| // Copyright 2010 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| // Package generator is deprecated. |
| // |
| // This package is excluded from the Go protocol buffer compatibility guarantee |
| // and may be deleted at some point in the future. |
| // |
| // Deprecated: Use the "google.golang.org/protobuf/compiler/protogen" package |
| // instead to write protoc plugins in Go. |
| package generator |
| |
| import ( |
| "bufio" |
| "bytes" |
| "compress/gzip" |
| "crypto/sha256" |
| "encoding/hex" |
| "fmt" |
| "go/ast" |
| "go/build" |
| "go/parser" |
| "go/printer" |
| "go/token" |
| "log" |
| "os" |
| "path" |
| "sort" |
| "strconv" |
| "strings" |
| "unicode" |
| "unicode/utf8" |
| |
| "github.com/golang/protobuf/proto" |
| "github.com/golang/protobuf/protoc-gen-go/generator/internal/remap" |
| |
| "github.com/golang/protobuf/protoc-gen-go/descriptor" |
| plugin "github.com/golang/protobuf/protoc-gen-go/plugin" |
| ) |
| |
| func init() { |
| fmt.Fprint(os.Stderr, |
| "WARNING: Package \"github.com/golang/protobuf/protoc-gen-go/generator\" is deprecated.\n"+ |
| "\tA future release of golang/protobuf will delete this package,\n"+ |
| "\twhich has long been excluded from the compatibility promise.\n\n") |
| } |
| |
| // generatedCodeVersion indicates a version of the generated code. |
| // It is incremented whenever an incompatibility between the generated code and |
| // proto package is introduced; the generated code references |
| // a constant, proto.ProtoPackageIsVersionN (where N is generatedCodeVersion). |
| const generatedCodeVersion = 3 |
| |
| // A Plugin provides functionality to add to the output during Go code generation, |
| // such as to produce RPC stubs. |
| type Plugin interface { |
| // Name identifies the plugin. |
| Name() string |
| // Init is called once after data structures are built but before |
| // code generation begins. |
| Init(g *Generator) |
| // Generate produces the code generated by the plugin for this file, |
| // except for the imports, by calling the generator's methods P, In, and Out. |
| Generate(file *FileDescriptor) |
| // GenerateImports produces the import declarations for this file. |
| // It is called after Generate. |
| GenerateImports(file *FileDescriptor) |
| } |
| |
| var plugins []Plugin |
| |
| // RegisterPlugin installs a (second-order) plugin to be run when the Go output is generated. |
| // It is typically called during initialization. |
| func RegisterPlugin(p Plugin) { |
| plugins = append(plugins, p) |
| } |
| |
| // A GoImportPath is the import path of a Go package. e.g., "google.golang.org/genproto/protobuf". |
| type GoImportPath string |
| |
| func (p GoImportPath) String() string { return strconv.Quote(string(p)) } |
| |
| // A GoPackageName is the name of a Go package. e.g., "protobuf". |
| type GoPackageName string |
| |
| // Each type we import as a protocol buffer (other than FileDescriptorProto) needs |
| // a pointer to the FileDescriptorProto that represents it. These types achieve that |
| // wrapping by placing each Proto inside a struct with the pointer to its File. The |
| // structs have the same names as their contents, with "Proto" removed. |
| // FileDescriptor is used to store the things that it points to. |
| |
| // The file and package name method are common to messages and enums. |
| type common struct { |
| file *FileDescriptor // File this object comes from. |
| } |
| |
| // GoImportPath is the import path of the Go package containing the type. |
| func (c *common) GoImportPath() GoImportPath { |
| return c.file.importPath |
| } |
| |
| func (c *common) File() *FileDescriptor { return c.file } |
| |
| func fileIsProto3(file *descriptor.FileDescriptorProto) bool { |
| return file.GetSyntax() == "proto3" |
| } |
| |
| func (c *common) proto3() bool { return fileIsProto3(c.file.FileDescriptorProto) } |
| |
| // Descriptor represents a protocol buffer message. |
| type Descriptor struct { |
| common |
| *descriptor.DescriptorProto |
| parent *Descriptor // The containing message, if any. |
| nested []*Descriptor // Inner messages, if any. |
| enums []*EnumDescriptor // Inner enums, if any. |
| ext []*ExtensionDescriptor // Extensions, if any. |
| typename []string // Cached typename vector. |
| index int // The index into the container, whether the file or another message. |
| path string // The SourceCodeInfo path as comma-separated integers. |
| group bool |
| } |
| |
| // TypeName returns the elements of the dotted type name. |
| // The package name is not part of this name. |
| func (d *Descriptor) TypeName() []string { |
| if d.typename != nil { |
| return d.typename |
| } |
| n := 0 |
| for parent := d; parent != nil; parent = parent.parent { |
| n++ |
| } |
| s := make([]string, n) |
| for parent := d; parent != nil; parent = parent.parent { |
| n-- |
| s[n] = parent.GetName() |
| } |
| d.typename = s |
| return s |
| } |
| |
| // EnumDescriptor describes an enum. If it's at top level, its parent will be nil. |
| // Otherwise it will be the descriptor of the message in which it is defined. |
| type EnumDescriptor struct { |
| common |
| *descriptor.EnumDescriptorProto |
| parent *Descriptor // The containing message, if any. |
| typename []string // Cached typename vector. |
| index int // The index into the container, whether the file or a message. |
| path string // The SourceCodeInfo path as comma-separated integers. |
| } |
| |
| // TypeName returns the elements of the dotted type name. |
| // The package name is not part of this name. |
| func (e *EnumDescriptor) TypeName() (s []string) { |
| if e.typename != nil { |
| return e.typename |
| } |
| name := e.GetName() |
| if e.parent == nil { |
| s = make([]string, 1) |
| } else { |
| pname := e.parent.TypeName() |
| s = make([]string, len(pname)+1) |
| copy(s, pname) |
| } |
| s[len(s)-1] = name |
| e.typename = s |
| return s |
| } |
| |
| // Everything but the last element of the full type name, CamelCased. |
| // The values of type Foo.Bar are call Foo_value1... not Foo_Bar_value1... . |
| func (e *EnumDescriptor) prefix() string { |
| if e.parent == nil { |
| // If the enum is not part of a message, the prefix is just the type name. |
| return CamelCase(*e.Name) + "_" |
| } |
| typeName := e.TypeName() |
| return CamelCaseSlice(typeName[0:len(typeName)-1]) + "_" |
| } |
| |
| // The integer value of the named constant in this enumerated type. |
| func (e *EnumDescriptor) integerValueAsString(name string) string { |
| for _, c := range e.Value { |
| if c.GetName() == name { |
| return fmt.Sprint(c.GetNumber()) |
| } |
| } |
| log.Fatal("cannot find value for enum constant") |
| return "" |
| } |
| |
| // ExtensionDescriptor describes an extension. If it's at top level, its parent will be nil. |
| // Otherwise it will be the descriptor of the message in which it is defined. |
| type ExtensionDescriptor struct { |
| common |
| *descriptor.FieldDescriptorProto |
| parent *Descriptor // The containing message, if any. |
| } |
| |
| // TypeName returns the elements of the dotted type name. |
| // The package name is not part of this name. |
| func (e *ExtensionDescriptor) TypeName() (s []string) { |
| name := e.GetName() |
| if e.parent == nil { |
| // top-level extension |
| s = make([]string, 1) |
| } else { |
| pname := e.parent.TypeName() |
| s = make([]string, len(pname)+1) |
| copy(s, pname) |
| } |
| s[len(s)-1] = name |
| return s |
| } |
| |
| // DescName returns the variable name used for the generated descriptor. |
| func (e *ExtensionDescriptor) DescName() string { |
| // The full type name. |
| typeName := e.TypeName() |
| // Each scope of the extension is individually CamelCased, and all are joined with "_" with an "E_" prefix. |
| for i, s := range typeName { |
| typeName[i] = CamelCase(s) |
| } |
| return "E_" + strings.Join(typeName, "_") |
| } |
| |
| // ImportedDescriptor describes a type that has been publicly imported from another file. |
| type ImportedDescriptor struct { |
| common |
| o Object |
| } |
| |
| func (id *ImportedDescriptor) TypeName() []string { return id.o.TypeName() } |
| |
| // FileDescriptor describes an protocol buffer descriptor file (.proto). |
| // It includes slices of all the messages and enums defined within it. |
| // Those slices are constructed by WrapTypes. |
| type FileDescriptor struct { |
| *descriptor.FileDescriptorProto |
| desc []*Descriptor // All the messages defined in this file. |
| enum []*EnumDescriptor // All the enums defined in this file. |
| ext []*ExtensionDescriptor // All the top-level extensions defined in this file. |
| imp []*ImportedDescriptor // All types defined in files publicly imported by this file. |
| |
| // Comments, stored as a map of path (comma-separated integers) to the comment. |
| comments map[string]*descriptor.SourceCodeInfo_Location |
| |
| // The full list of symbols that are exported, |
| // as a map from the exported object to its symbols. |
| // This is used for supporting public imports. |
| exported map[Object][]symbol |
| |
| importPath GoImportPath // Import path of this file's package. |
| packageName GoPackageName // Name of this file's Go package. |
| |
| proto3 bool // whether to generate proto3 code for this file |
| } |
| |
| // VarName is the variable name we'll use in the generated code to refer |
| // to the compressed bytes of this descriptor. It is not exported, so |
| // it is only valid inside the generated package. |
| func (d *FileDescriptor) VarName() string { |
| h := sha256.Sum256([]byte(d.GetName())) |
| return fmt.Sprintf("fileDescriptor_%s", hex.EncodeToString(h[:8])) |
| } |
| |
| // goPackageOption interprets the file's go_package option. |
| // If there is no go_package, it returns ("", "", false). |
| // If there's a simple name, it returns ("", pkg, true). |
| // If the option implies an import path, it returns (impPath, pkg, true). |
| func (d *FileDescriptor) goPackageOption() (impPath GoImportPath, pkg GoPackageName, ok bool) { |
| opt := d.GetOptions().GetGoPackage() |
| if opt == "" { |
| return "", "", false |
| } |
| // A semicolon-delimited suffix delimits the import path and package name. |
| sc := strings.Index(opt, ";") |
| if sc >= 0 { |
| return GoImportPath(opt[:sc]), cleanPackageName(opt[sc+1:]), true |
| } |
| // The presence of a slash implies there's an import path. |
| slash := strings.LastIndex(opt, "/") |
| if slash >= 0 { |
| return GoImportPath(opt), cleanPackageName(opt[slash+1:]), true |
| } |
| return "", cleanPackageName(opt), true |
| } |
| |
| // goFileName returns the output name for the generated Go file. |
| func (d *FileDescriptor) goFileName(pathType pathType) string { |
| name := *d.Name |
| if ext := path.Ext(name); ext == ".proto" || ext == ".protodevel" { |
| name = name[:len(name)-len(ext)] |
| } |
| name += ".pb.go" |
| |
| if pathType == pathTypeSourceRelative { |
| return name |
| } |
| |
| // Does the file have a "go_package" option? |
| // If it does, it may override the filename. |
| if impPath, _, ok := d.goPackageOption(); ok && impPath != "" { |
| // Replace the existing dirname with the declared import path. |
| _, name = path.Split(name) |
| name = path.Join(string(impPath), name) |
| return name |
| } |
| |
| return name |
| } |
| |
| func (d *FileDescriptor) addExport(obj Object, sym symbol) { |
| d.exported[obj] = append(d.exported[obj], sym) |
| } |
| |
| // symbol is an interface representing an exported Go symbol. |
| type symbol interface { |
| // GenerateAlias should generate an appropriate alias |
| // for the symbol from the named package. |
| GenerateAlias(g *Generator, filename string, pkg GoPackageName) |
| } |
| |
| type messageSymbol struct { |
| sym string |
| hasExtensions, isMessageSet bool |
| oneofTypes []string |
| } |
| |
| type getterSymbol struct { |
| name string |
| typ string |
| typeName string // canonical name in proto world; empty for proto.Message and similar |
| genType bool // whether typ contains a generated type (message/group/enum) |
| } |
| |
| func (ms *messageSymbol) GenerateAlias(g *Generator, filename string, pkg GoPackageName) { |
