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iexport.go
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iexport.go
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// Copyright 2019 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.
// Indexed binary package export.
// This file was derived from $GOROOT/src/cmd/compile/internal/gc/iexport.go;
// see that file for specification of the format.
package gcimporter
import (
"bytes"
"encoding/binary"
"fmt"
"go/constant"
"go/token"
"go/types"
"io"
"math/big"
"reflect"
"sort"
"strconv"
"strings"
"cuelang.org/go/internal/golangorgx/tools/tokeninternal"
"golang.org/x/tools/go/types/objectpath"
)
// IExportShallow encodes "shallow" export data for the specified package.
//
// No promises are made about the encoding other than that it can be decoded by
// the same version of IIExportShallow. If you plan to save export data in the
// file system, be sure to include a cryptographic digest of the executable in
// the key to avoid version skew.
//
// If the provided reportf func is non-nil, it will be used for reporting bugs
// encountered during export.
// TODO(rfindley): remove reportf when we are confident enough in the new
// objectpath encoding.
func IExportShallow(fset *token.FileSet, pkg *types.Package, reportf ReportFunc) ([]byte, error) {
// In principle this operation can only fail if out.Write fails,
// but that's impossible for bytes.Buffer---and as a matter of
// fact iexportCommon doesn't even check for I/O errors.
// TODO(adonovan): handle I/O errors properly.
// TODO(adonovan): use byte slices throughout, avoiding copying.
const bundle, shallow = false, true
var out bytes.Buffer
err := iexportCommon(&out, fset, bundle, shallow, iexportVersion, []*types.Package{pkg})
return out.Bytes(), err
}
// IImportShallow decodes "shallow" types.Package data encoded by
// IExportShallow in the same executable. This function cannot import data from
// cmd/compile or gcexportdata.Write.
//
// The importer calls getPackages to obtain package symbols for all
// packages mentioned in the export data, including the one being
// decoded.
//
// If the provided reportf func is non-nil, it will be used for reporting bugs
// encountered during import.
// TODO(rfindley): remove reportf when we are confident enough in the new
// objectpath encoding.
func IImportShallow(fset *token.FileSet, getPackages GetPackagesFunc, data []byte, path string, reportf ReportFunc) (*types.Package, error) {
const bundle = false
const shallow = true
pkgs, err := iimportCommon(fset, getPackages, data, bundle, path, shallow, reportf)
if err != nil {
return nil, err
}
return pkgs[0], nil
}
// ReportFunc is the type of a function used to report formatted bugs.
type ReportFunc = func(string, ...interface{})
// Current bundled export format version. Increase with each format change.
// 0: initial implementation
const bundleVersion = 0
// IExportData writes indexed export data for pkg to out.
//
// If no file set is provided, position info will be missing.
// The package path of the top-level package will not be recorded,
// so that calls to IImportData can override with a provided package path.
func IExportData(out io.Writer, fset *token.FileSet, pkg *types.Package) error {
const bundle, shallow = false, false
return iexportCommon(out, fset, bundle, shallow, iexportVersion, []*types.Package{pkg})
}
// IExportBundle writes an indexed export bundle for pkgs to out.
func IExportBundle(out io.Writer, fset *token.FileSet, pkgs []*types.Package) error {
const bundle, shallow = true, false
return iexportCommon(out, fset, bundle, shallow, iexportVersion, pkgs)
}
func iexportCommon(out io.Writer, fset *token.FileSet, bundle, shallow bool, version int, pkgs []*types.Package) (err error) {
if !debug {
defer func() {
if e := recover(); e != nil {
if ierr, ok := e.(internalError); ok {
err = ierr
return
}
// Not an internal error; panic again.
panic(e)
}
}()
}
p := iexporter{
fset: fset,
version: version,
shallow: shallow,
allPkgs: map[*types.Package]bool{},
stringIndex: map[string]uint64{},
declIndex: map[types.Object]uint64{},
tparamNames: map[types.Object]string{},
typIndex: map[types.Type]uint64{},
}
if !bundle {
p.localpkg = pkgs[0]
}
for i, pt := range predeclared() {
p.typIndex[pt] = uint64(i)
}
if len(p.typIndex) > predeclReserved {
panic(internalErrorf("too many predeclared types: %d > %d", len(p.typIndex), predeclReserved))
}
// Initialize work queue with exported declarations.
