gf/contrib/drivers/sqlitecgo/sqlitecgo_z_unit_model_test.go

4391 lines
111 KiB
Go
Raw Normal View History

// 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 sqlitecgo_test
import (
"bytes"
"context"
"database/sql"
"fmt"
"os"
"testing"
"time"
"github.com/gogf/gf/v2/container/garray"
"github.com/gogf/gf/v2/container/gmap"
"github.com/gogf/gf/v2/container/gvar"
"github.com/gogf/gf/v2/database/gdb"
"github.com/gogf/gf/v2/encoding/gjson"
"github.com/gogf/gf/v2/errors/gcode"
"github.com/gogf/gf/v2/errors/gerror"
"github.com/gogf/gf/v2/frame/g"
"github.com/gogf/gf/v2/os/glog"
"github.com/gogf/gf/v2/os/gtime"
"github.com/gogf/gf/v2/test/gtest"
"github.com/gogf/gf/v2/text/gstr"
"github.com/gogf/gf/v2/util/guid"
"github.com/gogf/gf/v2/util/gutil"
)
func Test_Model_Insert(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
user := db.Model(table)
result, err := user.Data(g.Map{
"id": 1,
"uid": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_1",
"create_time": gtime.Now().String(),
}).Insert()
t.AssertNil(err)
n, _ := result.LastInsertId()
t.Assert(n, 1)
result, err = db.Model(table).Data(g.Map{
"id": "2",
"uid": "2",
"passport": "t2",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_2",
"create_time": gtime.Now().String(),
}).Insert()
t.AssertNil(err)
n, _ = result.RowsAffected()
t.Assert(n, 1)
type User struct {
Id int `gconv:"id"`
Uid int `gconv:"uid"`
Passport string `json:"passport"`
Password string `gconv:"password"`
Nickname string `gconv:"nickname"`
CreateTime *gtime.Time `json:"create_time"`
}
// Model inserting.
result, err = db.Model(table).Data(User{
Id: 3,
Uid: 3,
Passport: "t3",
Password: "25d55ad283aa400af464c76d713c07ad",
Nickname: "name_3",
CreateTime: gtime.Now(),
}).Insert()
t.AssertNil(err)
n, _ = result.RowsAffected()
t.Assert(n, 1)
value, err := db.Model(table).Fields("passport").Where("id=3").Value()
t.AssertNil(err)
t.Assert(value.String(), "t3")
result, err = db.Model(table).Data(&User{
Id: 4,
Uid: 4,
Passport: "t4",
Password: "25d55ad283aa400af464c76d713c07ad",
Nickname: "T4",
CreateTime: gtime.Now(),
}).Insert()
t.AssertNil(err)
n, _ = result.RowsAffected()
t.Assert(n, 1)
value, err = db.Model(table).Fields("passport").Where("id=4").Value()
t.AssertNil(err)
t.Assert(value.String(), "t4")
result, err = db.Model(table).Where("id>?", 1).Delete()
t.AssertNil(err)
n, _ = result.RowsAffected()
t.Assert(n, 3)
})
}
// Fix issue: https://github.com/gogf/gf/issues/819
func Test_Model_Insert_WithStructAndSliceAttribute(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type Password struct {
Salt string `json:"salt"`
Pass string `json:"pass"`
}
data := g.Map{
"id": 1,
"passport": "t1",
"password": &Password{"123", "456"},
"nickname": []string{"A", "B", "C"},
"create_time": gtime.Now().String(),
}
_, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
one, err := db.Model(table).One("id", 1)
t.AssertNil(err)
t.Assert(one["passport"], data["passport"])
t.Assert(one["create_time"], data["create_time"])
t.Assert(one["nickname"], gjson.New(data["nickname"]).MustToJson())
})
}
func Test_Model_Insert_KeyFieldNameMapping(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
Nickname string
CreateTime string
}
data := User{
Id: 1,
Passport: "user_1",
Password: "pass_1",
Nickname: "name_1",
CreateTime: "2020-10-10 12:00:01",
}
_, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
one, err := db.Model(table).WherePri(1).One()
t.AssertNil(err)
t.Assert(one["passport"], data.Passport)
t.Assert(one["create_time"], data.CreateTime)
t.Assert(one["nickname"], data.Nickname)
})
}
func Test_Model_Update_KeyFieldNameMapping(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
Nickname string
CreateTime string
}
data := User{
Id: 999999,
Passport: "user_10",
Password: "pass_10",
Nickname: "name_10",
CreateTime: "2020-10-10 12:00:01",
}
_, err := db.Model(table).Data(data).Where("id", 1).Update()
t.AssertNil(err)
one, err := db.Model(table).Where("id", data.Id).One()
t.AssertNil(err)
t.Assert(one["passport"], data.Passport)
t.Assert(one["create_time"], data.CreateTime)
t.Assert(one["nickname"], data.Nickname)
})
}
func Test_Model_Insert_Time(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
data := g.Map{
"id": 1,
"passport": "t1",
"password": "p1",
"nickname": "n1",
"create_time": "2020-10-10 20:09:18.334",
}
_, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
one, err := db.Model(table).One("id", 1)
t.AssertNil(err)
t.Assert(one["passport"], data["passport"])
t.Assert(one["create_time"], "2020-10-10 20:09:18")
t.Assert(one["nickname"], data["nickname"])
})
}
func Test_Model_BatchInsertWithArrayStruct(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
user := db.Model(table)
array := garray.New()
for i := 1; i <= TableSize; i++ {
array.Append(g.Map{
"id": i,
"uid": i,
"passport": fmt.Sprintf("t%d", i),
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": fmt.Sprintf("name_%d", i),
"create_time": gtime.Now().String(),
})
}
result, err := user.Data(array).Insert()
t.AssertNil(err)
n, _ := result.LastInsertId()
t.Assert(n, TableSize)
})
}
func Test_Model_InsertIgnore(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
_, err := db.Model(table).Data(g.Map{
"id": 1,
"uid": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_1",
"create_time": CreateTime,
}).Insert()
t.AssertNil(err)
})
gtest.C(t, func(t *gtest.T) {
_, err := db.Model(table).Data(g.Map{
"id": 1,
"uid": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_1",
"create_time": CreateTime,
}).InsertIgnore()
t.AssertNil(err)
})
}
func Test_Model_Batch(t *testing.T) {
// batch insert
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
result, err := db.Model(table).Data(g.List{
{
"id": 2,
"uid": 2,
"passport": "t2",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_2",
"create_time": gtime.Now().String(),
},
{
"id": 3,
"uid": 3,
"passport": "t3",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_3",
"create_time": gtime.Now().String(),
},
}).Batch(1).Insert()
if err != nil {
gtest.Error(err)
}
n, _ := result.RowsAffected()
t.Assert(n, 2)
})
// batch insert, retrieving last insert auto-increment id.
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
result, err := db.Model(table).Data(g.List{
{"passport": "t1", "password": "25d55ad283aa400af464c76d713c07ad", "nickname": "name", "create_time": gtime.Now().String()},
{"passport": "t2", "password": "25d55ad283aa400af464c76d713c07ad", "nickname": "name", "create_time": gtime.Now().String()},
{"passport": "t3", "password": "25d55ad283aa400af464c76d713c07ad", "nickname": "name", "create_time": gtime.Now().String()},
{"passport": "t4", "password": "25d55ad283aa400af464c76d713c07ad", "nickname": "name", "create_time": gtime.Now().String()},
{"passport": "t5", "password": "25d55ad283aa400af464c76d713c07ad", "nickname": "name", "create_time": gtime.Now().String()},
}).Batch(2).Insert()
if err != nil {
gtest.Error(err)
}
n, _ := result.RowsAffected()
t.Assert(n, 5)
})
// batch replace
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
result, err := db.Model(table).All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
for _, v := range result {
v["nickname"].Set(v["nickname"].String() + v["id"].String())
v["id"].Set(v["id"].Int() + 100)
}
r, e := db.Model(table).Data(result).Replace()
t.Assert(e, nil)
n, e := r.RowsAffected()
t.Assert(e, nil)
t.Assert(n, TableSize)
})
}
func Test_Model_Replace(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Data(g.Map{
"id": 1,
"passport": "t11",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "T11",
"create_time": CreateTime,
}).Replace()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("id", 1).One()
t.AssertNil(err)
t.Assert(one["id"].Int(), 1)
t.Assert(one["passport"].String(), "t11")
t.Assert(one["password"].String(), "25d55ad283aa400af464c76d713c07ad")
t.Assert(one["nickname"].String(), "T11")
t.Assert(one["create_time"].GTime().String(), CreateTime)
})
}
func Test_Model_Save(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var (
user User
count int
result sql.Result
err error
)
result, err = db.Model(table).Data(g.Map{
"id": 1,
"passport": "CN",
"password": "12345678",
"nickname": "oldme",
"create_time": CreateTime,
}).OnConflict("id").Save()
t.AssertNil(nil)
n, _ := result.RowsAffected()
t.Assert(n, 1)
err = db.Model(table).Scan(&user)
t.Assert(err, nil)
t.Assert(user.Id, 1)
t.Assert(user.Passport, "CN")
t.Assert(user.Password, "12345678")
t.Assert(user.NickName, "oldme")
t.Assert(user.CreateTime.String(), CreateTime)
_, err = db.Model(table).Data(g.Map{
"id": 1,
"passport": "CN",
"password": "abc123456",
"nickname": "to be not to be",
"create_time": CreateTime,
}).OnConflict("id").Save()
t.AssertNil(err)
err = db.Model(table).Scan(&user)
t.Assert(err, nil)
t.Assert(user.Passport, "CN")
t.Assert(user.Password, "abc123456")
t.Assert(user.NickName, "to be not to be")
t.Assert(user.CreateTime.String(), CreateTime)
count, err = db.Model(table).Count()
t.Assert(err, nil)
t.Assert(count, 1)
})
}
func Test_Model_Update(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// UPDATE...LIMIT
// gtest.C(t, func(t *gtest.T) {
// result, err := db.Model(table).Data("nickname", "T100").Where(1).Limit(2).Update()
// t.AssertNil(err)
// n, _ := result.RowsAffected()
// t.Assert(n, 2)
// v1, err := db.Model(table).Fields("nickname").Where("id", 10).Value()
// t.AssertNil(err)
// t.Assert(v1.String(), "T100")
// v2, err := db.Model(table).Fields("nickname").Where("id", 8).Value()
// t.AssertNil(err)
// t.Assert(v2.String(), "name_8")
// })
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Data("passport", "user_22").Where("passport=?", "user_2").Update()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Data("passport", "user_2").Where("passport='user_22'").Update()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
})
// Update + Data(string)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Data("passport='user_33'").Where("passport='user_3'").Update()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
})
// Update + Fields(string)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Fields("passport").Data(g.Map{
"passport": "user_44",
"none": "none",
}).Where("passport='user_4'").Update()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
})
}
func Test_Model_UpdateAndGetAffected(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
n, err := db.Model(table).Data("nickname", "T100").
Where(1).