| g.P("// ", ms.sym, " from public import ", filename) |
| g.P("type ", ms.sym, " = ", pkg, ".", ms.sym) |
| for _, name := range ms.oneofTypes { |
| g.P("type ", name, " = ", pkg, ".", name) |
| } |
| } |
| |
| type enumSymbol struct { |
| name string |
| proto3 bool // Whether this came from a proto3 file. |
| } |
| |
| func (es enumSymbol) GenerateAlias(g *Generator, filename string, pkg GoPackageName) { |
| s := es.name |
| g.P("// ", s, " from public import ", filename) |
| g.P("type ", s, " = ", pkg, ".", s) |
| g.P("var ", s, "_name = ", pkg, ".", s, "_name") |
| g.P("var ", s, "_value = ", pkg, ".", s, "_value") |
| } |
| |
| type constOrVarSymbol struct { |
| sym string |
| typ string // either "const" or "var" |
| cast string // if non-empty, a type cast is required (used for enums) |
| } |
| |
| func (cs constOrVarSymbol) GenerateAlias(g *Generator, filename string, pkg GoPackageName) { |
| v := string(pkg) + "." + cs.sym |
| if cs.cast != "" { |
| v = cs.cast + "(" + v + ")" |
| } |
| g.P(cs.typ, " ", cs.sym, " = ", v) |
| } |
| |
| // Object is an interface abstracting the abilities shared by enums, messages, extensions and imported objects. |
| type Object interface { |
| GoImportPath() GoImportPath |
| TypeName() []string |
| File() *FileDescriptor |
| } |
| |
| // Generator is the type whose methods generate the output, stored in the associated response structure. |
| type Generator struct { |
| *bytes.Buffer |
| |
| Request *plugin.CodeGeneratorRequest // The input. |
| Response *plugin.CodeGeneratorResponse // The output. |
| |
| Param map[string]string // Command-line parameters. |
| PackageImportPath string // Go import path of the package we're generating code for |
| ImportPrefix string // String to prefix to imported package file names. |
| ImportMap map[string]string // Mapping from .proto file name to import path |
| |
| Pkg map[string]string // The names under which we import support packages |
| |
| outputImportPath GoImportPath // Package we're generating code for. |
| allFiles []*FileDescriptor // All files in the tree |
| allFilesByName map[string]*FileDescriptor // All files by filename. |
| genFiles []*FileDescriptor // Those files we will generate output for. |
| file *FileDescriptor // The file we are compiling now. |
| packageNames map[GoImportPath]GoPackageName // Imported package names in the current file. |
| usedPackages map[GoImportPath]bool // Packages used in current file. |
| usedPackageNames map[GoPackageName]bool // Package names used in the current file. |
| addedImports map[GoImportPath]bool // Additional imports to emit. |
| typeNameToObject map[string]Object // Key is a fully-qualified name in input syntax. |
| init []string // Lines to emit in the init function. |
| indent string |
| pathType pathType // How to generate output filenames. |
| writeOutput bool |
| annotateCode bool // whether to store annotations |
| annotations []*descriptor.GeneratedCodeInfo_Annotation // annotations to store |
| } |
| |
| type pathType int |
| |
| const ( |
| pathTypeImport pathType = iota |
| pathTypeSourceRelative |
| ) |
| |
| // New creates a new generator and allocates the request and response protobufs. |
| func New() *Generator { |
| g := new(Generator) |
| g.Buffer = new(bytes.Buffer) |
| g.Request = new(plugin.CodeGeneratorRequest) |
| g.Response = new(plugin.CodeGeneratorResponse) |
| return g |
| } |
| |
| // Error reports a problem, including an error, and exits the program. |
| func (g *Generator) Error(err error, msgs ...string) { |
| s := strings.Join(msgs, " ") + ":" + err.Error() |
| log.Print("protoc-gen-go: error:", s) |
| os.Exit(1) |
| } |
| |
| // Fail reports a problem and exits the program. |
| func (g *Generator) Fail(msgs ...string) { |
| s := strings.Join(msgs, " ") |
| log.Print("protoc-gen-go: error:", s) |
| os.Exit(1) |
| } |
| |
| // CommandLineParameters breaks the comma-separated list of key=value pairs |
| // in the parameter (a member of the request protobuf) into a key/value map. |
| // It then sets file name mappings defined by those entries. |
| func (g *Generator) CommandLineParameters(parameter string) { |
| g.Param = make(map[string]string) |
| for _, p := range strings.Split(parameter, ",") { |
| if i := strings.Index(p, "="); i < 0 { |
| g.Param[p] = "" |
| } else { |
| g.Param[p[0:i]] = p[i+1:] |
| } |
| } |
| |
| g.ImportMap = make(map[string]string) |
| pluginList := "none" // Default list of plugin names to enable (empty means all). |
| for k, v := range g.Param { |
| switch k { |
| case "import_prefix": |
| g.ImportPrefix = v |
| case "import_path": |
| g.PackageImportPath = v |
| case "paths": |
| switch v { |
| case "import": |
| g.pathType = pathTypeImport |
| case "source_relative": |
| g.pathType = pathTypeSourceRelative |
| default: |
| g.Fail(fmt.Sprintf(`Unknown path type %q: want "import" or "source_relative".`, v)) |
| } |
| case "plugins": |
| pluginList = v |
| case "annotate_code": |
| if v == "true" { |
| g.annotateCode = true |
| } |
| default: |
| if len(k) > 0 && k[0] == 'M' { |
| g.ImportMap[k[1:]] = v |
| } |
| } |
| } |
| if pluginList != "" { |
| // Amend the set of plugins. |
| enabled := make(map[string]bool) |
| for _, name := range strings.Split(pluginList, "+") { |
| enabled[name] = true |
| } |
| var nplugins []Plugin |
| for _, p := range plugins { |
| if enabled[p.Name()] { |
| nplugins = append(nplugins, p) |
| } |
| } |
| plugins = nplugins |
| } |
| } |
| |
| // DefaultPackageName returns the package name printed for the object. |
| // If its file is in a different package, it returns the package name we're using for this file, plus ".". |
| // Otherwise it returns the empty string. |
| func (g *Generator) DefaultPackageName(obj Object) string { |
| importPath := obj.GoImportPath() |
| if importPath == g.outputImportPath { |
| return "" |
| } |
| return string(g.GoPackageName(importPath)) + "." |
| } |
| |
| // GoPackageName returns the name used for a package. |
| func (g *Generator) GoPackageName(importPath GoImportPath) GoPackageName { |
| if name, ok := g.packageNames[importPath]; ok { |
| return name |
| } |
| name := cleanPackageName(baseName(string(importPath))) |
| for i, orig := 1, name; g.usedPackageNames[name] || isGoPredeclaredIdentifier[string(name)]; i++ { |
| name = orig + GoPackageName(strconv.Itoa(i)) |
| } |
| g.packageNames[importPath] = name |
| g.usedPackageNames[name] = true |
| return name |
| } |
| |
| // AddImport adds a package to the generated file's import section. |
| // It returns the name used for the package. |
| func (g *Generator) AddImport(importPath GoImportPath) GoPackageName { |
| g.addedImports[importPath] = true |
| return g.GoPackageName(importPath) |
| } |
| |
| var globalPackageNames = map[GoPackageName]bool{ |
| "fmt": true, |
| "math": true, |
| "proto": true, |
| } |
| |
| // Create and remember a guaranteed unique package name. Pkg is the candidate name. |
| // The FileDescriptor parameter is unused. |
| func RegisterUniquePackageName(pkg string, f *FileDescriptor) string { |
| name := cleanPackageName(pkg) |
| for i, orig := 1, name; globalPackageNames[name]; i++ { |
| name = orig + GoPackageName(strconv.Itoa(i)) |
| } |
| globalPackageNames[name] = true |
| return string(name) |
| } |
| |
| var isGoKeyword = map[string]bool{ |
| "break": true, |
| "case": true, |
| "chan": true, |
| "const": true, |
| "continue": true, |
| "default": true, |
| "else": true, |
| "defer": true, |
| "fallthrough": true, |
| "for": true, |
| "func": true, |
| "go": true, |
| "goto": true, |
| "if": true, |
| "import": true, |
| "interface": true, |
| "map": true, |
| "package": true, |
| "range": true, |
| "return": true, |
| "select": true, |
| "struct": true, |
| "switch": true, |
| "type": true, |
| "var": true, |
| } |
| |
| var isGoPredeclaredIdentifier = map[string]bool{ |
| "append": true, |
| "bool": true, |
| "byte": true, |
| "cap": true, |
| "close": true, |
| "complex": true, |
| "complex128": true, |
| "complex64": true, |
| "copy": true, |
| "delete": true, |
| "error": true, |
| "false": true, |
| "float32": true, |
| "float64": true, |
| "imag": true, |
| "int": true, |
| "int16": true, |
| "int32": true, |
| "int64": true, |
| "int8": true, |
| "iota": true, |
| "len": true, |
| "make": true, |
| "new": true, |
| "nil": true, |
| "panic": true, |
| "print": true, |
| "println": true, |
| "real": true, |
| "recover": true, |
| "rune": true, |
| "string": true, |
| "true": true, |
| "uint": true, |
| "uint16": true, |
| "uint32": true, |
| "uint64": true, |
| "uint8": true, |
| "uintptr": true, |
| } |
| |
| func cleanPackageName(name string) GoPackageName { |
| name = strings.Map(badToUnderscore, name) |
| // Identifier must not be keyword or predeclared identifier: insert _. |
| if isGoKeyword[name] { |
| name = "_" + name |
| } |
| // Identifier must not begin with digit: insert _. |
| if r, _ := utf8.DecodeRuneInString(name); unicode.IsDigit(r) { |
| name = "_" + name |
| } |
| return GoPackageName(name) |
| } |
| |
| // defaultGoPackage returns the package name to use, |
| // derived from the import path of the package we're building code for. |
| func (g *Generator) defaultGoPackage() GoPackageName { |
| p := g.PackageImportPath |
| if i := strings.LastIndex(p, "/"); i >= 0 { |
| p = p[i+1:] |
| } |
| return cleanPackageName(p) |
| } |
| |
| // SetPackageNames sets the package name for this run. |
| // The package name must agree across all files being generated. |
| // It also defines unique package names for all imported files. |
| func (g *Generator) SetPackageNames() { |
| g.outputImportPath = g.genFiles[0].importPath |
| |
| defaultPackageNames := make(map[GoImportPath]GoPackageName) |
| for _, f := range g.genFiles { |
| if _, p, ok := f.goPackageOption(); ok { |
| defaultPackageNames[f.importPath] = p |
| } |
| } |
| for _, f := range g.genFiles { |
| if _, p, ok := f.goPackageOption(); ok { |
| // Source file: option go_package = "quux/bar"; |
| f.packageName = p |
| } else if p, ok := defaultPackageNames[f.importPath]; ok { |
| // A go_package option in another file in the same package. |
| // |
| // This is a poor choice in general, since every source file should |
| // contain a go_package option. Supported mainly for historical |
| // compatibility. |
| f.packageName = p |
| } else if p := g.defaultGoPackage(); p != "" { |
| // Command-line: import_path=quux/bar. |
| // |
| // The import_path flag sets a package name for files which don't |
| // contain a go_package option. |
| f.packageName = p |
| } else if p := f.GetPackage(); p != "" { |
| // Source file: package quux.bar; |
| f.packageName = cleanPackageName(p) |
| } else { |
| // Source filename. |
| f.packageName = cleanPackageName(baseName(f.GetName())) |
| } |
| } |
| |
| // Check that all files have a consistent package name and import path. |
| for _, f := range g.genFiles[1:] { |
| if a, b := g.genFiles[0].importPath, f.importPath; a != b { |
| g.Fail(fmt.Sprintf("inconsistent package import paths: %v, %v", a, b)) |
| } |
| if a, b := g.genFiles[0].packageName, f.packageName; a != b { |
| g.Fail(fmt.Sprintf("inconsistent package names: %v, %v", a, b)) |
| } |
| } |
| |
| // Names of support packages. These never vary (if there are conflicts, |
| // we rename the conflicting package), so this could be removed someday. |
| g.Pkg = map[string]string{ |
| "fmt": "fmt", |
| "math": "math", |
| "proto": "proto", |
| } |
| } |
| |
| // WrapTypes walks the incoming data, wrapping DescriptorProtos, EnumDescriptorProtos |
| // and FileDescriptorProtos into file-referenced objects within the Generator. |
| // It also creates the list of files to generate and so should be called before GenerateAllFiles. |
| func (g *Generator) WrapTypes() { |
| g.allFiles = make([]*FileDescriptor, 0, len(g.Request.ProtoFile)) |
| g.allFilesByName = make(map[string]*FileDescriptor, len(g.allFiles)) |
| genFileNames := make(map[string]bool) |
| for _, n := range g.Request.FileToGenerate { |
| genFileNames[n] = true |
