go/internal/gcimporter/iimport.go - tools - Git at Google

 // Copyright 2018 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 package import.
 // See cmd/compile/internal/gc/iexport.go for the export data format.

 // This file is a copy of $GOROOT/src/go/internal/gcimporter/iimport.go.

 package gcimporter

 import (
 	"bytes"
 	"encoding/binary"
 	"fmt"
 	"go/constant"
 	"go/token"
 	"go/types"
 	"io"
 	"sort"
 )

 type intReader struct {
 	*bytes.Reader
 	path string
 }

 func (r *intReader) int64() int64 {
 	i, err := binary.ReadVarint(r.Reader)
 	if err != nil {
 		errorf("import %q: read varint error: %v", r.path, err)
 	}
 	return i
 }

 func (r *intReader) uint64() uint64 {
 	i, err := binary.ReadUvarint(r.Reader)
 	if err != nil {
 		errorf("import %q: read varint error: %v", r.path, err)
 	}
 	return i
 }

 const predeclReserved = 32

 type itag uint64

 const (
 	// Types
 	definedType itag = iota
 	pointerType
 	sliceType
 	arrayType
 	chanType
 	mapType
 	signatureType
 	structType
 	interfaceType
 )

 // IImportData imports a package from the serialized package data
 // and returns 0 and a reference to the package.
 // If the export data version is not recognized or the format is otherwise
 // compromised, an error is returned.
 func IImportData(fset *token.FileSet, imports map[string]*types.Package, data []byte, path string) (int, *types.Package, error) {
 	pkgs, err := iimportCommon(fset, imports, data, false, path)
 	if err != nil {
 		return 0, nil, err
 	}
 	return 0, pkgs[0], nil
 }

 // IImportBundle imports a set of packages from the serialized package bundle.
 func IImportBundle(fset *token.FileSet, imports map[string]*types.Package, data []byte) ([]*types.Package, error) {
 	return iimportCommon(fset, imports, data, true, "")
 }

 func iimportCommon(fset *token.FileSet, imports map[string]*types.Package, data []byte, bundle bool, path string) (pkgs []*types.Package, err error) {
 	const currentVersion = 1
 	version := int64(-1)
 	defer func() {
 		if e := recover(); e != nil {
 			if version > currentVersion {
 				err = fmt.Errorf("cannot import %q (%v), export data is newer version - update tool", path, e)
 			} else {
 				err = fmt.Errorf("cannot import %q (%v), possibly version skew - reinstall package", path, e)
 			}
 		}
 	}()

 	r := &intReader{bytes.NewReader(data), path}

 	if bundle {
 		bundleVersion := r.uint64()
 		switch bundleVersion {
 		case bundleVersion:
 		default:
 			errorf("unknown bundle format version %d", bundleVersion)
 		}
 	}

 	version = int64(r.uint64())
 	switch version {
 	case currentVersion, 0:
 	default:
 		errorf("unknown iexport format version %d", version)
 	}

 	sLen := int64(r.uint64())
 	dLen := int64(r.uint64())

 	whence, _ := r.Seek(0, io.SeekCurrent)
 	stringData := data[whence : whence+sLen]
 	declData := data[whence+sLen : whence+sLen+dLen]
 	r.Seek(sLen+dLen, io.SeekCurrent)

 	p := iimporter{
 		ipath:   path,
 		version: int(version),

 		stringData:  stringData,
 		stringCache: make(map[uint64]string),
 		pkgCache:    make(map[uint64]*types.Package),

 		declData: declData,
 		pkgIndex: make(map[*types.Package]map[string]uint64),
 		typCache: make(map[uint64]types.Type),

 		fake: fakeFileSet{
 			fset:  fset,
 			files: make(map[string]*token.File),
 		},
 	}

 	for i, pt := range predeclared() {
 		p.typCache[uint64(i)] = pt
 	}

 	pkgList := make([]*types.Package, r.uint64())
 	for i := range pkgList {
 		pkgPathOff := r.uint64()
 		pkgPath := p.stringAt(pkgPathOff)
 		pkgName := p.stringAt(r.uint64())
 		_ = r.uint64() // package height; unused by go/types

 		if pkgPath == "" {
 			pkgPath = path
 		}
 		pkg := imports[pkgPath]
 		if pkg == nil {
 			pkg = types.NewPackage(pkgPath, pkgName)
 			imports[pkgPath] = pkg
 		} else if pkg.Name() != pkgName {
 			errorf("conflicting names %s and %s for package %q", pkg.Name(), pkgName, path)
 		}

