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367 lines
9.8 KiB
Go
367 lines
9.8 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package codegen contains shared utilities for generating code.
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package codegen
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import (
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"bytes"
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"flag"
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"fmt"
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"go/ast"
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"go/token"
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"go/types"
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"io"
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"os"
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"reflect"
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"strings"
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"golang.org/x/tools/go/packages"
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"golang.org/x/tools/imports"
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"tailscale.com/util/mak"
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)
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var flagCopyright = flag.Bool("copyright", true, "add Tailscale copyright to generated file headers")
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// LoadTypes returns all named types in pkgName, keyed by their type name.
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func LoadTypes(buildTags string, pkgName string) (*packages.Package, map[string]*types.Named, error) {
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cfg := &packages.Config{
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Mode: packages.NeedTypes | packages.NeedTypesInfo | packages.NeedSyntax | packages.NeedName,
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Tests: buildTags == "test",
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}
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if buildTags != "" && !cfg.Tests {
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cfg.BuildFlags = []string{"-tags=" + buildTags}
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}
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pkgs, err := packages.Load(cfg, pkgName)
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if err != nil {
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return nil, nil, err
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}
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if cfg.Tests {
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pkgs = testPackages(pkgs)
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}
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if len(pkgs) != 1 {
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return nil, nil, fmt.Errorf("wrong number of packages: %d", len(pkgs))
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}
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pkg := pkgs[0]
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return pkg, namedTypes(pkg), nil
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}
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func testPackages(pkgs []*packages.Package) []*packages.Package {
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var testPackages []*packages.Package
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for _, pkg := range pkgs {
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testPackageID := fmt.Sprintf("%[1]s [%[1]s.test]", pkg.PkgPath)
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if pkg.ID == testPackageID {
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testPackages = append(testPackages, pkg)
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}
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}
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return testPackages
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}
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// HasNoClone reports whether the provided tag has `codegen:noclone`.
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func HasNoClone(structTag string) bool {
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val := reflect.StructTag(structTag).Get("codegen")
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for _, v := range strings.Split(val, ",") {
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if v == "noclone" {
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return true
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}
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}
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return false
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}
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const copyrightHeader = `// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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`
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const genAndPackageHeader = `// Code generated by %v; DO NOT EDIT.
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package %s
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`
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func NewImportTracker(thisPkg *types.Package) *ImportTracker {
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return &ImportTracker{
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thisPkg: thisPkg,
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}
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}
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// ImportTracker provides a mechanism to track and build import paths.
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type ImportTracker struct {
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thisPkg *types.Package
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packages map[string]bool
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}
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func (it *ImportTracker) Import(pkg string) {
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if pkg != "" && !it.packages[pkg] {
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mak.Set(&it.packages, pkg, true)
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}
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}
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func (it *ImportTracker) qualifier(pkg *types.Package) string {
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if it.thisPkg == pkg {
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return ""
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}
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it.Import(pkg.Path())
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// TODO(maisem): handle conflicts?
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return pkg.Name()
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}
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// QualifiedName returns the string representation of t in the package.
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func (it *ImportTracker) QualifiedName(t types.Type) string {
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return types.TypeString(t, it.qualifier)
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}
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// Write prints all the tracked imports in a single import block to w.
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func (it *ImportTracker) Write(w io.Writer) {
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fmt.Fprintf(w, "import (\n")
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for s := range it.packages {
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fmt.Fprintf(w, "\t%q\n", s)
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}
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fmt.Fprintf(w, ")\n\n")
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}
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func writeHeader(w io.Writer, tool, pkg string) {
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if *flagCopyright {
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fmt.Fprint(w, copyrightHeader)
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}
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fmt.Fprintf(w, genAndPackageHeader, tool, pkg)
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}
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// WritePackageFile adds a file with the provided imports and contents to package.
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// The tool param is used to identify the tool that generated package file.
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func WritePackageFile(tool string, pkg *packages.Package, path string, it *ImportTracker, contents *bytes.Buffer) error {
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buf := new(bytes.Buffer)
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writeHeader(buf, tool, pkg.Name)
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it.Write(buf)
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if _, err := buf.Write(contents.Bytes()); err != nil {
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return err
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}
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return writeFormatted(buf.Bytes(), path)
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}
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// writeFormatted writes code to path.
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// It runs gofmt on it before writing;
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// if gofmt fails, it writes code unchanged.
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// Errors can include I/O errors and gofmt errors.
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//
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// The advantage of always writing code to path,
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// even if gofmt fails, is that it makes debugging easier.
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// The code can be long, but you need it in order to debug.
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// It is nicer to work with it in a file than a terminal.
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// It is also easier to interpret gofmt errors
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// with an editor providing file and line numbers.
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func writeFormatted(code []byte, path string) error {
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out, fmterr := imports.Process(path, code, &imports.Options{
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Comments: true,
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TabIndent: true,
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TabWidth: 8,
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FormatOnly: true, // fancy gofmt only
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})
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if fmterr != nil {
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out = code
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}
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ioerr := os.WriteFile(path, out, 0644)
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// Prefer I/O errors. They're usually easier to fix,
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// and until they're fixed you can't do much else.
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if ioerr != nil {
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return ioerr
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}
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if fmterr != nil {
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return fmt.Errorf("%s:%v", path, fmterr)
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}
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return nil
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}
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// namedTypes returns all named types in pkg, keyed by their type name.