| } |
| for _, f := range g.Request.ProtoFile { |
| fd := &FileDescriptor{ |
| FileDescriptorProto: f, |
| exported: make(map[Object][]symbol), |
| proto3: fileIsProto3(f), |
| } |
| // The import path may be set in a number of ways. |
| if substitution, ok := g.ImportMap[f.GetName()]; ok { |
| // Command-line: M=foo.proto=quux/bar. |
| // |
| // Explicit mapping of source file to import path. |
| fd.importPath = GoImportPath(substitution) |
| } else if genFileNames[f.GetName()] && g.PackageImportPath != "" { |
| // Command-line: import_path=quux/bar. |
| // |
| // The import_path flag sets the import path for every file that |
| // we generate code for. |
| fd.importPath = GoImportPath(g.PackageImportPath) |
| } else if p, _, _ := fd.goPackageOption(); p != "" { |
| // Source file: option go_package = "quux/bar"; |
| // |
| // The go_package option sets the import path. Most users should use this. |
| fd.importPath = p |
| } else { |
| // Source filename. |
| // |
| // Last resort when nothing else is available. |
| fd.importPath = GoImportPath(path.Dir(f.GetName())) |
| } |
| // We must wrap the descriptors before we wrap the enums |
| fd.desc = wrapDescriptors(fd) |
| g.buildNestedDescriptors(fd.desc) |
| fd.enum = wrapEnumDescriptors(fd, fd.desc) |
| g.buildNestedEnums(fd.desc, fd.enum) |
| fd.ext = wrapExtensions(fd) |
| extractComments(fd) |
| g.allFiles = append(g.allFiles, fd) |
| g.allFilesByName[f.GetName()] = fd |
| } |
| for _, fd := range g.allFiles { |
| fd.imp = wrapImported(fd, g) |
| } |
| |
| g.genFiles = make([]*FileDescriptor, 0, len(g.Request.FileToGenerate)) |
| for _, fileName := range g.Request.FileToGenerate { |
| fd := g.allFilesByName[fileName] |
| if fd == nil { |
| g.Fail("could not find file named", fileName) |
| } |
| g.genFiles = append(g.genFiles, fd) |
| } |
| } |
| |
| // Scan the descriptors in this file. For each one, build the slice of nested descriptors |
| func (g *Generator) buildNestedDescriptors(descs []*Descriptor) { |
| for _, desc := range descs { |
| if len(desc.NestedType) != 0 { |
| for _, nest := range descs { |
| if nest.parent == desc { |
| desc.nested = append(desc.nested, nest) |
| } |
| } |
| if len(desc.nested) != len(desc.NestedType) { |
| g.Fail("internal error: nesting failure for", desc.GetName()) |
| } |
| } |
| } |
| } |
| |
| func (g *Generator) buildNestedEnums(descs []*Descriptor, enums []*EnumDescriptor) { |
| for _, desc := range descs { |
| if len(desc.EnumType) != 0 { |
| for _, enum := range enums { |
| if enum.parent == desc { |
| desc.enums = append(desc.enums, enum) |
| } |
| } |
| if len(desc.enums) != len(desc.EnumType) { |
| g.Fail("internal error: enum nesting failure for", desc.GetName()) |
| } |
| } |
| } |
| } |
| |
| // Construct the Descriptor |
| func newDescriptor(desc *descriptor.DescriptorProto, parent *Descriptor, file *FileDescriptor, index int) *Descriptor { |
| d := &Descriptor{ |
| common: common{file}, |
| DescriptorProto: desc, |
| parent: parent, |
| index: index, |
| } |
| if parent == nil { |
| d.path = fmt.Sprintf("%d,%d", messagePath, index) |
| } else { |
| d.path = fmt.Sprintf("%s,%d,%d", parent.path, messageMessagePath, index) |
| } |
| |
| // The only way to distinguish a group from a message is whether |
| // the containing message has a TYPE_GROUP field that matches. |
| if parent != nil { |
| parts := d.TypeName() |
| if file.Package != nil { |
| parts = append([]string{*file.Package}, parts...) |
| } |
| exp := "." + strings.Join(parts, ".") |
| for _, field := range parent.Field { |
| if field.GetType() == descriptor.FieldDescriptorProto_TYPE_GROUP && field.GetTypeName() == exp { |
| d.group = true |
| break |
| } |
| } |
| } |
| |
| for _, field := range desc.Extension { |
| d.ext = append(d.ext, &ExtensionDescriptor{common{file}, field, d}) |
| } |
| |
| return d |
| } |
| |
| // Return a slice of all the Descriptors defined within this file |
| func wrapDescriptors(file *FileDescriptor) []*Descriptor { |
| sl := make([]*Descriptor, 0, len(file.MessageType)+10) |
| for i, desc := range file.MessageType { |
| sl = wrapThisDescriptor(sl, desc, nil, file, i) |
| } |
| return sl |
| } |
| |
| // Wrap this Descriptor, recursively |
| func wrapThisDescriptor(sl []*Descriptor, desc *descriptor.DescriptorProto, parent *Descriptor, file *FileDescriptor, index int) []*Descriptor { |
| sl = append(sl, newDescriptor(desc, parent, file, index)) |
| me := sl[len(sl)-1] |
| for i, nested := range desc.NestedType { |
| sl = wrapThisDescriptor(sl, nested, me, file, i) |
| } |
| return sl |
| } |
| |
| // Construct the EnumDescriptor |
| func newEnumDescriptor(desc *descriptor.EnumDescriptorProto, parent *Descriptor, file *FileDescriptor, index int) *EnumDescriptor { |
| ed := &EnumDescriptor{ |
| common: common{file}, |
| EnumDescriptorProto: desc, |
| parent: parent, |
| index: index, |
| } |
| if parent == nil { |
| ed.path = fmt.Sprintf("%d,%d", enumPath, index) |
| } else { |
| ed.path = fmt.Sprintf("%s,%d,%d", parent.path, messageEnumPath, index) |
| } |
| return ed |
| } |
| |
| // Return a slice of all the EnumDescriptors defined within this file |
| func wrapEnumDescriptors(file *FileDescriptor, descs []*Descriptor) []*EnumDescriptor { |
| sl := make([]*EnumDescriptor, 0, len(file.EnumType)+10) |
| // Top-level enums. |
| for i, enum := range file.EnumType { |
| sl = append(sl, newEnumDescriptor(enum, nil, file, i)) |
| } |
| // Enums within messages. Enums within embedded messages appear in the outer-most message. |
| for _, nested := range descs { |
| for i, enum := range nested.EnumType { |
| sl = append(sl, newEnumDescriptor(enum, nested, file, i)) |
| } |
| } |
| return sl |
| } |
| |
| // Return a slice of all the top-level ExtensionDescriptors defined within this file. |
| func wrapExtensions(file *FileDescriptor) []*ExtensionDescriptor { |
| var sl []*ExtensionDescriptor |
| for _, field := range file.Extension { |
| sl = append(sl, &ExtensionDescriptor{common{file}, field, nil}) |
| } |
| return sl |
| } |
| |
| // Return a slice of all the types that are publicly imported into this file. |
| func wrapImported(file *FileDescriptor, g *Generator) (sl []*ImportedDescriptor) { |
| for _, index := range file.PublicDependency { |
| df := g.fileByName(file.Dependency[index]) |
| for _, d := range df.desc { |
| if d.GetOptions().GetMapEntry() { |
| continue |
| } |
| sl = append(sl, &ImportedDescriptor{common{file}, d}) |
| } |
| for _, e := range df.enum { |
| sl = append(sl, &ImportedDescriptor{common{file}, e}) |
| } |
| for _, ext := range df.ext { |
| sl = append(sl, &ImportedDescriptor{common{file}, ext}) |
| } |
| } |
| return |
| } |
| |
| func extractComments(file *FileDescriptor) { |
| file.comments = make(map[string]*descriptor.SourceCodeInfo_Location) |
| for _, loc := range file.GetSourceCodeInfo().GetLocation() { |
| if loc.LeadingComments == nil { |
| continue |
| } |
| var p []string |
| for _, n := range loc.Path { |
| p = append(p, strconv.Itoa(int(n))) |
| } |
| file.comments[strings.Join(p, ",")] = loc |
| } |
| } |
| |
| // BuildTypeNameMap builds the map from fully qualified type names to objects. |
| // The key names for the map come from the input data, which puts a period at the beginning. |
| // It should be called after SetPackageNames and before GenerateAllFiles. |
| func (g *Generator) BuildTypeNameMap() { |
| g.typeNameToObject = make(map[string]Object) |
| for _, f := range g.allFiles { |
| // The names in this loop are defined by the proto world, not us, so the |
| // package name may be empty. If so, the dotted package name of X will |
| // be ".X"; otherwise it will be ".pkg.X". |
| dottedPkg := "." + f.GetPackage() |
| if dottedPkg != "." { |
| dottedPkg += "." |
| } |
| for _, enum := range f.enum { |
| name := dottedPkg + dottedSlice(enum.TypeName()) |
| g.typeNameToObject[name] = enum |
| } |
| for _, desc := range f.desc { |
| name := dottedPkg + dottedSlice(desc.TypeName()) |
| g.typeNameToObject[name] = desc |
| } |
| } |
| } |
| |
| // ObjectNamed, given a fully-qualified input type name as it appears in the input data, |
| // returns the descriptor for the message or enum with that name. |
| func (g *Generator) ObjectNamed(typeName string) Object { |
| o, ok := g.typeNameToObject[typeName] |
| if !ok { |
| g.Fail("can't find object with type", typeName) |
| } |
| return o |
| } |
| |
| // AnnotatedAtoms is a list of atoms (as consumed by P) that records the file name and proto AST path from which they originated. |
| type AnnotatedAtoms struct { |
| source string |
| path string |
| atoms []interface{} |
| } |
| |
| // Annotate records the file name and proto AST path of a list of atoms |
| // so that a later call to P can emit a link from each atom to its origin. |
| func Annotate(file *FileDescriptor, path string, atoms ...interface{}) *AnnotatedAtoms { |
| return &AnnotatedAtoms{source: *file.Name, path: path, atoms: atoms} |
| } |
| |
| // printAtom prints the (atomic, non-annotation) argument to the generated output. |
| func (g *Generator) printAtom(v interface{}) { |
| switch v := v.(type) { |
| case string: |
| g.WriteString(v) |
| case *string: |
| g.WriteString(*v) |
| case bool: |
| fmt.Fprint(g, v) |
| case *bool: |
| fmt.Fprint(g, *v) |
| case int: |
| fmt.Fprint(g, v) |
| case *int32: |
| fmt.Fprint(g, *v) |
| case *int64: |
| fmt.Fprint(g, *v) |
| case float64: |
| fmt.Fprint(g, v) |
| case *float64: |
| fmt.Fprint(g, *v) |
| case GoPackageName: |
| g.WriteString(string(v)) |
| case GoImportPath: |
| g.WriteString(strconv.Quote(string(v))) |
| default: |
| g.Fail(fmt.Sprintf("unknown type in printer: %T", v)) |
| } |
| } |
| |
| // P prints the arguments to the generated output. It handles strings and int32s, plus |
| // handling indirections because they may be *string, etc. Any inputs of type AnnotatedAtoms may emit |
| // annotations in a .meta file in addition to outputting the atoms themselves (if g.annotateCode |
| // is true). |
| func (g *Generator) P(str ...interface{}) { |
| if !g.writeOutput { |
| return |
| } |
| g.WriteString(g.indent) |
| for _, v := range str { |
| switch v := v.(type) { |
| case *AnnotatedAtoms: |
| begin := int32(g.Len()) |
| for _, v := range v.atoms { |
| g.printAtom(v) |
| } |
| if g.annotateCode { |
| end := int32(g.Len()) |
| var path []int32 |
| for _, token := range strings.Split(v.path, ",") { |
| val, err := strconv.ParseInt(token, 10, 32) |
| if err != nil { |
| g.Fail("could not parse proto AST path: ", err.Error()) |
| } |
| path = append(path, int32(val)) |
| } |
| g.annotations = append(g.annotations, &descriptor.GeneratedCodeInfo_Annotation{ |
| Path: path, |
| SourceFile: &v.source, |
| Begin: &begin, |
| End: &end, |
| }) |
| } |
| default: |
| g.printAtom(v) |
| } |
| } |
| g.WriteByte('\n') |
| } |
| |
| // addInitf stores the given statement to be printed inside the file's init function. |
| // The statement is given as a format specifier and arguments. |
| func (g *Generator) addInitf(stmt string, a ...interface{}) { |
| g.init = append(g.init, fmt.Sprintf(stmt, a...)) |
| } |
| |
| // In Indents the output one tab stop. |
| func (g *Generator) In() { g.indent += "\t" } |
| |
| // Out unindents the output one tab stop. |
| func (g *Generator) Out() { |
| if len(g.indent) > 0 { |
| g.indent = g.indent[1:] |
| } |
| } |
| |
| // GenerateAllFiles generates the output for all the files we're outputting. |
| func (g *Generator) GenerateAllFiles() { |
| // Initialize the plugins |
| for _, p := range plugins { |
| p.Init(g) |
| } |
| // Generate the output. The generator runs for every file, even the files |
| // that we don't generate output for, so that we can collate the full list |
| // of exported symbols to support public imports. |
| genFileMap := make(map[*FileDescriptor]bool, len(g.genFiles)) |
| for _, file := range g.genFiles { |
| genFileMap[file] = true |
| } |
| for _, file := range g.allFiles { |
| g.Reset() |
| g.annotations = nil |
| g.writeOutput = genFileMap[file] |
| g.generate(file) |
| if !g.writeOutput { |
| continue |
| } |