 		p.pkgCache[pkgPathOff] = pkg

 		nameIndex := make(map[string]uint64)
 		for nSyms := r.uint64(); nSyms > 0; nSyms-- {
 			name := p.stringAt(r.uint64())
 			nameIndex[name] = r.uint64()
 		}

 		p.pkgIndex[pkg] = nameIndex
 		pkgList[i] = pkg
 	}

 	if bundle {
 		pkgs = make([]*types.Package, r.uint64())
 		for i := range pkgs {
 			pkg := p.pkgAt(r.uint64())
 			imps := make([]*types.Package, r.uint64())
 			for j := range imps {
 				imps[j] = p.pkgAt(r.uint64())
 			}
 			pkg.SetImports(imps)
 			pkgs[i] = pkg
 		}
 	} else {
 		if len(pkgList) == 0 {
 			errorf("no packages found for %s", path)
 			panic("unreachable")
 		}
 		pkgs = pkgList[:1]

 		// record all referenced packages as imports
 		list := append(([]*types.Package)(nil), pkgList[1:]...)
 		sort.Sort(byPath(list))
 		pkgs[0].SetImports(list)
 	}

 	for _, pkg := range pkgs {
 		if pkg.Complete() {
 			continue
 		}

 		names := make([]string, 0, len(p.pkgIndex[pkg]))
 		for name := range p.pkgIndex[pkg] {
 			names = append(names, name)
 		}
 		sort.Strings(names)
 		for _, name := range names {
 			p.doDecl(pkg, name)
 		}

 		// package was imported completely and without errors
 		pkg.MarkComplete()
 	}

 	for _, typ := range p.interfaceList {
 		typ.Complete()
 	}

 	return pkgs, nil
 }

 type iimporter struct {
 	ipath   string
 	version int

 	stringData  []byte
 	stringCache map[uint64]string
 	pkgCache    map[uint64]*types.Package

 	declData []byte
 	pkgIndex map[*types.Package]map[string]uint64
 	typCache map[uint64]types.Type

 	fake          fakeFileSet
 	interfaceList []*types.Interface
 }

 func (p *iimporter) doDecl(pkg *types.Package, name string) {
 	// See if we've already imported this declaration.
 	if obj := pkg.Scope().Lookup(name); obj != nil {
 		return
 	}

 	off, ok := p.pkgIndex[pkg][name]
 	if !ok {
 		errorf("%v.%v not in index", pkg, name)
 	}

 	r := &importReader{p: p, currPkg: pkg}
 	r.declReader.Reset(p.declData[off:])

 	r.obj(name)
 }

 func (p *iimporter) stringAt(off uint64) string {
 	if s, ok := p.stringCache[off]; ok {
 		return s
 	}

 	slen, n := binary.Uvarint(p.stringData[off:])
 	if n <= 0 {
 		errorf("varint failed")
 	}
 	spos := off + uint64(n)
 	s := string(p.stringData[spos : spos+slen])
 	p.stringCache[off] = s
 	return s
 }

 func (p *iimporter) pkgAt(off uint64) *types.Package {
 	if pkg, ok := p.pkgCache[off]; ok {
 		return pkg
 	}
 	path := p.stringAt(off)
 	errorf("missing package %q in %q", path, p.ipath)
 	return nil
 }

 func (p *iimporter) typAt(off uint64, base *types.Named) types.Type {
 	if t, ok := p.typCache[off]; ok && (base == nil || !isInterface(t)) {
 		return t
 	}

 	if off < predeclReserved {
 		errorf("predeclared type missing from cache: %v", off)
 	}

 	r := &importReader{p: p}
 	r.declReader.Reset(p.declData[off-predeclReserved:])
 	t := r.doType(base)

 	if base == nil || !isInterface(t) {
 		p.typCache[off] = t
 	}
 	return t
 }

 type importReader struct {
 	p          *iimporter
 	declReader bytes.Reader
 	currPkg    *types.Package
 	prevFile   string
 	prevLine   int64
 	prevColumn int64
 }

 func (r *importReader) obj(name string) {
 	tag := r.byte()
 	pos := r.pos()

 	switch tag {
 	case 'A':
 		typ := r.typ()

 		r.declare(types.NewTypeName(pos, r.currPkg, name, typ))

 	case 'C':
 		typ, val := r.value()

 		r.declare(types.NewConst(pos, r.currPkg, name, typ, val))

 	case 'F':
 		sig := r.signature(nil)

 		r.declare(types.NewFunc(pos, r.currPkg, name, sig))

 	case 'T':
 		// Types can be recursive. We need to setup a stub
 		// declaration before recursing.
 		obj := types.NewTypeName(pos, r.currPkg, name, nil)
 		named := types.NewNamed(obj, nil, nil)
 		r.declare(obj)

