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copilot/fix-3931
gf/contrib/drivers/pgsql/pgsql_z_unit_db_test.go
John Guo 852c3dda62 feat(contrib/drivers/dm&pgsql&mssql&oracle): add Replace/LastInsertId features support for dm/pgsql/mssql/oracle (#4547) 
This pull request introduces significant improvements to the handling of
the `Replace` and `Save` operations for multiple database drivers,
especially for MSSQL and PostgreSQL. The changes ensure that these
operations now auto-detect primary keys when conflict columns are not
explicitly provided, improving usability and aligning behavior across
drivers. Additionally, the pull request updates related tests to reflect
these enhancements and includes some minor documentation and code
cleanup.

**Key changes:**

### Enhanced Replace/Save Logic for Database Drivers

* **MSSQL Driver:**
- `Replace` and `Save` operations now auto-detect primary keys if
`OnConflict` is not specified, using the `MERGE` statement for upsert
functionality. If no primary key is found in the data, a detailed error
is returned.
[[1]](diffhunk://#diff-87815aa559a927e2de09bd05148f9841dfc06a1b5f3ecc5e3d5fcb80323a87f8L23-R61)
[[2]](diffhunk://#diff-87815aa559a927e2de09bd05148f9841dfc06a1b5f3ecc5e3d5fcb80323a87f8L43-L59)
- Updated tests to verify that `Replace` correctly updates or inserts
records, and that missing conflict columns are properly handled.
[[1]](diffhunk://#diff-bdbde9d7d6ee14c795343767b414740c4396f4dd3e97788b1f9d4e615405a42dL141-R151)
[[2]](diffhunk://#diff-26338e93e473300b1313936eb0f6826546473793442f24715fa294b595f7a805L2661-R2707)

* **PostgreSQL Driver:**
- Similar to MSSQL, `Replace` and `Save` now auto-detect primary keys
for conflict resolution if `OnConflict` is not set, and treat `Replace`
as a `Save` operation.
- Adjusted tests to ensure `Save` and `Replace` work as expected,
including verifying data replacement and insertion.
[[1]](diffhunk://#diff-c22703c37ebb6836c332f7cd2ada570577ba4564fe39886db02f7c2d0e7a2048L93-R93)
[[2]](diffhunk://#diff-c22703c37ebb6836c332f7cd2ada570577ba4564fe39886db02f7c2d0e7a2048R102)
[[3]](diffhunk://#diff-c22703c37ebb6836c332f7cd2ada570577ba4564fe39886db02f7c2d0e7a2048L110-R130)

* **DM Driver:**
- Improved conflict detection: now checks that at least one primary key
exists in the provided data when `OnConflict` is not specified, and
provides clearer error messages.
- Refactored to use the core method for primary key detection and
removed redundant code.

### Minor Improvements and Documentation

* Added clarifying comments to `DoInsert` methods for ClickHouse, DM,
MSSQL, Oracle, and PostgreSQL drivers, specifying that the input list
must have at least one validated record.
[[1]](diffhunk://#diff-f2e003895041ed3c52b91bb8c270696adc3528d77c39d2f7137af3396267444cR19)
[[2]](diffhunk://#diff-f51b30e3f0b0f1284b905385a89992efd0de2fe9ff8c5a4062344dfab17d428eR23)
[[3]](diffhunk://#diff-87815aa559a927e2de09bd05148f9841dfc06a1b5f3ecc5e3d5fcb80323a87f8L23-R61)
[[4]](diffhunk://#diff-f61dac3fcfd5df4a3936cd8743499c8c0fc45f4f5d0f5398ed84a0cb1603202cR24)
[[5]](diffhunk://#diff-c1dfed79aaa3a432057d2bd74d270e4b4094ebcf72984f1161d4972bea009410R16-R72)
* Minor code and comment cleanups, including improved formatting and
error handling.
[[1]](diffhunk://#diff-f61dac3fcfd5df4a3936cd8743499c8c0fc45f4f5d0f5398ed84a0cb1603202cR37)
[[2]](diffhunk://#diff-f61dac3fcfd5df4a3936cd8743499c8c0fc45f4f5d0f5398ed84a0cb1603202cL96-R98)
[[3]](diffhunk://#diff-f61dac3fcfd5df4a3936cd8743499c8c0fc45f4f5d0f5398ed84a0cb1603202cL106-L116)
[[4]](diffhunk://#diff-a17b44c76aaac53d1f164a2bb9440a5531659f4355e7ccfabdadff8dc8633c09L170-R171)
[[5]](diffhunk://#diff-56189fa9ae1df51716b50d34d7fe56bfe67a330e8ac2c6b0de7b958db6817ed5R83-R98)