| fname := file.goFileName(g.pathType) |
| g.Response.File = append(g.Response.File, &plugin.CodeGeneratorResponse_File{ |
| Name: proto.String(fname), |
| Content: proto.String(g.String()), |
| }) |
| if g.annotateCode { |
| // Store the generated code annotations in text, as the protoc plugin protocol requires that |
| // strings contain valid UTF-8. |
| g.Response.File = append(g.Response.File, &plugin.CodeGeneratorResponse_File{ |
| Name: proto.String(file.goFileName(g.pathType) + ".meta"), |
| Content: proto.String(proto.CompactTextString(&descriptor.GeneratedCodeInfo{Annotation: g.annotations})), |
| }) |
| } |
| } |
| } |
| |
| // Run all the plugins associated with the file. |
| func (g *Generator) runPlugins(file *FileDescriptor) { |
| for _, p := range plugins { |
| p.Generate(file) |
| } |
| } |
| |
| // Fill the response protocol buffer with the generated output for all the files we're |
| // supposed to generate. |
| func (g *Generator) generate(file *FileDescriptor) { |
| g.file = file |
| g.usedPackages = make(map[GoImportPath]bool) |
| g.packageNames = make(map[GoImportPath]GoPackageName) |
| g.usedPackageNames = make(map[GoPackageName]bool) |
| g.addedImports = make(map[GoImportPath]bool) |
| for name := range globalPackageNames { |
| g.usedPackageNames[name] = true |
| } |
| |
| g.P("// This is a compile-time assertion to ensure that this generated file") |
| g.P("// is compatible with the proto package it is being compiled against.") |
| g.P("// A compilation error at this line likely means your copy of the") |
| g.P("// proto package needs to be updated.") |
| g.P("const _ = ", g.Pkg["proto"], ".ProtoPackageIsVersion", generatedCodeVersion, " // please upgrade the proto package") |
| g.P() |
| |
| for _, td := range g.file.imp { |
| g.generateImported(td) |
| } |
| for _, enum := range g.file.enum { |
| g.generateEnum(enum) |
| } |
| for _, desc := range g.file.desc { |
| // Don't generate virtual messages for maps. |
| if desc.GetOptions().GetMapEntry() { |
| continue |
| } |
| g.generateMessage(desc) |
| } |
| for _, ext := range g.file.ext { |
| g.generateExtension(ext) |
| } |
| g.generateInitFunction() |
| g.generateFileDescriptor(file) |
| |
| // Run the plugins before the imports so we know which imports are necessary. |
| g.runPlugins(file) |
| |
| // Generate header and imports last, though they appear first in the output. |
| rem := g.Buffer |
| remAnno := g.annotations |
| g.Buffer = new(bytes.Buffer) |
| g.annotations = nil |
| g.generateHeader() |
| g.generateImports() |
| if !g.writeOutput { |
| return |
| } |
| // Adjust the offsets for annotations displaced by the header and imports. |
| for _, anno := range remAnno { |
| *anno.Begin += int32(g.Len()) |
| *anno.End += int32(g.Len()) |
| g.annotations = append(g.annotations, anno) |
| } |
| g.Write(rem.Bytes()) |
| |
| // Reformat generated code and patch annotation locations. |
| fset := token.NewFileSet() |
| original := g.Bytes() |
| if g.annotateCode { |
| // make a copy independent of g; we'll need it after Reset. |
| original = append([]byte(nil), original...) |
| } |
| fileAST, err := parser.ParseFile(fset, "", original, parser.ParseComments) |
| if err != nil { |
| // Print out the bad code with line numbers. |
| // This should never happen in practice, but it can while changing generated code, |
| // so consider this a debugging aid. |
| var src bytes.Buffer |
| s := bufio.NewScanner(bytes.NewReader(original)) |
| for line := 1; s.Scan(); line++ { |
| fmt.Fprintf(&src, "%5d\t%s\n", line, s.Bytes()) |
| } |
| g.Fail("bad Go source code was generated:", err.Error(), "\n"+src.String()) |
| } |
| ast.SortImports(fset, fileAST) |
| g.Reset() |
| err = (&printer.Config{Mode: printer.TabIndent | printer.UseSpaces, Tabwidth: 8}).Fprint(g, fset, fileAST) |
| if err != nil { |
| g.Fail("generated Go source code could not be reformatted:", err.Error()) |
| } |
| if g.annotateCode { |
| m, err := remap.Compute(original, g.Bytes()) |
| if err != nil { |
| g.Fail("formatted generated Go source code could not be mapped back to the original code:", err.Error()) |
| } |
| for _, anno := range g.annotations { |
| new, ok := m.Find(int(*anno.Begin), int(*anno.End)) |
| if !ok { |
| g.Fail("span in formatted generated Go source code could not be mapped back to the original code") |
| } |
| *anno.Begin = int32(new.Pos) |
| *anno.End = int32(new.End) |
| } |
| } |
| } |
| |
| // Generate the header, including package definition |
| func (g *Generator) generateHeader() { |
| g.P("// Code generated by protoc-gen-go. DO NOT EDIT.") |
| if g.file.GetOptions().GetDeprecated() { |
| g.P("// ", g.file.Name, " is a deprecated file.") |
| } else { |
| g.P("// source: ", g.file.Name) |
| } |
| g.P() |
| g.PrintComments(strconv.Itoa(packagePath)) |
| g.P() |
| g.P("package ", g.file.packageName) |
| g.P() |
| } |
| |
| // deprecationComment is the standard comment added to deprecated |
| // messages, fields, enums, and enum values. |
| var deprecationComment = "// Deprecated: Do not use." |
| |
| // PrintComments prints any comments from the source .proto file. |
| // The path is a comma-separated list of integers. |
| // It returns an indication of whether any comments were printed. |
| // See descriptor.proto for its format. |
| func (g *Generator) PrintComments(path string) bool { |
| if !g.writeOutput { |
| return false |
| } |
| if c, ok := g.makeComments(path); ok { |
| g.P(c) |
| return true |
| } |
| return false |
| } |
| |
| // makeComments generates the comment string for the field, no "\n" at the end |
| func (g *Generator) makeComments(path string) (string, bool) { |
| loc, ok := g.file.comments[path] |
| if !ok { |
| return "", false |
| } |
| w := new(bytes.Buffer) |
| nl := "" |
| for _, line := range strings.Split(strings.TrimSuffix(loc.GetLeadingComments(), "\n"), "\n") { |
| fmt.Fprintf(w, "%s//%s", nl, line) |
| nl = "\n" |
| } |
| return w.String(), true |
| } |
| |
| func (g *Generator) fileByName(filename string) *FileDescriptor { |
| return g.allFilesByName[filename] |
| } |
| |
| // weak returns whether the ith import of the current file is a weak import. |
| func (g *Generator) weak(i int32) bool { |
| for _, j := range g.file.WeakDependency { |
| if j == i { |
| return true |
| } |
| } |
| return false |
| } |
| |
| // Generate the imports |
| func (g *Generator) generateImports() { |
| imports := make(map[GoImportPath]GoPackageName) |
| for i, s := range g.file.Dependency { |
| fd := g.fileByName(s) |
| importPath := fd.importPath |
| // Do not import our own package. |
| if importPath == g.file.importPath { |
| continue |
| } |
| // Do not import weak imports. |
| if g.weak(int32(i)) { |
| continue |
| } |
| // Do not import a package twice. |
| if _, ok := imports[importPath]; ok { |
| continue |
| } |
| // We need to import all the dependencies, even if we don't reference them, |
| // because other code and tools depend on having the full transitive closure |
| // of protocol buffer types in the binary. |
| packageName := g.GoPackageName(importPath) |
| if _, ok := g.usedPackages[importPath]; !ok { |
| packageName = "_" |
| } |
| imports[importPath] = packageName |
| } |
| for importPath := range g.addedImports { |
| imports[importPath] = g.GoPackageName(importPath) |
| } |
| // We almost always need a proto import. Rather than computing when we |
| // do, which is tricky when there's a plugin, just import it and |
| // reference it later. The same argument applies to the fmt and math packages. |
| g.P("import (") |
| g.P(g.Pkg["fmt"] + ` "fmt"`) |
| g.P(g.Pkg["math"] + ` "math"`) |
| g.P(g.Pkg["proto"]+" ", GoImportPath(g.ImportPrefix)+"github.com/golang/protobuf/proto") |
| for importPath, packageName := range imports { |
| g.P(packageName, " ", GoImportPath(g.ImportPrefix)+importPath) |
| } |
| g.P(")") |
| g.P() |
| // TODO: may need to worry about uniqueness across plugins |
| for _, p := range plugins { |
| p.GenerateImports(g.file) |
| g.P() |
| } |
| g.P("// Reference imports to suppress errors if they are not otherwise used.") |
| g.P("var _ = ", g.Pkg["proto"], ".Marshal") |
| g.P("var _ = ", g.Pkg["fmt"], ".Errorf") |
| g.P("var _ = ", g.Pkg["math"], ".Inf") |
| g.P() |
| } |
| |
| func (g *Generator) generateImported(id *ImportedDescriptor) { |
| df := id.o.File() |
| filename := *df.Name |
| if df.importPath == g.file.importPath { |
| // Don't generate type aliases for files in the same Go package as this one. |
| return |
| } |
| if !supportTypeAliases { |
| g.Fail(fmt.Sprintf("%s: public imports require at least go1.9", filename)) |
| } |
| g.usedPackages[df.importPath] = true |
| |
| for _, sym := range df.exported[id.o] { |
| sym.GenerateAlias(g, filename, g.GoPackageName(df.importPath)) |
| } |
| |
| g.P() |
| } |
| |
| // Generate the enum definitions for this EnumDescriptor. |
| func (g *Generator) generateEnum(enum *EnumDescriptor) { |
| // The full type name |
| typeName := enum.TypeName() |
| // The full type name, CamelCased. |
| ccTypeName := CamelCaseSlice(typeName) |
| ccPrefix := enum.prefix() |
| |
| deprecatedEnum := "" |
| if enum.GetOptions().GetDeprecated() { |
| deprecatedEnum = deprecationComment |
| } |
| g.PrintComments(enum.path) |
| g.P("type ", Annotate(enum.file, enum.path, ccTypeName), " int32", deprecatedEnum) |
| g.file.addExport(enum, enumSymbol{ccTypeName, enum.proto3()}) |
| g.P("const (") |
| for i, e := range enum.Value { |
| etorPath := fmt.Sprintf("%s,%d,%d", enum.path, enumValuePath, i) |
| g.PrintComments(etorPath) |
| |
| deprecatedValue := "" |
| if e.GetOptions().GetDeprecated() { |
| deprecatedValue = deprecationComment |
| } |
| |
| name := ccPrefix + *e.Name |
| g.P(Annotate(enum.file, etorPath, name), " ", ccTypeName, " = ", e.Number, " ", deprecatedValue) |
| g.file.addExport(enum, constOrVarSymbol{name, "const", ccTypeName}) |
| } |
| g.P(")") |
| g.P() |
| g.P("var ", ccTypeName, "_name = map[int32]string{") |
| generated := make(map[int32]bool) // avoid duplicate values |
| for _, e := range enum.Value { |
| duplicate := "" |
| if _, present := generated[*e.Number]; present { |
| duplicate = "// Duplicate value: " |
| } |
| g.P(duplicate, e.Number, ": ", strconv.Quote(*e.Name), ",") |
| generated[*e.Number] = true |
| } |
| g.P("}") |
| g.P() |
| g.P("var ", ccTypeName, "_value = map[string]int32{") |
| for _, e := range enum.Value { |
| g.P(strconv.Quote(*e.Name), ": ", e.Number, ",") |
| } |
| g.P("}") |
| g.P() |
| |
| if !enum.proto3() { |
| g.P("func (x ", ccTypeName, ") Enum() *", ccTypeName, " {") |
| g.P("p := new(", ccTypeName, ")") |
| g.P("*p = x") |
| g.P("return p") |
| g.P("}") |
| g.P() |
| } |
| |
| g.P("func (x ", ccTypeName, ") String() string {") |
| g.P("return ", g.Pkg["proto"], ".EnumName(", ccTypeName, "_name, int32(x))") |
| g.P("}") |
| g.P() |
| |
| if !enum.proto3() { |
| g.P("func (x *", ccTypeName, ") UnmarshalJSON(data []byte) error {") |
| g.P("value, err := ", g.Pkg["proto"], ".UnmarshalJSONEnum(", ccTypeName, `_value, data, "`, ccTypeName, `")`) |
| g.P("if err != nil {") |
| g.P("return err") |
| g.P("}") |
| g.P("*x = ", ccTypeName, "(value)") |
| g.P("return nil") |
| g.P("}") |
| g.P() |
| } |
| |
| var indexes []string |
| for m := enum.parent; m != nil; m = m.parent { |
| // XXX: skip groups? |
| indexes = append([]string{strconv.Itoa(m.index)}, indexes...) |
| } |
| indexes = append(indexes, strconv.Itoa(enum.index)) |
| g.P("func (", ccTypeName, ") EnumDescriptor() ([]byte, []int) {") |
| g.P("return ", g.file.VarName(), ", []int{", strings.Join(indexes, ", "), "}") |
| g.P("}") |
| g.P() |
| if enum.file.GetPackage() == "google.protobuf" && enum.GetName() == "NullValue" { |
| g.P("func (", ccTypeName, `) XXX_WellKnownType() string { return "`, enum.GetName(), `" }`) |
| g.P() |
| } |
| |
| g.generateEnumRegistration(enum) |
| } |
| |
| // The tag is a string like "varint,2,opt,name=fieldname,def=7" that |
| // identifies details of the field for the protocol buffer marshaling and unmarshaling |
| // code. The fields are: |
| // wire encoding |
| // protocol tag number |