 		underlying := r.p.typAt(r.uint64(), named).Underlying()
 		named.SetUnderlying(underlying)

 		if !isInterface(underlying) {
 			for n := r.uint64(); n > 0; n-- {
 				mpos := r.pos()
 				mname := r.ident()
 				recv := r.param()
 				msig := r.signature(recv)

 				named.AddMethod(types.NewFunc(mpos, r.currPkg, mname, msig))
 			}
 		}

 	case 'V':
 		typ := r.typ()

 		r.declare(types.NewVar(pos, r.currPkg, name, typ))

 	default:
 		errorf("unexpected tag: %v", tag)
 	}
 }

 func (r *importReader) declare(obj types.Object) {
 	obj.Pkg().Scope().Insert(obj)
 }

 func (r *importReader) value() (typ types.Type, val constant.Value) {
 	typ = r.typ()

 	switch b := typ.Underlying().(*types.Basic); b.Info() & types.IsConstType {
 	case types.IsBoolean:
 		val = constant.MakeBool(r.bool())

 	case types.IsString:
 		val = constant.MakeString(r.string())

 	case types.IsInteger:
 		val = r.mpint(b)

 	case types.IsFloat:
 		val = r.mpfloat(b)

 	case types.IsComplex:
 		re := r.mpfloat(b)
 		im := r.mpfloat(b)
 		val = constant.BinaryOp(re, token.ADD, constant.MakeImag(im))

 	default:
 		if b.Kind() == types.Invalid {
 			val = constant.MakeUnknown()
 			return
 		}
 		errorf("unexpected type %v", typ) // panics
 		panic("unreachable")
 	}

 	return
 }

 func intSize(b *types.Basic) (signed bool, maxBytes uint) {
 	if (b.Info() & types.IsUntyped) != 0 {
 		return true, 64
 	}

 	switch b.Kind() {
 	case types.Float32, types.Complex64:
 		return true, 3
 	case types.Float64, types.Complex128:
 		return true, 7
 	}

 	signed = (b.Info() & types.IsUnsigned) == 0
 	switch b.Kind() {
 	case types.Int8, types.Uint8:
 		maxBytes = 1
 	case types.Int16, types.Uint16:
 		maxBytes = 2
 	case types.Int32, types.Uint32:
 		maxBytes = 4
 	default:
 		maxBytes = 8
 	}

 	return
 }

 func (r *importReader) mpint(b *types.Basic) constant.Value {
 	signed, maxBytes := intSize(b)

 	maxSmall := 256 - maxBytes
 	if signed {
 		maxSmall = 256 - 2*maxBytes
 	}
 	if maxBytes == 1 {
 		maxSmall = 256
 	}

 	n, _ := r.declReader.ReadByte()
 	if uint(n) < maxSmall {
 		v := int64(n)
 		if signed {
 			v >>= 1
 			if n&1 != 0 {
 				v = ^v
 			}
 		}
 		return constant.MakeInt64(v)
 	}

 	v := -n
 	if signed {
 		v = -(n &^ 1) >> 1
 	}
 	if v < 1 || uint(v) > maxBytes {
 		errorf("weird decoding: %v, %v => %v", n, signed, v)
 	}

 	buf := make([]byte, v)
 	io.ReadFull(&r.declReader, buf)

 	// convert to little endian
 	// TODO(gri) go/constant should have a more direct conversion function
 	//           (e.g., once it supports a big.Float based implementation)
 	for i, j := 0, len(buf)-1; i < j; i, j = i+1, j-1 {
 		buf[i], buf[j] = buf[j], buf[i]
 	}

 	x := constant.MakeFromBytes(buf)
 	if signed && n&1 != 0 {
 		x = constant.UnaryOp(token.SUB, x, 0)
 	}
 	return x
 }

 func (r *importReader) mpfloat(b *types.Basic) constant.Value {
 	x := r.mpint(b)
 	if constant.Sign(x) == 0 {
 		return x
 	}

 	exp := r.int64()
 	switch {
 	case exp > 0:
 		x = constant.Shift(x, token.SHL, uint(exp))
 		// Ensure that the imported Kind is Float, else this constant may run into
 		// bitsize limits on overlarge integers. Eventually we can instead adopt
 		// the approach of CL 288632, but that CL relies on go/constant APIs that
 		// were introduced in go1.13.
 		//
 		// TODO(rFindley): sync the logic here with tip Go once we no longer
 		// support go1.12.
 		x = constant.ToFloat(x)
 	case exp < 0:
 		d := constant.Shift(constant.MakeInt64(1), token.SHL, uint(-exp))
 		x = constant.BinaryOp(x, token.QUO, d)
 	}
 	return x
 }