### Workflow and Documentation Updates

* Updated example Docker commands in the CI workflow for consistency and
clarity.
[[1]](diffhunk://#diff-a1a3cb9bdeb5541d148091d973cf266aa3b317e6415a86630e816cbe27cf8b9cL57-R57)
[[2]](diffhunk://#diff-a1a3cb9bdeb5541d148091d973cf266aa3b317e6415a86630e816cbe27cf8b9cL78-R78)
[[3]](diffhunk://#diff-a1a3cb9bdeb5541d148091d973cf266aa3b317e6415a86630e816cbe27cf8b9cL92-R92)
[[4]](diffhunk://#diff-a1a3cb9bdeb5541d148091d973cf266aa3b317e6415a86630e816cbe27cf8b9cL106-R106)
[[5]](diffhunk://#diff-a1a3cb9bdeb5541d148091d973cf266aa3b317e6415a86630e816cbe27cf8b9cL153-R153)
[[6]](diffhunk://#diff-a1a3cb9bdeb5541d148091d973cf266aa3b317e6415a86630e816cbe27cf8b9cL164-R164)
* Removed outdated note about `Replace` support from the SQLite driver
documentation.

These changes improve the consistency, reliability, and developer
experience when performing upsert operations across different database
backends.

---------

Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
Co-authored-by: Lance Add <1196661499@qq.com>
2025-12-09 15:46:41 +08:00