for _, pkg := range pkgs {
scope := pkg.Scope()
for _, name := range scope.Names() {
if token.IsExported(name) {
p.pushDecl(scope.Lookup(name))
}
}
if bundle {
// Ensure pkg and its imports are included in the index.
p.allPkgs[pkg] = true
for _, imp := range pkg.Imports() {
p.allPkgs[imp] = true
}
}
}
// Loop until no more work.
for !p.declTodo.empty() {
p.doDecl(p.declTodo.popHead())
}
// Produce index of offset of each file record in files.
var files intWriter
var fileOffset []uint64 // fileOffset[i] is offset in files of file encoded as i
if p.shallow {
fileOffset = make([]uint64, len(p.fileInfos))
for i, info := range p.fileInfos {
fileOffset[i] = uint64(files.Len())
p.encodeFile(&files, info.file, info.needed)
}
}
// Append indices to data0 section.
dataLen := uint64(p.data0.Len())
w := p.newWriter()
w.writeIndex(p.declIndex)
if bundle {
w.uint64(uint64(len(pkgs)))
for _, pkg := range pkgs {
w.pkg(pkg)
imps := pkg.Imports()
w.uint64(uint64(len(imps)))
for _, imp := range imps {
w.pkg(imp)
}
}
}
w.flush()
// Assemble header.
var hdr intWriter
if bundle {
hdr.uint64(bundleVersion)
}
hdr.uint64(uint64(p.version))
hdr.uint64(uint64(p.strings.Len()))
if p.shallow {
hdr.uint64(uint64(files.Len()))
hdr.uint64(uint64(len(fileOffset)))
for _, offset := range fileOffset {
hdr.uint64(offset)
}
}
hdr.uint64(dataLen)
// Flush output.
io.Copy(out, &hdr)
io.Copy(out, &p.strings)
if p.shallow {
io.Copy(out, &files)
}
io.Copy(out, &p.data0)
return nil
}
// encodeFile writes to w a representation of the file sufficient to
// faithfully restore position information about all needed offsets.
// Mutates the needed array.
func (p *iexporter) encodeFile(w *intWriter, file *token.File, needed []uint64) {
_ = needed[0] // precondition: needed is non-empty
w.uint64(p.stringOff(file.Name()))
size := uint64(file.Size())
w.uint64(size)
// Sort the set of needed offsets. Duplicates are harmless.
sort.Slice(needed, func(i, j int) bool { return needed[i] < needed[j] })
lines := tokeninternal.GetLines(file) // byte offset of each line start
w.uint64(uint64(len(lines)))
// Rather than record the entire array of line start offsets,
// we save only a sparse list of (index, offset) pairs for
// the start of each line that contains a needed position.
var sparse [][2]int // (index, offset) pairs
outer:
for i, lineStart := range lines {
lineEnd := size
if i < len(lines)-1 {
lineEnd = uint64(lines[i+1])
}
// Does this line contains a needed offset?
if needed[0] < lineEnd {
sparse = append(sparse, [2]int{i, lineStart})
for needed[0] < lineEnd {
needed = needed[1:]
if len(needed) == 0 {
break outer
}
}
}
}
// Delta-encode the columns.
w.uint64(uint64(len(sparse)))
var prev [2]int
for _, pair := range sparse {
w.uint64(uint64(pair[0] - prev[0]))
w.uint64(uint64(pair[1] - prev[1]))
prev = pair
}
}
// writeIndex writes out an object index. mainIndex indicates whether
// we're writing out the main index, which is also read by
// non-compiler tools and includes a complete package description
// (i.e., name and height).
func (w *exportWriter) writeIndex(index map[types.Object]uint64) {
type pkgObj struct {
obj types.Object
name string // qualified name; differs from obj.Name for type params
}
// Build a map from packages to objects from that package.
