query_set_components.go
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package domain
import (
"fmt"
"github.com/zeromicro/go-zero/core/collection"
"strings"
)
var (
SchemaTable TableType = "Schema" // 方案
SubProcessTable TableType = "SubProcess" // 子过程
CalculateItem TableType = "CalculateItem" // 计算项
CalculateTable TableType = "CalculateTable" // 计算表
CalculateSet TableType = "CalculateSet" // 计算集
)
var (
FlagGroup = "Group"
FlagSet = "Set"
)
var (
TableSplit SelectExprType = "TableSplit" //拆分
SplitAssign SelectExprType = "SplitAssign" //拆分赋值
NormalAssign SelectExprType = "NormalAssign" //正常赋值
)
type SelectExprType string
type QueryComponent struct {
Id string `json:"id"`
MasterTable *QueryComponentTable `json:"masterTable"`
Conditions []ConditionExpr `json:"conditions"`
Selects []SelectExprGroup `json:"selects"`
Description string `json:"description"`
Formula *FieldFormulaExpr `json:"formula"`
Aggregation *AggregationRule `json:"aggregation"`
Layout *LayoutRule `json:"layout"`
}
func (qc *QueryComponent) AllSelectExpr() []SelectExpr {
var res = make([]SelectExpr, 0)
for _, s := range qc.Selects {
res = append(res, s.SelectExpr)
if len(s.SubSelects) > 0 {
res = append(res, s.SubSelects...)
}
}
return res
}
type ConditionExpr struct { // 条件表达式
Id string `json:"id"`
FieldLeft FieldExpr `json:"fieldLeft"`
FieldRight FieldExpr `json:"fieldRight"`
OperatorSymbol string `json:"operatorSymbol"`
AndOr string `json:"andOr"` // and or
}
func (c ConditionExpr) Equal(compare ConditionExpr) bool {
return c.OperatorSymbol == compare.OperatorSymbol &&
c.FieldLeft.ExprSql == compare.FieldLeft.ExprSql &&
c.FieldRight.ExprSql == compare.FieldRight.ExprSql
}
func (c ConditionExpr) ExprHuman() string {
return c.FieldLeft.ExprHuman + c.OperatorSymbol + c.FieldRight.ExprHuman
}
type FieldFormulaExpr struct {
ExprMode int `json:"exprMode"` // 表达式模式 0:sql 1:excel function
FieldExpr
}
type SelectExpr struct { // 查询表达式
Id string `json:"id"`
FieldLeft FieldExpr `json:"fieldLeft"`
FieldRight FieldExpr `json:"fieldRight"` // has value when type is equal to 1
Type string `json:"type"` // 1.拆分 2.拆方赋值 3.正常赋值
}
func (s SelectExpr) Equal(compare SelectExpr) bool {
return s.FieldLeft.ExprSql == compare.FieldLeft.ExprSql &&
s.FieldRight.ExprSql == compare.FieldRight.ExprSql
}
func (c SelectExpr) ExprHuman() string {
return c.FieldLeft.ExprHuman + "=" + c.FieldRight.ExprHuman
}
type SelectExprGroup struct { // 查询表达式
SelectExpr
SubSelects []SelectExpr `json:"subSelects,omitempty"`
}
type FieldExpr struct {
ExprMode int `json:"exprMode,omitempty"`
TableFields []TableField `json:"tableFields"`
ExprHuman string `json:"exprHuman"`
ExprSql string `json:"exprSql"`
}
func (expr *FieldExpr) Complete() string {
exprSql := expr.ExprSql
for _, f := range expr.TableFields {
sql := fmt.Sprintf("%s.%s", f.TableSqlName, f.FieldSqlName)
sub := fmt.Sprintf("max(%s.%s)", f.TableSqlName, f.FieldSqlName)
if strings.Contains(expr.ExprSql, fmt.Sprintf("(%s)", sql)) {
continue
}
exprSql = strings.ReplaceAll(exprSql, sql, sub)
}
exprSql = RemoveInvalidChar(exprSql)
return exprSql
}
// RemoveInvalidChar 移除非法字符
// 前台的字符串的一个空格(ASCII:32)被UTF-8编码之后变成了一个诡异的字符(ASCII:194 和 160的组合)