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// 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 pgsql_test
import (
"fmt"
"strings"
"testing"
"github.com/gogf/gf/v2/frame/g"
"github.com/gogf/gf/v2/os/gtime"
"github.com/gogf/gf/v2/test/gtest"
)
func Test_DB_Query(t *testing.T) {
table := createTable("name")
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
_, err := db.Query(ctx, fmt.Sprintf("select * from %s ", table))
t.AssertNil(err)
})
}
func Test_DB_Exec(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
_, err := db.Exec(ctx, fmt.Sprintf("select * from %s ", table))
t.AssertNil(err)
})
}
func Test_DB_Insert(t *testing.T) {
table := createTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
_, err := db.Insert(ctx, table, g.Map{
"id": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "T1",
"create_time": gtime.Now().String(),
})
t.AssertNil(err)
answer, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 1)
t.AssertNil(err)
t.Assert(len(answer), 1)
t.Assert(answer[0]["passport"], "t1")
t.Assert(answer[0]["password"], "25d55ad283aa400af464c76d713c07ad")
t.Assert(answer[0]["nickname"], "T1")
// normal map
result, err := db.Insert(ctx, table, g.Map{
"id": "2",
"passport": "t2",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_2",
"create_time": gtime.Now().String(),
})
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
answer, err = db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 2)
t.AssertNil(err)
t.Assert(len(answer), 1)
t.Assert(answer[0]["passport"], "t2")
t.Assert(answer[0]["password"], "25d55ad283aa400af464c76d713c07ad")
t.Assert(answer[0]["nickname"], "name_2")
})
}
func Test_DB_Save(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
createTable("t_user")
defer dropTable("t_user")
i := 10
data := g.Map{
"id": i,
"passport": fmt.Sprintf(`t%d`, i),
"password": fmt.Sprintf(`p%d`, i),
"nickname": fmt.Sprintf(`T%d`, i),
"create_time": gtime.Now().String(),
}
_, err := db.Save(ctx, "t_user", data, 10)
gtest.AssertNil(err)
})
}
func Test_DB_Replace(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
createTable("t_user")
defer dropTable("t_user")
// Insert initial record
i := 10
data := g.Map{
"id": i,
"passport": fmt.Sprintf(`t%d`, i),
"password": fmt.Sprintf(`p%d`, i),
"nickname": fmt.Sprintf(`T%d`, i),
"create_time": gtime.Now().String(),
}
_, err := db.Insert(ctx, "t_user", data)
gtest.AssertNil(err)
// Replace with new data
data2 := g.Map{
"id": i,
"passport": fmt.Sprintf(`t%d_new`, i),
"password": fmt.Sprintf(`p%d_new`, i),
"nickname": fmt.Sprintf(`T%d_new`, i),
"create_time": gtime.Now().String(),
}
_, err = db.Replace(ctx, "t_user", data2)
gtest.AssertNil(err)
// Verify the data was replaced
one, err := db.GetOne(ctx, fmt.Sprintf("SELECT * FROM t_user WHERE id=?"), i)
gtest.AssertNil(err)
gtest.Assert(one["passport"].String(), fmt.Sprintf(`t%d_new`, i))
gtest.Assert(one["password"].String(), fmt.Sprintf(`p%d_new`, i))
gtest.Assert(one["nickname"].String(), fmt.Sprintf(`T%d_new`, i))
})
}
func Test_DB_GetAll(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 1)
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 1)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), g.Slice{1})
t.AssertNil(err)
t.Assert(len(result), 1)
t.Assert(result[0]["id"].Int(), 1)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id in(?)", table), g.Slice{1, 2, 3})
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 2)
t.Assert(result[2]["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id in(?,?,?)", table), g.Slice{1, 2, 3})
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 2)
t.Assert(result[2]["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id in(?,?,?)", table), g.Slice{1, 2, 3}...)
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 2)
t.Assert(result[2]["id"].Int(), 3)
})
gtest.C(t, func(t *gtest.T) {
result, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id>=? AND id <=?", table), g.Slice{1, 3})
t.AssertNil(err)
t.Assert(len(result), 3)
t.Assert(result[0]["id"].Int(), 1)
t.Assert(result[1]["id"].Int(), 2)
t.Assert(result[2]["id"].Int(), 3)
})
}
func Test_DB_GetOne(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.Insert(ctx, table, data)
t.AssertNil(err)
one, err := db.GetOne(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 1)
t.AssertNil(err)
t.Assert(one["passport"], data.Passport)
t.Assert(one["create_time"], data.CreateTime)
t.Assert(one["nickname"], data.Nickname)
})
}
func Test_DB_GetValue(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
value, err := db.GetValue(ctx, fmt.Sprintf("SELECT id FROM %s WHERE passport=?", table), "user_3")
t.AssertNil(err)
t.Assert(value.Int(), 3)
})
}