pkgObjs := map[*types.Package][]pkgObj{}
// For the main index, make sure to include every package that
// we reference, even if we're not exporting (or reexporting)
// any symbols from it.
if w.p.localpkg != nil {
pkgObjs[w.p.localpkg] = nil
}
for pkg := range w.p.allPkgs {
pkgObjs[pkg] = nil
}
for obj := range index {
name := w.p.exportName(obj)
pkgObjs[obj.Pkg()] = append(pkgObjs[obj.Pkg()], pkgObj{obj, name})
}
var pkgs []*types.Package
for pkg, objs := range pkgObjs {
pkgs = append(pkgs, pkg)
sort.Slice(objs, func(i, j int) bool {
return objs[i].name < objs[j].name
})
}
sort.Slice(pkgs, func(i, j int) bool {
return w.exportPath(pkgs[i]) < w.exportPath(pkgs[j])
})
w.uint64(uint64(len(pkgs)))
for _, pkg := range pkgs {
w.string(w.exportPath(pkg))
w.string(pkg.Name())
w.uint64(uint64(0)) // package height is not needed for go/types
objs := pkgObjs[pkg]
w.uint64(uint64(len(objs)))
for _, obj := range objs {
w.string(obj.name)
w.uint64(index[obj.obj])
}
}
}
// exportName returns the 'exported' name of an object. It differs from
// obj.Name() only for type parameters (see tparamExportName for details).
func (p *iexporter) exportName(obj types.Object) (res string) {
if name := p.tparamNames[obj]; name != "" {
return name
}
return obj.Name()
}
type iexporter struct {
fset *token.FileSet
out *bytes.Buffer
version int
shallow bool // don't put types from other packages in the index
objEncoder *objectpath.Encoder // encodes objects from other packages in shallow mode; lazily allocated
localpkg *types.Package // (nil in bundle mode)
// allPkgs tracks all packages that have been referenced by
// the export data, so we can ensure to include them in the
// main index.
allPkgs map[*types.Package]bool
declTodo objQueue
strings intWriter
stringIndex map[string]uint64
// In shallow mode, object positions are encoded as (file, offset).
// Each file is recorded as a line-number table.
// Only the lines of needed positions are saved faithfully.
fileInfo map[*token.File]uint64 // value is index in fileInfos
fileInfos []*filePositions
data0 intWriter
declIndex map[types.Object]uint64
tparamNames map[types.Object]string // typeparam->exported name
typIndex map[types.Type]uint64
indent int // for tracing support
}
type filePositions struct {
file *token.File
needed []uint64 // unordered list of needed file offsets
}
func (p *iexporter) trace(format string, args ...interface{}) {
if !trace {
// Call sites should also be guarded, but having this check here allows
// easily enabling/disabling debug trace statements.
return
}
fmt.Printf(strings.Repeat("..", p.indent)+format+"\n", args...)
}
// objectpathEncoder returns the lazily allocated objectpath.Encoder to use
// when encoding objects in other packages during shallow export.
//
// Using a shared Encoder amortizes some of cost of objectpath search.
func (p *iexporter) objectpathEncoder() *objectpath.Encoder {
if p.objEncoder == nil {
p.objEncoder = new(objectpath.Encoder)
}
return p.objEncoder
}
// stringOff returns the offset of s within the string section.
// If not already present, it's added to the end.
func (p *iexporter) stringOff(s string) uint64 {
off, ok := p.stringIndex[s]
if !ok {
off = uint64(p.strings.Len())
p.stringIndex[s] = off
p.strings.uint64(uint64(len(s)))
p.strings.WriteString(s)
}
return off
}
// fileIndexAndOffset returns the index of the token.File and the byte offset of pos within it.
func (p *iexporter) fileIndexAndOffset(file *token.File, pos token.Pos) (uint64, uint64) {
index, ok := p.fileInfo[file]
if !ok {
index = uint64(len(p.fileInfo))
p.fileInfos = append(p.fileInfos, &filePositions{file: file})
if p.fileInfo == nil {
p.fileInfo = make(map[*token.File]uint64)
}
p.fileInfo[file] = index
}
// Record each needed offset.
info := p.fileInfos[index]
offset := uint64(file.Offset(pos))
info.needed = append(info.needed, offset)
return index, offset
}
// pushDecl adds n to the declaration work queue, if not already present.
func (p *iexporter) pushDecl(obj types.Object) {
// Package unsafe is known to the compiler and predeclared.
