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712 lines
20 KiB
Go
712 lines
20 KiB
Go
package micro
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import (
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"fmt"
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"path"
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"strconv"
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"strings"
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"go-micro.dev/v6/cmd/protoc-gen-micro/generator"
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pb "google.golang.org/protobuf/types/descriptorpb"
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)
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// Paths for packages used by code generated in this file,
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// relative to the import_prefix of the generator.Generator.
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const (
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contextPkgPath = "context"
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clientPkgPath = "go-micro.dev/v6/client"
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serverPkgPath = "go-micro.dev/v6/server"
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modelPkgPath = "go-micro.dev/v6/model"
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)
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func init() {
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generator.RegisterPlugin(new(micro))
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}
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// micro is an implementation of the Go protocol buffer compiler's
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// plugin architecture. It generates bindings for go-micro support.
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type micro struct {
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gen *generator.Generator
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}
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// Name returns the name of this plugin, "micro".
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func (g *micro) Name() string {
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return "micro"
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}
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// The names for packages imported in the generated code.
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// They may vary from the final path component of the import path
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// if the name is used by other packages.
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var (
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contextPkg string
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clientPkg string
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serverPkg string
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modelPkg string
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pkgImports map[generator.GoPackageName]bool
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)
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// Init initializes the plugin.
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func (g *micro) Init(gen *generator.Generator) {
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g.gen = gen
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contextPkg = generator.RegisterUniquePackageName("context", nil)
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clientPkg = generator.RegisterUniquePackageName("client", nil)
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serverPkg = generator.RegisterUniquePackageName("server", nil)
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modelPkg = generator.RegisterUniquePackageName("model", nil)
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}
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// Given a type name defined in a .proto, return its object.
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// Also record that we're using it, to guarantee the associated import.
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func (g *micro) objectNamed(name string) generator.Object {
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g.gen.RecordTypeUse(name)
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return g.gen.ObjectNamed(name)
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}
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// Given a type name defined in a .proto, return its name as we will print it.
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func (g *micro) typeName(str string) string {
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return g.gen.TypeName(g.objectNamed(str))
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}
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// P forwards to g.gen.P.
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func (g *micro) P(args ...interface{}) { g.gen.P(args...) }
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// Generate generates code for the services in the given file.
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func (g *micro) Generate(file *generator.FileDescriptor) {
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// Check if any messages have @model annotation
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hasModels := false
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for i := range file.MessageType {
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if g.isModelMessage(i) {
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hasModels = true
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break
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}
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}
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if len(file.Service) == 0 && !hasModels {
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return
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}
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g.P("// Reference imports to suppress errors if they are not otherwise used.")
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g.P("var _ ", contextPkg, ".Context")
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if len(file.Service) > 0 {
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g.P("var _ ", clientPkg, ".Option")
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g.P("var _ ", serverPkg, ".Option")
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}
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if hasModels {
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g.P("var _ ", modelPkg, ".Database")
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}
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g.P()
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for i, service := range file.Service {
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g.generateService(file, service, i)
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}
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// Generate model structs for @model annotated messages
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for i, msg := range file.MessageType {
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if g.isModelMessage(i) {
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g.generateModel(msg, i)
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}
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}
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}
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// GenerateImports generates the import declaration for this file.
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func (g *micro) GenerateImports(file *generator.FileDescriptor, imports map[generator.GoImportPath]generator.GoPackageName) {
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hasServices := len(file.Service) > 0
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hasModels := false
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for i := range file.MessageType {
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if g.isModelMessage(i) {
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hasModels = true
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break
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}
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}
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if !hasServices && !hasModels {
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return
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}
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g.P("import (")
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g.P(contextPkg, " ", strconv.Quote(path.Join(g.gen.ImportPrefix, contextPkgPath)))
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if hasServices {
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g.P(clientPkg, " ", strconv.Quote(path.Join(g.gen.ImportPrefix, clientPkgPath)))
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g.P(serverPkg, " ", strconv.Quote(path.Join(g.gen.ImportPrefix, serverPkgPath)))
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}
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if hasModels {
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g.P(modelPkg, " ", strconv.Quote(path.Join(g.gen.ImportPrefix, modelPkgPath)))
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}
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g.P(")")
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g.P()
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// We need to keep track of imported packages to make sure we don't produce
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// a name collision when generating types.