| // opt,req,rep for optional, required, or repeated |
| // packed whether the encoding is "packed" (optional; repeated primitives only) |
| // name= the original declared name |
| // enum= the name of the enum type if it is an enum-typed field. |
| // proto3 if this field is in a proto3 message |
| // def= string representation of the default value, if any. |
| // The default value must be in a representation that can be used at run-time |
| // to generate the default value. Thus bools become 0 and 1, for instance. |
| func (g *Generator) goTag(message *Descriptor, field *descriptor.FieldDescriptorProto, wiretype string) string { |
| optrepreq := "" |
| switch { |
| case isOptional(field): |
| optrepreq = "opt" |
| case isRequired(field): |
| optrepreq = "req" |
| case isRepeated(field): |
| optrepreq = "rep" |
| } |
| var defaultValue string |
| if dv := field.DefaultValue; dv != nil { // set means an explicit default |
| defaultValue = *dv |
| // Some types need tweaking. |
| switch *field.Type { |
| case descriptor.FieldDescriptorProto_TYPE_BOOL: |
| if defaultValue == "true" { |
| defaultValue = "1" |
| } else { |
| defaultValue = "0" |
| } |
| case descriptor.FieldDescriptorProto_TYPE_STRING, |
| descriptor.FieldDescriptorProto_TYPE_BYTES: |
| // Nothing to do. Quoting is done for the whole tag. |
| case descriptor.FieldDescriptorProto_TYPE_ENUM: |
| // For enums we need to provide the integer constant. |
| obj := g.ObjectNamed(field.GetTypeName()) |
| if id, ok := obj.(*ImportedDescriptor); ok { |
| // It is an enum that was publicly imported. |
| // We need the underlying type. |
| obj = id.o |
| } |
| enum, ok := obj.(*EnumDescriptor) |
| if !ok { |
| log.Printf("obj is a %T", obj) |
| if id, ok := obj.(*ImportedDescriptor); ok { |
| log.Printf("id.o is a %T", id.o) |
| } |
| g.Fail("unknown enum type", CamelCaseSlice(obj.TypeName())) |
| } |
| defaultValue = enum.integerValueAsString(defaultValue) |
| case descriptor.FieldDescriptorProto_TYPE_FLOAT: |
| if def := defaultValue; def != "inf" && def != "-inf" && def != "nan" { |
| if f, err := strconv.ParseFloat(defaultValue, 32); err == nil { |
| defaultValue = fmt.Sprint(float32(f)) |
| } |
| } |
| case descriptor.FieldDescriptorProto_TYPE_DOUBLE: |
| if def := defaultValue; def != "inf" && def != "-inf" && def != "nan" { |
| if f, err := strconv.ParseFloat(defaultValue, 64); err == nil { |
| defaultValue = fmt.Sprint(f) |
| } |
| } |
| } |
| defaultValue = ",def=" + defaultValue |
| } |
| enum := "" |
| if *field.Type == descriptor.FieldDescriptorProto_TYPE_ENUM { |
| // We avoid using obj.GoPackageName(), because we want to use the |
| // original (proto-world) package name. |
| obj := g.ObjectNamed(field.GetTypeName()) |
| if id, ok := obj.(*ImportedDescriptor); ok { |
| obj = id.o |
| } |
| enum = ",enum=" |
| if pkg := obj.File().GetPackage(); pkg != "" { |
| enum += pkg + "." |
| } |
| enum += CamelCaseSlice(obj.TypeName()) |
| } |
| packed := "" |
| if (field.Options != nil && field.Options.GetPacked()) || |
| // Per https://developers.google.com/protocol-buffers/docs/proto3#simple: |
| // "In proto3, repeated fields of scalar numeric types use packed encoding by default." |
| (message.proto3() && (field.Options == nil || field.Options.Packed == nil) && |
| isRepeated(field) && isScalar(field)) { |
| packed = ",packed" |
| } |
| fieldName := field.GetName() |
| name := fieldName |
| if *field.Type == descriptor.FieldDescriptorProto_TYPE_GROUP { |
| // We must use the type name for groups instead of |
| // the field name to preserve capitalization. |
| // type_name in FieldDescriptorProto is fully-qualified, |
| // but we only want the local part. |
| name = *field.TypeName |
| if i := strings.LastIndex(name, "."); i >= 0 { |
| name = name[i+1:] |
| } |
| } |
| if json := field.GetJsonName(); field.Extendee == nil && json != "" && json != name { |
| // TODO: escaping might be needed, in which case |
| // perhaps this should be in its own "json" tag. |
| name += ",json=" + json |
| } |
| name = ",name=" + name |
| if message.proto3() { |
| name += ",proto3" |
| } |
| oneof := "" |
| if field.OneofIndex != nil { |
| oneof = ",oneof" |
| } |
| return strconv.Quote(fmt.Sprintf("%s,%d,%s%s%s%s%s%s", |
| wiretype, |
| field.GetNumber(), |
| optrepreq, |
| packed, |
| name, |
| enum, |
| oneof, |
| defaultValue)) |
| } |
| |
| func needsStar(typ descriptor.FieldDescriptorProto_Type) bool { |
| switch typ { |
| case descriptor.FieldDescriptorProto_TYPE_GROUP: |
| return false |
| case descriptor.FieldDescriptorProto_TYPE_MESSAGE: |
| return false |
| case descriptor.FieldDescriptorProto_TYPE_BYTES: |
| return false |
| } |
| return true |
| } |
| |
| // TypeName is the printed name appropriate for an item. If the object is in the current file, |
| // TypeName drops the package name and underscores the rest. |
| // Otherwise the object is from another package; and the result is the underscored |
| // package name followed by the item name. |
| // The result always has an initial capital. |
| func (g *Generator) TypeName(obj Object) string { |
| return g.DefaultPackageName(obj) + CamelCaseSlice(obj.TypeName()) |
| } |
| |
| // GoType returns a string representing the type name, and the wire type |
| func (g *Generator) GoType(message *Descriptor, field *descriptor.FieldDescriptorProto) (typ string, wire string) { |
| // TODO: Options. |
| switch *field.Type { |
| case descriptor.FieldDescriptorProto_TYPE_DOUBLE: |
| typ, wire = "float64", "fixed64" |
| case descriptor.FieldDescriptorProto_TYPE_FLOAT: |
| typ, wire = "float32", "fixed32" |
| case descriptor.FieldDescriptorProto_TYPE_INT64: |
| typ, wire = "int64", "varint" |
| case descriptor.FieldDescriptorProto_TYPE_UINT64: |
| typ, wire = "uint64", "varint" |
| case descriptor.FieldDescriptorProto_TYPE_INT32: |
| typ, wire = "int32", "varint" |
| case descriptor.FieldDescriptorProto_TYPE_UINT32: |
| typ, wire = "uint32", "varint" |
| case descriptor.FieldDescriptorProto_TYPE_FIXED64: |
| typ, wire = "uint64", "fixed64" |
| case descriptor.FieldDescriptorProto_TYPE_FIXED32: |
| typ, wire = "uint32", "fixed32" |
| case descriptor.FieldDescriptorProto_TYPE_BOOL: |
| typ, wire = "bool", "varint" |
| case descriptor.FieldDescriptorProto_TYPE_STRING: |
| typ, wire = "string", "bytes" |
| case descriptor.FieldDescriptorProto_TYPE_GROUP: |
| desc := g.ObjectNamed(field.GetTypeName()) |
| typ, wire = "*"+g.TypeName(desc), "group" |
| case descriptor.FieldDescriptorProto_TYPE_MESSAGE: |
| desc := g.ObjectNamed(field.GetTypeName()) |
| typ, wire = "*"+g.TypeName(desc), "bytes" |
| case descriptor.FieldDescriptorProto_TYPE_BYTES: |
| typ, wire = "[]byte", "bytes" |
| case descriptor.FieldDescriptorProto_TYPE_ENUM: |
| desc := g.ObjectNamed(field.GetTypeName()) |
| typ, wire = g.TypeName(desc), "varint" |
| case descriptor.FieldDescriptorProto_TYPE_SFIXED32: |
| typ, wire = "int32", "fixed32" |
| case descriptor.FieldDescriptorProto_TYPE_SFIXED64: |
| typ, wire = "int64", "fixed64" |
| case descriptor.FieldDescriptorProto_TYPE_SINT32: |
| typ, wire = "int32", "zigzag32" |
| case descriptor.FieldDescriptorProto_TYPE_SINT64: |
| typ, wire = "int64", "zigzag64" |
| default: |
| g.Fail("unknown type for", field.GetName()) |
| } |
| if isRepeated(field) { |
| typ = "[]" + typ |
| } else if message != nil && message.proto3() { |
| return |
| } else if field.OneofIndex != nil && message != nil { |
| return |
| } else if needsStar(*field.Type) { |
| typ = "*" + typ |
| } |
| return |
| } |
| |
| func (g *Generator) RecordTypeUse(t string) { |
| if _, ok := g.typeNameToObject[t]; !ok { |
| return |
| } |
| importPath := g.ObjectNamed(t).GoImportPath() |
| if importPath == g.outputImportPath { |
| // Don't record use of objects in our package. |
| return |
| } |
| g.AddImport(importPath) |
| g.usedPackages[importPath] = true |
| } |
| |
| // Method names that may be generated. Fields with these names get an |
| // underscore appended. Any change to this set is a potential incompatible |
| // API change because it changes generated field names. |
| var methodNames = [...]string{ |
| "Reset", |
| "String", |
| "ProtoMessage", |
| "Marshal", |
| "Unmarshal", |
| "ExtensionRangeArray", |
| "ExtensionMap", |
| "Descriptor", |
| } |
| |
| // Names of messages in the `google.protobuf` package for which |
| // we will generate XXX_WellKnownType methods. |
| var wellKnownTypes = map[string]bool{ |
| "Any": true, |
| "Duration": true, |
| "Empty": true, |
| "Struct": true, |
| "Timestamp": true, |
| |
| "Value": true, |
| "ListValue": true, |
| "DoubleValue": true, |
| "FloatValue": true, |
| "Int64Value": true, |
| "UInt64Value": true, |
| "Int32Value": true, |
| "UInt32Value": true, |
| "BoolValue": true, |
| "StringValue": true, |
| "BytesValue": true, |
| } |
| |
| // getterDefault finds the default value for the field to return from a getter, |
| // regardless of if it's a built in default or explicit from the source. Returns e.g. "nil", `""`, "Default_MessageType_FieldName" |
| func (g *Generator) getterDefault(field *descriptor.FieldDescriptorProto, goMessageType string) string { |
| if isRepeated(field) { |
| return "nil" |
| } |
| if def := field.GetDefaultValue(); def != "" { |
| defaultConstant := g.defaultConstantName(goMessageType, field.GetName()) |
| if *field.Type != descriptor.FieldDescriptorProto_TYPE_BYTES { |
| return defaultConstant |
| } |
| return "append([]byte(nil), " + defaultConstant + "...)" |
| } |
| switch *field.Type { |
| case descriptor.FieldDescriptorProto_TYPE_BOOL: |
| return "false" |
| case descriptor.FieldDescriptorProto_TYPE_STRING: |
| return `""` |
| case descriptor.FieldDescriptorProto_TYPE_GROUP, descriptor.FieldDescriptorProto_TYPE_MESSAGE, descriptor.FieldDescriptorProto_TYPE_BYTES: |
| return "nil" |
| case descriptor.FieldDescriptorProto_TYPE_ENUM: |
| obj := g.ObjectNamed(field.GetTypeName()) |
| var enum *EnumDescriptor |
| if id, ok := obj.(*ImportedDescriptor); ok { |
| // The enum type has been publicly imported. |
| enum, _ = id.o.(*EnumDescriptor) |
| } else { |
| enum, _ = obj.(*EnumDescriptor) |
| } |
| if enum == nil { |
| log.Printf("don't know how to generate getter for %s", field.GetName()) |
| return "nil" |
| } |
| if len(enum.Value) == 0 { |
| return "0 // empty enum" |
| } |
| first := enum.Value[0].GetName() |
| return g.DefaultPackageName(obj) + enum.prefix() + first |
| default: |
| return "0" |
| } |
| } |
| |
| // defaultConstantName builds the name of the default constant from the message |
| // type name and the untouched field name, e.g. "Default_MessageType_FieldName" |
| func (g *Generator) defaultConstantName(goMessageType, protoFieldName string) string { |
| return "Default_" + goMessageType + "_" + CamelCase(protoFieldName) |
| } |
| |
| // The different types of fields in a message and how to actually print them |
| // Most of the logic for generateMessage is in the methods of these types. |
| // |
| // Note that the content of the field is irrelevant, a simpleField can contain |
| // anything from a scalar to a group (which is just a message). |
| // |
| // Extension fields (and message sets) are however handled separately. |
| // |
| // simpleField - a field that is neiter weak nor oneof, possibly repeated |
| // oneofField - field containing list of subfields: |
| // - oneofSubField - a field within the oneof |
| |
| // msgCtx contains the context for the generator functions. |
| type msgCtx struct { |
| goName string // Go struct name of the message, e.g. MessageName |
| message *Descriptor // The descriptor for the message |
| } |
| |
| // fieldCommon contains data common to all types of fields. |
| type fieldCommon struct { |
| goName string // Go name of field, e.g. "FieldName" or "Descriptor_" |
| protoName string // Name of field in proto language, e.g. "field_name" or "descriptor" |
| getterName string // Name of the getter, e.g. "GetFieldName" or "GetDescriptor_" |
| goType string // The Go type as a string, e.g. "*int32" or "*OtherMessage" |
| tags string // The tag string/annotation for the type, e.g. `protobuf:"varint,8,opt,name=region_id,json=regionId"` |