// Caller should not ask us to do export it.
if obj.Pkg() == types.Unsafe {
panic("cannot export package unsafe")
}
// Shallow export data: don't index decls from other packages.
if p.shallow && obj.Pkg() != p.localpkg {
return
}
if _, ok := p.declIndex[obj]; ok {
return
}
p.declIndex[obj] = ^uint64(0) // mark obj present in work queue
p.declTodo.pushTail(obj)
}
// exportWriter handles writing out individual data section chunks.
type exportWriter struct {
p *iexporter
data intWriter
prevFile string
prevLine int64
prevColumn int64
}
func (w *exportWriter) exportPath(pkg *types.Package) string {
if pkg == w.p.localpkg {
return ""
}
return pkg.Path()
}
func (p *iexporter) doDecl(obj types.Object) {
if trace {
p.trace("exporting decl %v (%T)", obj, obj)
p.indent++
defer func() {
p.indent--
p.trace("=> %s", obj)
}()
}
w := p.newWriter()
switch obj := obj.(type) {
case *types.Var:
w.tag('V')
w.pos(obj.Pos())
w.typ(obj.Type(), obj.Pkg())
case *types.Func:
sig, _ := obj.Type().(*types.Signature)
if sig.Recv() != nil {
// We shouldn't see methods in the package scope,
// but the type checker may repair "func () F() {}"
// to "func (Invalid) F()" and then treat it like "func F()",
// so allow that. See golang/go#57729.
if sig.Recv().Type() != types.Typ[types.Invalid] {
panic(internalErrorf("unexpected method: %v", sig))
}
}
// Function.
if sig.TypeParams().Len() == 0 {
w.tag('F')
} else {
w.tag('G')
}
w.pos(obj.Pos())
// The tparam list of the function type is the declaration of the type
// params. So, write out the type params right now. Then those type params
// will be referenced via their type offset (via typOff) in all other
// places in the signature and function where they are used.
//
// While importing the type parameters, tparamList computes and records
// their export name, so that it can be later used when writing the index.
if tparams := sig.TypeParams(); tparams.Len() > 0 {
w.tparamList(obj.Name(), tparams, obj.Pkg())
}
w.signature(sig)
case *types.Const:
w.tag('C')
w.pos(obj.Pos())
w.value(obj.Type(), obj.Val())
case *types.TypeName:
t := obj.Type()
if tparam, ok := t.(*types.TypeParam); ok {
w.tag('P')
w.pos(obj.Pos())
constraint := tparam.Constraint()
if p.version >= iexportVersionGo1_18 {
implicit := false
if iface, _ := constraint.(*types.Interface); iface != nil {
implicit = iface.IsImplicit()
}
w.bool(implicit)
}
w.typ(constraint, obj.Pkg())
break
}
if obj.IsAlias() {
w.tag('A')
w.pos(obj.Pos())
w.typ(t, obj.Pkg())
break
}
// Defined type.
named, ok := t.(*types.Named)
if !ok {
panic(internalErrorf("%s is not a defined type", t))
}
if named.TypeParams().Len() == 0 {
w.tag('T')
} else {
w.tag('U')
}
w.pos(obj.Pos())
if named.TypeParams().Len() > 0 {
// While importing the type parameters, tparamList computes and records
// their export name, so that it can be later used when writing the index.
w.tparamList(obj.Name(), named.TypeParams(), obj.Pkg())
}
underlying := obj.Type().Underlying()
w.typ(underlying, obj.Pkg())
if types.IsInterface(t) {
break
}
n := named.NumMethods()
w.uint64(uint64(n))
for i := 0; i < n; i++ {
m := named.Method(i)
w.pos(m.Pos())
w.string(m.Name())
sig, _ := m.Type().(*types.Signature)
// Receiver type parameters are type arguments of the receiver type, so
// their name must be qualified before exporting recv.