 func (r *importReader) ident() string {
 	return r.string()
 }

 func (r *importReader) qualifiedIdent() (*types.Package, string) {
 	name := r.string()
 	pkg := r.pkg()
 	return pkg, name
 }

 func (r *importReader) pos() token.Pos {
 	if r.p.version >= 1 {
 		r.posv1()
 	} else {
 		r.posv0()
 	}

 	if r.prevFile == "" && r.prevLine == 0 && r.prevColumn == 0 {
 		return token.NoPos
 	}
 	return r.p.fake.pos(r.prevFile, int(r.prevLine), int(r.prevColumn))
 }

 func (r *importReader) posv0() {
 	delta := r.int64()
 	if delta != deltaNewFile {
 		r.prevLine += delta
 	} else if l := r.int64(); l == -1 {
 		r.prevLine += deltaNewFile
 	} else {
 		r.prevFile = r.string()
 		r.prevLine = l
 	}
 }

 func (r *importReader) posv1() {
 	delta := r.int64()
 	r.prevColumn += delta >> 1
 	if delta&1 != 0 {
 		delta = r.int64()
 		r.prevLine += delta >> 1
 		if delta&1 != 0 {
 			r.prevFile = r.string()
 		}
 	}
 }

 func (r *importReader) typ() types.Type {
 	return r.p.typAt(r.uint64(), nil)
 }

 func isInterface(t types.Type) bool {
 	_, ok := t.(*types.Interface)
 	return ok
 }

 func (r *importReader) pkg() *types.Package { return r.p.pkgAt(r.uint64()) }
 func (r *importReader) string() string      { return r.p.stringAt(r.uint64()) }

 func (r *importReader) doType(base *types.Named) types.Type {
 	switch k := r.kind(); k {
 	default:
 		errorf("unexpected kind tag in %q: %v", r.p.ipath, k)
 		return nil

 	case definedType:
 		pkg, name := r.qualifiedIdent()
 		r.p.doDecl(pkg, name)
 		return pkg.Scope().Lookup(name).(*types.TypeName).Type()
 	case pointerType:
 		return types.NewPointer(r.typ())
 	case sliceType:
 		return types.NewSlice(r.typ())
 	case arrayType:
 		n := r.uint64()
 		return types.NewArray(r.typ(), int64(n))
 	case chanType:
 		dir := chanDir(int(r.uint64()))
 		return types.NewChan(dir, r.typ())
 	case mapType:
 		return types.NewMap(r.typ(), r.typ())
 	case signatureType:
 		r.currPkg = r.pkg()
 		return r.signature(nil)

 	case structType:
 		r.currPkg = r.pkg()

 		fields := make([]*types.Var, r.uint64())
 		tags := make([]string, len(fields))
 		for i := range fields {
 			fpos := r.pos()
 			fname := r.ident()
 			ftyp := r.typ()
 			emb := r.bool()
 			tag := r.string()

 			fields[i] = types.NewField(fpos, r.currPkg, fname, ftyp, emb)
 			tags[i] = tag
 		}
 		return types.NewStruct(fields, tags)

 	case interfaceType:
 		r.currPkg = r.pkg()

 		embeddeds := make([]types.Type, r.uint64())
 		for i := range embeddeds {
 			_ = r.pos()
 			embeddeds[i] = r.typ()
 		}

 		methods := make([]*types.Func, r.uint64())
 		for i := range methods {
 			mpos := r.pos()
 			mname := r.ident()

 			// TODO(mdempsky): Matches bimport.go, but I
 			// don't agree with this.
 			var recv *types.Var
 			if base != nil {
 				recv = types.NewVar(token.NoPos, r.currPkg, "", base)
 			}

 			msig := r.signature(recv)
 			methods[i] = types.NewFunc(mpos, r.currPkg, mname, msig)
 		}

 		typ := newInterface(methods, embeddeds)
 		r.p.interfaceList = append(r.p.interfaceList, typ)
 		return typ
 	}
 }

 func (r *importReader) kind() itag {
 	return itag(r.uint64())
 }

 func (r *importReader) signature(recv *types.Var) *types.Signature {
 	params := r.paramList()
 	results := r.paramList()
 	variadic := params.Len() > 0 && r.bool()
 	return types.NewSignature(recv, params, results, variadic)
 }

 func (r *importReader) paramList() *types.Tuple {
 	xs := make([]*types.Var, r.uint64())
 	for i := range xs {
 		xs[i] = r.param()
 	}
 	return types.NewTuple(xs...)
 }