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pkgImports = make(map[generator.GoPackageName]bool)
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for _, name := range imports {
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pkgImports[name] = true
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}
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}
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// reservedClientName records whether a client name is reserved on the client side.
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var reservedClientName = map[string]bool{
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// TODO: do we need any in go-micro?
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}
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func unexport(s string) string {
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if len(s) == 0 {
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return ""
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}
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name := strings.ToLower(s[:1]) + s[1:]
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if pkgImports[generator.GoPackageName(name)] {
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return name + "_"
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}
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return name
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}
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// generateService generates all the code for the named service.
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func (g *micro) generateService(file *generator.FileDescriptor, service *pb.ServiceDescriptorProto, index int) {
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path := fmt.Sprintf("6,%d", index) // 6 means service.
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origServName := service.GetName()
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serviceName := strings.ToLower(service.GetName())
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pkg := file.GetPackage()
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if pkg != "" {
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serviceName = pkg
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}
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servName := generator.CamelCase(origServName)
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servAlias := servName + "Service"
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// strip suffix
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if strings.HasSuffix(servAlias, "ServiceService") {
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servAlias = strings.TrimSuffix(servAlias, "Service")
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}
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g.P()
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g.P("// Client API for ", servName, " service")
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g.P()
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// Client interface.
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g.P("type ", servAlias, " interface {")
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for i, method := range service.Method {
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g.gen.PrintComments(fmt.Sprintf("%s,2,%d", path, i)) // 2 means method in a service.
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g.P(g.generateClientSignature(servName, method))
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}
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g.P("}")
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g.P()
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// Client structure.
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g.P("type ", unexport(servAlias), " struct {")
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g.P("c ", clientPkg, ".Client")
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g.P("name string")
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g.P("}")
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g.P()
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// NewClient factory.
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g.P("func New", servAlias, " (name string, c ", clientPkg, ".Client) ", servAlias, " {")
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/*
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g.P("if c == nil {")
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g.P("c = ", clientPkg, ".NewClient()")
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g.P("}")
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g.P("if len(name) == 0 {")
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g.P(`name = "`, serviceName, `"`)
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g.P("}")
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*/
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g.P("return &", unexport(servAlias), "{")
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g.P("c: c,")
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g.P("name: name,")
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g.P("}")
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g.P("}")
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g.P()
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var methodIndex, streamIndex int
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serviceDescVar := "_" + servName + "_serviceDesc"
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// Client method implementations.
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for _, method := range service.Method {
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var descExpr string
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if !method.GetServerStreaming() {
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// Unary RPC method
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descExpr = fmt.Sprintf("&%s.Methods[%d]", serviceDescVar, methodIndex)
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methodIndex++
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} else {
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// Streaming RPC method
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descExpr = fmt.Sprintf("&%s.Streams[%d]", serviceDescVar, streamIndex)
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streamIndex++
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}
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g.generateClientMethod(pkg, serviceName, servName, serviceDescVar, method, descExpr)
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}
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g.P("// Server API for ", servName, " service")
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g.P()
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// Server interface.
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serverType := servName + "Handler"
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g.P("type ", serverType, " interface {")
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for i, method := range service.Method {
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g.gen.PrintComments(fmt.Sprintf("%s,2,%d", path, i)) // 2 means method in a service.
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g.P(g.generateServerSignature(servName, method))
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}
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g.P("}")
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g.P()
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// Server registration.
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g.P("func Register", servName, "Handler(s ", serverPkg, ".Server, hdlr ", serverType, ", opts ...", serverPkg, ".HandlerOption) error {")
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g.P("type ", unexport(servName), " interface {")
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// generate interface methods
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for _, method := range service.Method {
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methName := generator.CamelCase(method.GetName())
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inType := g.typeName(method.GetInputType())
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outType := g.typeName(method.GetOutputType())
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if !method.GetServerStreaming() && !method.GetClientStreaming() {
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g.P(methName, "(ctx ", contextPkg, ".Context, in *", inType, ", out *", outType, ") error")
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continue
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}
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g.P(methName, "(ctx ", contextPkg, ".Context, stream server.Stream) error")
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}
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g.P("}")
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g.P("type ", servName, " struct {")
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g.P(unexport(servName))
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g.P("}")
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g.P("h := &", unexport(servName), "Handler{hdlr}")
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g.P("return s.Handle(s.NewHandler(&", servName, "{h}, opts...))")
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g.P("}")
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g.P()
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g.P("type ", unexport(servName), "Handler struct {")
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g.P(serverType)
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g.P("}")
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// Server handler implementations.