if rparams := sig.RecvTypeParams(); rparams.Len() > 0 {
prefix := obj.Name() + "." + m.Name()
for i := 0; i < rparams.Len(); i++ {
rparam := rparams.At(i)
name := tparamExportName(prefix, rparam)
w.p.tparamNames[rparam.Obj()] = name
}
}
w.param(sig.Recv())
w.signature(sig)
}
default:
panic(internalErrorf("unexpected object: %v", obj))
}
p.declIndex[obj] = w.flush()
}
func (w *exportWriter) tag(tag byte) {
w.data.WriteByte(tag)
}
func (w *exportWriter) pos(pos token.Pos) {
if w.p.shallow {
w.posV2(pos)
} else if w.p.version >= iexportVersionPosCol {
w.posV1(pos)
} else {
w.posV0(pos)
}
}
// posV2 encoding (used only in shallow mode) records positions as
// (file, offset), where file is the index in the token.File table
// (which records the file name and newline offsets) and offset is a
// byte offset. It effectively ignores //line directives.
func (w *exportWriter) posV2(pos token.Pos) {
if pos == token.NoPos {
w.uint64(0)
return
}
file := w.p.fset.File(pos) // fset must be non-nil
index, offset := w.p.fileIndexAndOffset(file, pos)
w.uint64(1 + index)
w.uint64(offset)
}
func (w *exportWriter) posV1(pos token.Pos) {
if w.p.fset == nil {
w.int64(0)
return
}
p := w.p.fset.Position(pos)
file := p.Filename
line := int64(p.Line)
column := int64(p.Column)
deltaColumn := (column - w.prevColumn) << 1
deltaLine := (line - w.prevLine) << 1
if file != w.prevFile {
deltaLine |= 1
}
if deltaLine != 0 {
deltaColumn |= 1
}
w.int64(deltaColumn)
if deltaColumn&1 != 0 {
w.int64(deltaLine)
if deltaLine&1 != 0 {
w.string(file)
}
}
w.prevFile = file
w.prevLine = line
w.prevColumn = column
}
func (w *exportWriter) posV0(pos token.Pos) {
if w.p.fset == nil {
w.int64(0)
return
}
p := w.p.fset.Position(pos)
file := p.Filename
line := int64(p.Line)
// When file is the same as the last position (common case),
// we can save a few bytes by delta encoding just the line
// number.
//
// Note: Because data objects may be read out of order (or not
// at all), we can only apply delta encoding within a single
// object. This is handled implicitly by tracking prevFile and
// prevLine as fields of exportWriter.
if file == w.prevFile {
delta := line - w.prevLine
w.int64(delta)
if delta == deltaNewFile {
w.int64(-1)
}
} else {
w.int64(deltaNewFile)
w.int64(line) // line >= 0
w.string(file)
w.prevFile = file
}
w.prevLine = line
}
func (w *exportWriter) pkg(pkg *types.Package) {
// Ensure any referenced packages are declared in the main index.
w.p.allPkgs[pkg] = true
w.string(w.exportPath(pkg))
}
func (w *exportWriter) qualifiedType(obj *types.TypeName) {
name := w.p.exportName(obj)
// Ensure any referenced declarations are written out too.
w.p.pushDecl(obj)
w.string(name)
w.pkg(obj.Pkg())
}
// TODO(rfindley): what does 'pkg' even mean here? It would be better to pass
// it in explicitly into signatures and structs that may use it for
// constructing fields.