UpdateAndGetAffected()
t.AssertNil(err)
t.Assert(n, TableSize)
})
}
func Test_Model_Clone(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
md := db.Model(table).Safe(true).Where("id IN(?)", g.Slice{1, 3})
count, err := md.Count()
t.AssertNil(err)
record, err := md.Safe(true).Order("id DESC").One()
t.AssertNil(err)
result, err := md.Safe(true).Order("id ASC").All()
t.AssertNil(err)
t.Assert(count, int64(2))
t.Assert(record["id"].Int(), 3)
t.Assert(len(result), 2)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 3)
})
}
func Test_Model_Safe(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
md := db.Model(table).Safe(false).Where("id IN(?)", g.Slice{1, 3})
count, err := md.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
md.Where("id = ?", 1)
count, err = md.Count()
t.AssertNil(err)
t.Assert(count, int64(1))
})
gtest.C(t, func(t *gtest.T) {
md := db.Model(table).Safe(true).Where("id IN(?)", g.Slice{1, 3})
count, err := md.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
md.Where("id = ?", 1)
count, err = md.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
})
gtest.C(t, func(t *gtest.T) {
md := db.Model(table).Safe().Where("id IN(?)", g.Slice{1, 3})
count, err := md.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
md.Where("id = ?", 1)
count, err = md.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
})
gtest.C(t, func(t *gtest.T) {
md1 := db.Model(table).Safe()
md2 := md1.Where("id in (?)", g.Slice{1, 3})
count, err := md2.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
all, err := md2.All()
t.AssertNil(err)
t.Assert(len(all), 2)
all, err = md2.Page(1, 10).All()
t.AssertNil(err)
t.Assert(len(all), 2)
})
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
md1 := db.Model(table).Where("id>", 0).Safe()
md2 := md1.Where("id in (?)", g.Slice{1, 3})
md3 := md1.Where("id in (?)", g.Slice{4, 5, 6})
// 1,3
count, err := md2.Count()
t.AssertNil(err)
t.Assert(count, int64(2))
all, err := md2.Order("id asc").All()
t.AssertNil(err)
t.Assert(len(all), 2)
t.Assert(all[0]["id"].Int(), 1)
t.Assert(all[1]["id"].Int(), 3)
all, err = md2.Page(1, 10).All()
t.AssertNil(err)
t.Assert(len(all), 2)
// 4,5,6
count, err = md3.Count()
t.AssertNil(err)
t.Assert(count, int64(3))
all, err = md3.Order("id asc").All()
t.AssertNil(err)
t.Assert(len(all), 3)
t.Assert(all[0]["id"].Int(), 4)
t.Assert(all[1]["id"].Int(), 5)
t.Assert(all[2]["id"].Int(), 6)
all, err = md3.Page(1, 10).All()
t.AssertNil(err)
t.Assert(len(all), 3)
})
}
func Test_Model_All(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id<0").All()
t.Assert(result, nil)
t.AssertNil(err)
})
}
func Test_Model_AllAndCount(t *testing.T) {
table := createInitTable()
defer dropTable(table)
tableName2 := "user_" + gtime.Now().TimestampNanoStr()
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
name varchar(45) NULL,
age int(10)
);
`, tableName2,
)); err != nil {
gtest.AssertNil(err)
}
defer dropTable(tableName2)
r, err := db.Insert(ctx, tableName2, g.Map{
"id": 1,
"name": "table2_1",
"age": 18,
})
gtest.AssertNil(err)
n, _ := r.RowsAffected()
gtest.Assert(n, 1)
// AllAndCount with all data
gtest.C(t, func(t *gtest.T) {
result, count, err := db.Model(table).AllAndCount(false)
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(count, TableSize)
})
// AllAndCount with no data
gtest.C(t, func(t *gtest.T) {
result, count, err := db.Model(table).Where("id<0").AllAndCount(false)
t.Assert(result, nil)
t.AssertNil(err)
t.Assert(count, 0)
})
// AllAndCount with page
gtest.C(t, func(t *gtest.T) {
result, count, err := db.Model(table).Page(1, 5).AllAndCount(false)
t.AssertNil(err)
t.Assert(len(result), 5)
t.Assert(count, TableSize)
})
// AllAndCount with normal result
gtest.C(t, func(t *gtest.T) {
result, count, err := db.Model(table).Where("id=?", 1).AllAndCount(false)
t.AssertNil(err)
t.Assert(count, 1)
t.Assert(result[0]["id"], 1)
t.Assert(result[0]["nickname"], "name_1")
t.Assert(result[0]["passport"], "user_1")
})
// AllAndCount with distinct
gtest.C(t, func(t *gtest.T) {
result, count, err := db.Model(table).Fields("DISTINCT nickname").AllAndCount(true)
t.AssertNil(err)
t.Assert(count, TableSize)
t.Assert(result[0]["nickname"], "name_1")
t.AssertNil(result[0]["id"])
})
// AllAndCount with Join
gtest.C(t, func(t *gtest.T) {
all, count, err := db.Model(table).As("u1").
LeftJoin(tableName2, "u2", "u2.id=u1.id").
Fields("u1.passport,u1.id,u2.name,u2.age").
Where("u1.id<2").
AllAndCount(false)
t.AssertNil(err)
t.Assert(len(all), 1)
t.Assert(len(all[0]), 4)
t.Assert(all[0]["id"], 1)
t.Assert(all[0]["age"], 18)
t.Assert(all[0]["name"], "table2_1")
t.Assert(all[0]["passport"], "user_1")
t.Assert(count, 1)
})
// AllAndCount with Join return CodeDbOperationError
gtest.C(t, func(t *gtest.T) {
all, count, err := db.Model(table).As("u1").
LeftJoin(tableName2, "u2", "u2.id=u1.id").
Fields("u1.passport,u1.id,u2.name,u2.age").
Where("u1.id<2").
AllAndCount(true)
t.AssertNE(err, nil)
t.AssertEQ(gerror.Code(err), gcode.CodeDbOperationError)
t.Assert(count, 0)
t.Assert(all, nil)
})
}
func Test_Model_Fields(t *testing.T) {
tableName1 := createInitTable()
defer dropTable(tableName1)
tableName2 := "user_" + gtime.Now().TimestampNanoStr()
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
name varchar(45) NULL,
age int(10)
);
`, tableName2,
)); err != nil {
gtest.AssertNil(err)
}
defer dropTable(tableName2)
r, err := db.Insert(ctx, tableName2, g.Map{
"id": 1,
"name": "table2_1",
"age": 18,
})
gtest.AssertNil(err)
n, _ := r.RowsAffected()
gtest.Assert(n, 1)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(tableName1).As("u").Fields("u.passport,u.id").Where("u.id<2").All()
t.AssertNil(err)
t.Assert(len(all), 1)
t.Assert(len(all[0]), 2)
})
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(tableName1).As("u1").
LeftJoin(tableName1, "u2", "u2.id=u1.id").
Fields("u1.passport,u1.id,u2.id AS u2id").
Where("u1.id<2").
All()
t.AssertNil(err)
t.Assert(len(all), 1)
t.Assert(len(all[0]), 3)
})
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(tableName1).As("u1").
LeftJoin(tableName2, "u2", "u2.id=u1.id").
Fields("u1.passport,u1.id,u2.name,u2.age").
Where("u1.id<2").
All()
t.AssertNil(err)
t.Assert(len(all), 1)
t.Assert(len(all[0]), 4)
t.Assert(all[0]["id"], 1)
t.Assert(all[0]["age"], 18)
t.Assert(all[0]["name"], "table2_1")
t.Assert(all[0]["passport"], "user_1")
})
}
func Test_Model_One(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
record, err := db.Model(table).Where("id", 1).One()
t.AssertNil(err)
t.Assert(record["nickname"].String(), "name_1")
})
gtest.C(t, func(t *gtest.T) {
record, err := db.Model(table).Where("id", 0).One()
t.AssertNil(err)
t.Assert(record, nil)
})
}
func Test_Model_Value(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table).Fields("nickname").Where("id", 1).Value()
t.AssertNil(err)
t.Assert(value.String(), "name_1")
})
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table).Fields("nickname").Where("id", 0).Value()
t.AssertNil(err)
t.Assert(value, nil)
})
}
func Test_Model_Array(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Where("id", g.Slice{1, 2, 3}).All()
t.AssertNil(err)
t.Assert(all.Array("id"), g.Slice{1, 2, 3})
t.Assert(all.Array("nickname"), g.Slice{"name_1", "name_2", "name_3"})
})
gtest.C(t, func(t *gtest.T) {
array, err := db.Model(table).Fields("nickname").Where("id", g.Slice{1, 2, 3}).Array()
t.AssertNil(err)
t.Assert(array, g.Slice{"name_1", "name_2", "name_3"})
})
gtest.C(t, func(t *gtest.T) {
array, err := db.Model(table).Array("nickname", "id", g.Slice{1, 2, 3})
t.AssertNil(err)
t.Assert(array, g.Slice{"name_1", "name_2", "name_3"})
})
}
func Test_Model_Count(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
// Count with cache, check internal ctx data feature.
gtest.C(t, func(t *gtest.T) {
for i := 0; i < 10; i++ {
count, err := db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second * 10,
Name: guid.S(),
Force: false,
}).Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
}
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).FieldsEx("id").Where("id>8").Count()
t.AssertNil(err)
t.Assert(count, int64(2))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Fields("distinct id").Where("id>8").Count()
t.AssertNil(err)
t.Assert(count, int64(2))
})
// COUNT...LIMIT...
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Page(1, 2).Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
}
func Test_Model_Select(t *testing.T) {
table := createInitTable()
defer dropTable(table)
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
gtest.C(t, func(t *gtest.T) {
var users []User
err := db.Model(table).Scan(&users)
t.AssertNil(err)
t.Assert(len(users), TableSize)
})
}
func Test_Model_Struct(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
user := new(User)
err := db.Model(table).Where("id=1").Scan(user)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
user := new(User)
err := db.Model(table).Where("id=1").Scan(user)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
// Auto creating struct object.
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
user := (*User)(nil)
err := db.Model(table).Where("id=1").Scan(&user)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
// Just using Scan.
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
user := (*User)(nil)
err := db.Model(table).Where("id=1").Scan(&user)
if err != nil {
gtest.Error(err)
}
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
// sql.ErrNoRows
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
user := new(User)
err := db.Model(table).Where("id=-1").Scan(user)
t.Assert(err, sql.ErrNoRows)
})
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var user *User
err := db.Model(table).Where("id=-1").Scan(&user)
t.AssertNil(err)
})
}
func Test_Model_Struct_CustomType(t *testing.T) {
table := createInitTable()
defer dropTable(table)
type MyInt int
gtest.C(t, func(t *gtest.T) {
type User struct {
Id MyInt
Passport string
Password string
NickName string
CreateTime gtime.Time
}
user := new(User)
err := db.Model(table).Where("id=1").Scan(user)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
}
func Test_Model_Structs(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
var users []User
err := db.Model(table).Order("id asc").Scan(&users)
if err != nil {
gtest.Error(err)
}
t.Assert(len(users), TableSize)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 2)
t.Assert(users[2].Id, 3)
t.Assert(users[0].NickName, "name_1")
t.Assert(users[1].NickName, "name_2")
t.Assert(users[2].NickName, "name_3")
t.Assert(users[0].CreateTime.String(), CreateTime)
})
// Auto create struct slice.
