gf/database/gdb/gdb_model_fields.go
2022-05-10 16:31:56 +08:00

254 lines
7.7 KiB
Go

// 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 gdb
import (
"fmt"
"github.com/gogf/gf/v2/container/gset"
"github.com/gogf/gf/v2/text/gstr"
"github.com/gogf/gf/v2/util/gconv"
)
// Fields appends `fieldNamesOrMapStruct` to the operation fields of the model, multiple fields joined using char ','.
// The parameter `fieldNamesOrMapStruct` can be type of string/map/*map/struct/*struct.
//
// Eg:
// Fields("id", "name", "age")
// Fields([]string{"id", "name", "age"})
// Fields(map[string]interface{}{"id":1, "name":"john", "age":18})
// Fields(User{ Id: 1, Name: "john", Age: 18}).
func (m *Model) Fields(fieldNamesOrMapStruct ...interface{}) *Model {
length := len(fieldNamesOrMapStruct)
if length == 0 {
return m
}
switch {
// String slice.
case length >= 2:
return m.appendFieldsByStr(gstr.Join(
m.mappingAndFilterToTableFields(gconv.Strings(fieldNamesOrMapStruct), true),
",",
))
// It needs type asserting.
case length == 1:
structOrMap := fieldNamesOrMapStruct[0]
switch r := structOrMap.(type) {
case string:
return m.appendFieldsByStr(gstr.Join(
m.mappingAndFilterToTableFields([]string{r}, false), ",",
))
case []string:
return m.appendFieldsByStr(gstr.Join(
m.mappingAndFilterToTableFields(r, true), ",",
))
case Raw, *Raw:
return m.appendFieldsByStr(gconv.String(structOrMap))
default:
return m.appendFieldsByStr(gstr.Join(
m.mappingAndFilterToTableFields(getFieldsFromStructOrMap(structOrMap), true), ",",
))
}
}
return m
}
// FieldsPrefix performs as function Fields but add extra prefix for each field.
func (m *Model) FieldsPrefix(prefix string, fieldNamesOrMapStruct ...interface{}) *Model {
model := m.Fields(fieldNamesOrMapStruct...)
array := gstr.SplitAndTrim(model.fields, ",")
gstr.PrefixArray(array, prefix+".")
model.fields = gstr.Join(array, ",")
return model
}
// FieldsEx appends `fieldNamesOrMapStruct` to the excluded operation fields of the model,
// multiple fields joined using char ','.
// Note that this function supports only single table operations.
// The parameter `fieldNamesOrMapStruct` can be type of string/map/*map/struct/*struct.
//
// Also see Fields.
func (m *Model) FieldsEx(fieldNamesOrMapStruct ...interface{}) *Model {
length := len(fieldNamesOrMapStruct)
if length == 0 {
return m
}
model := m.getModel()
switch {
case length >= 2:
model.fieldsEx = gstr.Join(
m.mappingAndFilterToTableFields(gconv.Strings(fieldNamesOrMapStruct), true),
",",
)
return model
case length == 1:
switch r := fieldNamesOrMapStruct[0].(type) {
case string:
model.fieldsEx = gstr.Join(m.mappingAndFilterToTableFields([]string{r}, false), ",")
case []string:
model.fieldsEx = gstr.Join(m.mappingAndFilterToTableFields(r, true), ",")
case Raw, *Raw:
model.fieldsEx = gconv.String(fieldNamesOrMapStruct[0])
default:
model.fieldsEx = gstr.Join(m.mappingAndFilterToTableFields(getFieldsFromStructOrMap(r), true), ",")
}
return model
}
return m
}
// FieldsExPrefix performs as function FieldsEx but add extra prefix for each field.
func (m *Model) FieldsExPrefix(prefix string, fieldNamesOrMapStruct ...interface{}) *Model {
model := m.FieldsEx(fieldNamesOrMapStruct...)
array := gstr.SplitAndTrim(model.fieldsEx, ",")
gstr.PrefixArray(array, prefix+".")
model.fieldsEx = gstr.Join(array, ",")
return model
}
// FieldCount formats and appends commonly used field `COUNT(column)` to the select fields of model.
func (m *Model) FieldCount(column string, as ...string) *Model {
asStr := ""
if len(as) > 0 && as[0] != "" {
asStr = fmt.Sprintf(` AS %s`, m.db.GetCore().QuoteWord(as[0]))
}
return m.appendFieldsByStr(fmt.Sprintf(`COUNT(%s)%s`, m.QuoteWord(column), asStr))
}
// FieldSum formats and appends commonly used field `SUM(column)` to the select fields of model.