func (w *exportWriter) typ(t types.Type, pkg *types.Package) {
w.data.uint64(w.p.typOff(t, pkg))
}
func (p *iexporter) newWriter() *exportWriter {
return &exportWriter{p: p}
}
func (w *exportWriter) flush() uint64 {
off := uint64(w.p.data0.Len())
io.Copy(&w.p.data0, &w.data)
return off
}
func (p *iexporter) typOff(t types.Type, pkg *types.Package) uint64 {
off, ok := p.typIndex[t]
if !ok {
w := p.newWriter()
w.doTyp(t, pkg)
off = predeclReserved + w.flush()
p.typIndex[t] = off
}
return off
}
func (w *exportWriter) startType(k itag) {
w.data.uint64(uint64(k))
}
func (w *exportWriter) doTyp(t types.Type, pkg *types.Package) {
if trace {
w.p.trace("exporting type %s (%T)", t, t)
w.p.indent++
defer func() {
w.p.indent--
w.p.trace("=> %s", t)
}()
}
switch t := t.(type) {
case *types.Named:
if targs := t.TypeArgs(); targs.Len() > 0 {
w.startType(instanceType)
// TODO(rfindley): investigate if this position is correct, and if it
// matters.
w.pos(t.Obj().Pos())
w.typeList(targs, pkg)
w.typ(t.Origin(), pkg)
return
}
w.startType(definedType)
w.qualifiedType(t.Obj())
case *types.TypeParam:
w.startType(typeParamType)
w.qualifiedType(t.Obj())
case *types.Pointer:
w.startType(pointerType)
w.typ(t.Elem(), pkg)
case *types.Slice:
w.startType(sliceType)
w.typ(t.Elem(), pkg)
case *types.Array:
w.startType(arrayType)
w.uint64(uint64(t.Len()))
w.typ(t.Elem(), pkg)
case *types.Chan:
w.startType(chanType)
// 1 RecvOnly; 2 SendOnly; 3 SendRecv
var dir uint64
switch t.Dir() {
case types.RecvOnly:
dir = 1
case types.SendOnly:
dir = 2
case types.SendRecv:
dir = 3
}
w.uint64(dir)
w.typ(t.Elem(), pkg)
case *types.Map:
w.startType(mapType)
w.typ(t.Key(), pkg)
w.typ(t.Elem(), pkg)
case *types.Signature:
w.startType(signatureType)
w.pkg(pkg)
w.signature(t)
case *types.Struct:
w.startType(structType)
n := t.NumFields()
// Even for struct{} we must emit some qualifying package, because that's
// what the compiler does, and thus that's what the importer expects.
fieldPkg := pkg
if n > 0 {
fieldPkg = t.Field(0).Pkg()
}
if fieldPkg == nil {
// TODO(rfindley): improve this very hacky logic.
//
// The importer expects a package to be set for all struct types, even
// those with no fields. A better encoding might be to set NumFields
// before pkg. setPkg panics with a nil package, which may be possible
// to reach with invalid packages (and perhaps valid packages, too?), so
// (arbitrarily) set the localpkg if available.
//
// Alternatively, we may be able to simply guarantee that pkg != nil, by
// reconsidering the encoding of constant values.
if w.p.shallow {
fieldPkg = w.p.localpkg
} else {
panic(internalErrorf("no package to set for empty struct"))
}
}
w.pkg(fieldPkg)
w.uint64(uint64(n))
for i := 0; i < n; i++ {
f := t.Field(i)
if w.p.shallow {
w.objectPath(f)
}
w.pos(f.Pos())
w.string(f.Name()) // unexported fields implicitly qualified by prior setPkg
w.typ(f.Type(), fieldPkg)
w.bool(f.Anonymous())
w.string(t.Tag(i)) // note (or tag)
}
case *types.Interface:
w.startType(interfaceType)
w.pkg(pkg)
n := t.NumEmbeddeds()
w.uint64(uint64(n))
for i := 0; i < n; i++ {
ft := t.EmbeddedType(i)
tPkg := pkg
if named, _ := ft.(*types.Named); named != nil {
w.pos(named.Obj().Pos())
} else {
w.pos(token.NoPos)
}
w.typ(ft, tPkg)
}
// See comment for struct fields. In shallow mode we change the encoding
// for interface methods that are promoted from other packages.
n = t.NumExplicitMethods()
w.uint64(uint64(n))
for i := 0; i < n; i++ {
m := t.ExplicitMethod(i)
if w.p.shallow {
w.objectPath(m)
}
w.pos(m.Pos())
w.string(m.Name())
sig, _ := m.Type().(*types.Signature)
w.signature(sig)
}
case *types.Union:
w.startType(unionType)
nt := t.Len()
w.uint64(uint64(nt))
for i := 0; i < nt; i++ {
term := t.Term(i)
w.bool(term.Tilde())
w.typ(term.Type(), pkg)
}
default:
panic(internalErrorf("unexpected type: %v, %v", t, reflect.TypeOf(t)))
}
}
// objectPath writes the package and objectPath to use to look up obj in a
// different package, when encoding in "shallow" mode.
