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gitea/models/unittest/unit_tests.go
wxiaoguang ad13df36b7
Test query must have "order by" explicitly to avoid unstable results (#24963)
The query must have the "ORDER BY", otherwise the result is not
deterministic.

Replace "interface{}" with "any" by the way.
2023-05-29 03:20:57 +00:00

149 lines
4.6 KiB
Go

// Copyright 2016 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package unittest
import (
"math"
"code.gitea.io/gitea/models/db"
"github.com/stretchr/testify/assert"
"xorm.io/builder"
)
// Code in this file is mainly used by unittest.CheckConsistencyFor, which is not in the unit test for various reasons.
// In the future if we can decouple CheckConsistencyFor into separate unit test code, then this file can be moved into unittest package too.
// NonexistentID an ID that will never exist
const NonexistentID = int64(math.MaxInt64)
type testCond struct {
query any
args []any
}
type testOrderBy string
// Cond create a condition with arguments for a test
func Cond(query any, args ...any) any {
return &testCond{query: query, args: args}
}
// OrderBy creates "ORDER BY" a test query
func OrderBy(orderBy string) any {
return testOrderBy(orderBy)
}
func whereOrderConditions(e db.Engine, conditions []any) db.Engine {
orderBy := "id" // query must have the "ORDER BY", otherwise the result is not deterministic
for _, condition := range conditions {
switch cond := condition.(type) {
case *testCond:
e = e.Where(cond.query, cond.args...)
case testOrderBy:
orderBy = string(cond)
default:
e = e.Where(cond)
}
}
return e.OrderBy(orderBy)
}
// LoadBeanIfExists loads beans from fixture database if exist
func LoadBeanIfExists(bean any, conditions ...any) (bool, error) {
e := db.GetEngine(db.DefaultContext)
return whereOrderConditions(e, conditions).Get(bean)
}
// BeanExists for testing, check if a bean exists
func BeanExists(t assert.TestingT, bean any, conditions ...any) bool {
exists, err := LoadBeanIfExists(bean, conditions...)
assert.NoError(t, err)
return exists
}
// AssertExistsAndLoadBean assert that a bean exists and load it from the test database
func AssertExistsAndLoadBean[T any](t assert.TestingT, bean T, conditions ...any) T {
exists, err := LoadBeanIfExists(bean, conditions...)
assert.NoError(t, err)
assert.True(t, exists,
"Expected to find %+v (of type %T, with conditions %+v), but did not",
bean, bean, conditions)
return bean
}
// AssertExistsAndLoadMap assert that a row exists and load it from the test database
func AssertExistsAndLoadMap(t assert.TestingT, table string, conditions ...any) map[string]string {
e := db.GetEngine(db.DefaultContext).Table(table)
res, err := whereOrderConditions(e, conditions).Query()
assert.NoError(t, err)
assert.True(t, len(res) == 1,
"Expected to find one row in %s (with conditions %+v), but found %d",
table, conditions, len(res),
)
if len(res) == 1 {
rec := map[string]string{}
for k, v := range res[0] {
rec[k] = string(v)
}
return rec
}
return nil
}
// GetCount get the count of a bean
func GetCount(t assert.TestingT, bean any, conditions ...any) int {
e := db.GetEngine(db.DefaultContext)
count, err := whereOrderConditions(e, conditions).Count(bean)
assert.NoError(t, err)
return int(count)
}
// AssertNotExistsBean assert that a bean does not exist in the test database
func AssertNotExistsBean(t assert.TestingT, bean any, conditions ...any) {
exists, err := LoadBeanIfExists(bean, conditions...)
assert.NoError(t, err)
assert.False(t, exists)
}
// AssertExistsIf asserts that a bean exists or does not exist, depending on
// what is expected.
func AssertExistsIf(t assert.TestingT, expected bool, bean any, conditions ...any) {
exists, err := LoadBeanIfExists(bean, conditions...)
assert.NoError(t, err)
assert.Equal(t, expected, exists)
}
// AssertSuccessfulInsert assert that beans is successfully inserted
func AssertSuccessfulInsert(t assert.TestingT, beans ...any) {
err := db.Insert(db.DefaultContext, beans...)
assert.NoError(t, err)
}
// AssertCount assert the count of a bean
func AssertCount(t assert.TestingT, bean, expected any) {
assert.EqualValues(t, expected, GetCount(t, bean))
}
// AssertInt64InRange assert value is in range [low, high]
func AssertInt64InRange(t assert.TestingT, low, high, value int64) {
assert.True(t, value >= low && value <= high,
"Expected value in range [%d, %d], found %d", low, high, value)
}
// GetCountByCond get the count of database entries matching bean
func GetCountByCond(t assert.TestingT, tableName string, cond builder.Cond) int64 {
e := db.GetEngine(db.DefaultContext)
count, err := e.Table(tableName).Where(cond).Count()
assert.NoError(t, err)
return count
}
// AssertCountByCond test the count of database entries matching bean
func AssertCountByCond(t assert.TestingT, tableName string, cond builder.Cond, expected int) {
assert.EqualValues(t, expected, GetCountByCond(t, tableName, cond),
"Failed consistency test, the counted bean (of table %s) was %+v", tableName, cond)
}