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for _, method := range service.Method {
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g.generateServerMethod(servName, method)
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}
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}
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// generateClientSignature returns the client-side signature for a method.
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func (g *micro) generateClientSignature(servName string, method *pb.MethodDescriptorProto) string {
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origMethName := method.GetName()
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methName := generator.CamelCase(origMethName)
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if reservedClientName[methName] {
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methName += "_"
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}
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reqArg := ", in *" + g.typeName(method.GetInputType())
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if method.GetClientStreaming() {
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reqArg = ""
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}
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respName := "*" + g.typeName(method.GetOutputType())
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if method.GetServerStreaming() || method.GetClientStreaming() {
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respName = servName + "_" + generator.CamelCase(origMethName) + "Service"
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}
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return fmt.Sprintf("%s(ctx %s.Context%s, opts ...%s.CallOption) (%s, error)", methName, contextPkg, reqArg, clientPkg, respName)
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}
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func (g *micro) generateClientMethod(pkg, reqServ, servName, serviceDescVar string, method *pb.MethodDescriptorProto, descExpr string) {
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reqMethod := fmt.Sprintf("%s.%s", servName, method.GetName())
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useGrpc := g.gen.Param["use_grpc"]
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if useGrpc != "" {
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reqMethod = fmt.Sprintf("/%s.%s/%s", pkg, servName, method.GetName())
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}
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methName := generator.CamelCase(method.GetName())
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inType := g.typeName(method.GetInputType())
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outType := g.typeName(method.GetOutputType())
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servAlias := servName + "Service"
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// strip suffix
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if strings.HasSuffix(servAlias, "ServiceService") {
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servAlias = strings.TrimSuffix(servAlias, "Service")
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}
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g.P("func (c *", unexport(servAlias), ") ", g.generateClientSignature(servName, method), "{")
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if !method.GetServerStreaming() && !method.GetClientStreaming() {
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g.P(`req := c.c.NewRequest(c.name, "`, reqMethod, `", in)`)
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g.P("out := new(", outType, ")")
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// TODO: Pass descExpr to Invoke.
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g.P("err := ", `c.c.Call(ctx, req, out, opts...)`)
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g.P("if err != nil { return nil, err }")
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g.P("return out, nil")
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g.P("}")
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g.P()
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return
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}
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streamType := unexport(servAlias) + methName
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g.P(`req := c.c.NewRequest(c.name, "`, reqMethod, `", &`, inType, `{})`)
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g.P("stream, err := c.c.Stream(ctx, req, opts...)")
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g.P("if err != nil { return nil, err }")
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if !method.GetClientStreaming() {
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g.P("if err := stream.Send(in); err != nil { return nil, err }")
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// TODO: currently only grpc support CloseSend
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// g.P("if err := stream.CloseSend(); err != nil { return nil, err }")
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}
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g.P("return &", streamType, "{stream}, nil")
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g.P("}")
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g.P()
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genSend := method.GetClientStreaming()
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genRecv := method.GetServerStreaming()
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// Stream auxiliary types and methods.
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g.P("type ", servName, "_", methName, "Service interface {")
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g.P("Context() context.Context")
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g.P("SendMsg(interface{}) error")
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g.P("RecvMsg(interface{}) error")
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g.P("CloseSend() error")
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g.P("Close() error")
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if genSend {
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g.P("Send(*", inType, ") error")
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}
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if genRecv {
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g.P("Recv() (*", outType, ", error)")
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}
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g.P("}")
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g.P()
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g.P("type ", streamType, " struct {")
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g.P("stream ", clientPkg, ".Stream")
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g.P("}")
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g.P()
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g.P("func (x *", streamType, ") CloseSend() error {")
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g.P("return x.stream.CloseSend()")
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g.P("}")
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g.P()
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g.P("func (x *", streamType, ") Close() error {")
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g.P("return x.stream.Close()")
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g.P("}")
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g.P()
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g.P("func (x *", streamType, ") Context() context.Context {")
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g.P("return x.stream.Context()")
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g.P("}")
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g.P()
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g.P("func (x *", streamType, ") SendMsg(m interface{}) error {")
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g.P("return x.stream.Send(m)")
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g.P("}")
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g.P()
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g.P("func (x *", streamType, ") RecvMsg(m interface{}) error {")
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g.P("return x.stream.Recv(m)")
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g.P("}")
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g.P()
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if genSend {
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g.P("func (x *", streamType, ") Send(m *", inType, ") error {")
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g.P("return x.stream.Send(m)")
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g.P("}")
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g.P()
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}
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if genRecv {
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g.P("func (x *", streamType, ") Recv() (*", outType, ", error) {")
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g.P("m := new(", outType, ")")
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g.P("err := x.stream.Recv(m)")
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g.P("if err != nil {")
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g.P("return nil, err")
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g.P("}")
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g.P("return m, nil")
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g.P("}")
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g.P()
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}
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}
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// generateServerSignature returns the server-side signature for a method.