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var users []*User
err := db.Model(table).Order("id asc").Scan(&users)
if err != nil {
gtest.Error(err)
}
t.Assert(len(users), TableSize)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 2)
t.Assert(users[2].Id, 3)
t.Assert(users[0].NickName, "name_1")
t.Assert(users[1].NickName, "name_2")
t.Assert(users[2].NickName, "name_3")
t.Assert(users[0].CreateTime.String(), CreateTime)
})
// Just using Scan.
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var users []*User
err := db.Model(table).Order("id asc").Scan(&users)
if err != nil {
gtest.Error(err)
}
t.Assert(len(users), TableSize)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 2)
t.Assert(users[2].Id, 3)
t.Assert(users[0].NickName, "name_1")
t.Assert(users[1].NickName, "name_2")
t.Assert(users[2].NickName, "name_3")
t.Assert(users[0].CreateTime.String(), CreateTime)
})
// sql.ErrNoRows
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var users []*User
err := db.Model(table).Where("id<0").Scan(&users)
t.AssertNil(err)
})
}
func Test_Model_StructsWithOrmTag(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
db.SetDebug(true)
defer db.SetDebug(false)
type User struct {
Uid int `orm:"id"`
Passport string
Password string `orm:"password"`
Name string `orm:"nickname"`
Time gtime.Time `orm:"create_time"`
}
var (
users []User
buffer = bytes.NewBuffer(nil)
)
db.GetLogger().(*glog.Logger).SetWriter(buffer)
defer db.GetLogger().(*glog.Logger).SetWriter(os.Stdout)
db.Model(table).Order("id asc").Scan(&users)
// fmt.Println(buffer.String())
t.Assert(
gstr.Contains(buffer.String(), "SELECT `id`,`passport`,`password`,`nickname`,`create_time` FROM `user"),
true,
)
})
gtest.C(t, func(t *gtest.T) {
type A struct {
Passport string
Password string
}
type B struct {
A
NickName string
}
one, err := db.Model(table).Fields(&B{}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 3)
t.Assert(one["nickname"], "name_2")
t.Assert(one["passport"], "user_2")
t.Assert(one["password"], "pass_2")
})
}
func Test_Model_Scan(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
user := new(User)
err := db.Model(table).Where("id=1").Scan(user)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
user := new(User)
err := db.Model(table).Where("id=1").Scan(user)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
})
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
var users []User
err := db.Model(table).Order("id asc").Scan(&users)
t.AssertNil(err)
t.Assert(len(users), TableSize)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 2)
t.Assert(users[2].Id, 3)
t.Assert(users[0].NickName, "name_1")
t.Assert(users[1].NickName, "name_2")
t.Assert(users[2].NickName, "name_3")
t.Assert(users[0].CreateTime.String(), CreateTime)
})
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var users []*User
err := db.Model(table).Order("id asc").Scan(&users)
t.AssertNil(err)
t.Assert(len(users), TableSize)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 2)
t.Assert(users[2].Id, 3)
t.Assert(users[0].NickName, "name_1")
t.Assert(users[1].NickName, "name_2")
t.Assert(users[2].NickName, "name_3")
t.Assert(users[0].CreateTime.String(), CreateTime)
})
// sql.ErrNoRows
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var (
user = new(User)
users = new([]*User)
)
err1 := db.Model(table).Where("id < 0").Scan(user)
err2 := db.Model(table).Where("id < 0").Scan(users)
t.Assert(err1, sql.ErrNoRows)
t.Assert(err2, nil)
})
}
func Test_Model_ScanAndCount(t *testing.T) {
table := createInitTable()
defer dropTable(table)
tableName2 := "user_" + gtime.Now().TimestampNanoStr()
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
name varchar(45) NULL,
age int(10)
);
`, tableName2,
)); err != nil {
gtest.AssertNil(err)
}
defer dropTable(tableName2)
r, err := db.Insert(ctx, tableName2, g.Map{
"id": 1,
"name": "table2_1",
"age": 18,
})
gtest.AssertNil(err)
n, _ := r.RowsAffected()
gtest.Assert(n, 1)
// ScanAndCount with normal struct result
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
user := new(User)
var count int
err := db.Model(table).Where("id=1").ScanAndCount(user, &count, true)
t.AssertNil(err)
t.Assert(user.NickName, "name_1")
t.Assert(user.CreateTime.String(), CreateTime)
t.Assert(count, 1)
})
// ScanAndCount with normal array result
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
var users []User
var count int
err := db.Model(table).Order("id asc").ScanAndCount(&users, &count, true)
t.AssertNil(err)
t.Assert(len(users), TableSize)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 2)
t.Assert(users[2].Id, 3)
t.Assert(users[0].NickName, "name_1")
t.Assert(users[1].NickName, "name_2")
t.Assert(users[2].NickName, "name_3")
t.Assert(users[0].CreateTime.String(), CreateTime)
t.Assert(count, len(users))
})
// sql.ErrNoRows
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime *gtime.Time
}
var (
user = new(User)
users = new([]*User)
)
var count1 int
var count2 int
err1 := db.Model(table).Where("id < 0").ScanAndCount(user, &count1, true)
err2 := db.Model(table).Where("id < 0").ScanAndCount(users, &count2, true)
t.Assert(count1, 0)
t.Assert(count2, 0)
t.Assert(err1, nil)
t.Assert(err2, nil)
})
// ScanAndCount with page
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
var users []User
var count int
err := db.Model(table).Order("id asc").Page(1, 3).ScanAndCount(&users, &count, true)
t.AssertNil(err)
t.Assert(len(users), 3)
t.Assert(count, TableSize)
})
// ScanAndCount with distinct
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
var users []User
var count int
err = db.Model(table).Fields("distinct id").ScanAndCount(&users, &count, true)
t.AssertNil(err)
t.Assert(len(users), 10)
t.Assert(count, TableSize)
t.Assert(users[0].Id, 1)
})
// ScanAndCount with join
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Name string
Age int
}
var users []User
var count int
err = db.Model(table).As("u1").
LeftJoin(tableName2, "u2", "u2.id=u1.id").
Fields("u1.passport,u1.id,u2.name,u2.age").
Where("u1.id<2").
ScanAndCount(&users, &count, false)
t.AssertNil(err)
t.Assert(len(users), 1)
t.Assert(count, 1)
t.AssertEQ(users[0].Name, "table2_1")
})
// ScanAndCount with join return CodeDbOperationError
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Name string
Age int
}
var users []User
var count int
err = db.Model(table).As("u1").
LeftJoin(tableName2, "u2", "u2.id=u1.id").
Fields("u1.passport,u1.id,u2.name,u2.age").
Where("u1.id<2").
ScanAndCount(&users, &count, true)
t.AssertNE(err, nil)
t.Assert(gerror.Code(err), gcode.CodeDbOperationError)
t.Assert(count, 0)
t.AssertEQ(users, nil)
})
}
func Test_Model_Scan_NilSliceAttrWhenNoRecordsFound(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
CreateTime gtime.Time
}
type Response struct {
Users []User `json:"users"`
}
var res Response
err := db.Model(table).Scan(&res.Users)
t.AssertNil(err)
t.Assert(res.Users, nil)
})
}
func Test_Model_OrderBy(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Order("id DESC").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["nickname"].String(), fmt.Sprintf("name_%d", TableSize))
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Order("NULL").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["nickname"].String(), "name_1")
})
}
func Test_Model_GroupBy(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Group("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["nickname"].String(), "name_1")
})
}
func Test_Model_Data(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
result, err := db.Model(table).Data("nickname=?", "test").Where("id=?", 3).Update()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
})
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
users := make([]g.MapStrAny, 0)
for i := 1; i <= 10; i++ {
users = append(users, g.MapStrAny{
"id": i,
"passport": fmt.Sprintf(`passport_%d`, i),
"password": fmt.Sprintf(`password_%d`, i),
"nickname": fmt.Sprintf(`nickname_%d`, i),
"create_time": gtime.Now().String(),
})
}
result, err := db.Model(table).Data(users).Batch(2).Insert()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 10)
})
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
users := garray.New()
for i := 1; i <= 10; i++ {
users.Append(g.MapStrAny{
"id": i,
"passport": fmt.Sprintf(`passport_%d`, i),
"password": fmt.Sprintf(`password_%d`, i),
"nickname": fmt.Sprintf(`nickname_%d`, i),
"create_time": gtime.Now().String(),
})
}
result, err := db.Model(table).Data(users).Batch(2).Insert()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 10)
})
}
func Test_Model_Where(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// string
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id=? and nickname=?", 3, "name_3").One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
// slice
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Slice{"id", 3}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Slice{"id", 3, "nickname", "name_3"}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
// slice parameter
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id=? and nickname=?", g.Slice{3, "name_3"}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
// map like
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Map{
"passport like": "user_1%",
}).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0].GMap().Get("id"), 1)
t.Assert(result[1].GMap().Get("id"), 10)
})
// map + slice parameter
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Map{
"id": g.Slice{1, 2, 3},
"passport": g.Slice{"user_2", "user_3"},
}).Where("id=? and nickname=?", g.Slice{3, "name_3"}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id=3", g.Slice{}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id=?", g.Slice{3}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 3).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 3).Where("nickname", "name_3").One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 3).Where("nickname", "name_3").One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 30).WhereOr("nickname", "name_3").One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 30).WhereOr("nickname", "name_3").Where("id>?", 1).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 30).WhereOr("nickname", "name_3").Where("id>", 1).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// slice
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id=? AND nickname=?", g.Slice{3, "name_3"}...).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id=? AND nickname=?", g.Slice{3, "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("passport like ? and nickname like ?", g.Slice{"user_3", "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Map{"id": 3, "nickname": "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Map{"id>": 1, "id<": 3}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// gmap.Map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(gmap.NewFrom(g.MapAnyAny{"id": 3, "nickname": "name_3"})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// gmap.Map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(gmap.NewFrom(g.MapAnyAny{"id>": 1, "id<": 3})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// list map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(gmap.NewListMapFrom(g.MapAnyAny{"id": 3, "nickname": "name_3"})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// list map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(gmap.NewListMapFrom(g.MapAnyAny{"id>": 1, "id<": 3})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// tree map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(gmap.NewTreeMapFrom(gutil.ComparatorString, g.MapAnyAny{"id": 3, "nickname": "name_3"})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// tree map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(gmap.NewTreeMapFrom(gutil.ComparatorString, g.MapAnyAny{"id>": 1, "id<": 3})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// complicated where 1
gtest.C(t, func(t *gtest.T) {
// db.SetDebug(true)
conditions := g.Map{
"nickname like ?": "%name%",
"id between ? and ?": g.Slice{1, 3},
"id > 0": nil,
"create_time > 0": nil,
"id": g.Slice{1, 2, 3},
}
result, err := db.Model(table).Where(conditions).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
})
// complicated where 2
gtest.C(t, func(t *gtest.T) {
// db.SetDebug(true)
conditions := g.Map{
"nickname like ?": "%name%",
"id between ? and ?": g.Slice{1, 3},
"id >= ?": 1,
"create_time > ?": 0,
"id in(?)": g.Slice{1, 2, 3},
}
result, err := db.Model(table).Where(conditions).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
})
// struct, automatic mapping and filtering.
