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go-zero/tools/goctl/api/parser/g4/ast/api.go

289 lines
7.0 KiB
Go

package ast
import (
"fmt"
"path"
"sort"
"github.com/zeromicro/go-zero/tools/goctl/api/parser/g4/gen/api"
)
const prefixKey = "prefix"
const groupKey = "group"
// Api describes syntax for api
type Api struct {
LinePrefix string
Syntax *SyntaxExpr
Import []*ImportExpr
importM map[string]PlaceHolder
Info *InfoExpr
Type []TypeExpr
typeM map[string]PlaceHolder
Service []*Service
serviceM map[string]PlaceHolder
handlerM map[string]PlaceHolder
routeM map[string]PlaceHolder
}
// VisitApi implements from api.BaseApiParserVisitor
func (v *ApiVisitor) VisitApi(ctx *api.ApiContext) interface{} {
var final Api
final.importM = map[string]PlaceHolder{}
final.typeM = map[string]PlaceHolder{}
final.serviceM = map[string]PlaceHolder{}
final.handlerM = map[string]PlaceHolder{}
final.routeM = map[string]PlaceHolder{}
for _, each := range ctx.AllSpec() {
root := each.Accept(v).(*Api)
v.acceptSyntax(root, &final)
v.acceptImport(root, &final)
v.acceptInfo(root, &final)
v.acceptType(root, &final)
v.acceptService(root, &final)
}
return &final
}
func (v *ApiVisitor) acceptService(root, final *Api) {
for _, service := range root.Service {
if _, ok := final.serviceM[service.ServiceApi.Name.Text()]; !ok && len(final.serviceM) > 0 {
v.panic(service.ServiceApi.Name, "multiple service declaration")
}
v.duplicateServerItemCheck(service)
var prefix, group string
if service.AtServer != nil {
p := service.AtServer.Kv.Get(prefixKey)
if p != nil {
prefix = p.Text()
}
g := service.AtServer.Kv.Get(groupKey)
if g != nil {
group = g.Text()
}
}
for _, route := range service.ServiceApi.ServiceRoute {
uniqueRoute := fmt.Sprintf("%s %s", route.Route.Method.Text(), path.Join(prefix, route.Route.Path.Text()))
if _, ok := final.routeM[uniqueRoute]; ok {
v.panic(route.Route.Method, fmt.Sprintf("duplicate route '%s'", uniqueRoute))
}
final.routeM[uniqueRoute] = Holder
var handlerExpr Expr
if route.AtServer != nil {
atServerM := map[string]PlaceHolder{}
for _, kv := range route.AtServer.Kv {
if _, ok := atServerM[kv.Key.Text()]; ok {
v.panic(kv.Key, fmt.Sprintf("duplicate key '%s'", kv.Key.Text()))
}
atServerM[kv.Key.Text()] = Holder
if kv.Key.Text() == "handler" {
handlerExpr = kv.Value
}
}
}
if route.AtHandler != nil {
handlerExpr = route.AtHandler.Name
}
if handlerExpr == nil {
v.panic(route.Route.Method, "mismatched handler")
}
if handlerExpr.Text() == "" {
v.panic(handlerExpr, "mismatched handler")
}
handlerKey := handlerExpr.Text()
if len(group) > 0 {
handlerKey = fmt.Sprintf("%s/%s", group, handlerExpr.Text())
}
if _, ok := final.handlerM[handlerKey]; ok {
v.panic(handlerExpr, fmt.Sprintf("duplicate handler '%s'", handlerExpr.Text()))
}
final.handlerM[handlerKey] = Holder
}
final.Service = append(final.Service, service)
}
}
func (v *ApiVisitor) duplicateServerItemCheck(service *Service) {
if service.AtServer != nil {
atServerM := map[string]PlaceHolder{}
for _, kv := range service.AtServer.Kv {
if _, ok := atServerM[kv.Key.Text()]; ok {
v.panic(kv.Key, fmt.Sprintf("duplicate key '%s'", kv.Key.Text()))
}
atServerM[kv.Key.Text()] = Holder
}
}
}
func (v *ApiVisitor) acceptType(root, final *Api) {
for _, tp := range root.Type {
if _, ok := final.typeM[tp.NameExpr().Text()]; ok {
v.panic(tp.NameExpr(), fmt.Sprintf("duplicate type '%s'", tp.NameExpr().Text()))
}