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func (g *micro) generateServerSignature(servName string, method *pb.MethodDescriptorProto) string {
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origMethName := method.GetName()
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methName := generator.CamelCase(origMethName)
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if reservedClientName[methName] {
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methName += "_"
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}
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var reqArgs []string
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ret := "error"
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reqArgs = append(reqArgs, contextPkg+".Context")
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if !method.GetClientStreaming() {
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reqArgs = append(reqArgs, "*"+g.typeName(method.GetInputType()))
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}
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if method.GetServerStreaming() || method.GetClientStreaming() {
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reqArgs = append(reqArgs, servName+"_"+generator.CamelCase(origMethName)+"Stream")
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}
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if !method.GetClientStreaming() && !method.GetServerStreaming() {
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reqArgs = append(reqArgs, "*"+g.typeName(method.GetOutputType()))
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}
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return methName + "(" + strings.Join(reqArgs, ", ") + ") " + ret
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}
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func (g *micro) generateServerMethod(servName string, method *pb.MethodDescriptorProto) string {
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methName := generator.CamelCase(method.GetName())
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hname := fmt.Sprintf("_%s_%s_Handler", servName, methName)
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serveType := servName + "Handler"
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inType := g.typeName(method.GetInputType())
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outType := g.typeName(method.GetOutputType())
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if !method.GetServerStreaming() && !method.GetClientStreaming() {
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g.P("func (h *", unexport(servName), "Handler) ", methName, "(ctx ", contextPkg, ".Context, in *", inType, ", out *", outType, ") error {")
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g.P("return h.", serveType, ".", methName, "(ctx, in, out)")
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g.P("}")
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g.P()
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return hname
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}
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streamType := unexport(servName) + methName + "Stream"
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g.P("func (h *", unexport(servName), "Handler) ", methName, "(ctx ", contextPkg, ".Context, stream server.Stream) error {")
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if !method.GetClientStreaming() {
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g.P("m := new(", inType, ")")
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g.P("if err := stream.Recv(m); err != nil { return err }")
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g.P("return h.", serveType, ".", methName, "(ctx, m, &", streamType, "{stream})")
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} else {
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g.P("return h.", serveType, ".", methName, "(ctx, &", streamType, "{stream})")
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}
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g.P("}")
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g.P()
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genSend := method.GetServerStreaming()
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genRecv := method.GetClientStreaming()
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// Stream auxiliary types and methods.
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g.P("type ", servName, "_", methName, "Stream interface {")
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g.P("Context() context.Context")
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g.P("SendMsg(interface{}) error")
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g.P("RecvMsg(interface{}) error")
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g.P("Close() error")
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if genSend {
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g.P("Send(*", outType, ") error")
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}
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if genRecv {
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g.P("Recv() (*", inType, ", error)")
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}
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g.P("}")
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g.P()
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g.P("type ", streamType, " struct {")
|
|
g.P("stream ", serverPkg, ".Stream")
|
|
g.P("}")
|
|
g.P()
|
|
|
|
g.P("func (x *", streamType, ") Close() error {")
|
|
g.P("return x.stream.Close()")
|
|
g.P("}")
|
|
g.P()
|
|
|
|
g.P("func (x *", streamType, ") Context() context.Context {")
|
|
g.P("return x.stream.Context()")
|
|
g.P("}")
|
|
g.P()
|
|
|
|
g.P("func (x *", streamType, ") SendMsg(m interface{}) error {")
|
|
g.P("return x.stream.Send(m)")
|
|
g.P("}")
|
|
g.P()
|
|
|
|
g.P("func (x *", streamType, ") RecvMsg(m interface{}) error {")
|
|
g.P("return x.stream.Recv(m)")
|
|
g.P("}")
|
|
g.P()
|
|
|
|
if genSend {
|
|
g.P("func (x *", streamType, ") Send(m *", outType, ") error {")
|
|
g.P("return x.stream.Send(m)")
|
|
g.P("}")
|
|
g.P()
|
|
}
|
|
|
|
if genRecv {
|
|
g.P("func (x *", streamType, ") Recv() (*", inType, ", error) {")
|
|
g.P("m := new(", inType, ")")
|
|
g.P("if err := x.stream.Recv(m); err != nil { return nil, err }")
|
|
g.P("return m, nil")
|
|
g.P("}")
|
|
g.P()
|
|
}
|
|
|
|
return hname
|
|
}
|
|
|
|
// isModelMessage checks if the message at the given index has a // @model annotation.