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Nickname string
}
result, err := db.Model(table).Where(User{3, "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
result, err = db.Model(table).Where(&User{3, "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// slice single
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id IN(?)", g.Slice{1, 3}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 3)
})
// slice + string
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("nickname=? AND id IN(?)", "name_3", g.Slice{1, 3}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 3)
})
// slice + map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Map{
"id": g.Slice{1, 3},
"nickname": "name_3",
}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 3)
})
// slice + struct
gtest.C(t, func(t *gtest.T) {
type User struct {
Ids []int `json:"id"`
Nickname string `gconv:"nickname"`
}
result, err := db.Model(table).Where(User{
Ids: []int{1, 3},
Nickname: "name_3",
}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 3)
})
}
func Test_Model_Where_ISNULL_1(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
// db.SetDebug(true)
result, err := db.Model(table).Data("nickname", nil).Where("id", 2).Update()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("nickname", nil).One()
t.AssertNil(err)
t.Assert(one.IsEmpty(), false)
t.Assert(one["id"], 2)
})
}
func Test_Model_Where_ISNULL_2(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// complicated one.
gtest.C(t, func(t *gtest.T) {
// db.SetDebug(true)
conditions := g.Map{
"nickname like ?": "%name%",
"id between ? and ?": g.Slice{1, 3},
"id > 0": nil,
"create_time > 0": nil,
"id": g.Slice{1, 2, 3},
}
result, err := db.Model(table).Where(conditions).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
})
}
func Test_Model_Where_OmitEmpty(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
conditions := g.Map{
"id < 4": "",
}
result, err := db.Model(table).Where(conditions).Order("id desc").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
conditions := g.Map{
"id < 4": "",
}
result, err := db.Model(table).Where(conditions).OmitEmpty().Order("id desc").All()
t.AssertNil(err)
t.Assert(len(result), 10)
t.Assert(result[0]["id"].Int(), 10)
})
}
func Test_Model_Where_GTime(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("create_time>?", gtime.NewFromStr("2010-09-01")).All()
t.AssertNil(err)
t.Assert(len(result), 10)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("create_time>?", *gtime.NewFromStr("2010-09-01")).All()
t.AssertNil(err)
t.Assert(len(result), 10)
})
}
func Test_Model_WherePri(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// primary key
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).WherePri(3).One()
t.AssertNil(err)
t.AssertNE(one, nil)
t.Assert(one["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).WherePri(g.Slice{3, 9}).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(all), 2)
t.Assert(all[0]["id"].Int(), 3)
t.Assert(all[1]["id"].Int(), 9)
})
// string
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id=? and nickname=?", 3, "name_3").One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
// slice parameter
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id=? and nickname=?", g.Slice{3, "name_3"}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
// map like
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(g.Map{
"passport like": "user_1%",
}).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0].GMap().Get("id"), 1)
t.Assert(result[1].GMap().Get("id"), 10)
})
// map + slice parameter
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(g.Map{
"id": g.Slice{1, 2, 3},
"passport": g.Slice{"user_2", "user_3"},
}).Where("id=? and nickname=?", g.Slice{3, "name_3"}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(g.Map{
"id": g.Slice{1, 2, 3},
"passport": g.Slice{"user_2", "user_3"},
}).WhereOr("nickname=?", g.Slice{"name_4"}).Where("id", 3).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 2)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id=3", g.Slice{}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id=?", g.Slice{3}).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id", 3).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id", 3).WherePri("nickname", "name_3").One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id", 3).Where("nickname", "name_3").One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id", 30).WhereOr("nickname", "name_3").One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id", 30).WhereOr("nickname", "name_3").Where("id>?", 1).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id", 30).WhereOr("nickname", "name_3").Where("id>", 1).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// slice
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id=? AND nickname=?", g.Slice{3, "name_3"}...).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id=? AND nickname=?", g.Slice{3, "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("passport like ? and nickname like ?", g.Slice{"user_3", "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(g.Map{"id": 3, "nickname": "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(g.Map{"id>": 1, "id<": 3}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// gmap.Map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(gmap.NewFrom(g.MapAnyAny{"id": 3, "nickname": "name_3"})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// gmap.Map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(gmap.NewFrom(g.MapAnyAny{"id>": 1, "id<": 3})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// list map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(gmap.NewListMapFrom(g.MapAnyAny{"id": 3, "nickname": "name_3"})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// list map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(gmap.NewListMapFrom(g.MapAnyAny{"id>": 1, "id<": 3})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// tree map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(gmap.NewTreeMapFrom(gutil.ComparatorString, g.MapAnyAny{"id": 3, "nickname": "name_3"})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// tree map key operator
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(gmap.NewTreeMapFrom(gutil.ComparatorString, g.MapAnyAny{"id>": 1, "id<": 3})).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 2)
})
// complicated where 1
gtest.C(t, func(t *gtest.T) {
// db.SetDebug(true)
conditions := g.Map{
"nickname like ?": "%name%",
"id between ? and ?": g.Slice{1, 3},
"id > 0": nil,
"create_time > 0": nil,
"id": g.Slice{1, 2, 3},
}
result, err := db.Model(table).WherePri(conditions).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
})
// complicated where 2
gtest.C(t, func(t *gtest.T) {
// db.SetDebug(true)
conditions := g.Map{
"nickname like ?": "%name%",
"id between ? and ?": g.Slice{1, 3},
"id >= ?": 1,
"create_time > ?": 0,
"id in(?)": g.Slice{1, 2, 3},
}
result, err := db.Model(table).WherePri(conditions).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
})
// struct
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int `json:"id"`
Nickname string `gconv:"nickname"`
}
result, err := db.Model(table).WherePri(User{3, "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
result, err = db.Model(table).WherePri(&User{3, "name_3"}).One()
t.AssertNil(err)
t.Assert(result["id"].Int(), 3)
})
// slice single
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("id IN(?)", g.Slice{1, 3}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 3)
})
// slice + string
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri("nickname=? AND id IN(?)", "name_3", g.Slice{1, 3}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 3)
})
// slice + map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WherePri(g.Map{
"id": g.Slice{1, 3},
"nickname": "name_3",
}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 3)
})
// slice + struct
gtest.C(t, func(t *gtest.T) {
type User struct {
Ids []int `json:"id"`
Nickname string `gconv:"nickname"`
}
result, err := db.Model(table).WherePri(User{
Ids: []int{1, 3},
Nickname: "name_3",
}).Order("id ASC").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 3)
})
}
func Test_Model_Delete(t *testing.T) {
// table := createInitTable()
// defer dropTable(table)
// DELETE...LIMIT
// https://github.com/mattn/go-sqlite3/pull/802
// gtest.C(t, func(t *gtest.T) {
// result, err := db.Model(table).Where(1).Limit(2).Delete()
// t.AssertNil(err)
// n, _ := result.RowsAffected()
// t.Assert(n, 2)
// })
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
result, err := db.Model(table).Where(1).Delete()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, TableSize)
})
}
func Test_Model_Offset(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Limit(2).Offset(5).Order("id").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"], 6)
t.Assert(result[1]["id"], 7)
})
}
func Test_Model_Page(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Page(3, 3).Order("id").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"], 7)
t.Assert(result[1]["id"], 8)
})
gtest.C(t, func(t *gtest.T) {
model := db.Model(table).Safe().Order("id")
all, err := model.Page(3, 3).All()
t.AssertNil(err)
count, err := model.Count()
t.AssertNil(err)
t.Assert(len(all), 3)
t.Assert(all[0]["id"], "7")
t.Assert(count, int64(TableSize))
})
}
func Test_Model_Option_Map(t *testing.T) {
// Insert
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
r, err := db.Model(table).Fields("id, passport", "password", "create_time").Data(g.Map{
"id": 1,
"passport": "1",
"password": "1",
"nickname": "1",
"create_time": gtime.Now().String(),
}).Insert()
t.AssertNil(err)
n, _ := r.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("id", 1).One()
t.AssertNil(err)
t.AssertNE(one["password"].String(), "2")
t.AssertNE(one["nickname"].String(), "2")
t.Assert(one["passport"].String(), "1")
})
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
r, err := db.Model(table).OmitEmptyData().Data(g.Map{
"id": 1,
"passport": "1",
"password": "1",
"nickname": "",
"create_time": gtime.Now().String(),
}).Insert()
t.AssertNil(err)
n, _ := r.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("id", 1).One()
t.AssertNil(err)
t.AssertNE(one["passport"].String(), "0")
t.AssertNE(one["password"].String(), "0")
t.Assert(one["nickname"].String(), "")
})
// Replace
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
_, err := db.Model(table).OmitEmptyData().Data(g.Map{
"id": 1,
"passport": 0,
"password": 0,
"nickname": "1",
}).Replace()
t.AssertNil(err)
one, err := db.Model(table).Where("id", 1).One()
t.AssertNil(err)
t.AssertNE(one["passport"].String(), "0")
t.AssertNE(one["password"].String(), "0")
t.Assert(one["nickname"].String(), "1")
})
// Update
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
r, err := db.Model(table).Data(g.Map{"nickname": ""}).Where("id", 1).Update()
t.AssertNil(err)
n, _ := r.RowsAffected()
t.Assert(n, 1)
_, err = db.Model(table).OmitEmptyData().Data(g.Map{"nickname": ""}).Where("id", 2).Update()
t.AssertNE(err, nil)
r, err = db.Model(table).OmitEmpty().Data(g.Map{"nickname": "", "password": "123"}).Where("id", 3).Update()
t.AssertNil(err)
n, _ = r.RowsAffected()
t.Assert(n, 1)
_, err = db.Model(table).OmitEmpty().Fields("nickname").Data(g.Map{"nickname": "", "password": "123"}).Where("id", 4).Update()
t.AssertNE(err, nil)
r, err = db.Model(table).OmitEmpty().
Fields("password").Data(g.Map{
"nickname": "",
"passport": "123",
"password": "456",
}).Where("id", 5).Update()
t.AssertNil(err)
n, _ = r.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("id", 5).One()
t.AssertNil(err)
t.Assert(one["password"], "456")
t.AssertNE(one["passport"].String(), "")
t.AssertNE(one["passport"].String(), "123")
})
}
func Test_Model_Option_Where(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
table := createInitTable()
defer dropTable(table)
r, err := db.Model(table).OmitEmpty().Data("nickname", 1).Where(g.Map{"id": 0, "passport": ""}).Where(1).Update()
t.AssertNil(err)
n, _ := r.RowsAffected()
t.Assert(n, TableSize)
})
}
func Test_Model_Where_MultiSliceArguments(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table).Where(g.Map{
"id": g.Slice{1, 2, 3, 4},
"passport": g.Slice{"user_2", "user_3", "user_4"},
"nickname": g.Slice{"name_2", "name_4"},
"id >= 4": nil,
}).All()
t.AssertNil(err)
t.Assert(len(r), 1)
t.Assert(r[0]["id"], 4)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(g.Map{
"id": g.Slice{1, 2, 3},
"passport": g.Slice{"user_2", "user_3"},
}).WhereOr("nickname=?", g.Slice{"name_4"}).Where("id", 3).One()
t.AssertNil(err)
t.AssertGT(len(result), 0)
t.Assert(result["id"].Int(), 2)
})
}
func Test_Model_FieldsEx(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// Select.