| fullPath string // The full path of the field as used by Annotate etc, e.g. "4,0,2,0" |
| } |
| |
| // getProtoName gets the proto name of a field, e.g. "field_name" or "descriptor". |
| func (f *fieldCommon) getProtoName() string { |
| return f.protoName |
| } |
| |
| // getGoType returns the go type of the field as a string, e.g. "*int32". |
| func (f *fieldCommon) getGoType() string { |
| return f.goType |
| } |
| |
| // simpleField is not weak, not a oneof, not an extension. Can be required, optional or repeated. |
| type simpleField struct { |
| fieldCommon |
| protoTypeName string // Proto type name, empty if primitive, e.g. ".google.protobuf.Duration" |
| protoType descriptor.FieldDescriptorProto_Type // Actual type enum value, e.g. descriptor.FieldDescriptorProto_TYPE_FIXED64 |
| deprecated string // Deprecation comment, if any, e.g. "// Deprecated: Do not use." |
| getterDef string // Default for getters, e.g. "nil", `""` or "Default_MessageType_FieldName" |
| protoDef string // Default value as defined in the proto file, e.g "yoshi" or "5" |
| comment string // The full comment for the field, e.g. "// Useful information" |
| } |
| |
| // decl prints the declaration of the field in the struct (if any). |
| func (f *simpleField) decl(g *Generator, mc *msgCtx) { |
| g.P(f.comment, Annotate(mc.message.file, f.fullPath, f.goName), "\t", f.goType, "\t`", f.tags, "`", f.deprecated) |
| } |
| |
| // getter prints the getter for the field. |
| func (f *simpleField) getter(g *Generator, mc *msgCtx) { |
| star := "" |
| tname := f.goType |
| if needsStar(f.protoType) && tname[0] == '*' { |
| tname = tname[1:] |
| star = "*" |
| } |
| if f.deprecated != "" { |
| g.P(f.deprecated) |
| } |
| g.P("func (m *", mc.goName, ") ", Annotate(mc.message.file, f.fullPath, f.getterName), "() "+tname+" {") |
| if f.getterDef == "nil" { // Simpler getter |
| g.P("if m != nil {") |
| g.P("return m." + f.goName) |
| g.P("}") |
| g.P("return nil") |
| g.P("}") |
| g.P() |
| return |
| } |
| if mc.message.proto3() { |
| g.P("if m != nil {") |
| } else { |
| g.P("if m != nil && m." + f.goName + " != nil {") |
| } |
| g.P("return " + star + "m." + f.goName) |
| g.P("}") |
| g.P("return ", f.getterDef) |
| g.P("}") |
| g.P() |
| } |
| |
| // setter prints the setter method of the field. |
| func (f *simpleField) setter(g *Generator, mc *msgCtx) { |
| // No setter for regular fields yet |
| } |
| |
| // getProtoDef returns the default value explicitly stated in the proto file, e.g "yoshi" or "5". |
| func (f *simpleField) getProtoDef() string { |
| return f.protoDef |
| } |
| |
| // getProtoTypeName returns the protobuf type name for the field as returned by field.GetTypeName(), e.g. ".google.protobuf.Duration". |
| func (f *simpleField) getProtoTypeName() string { |
| return f.protoTypeName |
| } |
| |
| // getProtoType returns the *field.Type value, e.g. descriptor.FieldDescriptorProto_TYPE_FIXED64. |
| func (f *simpleField) getProtoType() descriptor.FieldDescriptorProto_Type { |
| return f.protoType |
| } |
| |
| // oneofSubFields are kept slize held by each oneofField. They do not appear in the top level slize of fields for the message. |
| type oneofSubField struct { |
| fieldCommon |
| protoTypeName string // Proto type name, empty if primitive, e.g. ".google.protobuf.Duration" |
| protoType descriptor.FieldDescriptorProto_Type // Actual type enum value, e.g. descriptor.FieldDescriptorProto_TYPE_FIXED64 |
| oneofTypeName string // Type name of the enclosing struct, e.g. "MessageName_FieldName" |
| fieldNumber int // Actual field number, as defined in proto, e.g. 12 |
| getterDef string // Default for getters, e.g. "nil", `""` or "Default_MessageType_FieldName" |
| protoDef string // Default value as defined in the proto file, e.g "yoshi" or "5" |
| deprecated string // Deprecation comment, if any. |
| } |
| |
| // typedNil prints a nil casted to the pointer to this field. |
| // - for XXX_OneofWrappers |
| func (f *oneofSubField) typedNil(g *Generator) { |
| g.P("(*", f.oneofTypeName, ")(nil),") |
| } |
| |
| // getProtoDef returns the default value explicitly stated in the proto file, e.g "yoshi" or "5". |
| func (f *oneofSubField) getProtoDef() string { |
| return f.protoDef |
| } |
| |
| // getProtoTypeName returns the protobuf type name for the field as returned by field.GetTypeName(), e.g. ".google.protobuf.Duration". |
| func (f *oneofSubField) getProtoTypeName() string { |
| return f.protoTypeName |
| } |
| |
| // getProtoType returns the *field.Type value, e.g. descriptor.FieldDescriptorProto_TYPE_FIXED64. |
| func (f *oneofSubField) getProtoType() descriptor.FieldDescriptorProto_Type { |
| return f.protoType |
| } |
| |
| // oneofField represents the oneof on top level. |
| // The alternative fields within the oneof are represented by oneofSubField. |
| type oneofField struct { |
| fieldCommon |
| subFields []*oneofSubField // All the possible oneof fields |
| comment string // The full comment for the field, e.g. "// Types that are valid to be assigned to MyOneof:\n\\" |
| } |
| |
| // decl prints the declaration of the field in the struct (if any). |
| func (f *oneofField) decl(g *Generator, mc *msgCtx) { |
| comment := f.comment |
| for _, sf := range f.subFields { |
| comment += "//\t*" + sf.oneofTypeName + "\n" |
| } |
| g.P(comment, Annotate(mc.message.file, f.fullPath, f.goName), " ", f.goType, " `", f.tags, "`") |
| } |
| |
| // getter for a oneof field will print additional discriminators and interfaces for the oneof, |
| // also it prints all the getters for the sub fields. |
| func (f *oneofField) getter(g *Generator, mc *msgCtx) { |
| // The discriminator type |
| g.P("type ", f.goType, " interface {") |
| g.P(f.goType, "()") |
| g.P("}") |
| g.P() |
| // The subField types, fulfilling the discriminator type contract |
| for _, sf := range f.subFields { |
| g.P("type ", Annotate(mc.message.file, sf.fullPath, sf.oneofTypeName), " struct {") |
| g.P(Annotate(mc.message.file, sf.fullPath, sf.goName), " ", sf.goType, " `", sf.tags, "`") |
| g.P("}") |
| g.P() |
| } |
| for _, sf := range f.subFields { |
| g.P("func (*", sf.oneofTypeName, ") ", f.goType, "() {}") |
| g.P() |
| } |
| // Getter for the oneof field |
| g.P("func (m *", mc.goName, ") ", Annotate(mc.message.file, f.fullPath, f.getterName), "() ", f.goType, " {") |
| g.P("if m != nil { return m.", f.goName, " }") |
| g.P("return nil") |
| g.P("}") |
| g.P() |
| // Getters for each oneof |
| for _, sf := range f.subFields { |
| if sf.deprecated != "" { |
| g.P(sf.deprecated) |
| } |
| g.P("func (m *", mc.goName, ") ", Annotate(mc.message.file, sf.fullPath, sf.getterName), "() "+sf.goType+" {") |
| g.P("if x, ok := m.", f.getterName, "().(*", sf.oneofTypeName, "); ok {") |
| g.P("return x.", sf.goName) |
| g.P("}") |
| g.P("return ", sf.getterDef) |
| g.P("}") |
| g.P() |
| } |
| } |
| |
| // setter prints the setter method of the field. |
| func (f *oneofField) setter(g *Generator, mc *msgCtx) { |
| // No setters for oneof yet |
| } |
| |
| // topLevelField interface implemented by all types of fields on the top level (not oneofSubField). |
| type topLevelField interface { |
| decl(g *Generator, mc *msgCtx) // print declaration within the struct |
| getter(g *Generator, mc *msgCtx) // print getter |
| setter(g *Generator, mc *msgCtx) // print setter if applicable |
| } |
| |
| // defField interface implemented by all types of fields that can have defaults (not oneofField, but instead oneofSubField). |
| type defField interface { |
| getProtoDef() string // default value explicitly stated in the proto file, e.g "yoshi" or "5" |
| getProtoName() string // proto name of a field, e.g. "field_name" or "descriptor" |
| getGoType() string // go type of the field as a string, e.g. "*int32" |
| getProtoTypeName() string // protobuf type name for the field, e.g. ".google.protobuf.Duration" |
| getProtoType() descriptor.FieldDescriptorProto_Type // *field.Type value, e.g. descriptor.FieldDescriptorProto_TYPE_FIXED64 |
| } |
| |
| // generateDefaultConstants adds constants for default values if needed, which is only if the default value is. |
| // explicit in the proto. |
| func (g *Generator) generateDefaultConstants(mc *msgCtx, topLevelFields []topLevelField) { |
| // Collect fields that can have defaults |
| dFields := []defField{} |
| for _, pf := range topLevelFields { |
| if f, ok := pf.(*oneofField); ok { |
| for _, osf := range f.subFields { |
| dFields = append(dFields, osf) |
| } |
| continue |
| } |
| dFields = append(dFields, pf.(defField)) |
| } |
| for _, df := range dFields { |
| def := df.getProtoDef() |
| if def == "" { |
| continue |
| } |
| fieldname := g.defaultConstantName(mc.goName, df.getProtoName()) |
| typename := df.getGoType() |
| if typename[0] == '*' { |
| typename = typename[1:] |
| } |
| kind := "const " |
| switch { |
| case typename == "bool": |
| case typename == "string": |
| def = strconv.Quote(def) |
| case typename == "[]byte": |
| def = "[]byte(" + strconv.Quote(unescape(def)) + ")" |
| kind = "var " |
| case def == "inf", def == "-inf", def == "nan": |
| // These names are known to, and defined by, the protocol language. |
| switch def { |
| case "inf": |
| def = "math.Inf(1)" |
| case "-inf": |
| def = "math.Inf(-1)" |
| case "nan": |
| def = "math.NaN()" |
| } |
| if df.getProtoType() == descriptor.FieldDescriptorProto_TYPE_FLOAT { |
| def = "float32(" + def + ")" |
| } |
| kind = "var " |
| case df.getProtoType() == descriptor.FieldDescriptorProto_TYPE_FLOAT: |
| if f, err := strconv.ParseFloat(def, 32); err == nil { |
| def = fmt.Sprint(float32(f)) |
| } |
| case df.getProtoType() == descriptor.FieldDescriptorProto_TYPE_DOUBLE: |
| if f, err := strconv.ParseFloat(def, 64); err == nil { |
| def = fmt.Sprint(f) |
| } |
| case df.getProtoType() == descriptor.FieldDescriptorProto_TYPE_ENUM: |
| // Must be an enum. Need to construct the prefixed name. |
| obj := g.ObjectNamed(df.getProtoTypeName()) |
| var enum *EnumDescriptor |
| if id, ok := obj.(*ImportedDescriptor); ok { |
| // The enum type has been publicly imported. |
| enum, _ = id.o.(*EnumDescriptor) |
| } else { |
| enum, _ = obj.(*EnumDescriptor) |
| } |
| if enum == nil { |
| log.Printf("don't know how to generate constant for %s", fieldname) |
| continue |
| } |
| def = g.DefaultPackageName(obj) + enum.prefix() + def |
| } |
| g.P(kind, fieldname, " ", typename, " = ", def) |
| g.file.addExport(mc.message, constOrVarSymbol{fieldname, kind, ""}) |
| } |
| g.P() |
| } |
| |
| // generateInternalStructFields just adds the XXX_<something> fields to the message struct. |
| func (g *Generator) generateInternalStructFields(mc *msgCtx, topLevelFields []topLevelField) { |
| g.P("XXX_NoUnkeyedLiteral\tstruct{} `json:\"-\"`") // prevent unkeyed struct literals |
| if len(mc.message.ExtensionRange) > 0 { |
| messageset := "" |
| if opts := mc.message.Options; opts != nil && opts.GetMessageSetWireFormat() { |
| messageset = "protobuf_messageset:\"1\" " |
| } |
| g.P(g.Pkg["proto"], ".XXX_InternalExtensions `", messageset, "json:\"-\"`") |
| } |
| g.P("XXX_unrecognized\t[]byte `json:\"-\"`") |
| g.P("XXX_sizecache\tint32 `json:\"-\"`") |
| |
| } |
| |
| // generateOneofFuncs adds all the utility functions for oneof, including marshalling, unmarshalling and sizer. |
| func (g *Generator) generateOneofFuncs(mc *msgCtx, topLevelFields []topLevelField) { |
| ofields := []*oneofField{} |
| for _, f := range topLevelFields { |
| if o, ok := f.(*oneofField); ok { |
| ofields = append(ofields, o) |
| } |
| } |
| if len(ofields) == 0 { |
| return |
| } |
| |
| // OneofFuncs |
| g.P("// XXX_OneofWrappers is for the internal use of the proto package.") |
| g.P("func (*", mc.goName, ") XXX_OneofWrappers() []interface{} {") |
| g.P("return []interface{}{") |
| for _, of := range ofields { |
| for _, sf := range of.subFields { |
| sf.typedNil(g) |
| } |
| } |
| g.P("}") |
| g.P("}") |
| g.P() |
| } |
| |
| // generateMessageStruct adds the actual struct with it's members (but not methods) to the output. |
