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Beego/orm/models_info_f.go

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package orm
import (
"errors"
"fmt"
"reflect"
"strings"
)
type fieldChoices []StrTo
func (f *fieldChoices) Add(s StrTo) {
if f.Have(s) == false {
*f = append(*f, s)
}
}
func (f *fieldChoices) Clear() {
*f = fieldChoices([]StrTo{})
}
func (f *fieldChoices) Have(s StrTo) bool {
for _, v := range *f {
if v == s {
return true
}
}
return false
}
func (f *fieldChoices) Clone() fieldChoices {
return *f
}
type primaryKeys []*fieldInfo
func (p *primaryKeys) Add(fi *fieldInfo) {
*p = append(*p, fi)
}
func (p primaryKeys) Exist(fi *fieldInfo) (int, bool) {
for i, v := range p {
if v == fi {
return i, true
}
}
return -1, false
}
func (p primaryKeys) IsMulti() bool {
return len(p) > 1
}
func (p primaryKeys) IsEmpty() bool {
return len(p) == 0
}
type fields struct {
pk primaryKeys
auto *fieldInfo
columns map[string]*fieldInfo
fields map[string]*fieldInfo
fieldsLow map[string]*fieldInfo
fieldsByType map[int][]*fieldInfo
fieldsRel []*fieldInfo
fieldsReverse []*fieldInfo
fieldsDB []*fieldInfo
rels []*fieldInfo
orders []string
dbcols []string
}
func (f *fields) Add(fi *fieldInfo) (added bool) {
if f.fields[fi.name] == nil && f.columns[fi.column] == nil {
f.columns[fi.column] = fi
f.fields[fi.name] = fi
f.fieldsLow[strings.ToLower(fi.name)] = fi
} else {
return
}
if _, ok := f.fieldsByType[fi.fieldType]; ok == false {
f.fieldsByType[fi.fieldType] = make([]*fieldInfo, 0)
}
f.fieldsByType[fi.fieldType] = append(f.fieldsByType[fi.fieldType], fi)
f.orders = append(f.orders, fi.column)
if fi.dbcol {
f.dbcols = append(f.dbcols, fi.column)
f.fieldsDB = append(f.fieldsDB, fi)
}
if fi.rel {
f.fieldsRel = append(f.fieldsRel, fi)
}
if fi.reverse {
f.fieldsReverse = append(f.fieldsReverse, fi)
}
return true
}
func (f *fields) GetByName(name string) *fieldInfo {
return f.fields[name]
}
func (f *fields) GetByColumn(column string) *fieldInfo {
return f.columns[column]
}
func (f *fields) GetByAny(name string) (*fieldInfo, bool) {
if fi, ok := f.fields[name]; ok {
return fi, ok
}
if fi, ok := f.fieldsLow[strings.ToLower(name)]; ok {
return fi, ok
}
if fi, ok := f.columns[name]; ok {
return fi, ok
}
return nil, false
}
func newFields() *fields {
f := new(fields)
f.fields = make(map[string]*fieldInfo)
f.fieldsLow = make(map[string]*fieldInfo)
f.columns = make(map[string]*fieldInfo)
f.fieldsByType = make(map[int][]*fieldInfo)
return f
}
type fieldInfo struct {
mi *modelInfo
fieldIndex int
fieldType int
dbcol bool
inModel bool
name string
fullName string
column string
addrValue *reflect.Value
sf *reflect.StructField
auto bool
pk bool
null bool
blank bool
index bool
unique bool
initial StrTo
choices fieldChoices
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size int
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auto_now bool
auto_now_add bool
rel bool
reverse bool
reverseField string
reverseFieldInfo *fieldInfo
relTable string
relThrough string
relThroughModelInfo *modelInfo
relModelInfo *modelInfo
digits int
decimals int
isFielder bool
onDelete string
}
func newFieldInfo(mi *modelInfo, field reflect.Value, sf reflect.StructField) (fi *fieldInfo, err error) {
var (
tag string
tagValue string
choices fieldChoices
values fieldChoices
initial StrTo
fieldType int
attrs map[string]bool
tags map[string]string
parts []string
addrField reflect.Value
)
fi = new(fieldInfo)
if field.Kind() != reflect.Ptr && field.Kind() != reflect.Slice && field.CanAddr() {