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table).FieldsEx("create_time, id").Where("id in (?)", g.Slice{1, 2}).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(r), 2)
t.Assert(len(r[0]), 3)
t.Assert(r[0]["id"], "")
t.Assert(r[0]["passport"], "user_1")
t.Assert(r[0]["password"], "pass_1")
t.Assert(r[0]["nickname"], "name_1")
t.Assert(r[0]["create_time"], "")
t.Assert(r[1]["id"], "")
t.Assert(r[1]["passport"], "user_2")
t.Assert(r[1]["password"], "pass_2")
t.Assert(r[1]["nickname"], "name_2")
t.Assert(r[1]["create_time"], "")
})
// Update.
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table).FieldsEx("password").Data(g.Map{"nickname": "123", "password": "456"}).Where("id", 3).Update()
t.AssertNil(err)
n, _ := r.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("id", 3).One()
t.AssertNil(err)
t.Assert(one["nickname"], "123")
t.AssertNE(one["password"], "456")
})
}
func Test_Model_Prefix(t *testing.T) {
db := dbPrefix
noPrefixName := fmt.Sprintf(`%s_%d`, TableName, gtime.TimestampNano())
table := TableNamePrefix + noPrefixName
createInitTableWithDb(db, table)
defer dropTable(table)
// Select.
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(noPrefixName).Where("id in (?)", g.Slice{1, 2}).Order("id asc").All()
t.AssertNil(err)
t.Assert(len(r), 2)
t.Assert(r[0]["id"], "1")
t.Assert(r[1]["id"], "2")
})
// Select with alias.
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(noPrefixName+" as u").Where("u.id in (?)", g.Slice{1, 2}).Order("u.id asc").All()
t.AssertNil(err)
t.Assert(len(r), 2)
t.Assert(r[0]["id"], "1")
t.Assert(r[1]["id"], "2")
})
// Select with alias to struct.
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
NickName string
}
var users []User
err := db.Model(noPrefixName+" u").Where("u.id in (?)", g.Slice{1, 5}).Order("u.id asc").Scan(&users)
t.AssertNil(err)
t.Assert(len(users), 2)
t.Assert(users[0].Id, 1)
t.Assert(users[1].Id, 5)
})
// Select with alias and join statement.
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(noPrefixName+" as u1").LeftJoin(noPrefixName+" as u2", "u2.id=u1.id").Where("u1.id in (?)", g.Slice{1, 2}).Order("u1.id asc").All()
t.AssertNil(err)
t.Assert(len(r), 2)
t.Assert(r[0]["id"], "1")
t.Assert(r[1]["id"], "2")
})
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(noPrefixName).As("u1").LeftJoin(noPrefixName+" as u2", "u2.id=u1.id").Where("u1.id in (?)", g.Slice{1, 2}).Order("u1.id asc").All()
t.AssertNil(err)
t.Assert(len(r), 2)
t.Assert(r[0]["id"], "1")
t.Assert(r[1]["id"], "2")
})
}
func Test_Model_FieldsExStruct(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int `orm:"id" json:"id"`
Passport string `orm:"passport" json:"pass_port"`
Password string `orm:"password" json:"password"`
NickName string `orm:"nickname" json:"nick__name"`
Time time.Time `orm:"create_time" `
}
user := &User{
Id: 1,
Passport: "111",
Password: "222",
NickName: "333",
Time: time.Now(),
}
r, err := db.Model(table).FieldsEx("nickname").OmitEmpty().Data(user).Insert()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
})
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int `orm:"id" json:"id"`
Passport string `orm:"passport" json:"pass_port"`
Password string `orm:"password" json:"password"`
NickName string `orm:"nickname" json:"nick__name"`
Time time.Time `orm:"create_time" `
}
users := make([]*User, 0)
for i := 100; i < 110; i++ {
users = append(users, &User{
Id: i,
Passport: fmt.Sprintf(`passport_%d`, i),
Password: fmt.Sprintf(`password_%d`, i),
NickName: fmt.Sprintf(`nickname_%d`, i),
Time: time.Now(),
})
}
r, err := db.Model(table).FieldsEx("nickname").
OmitEmpty().
Batch(2).
Data(users).
Insert()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 10)
})
}
func Test_Model_OmitEmpty_Time(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int `orm:"id" json:"id"`
Passport string `orm:"password" json:"pass_port"`
Password string `orm:"password" json:"password"`
Time time.Time `orm:"create_time" `
}
user := &User{
Id: 1,
Passport: "111",
Password: "222",
Time: time.Time{},
}
r, err := db.Model(table).OmitEmpty().Data(user).Where("id", 1).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
})
}
func Test_Result_Chunk(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table).Order("id asc").All()
t.AssertNil(err)
chunks := r.Chunk(3)
t.Assert(len(chunks), 4)
t.Assert(chunks[0][0]["id"].Int(), 1)
t.Assert(chunks[1][0]["id"].Int(), 4)
t.Assert(chunks[2][0]["id"].Int(), 7)
t.Assert(chunks[3][0]["id"].Int(), 10)
})
}
func Test_Model_DryRun(t *testing.T) {
table := createInitTable()
defer dropTable(table)
db.SetDryRun(true)
defer db.SetDryRun(false)
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).WherePri(1).One()
t.AssertNil(err)
t.Assert(one["id"], 1)
})
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table).Data("passport", "port_1").WherePri(1).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 0)
})
}
func Test_Model_Join_SubQuery(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
subQuery := fmt.Sprintf("select * from `%s`", table)
r, err := db.Model(table, "t1").Fields("t2.id").LeftJoin(subQuery, "t2", "t2.id=t1.id").Array()
t.AssertNil(err)
t.Assert(len(r), TableSize)
t.Assert(r[0], "1")
t.Assert(r[TableSize-1], TableSize)
})
}
func Test_Model_Cache(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test1",
Force: false,
}).WherePri(1).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_1")
r, err := db.Model(table).Data("passport", "user_100").WherePri(1).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
one, err = db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test1",
Force: false,
}).WherePri(1).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_1")
time.Sleep(time.Second * 2)
one, err = db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test1",
Force: false,
}).WherePri(1).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_100")
})
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test2",
Force: false,
}).WherePri(2).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_2")
r, err := db.Model(table).Data("passport", "user_200").Cache(gdb.CacheOption{
Duration: -1,
Name: "test2",
Force: false,
}).WherePri(2).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
one, err = db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test2",
Force: false,
}).WherePri(2).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_200")
})
// transaction.
gtest.C(t, func(t *gtest.T) {
// make cache for id 3
one, err := db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test3",
Force: false,
}).WherePri(3).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_3")
r, err := db.Model(table).Data("passport", "user_300").Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test3",
Force: false,
}).WherePri(3).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
err = db.Transaction(context.TODO(), func(ctx context.Context, tx gdb.TX) error {
one, err := tx.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test3",
Force: false,
}).WherePri(3).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_300")
return nil
})
t.AssertNil(err)
one, err = db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test3",
Force: false,
}).WherePri(3).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_3")
})
gtest.C(t, func(t *gtest.T) {
// make cache for id 4
one, err := db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test4",
Force: false,
}).WherePri(4).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_4")
r, err := db.Model(table).Data("passport", "user_400").Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test3",
Force: false,
}).WherePri(4).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
err = db.Transaction(context.TODO(), func(ctx context.Context, tx gdb.TX) error {
// Cache feature disabled.
one, err := tx.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test4",
Force: false,
}).WherePri(4).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_400")
// Update the cache.
r, err := tx.Model(table).Data("passport", "user_4000").
Cache(gdb.CacheOption{
Duration: -1,
Name: "test4",
Force: false,
}).WherePri(4).Update()
t.AssertNil(err)
n, err := r.RowsAffected()
t.AssertNil(err)
t.Assert(n, 1)
return nil
})
t.AssertNil(err)
// Read from db.
one, err = db.Model(table).Cache(gdb.CacheOption{
Duration: time.Second,
Name: "test4",
Force: false,
}).WherePri(4).One()
t.AssertNil(err)
t.Assert(one["passport"], "user_4000")
})
}
func Test_Model_Having(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Where("id > 1").Group("id").Having("id > 8").All()
t.AssertNil(err)
t.Assert(len(all), 2)
})
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Where("id > 1").Group("id").Having("id > ?", 8).All()
t.AssertNil(err)
t.Assert(len(all), 2)
})
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Where("id > ?", 1).Group("id").Having("id > ?", 8).All()
t.AssertNil(err)
t.Assert(len(all), 2)
})
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Where("id > ?", 1).Group("id").Having("id", 8).All()
t.AssertNil(err)
t.Assert(len(all), 1)
})
}
func Test_Model_Distinct(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table, "t").Fields("distinct t.id").Where("id > 1").Group("id").Having("id > 8").All()
t.AssertNil(err)
t.Assert(len(all), 2)
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where("id > 1").Distinct().Count()
t.AssertNil(err)
t.Assert(count, int64(9))
})
}
func Test_Model_Min_Max(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table, "t").Fields("min(t.id)").Where("id > 1").Value()
t.AssertNil(err)
t.Assert(value.Int(), 2)
})
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table, "t").Fields("max(t.id)").Where("id > 1").Value()
t.AssertNil(err)
t.Assert(value.Int(), 10)
})
}
func Test_Model_Fields_AutoMapping(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table).Fields("ID").Where("id", 2).Value()
t.AssertNil(err)
t.Assert(value.Int(), 2)
})
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table).Fields("NICK_NAME").Where("id", 2).Value()
t.AssertNil(err)
t.Assert(value.String(), "name_2")
})
// Map
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Fields(g.Map{
"ID": 1,
"NICK_NAME": 1,
}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["id"], 2)
t.Assert(one["nickname"], "name_2")
})
// Struct
gtest.C(t, func(t *gtest.T) {
type T struct {
ID int
NICKNAME int
}
one, err := db.Model(table).Fields(&T{
ID: 0,
NICKNAME: 0,
}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["id"], 2)
t.Assert(one["nickname"], "name_2")
})
}
func Test_Model_FieldsEx_AutoMapping(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// "id": i,
// "passport": fmt.Sprintf(`user_%d`, i),
// "password": fmt.Sprintf(`pass_%d`, i),
// "nickname": fmt.Sprintf(`name_%d`, i),
// "create_time": gtime.NewFromStr(CreateTime).String(),
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table).FieldsEx("Passport, Password, NickName, CreateTime").Where("id", 2).Value()
t.AssertNil(err)
t.Assert(value.Int(), 2)
})
gtest.C(t, func(t *gtest.T) {
value, err := db.Model(table).FieldsEx("ID, Passport, Password, CreateTime").Where("id", 2).Value()
t.AssertNil(err)
t.Assert(value.String(), "name_2")
})
// Map
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).FieldsEx(g.Map{
"Passport": 1,
"Password": 1,
"CreateTime": 1,
}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["id"], 2)
t.Assert(one["nickname"], "name_2")
})
// Struct
gtest.C(t, func(t *gtest.T) {
type T struct {
Passport int
Password int
CreateTime int
}
one, err := db.Model(table).FieldsEx(&T{
Passport: 0,
Password: 0,
CreateTime: 0,
}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["id"], 2)
t.Assert(one["nickname"], "name_2")
})
}
func Test_Model_Fields_Struct(t *testing.T) {
table := createInitTable()
defer dropTable(table)
type A struct {
Passport string
Password string
}
type B struct {
A
NickName string
}
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Fields(A{}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["passport"], "user_2")
t.Assert(one["password"], "pass_2")
})
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Fields(&A{}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["passport"], "user_2")
t.Assert(one["password"], "pass_2")
})
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Fields(B{}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 3)
t.Assert(one["passport"], "user_2")
t.Assert(one["password"], "pass_2")
t.Assert(one["nickname"], "name_2")
})
gtest.C(t, func(t *gtest.T) {
one, err := db.Model(table).Fields(&B{}).Where("id", 2).One()
t.AssertNil(err)
t.Assert(len(one), 3)
t.Assert(one["passport"], "user_2")
t.Assert(one["password"], "pass_2")
t.Assert(one["nickname"], "name_2")
})
}
// func Test_Model_NullField(t *testing.T) {
// table := createTable()
// defer dropTable(table)
// gtest.C(t, func(t *gtest.T) {
// type User struct {
// Id int
// Passport *string
// }
// data := g.Map{
// "id": 1,
// "passport": nil,
// }
// result, err := db.Model(table).Data(data).Insert()
// t.AssertNil(err)
// n, _ := result.RowsAffected()
// t.Assert(n, 1)
// one, err := db.Model(table).WherePri(1).One()
// t.AssertNil(err)
// var user *User
// err = one.Struct(&user)
// t.AssertNil(err)
// t.Assert(user.Id, data["id"])
// t.Assert(user.Passport, data["passport"])
// })
// }
func Test_Model_Empty_Slice_Argument(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(`id`, g.Slice{}).All()
t.AssertNil(err)
t.Assert(len(result), 0)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where(`id in(?)`, g.Slice{}).All()
t.AssertNil(err)
t.Assert(len(result), 0)
})
}
func Test_Model_HasTable(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
t.AssertNil(db.GetCore().ClearCacheAll(ctx))
result, err := db.GetCore().HasTable(table)
t.Assert(result, true)
t.AssertNil(err)
})
gtest.C(t, func(t *gtest.T) {
t.AssertNil(db.GetCore().ClearCacheAll(ctx))
result, err := db.GetCore().HasTable("table12321")
t.Assert(result, false)
t.AssertNil(err)
})
}
func Test_Model_HasField(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).HasField("id")
t.Assert(result, true)
t.AssertNil(err)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).HasField("id123")
t.Assert(result, false)
t.AssertNil(err)
})
}
// Issue: https://github.com/gogf/gf/issues/1002
func Test_Model_Issue1002(t *testing.T) {
table := createTable()
defer dropTable(table)
result, err := db.Model(table).Data(g.Map{
"id": 1,
"passport": "port_1",
"password": "pass_1",
"nickname": "name_2",
"create_time": "2020-10-27 19:03:33",
}).Insert()
gtest.AssertNil(err)
n, _ := result.RowsAffected()
gtest.Assert(n, 1)
// where + string.