final.typeM[tp.NameExpr().Text()] = Holder
final.Type = append(final.Type, tp)
}
}
func (v *ApiVisitor) acceptInfo(root, final *Api) {
if root.Info != nil {
infoM := map[string]PlaceHolder{}
if final.Info != nil {
v.panic(root.Info.Info, "multiple info declaration")
}
for _, value := range root.Info.Kvs {
if _, ok := infoM[value.Key.Text()]; ok {
v.panic(value.Key, fmt.Sprintf("duplicate key '%s'", value.Key.Text()))
}
infoM[value.Key.Text()] = Holder
}
final.Info = root.Info
}
}
func (v *ApiVisitor) acceptImport(root, final *Api) {
for _, imp := range root.Import {
if _, ok := final.importM[imp.Value.Text()]; ok {
v.panic(imp.Import, fmt.Sprintf("duplicate import '%s'", imp.Value.Text()))
}
final.importM[imp.Value.Text()] = Holder
final.Import = append(final.Import, imp)
}
}
func (v *ApiVisitor) acceptSyntax(root, final *Api) {
if root.Syntax != nil {
if final.Syntax != nil {
v.panic(root.Syntax.Syntax, "multiple syntax declaration")
}
final.Syntax = root.Syntax
}
}
// VisitSpec implements from api.BaseApiParserVisitor
func (v *ApiVisitor) VisitSpec(ctx *api.SpecContext) interface{} {
var root Api
if ctx.SyntaxLit() != nil {
root.Syntax = ctx.SyntaxLit().Accept(v).(*SyntaxExpr)
}
if ctx.ImportSpec() != nil {
root.Import = ctx.ImportSpec().Accept(v).([]*ImportExpr)
}
if ctx.InfoSpec() != nil {
root.Info = ctx.InfoSpec().Accept(v).(*InfoExpr)
}
if ctx.TypeSpec() != nil {
tp := ctx.TypeSpec().Accept(v)
root.Type = tp.([]TypeExpr)
}
if ctx.ServiceSpec() != nil {
root.Service = []*Service{ctx.ServiceSpec().Accept(v).(*Service)}
}
return &root
}
// Format provides a formatter for api command, now nothing to do
func (a *Api) Format() error {
// todo
return nil
}
// Equal compares whether the element literals in two Api are equal
func (a *Api) Equal(v interface{}) bool {
if v == nil {
return false
}
root, ok := v.(*Api)
if !ok {
return false
}
if !a.Syntax.Equal(root.Syntax) {
return false
}
if len(a.Import) != len(root.Import) {
return false
}
var expectingImport, actualImport []*ImportExpr
expectingImport = append(expectingImport, a.Import...)
actualImport = append(actualImport, root.Import...)
sort.Slice(expectingImport, func(i, j int) bool {
return expectingImport[i].Value.Text() < expectingImport[j].Value.Text()
})
sort.Slice(actualImport, func(i, j int) bool {
return actualImport[i].Value.Text() < actualImport[j].Value.Text()
})
for index, each := range expectingImport {
ac := actualImport[index]
if !each.Equal(ac) {
return false
}
}
if !a.Info.Equal(root.Info) {
return false
}
if len(a.Type) != len(root.Type) {
return false
}
var expectingType, actualType []TypeExpr
expectingType = append(expectingType, a.Type...)
actualType = append(actualType, root.Type...)
sort.Slice(expectingType, func(i, j int) bool {
return expectingType[i].NameExpr().Text() < expectingType[j].NameExpr().Text()
})
sort.Slice(actualType, func(i, j int) bool {
return actualType[i].NameExpr().Text() < actualType[j].NameExpr().Text()
})
for index, each := range expectingType {
ac := actualType[index]
if !each.Equal(ac) {
return false
}
}
if len(a.Service) != len(root.Service) {
return false
}
var expectingService, actualService []*Service
expectingService = append(expectingService, a.Service...)
actualService = append(actualService, root.Service...)
for index, each := range expectingService {
ac := actualService[index]
if !each.Equal(ac) {
return false
}
}
return true
}