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go-zero/tools/goctl/model/sql/gen/keys_test.go

166 lines
4.7 KiB
Go

package gen
import (
"sort"
"testing"
"github.com/stretchr/testify/assert"
"github.com/tal-tech/go-zero/tools/goctl/model/sql/parser"
"github.com/tal-tech/go-zero/tools/goctl/util/stringx"
)
func TestGenCacheKeys(t *testing.T) {
primaryField := &parser.Field{
Name: stringx.From("id"),
DataBaseType: "bigint",
DataType: "int64",
Comment: "自增id",
SeqInIndex: 1,
}
mobileField := &parser.Field{
Name: stringx.From("mobile"),
DataBaseType: "varchar",
DataType: "string",
Comment: "手机号",
SeqInIndex: 1,
}
classField := &parser.Field{
Name: stringx.From("class"),
DataBaseType: "varchar",
DataType: "string",
Comment: "班级",
SeqInIndex: 1,
}
nameField := &parser.Field{
Name: stringx.From("name"),
DataBaseType: "varchar",
DataType: "string",
Comment: "姓名",
SeqInIndex: 2,
}
primariCacheKey, uniqueCacheKey := genCacheKeys(parser.Table{
Name: stringx.From("user"),
PrimaryKey: parser.Primary{
Field: *primaryField,
AutoIncrement: true,
},
UniqueIndex: map[string][]*parser.Field{
"mobile_unique": []*parser.Field{
mobileField,
},
"class_name_unique": []*parser.Field{
classField,
nameField,
},
},
NormalIndex: nil,
Fields: []*parser.Field{
primaryField,
mobileField,
classField,
nameField,
{
Name: stringx.From("createTime"),
DataBaseType: "timestamp",
DataType: "time.Time",
Comment: "创建时间",
},
{
Name: stringx.From("updateTime"),
DataBaseType: "timestamp",
DataType: "time.Time",
Comment: "更新时间",
},
},
})
t.Run("primaryCacheKey", func(t *testing.T) {
assert.Equal(t, true, func() bool {
return cacheKeyEqual(primariCacheKey, Key{
VarLeft: "cacheUserIdPrefix",
VarRight: `"cache#user#id#"`,
VarExpression: `cacheUserIdPrefix = "cache#user#id#"`,
KeyLeft: "userIdKey",
KeyRight: `fmt.Sprintf("%s%v", cacheUserIdPrefix, id)`,
DataKeyRight: `fmt.Sprintf("%s%v", cacheUserIdPrefix, data.Id)`,
KeyExpression: `userIdKey := fmt.Sprintf("%s%v", cacheUserIdPrefix, id)`,
DataKeyExpression: `userIdKey := fmt.Sprintf("%s%v", cacheUserIdPrefix, data.Id)`,
FieldNameJoin: []string{"id"},
})
}())
})
t.Run("uniqueCacheKey", func(t *testing.T) {
assert.Equal(t, true, func() bool {
expected := []Key{
{
VarLeft: "cacheUserClassNamePrefix",
VarRight: `"cache#user#class#name#"`,
VarExpression: `cacheUserClassNamePrefix = "cache#user#class#name#"`,
KeyLeft: "userClassNameKey",
KeyRight: `fmt.Sprintf("%s%v%v", cacheUserClassNamePrefix, class, name)`,
DataKeyRight: `fmt.Sprintf("%s%v%v", cacheUserClassNamePrefix, data.Class, data.Name)`,
KeyExpression: `userClassNameKey := fmt.Sprintf("%s%v%v", cacheUserClassNamePrefix, class, name)`,
DataKeyExpression: `userClassNameKey := fmt.Sprintf("%s%v%v", cacheUserClassNamePrefix, data.Class, data.Name)`,
FieldNameJoin: []string{"class", "name"},
},
{
VarLeft: "cacheUserMobilePrefix",
VarRight: `"cache#user#mobile#"`,
VarExpression: `cacheUserMobilePrefix = "cache#user#mobile#"`,
KeyLeft: "userMobileKey",
KeyRight: `fmt.Sprintf("%s%v", cacheUserMobilePrefix, mobile)`,
DataKeyRight: `fmt.Sprintf("%s%v", cacheUserMobilePrefix, data.Mobile)`,
KeyExpression: `userMobileKey := fmt.Sprintf("%s%v", cacheUserMobilePrefix, mobile)`,
DataKeyExpression: `userMobileKey := fmt.Sprintf("%s%v", cacheUserMobilePrefix, data.Mobile)`,
FieldNameJoin: []string{"mobile"},
},
}
sort.Slice(uniqueCacheKey, func(i, j int) bool {
return uniqueCacheKey[i].VarLeft < uniqueCacheKey[j].VarLeft
})
if len(expected) != len(uniqueCacheKey) {
return false
}
for index, each := range uniqueCacheKey {
expecting := expected[index]
if !cacheKeyEqual(expecting, each) {
return false
}
}
return true
}())
})
}
func cacheKeyEqual(k1 Key, k2 Key) bool {
k1Join := k1.FieldNameJoin
k2Join := k2.FieldNameJoin
sort.Strings(k1Join)
sort.Strings(k2Join)
if len(k1Join) != len(k2Join) {
return false
}
for index, each := range k1Join {
k2Item := k2Join[index]
if each != k2Item {
return false
}
}
return k1.VarLeft == k2.VarLeft &&
k1.VarRight == k2.VarRight &&
k1.VarExpression == k2.VarExpression &&
k1.KeyLeft == k2.KeyLeft &&
k1.KeyRight == k2.KeyRight &&
k1.DataKeyRight == k2.DataKeyRight &&
k1.DataKeyExpression == k2.DataKeyExpression &&
k1.KeyExpression == k2.KeyExpression
}