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func namedTypes(pkg *packages.Package) map[string]*types.Named {
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nt := make(map[string]*types.Named)
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for _, file := range pkg.Syntax {
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for _, d := range file.Decls {
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decl, ok := d.(*ast.GenDecl)
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if !ok || decl.Tok != token.TYPE {
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continue
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}
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for _, s := range decl.Specs {
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spec, ok := s.(*ast.TypeSpec)
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if !ok {
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continue
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}
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typeNameObj, ok := pkg.TypesInfo.Defs[spec.Name]
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if !ok {
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continue
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}
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typ, ok := typeNameObj.Type().(*types.Named)
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if !ok {
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continue
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}
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nt[spec.Name.Name] = typ
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}
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}
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}
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return nt
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}
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// AssertStructUnchanged generates code that asserts at compile time that type t is unchanged.
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// thisPkg is the package containing t.
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// tname is the named type corresponding to t.
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// ctx is a single-word context for this assertion, such as "Clone".
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// If non-nil, AssertStructUnchanged will add elements to imports
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// for each package path that the caller must import for the returned code to compile.
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func AssertStructUnchanged(t *types.Struct, tname string, params *types.TypeParamList, ctx string, it *ImportTracker) []byte {
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buf := new(bytes.Buffer)
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w := func(format string, args ...any) {
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fmt.Fprintf(buf, format+"\n", args...)
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}
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w("// A compilation failure here means this code must be regenerated, with the command at the top of this file.")
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hasTypeParams := params != nil && params.Len() > 0
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if hasTypeParams {
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constraints, identifiers := FormatTypeParams(params, it)
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w("func _%s%sNeedsRegeneration%s (%s%s) {", tname, ctx, constraints, tname, identifiers)
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w("_%s%sNeedsRegeneration(struct {", tname, ctx)
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} else {
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w("var _%s%sNeedsRegeneration = %s(struct {", tname, ctx, tname)
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}
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for i := range t.NumFields() {
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st := t.Field(i)
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fname := st.Name()
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ft := t.Field(i).Type()
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if IsInvalid(ft) {
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continue
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}
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qname := it.QualifiedName(ft)
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var tag string
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if hasTypeParams {
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tag = t.Tag(i)
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if tag != "" {
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tag = "`" + tag + "`"
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}
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}
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if st.Anonymous() {
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w("\t%s %s", fname, tag)
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} else {
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w("\t%s %s %s", fname, qname, tag)
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}
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}
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if hasTypeParams {
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w("}{})\n}")
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} else {
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w("}{})")
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}
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return buf.Bytes()
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}
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// IsInvalid reports whether the provided type is invalid. It is used to allow
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// codegeneration to run even when the target files have build errors or are
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// missing views.
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func IsInvalid(t types.Type) bool {
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return t.String() == "invalid type"
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}
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// ContainsPointers reports whether typ contains any pointers,
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// either explicitly or implicitly.
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// It has special handling for some types that contain pointers
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// that we know are free from memory aliasing/mutation concerns.
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func ContainsPointers(typ types.Type) bool {
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switch typ.String() {
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case "time.Time":
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// time.Time contains a pointer that does not need copying
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return false
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case "inet.af/netip.Addr", "net/netip.Addr", "net/netip.Prefix", "net/netip.AddrPort":
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return false
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}
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switch ft := typ.Underlying().(type) {
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case *types.Array:
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return ContainsPointers(ft.Elem())
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case *types.Basic:
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if ft.Kind() == types.UnsafePointer {
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return true
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}
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case *types.Chan:
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return true
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case *types.Interface:
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if ft.Empty() || ft.IsMethodSet() {
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return true
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}
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for i := 0; i < ft.NumEmbeddeds(); i++ {
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if ContainsPointers(ft.EmbeddedType(i)) {
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return true
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}
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}
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case *types.Map:
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return true
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case *types.Pointer:
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return true
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case *types.Slice:
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return true
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case *types.Struct:
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for i := range ft.NumFields() {
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if ContainsPointers(ft.Field(i).Type()) {
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return true
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}
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}
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case *types.Union:
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for i := range ft.Len() {
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if ContainsPointers(ft.Term(i).Type()) {
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return true
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}
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}
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}
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return false
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}
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// IsViewType reports whether the provided typ is a View.
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func IsViewType(typ types.Type) bool {
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t, ok := typ.Underlying().(*types.Struct)
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if !ok {
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return false
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}
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if t.NumFields() != 1 {
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return false
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}
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return t.Field(0).Name() == "ж"
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}
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// FormatTypeParams formats the specified params and returns two strings:
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// - constraints are comma-separated type parameters and their constraints in square brackets (e.g. [T any, V constraints.Integer])
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// - names are comma-separated type parameter names in square brackets (e.g. [T, V])
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//
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// If params is nil or empty, both return values are empty strings.
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func FormatTypeParams(params *types.TypeParamList, it *ImportTracker) (constraints, names string) {
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if params == nil || params.Len() == 0 {
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return "", ""
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}
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var constraintList, nameList []string
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for i := range params.Len() {
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param := params.At(i)
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name := param.Obj().Name()
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constraint := it.QualifiedName(param.Constraint())
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nameList = append(nameList, name)
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constraintList = append(constraintList, name+" "+constraint)
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}
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constraints = "[" + strings.Join(constraintList, ", ") + "]"
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names = "[" + strings.Join(nameList, ", ") + "]"
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return constraints, names
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}
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// LookupMethod returns the method with the specified name in t, or nil if the method does not exist.
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func LookupMethod(t types.Type, name string) *types.Func {
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if t, ok := t.(*types.Named); ok {
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for i := 0; i < t.NumMethods(); i++ {
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if method := t.Method(i); method.Name() == name {
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return method
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}
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}
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}
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if t, ok := t.Underlying().(*types.Interface); ok {
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for i := 0; i < t.NumMethods(); i++ {
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if method := t.Method(i); method.Name() == name {
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return method
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}
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}
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}
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return nil
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}
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