| func (g *Generator) generateMessageStruct(mc *msgCtx, topLevelFields []topLevelField) { |
| comments := g.PrintComments(mc.message.path) |
| |
| // Guarantee deprecation comments appear after user-provided comments. |
| if mc.message.GetOptions().GetDeprecated() { |
| if comments { |
| // Convention: Separate deprecation comments from original |
| // comments with an empty line. |
| g.P("//") |
| } |
| g.P(deprecationComment) |
| } |
| |
| g.P("type ", Annotate(mc.message.file, mc.message.path, mc.goName), " struct {") |
| for _, pf := range topLevelFields { |
| pf.decl(g, mc) |
| } |
| g.generateInternalStructFields(mc, topLevelFields) |
| g.P("}") |
| } |
| |
| // generateGetters adds getters for all fields, including oneofs and weak fields when applicable. |
| func (g *Generator) generateGetters(mc *msgCtx, topLevelFields []topLevelField) { |
| for _, pf := range topLevelFields { |
| pf.getter(g, mc) |
| } |
| } |
| |
| // generateSetters add setters for all fields, including oneofs and weak fields when applicable. |
| func (g *Generator) generateSetters(mc *msgCtx, topLevelFields []topLevelField) { |
| for _, pf := range topLevelFields { |
| pf.setter(g, mc) |
| } |
| } |
| |
| // generateCommonMethods adds methods to the message that are not on a per field basis. |
| func (g *Generator) generateCommonMethods(mc *msgCtx) { |
| // Reset, String and ProtoMessage methods. |
| g.P("func (m *", mc.goName, ") Reset() { *m = ", mc.goName, "{} }") |
| g.P("func (m *", mc.goName, ") String() string { return ", g.Pkg["proto"], ".CompactTextString(m) }") |
| g.P("func (*", mc.goName, ") ProtoMessage() {}") |
| var indexes []string |
| for m := mc.message; m != nil; m = m.parent { |
| indexes = append([]string{strconv.Itoa(m.index)}, indexes...) |
| } |
| g.P("func (*", mc.goName, ") Descriptor() ([]byte, []int) {") |
| g.P("return ", g.file.VarName(), ", []int{", strings.Join(indexes, ", "), "}") |
| g.P("}") |
| g.P() |
| // TODO: Revisit the decision to use a XXX_WellKnownType method |
| // if we change proto.MessageName to work with multiple equivalents. |
| if mc.message.file.GetPackage() == "google.protobuf" && wellKnownTypes[mc.message.GetName()] { |
| g.P("func (*", mc.goName, `) XXX_WellKnownType() string { return "`, mc.message.GetName(), `" }`) |
| g.P() |
| } |
| |
| // Extension support methods |
| if len(mc.message.ExtensionRange) > 0 { |
| g.P() |
| g.P("var extRange_", mc.goName, " = []", g.Pkg["proto"], ".ExtensionRange{") |
| for _, r := range mc.message.ExtensionRange { |
| end := fmt.Sprint(*r.End - 1) // make range inclusive on both ends |
| g.P("{Start: ", r.Start, ", End: ", end, "},") |
| } |
| g.P("}") |
| g.P("func (*", mc.goName, ") ExtensionRangeArray() []", g.Pkg["proto"], ".ExtensionRange {") |
| g.P("return extRange_", mc.goName) |
| g.P("}") |
| g.P() |
| } |
| |
| // TODO: It does not scale to keep adding another method for every |
| // operation on protos that we want to switch over to using the |
| // table-driven approach. Instead, we should only add a single method |
| // that allows getting access to the *InternalMessageInfo struct and then |
| // calling Unmarshal, Marshal, Merge, Size, and Discard directly on that. |
| |
| // Wrapper for table-driven marshaling and unmarshaling. |
| g.P("func (m *", mc.goName, ") XXX_Unmarshal(b []byte) error {") |
| g.P("return xxx_messageInfo_", mc.goName, ".Unmarshal(m, b)") |
| g.P("}") |
| |
| g.P("func (m *", mc.goName, ") XXX_Marshal(b []byte, deterministic bool) ([]byte, error) {") |
| g.P("return xxx_messageInfo_", mc.goName, ".Marshal(b, m, deterministic)") |
| g.P("}") |
| |
| g.P("func (m *", mc.goName, ") XXX_Merge(src ", g.Pkg["proto"], ".Message) {") |
| g.P("xxx_messageInfo_", mc.goName, ".Merge(m, src)") |
| g.P("}") |
| |
| g.P("func (m *", mc.goName, ") XXX_Size() int {") // avoid name clash with "Size" field in some message |
| g.P("return xxx_messageInfo_", mc.goName, ".Size(m)") |
| g.P("}") |
| |
| g.P("func (m *", mc.goName, ") XXX_DiscardUnknown() {") |
| g.P("xxx_messageInfo_", mc.goName, ".DiscardUnknown(m)") |
| g.P("}") |
| |
| g.P("var xxx_messageInfo_", mc.goName, " ", g.Pkg["proto"], ".InternalMessageInfo") |
| g.P() |
| } |
| |
| // Generate the type, methods and default constant definitions for this Descriptor. |
| func (g *Generator) generateMessage(message *Descriptor) { |
| topLevelFields := []topLevelField{} |
| oFields := make(map[int32]*oneofField) |
| // The full type name |
| typeName := message.TypeName() |
| // The full type name, CamelCased. |
| goTypeName := CamelCaseSlice(typeName) |
| |
| usedNames := make(map[string]bool) |
| for _, n := range methodNames { |
| usedNames[n] = true |
| } |
| |
| // allocNames finds a conflict-free variation of the given strings, |
| // consistently mutating their suffixes. |
| // It returns the same number of strings. |
| allocNames := func(ns ...string) []string { |
| Loop: |
| for { |
| for _, n := range ns { |
| if usedNames[n] { |
| for i := range ns { |
| ns[i] += "_" |
| } |
| continue Loop |
| } |
| } |
| for _, n := range ns { |
| usedNames[n] = true |
| } |
| return ns |
| } |
| } |
| |
| mapFieldTypes := make(map[*descriptor.FieldDescriptorProto]string) // keep track of the map fields to be added later |
| |
| // Build a structure more suitable for generating the text in one pass |
| for i, field := range message.Field { |
| // Allocate the getter and the field at the same time so name |
| // collisions create field/method consistent names. |
| // TODO: This allocation occurs based on the order of the fields |
| // in the proto file, meaning that a change in the field |
| // ordering can change generated Method/Field names. |
| base := CamelCase(*field.Name) |
| ns := allocNames(base, "Get"+base) |
| fieldName, fieldGetterName := ns[0], ns[1] |
| typename, wiretype := g.GoType(message, field) |
| jsonName := *field.Name |
| tag := fmt.Sprintf("protobuf:%s json:%q", g.goTag(message, field, wiretype), jsonName+",omitempty") |
| |
| oneof := field.OneofIndex != nil |
| if oneof && oFields[*field.OneofIndex] == nil { |
| odp := message.OneofDecl[int(*field.OneofIndex)] |
| base := CamelCase(odp.GetName()) |
| names := allocNames(base, "Get"+base) |
| fname, gname := names[0], names[1] |
| |
| // This is the first field of a oneof we haven't seen before. |
| // Generate the union field. |
| oneofFullPath := fmt.Sprintf("%s,%d,%d", message.path, messageOneofPath, *field.OneofIndex) |
| c, ok := g.makeComments(oneofFullPath) |
| if ok { |
| c += "\n//\n" |
| } |
| c += "// Types that are valid to be assigned to " + fname + ":\n" |
| // Generate the rest of this comment later, |
| // when we've computed any disambiguation. |
| |
| dname := "is" + goTypeName + "_" + fname |
| tag := `protobuf_oneof:"` + odp.GetName() + `"` |
| of := oneofField{ |
| fieldCommon: fieldCommon{ |
| goName: fname, |
| getterName: gname, |
| goType: dname, |
| tags: tag, |
| protoName: odp.GetName(), |
| fullPath: oneofFullPath, |
| }, |
| comment: c, |
| } |
| topLevelFields = append(topLevelFields, &of) |
| oFields[*field.OneofIndex] = &of |
| } |
| |
| if *field.Type == descriptor.FieldDescriptorProto_TYPE_MESSAGE { |
| desc := g.ObjectNamed(field.GetTypeName()) |
| if d, ok := desc.(*Descriptor); ok && d.GetOptions().GetMapEntry() { |
| // Figure out the Go types and tags for the key and value types. |
| keyField, valField := d.Field[0], d.Field[1] |
| keyType, keyWire := g.GoType(d, keyField) |
| valType, valWire := g.GoType(d, valField) |
| keyTag, valTag := g.goTag(d, keyField, keyWire), g.goTag(d, valField, valWire) |
| |
| // We don't use stars, except for message-typed values. |
| // Message and enum types are the only two possibly foreign types used in maps, |
| // so record their use. They are not permitted as map keys. |
| keyType = strings.TrimPrefix(keyType, "*") |
| switch *valField.Type { |
| case descriptor.FieldDescriptorProto_TYPE_ENUM: |
| valType = strings.TrimPrefix(valType, "*") |
| g.RecordTypeUse(valField.GetTypeName()) |
| case descriptor.FieldDescriptorProto_TYPE_MESSAGE: |
| g.RecordTypeUse(valField.GetTypeName()) |
| default: |
| valType = strings.TrimPrefix(valType, "*") |
| } |
| |
| typename = fmt.Sprintf("map[%s]%s", keyType, valType) |
| mapFieldTypes[field] = typename // record for the getter generation |
| |
| tag += fmt.Sprintf(" protobuf_key:%s protobuf_val:%s", keyTag, valTag) |
| } |
| } |
| |
| fieldDeprecated := "" |
| if field.GetOptions().GetDeprecated() { |
| fieldDeprecated = deprecationComment |
| } |
| |
| dvalue := g.getterDefault(field, goTypeName) |
| if oneof { |
| tname := goTypeName + "_" + fieldName |
| // It is possible for this to collide with a message or enum |
| // nested in this message. Check for collisions. |
| for { |
| ok := true |
| for _, desc := range message.nested { |
| if CamelCaseSlice(desc.TypeName()) == tname { |
| ok = false |
| break |
| } |
| } |
| for _, enum := range message.enums { |
| if CamelCaseSlice(enum.TypeName()) == tname { |
| ok = false |
| break |
| } |
| } |
| if !ok { |
| tname += "_" |
| continue |
| } |
| break |
| } |
| |
| oneofField := oFields[*field.OneofIndex] |
| tag := "protobuf:" + g.goTag(message, field, wiretype) |
| sf := oneofSubField{ |
| fieldCommon: fieldCommon{ |
| goName: fieldName, |
| getterName: fieldGetterName, |
| goType: typename, |
| tags: tag, |
| protoName: field.GetName(), |
| fullPath: fmt.Sprintf("%s,%d,%d", message.path, messageFieldPath, i), |
| }, |
| protoTypeName: field.GetTypeName(), |
| fieldNumber: int(*field.Number), |
| protoType: *field.Type, |
| getterDef: dvalue, |
| protoDef: field.GetDefaultValue(), |
| oneofTypeName: tname, |
| deprecated: fieldDeprecated, |
| } |
| oneofField.subFields = append(oneofField.subFields, &sf) |
| g.RecordTypeUse(field.GetTypeName()) |
| continue |
| } |
| |
| fieldFullPath := fmt.Sprintf("%s,%d,%d", message.path, messageFieldPath, i) |
| c, ok := g.makeComments(fieldFullPath) |
| if ok { |
| c += "\n" |
| } |
| rf := simpleField{ |
| fieldCommon: fieldCommon{ |
| goName: fieldName, |
| getterName: fieldGetterName, |
| goType: typename, |
| tags: tag, |
| protoName: field.GetName(), |
| fullPath: fieldFullPath, |
| }, |
| protoTypeName: field.GetTypeName(), |
| protoType: *field.Type, |
| deprecated: fieldDeprecated, |
| getterDef: dvalue, |
| protoDef: field.GetDefaultValue(), |
| comment: c, |
| } |
| var pf topLevelField = &rf |
| |
| topLevelFields = append(topLevelFields, pf) |
| g.RecordTypeUse(field.GetTypeName()) |
| } |
| |
| mc := &msgCtx{ |
| goName: goTypeName, |
| message: message, |
| } |
| |
| g.generateMessageStruct(mc, topLevelFields) |
| g.P() |
| g.generateCommonMethods(mc) |
| g.P() |
| g.generateDefaultConstants(mc, topLevelFields) |
| g.P() |
| g.generateGetters(mc, topLevelFields) |
| g.P() |
| g.generateSetters(mc, topLevelFields) |
| g.P() |
| g.generateOneofFuncs(mc, topLevelFields) |
| g.P() |
| |
| var oneofTypes []string |
| for _, f := range topLevelFields { |
| if of, ok := f.(*oneofField); ok { |
| for _, osf := range of.subFields { |
| oneofTypes = append(oneofTypes, osf.oneofTypeName) |
| } |
| } |
| } |
| |
| opts := message.Options |
| ms := &messageSymbol{ |
| sym: goTypeName, |
| hasExtensions: len(message.ExtensionRange) > 0, |
| isMessageSet: opts != nil && opts.GetMessageSetWireFormat(), |
| oneofTypes: oneofTypes, |
| } |
| g.file.addExport(message, ms) |
| |
| for _, ext := range message.ext { |
| g.generateExtension(ext) |
| } |
| |
| fullName := strings.Join(message.TypeName(), ".") |
| if g.file.Package != nil { |
| fullName = *g.file.Package + "." + fullName |
| } |
| |
| g.addInitf("%s.RegisterType((*%s)(nil), %q)", g.Pkg["proto"], goTypeName, fullName) |
| // Register types for native map types. |
| for _, k := range mapFieldKeys(mapFieldTypes) { |
| fullName := strings.TrimPrefix(*k.TypeName, ".") |
| g.addInitf("%s.RegisterMapType((%s)(nil), %q)", g.Pkg["proto"], mapFieldTypes[k], fullName) |
| } |
| |
| } |
| |
| type byTypeName []*descriptor.FieldDescriptorProto |
| |