//
// When doing a shallow import, the importer creates only the local package,
// and requests package symbols for dependencies from the client.
// However, certain types defined in the local package may hold objects defined
// (perhaps deeply) within another package.
//
// For example, consider the following:
//
// package a
// func F() chan * map[string] struct { X int }
//
// package b
// import "a"
// var B = a.F()
//
// In this example, the type of b.B holds fields defined in package a.
// In order to have the correct canonical objects for the field defined in the
// type of B, they are encoded as objectPaths and later looked up in the
// importer. The same problem applies to interface methods.
func (w *exportWriter) objectPath(obj types.Object) {
if obj.Pkg() == nil || obj.Pkg() == w.p.localpkg {
// obj.Pkg() may be nil for the builtin error.Error.
// In this case, or if obj is declared in the local package, no need to
// encode.
w.string("")
return
}
objectPath, err := w.p.objectpathEncoder().For(obj)
if err != nil {
// Fall back to the empty string, which will cause the importer to create a
// new object, which matches earlier behavior. Creating a new object is
// sufficient for many purposes (such as type checking), but causes certain
// references algorithms to fail (golang/go#60819). However, we didn't
// notice this problem during months of gopls@v0.12.0 testing.
//
// TODO(golang/go#61674): this workaround is insufficient, as in the case
// where the field forwarded from an instantiated type that may not appear
// in the export data of the original package:
//
// // package a
// type A[P any] struct{ F P }
//
// // package b
// type B a.A[int]
//
// We need to update references algorithms not to depend on this
// de-duplication, at which point we may want to simply remove the
// workaround here.
w.string("")
return
}
w.string(string(objectPath))
w.pkg(obj.Pkg())
}
func (w *exportWriter) signature(sig *types.Signature) {
w.paramList(sig.Params())
w.paramList(sig.Results())
if sig.Params().Len() > 0 {
w.bool(sig.Variadic())
}
}
func (w *exportWriter) typeList(ts *types.TypeList, pkg *types.Package) {
w.uint64(uint64(ts.Len()))
for i := 0; i < ts.Len(); i++ {
w.typ(ts.At(i), pkg)
}
}
func (w *exportWriter) tparamList(prefix string, list *types.TypeParamList, pkg *types.Package) {
ll := uint64(list.Len())
w.uint64(ll)
for i := 0; i < list.Len(); i++ {
tparam := list.At(i)
// Set the type parameter exportName before exporting its type.
exportName := tparamExportName(prefix, tparam)
w.p.tparamNames[tparam.Obj()] = exportName
w.typ(list.At(i), pkg)
}
}
const blankMarker = "$"
// tparamExportName returns the 'exported' name of a type parameter, which
// differs from its actual object name: it is prefixed with a qualifier, and
// blank type parameter names are disambiguated by their index in the type
// parameter list.
func tparamExportName(prefix string, tparam *types.TypeParam) string {
assert(prefix != "")
name := tparam.Obj().Name()
if name == "_" {
name = blankMarker + strconv.Itoa(tparam.Index())
}
return prefix + "." + name
}
// tparamName returns the real name of a type parameter, after stripping its
// qualifying prefix and reverting blank-name encoding. See tparamExportName
// for details.
func tparamName(exportName string) string {
// Remove the "path" from the type param name that makes it unique.
ix := strings.LastIndex(exportName, ".")
if ix < 0 {
errorf("malformed type parameter export name %s: missing prefix", exportName)
}
name := exportName[ix+1:]
if strings.HasPrefix(name, blankMarker) {
return "_"
}
return name
}
func (w *exportWriter) paramList(tup *types.Tuple) {