 func (r *importReader) param() *types.Var {
 	pos := r.pos()
 	name := r.ident()
 	typ := r.typ()
 	return types.NewParam(pos, r.currPkg, name, typ)
 }

 func (r *importReader) bool() bool {
 	return r.uint64() != 0
 }

 func (r *importReader) int64() int64 {
 	n, err := binary.ReadVarint(&r.declReader)
 	if err != nil {
 		errorf("readVarint: %v", err)
 	}
 	return n
 }

 func (r *importReader) uint64() uint64 {
 	n, err := binary.ReadUvarint(&r.declReader)
 	if err != nil {
 		errorf("readUvarint: %v", err)
 	}
 	return n
 }

 func (r *importReader) byte() byte {
 	x, err := r.declReader.ReadByte()
 	if err != nil {
 		errorf("declReader.ReadByte: %v", err)
 	}
 	return x
 }
	// Copyright 2018 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 package import.
	// See cmd/compile/internal/gc/iexport.go for the export data format.

	// This file is a copy of $GOROOT/src/go/internal/gcimporter/iimport.go.

	package gcimporter

	import (
	"bytes"
	"encoding/binary"
	"fmt"
	"go/constant"
	"go/token"
	"go/types"
	"io"
	"sort"
	)

	type intReader struct {
	*bytes.Reader
	path string
	}

	func (r *intReader) int64() int64 {
	i, err := binary.ReadVarint(r.Reader)
	if err != nil {
	errorf("import %q: read varint error: %v", r.path, err)
	}
	return i
	}

	func (r *intReader) uint64() uint64 {
	i, err := binary.ReadUvarint(r.Reader)
	if err != nil {
	errorf("import %q: read varint error: %v", r.path, err)
	}
	return i
	}

	const predeclReserved = 32

	type itag uint64

	const (
	// Types
	definedType itag = iota
	pointerType
	sliceType
	arrayType
	chanType
	mapType
	signatureType
	structType
	interfaceType
	)

	// IImportData imports a package from the serialized package data
	// and returns 0 and a reference to the package.
	// If the export data version is not recognized or the format is otherwise
	// compromised, an error is returned.
	func IImportData(fset token.FileSet, imports map[string]types.Package, data []byte, path string) (int, *types.Package, error) {
	pkgs, err := iimportCommon(fset, imports, data, false, path)
	if err != nil {
	return 0, nil, err
	}
	return 0, pkgs[0], nil
	}

	// IImportBundle imports a set of packages from the serialized package bundle.
	func IImportBundle(fset token.FileSet, imports map[string]types.Package, data []byte) ([]*types.Package, error) {
	return iimportCommon(fset, imports, data, true, "")
	}

	func iimportCommon(fset token.FileSet, imports map[string]types.Package, data []byte, bundle bool, path string) (pkgs []*types.Package, err error) {
	const currentVersion = 1
	version := int64(-1)
	defer func() {
	if e := recover(); e != nil {
	if version > currentVersion {
	err = fmt.Errorf("cannot import %q (%v), export data is newer version - update tool", path, e)
	} else {
	err = fmt.Errorf("cannot import %q (%v), possibly version skew - reinstall package", path, e)
	}
	}
	}()

	r := &intReader{bytes.NewReader(data), path}

	if bundle {
	bundleVersion := r.uint64()
	switch bundleVersion {
	case bundleVersion:
	default:
	errorf("unknown bundle format version %d", bundleVersion)
	}
	}

	version = int64(r.uint64())
	switch version {
	case currentVersion, 0:
	default:
	errorf("unknown iexport format version %d", version)
	}

	sLen := int64(r.uint64())
	dLen := int64(r.uint64())

	whence, _ := r.Seek(0, io.SeekCurrent)
	stringData := data[whence : whence+sLen]
	declData := data[whence+sLen : whence+sLen+dLen]
	r.Seek(sLen+dLen, io.SeekCurrent)

	p := iimporter{
	ipath: path,
	version: int(version),

	stringData: stringData,
	stringCache: make(map[uint64]string),
	pkgCache: make(map[uint64]*types.Package),

	declData: declData,
	pkgIndex: make(map[*types.Package]map[string]uint64),
	typCache: make(map[uint64]types.Type),

	fake: fakeFileSet{
	fset: fset,
	files: make(map[string]*token.File),
	},
	}

	for i, pt := range predeclared() {
	p.typCache[uint64(i)] = pt
	}

	pkgList := make([]*types.Package, r.uint64())
	for i := range pkgList {
	pkgPathOff := r.uint64()
	pkgPath := p.stringAt(pkgPathOff)
	pkgName := p.stringAt(r.uint64())
	_ = r.uint64() // package height; unused by go/types