addrField = field.Addr()
} else {
addrField = field
}
parseStructTag(sf.Tag.Get(defaultStructTagName), &attrs, &tags)
digits := tags["digits"]
decimals := tags["decimals"]
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size := tags["size"]
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onDelete := tags["on_delete"]
checkType:
switch f := addrField.Interface().(type) {
case Fielder:
fi.isFielder = true
if field.Kind() == reflect.Ptr {
err = fmt.Errorf("the model Fielder can not be use ptr")
goto end
}
fieldType = f.FieldType()
if fieldType&IsRelField > 0 {
err = fmt.Errorf("unsupport rel type custom field")
goto end
}
default:
tag = "rel"
tagValue = tags[tag]
if tagValue != "" {
switch tagValue {
case "fk":
fieldType = RelForeignKey
break checkType
case "one":
fieldType = RelOneToOne
break checkType
case "m2m":
fieldType = RelManyToMany
if tv := tags["rel_table"]; tv != "" {
fi.relTable = tv
} else if tv := tags["rel_through"]; tv != "" {
fi.relThrough = tv
}
break checkType
default:
err = fmt.Errorf("error")
goto wrongTag
}
}
tag = "reverse"
tagValue = tags[tag]
if tagValue != "" {
switch tagValue {
case "one":
fieldType = RelReverseOne
break checkType
case "many":
fieldType = RelReverseMany
break checkType
default:
err = fmt.Errorf("error")
goto wrongTag
}
}
fieldType, err = getFieldType(addrField)
if err != nil {
goto end
}
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if fieldType == TypeTextField && size != "" {
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fieldType = TypeCharField
}
if fieldType == TypeFloatField && (digits != "" || decimals != "") {
fieldType = TypeDecimalField
}
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if fieldType == TypeDateTimeField && tags["type"] == "date" {
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fieldType = TypeDateField
}
}
switch fieldType {
case RelForeignKey, RelOneToOne, RelReverseOne:
if _, ok := addrField.Interface().(Modeler); ok == false {
err = fmt.Errorf("rel/reverse:one field must be implements Modeler")
goto end
}
if field.Kind() != reflect.Ptr {
err = fmt.Errorf("rel/reverse:one field must be *%s", field.Type().Name())
goto end
}
case RelManyToMany, RelReverseMany:
if field.Kind() != reflect.Slice {
err = fmt.Errorf("rel/reverse:many field must be slice")
goto end
} else {
if field.Type().Elem().Kind() != reflect.Ptr {
err = fmt.Errorf("rel/reverse:many slice must be []*%s", field.Type().Elem().Name())
goto end
}
if _, ok := reflect.New(field.Type().Elem()).Elem().Interface().(Modeler); ok == false {
err = fmt.Errorf("rel/reverse:many slice element must be implements Modeler")
goto end
}
}
}
if fieldType&IsFieldType == 0 {
err = fmt.Errorf("wrong field type")
goto end
}
fi.fieldType = fieldType
fi.name = sf.Name
fi.column = getColumnName(fieldType, addrField, sf, tags["column"])
fi.addrValue = &addrField
fi.sf = &sf
fi.fullName = mi.fullName + "." + sf.Name
fi.null = attrs["null"]
fi.blank = attrs["blank"]
fi.index = attrs["index"]
fi.auto = attrs["auto"]
fi.pk = attrs["pk"]
fi.unique = attrs["unique"]
switch fieldType {
case RelManyToMany, RelReverseMany, RelReverseOne:
fi.null = false
fi.blank = false
fi.index = false
fi.auto = false
fi.pk = false
fi.unique = false
default:
fi.dbcol = true
}
switch fieldType {
case RelForeignKey, RelOneToOne, RelManyToMany:
fi.rel = true
if fieldType == RelOneToOne {
fi.unique = true
}
case RelReverseMany, RelReverseOne:
fi.reverse = true
}
if fi.rel && fi.dbcol {
switch onDelete {
case od_CASCADE, od_DO_NOTHING:
case od_SET_DEFAULT:
if tags["default"] == "" {
err = errors.New("on_delete: set_default need set field a default value")
goto end
}
case od_SET_NULL:
if fi.null == false {
err = errors.New("on_delete: set_null need set field null")
goto end
}
default:
if onDelete == "" {
onDelete = od_CASCADE
} else {
err = fmt.Errorf("on_delete value expected choice in `cascade,set_null,set_default,do_nothing`, unknown `%s`", onDelete)
goto end
}
}
fi.onDelete = onDelete
}
switch fieldType {
case TypeBooleanField:
case TypeCharField:
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if size != "" {
v, e := StrTo(size).Int32()
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if e != nil {
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err = fmt.Errorf("wrong size value `%s`", size)
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} else {
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fi.size = int(v)
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}
} else {
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err = fmt.Errorf("size must be specify")
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}
case TypeTextField:
fi.index = false
fi.unique = false
case TypeDateField, TypeDateTimeField:
if attrs["auto_now"] {
fi.auto_now = true
} else if attrs["auto_now_add"] {
fi.auto_now_add = true
}
case TypeFloatField:
case TypeDecimalField:
d1 := digits
d2 := decimals
v1, er1 := StrTo(d1).Int16()
v2, er2 := StrTo(d2).Int16()
if er1 != nil || er2 != nil {
err = fmt.Errorf("wrong digits/decimals value %s/%s", d2, d1)
goto end
}
fi.digits = int(v1)
fi.decimals = int(v2)
default:
switch {
case fieldType&IsIntegerField > 0:
case fieldType&IsRelField > 0:
}
}
if fieldType&IsIntegerField == 0 {
if fi.auto {
err = fmt.Errorf("non-integer type cannot set auto")
goto end
}
if fi.pk || fi.index || fi.unique {
if fieldType != TypeCharField && fieldType != RelOneToOne {
err = fmt.Errorf("cannot set pk/index/unique")
goto end
}
}
}
if fi.auto || fi.pk {
if fi.auto {
fi.pk = true
}
fi.null = false
fi.blank = false
fi.index = false
fi.unique = false
}
if fi.unique {
fi.blank = false
fi.index = false
}
parts = strings.Split(tags["choices"], ",")
if len(parts) > 1 {
for _, v := range parts {
choices.Add(StrTo(strings.TrimSpace(v)))
}
}
initial.Clear()
if v, ok := tags["default"]; ok {
initial.Set(v)
}
if fi.auto || fi.pk || fi.unique || fieldType == TypeDateField || fieldType == TypeDateTimeField {
// can not set default
choices.Clear()
initial.Clear()
}
values = choices.Clone()
if initial.Exist() {
values.Add(initial)
}
for i, v := range values {
switch fieldType {
case TypeBooleanField:
_, err = v.Bool()
case TypeFloatField, TypeDecimalField:
_, err = v.Float64()
case TypeSmallIntegerField:
_, err = v.Int16()
case TypeIntegerField:
_, err = v.Int32()
case TypeBigIntegerField:
_, err = v.Int64()
case TypePositiveSmallIntegerField:
_, err = v.Uint16()
case TypePositiveIntegerField:
_, err = v.Uint32()
case TypePositiveBigIntegerField:
_, err = v.Uint64()
}
if err != nil {
if initial.Exist() && len(values) == i {
tag, tagValue = "default", tags["default"]
} else {
tag, tagValue = "choices", tags["choices"]
}
goto wrongTag
}
}
if len(choices) > 0 && initial.Exist() {
if choices.Have(initial) == false {
err = fmt.Errorf("default value `%s` not in choices `%s`", tags["default"], tags["choices"])
goto end
}
}
fi.choices = choices
fi.initial = initial
end:
if err != nil {
return nil, err
}
return
wrongTag:
return nil, fmt.Errorf("wrong tag format: `%s:\"%s\"`, %s", tag, tagValue, err)
}