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// Package implements functions to decode values of a html form.
package common
import (
"encoding"
"encoding/json"
"fmt"
"net/url"
"reflect"
"strconv"
"time"
)
const tagName = "study"
// pathMap holds the values of a map with its key and values correspondent
type pathMap struct {
ma reflect.Value
key string
value reflect.Value
path string
}
// pathMaps holds the values for each key
type pathMaps []*pathMap
// find finds and gets the value by the given key
func (m pathMaps) find(id reflect.Value, key string) *pathMap {
for i := range m {
if m[i].ma == id && m[i].key == key {
return m[i]
}
}
return nil
}
type Error struct {
err error
}
func (s *Error) Error() string {
return "study: " + s.err.Error()
}
func (s Error) MarshalJSON() ([]byte, error) {
return json.Marshal(s.err.Error())
}
// Cause implements the causer interface from github.com/pkg/errors.
func (s *Error) Cause() error {
return s.err
}
func newError(err error) *Error { return &Error{err} }
// DecodeCustomTypeFunc is a function that indicate how should to decode a custom type
type DecodeCustomTypeFunc func([]string) (interface{}, error)
// DecodeCustomTypeField is a function registered for a specific field of the struct passed to the Decoder
type DecodeCustomTypeField struct {
field reflect.Value
fun DecodeCustomTypeFunc
}
// DecodeCustomType fields for custom types
type DecodeCustomType struct {
fun DecodeCustomTypeFunc
fields []*DecodeCustomTypeField
}
// Decoder the main to decode the values
type Decoder struct {
main reflect.Value
formValues url.Values
opts *DecoderOptions
curr reflect.Value
values []string
path string
field string
bracket string
//isKey bool
maps pathMaps
customTypes map[reflect.Type]*DecodeCustomType
}
// DecoderOptions options for decoding the values
type DecoderOptions struct {
// TagName indicates the tag name for decoding a value by the tag
TagName string
// PrefUnmarshalText indicates if should to give preference to UnmarshalText over custom type registered
PrefUnmarshalText bool
// IgnoreUnknownKeys controls the behaviour when the decoder encounters unknown keys in the map. If i is true and an unknown field is encountered, it is ignored. This is similar to how unknown keys are handled by encoding/json. If i is false then Decode will return an error. Note that any valid keys will still be decoded in to the target struct.
IgnoreUnknownKeys bool
}
// RegisterCustomType It is the method responsible for register functions for decoding custom types
func (dec *Decoder) RegisterCustomType(fn DecodeCustomTypeFunc, types []interface{}, fields []interface{}) *Decoder {
if dec.customTypes == nil {
dec.customTypes = make(map[reflect.Type]*DecodeCustomType, 100)
}
lenFields := len(fields)
for i := range types {
typ := reflect.TypeOf(types[i])
if dec.customTypes[typ] == nil {
dec.customTypes[typ] = &DecodeCustomType{fun: fn, fields: make([]*DecodeCustomTypeField, 0, lenFields)}
}
if lenFields > 0 {
for j := range fields {
val := reflect.ValueOf(fields[j])
field := &DecodeCustomTypeField{field: val, fun: fn}
dec.customTypes[typ].fields = append(dec.customTypes[typ].fields, field)
}
}
}
return dec
}
// NewDecoder creates a new instance of Decoder
func NewDecoder(opts *DecoderOptions) *Decoder {
dec := &Decoder{opts: opts}
if dec.opts == nil {
dec.opts = &DecoderOptions{}
}
if dec.opts.TagName == "" {
dec.opts.TagName = tagName
}
return dec
}
// Decode decodes the url.Values into a element that must be a pointer to a type provided by argument
func (dec Decoder) Decode(vs url.Values, dst interface{}) error {
main := reflect.ValueOf(dst)
if main.Kind() != reflect.Ptr {
return newError(fmt.Errorf("the value passed for decode is not a pointer but a %v", main.Kind()))
}
dec.main = main.Elem()
dec.formValues = vs
return dec.init()
}
// Decode decodes the url.Values into a element that must be a pointer to a type provided by argument
func Decode(vs url.Values, dst interface{}) error {
main := reflect.ValueOf(dst)
if main.Kind() != reflect.Ptr {
return newError(fmt.Errorf("the value passed for decode is not a pointer but a %v", main.Kind()))
}
dec := &Decoder{
main: main.Elem(),
formValues: vs,
opts: &DecoderOptions{
TagName: tagName,
},
}
return dec.init()
}
// init initializes the decoding
func (dec Decoder) init() error {
// iterate over the form's values and decode it
for k, v := range dec.formValues {
dec.path = k
dec.values = v
dec.curr = dec.main
if err := dec.analyzePath(); err != nil {
if dec.curr.Kind() == reflect.Struct && dec.opts.IgnoreUnknownKeys {
continue
}
return err
}
}
// set values of maps
for _, v := range dec.maps {
key := v.ma.Type().Key()
ptr := false