	if pkgPath == "" {
	pkgPath = path
	}
	pkg := imports[pkgPath]
	if pkg == nil {
	pkg = types.NewPackage(pkgPath, pkgName)
	imports[pkgPath] = pkg
	} else if pkg.Name() != pkgName {
	errorf("conflicting names %s and %s for package %q", pkg.Name(), pkgName, path)
	}

	p.pkgCache[pkgPathOff] = pkg

	nameIndex := make(map[string]uint64)
	for nSyms := r.uint64(); nSyms > 0; nSyms-- {
	name := p.stringAt(r.uint64())
	nameIndex[name] = r.uint64()
	}

	p.pkgIndex[pkg] = nameIndex
	pkgList[i] = pkg
	}

	if bundle {
	pkgs = make([]*types.Package, r.uint64())
	for i := range pkgs {
	pkg := p.pkgAt(r.uint64())
	imps := make([]*types.Package, r.uint64())
	for j := range imps {
	imps[j] = p.pkgAt(r.uint64())
	}
	pkg.SetImports(imps)
	pkgs[i] = pkg
	}
	} else {
	if len(pkgList) == 0 {
	errorf("no packages found for %s", path)
	panic("unreachable")
	}
	pkgs = pkgList[:1]

	// record all referenced packages as imports
	list := append(([]*types.Package)(nil), pkgList[1:]...)
	sort.Sort(byPath(list))
	pkgs[0].SetImports(list)
	}

	for _, pkg := range pkgs {
	if pkg.Complete() {
	continue
	}

	names := make([]string, 0, len(p.pkgIndex[pkg]))
	for name := range p.pkgIndex[pkg] {
	names = append(names, name)
	}
	sort.Strings(names)
	for _, name := range names {
	p.doDecl(pkg, name)
	}

	// package was imported completely and without errors
	pkg.MarkComplete()
	}

	for _, typ := range p.interfaceList {
	typ.Complete()
	}

	return pkgs, nil
	}

	type iimporter struct {
	ipath string
	version int

	stringData []byte
	stringCache map[uint64]string
	pkgCache map[uint64]*types.Package

	declData []byte
	pkgIndex map[*types.Package]map[string]uint64
	typCache map[uint64]types.Type

	fake fakeFileSet
	interfaceList []*types.Interface
	}

	func (p iimporter) doDecl(pkg types.Package, name string) {
	// See if we've already imported this declaration.
	if obj := pkg.Scope().Lookup(name); obj != nil {
	return
	}

	off, ok := p.pkgIndex[pkg][name]
	if !ok {
	errorf("%v.%v not in index", pkg, name)
	}

	r := &importReader{p: p, currPkg: pkg}
	r.declReader.Reset(p.declData[off:])

	r.obj(name)
	}

	func (p *iimporter) stringAt(off uint64) string {
	if s, ok := p.stringCache[off]; ok {
	return s
	}

	slen, n := binary.Uvarint(p.stringData[off:])
	if n <= 0 {
	errorf("varint failed")
	}
	spos := off + uint64(n)
	s := string(p.stringData[spos : spos+slen])
	p.stringCache[off] = s
	return s
	}

	func (p iimporter) pkgAt(off uint64) types.Package {
	if pkg, ok := p.pkgCache[off]; ok {
	return pkg
	}
	path := p.stringAt(off)
	errorf("missing package %q in %q", path, p.ipath)
	return nil
	}

	func (p iimporter) typAt(off uint64, base types.Named) types.Type {
	if t, ok := p.typCache[off]; ok && (base == nil \|\| !isInterface(t)) {
	return t
	}

	if off < predeclReserved {
	errorf("predeclared type missing from cache: %v", off)
	}

	r := &importReader{p: p}
	r.declReader.Reset(p.declData[off-predeclReserved:])
	t := r.doType(base)

	if base == nil \|\| !isInterface(t) {
	p.typCache[off] = t
	}
	return t
	}

	type importReader struct {
	p *iimporter
	declReader bytes.Reader
	currPkg *types.Package
	prevFile string
	prevLine int64
	prevColumn int64
	}

	func (r *importReader) obj(name string) {
	tag := r.byte()
	pos := r.pos()

	switch tag {
	case 'A':
	typ := r.typ()

	r.declare(types.NewTypeName(pos, r.currPkg, name, typ))

	case 'C':
	typ, val := r.value()

	r.declare(types.NewConst(pos, r.currPkg, name, typ, val))

	case 'F':
	sig := r.signature(nil)