// https://www.cnblogs.com/mingmingruyuedlut/archive/2012/07/04/2575180.html
func RemoveInvalidChar(exprSql string) string {
tmpValue := string([]byte{0xC2, 0xA0})
exprSql = strings.ReplaceAll(exprSql, tmpValue, " ")
return exprSql
}
func (expr *FieldExpr) UpdateTable(t *Table) {
if t == nil || t.TableId == 0 {
return
}
matchTableName := ""
for i, f := range expr.TableFields {
if f.TableId == t.TableId {
matchTableName = f.TableName
if f.TableId == t.TableId {
expr.TableFields[i].TableName = t.Name
}
}
}
if len(matchTableName) > 0 {
expr.ExprHuman = strings.ReplaceAll(expr.ExprHuman, matchTableName, t.Name)
}
}
func (expr *FieldExpr) Tables() []int {
set := collection.NewSet()
for _, f := range expr.TableFields {
if f.TableId == 0 {
continue
}
set.Add(f.TableId)
}
return set.KeysInt()
}
func (expr *FieldExpr) MixTableModel() bool {
var result = 0
for _, f := range expr.TableFields {
if strings.HasPrefix(f.TableSqlName, strings.ToLower(CalculateItem.ToString())) {
if result&1 == 0 {
result += 1
}
} else {
if result&2 == 0 {
result += 2
}
}
}
return result == 3
}
type LabelColumn struct {
Column TableField `json:"column,omitempty"`
LabelExpr string `json:"labelExpr"`
}
type TableField struct {
TableId int `json:"tableId"`
TableName string `json:"tableName"`
TableSqlName string `json:"tableSqlName"`
FieldName string `json:"fieldName"`
FieldSqlName string `json:"fieldSqlName"`
FieldSQLType string `json:"fieldSqlType"`
}
func (f TableField) String() string {
return fmt.Sprintf("%s.%s", f.TableSqlName, f.FieldSqlName)
}
type QueryComponentTable struct {
// 表Id
TableId int `json:"tableId"`
// 表类型 MainTable:主表 SideTable:副表 SubTable:分表 ExcelTable:Excel表
TableType string `json:"tableType"`
// 名称
Name string `json:"name"`
// 对应数据库名称
SQLName string `json:"sqlName"`
// 父级ID
ParentId int `json:"parentId"`
// 所有列
Fields []*Field `json:"fields"`
}
type Join struct {
TableId int
TableName string
TableSqlName string
Conditions []ConditionExpr
On SelectExpr
}
func NewQueryComponentTable(t *Table) *QueryComponentTable {
return &QueryComponentTable{
TableId: t.TableId,
TableType: t.TableType,
Name: t.Name,
SQLName: t.SQLName,
ParentId: t.ParentId,
Fields: t.Fields(false),
}
}
func QueryComponentsToMapById(items []*QueryComponent) map[string]*QueryComponent {
var res = make(map[string]*QueryComponent)
for i := range items {
res[items[i].Id] = items[i]
}
return res
}
func ConditionsToMapById(items []ConditionExpr) map[string]ConditionExpr {
var res = make(map[string]ConditionExpr)
for i := range items {
res[items[i].Id] = items[i]
}
return res
}
func SelectsToMapById(items []SelectExprGroup) map[string]SelectExprGroup {
var res = make(map[string]SelectExprGroup)
for i := range items {
res[items[i].Id] = items[i]
}
return res
}
func SelectsExprToMapById(items []SelectExpr) map[string]SelectExpr {
var res = make(map[string]SelectExpr)
for i := range items {
res[items[i].Id] = items[i]
}
return res
}
type QueryComponents []*QueryComponent
func (list QueryComponents) IsEmpty(t TableType) bool {
if len(list) == 0 {
return true
}
for _, q := range list {
switch t {
case CalculateTable:
if q.Aggregation != nil && len(q.Aggregation.RowFields) == 0 && len(q.Aggregation.ValueFields) == 0 {
return true
}
}
}
return false
}