// check if the key implements the UnmarshalText interface
var val reflect.Value
if key.Kind() == reflect.Ptr {
ptr = true
val = reflect.New(key.Elem())
} else {
val = reflect.New(key).Elem()
}
// decode key
dec.path = v.path
dec.field = v.path
dec.values = []string{v.key}
dec.curr = val
//dec.isKey = true
if err := dec.decode(); err != nil {
return err
}
// check if the key is a pointer or not. And if it is, then get its address
if ptr && dec.curr.Kind() != reflect.Ptr {
dec.curr = dec.curr.Addr()
}
// set key with its value
v.ma.SetMapIndex(dec.curr, v.value)
}
return nil
}
// analyzePath analyzes the current path to walk through it
func (dec *Decoder) analyzePath() (err error) {
inBracket := false
bracketClosed := false
lastPos := 0
endPos := 0
// parse path
for i, char := range []byte(dec.path) {
if char == '[' && inBracket == false {
// found an opening bracket
bracketClosed = false
inBracket = true
dec.field = dec.path[lastPos:i]
lastPos = i + 1
continue
} else if inBracket {
// it is inside of bracket, so get its value
if char == ']' {
// found an closing bracket, so it will be recently close, so put as true the bracketClosed
// and put as false inBracket and pass the value of bracket to dec.key
inBracket = false
bracketClosed = true
dec.bracket = dec.path[lastPos:endPos]
lastPos = i + 1
if err = dec.traverse(); err != nil {
return
}
} else {
// still inside the bracket, so to save the end position
endPos = i + 1
}
continue
} else if !inBracket {
// not found any bracket, so try found a field
if char == '.' {
// found a field, we need to know if the field is next of a closing bracket,
// for example: [0].Field
if bracketClosed {
bracketClosed = false
lastPos = i + 1
continue
}
// found a field, but is not next of a closing bracket, for example: Field1.Field2
dec.field = dec.path[lastPos:i]
//dec.field = tmp[:i]
lastPos = i + 1
if err = dec.traverse(); err != nil {
return
}
}
continue
}
}
// last field of path
dec.field = dec.path[lastPos:]
return dec.end()
}
// walk traverses the current path until to the last field
func (dec *Decoder) traverse() error {
// check if there is field, if is so, then it should be struct or map (access by .)
if dec.field != "" {
// check if is a struct or map
switch dec.curr.Kind() {
case reflect.Struct:
if err := dec.findStructField(); err != nil {
return err
}
case reflect.Map:
dec.traverseInMap(true)
}
dec.field = ""
}
// check if is a interface and it is not nil. This mean that the interface
// has a struct, map or slice as value
if dec.curr.Kind() == reflect.Interface && !dec.curr.IsNil() {
dec.curr = dec.curr.Elem()
}
// check if it is a pointer
if dec.curr.Kind() == reflect.Ptr {
if dec.curr.IsNil() {
dec.curr.Set(reflect.New(dec.curr.Type().Elem()))
}
dec.curr = dec.curr.Elem()
}
// check if there is access to slice/array or map (access by [])
if dec.bracket != "" {
switch dec.curr.Kind() {
case reflect.Array:
index, err := strconv.Atoi(dec.bracket)
if err != nil {
return newError(fmt.Errorf("the index of array is not a number in the field \"%v\" of path \"%v\"", dec.field, dec.path))
}
dec.curr = dec.curr.Index(index)
case reflect.Slice:
index, err := strconv.Atoi(dec.bracket)
if err != nil {
return newError(fmt.Errorf("the index of slice is not a number in the field \"%v\" of path \"%v\"", dec.field, dec.path))
}
if dec.curr.Len() <= index {
dec.expandSlice(index + 1)
}
dec.curr = dec.curr.Index(index)
case reflect.Map:
dec.traverseInMap(false)
default:
return newError(fmt.Errorf("the field \"%v\" in path \"%v\" has a index for array but it is a %v", dec.field, dec.path, dec.curr.Kind()))
}
dec.bracket = ""
}
return nil
}
// walkMap puts in d.curr the map concrete for decode the current value
func (dec *Decoder) traverseInMap(byField bool) {
n := dec.curr.Type()
makeAndAppend := func() {
if dec.maps == nil {
dec.maps = make(pathMaps, 0, 500)
}
m := reflect.New(n.Elem()).Elem()
if byField {
dec.maps = append(dec.maps, &pathMap{dec.curr, dec.field, m, dec.path})
} else {
dec.maps = append(dec.maps, &pathMap{dec.curr, dec.bracket, m, dec.path})
}
dec.curr = m
}
if dec.curr.IsNil() {
// map is nil
dec.curr.Set(reflect.MakeMap(n))
makeAndAppend()
} else {
// map is not nil, so try find value by the key
var a *pathMap
if byField {
a = dec.maps.find(dec.curr, dec.field)
} else {
a = dec.maps.find(dec.curr, dec.bracket)
}
if a == nil {
// the key not exists
makeAndAppend()
} else {
dec.curr = a.value
}
}
}
// end finds the last field for decode its value correspondent
func (dec *Decoder) end() error {
switch dec.curr.Kind() {
case reflect.Struct:
if err := dec.findStructField(); err != nil {
return err
}
case reflect.Map:
// leave backward compatibility for access to maps by .