	r.declare(types.NewFunc(pos, r.currPkg, name, sig))

	case 'T':
	// Types can be recursive. We need to setup a stub
	// declaration before recursing.
	obj := types.NewTypeName(pos, r.currPkg, name, nil)
	named := types.NewNamed(obj, nil, nil)
	r.declare(obj)

	underlying := r.p.typAt(r.uint64(), named).Underlying()
	named.SetUnderlying(underlying)

	if !isInterface(underlying) {
	for n := r.uint64(); n > 0; n-- {
	mpos := r.pos()
	mname := r.ident()
	recv := r.param()
	msig := r.signature(recv)

	named.AddMethod(types.NewFunc(mpos, r.currPkg, mname, msig))
	}
	}

	case 'V':
	typ := r.typ()

	r.declare(types.NewVar(pos, r.currPkg, name, typ))

	default:
	errorf("unexpected tag: %v", tag)
	}
	}

	func (r *importReader) declare(obj types.Object) {
	obj.Pkg().Scope().Insert(obj)
	}

	func (r *importReader) value() (typ types.Type, val constant.Value) {
	typ = r.typ()

	switch b := typ.Underlying().(*types.Basic); b.Info() & types.IsConstType {
	case types.IsBoolean:
	val = constant.MakeBool(r.bool())

	case types.IsString:
	val = constant.MakeString(r.string())

	case types.IsInteger:
	val = r.mpint(b)

	case types.IsFloat:
	val = r.mpfloat(b)

	case types.IsComplex:
	re := r.mpfloat(b)
	im := r.mpfloat(b)
	val = constant.BinaryOp(re, token.ADD, constant.MakeImag(im))

	default:
	if b.Kind() == types.Invalid {
	val = constant.MakeUnknown()
	return
	}
	errorf("unexpected type %v", typ) // panics
	panic("unreachable")
	}

	return
	}

	func intSize(b *types.Basic) (signed bool, maxBytes uint) {
	if (b.Info() & types.IsUntyped) != 0 {
	return true, 64
	}

	switch b.Kind() {
	case types.Float32, types.Complex64:
	return true, 3
	case types.Float64, types.Complex128:
	return true, 7
	}

	signed = (b.Info() & types.IsUnsigned) == 0
	switch b.Kind() {
	case types.Int8, types.Uint8:
	maxBytes = 1
	case types.Int16, types.Uint16:
	maxBytes = 2
	case types.Int32, types.Uint32:
	maxBytes = 4
	default:
	maxBytes = 8
	}

	return
	}

	func (r importReader) mpint(b types.Basic) constant.Value {
	signed, maxBytes := intSize(b)

	maxSmall := 256 - maxBytes
	if signed {
	maxSmall = 256 - 2*maxBytes
	}
	if maxBytes == 1 {
	maxSmall = 256
	}

	n, _ := r.declReader.ReadByte()
	if uint(n) < maxSmall {
	v := int64(n)
	if signed {
	v >>= 1
	if n&1 != 0 {
	v = ^v
	}
	}
	return constant.MakeInt64(v)
	}

	v := -n
	if signed {
	v = -(n &^ 1) >> 1
	}
	if v < 1 \|\| uint(v) > maxBytes {
	errorf("weird decoding: %v, %v => %v", n, signed, v)
	}

	buf := make([]byte, v)
	io.ReadFull(&r.declReader, buf)

	// convert to little endian
	// TODO(gri) go/constant should have a more direct conversion function
	// (e.g., once it supports a big.Float based implementation)
	for i, j := 0, len(buf)-1; i < j; i, j = i+1, j-1 {
	buf[i], buf[j] = buf[j], buf[i]
	}

	x := constant.MakeFromBytes(buf)
	if signed && n&1 != 0 {
	x = constant.UnaryOp(token.SUB, x, 0)
	}
	return x
	}

	func (r importReader) mpfloat(b types.Basic) constant.Value {
	x := r.mpint(b)
	if constant.Sign(x) == 0 {
	return x
	}

	exp := r.int64()
	switch {
	case exp > 0:
	x = constant.Shift(x, token.SHL, uint(exp))
	// Ensure that the imported Kind is Float, else this constant may run into
	// bitsize limits on overlarge integers. Eventually we can instead adopt
	// the approach of CL 288632, but that CL relies on go/constant APIs that
	// were introduced in go1.13.
	//
	// TODO(rFindley): sync the logic here with tip Go once we no longer
	// support go1.12.
	x = constant.ToFloat(x)
	case exp < 0:
	d := constant.Shift(constant.MakeInt64(1), token.SHL, uint(-exp))
	x = constant.BinaryOp(x, token.QUO, d)
	}
	return x
	}