func Test_DB_GetCount(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
count, err := db.GetCount(ctx, fmt.Sprintf("SELECT * FROM %s", table))
t.AssertNil(err)
t.Assert(count, TableSize)
})
}
func Test_DB_GetArray(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
array, err := db.GetArray(ctx, fmt.Sprintf("SELECT password FROM %s", table))
t.AssertNil(err)
arrays := make([]string, 0)
for i := 1; i <= TableSize; i++ {
arrays = append(arrays, fmt.Sprintf(`pass_%d`, i))
}
t.Assert(array, arrays)
})
}
func Test_DB_GetScan(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.GetScan(ctx, user, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 3)
t.AssertNil(err)
t.Assert(user.NickName, "name_3")
})
}
func Test_DB_Update(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Update(ctx, table, "password='987654321'", "id=3")
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 1)
one, err := db.Model(table).Where("id", 3).One()
t.AssertNil(err)
t.Assert(one["id"].Int(), 3)
t.Assert(one["passport"].String(), "user_3")
t.Assert(one["password"].String(), "987654321")
t.Assert(one["nickname"].String(), "name_3")
})
}
func Test_DB_Delete(t *testing.T) {
table := createInitTable()
defer dropTable(table)
gtest.C(t, func(t *gtest.T) {
result, err := db.Delete(ctx, table, "id>3")
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 7)
})
}
func Test_DB_Tables(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
tables := []string{"t_user1", "pop", "haha"}
for _, v := range tables {
createTable(v)
}
result, err := db.Tables(ctx)
gtest.AssertNil(err)
for i := 0; i < len(tables); i++ {
find := false
for j := 0; j < len(result); j++ {
if tables[i] == result[j] {
find = true
break
}
}
gtest.AssertEQ(find, true)
}
})
}
func Test_DB_TableFields(t *testing.T) {
gtest.C(t, func(t *gtest.T) {
table := createTable()
defer dropTable(table)
var expect = map[string][]any{
// []string: Index Type Null Key Default Comment
// id is bigserial so the default is a pgsql function
"id": {0, "int8(64)", false, "pri", fmt.Sprintf("nextval('%s_id_seq'::regclass)", table), ""},
"passport": {1, "varchar(45)", false, "", nil, ""},
"password": {2, "varchar(32)", false, "", nil, ""},
"nickname": {3, "varchar(45)", false, "", nil, ""},
"create_time": {4, "timestamp", false, "", nil, ""},
}
res, err := db.TableFields(ctx, table)
gtest.AssertNil(err)
for k, v := range expect {
_, ok := res[k]
gtest.AssertEQ(ok, true)
gtest.AssertEQ(res[k].Index, v[0])
gtest.AssertEQ(res[k].Name, k)
gtest.AssertEQ(res[k].Type, v[1])
gtest.AssertEQ(res[k].Null, v[2])
gtest.AssertEQ(res[k].Key, v[3])
gtest.AssertEQ(res[k].Default, v[4])
gtest.AssertEQ(res[k].Comment, v[5])
}
})
}
func Test_NoFields_Error(t *testing.T) {
createSql := `CREATE TABLE IF NOT EXISTS %s (
id bigint PRIMARY KEY,
int_col INT);`
type Data struct {
Id int64
IntCol int64
}
// pgsql converts table names to lowercase
// mark: [c.oid = '%s'::regclass] is not case-sensitive
tableName := "Error_table"
_, err := db.Exec(ctx, fmt.Sprintf(createSql, tableName))
gtest.AssertNil(err)
defer dropTable(tableName)
gtest.C(t, func(t *gtest.T) {
var data = Data{
Id: 2,
IntCol: 2,
}
_, err = db.Model(tableName).Data(data).Insert()
t.AssertNE(err, nil)
// Insert a piece of test data using lowercase
_, err = db.Model(strings.ToLower(tableName)).Data(data).Insert()
t.AssertNil(err)
_, err = db.Model(tableName).Where("id", 1).Data(g.Map{
"int_col": 9999,
}).Update()
t.AssertNE(err, nil)
})
// The inserted field does not exist in the table
gtest.C(t, func(t *gtest.T) {
data := map[string]any{
"id1": 22,
"int_col_22": 11111,
}
_, err = db.Model(tableName).Data(data).Insert()
t.Assert(err, fmt.Errorf(`input data match no fields in table "%s"`, tableName))
lowerTableName := strings.ToLower(tableName)
_, err = db.Model(lowerTableName).Data(data).Insert()
t.Assert(err, fmt.Errorf(`input data match no fields in table "%s"`, lowerTableName))
_, err = db.Model(lowerTableName).Where("id", 1).Data(g.Map{
"int_col-2": 9999,
}).Update()
t.Assert(err, fmt.Errorf(`input data match no fields in table "%s"`, lowerTableName))
})
}
func Test_DB_TableFields_DuplicateConstraints(t *testing.T) {
// Test for the fix of duplicate field results with multiple constraints
// This test verifies that when a field has multiple constraints (e.g., both primary key and unique),
// the TableFields method correctly merges the results with proper priority (pri > uni > others)
gtest.C(t, func(t *gtest.T) {
tableName := "test_multi_constraint"
createSql := fmt.Sprintf(`
CREATE TABLE %s (
id bigserial NOT NULL PRIMARY KEY,
email varchar(100) NOT NULL UNIQUE,
username varchar(50) NOT NULL,
status int NOT NULL DEFAULT 1
)`, tableName)
_, err := db.Exec(ctx, createSql)