dec.traverseInMap(true)
}
return dec.decode()
}
// decode sets the value in the field
func (dec *Decoder) decode() error {
// check if has UnmarshalText method or a custom function to decode it
if dec.opts.PrefUnmarshalText {
if ok, err := dec.isUnmarshalText(dec.curr); ok || err != nil {
return err
}
if ok, err := dec.isCustomType(); ok || err != nil {
return err
}
} else {
if ok, err := dec.isCustomType(); ok || err != nil {
return err
}
if ok, err := dec.isUnmarshalText(dec.curr); ok || err != nil {
return err
}
}
switch dec.curr.Kind() {
case reflect.Array:
if dec.bracket == "" {
// not has index, so to decode all values in the slice
if err := dec.setValues(); err != nil {
return err
}
} else {
// has index, so to decode value by index indicated
index, err := strconv.Atoi(dec.bracket)
if err != nil {
return newError(fmt.Errorf("the index of array is not a number in the field \"%v\" of path \"%v\"", dec.field, dec.path))
}
dec.curr = dec.curr.Index(index)
return dec.decode()
}
case reflect.Slice:
if dec.bracket == "" {
// not has index, so to decode all values in the slice
// only for slices
dec.expandSlice(len(dec.values))
if err := dec.setValues(); err != nil {
return err
}
} else {
// has index, so to decode value by index indicated
index, err := strconv.Atoi(dec.bracket)
if err != nil {
return newError(fmt.Errorf("the index of slice is not a number in the field \"%v\" of path \"%v\"", dec.field, dec.path))
}
// only for slices
if dec.curr.Len() <= index {
dec.expandSlice(index + 1)
}
dec.curr = dec.curr.Index(index)
return dec.decode()
}
case reflect.String:
dec.curr.SetString(dec.values[0])
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
if num, err := strconv.ParseInt(dec.values[0], 10, 64); err != nil {
return newError(fmt.Errorf("the value of field \"%v\" in path \"%v\" should be a valid signed integer number", dec.field, dec.path))
} else {
dec.curr.SetInt(num)
}
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
if num, err := strconv.ParseUint(dec.values[0], 10, 64); err != nil {
return newError(fmt.Errorf("the value of field \"%v\" in path \"%v\" should be a valid unsigned integer number", dec.field, dec.path))
} else {
dec.curr.SetUint(num)
}
case reflect.Float32, reflect.Float64:
if num, err := strconv.ParseFloat(dec.values[0], dec.curr.Type().Bits()); err != nil {
return newError(fmt.Errorf("the value of field \"%v\" in path \"%v\" should be a valid float number", dec.field, dec.path))
} else {
dec.curr.SetFloat(num)
}
case reflect.Bool:
switch dec.values[0] {
case "true", "on", "1", "checked":
dec.curr.SetBool(true)
default:
dec.curr.SetBool(false)
return nil
}
case reflect.Interface:
dec.curr.Set(reflect.ValueOf(dec.values[0]))
case reflect.Ptr:
n := reflect.New(dec.curr.Type().Elem())
if dec.curr.CanSet() {
dec.curr.Set(n)
} else {
dec.curr.Elem().Set(n.Elem())
}
dec.curr = dec.curr.Elem()
return dec.decode()
case reflect.Struct:
switch dec.curr.Interface().(type) {
case time.Time:
var t time.Time
// if the value is empty then no to try to parse it and leave "t" as a zero value to set it in the field
if dec.values[0] != "" {
var err error
t, err = time.Parse("2006-01-02", dec.values[0])
if err != nil {
return newError(fmt.Errorf("the value of field \"%v\" in path \"%v\" is not a valid datetime", dec.field, dec.path))
}
}
dec.curr.Set(reflect.ValueOf(t))
case url.URL:
u, err := url.Parse(dec.values[0])
if err != nil {
return newError(fmt.Errorf("the value of field \"%v\" in path \"%v\" is not a valid url", dec.field, dec.path))
}
dec.curr.Set(reflect.ValueOf(*u))
default:
if dec.opts.IgnoreUnknownKeys {
return nil
}
num := dec.curr.NumField()
for i := 0; i < num; i++ {
field := dec.curr.Type().Field(i)
tag := field.Tag.Get(dec.opts.TagName)
if tag == "-" {
// skip this field
return nil
}
}