gtest.C(t, func(t *gtest.T) {
v, err := db.Model(table).Fields("id").Where("create_time>'2020-10-27 19:03:32' and create_time<'2020-10-27 19:03:34'").Value()
t.AssertNil(err)
t.Assert(v.Int(), 1)
})
gtest.C(t, func(t *gtest.T) {
v, err := db.Model(table).Fields("id").Where("create_time>'2020-10-27 19:03:32' and create_time<'2020-10-27 19:03:34'").Value()
t.AssertNil(err)
t.Assert(v.Int(), 1)
})
// where + string arguments.
gtest.C(t, func(t *gtest.T) {
v, err := db.Model(table).Fields("id").Where("create_time>? and create_time<?", "2020-10-27 19:03:32", "2020-10-27 19:03:34").Value()
t.AssertNil(err)
t.Assert(v.Int(), 1)
})
// where + gtime.Time arguments.
gtest.C(t, func(t *gtest.T) {
v, err := db.Model(table).Fields("id").Where("create_time>? and create_time<?", gtime.New("2020-10-27 19:03:32"), gtime.New("2020-10-27 19:03:34")).Value()
t.AssertNil(err)
t.Assert(v.Int(), 1)
})
// TODO
// where + time.Time arguments, UTC.
// gtest.C(t, func(t *gtest.T) {
// t1, _ := time.Parse("2006-01-02 15:04:05", "2020-10-27 11:03:32")
// t2, _ := time.Parse("2006-01-02 15:04:05", "2020-10-27 11:03:34")
// {
// v, err := db.Model(table).Fields("id").Where("create_time>? and create_time<?", t1, t2).Value()
// t.AssertNil(err)
// t.Assert(v.Int(), 1)
// }
// })
}
func createTableForTimeZoneTest() string {
tableName := "user_" + gtime.Now().TimestampNanoStr()
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE IF NOT EXISTS %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
passport varchar(45) NULL,
password char(32) NULL,
nickname varchar(45) NULL,
created_at timestamp NULL,
updated_at timestamp NULL,
deleted_at timestamp NULL
);
`, tableName,
)); err != nil {
gtest.Fatal(err)
}
return tableName
}
// https://github.com/gogf/gf/issues/1012
func Test_TimeZoneInsert(t *testing.T) {
tableName := createTableForTimeZoneTest()
defer dropTable(tableName)
tokyoLoc, err := time.LoadLocation("Asia/Tokyo")
gtest.AssertNil(err)
CreateTime := "2020-11-22 12:23:45"
UpdateTime := "2020-11-22 13:23:45"
DeleteTime := "2020-11-22 14:23:45"
type User struct {
Id int `json:"id"`
CreatedAt *gtime.Time `json:"created_at"`
UpdatedAt gtime.Time `json:"updated_at"`
DeletedAt time.Time `json:"deleted_at"`
}
t1, _ := time.ParseInLocation("2006-01-02 15:04:05", CreateTime, tokyoLoc)
t2, _ := time.ParseInLocation("2006-01-02 15:04:05", UpdateTime, tokyoLoc)
t3, _ := time.ParseInLocation("2006-01-02 15:04:05", DeleteTime, tokyoLoc)
u := &User{
Id: 1,
CreatedAt: gtime.New(t1.UTC()),
UpdatedAt: *gtime.New(t2.UTC()),
DeletedAt: t3.UTC(),
}
gtest.C(t, func(t *gtest.T) {
_, _ = db.Model(tableName).Unscoped().Insert(u)
userEntity := &User{}
err := db.Model(tableName).Where("id", 1).Unscoped().Scan(&userEntity)
t.AssertNil(err)
// TODO
// t.Assert(userEntity.CreatedAt.String(), "2020-11-22 11:23:45")
// t.Assert(userEntity.UpdatedAt.String(), "2020-11-22 12:23:45")
// t.Assert(gtime.NewFromTime(userEntity.DeletedAt).String(), "2020-11-22 13:23:45")
})
}
func Test_Model_Fields_Map_Struct(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// map
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Fields(g.Map{
"ID": 1,
"PASSPORT": 1,
"NONE_EXIST": 1,
}).Where("id", 1).One()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result["id"], 1)
t.Assert(result["passport"], "user_1")
})
// struct
gtest.C(t, func(t *gtest.T) {
type A struct {
ID int
PASSPORT string
XXX_TYPE int
}
a := A{}
err := db.Model(table).Fields(a).Where("id", 1).Scan(&a)
t.AssertNil(err)
t.Assert(a.ID, 1)
t.Assert(a.PASSPORT, "user_1")
t.Assert(a.XXX_TYPE, 0)
})
// *struct
gtest.C(t, func(t *gtest.T) {
type A struct {
ID int
PASSPORT string
XXX_TYPE int
}
var a *A
err := db.Model(table).Fields(a).Where("id", 1).Scan(&a)
t.AssertNil(err)
t.Assert(a.ID, 1)
t.Assert(a.PASSPORT, "user_1")
t.Assert(a.XXX_TYPE, 0)
})
// **struct
gtest.C(t, func(t *gtest.T) {
type A struct {
ID int
PASSPORT string
XXX_TYPE int
}
var a *A
err := db.Model(table).Fields(&a).Where("id", 1).Scan(&a)
t.AssertNil(err)
t.Assert(a.ID, 1)
t.Assert(a.PASSPORT, "user_1")
t.Assert(a.XXX_TYPE, 0)
})
}
func Test_Model_WhereIn(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereIn("id", g.Slice{1, 2, 3, 4}).WhereIn("id", g.Slice{3, 4, 5}).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"], 3)
t.Assert(result[1]["id"], 4)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereIn("id", g.Slice{}).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 0)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).OmitEmptyWhere().WhereIn("id", g.Slice{}).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
})
}
func Test_Model_WhereNotIn(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereNotIn("id", g.Slice{1, 2, 3, 4}).WhereNotIn("id", g.Slice{3, 4, 5}).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 5)
t.Assert(result[0]["id"], 6)
t.Assert(result[1]["id"], 7)
})
}
func Test_Model_WhereOrIn(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrIn("id", g.Slice{1, 2, 3, 4}).WhereOrIn("id", g.Slice{3, 4, 5}).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 5)
t.Assert(result[0]["id"], 1)
t.Assert(result[4]["id"], 5)
})
}
func Test_Model_WhereOrNotIn(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrNotIn("id", g.Slice{1, 2, 3, 4}).WhereOrNotIn("id", g.Slice{3, 4, 5}).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 8)
t.Assert(result[0]["id"], 1)
t.Assert(result[4]["id"], 7)
})
}
func Test_Model_WhereBetween(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereBetween("id", 1, 4).WhereBetween("id", 3, 5).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"], 3)
t.Assert(result[1]["id"], 4)
})
}
func Test_Model_WhereNotBetween(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereNotBetween("id", 2, 8).WhereNotBetween("id", 3, 100).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"], 1)
})
}
func Test_Model_WhereOrBetween(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrBetween("id", 1, 4).WhereOrBetween("id", 3, 5).OrderDesc("id").All()
t.AssertNil(err)
t.Assert(len(result), 5)
t.Assert(result[0]["id"], 5)
t.Assert(result[4]["id"], 1)
})
}
func Test_Model_WhereOrNotBetween(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// db.SetDebug(true)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrNotBetween("id", 1, 4).WhereOrNotBetween("id", 3, 5).OrderDesc("id").All()
t.AssertNil(err)
t.Assert(len(result), 8)
t.Assert(result[0]["id"], 10)
t.Assert(result[4]["id"], 6)
})
}
func Test_Model_WhereLike(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereLike("nickname", "name%").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["id"], 1)
t.Assert(result[TableSize-1]["id"], TableSize)
})
}
func Test_Model_WhereNotLike(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereNotLike("nickname", "name%").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 0)
})
}
func Test_Model_WhereOrLike(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrLike("nickname", "namexxx%").WhereOrLike("nickname", "name%").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["id"], 1)
t.Assert(result[TableSize-1]["id"], TableSize)
})
}
func Test_Model_WhereOrNotLike(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrNotLike("nickname", "namexxx%").WhereOrNotLike("nickname", "name%").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["id"], 1)
t.Assert(result[TableSize-1]["id"], TableSize)
})
}
func Test_Model_WhereNull(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereNull("nickname").WhereNull("passport").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 0)
})
}
func Test_Model_WhereNotNull(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereNotNull("nickname").WhereNotNull("passport").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["id"], 1)
t.Assert(result[TableSize-1]["id"], TableSize)
})
}
// func Test_Model_WhereOrNull(t *testing.T) {
// table := createInitTable()
// defer dropTable(table)
// gtest.C(t, func(t *gtest.T) {
// result, err := db.Model(table).WhereOrNull("nickname").WhereOrNull("passport").OrderAsc("id").OrderRandom().All()
// t.AssertNil(err)
// t.Assert(len(result), 0)
// })
// }
func Test_Model_WhereOrNotNull(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereOrNotNull("nickname").WhereOrNotNull("passport").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), TableSize)
t.Assert(result[0]["id"], 1)
t.Assert(result[TableSize-1]["id"], TableSize)
})
}
func Test_Model_WhereLT(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereLT("id", 3).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"], 1)
})
}
func Test_Model_WhereLTE(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereLTE("id", 3).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"], 1)
})
}
func Test_Model_WhereGT(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereGT("id", 8).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 2)
t.Assert(result[0]["id"], 9)
})
}
func Test_Model_WhereGTE(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereGTE("id", 8).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"], 8)
})
}
func Test_Model_WhereOrLT(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereLT("id", 3).WhereOrLT("id", 4).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"], 1)
t.Assert(result[2]["id"], 3)
})
}
func Test_Model_WhereOrLTE(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereLTE("id", 3).WhereOrLTE("id", 4).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 4)
t.Assert(result[0]["id"], 1)
t.Assert(result[3]["id"], 4)
})
}
func Test_Model_WhereOrGT(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereGT("id", 8).WhereOrGT("id", 7).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"], 8)
})
}
func Test_Model_WhereOrGTE(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereGTE("id", 8).WhereOrGTE("id", 7).OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(result), 4)
t.Assert(result[0]["id"], 7)
})
}
func Test_Model_Min_Max_Avg_Sum(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Min("id")
t.AssertNil(err)
t.Assert(result, 1)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Max("id")
t.AssertNil(err)
t.Assert(result, TableSize)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Avg("id")
t.AssertNil(err)
t.Assert(result, 5.5)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Sum("id")
t.AssertNil(err)
t.Assert(result, 55)
})
}
func Test_Model_CountColumn(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).CountColumn("id")
t.AssertNil(err)
t.Assert(result, TableSize)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).WhereIn("id", g.Slice{1, 2, 3}).CountColumn("id")
t.AssertNil(err)
t.Assert(result, 3)
})
}
func Test_Model_InsertAndGetId(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
id, err := db.Model(table).Data(g.Map{
"id": 1,
"passport": "user_1",
"password": "pass_1",
"nickname": "name_1",
"create_time": gtime.Now().String(),
}).InsertAndGetId()
t.AssertNil(err)
t.Assert(id, 1)
})
gtest.C(t, func(t *gtest.T) {
id, err := db.Model(table).Data(g.Map{
"passport": "user_2",
"password": "pass_2",
"nickname": "name_2",
"create_time": gtime.Now().String(),
}).InsertAndGetId()
t.AssertNil(err)
t.Assert(id, 2)
})
}
func Test_Model_Increment_Decrement(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 1).Increment("id", 100)
t.AssertNil(err)
rows, _ := result.RowsAffected()
t.Assert(rows, 1)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.Model(table).Where("id", 101).Decrement("id", 10)
t.AssertNil(err)
rows, _ := result.RowsAffected()
t.Assert(rows, 1)
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where("id", 91).Count()
t.AssertNil(err)
t.Assert(count, int64(1))
})
}
func Test_Model_Raw(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.