| func (a byTypeName) Len() int { return len(a) } |
| func (a byTypeName) Swap(i, j int) { a[i], a[j] = a[j], a[i] } |
| func (a byTypeName) Less(i, j int) bool { return *a[i].TypeName < *a[j].TypeName } |
| |
| // mapFieldKeys returns the keys of m in a consistent order. |
| func mapFieldKeys(m map[*descriptor.FieldDescriptorProto]string) []*descriptor.FieldDescriptorProto { |
| keys := make([]*descriptor.FieldDescriptorProto, 0, len(m)) |
| for k := range m { |
| keys = append(keys, k) |
| } |
| sort.Sort(byTypeName(keys)) |
| return keys |
| } |
| |
| var escapeChars = [256]byte{ |
| 'a': '\a', 'b': '\b', 'f': '\f', 'n': '\n', 'r': '\r', 't': '\t', 'v': '\v', '\\': '\\', '"': '"', '\'': '\'', '?': '?', |
| } |
| |
| // unescape reverses the "C" escaping that protoc does for default values of bytes fields. |
| // It is best effort in that it effectively ignores malformed input. Seemingly invalid escape |
| // sequences are conveyed, unmodified, into the decoded result. |
| func unescape(s string) string { |
| // NB: Sadly, we can't use strconv.Unquote because protoc will escape both |
| // single and double quotes, but strconv.Unquote only allows one or the |
| // other (based on actual surrounding quotes of its input argument). |
| |
| var out []byte |
| for len(s) > 0 { |
| // regular character, or too short to be valid escape |
| if s[0] != '\\' || len(s) < 2 { |
| out = append(out, s[0]) |
| s = s[1:] |
| } else if c := escapeChars[s[1]]; c != 0 { |
| // escape sequence |
| out = append(out, c) |
| s = s[2:] |
| } else if s[1] == 'x' || s[1] == 'X' { |
| // hex escape, e.g. "\x80 |
| if len(s) < 4 { |
| // too short to be valid |
| out = append(out, s[:2]...) |
| s = s[2:] |
| continue |
| } |
| v, err := strconv.ParseUint(s[2:4], 16, 8) |
| if err != nil { |
| out = append(out, s[:4]...) |
| } else { |
| out = append(out, byte(v)) |
| } |
| s = s[4:] |
| } else if '0' <= s[1] && s[1] <= '7' { |
| // octal escape, can vary from 1 to 3 octal digits; e.g., "\0" "\40" or "\164" |
| // so consume up to 2 more bytes or up to end-of-string |
| n := len(s[1:]) - len(strings.TrimLeft(s[1:], "01234567")) |
| if n > 3 { |
| n = 3 |
| } |
| v, err := strconv.ParseUint(s[1:1+n], 8, 8) |
| if err != nil { |
| out = append(out, s[:1+n]...) |
| } else { |
| out = append(out, byte(v)) |
| } |
| s = s[1+n:] |
| } else { |
| // bad escape, just propagate the slash as-is |
| out = append(out, s[0]) |
| s = s[1:] |
| } |
| } |
| |
| return string(out) |
| } |
| |
| func (g *Generator) generateExtension(ext *ExtensionDescriptor) { |
| ccTypeName := ext.DescName() |
| |
| extObj := g.ObjectNamed(*ext.Extendee) |
| var extDesc *Descriptor |
| if id, ok := extObj.(*ImportedDescriptor); ok { |
| // This is extending a publicly imported message. |
| // We need the underlying type for goTag. |
| extDesc = id.o.(*Descriptor) |
| } else { |
| extDesc = extObj.(*Descriptor) |
| } |
| extendedType := "*" + g.TypeName(extObj) // always use the original |
| field := ext.FieldDescriptorProto |
| fieldType, wireType := g.GoType(ext.parent, field) |
| tag := g.goTag(extDesc, field, wireType) |
| g.RecordTypeUse(*ext.Extendee) |
| if n := ext.FieldDescriptorProto.TypeName; n != nil { |
| // foreign extension type |
| g.RecordTypeUse(*n) |
| } |
| |
| typeName := ext.TypeName() |
| |
| // Special case for proto2 message sets: If this extension is extending |
| // proto2.bridge.MessageSet, and its final name component is "message_set_extension", |
| // then drop that last component. |
| // |
| // TODO: This should be implemented in the text formatter rather than the generator. |
| // In addition, the situation for when to apply this special case is implemented |
| // differently in other languages: |
| // https://github.com/google/protobuf/blob/aff10976/src/google/protobuf/text_format.cc#L1560 |
| if extDesc.GetOptions().GetMessageSetWireFormat() && typeName[len(typeName)-1] == "message_set_extension" { |
| typeName = typeName[:len(typeName)-1] |
| } |
| |
| // For text formatting, the package must be exactly what the .proto file declares, |
| // ignoring overrides such as the go_package option, and with no dot/underscore mapping. |
| extName := strings.Join(typeName, ".") |
| if g.file.Package != nil { |
| extName = *g.file.Package + "." + extName |
| } |
| |
| g.P("var ", ccTypeName, " = &", g.Pkg["proto"], ".ExtensionDesc{") |
| g.P("ExtendedType: (", extendedType, ")(nil),") |
| g.P("ExtensionType: (", fieldType, ")(nil),") |
| g.P("Field: ", field.Number, ",") |
| g.P(`Name: "`, extName, `",`) |
| g.P("Tag: ", tag, ",") |
| g.P(`Filename: "`, g.file.GetName(), `",`) |
| |
| g.P("}") |
| g.P() |
| |
| g.addInitf("%s.RegisterExtension(%s)", g.Pkg["proto"], ext.DescName()) |
| |
| g.file.addExport(ext, constOrVarSymbol{ccTypeName, "var", ""}) |
| } |
| |
| func (g *Generator) generateInitFunction() { |
| if len(g.init) == 0 { |
| return |
| } |
| g.P("func init() {") |
| for _, l := range g.init { |
| g.P(l) |
| } |
| g.P("}") |
| g.init = nil |
| } |
| |
| func (g *Generator) generateFileDescriptor(file *FileDescriptor) { |
| // Make a copy and trim source_code_info data. |
| // TODO: Trim this more when we know exactly what we need. |
| pb := proto.Clone(file.FileDescriptorProto).(*descriptor.FileDescriptorProto) |
| pb.SourceCodeInfo = nil |
| |
| b, err := proto.Marshal(pb) |
| if err != nil { |
| g.Fail(err.Error()) |
| } |
| |
| var buf bytes.Buffer |
| w, _ := gzip.NewWriterLevel(&buf, gzip.BestCompression) |
| w.Write(b) |
| w.Close() |
| b = buf.Bytes() |
| |
| v := file.VarName() |
| g.P() |
| g.P("func init() { ", g.Pkg["proto"], ".RegisterFile(", strconv.Quote(*file.Name), ", ", v, ") }") |
| g.P("var ", v, " = []byte{") |
| g.P("// ", len(b), " bytes of a gzipped FileDescriptorProto") |
| for len(b) > 0 { |
| n := 16 |
| if n > len(b) { |
| n = len(b) |
| } |
| |
| s := "" |
| for _, c := range b[:n] { |
| s += fmt.Sprintf("0x%02x,", c) |
| } |
| g.P(s) |
| |
| b = b[n:] |
| } |
| g.P("}") |
| } |
| |
| func (g *Generator) generateEnumRegistration(enum *EnumDescriptor) { |
| // // We always print the full (proto-world) package name here. |
| pkg := enum.File().GetPackage() |
| if pkg != "" { |
| pkg += "." |
| } |
| // The full type name |
| typeName := enum.TypeName() |
| // The full type name, CamelCased. |
| ccTypeName := CamelCaseSlice(typeName) |
| g.addInitf("%s.RegisterEnum(%q, %[3]s_name, %[3]s_value)", g.Pkg["proto"], pkg+ccTypeName, ccTypeName) |
| } |
| |
| // And now lots of helper functions. |
| |
| // Is c an ASCII lower-case letter? |
| func isASCIILower(c byte) bool { |
| return 'a' <= c && c <= 'z' |
| } |
| |
| // Is c an ASCII digit? |
| func isASCIIDigit(c byte) bool { |
| return '0' <= c && c <= '9' |
| } |
| |
| // CamelCase returns the CamelCased name. |
| // If there is an interior underscore followed by a lower case letter, |
| // drop the underscore and convert the letter to upper case. |
| // There is a remote possibility of this rewrite causing a name collision, |
| // but it's so remote we're prepared to pretend it's nonexistent - since the |
| // C++ generator lowercases names, it's extremely unlikely to have two fields |
| // with different capitalizations. |
| // In short, _my_field_name_2 becomes XMyFieldName_2. |
| func CamelCase(s string) string { |
| if s == "" { |
| return "" |
| } |
| t := make([]byte, 0, 32) |
| i := 0 |
| if s[0] == '_' { |
| // Need a capital letter; drop the '_'. |
| t = append(t, 'X') |
| i++ |
| } |
| // Invariant: if the next letter is lower case, it must be converted |
| // to upper case. |
| // That is, we process a word at a time, where words are marked by _ or |
| // upper case letter. Digits are treated as words. |
| for ; i < len(s); i++ { |
| c := s[i] |
| if c == '_' && i+1 < len(s) && isASCIILower(s[i+1]) { |
| continue // Skip the underscore in s. |
| } |
| if isASCIIDigit(c) { |
| t = append(t, c) |
| continue |
| } |
| // Assume we have a letter now - if not, it's a bogus identifier. |
| // The next word is a sequence of characters that must start upper case. |
| if isASCIILower(c) { |
| c ^= ' ' // Make it a capital letter. |
| } |
| t = append(t, c) // Guaranteed not lower case. |
| // Accept lower case sequence that follows. |
| for i+1 < len(s) && isASCIILower(s[i+1]) { |
| i++ |
| t = append(t, s[i]) |
| } |
| } |
| return string(t) |
| } |
| |
| // CamelCaseSlice is like CamelCase, but the argument is a slice of strings to |
| // be joined with "_". |
| func CamelCaseSlice(elem []string) string { return CamelCase(strings.Join(elem, "_")) } |
| |
| // dottedSlice turns a sliced name into a dotted name. |
| func dottedSlice(elem []string) string { return strings.Join(elem, ".") } |
| |
| // Is this field optional? |
| func isOptional(field *descriptor.FieldDescriptorProto) bool { |
| return field.Label != nil && *field.Label == descriptor.FieldDescriptorProto_LABEL_OPTIONAL |
| } |
| |
| // Is this field required? |
| func isRequired(field *descriptor.FieldDescriptorProto) bool { |
| return field.Label != nil && *field.Label == descriptor.FieldDescriptorProto_LABEL_REQUIRED |
| } |
| |
| // Is this field repeated? |
| func isRepeated(field *descriptor.FieldDescriptorProto) bool { |
| return field.Label != nil && *field.Label == descriptor.FieldDescriptorProto_LABEL_REPEATED |
| } |
| |
| // Is this field a scalar numeric type? |
| func isScalar(field *descriptor.FieldDescriptorProto) bool { |
| if field.Type == nil { |
| return false |
| } |
| switch *field.Type { |
| case descriptor.FieldDescriptorProto_TYPE_DOUBLE, |
| descriptor.FieldDescriptorProto_TYPE_FLOAT, |
| descriptor.FieldDescriptorProto_TYPE_INT64, |
| descriptor.FieldDescriptorProto_TYPE_UINT64, |
| descriptor.FieldDescriptorProto_TYPE_INT32, |
| descriptor.FieldDescriptorProto_TYPE_FIXED64, |
| descriptor.FieldDescriptorProto_TYPE_FIXED32, |
| descriptor.FieldDescriptorProto_TYPE_BOOL, |
| descriptor.FieldDescriptorProto_TYPE_UINT32, |
| descriptor.FieldDescriptorProto_TYPE_ENUM, |
| descriptor.FieldDescriptorProto_TYPE_SFIXED32, |
| descriptor.FieldDescriptorProto_TYPE_SFIXED64, |
| descriptor.FieldDescriptorProto_TYPE_SINT32, |
| descriptor.FieldDescriptorProto_TYPE_SINT64: |
| return true |
| default: |
| return false |
| } |
| } |
| |
| // badToUnderscore is the mapping function used to generate Go names from package names, |
| // which can be dotted in the input .proto file. It replaces non-identifier characters such as |
| // dot or dash with underscore. |
| func badToUnderscore(r rune) rune { |
| if unicode.IsLetter(r) || unicode.IsDigit(r) || r == '_' { |
| return r |
| } |
| return '_' |
| } |
| |
| // baseName returns the last path element of the name, with the last dotted suffix removed. |
| func baseName(name string) string { |
| // First, find the last element |
| if i := strings.LastIndex(name, "/"); i >= 0 { |
| name = name[i+1:] |
| } |
| // Now drop the suffix |
| if i := strings.LastIndex(name, "."); i >= 0 { |
| name = name[0:i] |
| } |
| return name |
| } |
| |
| // The SourceCodeInfo message describes the location of elements of a parsed |
| // .proto file by way of a "path", which is a sequence of integers that |
| // describe the route from a FileDescriptorProto to the relevant submessage. |
| // The path alternates between a field number of a repeated field, and an index |
| // into that repeated field. The constants below define the field numbers that |
| // are used. |
| // |
| // See descriptor.proto for more information about this. |
| const ( |
| // tag numbers in FileDescriptorProto |
| packagePath = 2 // package |
| messagePath = 4 // message_type |
| enumPath = 5 // enum_type |
| // tag numbers in DescriptorProto |
| messageFieldPath = 2 // field |
| messageMessagePath = 3 // nested_type |
| messageEnumPath = 4 // enum_type |
| messageOneofPath = 8 // oneof_decl |
| // tag numbers in EnumDescriptorProto |
| enumValuePath = 2 // value |
| ) |
| |
| var supportTypeAliases bool |
| |
| func init() { |
| for _, tag := range build.Default.ReleaseTags { |
| if tag == "go1.9" { |
| supportTypeAliases = true |
| return |
| } |
| } |
| } |