func (m *Model) FieldSum(column string, as ...string) *Model {
asStr := ""
if len(as) > 0 && as[0] != "" {
asStr = fmt.Sprintf(` AS %s`, m.db.GetCore().QuoteWord(as[0]))
}
return m.appendFieldsByStr(fmt.Sprintf(`SUM(%s)%s`, m.QuoteWord(column), asStr))
}
// FieldMin formats and appends commonly used field `MIN(column)` to the select fields of model.
func (m *Model) FieldMin(column string, as ...string) *Model {
asStr := ""
if len(as) > 0 && as[0] != "" {
asStr = fmt.Sprintf(` AS %s`, m.db.GetCore().QuoteWord(as[0]))
}
return m.appendFieldsByStr(fmt.Sprintf(`MIN(%s)%s`, m.QuoteWord(column), asStr))
}
// FieldMax formats and appends commonly used field `MAX(column)` to the select fields of model.
func (m *Model) FieldMax(column string, as ...string) *Model {
asStr := ""
if len(as) > 0 && as[0] != "" {
asStr = fmt.Sprintf(` AS %s`, m.db.GetCore().QuoteWord(as[0]))
}
return m.appendFieldsByStr(fmt.Sprintf(`MAX(%s)%s`, m.QuoteWord(column), asStr))
}
// FieldAvg formats and appends commonly used field `AVG(column)` to the select fields of model.
func (m *Model) FieldAvg(column string, as ...string) *Model {
asStr := ""
if len(as) > 0 && as[0] != "" {
asStr = fmt.Sprintf(` AS %s`, m.db.GetCore().QuoteWord(as[0]))
}
return m.appendFieldsByStr(fmt.Sprintf(`AVG(%s)%s`, m.QuoteWord(column), asStr))
}
func (m *Model) appendFieldsByStr(fields string) *Model {
if fields != "" {
model := m.getModel()
if model.fields == defaultFields {
model.fields = ""
}
if model.fields != "" {
model.fields += ","
}
model.fields += fields
return model
}
return m
}
func (m *Model) appendFieldsExByStr(fieldsEx string) *Model {
if fieldsEx != "" {
model := m.getModel()
if model.fieldsEx != "" {
model.fieldsEx += ","
}
model.fieldsEx += fieldsEx
return model
}
return m
}
// GetFieldsStr retrieves and returns all fields from the table, joined with char ','.
// The optional parameter `prefix` specifies the prefix for each field, eg: GetFieldsStr("u.").
func (m *Model) GetFieldsStr(prefix ...string) string {
prefixStr := ""
if len(prefix) > 0 {
prefixStr = prefix[0]
}
tableFields, err := m.TableFields(m.tablesInit)
if err != nil {
panic(err)
}
if len(tableFields) == 0 {
panic(fmt.Sprintf(`empty table fields for table "%s"`, m.tables))
}
fieldsArray := make([]string, len(tableFields))
for k, v := range tableFields {
fieldsArray[v.Index] = k
}
newFields := ""
for _, k := range fieldsArray {
if len(newFields) > 0 {
newFields += ","
}
newFields += prefixStr + k
}
newFields = m.db.GetCore().QuoteString(newFields)
return newFields
}
// GetFieldsExStr retrieves and returns fields which are not in parameter `fields` from the table,
// joined with char ','.
// The parameter `fields` specifies the fields that are excluded.
// The optional parameter `prefix` specifies the prefix for each field, eg: FieldsExStr("id", "u.").
func (m *Model) GetFieldsExStr(fields string, prefix ...string) string {
prefixStr := ""
if len(prefix) > 0 {
prefixStr = prefix[0]
}
tableFields, err := m.TableFields(m.tablesInit)
if err != nil {
panic(err)
}
if len(tableFields) == 0 {
panic(fmt.Sprintf(`empty table fields for table "%s"`, m.tables))
}
fieldsExSet := gset.NewStrSetFrom(gstr.SplitAndTrim(fields, ","))
fieldsArray := make([]string, len(tableFields))
for k, v := range tableFields {
fieldsArray[v.Index] = k
}
newFields := ""
for _, k := range fieldsArray {
if fieldsExSet.Contains(k) {
continue
}
if len(newFields) > 0 {
newFields += ","
}
newFields += prefixStr + k
}
newFields = m.db.GetCore().QuoteString(newFields)
return newFields
}
// HasField determine whether the field exists in the table.
func (m *Model) HasField(field string) (bool, error) {
return m.db.GetCore().HasField(m.GetCtx(), m.tablesInit, field)
}