// Copyright GoFrame Author(https://goframe.org). All Rights Reserved. // // This Source Code Form is subject to the terms of the MIT License. // If a copy of the MIT was not distributed with this file, // You can obtain one at https://github.com/gogf/gf. package converter import ( "reflect" "github.com/gogf/gf/v2/internal/empty" "github.com/gogf/gf/v2/internal/json" "github.com/gogf/gf/v2/internal/reflection" "github.com/gogf/gf/v2/internal/utils" "github.com/gogf/gf/v2/util/gconv/internal/localinterface" ) // SliceInt converts `any` to []int. func (c *Converter) SliceInt(any any, option ...SliceOption) ([]int, error) { if empty.IsNil(any) { return nil, nil } var ( err error ii int array []int = nil sliceOption = c.getSliceOption(option...) ) switch value := any.(type) { case []string: array = make([]int, len(value)) for k, v := range value { ii, err = c.Int(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []int: array = value case []int8: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []int16: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []int32: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []int64: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []uint: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []uint8: if json.Valid(value) { if err = json.UnmarshalUseNumber(value, &array); array != nil { return array, err } } array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case string: byteValue := []byte(value) if json.Valid(byteValue) { if err = json.UnmarshalUseNumber(byteValue, &array); array != nil { return array, err } } if value == "" { return []int{}, err } if utils.IsNumeric(value) { ii, err = c.Int(value) if err != nil && !sliceOption.ContinueOnError { return nil, err } return []int{ii}, err } case []uint16: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []uint32: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []uint64: array = make([]int, len(value)) for k, v := range value { array[k] = int(v) } case []bool: array = make([]int, len(value)) for k, v := range value { if v { array[k] = 1 } else { array[k] = 0 } } case []float32: array = make([]int, len(value)) for k, v := range value { ii, err = c.Int(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []float64: array = make([]int, len(value)) for k, v := range value { ii, err = c.Int(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []interface{}: array = make([]int, len(value)) for k, v := range value { ii, err = c.Int(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case [][]byte: array = make([]int, len(value)) for k, v := range value { ii, err = c.Int(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } } if array != nil { return array, err } if v, ok := any.(localinterface.IInts); ok { return v.Ints(), err } if v, ok := any.(localinterface.IInterfaces); ok { return c.SliceInt(v.Interfaces(), option...) } // Not a common type, it then uses reflection for conversion. originValueAndKind := reflection.OriginValueAndKind(any) switch originValueAndKind.OriginKind { case reflect.Slice, reflect.Array: var ( length = originValueAndKind.OriginValue.Len() slice = make([]int, length) ) for i := 0; i < length; i++ { ii, err = c.Int(originValueAndKind.OriginValue.Index(i).Interface()) if err != nil && !sliceOption.ContinueOnError { return nil, err } slice[i] = ii } return slice, err default: if originValueAndKind.OriginValue.IsZero() { return []int{}, err } ii, err = c.Int(any) if err != nil && !sliceOption.ContinueOnError { return nil, err } return []int{ii}, err } } // SliceInt32 converts `any` to []int32. func (c *Converter) SliceInt32(any any, option ...SliceOption) ([]int32, error) { if empty.IsNil(any) { return nil, nil } var ( err error ii int32 array []int32 = nil sliceOption = c.getSliceOption(option...) ) switch value := any.(type) { case []string: array = make([]int32, len(value)) for k, v := range value { ii, err = c.Int32(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []int: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []int8: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []int16: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []int32: array = value case []int64: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []uint: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []uint8: if json.Valid(value) { if err = json.UnmarshalUseNumber(value, &array); array != nil { return array, err } } array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case string: byteValue := []byte(value) if json.Valid(byteValue) { if err = json.UnmarshalUseNumber(byteValue, &array); array != nil { return array, err } } if value == "" { return []int32{}, err } if utils.IsNumeric(value) { ii, err = c.Int32(value) if err != nil && !sliceOption.ContinueOnError { return nil, err } return []int32{ii}, err } case []uint16: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []uint32: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []uint64: array = make([]int32, len(value)) for k, v := range value { array[k] = int32(v) } case []bool: array = make([]int32, len(value)) for k, v := range value { if v { array[k] = 1 } else { array[k] = 0 } } case []float32: array = make([]int32, len(value)) for k, v := range value { ii, err = c.Int32(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []float64: array = make([]int32, len(value)) for k, v := range value { ii, err = c.Int32(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []interface{}: array = make([]int32, len(value)) for k, v := range value { ii, err = c.Int32(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case [][]byte: array = make([]int32, len(value)) for k, v := range value { ii, err = c.Int32(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } } if array != nil { return array, err } if v, ok := any.(localinterface.IInts); ok { return c.SliceInt32(v.Ints(), option...) } if v, ok := any.(localinterface.IInterfaces); ok { return c.SliceInt32(v.Interfaces(), option...) } // Not a common type, it then uses reflection for conversion. originValueAndKind := reflection.OriginValueAndKind(any) switch originValueAndKind.OriginKind { case reflect.Slice, reflect.Array: var ( length = originValueAndKind.OriginValue.Len() slice = make([]int32, length) ) for i := 0; i < length; i++ { ii, err = c.Int32(originValueAndKind.OriginValue.Index(i).Interface()) if err != nil && !sliceOption.ContinueOnError { return nil, err } slice[i] = ii } return slice, err default: if originValueAndKind.OriginValue.IsZero() { return []int32{}, err } ii, err = c.Int32(any) if err != nil && !sliceOption.ContinueOnError { return nil, err } return []int32{ii}, err } } // SliceInt64 converts `any` to []int64. func (c *Converter) SliceInt64(any any, option ...SliceOption) ([]int64, error) { if empty.IsNil(any) { return nil, nil } var ( err error ii int64 array []int64 = nil sliceOption = c.getSliceOption(option...) ) switch value := any.(type) { case []string: array = make([]int64, len(value)) for k, v := range value { ii, err = c.Int64(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []int: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []int8: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []int16: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []int32: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []int64: array = value case []uint: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []uint8: if json.Valid(value) { if err = json.UnmarshalUseNumber(value, &array); array != nil { return array, err } } array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case string: byteValue := []byte(value) if json.Valid(byteValue) { if err = json.UnmarshalUseNumber(byteValue, &array); array != nil { return array, err } } if value == "" { return []int64{}, err } if utils.IsNumeric(value) { ii, err = c.Int64(value) if err != nil && !sliceOption.ContinueOnError { return nil, err } return []int64{ii}, err } case []uint16: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []uint32: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []uint64: array = make([]int64, len(value)) for k, v := range value { array[k] = int64(v) } case []bool: array = make([]int64, len(value)) for k, v := range value { if v { array[k] = 1 } else { array[k] = 0 } } case []float32: array = make([]int64, len(value)) for k, v := range value { ii, err = c.Int64(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []float64: array = make([]int64, len(value)) for k, v := range value { ii, err = c.Int64(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case []interface{}: array = make([]int64, len(value)) for k, v := range value { ii, err = c.Int64(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } case [][]byte: array = make([]int64, len(value)) for k, v := range value { ii, err = c.Int64(v) if err != nil && !sliceOption.ContinueOnError { return nil, err } array[k] = ii } } if array != nil { return array, err } if v, ok := any.(localinterface.IInts); ok { return c.SliceInt64(v.Ints(), option...) } if v, ok := any.(localinterface.IInterfaces); ok { return c.SliceInt64(v.Interfaces(), option...) } // Not a common type, it then uses reflection for conversion. originValueAndKind := reflection.OriginValueAndKind(any) switch originValueAndKind.OriginKind { case reflect.Slice, reflect.Array: var ( length = originValueAndKind.OriginValue.Len() slice = make([]int64, length) ) for i := 0; i < length; i++ { ii, err = c.Int64(originValueAndKind.OriginValue.Index(i).Interface()) if err != nil && !sliceOption.ContinueOnError { return nil, err } slice[i] = ii } return slice, err default: if originValueAndKind.OriginValue.IsZero() { return []int64{}, err } ii, err = c.Int64(any) if err != nil && !sliceOption.ContinueOnError { return nil, err } return []int64{ii}, err } }