|
|
// Path "4,<index>" refers to message_type[index] in FileDescriptorProto.
|
|
func (g *micro) isModelMessage(msgIndex int) bool {
|
|
commentPath := fmt.Sprintf("4,%d", msgIndex)
|
|
comment, ok := g.gen.GetComments(commentPath)
|
|
if !ok {
|
|
return false
|
|
}
|
|
return strings.Contains(comment, "@model")
|
|
}
|
|
|
|
// parseModelOptions extracts options from the @model annotation comment.
|
|
// Supports: @model, @model(table=my_table), @model(key=custom_id)
|
|
func parseModelOptions(comment string) (table string, key string) {
|
|
idx := strings.Index(comment, "@model")
|
|
if idx < 0 {
|
|
return "", ""
|
|
}
|
|
rest := comment[idx+len("@model"):]
|
|
rest = strings.TrimSpace(rest)
|
|
if !strings.HasPrefix(rest, "(") {
|
|
return "", ""
|
|
}
|
|
end := strings.Index(rest, ")")
|
|
if end < 0 {
|
|
return "", ""
|
|
}
|
|
opts := rest[1:end]
|
|
for _, part := range strings.Split(opts, ",") {
|
|
kv := strings.SplitN(strings.TrimSpace(part), "=", 2)
|
|
if len(kv) != 2 {
|
|
continue
|
|
}
|
|
switch strings.TrimSpace(kv[0]) {
|
|
case "table":
|
|
table = strings.TrimSpace(kv[1])
|
|
case "key":
|
|
key = strings.TrimSpace(kv[1])
|
|
}
|
|
}
|
|
return table, key
|
|
}
|
|
|
|
// protoFieldGoType returns the Go type string for a proto field for use in model structs.
|
|
// Only supports scalar types (no nested messages or enums in model structs).
|
|
func protoFieldGoType(field *pb.FieldDescriptorProto) string {
|
|
switch field.GetType() {
|
|
case pb.FieldDescriptorProto_TYPE_DOUBLE:
|
|
return "float64"
|
|
case pb.FieldDescriptorProto_TYPE_FLOAT:
|
|
return "float32"
|
|
case pb.FieldDescriptorProto_TYPE_INT64, pb.FieldDescriptorProto_TYPE_SINT64, pb.FieldDescriptorProto_TYPE_SFIXED64:
|
|
return "int64"
|
|
case pb.FieldDescriptorProto_TYPE_UINT64, pb.FieldDescriptorProto_TYPE_FIXED64:
|
|
return "uint64"
|
|
case pb.FieldDescriptorProto_TYPE_INT32, pb.FieldDescriptorProto_TYPE_SINT32, pb.FieldDescriptorProto_TYPE_SFIXED32:
|
|
return "int32"
|
|
case pb.FieldDescriptorProto_TYPE_UINT32, pb.FieldDescriptorProto_TYPE_FIXED32:
|
|
return "uint32"
|
|
case pb.FieldDescriptorProto_TYPE_BOOL:
|
|
return "bool"
|
|
case pb.FieldDescriptorProto_TYPE_STRING:
|
|
return "string"
|
|
case pb.FieldDescriptorProto_TYPE_BYTES:
|
|
return "[]byte"
|
|
default:
|
|
return "string"
|
|
}
|
|
}
|
|
|
|
// generateModel generates the model struct, factory, and proto conversion for a message.
