType := t.(reflect.Type); isType {
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v = rt
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} else {
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v = reflect.TypeOf(t)
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}
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for v.Kind() == reflect.Ptr {
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v = v.Elem()
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}
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return v
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}
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// RemovePtrFromValue will return the value of t and strips away any pointer(s)
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// in front of the actual type.
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func RemovePtrFromValue(t interface{}) reflect.Value {
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var v reflect.Value
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if rv, isValue := t.(reflect.Value); isValue {
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v = rv
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} else {
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v = reflect.ValueOf(t)
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}
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for v.Type().Kind() == reflect.Ptr {
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v = v.Elem()
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}
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return v
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}
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// UnsafeCopy will copy data from src to dst while ignoring type information.
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// Both types need to be of the same size and dst and src have to be pointers.
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// UnsafeCopy will panic if these requirements are not met.
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func UnsafeCopy(dst, src interface{}) {
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dstValue := reflect.ValueOf(dst)
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srcValue := reflect.ValueOf(src)
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UnsafeCopyValue(dstValue, srcValue)
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}
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// UnsafeCopyValue will copy data from src to dst while ignoring type
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// information. Both types need to be of the same size or this function will
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// panic. Also both types must support dereferencing via reflect.Elem()
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func UnsafeCopyValue(dstValue reflect.Value, srcValue reflect.Value) {
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dstType := dstValue.Elem().Type()
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srcType := srcValue.Type()
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var srcPtr uintptr
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if srcValue.Kind() != reflect.Ptr {
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// If we don't get a pointer to our source data we need to forcefully
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// retrieve it by accessing the interface pointer. This is ok as we
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// only read from it.
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iface := srcValue.Interface()
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srcPtr = reflect.ValueOf(&iface).Elem().InterfaceData()[1] // Pointer to data
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} else {
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srcType = srcValue.Elem().Type()
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srcPtr = srcValue.Pointer()
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}
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if dstType.Size() != srcType.Size() {
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panic("Type size mismatch between " + dstType.String() + " and " + srcType.String())
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}
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dstAsSlice := *(*[]byte)(unsafe.Pointer(&reflect.SliceHeader{
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Data: dstValue.Pointer(),
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Len: int(dstType.Size()),
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Cap: int(dstType.Size()),
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}))
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srcAsSlice := *(*[]byte)(unsafe.Pointer(&reflect.SliceHeader{
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Data: srcPtr,
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Len: int(srcType.Size()),
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Cap: int(srcType.Size()),
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}))
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copy(dstAsSlice, srcAsSlice)
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}
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// SetMemberByName sets member name of the given pointer-to-struct to the data
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// passed to this function. The member may be private, too.
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func SetMemberByName(ptrToStruct interface{}, name string, data interface{}) {
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structVal := reflect.Indirect(reflect.ValueOf(ptrToStruct))
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member := structVal.FieldByName(name)
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SetValue(member, data)
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}
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// SetMemberByIndex sets member idx of the given pointer-to-struct to the data
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// passed to this function. The member may be private, too.
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func SetMemberByIndex(ptrToStruct interface{}, idx int, data interface{}) {
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structVal := reflect.Indirect(reflect.ValueOf(ptrToStruct))
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member := structVal.Field(idx)
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SetValue(member, data)
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}
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// SetValue sets an addressable value to the data passed to this function.
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// In contrast to golangs reflect package this will also work with private
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// variables. Please note that this function may not support all types, yet.
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func SetValue(member reflect.Value, data interface{}) {
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if member.CanSet() {
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member.Set(reflect.ValueOf(data).Convert(member.Type()))
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return // ### return, easy way ###
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}
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if !member.CanAddr() {
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panic("SetValue requires addressable member type")
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}
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ptrToMember := unsafe.Pointer(member.UnsafeAddr())
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dataValue := reflect.ValueOf(data)
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switch member.Kind() {
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case reflect.Bool:
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*(*bool)(ptrToMember) = dataValue.Bool()
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case reflect.Uint:
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*(*uint)(ptrToMember) = uint(dataValue.Uint())
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case reflect.Uint8:
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*(*uint8)(ptrToMember) = uint8(dataValue.Uint())
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case reflect.Uint16:
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*(*uint16)(ptrToMember) = uint16(dataValue.Uint())
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case reflect.Uint32:
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*(*uint32)(ptrToMember) = uint32(dataValue.Uint())
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case reflect.Uint64:
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*(*uint64)(ptrToMember) = dataValue.Uint()
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case reflect.Int:
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*(*int)(ptrToMember) = int(dataValue.Int())
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case reflect.Int8:
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*(*int8)(ptrToMember) = int8(dataValue.Int())
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case reflect.Int16:
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*(*int16)(ptrToMember) = int16(dataValue.Int())
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case reflect.Int32:
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*(*int32)(ptrToMember) = int32(dataValue.Int())
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case reflect.Int64:
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*(*int64)(ptrToMember) = dataValue.Int()
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case reflect.Float32:
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*(*float32)(ptrToMember) = float32(dataValue.Float())
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case reflect.Float64:
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*(*float64)(ptrToMember) = dataValue.Float()
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case reflect.Complex64:
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*(*complex64)(ptrToMember) = complex64(dataValue.Complex())
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case reflect.Complex128:
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*(*complex128)(ptrToMember) = dataValue.Complex()
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case reflect.String:
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*(*string)(ptrToMember) = dataValue.String()
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case reflect.Map, reflect.Chan:
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// Exploit the fact that "map" is actually "*runtime.hmap" and force
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// overwrite that pointer in the passed struct.
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// Same foes for "chan" which is actually "*runtime.hchan".
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// Note: Assigning a map or channel to another variable does NOT copy
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// the contents so copying the pointer follows go's standard behavior.
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dataAsPtr := unsafe.Pointer(dataValue.Pointer())
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*(**uintptr)(ptrToMember) = (*uintptr)(dataAsPtr)
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case reflect.Interface:
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// Interfaces are basically two pointers, see runtime.iface.
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// We want to modify exactly that data, which is returned by
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// the InterfaceData() method.
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if dataValue.Kind() != reflect.Interface {
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// A type reference was passed. In order to overwrite the memory
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// Representation of an interface we need to generate it first.
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// Reflect does not allow us to do that unless we use the
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// InterfaceData method which exposes the internal representation
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// of an interface.
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interfaceData := reflect.ValueOf(&data).Elem().InterfaceData()
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dataValue = reflect.ValueOf(interfaceData)
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}
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fallthrough
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default:
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// Complex types are assigned memcpy style.
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// Note: This should not break the garbage collector although we cannot
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// be 100% sure on this.
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UnsafeCopyValue(member.Addr(), dataValue)
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}
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}
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