Raw(fmt.Sprintf("select * from %s where id in (?)", table), g.Slice{1, 5, 7, 8, 9, 10}).
WhereLT("id", 8).
WhereIn("id", g.Slice{1, 2, 3, 4, 5, 6, 7}).
OrderDesc("id").
Limit(2).
All()
t.AssertNil(err)
t.Assert(len(all), 2)
t.Assert(all[0]["id"], 7)
t.Assert(all[1]["id"], 5)
})
gtest.C(t, func(t *gtest.T) {
count, err := db.
Raw(fmt.Sprintf("select * from %s where id in (?)", table), g.Slice{1, 5, 7, 8, 9, 10}).
WhereLT("id", 8).
WhereIn("id", g.Slice{1, 2, 3, 4, 5, 6, 7}).
OrderDesc("id").
Limit(2).
Count()
t.AssertNil(err)
t.Assert(count, int64(6))
})
}
func Test_Model_Handler(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
m := db.Model(table).Safe().Handler(
func(m *gdb.Model) *gdb.Model {
return m.Page(0, 3)
},
func(m *gdb.Model) *gdb.Model {
return m.Where("id", g.Slice{1, 2, 3, 4, 5, 6})
},
func(m *gdb.Model) *gdb.Model {
return m.OrderDesc("id")
},
)
all, err := m.All()
t.AssertNil(err)
t.Assert(len(all), 3)
t.Assert(all[0]["id"], 6)
t.Assert(all[2]["id"], 4)
})
}
func Test_Model_FieldCount(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Fields("id").FieldCount("id", "total").Group("id").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(all), TableSize)
t.Assert(all[0]["id"], 1)
t.Assert(all[0]["total"].Int(), 1)
})
}
func Test_Model_FieldMax(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Fields("id").FieldMax("id", "total").Group("id").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(all), TableSize)
t.Assert(all[0]["id"], 1)
t.Assert(all[0]["total"].Int(), 1)
})
}
func Test_Model_FieldMin(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Fields("id").FieldMin("id", "total").Group("id").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(all), TableSize)
t.Assert(all[0]["id"], 1)
t.Assert(all[0]["total"].Int(), 1)
})
}
func Test_Model_FieldAvg(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
all, err := db.Model(table).Fields("id").FieldAvg("id", "total").Group("id").OrderAsc("id").All()
t.AssertNil(err)
t.Assert(len(all), TableSize)
t.Assert(all[0]["id"], 1)
t.Assert(all[0]["total"].Int(), 1)
})
}
func Test_Model_OmitEmptyWhere(t *testing.T) {
table := createInitTable()
defer dropTable(table)
// Basic type where.
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where("id", 0).Count()
t.AssertNil(err)
t.Assert(count, int64(0))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).OmitEmptyWhere().Where("id", 0).Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).OmitEmptyWhere().Where("id", 0).Where("nickname", "").Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
// Slice where.
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where("id", g.Slice{1, 2, 3}).Count()
t.AssertNil(err)
t.Assert(count, int64(3))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where("id", g.Slice{}).Count()
t.AssertNil(err)
t.Assert(count, int64(0))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).OmitEmptyWhere().Where("id", g.Slice{}).Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where("id", g.Slice{}).OmitEmptyWhere().Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
// Struct Where.
gtest.C(t, func(t *gtest.T) {
type Input struct {
Id []int
Name []string
}
count, err := db.Model(table).Where(Input{}).Count()
t.AssertNil(err)
t.Assert(count, int64(0))
})
gtest.C(t, func(t *gtest.T) {
type Input struct {
Id []int
Name []string
}
count, err := db.Model(table).Where(Input{}).OmitEmptyWhere().Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
// Map Where.
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where(g.Map{
"id": []int{},
"nickname": []string{},
}).Count()
t.AssertNil(err)
t.Assert(count, int64(0))
})
gtest.C(t, func(t *gtest.T) {
count, err := db.Model(table).Where(g.Map{
"id": []int{},
}).OmitEmptyWhere().Count()
t.AssertNil(err)
t.Assert(count, int64(TableSize))
})
}
// https://github.com/gogf/gf/issues/1387
func Test_Model_GTime_DefaultValue(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
Nickname string
CreateTime *gtime.Time
}
data := User{
Id: 1,
Passport: "user_1",
Password: "pass_1",
Nickname: "name_1",
CreateTime: gtime.Now(),
}
// Insert
_, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
// Select
var (
user *User
)
err = db.Model(table).Scan(&user)
t.AssertNil(err)
t.Assert(user.Passport, data.Passport)
t.Assert(user.Password, data.Password)
t.Assert(user.CreateTime, data.CreateTime)
t.Assert(user.Nickname, data.Nickname)
// Insert
user.Id = 2
_, err = db.Model(table).Data(user).Insert()
t.AssertNil(err)
})
}
// Using filter does not affect the outside value inside function.
func Test_Model_Insert_Filter(t *testing.T) {
// map
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
data := g.Map{
"id": 1,
"uid": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_1",
"create_time": gtime.Now().String(),
}
result, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
n, _ := result.LastInsertId()
t.Assert(n, 1)
t.Assert(data["uid"], 1)
})
// slice
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
data := g.List{
g.Map{
"id": 1,
"uid": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_1",
"create_time": gtime.Now().String(),
},
g.Map{
"id": 2,
"uid": 2,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_1",
"create_time": gtime.Now().String(),
},
}
result, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
n, _ := result.LastInsertId()
t.Assert(n, 2)
t.Assert(data[0]["uid"], 1)
t.Assert(data[1]["uid"], 2)
})
}
func Test_Model_Embedded_Filter(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type Base struct {
Id int
Uid int
CreateTime string
NoneExist string
}
type User struct {
Base
Passport string
Password string
Nickname string
}
result, err := db.Model(table).Data(User{
Passport: "john-test",
Password: "123456",
Nickname: "John",
Base: Base{
Id: 100,
Uid: 100,
CreateTime: gtime.Now().String(),
},
}).Insert()
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
var user *User
err = db.Model(table).Fields(user).Where("id=100").Scan(&user)
t.AssertNil(err)
t.Assert(user.Passport, "john-test")
t.Assert(user.Id, 100)
})
}
// This is no longer used as the filter feature is automatically enabled from GoFrame v1.16.0.
func Test_Model_Insert_KeyFieldNameMapping_Error(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
type User struct {
Id int
Passport string
Password string
Nickname string
CreateTime string
NoneExistField string
}
data := User{
Id: 1,
Passport: "user_1",
Password: "pass_1",
Nickname: "name_1",
CreateTime: "2020-10-10 12:00:01",
}
_, err := db.Model(table).Data(data).Insert()
t.AssertNil(err)
})
}
func Test_Model_Fields_AutoFilterInJoinStatement(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
var err error
table1 := "user"
table2 := "score"
table3 := "info"
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE IF NOT EXISTS %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
name varchar(500) NOT NULL DEFAULT ''
);
`, table1,
)); err != nil {
t.AssertNil(err)
}
defer dropTable(table1)
_, err = db.Model(table1).Insert(g.Map{
"id": 1,
"name": "john",
})
t.AssertNil(err)
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE IF NOT EXISTS %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
user_id int(11) NOT NULL DEFAULT 0,
number varchar(500) NOT NULL DEFAULT ''
);
`, table2,
)); err != nil {
t.AssertNil(err)
}
defer dropTable(table2)
_, err = db.Model(table2).Insert(g.Map{
"id": 1,
"user_id": 1,
"number": "n",
})
t.AssertNil(err)
if _, err := db.Exec(ctx, fmt.Sprintf(`
CREATE TABLE IF NOT EXISTS %s (
id INTEGER PRIMARY KEY AUTOINCREMENT
UNIQUE
NOT NULL,
user_id int(11) NOT NULL DEFAULT 0,
description varchar(500) NOT NULL DEFAULT ''
);
`, table3,
)); err != nil {
t.AssertNil(err)
}
defer dropTable(table3)
_, err = db.Model(table3).Insert(g.Map{
"id": 1,
"user_id": 1,
"description": "brief",
})
t.AssertNil(err)
one, err := db.Model("user").