|
|
func (g *micro) generateModel(msg *pb.DescriptorProto, msgIndex int) {
|
|
msgName := generator.CamelCase(msg.GetName())
|
|
modelName := msgName + "Model"
|
|
|
|
// Parse options from comment
|
|
commentPath := fmt.Sprintf("4,%d", msgIndex)
|
|
comment, _ := g.gen.GetComments(commentPath)
|
|
tableName, keyField := parseModelOptions(comment)
|
|
|
|
// Default table: lowercase message name + "s"
|
|
if tableName == "" {
|
|
tableName = strings.ToLower(msg.GetName()) + "s"
|
|
}
|
|
|
|
// Default key: first field, or "id" if a field named "id" exists
|
|
if keyField == "" {
|
|
for _, field := range msg.Field {
|
|
if field.GetName() == "id" {
|
|
keyField = "id"
|
|
break
|
|
}
|
|
}
|
|
if keyField == "" && len(msg.Field) > 0 {
|
|
keyField = msg.Field[0].GetName()
|
|
}
|
|
}
|
|
|
|
// Filter to scalar fields only (skip nested messages, maps, oneofs)
|
|
type modelField struct {
|
|
goName string
|
|
jsonName string
|
|
goType string
|
|
isKey bool
|
|
proto *pb.FieldDescriptorProto
|
|
}
|
|
var fields []modelField
|
|
for _, field := range msg.Field {
|
|
ft := field.GetType()
|
|
// Skip message and enum types (not directly storable as scalars)
|
|
if ft == pb.FieldDescriptorProto_TYPE_MESSAGE || ft == pb.FieldDescriptorProto_TYPE_GROUP {
|
|
continue
|
|
}
|
|
// Skip repeated fields (slices aren't directly storable)
|
|
if field.GetLabel() == pb.FieldDescriptorProto_LABEL_REPEATED {
|
|
continue
|
|
}
|
|
goName := generator.CamelCase(field.GetName())
|
|
jsonName := field.GetJsonName()
|
|
if jsonName == "" {
|
|
jsonName = field.GetName()
|
|
}
|
|
fields = append(fields, modelField{
|
|
goName: goName,
|
|
jsonName: jsonName,
|
|
goType: protoFieldGoType(field),
|
|
isKey: field.GetName() == keyField,
|
|
proto: field,
|
|
})
|
|
}
|
|
|
|
if len(fields) == 0 {
|
|
return
|
|
}
|
|
|
|
// Generate model struct
|
|
g.P()
|
|
g.P("// ", modelName, " is a model struct generated from ", msgName, ".")
|
|
g.P("// Use New", modelName, " to create a typed table backed by any model.Model.")
|
|
g.P("type ", modelName, " struct {")
|
|
for _, f := range fields {
|
|
tags := fmt.Sprintf("`json:%q", f.jsonName)
|
|
if f.isKey {
|
|
tags += ` model:"key"`
|
|
}
|
|
tags += "`"
|
|
g.P(f.goName, " ", f.goType, " ", tags)
|
|
}
|
|
g.P("}")
|
|
g.P()
|
|
|
|
// Generate Register helper: RegisterXModel(db) registers the model with the given backend.
|
|
g.P("// Register", modelName, " registers the ", modelName, " table with the given model backend.")
|
|
g.P("func Register", modelName, "(db ", modelPkg, ".Model) error {")
|
|
g.P("return db.Register(&", modelName, "{}, ", modelPkg, `.WithTable("`, tableName, `"))`)
|
|
g.P("}")
|
|
g.P()
|
|
|
|
// Generate FromProto: XModelFromProto(*X) *XModel
|
|
g.P("// ", modelName, "FromProto converts a ", msgName, " proto message to a ", modelName, ".")
|
|
g.P("func ", modelName, "FromProto(p *", msgName, ") *", modelName, " {")
|
|
g.P("if p == nil { return nil }")
|
|
g.P("return &", modelName, "{")
|
|
for _, f := range fields {
|
|
getter := "Get" + f.goName
|
|
g.P(f.goName, ": p.", getter, "(),")
|
|
}
|
|
g.P("}")
|
|
g.P("}")
|
|
g.P()
|
|
|
|
// Generate ToProto: (*XModel).ToProto() *X
|
|
g.P("// ToProto converts a ", modelName, " to a ", msgName, " proto message.")
|
|
g.P("func (m *", modelName, ") ToProto() *", msgName, " {")
|
|
g.P("if m == nil { return nil }")
|
|
g.P("return &", msgName, "{")
|
|
for _, f := range fields {
|
|
g.P(f.goName, ": m.", f.goName, ",")
|
|
}
|
|
g.P("}")
|
|
g.P("}")
|
|
g.P()
|
|
}
|