return newError(fmt.Errorf("not supported type for field \"%v\" in path \"%v\". Maybe you should to include it the UnmarshalText interface or register it using custom type?", dec.field, dec.path))
}
default:
if dec.opts.IgnoreUnknownKeys {
return nil
}
return newError(fmt.Errorf("not supported type for field \"%v\" in path \"%v\"", dec.field, dec.path))
}
return nil
}
// findStructField finds a field by its name, if it is not found,
// then retry the search examining the tag "formam" of every field of struct
func (dec *Decoder) findStructField() error {
var anon reflect.Value
num := dec.curr.NumField()
for i := 0; i < num; i++ {
field := dec.curr.Type().Field(i)
if field.Name == dec.field {
tag := field.Tag.Get(dec.opts.TagName)
if tag == "-" {
// skip this field
return nil
}
// check if the field's name is equal
dec.curr = dec.curr.Field(i)
return nil
} else if field.Anonymous {
// if the field is a anonymous struct, then iterate over its fields
tmp := dec.curr
dec.curr = dec.curr.FieldByIndex(field.Index)
if dec.curr.Kind() == reflect.Ptr {
if dec.curr.IsNil() {
dec.curr.Set(reflect.New(dec.curr.Type().Elem()))
}
dec.curr = dec.curr.Elem()
}
if err := dec.findStructField(); err != nil {
dec.curr = tmp
continue
}
// field in anonymous struct is found,
// but first it should found the field in the rest of struct
// (a field with same name in the current struct should have preference over anonymous struct)
anon = dec.curr
dec.curr = tmp
} else if dec.field == field.Tag.Get(dec.opts.TagName) {
// is not found yet, then retry by its tag name "formam"
dec.curr = dec.curr.Field(i)
return nil
}
}
if anon.IsValid() {
dec.curr = anon
return nil
}
if dec.opts.IgnoreUnknownKeys {
return nil
}
return newError(fmt.Errorf("not found the field \"%v\" in the path \"%v\"", dec.field, dec.path))
}
// expandSlice expands the length and capacity of the current slice
func (dec *Decoder) expandSlice(length int) {
n := reflect.MakeSlice(dec.curr.Type(), length, length)
reflect.Copy(n, dec.curr)
dec.curr.Set(n)
}
// setValues set the values in current slice/array
func (dec *Decoder) setValues() error {
tmp := dec.curr // hold current field
for i, v := range dec.values {
dec.curr = tmp.Index(i)
dec.values[0] = v
if err := dec.decode(); err != nil {
return err
}
}
return nil
}
// isCustomType checks if the field's type to decode has a custom type registered
func (dec *Decoder) isCustomType() (bool, error) {
if dec.customTypes == nil {
return false, nil
}
if v, ok := dec.customTypes[dec.curr.Type()]; ok {
if len(v.fields) > 0 {
for i := range v.fields {
// check if the current field is registered
// in the fields of the custom type
if v.fields[i].field.Elem() == dec.curr {
va, err := v.fields[i].fun(dec.values)
if err != nil {
return true, err
}
dec.curr.Set(reflect.ValueOf(va))
return true, nil
}
}
}
// check if the default function exists for fields not specific
if v.fun != nil {
va, err := v.fun(dec.values)
if err != nil {
return true, err
}
dec.curr.Set(reflect.ValueOf(va))
return true, nil
}
}
return false, nil
}
var (
typeTime = reflect.TypeOf(time.Time{})
typeTimePtr = reflect.TypeOf(&time.Time{})
)
// isUnmarshalText returns a boolean and error. The boolean is true if the
// field's type implements TextUnmarshaler, and false if not.
func (dec *Decoder) isUnmarshalText(v reflect.Value) (bool, error) {
// check if implements the interface
m, ok := v.Interface().(encoding.TextUnmarshaler)
addr := v.CanAddr()
if !ok && !addr {
return false, nil
} else if addr {
return dec.isUnmarshalText(v.Addr())
}
// skip if the type is time.Time
n := v.Type()
if n.ConvertibleTo(typeTime) || n.ConvertibleTo(typeTimePtr) {
return false, nil
}
// return result
return true, m.UnmarshalText([]byte(dec.values[0]))
}
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