Where("user.id", 1).
Fields("score.number,user.name").
LeftJoin("score", "user.id=score.user_id").
LeftJoin("info", "info.id=info.user_id").
Order("user.id asc").
One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["name"].String(), "john")
t.Assert(one["number"].String(), "n")
one, err = db.Model("user").
LeftJoin("score", "user.id=score.user_id").
LeftJoin("info", "info.id=info.user_id").
Fields("score.number,user.name").
One()
t.AssertNil(err)
t.Assert(len(one), 2)
t.Assert(one["name"].String(), "john")
t.Assert(one["number"].String(), "n")
})
}
func Test_Model_WherePrefix(t *testing.T) {
var (
table1 = "table1_" + gtime.TimestampNanoStr()
table2 = "table2_" + gtime.TimestampNanoStr()
)
createInitTable(table1)
defer dropTable(table1)
createInitTable(table2)
defer dropTable(table2)
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table1).
FieldsPrefix(table1, "*").
LeftJoinOnField(table2, "id").
WherePrefix(table2, g.Map{
"id": g.Slice{1, 2},
}).
Order("id asc").All()
t.AssertNil(err)
t.Assert(len(r), 2)
t.Assert(r[0]["id"], "1")
t.Assert(r[1]["id"], "2")
})
}
func Test_Model_WhereOrPrefix(t *testing.T) {
var (
table1 = "table1_" + gtime.TimestampNanoStr()
table2 = "table2_" + gtime.TimestampNanoStr()
)
createInitTable(table1)
defer dropTable(table1)
createInitTable(table2)
defer dropTable(table2)
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table1).
FieldsPrefix(table1, "*").
LeftJoinOnField(table2, "id").
WhereOrPrefix(table1, g.Map{
"id": g.Slice{1, 2},
}).
WhereOrPrefix(table2, g.Map{
"id": g.Slice{8, 9},
}).
Order("id asc").All()
t.AssertNil(err)
t.Assert(len(r), 4)
t.Assert(r[0]["id"], "1")
t.Assert(r[1]["id"], "2")
t.Assert(r[2]["id"], "8")
t.Assert(r[3]["id"], "9")
})
}
func Test_Model_WherePrefixLike(t *testing.T) {
var (
table1 = "table1_" + gtime.TimestampNanoStr()
table2 = "table2_" + gtime.TimestampNanoStr()
)
createInitTable(table1)
defer dropTable(table1)
createInitTable(table2)
defer dropTable(table2)
gtest.C(t, func(t *gtest.T) {
r, err := db.Model(table1).
FieldsPrefix(table1, "*").
LeftJoinOnField(table2, "id").
WherePrefix(table1, g.Map{
"id": g.Slice{1, 2, 3},
}).
WherePrefix(table2, g.Map{
"id": g.Slice{3, 4, 5},
}).
WherePrefixLike(table2, "nickname", "name%").
Order("id asc").All()
t.AssertNil(err)
t.Assert(len(r), 1)
t.Assert(r[0]["id"], "3")
})
}
// TODO
// https://github.com/gogf/gf/issues/1700
// func Test_Model_Issue1700(t *testing.T) {
// table := "user_" + gtime.Now().TimestampNanoStr()
// if _, err := db.Exec(ctx, fmt.Sprintf(`
// CREATE TABLE IF NOT EXISTS %s (
// id INTEGER PRIMARY KEY AUTOINCREMENT
// UNIQUE
// NOT NULL,
// user_id int(10) NOT NULL,
// UserId int(10) NOT NULL
// );
// `, table,
// )); err != nil {
// gtest.AssertNil(err)
// }
// defer dropTable(table)
// gtest.C(t, func(t *gtest.T) {
// type User struct {
// Id int `orm:"id"`
// Userid int `orm:"user_id"`
// UserId int `orm:"UserId"`
// }
// _, err := db.Model(table).Data(User{
// Id: 1,
// Userid: 2,
// UserId: 3,
// }).Insert()
// t.AssertNil(err)
// one, err := db.Model(table).One()
// t.AssertNil(err)
// t.Assert(one, g.Map{
// "id": 1,
// "user_id": 2,
// "UserId": 3,
// })
// for i := 0; i < 1000; i++ {
// var user *User
// err = db.Model(table).Scan(&user)
// t.AssertNil(err)
// t.Assert(user.Id, 1)
// t.Assert(user.Userid, 2)
// t.Assert(user.UserId, 3)
// }
// })
// }
// https://github.com/gogf/gf/issues/1159
func Test_ScanList_NoRecreate_PtrAttribute(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
type S1 struct {
Id int
Name string
Age int
Score int
}
type S3 struct {
One *S1
}
var (
s []*S3
err error
)
r1 := gdb.Result{
gdb.Record{
"id": gvar.New(1),
"name": gvar.New("john"),
"age": gvar.New(16),
},
gdb.Record{
"id": gvar.New(2),
"name": gvar.New("smith"),
"age": gvar.New(18),
},
}
err = r1.ScanList(&s, "One")
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
r2 := gdb.Result{
gdb.Record{
"id": gvar.New(1),
"age": gvar.New(20),
},
gdb.Record{
"id": gvar.New(2),
"age": gvar.New(21),
},
}
err = r2.ScanList(&s, "One", "One", "id:Id")
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 20)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 21)
})
}
// https://github.com/gogf/gf/issues/1159
func Test_ScanList_NoRecreate_StructAttribute(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
type S1 struct {
Id int
Name string
Age int
Score int
}
type S3 struct {
One S1
}
var (
s []*S3
err error
)
r1 := gdb.Result{
gdb.Record{
"id": gvar.New(1),
"name": gvar.New("john"),
"age": gvar.New(16),
},
gdb.Record{
"id": gvar.New(2),
"name": gvar.New("smith"),
"age": gvar.New(18),
},
}
err = r1.ScanList(&s, "One")
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
r2 := gdb.Result{
gdb.Record{
"id": gvar.New(1),
"age": gvar.New(20),
},
gdb.Record{
"id": gvar.New(2),
"age": gvar.New(21),
},
}
err = r2.ScanList(&s, "One", "One", "id:Id")
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 20)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 21)
})
}
// https://github.com/gogf/gf/issues/1159
func Test_ScanList_NoRecreate_SliceAttribute_Ptr(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
type S1 struct {
Id int
Name string
Age int
Score int
}
type S2 struct {
Id int
Pid int
Name string
Age int
Score int
}
type S3 struct {
One *S1
Many []*S2
}
var (
s []*S3
err error
)
r1 := gdb.Result{
gdb.Record{
"id": gvar.New(1),
"name": gvar.New("john"),
"age": gvar.New(16),
},
gdb.Record{
"id": gvar.New(2),
"name": gvar.New("smith"),
"age": gvar.New(18),
},
}
err = r1.ScanList(&s, "One")
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
r2 := gdb.Result{
gdb.Record{
"id": gvar.New(100),
"pid": gvar.New(1),
"age": gvar.New(30),
"name": gvar.New("john"),
},
gdb.Record{
"id": gvar.New(200),
"pid": gvar.New(1),
"age": gvar.New(31),
"name": gvar.New("smith"),
},
}
err = r2.ScanList(&s, "Many", "One", "pid:Id")
// fmt.Printf("%+v", err)
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(len(s[0].Many), 2)
t.Assert(s[0].Many[0].Name, "john")
t.Assert(s[0].Many[0].Age, 30)
t.Assert(s[0].Many[1].Name, "smith")
t.Assert(s[0].Many[1].Age, 31)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
t.Assert(len(s[1].Many), 0)
r3 := gdb.Result{
gdb.Record{
"id": gvar.New(100),
"pid": gvar.New(1),
"age": gvar.New(40),
},
gdb.Record{
"id": gvar.New(200),
"pid": gvar.New(1),
"age": gvar.New(41),
},
}
err = r3.ScanList(&s, "Many", "One", "pid:Id")
// fmt.Printf("%+v", err)
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(len(s[0].Many), 2)
t.Assert(s[0].Many[0].Name, "john")
t.Assert(s[0].Many[0].Age, 40)
t.Assert(s[0].Many[1].Name, "smith")
t.Assert(s[0].Many[1].Age, 41)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
t.Assert(len(s[1].Many), 0)
})
}
// https://github.com/gogf/gf/issues/1159
func Test_ScanList_NoRecreate_SliceAttribute_Struct(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
type S1 struct {
Id int
Name string
Age int
Score int
}
type S2 struct {
Id int
Pid int
Name string
Age int
Score int
}
type S3 struct {
One S1
Many []S2
}
var (
s []S3
err error
)
r1 := gdb.Result{
gdb.Record{
"id": gvar.New(1),
"name": gvar.New("john"),
"age": gvar.New(16),
},
gdb.Record{
"id": gvar.New(2),
"name": gvar.New("smith"),
"age": gvar.New(18),
},
}
err = r1.ScanList(&s, "One")
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
r2 := gdb.Result{
gdb.Record{
"id": gvar.New(100),
"pid": gvar.New(1),
"age": gvar.New(30),
"name": gvar.New("john"),
},
gdb.Record{
"id": gvar.New(200),
"pid": gvar.New(1),
"age": gvar.New(31),
"name": gvar.New("smith"),
},
}
err = r2.ScanList(&s, "Many", "One", "pid:Id")
// fmt.Printf("%+v", err)
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(len(s[0].Many), 2)
t.Assert(s[0].Many[0].Name, "john")
t.Assert(s[0].Many[0].Age, 30)
t.Assert(s[0].Many[1].Name, "smith")
t.Assert(s[0].Many[1].Age, 31)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
t.Assert(len(s[1].Many), 0)
r3 := gdb.Result{
gdb.Record{
"id": gvar.New(100),
"pid": gvar.New(1),
"age": gvar.New(40),
},
gdb.Record{
"id": gvar.New(200),
"pid": gvar.New(1),
"age": gvar.New(41),
},
}
err = r3.ScanList(&s, "Many", "One", "pid:Id")
// fmt.Printf("%+v", err)
t.AssertNil(err)
t.Assert(len(s), 2)
t.Assert(s[0].One.Name, "john")
t.Assert(s[0].One.Age, 16)
t.Assert(len(s[0].Many), 2)
t.Assert(s[0].Many[0].Name, "john")
t.Assert(s[0].Many[0].Age, 40)
t.Assert(s[0].Many[1].Name, "smith")
t.Assert(s[0].Many[1].Age, 41)
t.Assert(s[1].One.Name, "smith")
t.Assert(s[1].One.Age, 18)
t.Assert(len(s[1].Many), 0)
})
}
func TestResult_Structs1(t *testing.T) {
type A struct {
Id int `orm:"id"`
}
type B struct {
*A
Name string
}
gtest.C(t, func(t *gtest.T) {
r := gdb.Result{
gdb.Record{"id": gvar.New(nil), "name": gvar.New("john")},
gdb.Record{"id": gvar.New(nil), "name": gvar.New("smith")},
}
array := make([]*B, 2)
err := r.Structs(&array)
t.AssertNil(err)
t.Assert(array[0].Id, 0)
t.Assert(array[1].Id, 0)
t.Assert(array[0].Name, "john")
t.Assert(array[1].Name, "smith")
})
}