t.AssertNil(err)
defer dropTable(tableName)
// Get table fields
fields, err := db.TableFields(ctx, tableName)
t.AssertNil(err)
// Verify id field has primary key constraint
t.AssertNE(fields["id"], nil)
t.Assert(fields["id"].Key, "pri")
t.Assert(fields["id"].Name, "id")
t.Assert(fields["id"].Type, "int8(64)")
// Verify email field has unique constraint
t.AssertNE(fields["email"], nil)
t.Assert(fields["email"].Key, "uni")
t.Assert(fields["email"].Name, "email")
t.Assert(fields["email"].Type, "varchar(100)")
// Verify username field has no constraint
t.AssertNE(fields["username"], nil)
t.Assert(fields["username"].Key, "")
t.Assert(fields["username"].Name, "username")
// Verify status field has no constraint and has default value
t.AssertNE(fields["status"], nil)
t.Assert(fields["status"].Key, "")
t.Assert(fields["status"].Name, "status")
t.Assert(fields["status"].Default, 1)
// Verify field count is correct (no duplicates)
t.Assert(len(fields), 4)
})
// Test table with composite constraints
gtest.C(t, func(t *gtest.T) {
tableName := "test_composite_constraint"
createSql := fmt.Sprintf(`
CREATE TABLE %s (
user_id bigint NOT NULL,
project_id bigint NOT NULL,
role varchar(50) NOT NULL,
PRIMARY KEY (user_id, project_id)
)`, tableName)
_, err := db.Exec(ctx, createSql)
t.AssertNil(err)
defer dropTable(tableName)
// Get table fields
fields, err := db.TableFields(ctx, tableName)
t.AssertNil(err)
// In PostgreSQL, composite primary keys may appear in query results
// The first field in the composite key should be marked as 'pri'
t.AssertNE(fields["user_id"], nil)
t.Assert(fields["user_id"].Name, "user_id")
t.AssertNE(fields["project_id"], nil)
t.Assert(fields["project_id"].Name, "project_id")
t.AssertNE(fields["role"], nil)
t.Assert(fields["role"].Name, "role")
t.Assert(fields["role"].Key, "")
// Verify field count is correct (no duplicates)
t.Assert(len(fields), 3)
})
}
func Test_DB_InsertIgnore(t *testing.T) {
table := createTable()
defer dropTable(table)
// Insert test record
gtest.C(t, func(t *gtest.T) {
_, err := db.Insert(ctx, table, g.Map{
"id": 1,
"passport": "t1",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "T1",
"create_time": gtime.Now().String(),
})
t.AssertNil(err)
answer, err := db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 1)
t.AssertNil(err)
t.Assert(len(answer), 1)
t.Assert(answer[0]["passport"], "t1")
t.Assert(answer[0]["password"], "25d55ad283aa400af464c76d713c07ad")
t.Assert(answer[0]["nickname"], "T1")
// Ignore Duplicate record
result, err := db.InsertIgnore(ctx, table, g.Map{
"id": 1,
"passport": "t1_duplicate",
"password": "duplicate_password",
"nickname": "Duplicate",
"create_time": gtime.Now().String(),
})
t.AssertNil(err)
n, _ := result.RowsAffected()
t.Assert(n, 0)
answer, err = db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 1)
t.AssertNil(err)
t.Assert(len(answer), 1)
t.Assert(answer[0]["passport"], "t1")
t.Assert(answer[0]["password"], "25d55ad283aa400af464c76d713c07ad")
t.Assert(answer[0]["nickname"], "T1")
// Insert Correct Record
result, err = db.Insert(ctx, table, g.Map{
"id": 2,
"passport": "t2",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_2",
"create_time": gtime.Now().String(),
})
t.AssertNil(err)
n, _ = result.RowsAffected()
t.Assert(n, 1)
answer, err = db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s WHERE id=?", table), 2)
t.AssertNil(err)
t.Assert(len(answer), 1)
t.Assert(answer[0]["passport"], "t2")
t.Assert(answer[0]["password"], "25d55ad283aa400af464c76d713c07ad")
t.Assert(answer[0]["nickname"], "name_2")
// Insert Multiple Records Using g.Map Array
data := g.List{
{
"id": 3,
"passport": "t3",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_3",
"create_time": gtime.Now().String(),
},
{
"id": 4,
"passport": "t4",
"password": "25d55ad283aa400af464c76d713c07ad",
"nickname": "name_4",
"create_time": gtime.Now().String(),
},
{
"id": 1,
"passport": "t1_conflict",
"password": "conflict_password",
"nickname": "conflict_name",
"create_time": gtime.Now().String(),
},
{
"id": 2,
"passport": "t2_conflict",
"password": "conflict_password",
"nickname": "conflict_name",
"create_time": gtime.Now().String(),
},
}
// Insert Multiple Records with Ignore
result, err = db.InsertIgnore(ctx, table, data)
t.AssertNil(err)
n, _ = result.RowsAffected()
t.Assert(n, 2)
answer, err = db.GetAll(ctx, fmt.Sprintf("SELECT * FROM %s", table))
t.AssertNil(err)
t.Assert(len(answer), 4)
// Should have four records in total (ID 1, 2, 3, 4)
t.Assert(answer[0]["passport"], "t1")
t.Assert(answer[1]["passport"], "t2")
t.Assert(answer[2]["passport"], "t3")
t.Assert(answer[3]["passport"], "t4")
})
}
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