	func (r *importReader) ident() string {
	return r.string()
	}

	func (r importReader) qualifiedIdent() (types.Package, string) {
	name := r.string()
	pkg := r.pkg()
	return pkg, name
	}

	func (r *importReader) pos() token.Pos {
	if r.p.version >= 1 {
	r.posv1()
	} else {
	r.posv0()
	}

	if r.prevFile == "" && r.prevLine == 0 && r.prevColumn == 0 {
	return token.NoPos
	}
	return r.p.fake.pos(r.prevFile, int(r.prevLine), int(r.prevColumn))
	}

	func (r *importReader) posv0() {
	delta := r.int64()
	if delta != deltaNewFile {
	r.prevLine += delta
	} else if l := r.int64(); l == -1 {
	r.prevLine += deltaNewFile
	} else {
	r.prevFile = r.string()
	r.prevLine = l
	}
	}

	func (r *importReader) posv1() {
	delta := r.int64()
	r.prevColumn += delta >> 1
	if delta&1 != 0 {
	delta = r.int64()
	r.prevLine += delta >> 1
	if delta&1 != 0 {
	r.prevFile = r.string()
	}
	}
	}

	func (r *importReader) typ() types.Type {
	return r.p.typAt(r.uint64(), nil)
	}

	func isInterface(t types.Type) bool {
	_, ok := t.(*types.Interface)
	return ok
	}

	func (r importReader) pkg() types.Package { return r.p.pkgAt(r.uint64()) }
	func (r *importReader) string() string { return r.p.stringAt(r.uint64()) }

	func (r importReader) doType(base types.Named) types.Type {
	switch k := r.kind(); k {
	default:
	errorf("unexpected kind tag in %q: %v", r.p.ipath, k)
	return nil

	case definedType:
	pkg, name := r.qualifiedIdent()
	r.p.doDecl(pkg, name)
	return pkg.Scope().Lookup(name).(*types.TypeName).Type()
	case pointerType:
	return types.NewPointer(r.typ())
	case sliceType:
	return types.NewSlice(r.typ())
	case arrayType:
	n := r.uint64()
	return types.NewArray(r.typ(), int64(n))
	case chanType:
	dir := chanDir(int(r.uint64()))
	return types.NewChan(dir, r.typ())
	case mapType:
	return types.NewMap(r.typ(), r.typ())
	case signatureType:
	r.currPkg = r.pkg()
	return r.signature(nil)

	case structType:
	r.currPkg = r.pkg()

	fields := make([]*types.Var, r.uint64())
	tags := make([]string, len(fields))
	for i := range fields {
	fpos := r.pos()
	fname := r.ident()
	ftyp := r.typ()
	emb := r.bool()
	tag := r.string()

	fields[i] = types.NewField(fpos, r.currPkg, fname, ftyp, emb)
	tags[i] = tag
	}
	return types.NewStruct(fields, tags)

	case interfaceType:
	r.currPkg = r.pkg()

	embeddeds := make([]types.Type, r.uint64())
	for i := range embeddeds {
	_ = r.pos()
	embeddeds[i] = r.typ()
	}

	methods := make([]*types.Func, r.uint64())
	for i := range methods {
	mpos := r.pos()
	mname := r.ident()

	// TODO(mdempsky): Matches bimport.go, but I
	// don't agree with this.
	var recv *types.Var
	if base != nil {
	recv = types.NewVar(token.NoPos, r.currPkg, "", base)
	}

	msig := r.signature(recv)
	methods[i] = types.NewFunc(mpos, r.currPkg, mname, msig)
	}

	typ := newInterface(methods, embeddeds)
	r.p.interfaceList = append(r.p.interfaceList, typ)
	return typ
	}
	}

	func (r *importReader) kind() itag {
	return itag(r.uint64())
	}

	func (r importReader) signature(recv types.Var) *types.Signature {
	params := r.paramList()
	results := r.paramList()
	variadic := params.Len() > 0 && r.bool()
	return types.NewSignature(recv, params, results, variadic)
	}

	func (r importReader) paramList() types.Tuple {
	xs := make([]*types.Var, r.uint64())
	for i := range xs {
	xs[i] = r.param()
	}
	return types.NewTuple(xs...)
	}

	func (r importReader) param() types.Var {
	pos := r.pos()
	name := r.ident()
	typ := r.typ()
	return types.NewParam(pos, r.currPkg, name, typ)
	}

	func (r *importReader) bool() bool {
	return r.uint64() != 0
	}

	func (r *importReader) int64() int64 {
	n, err := binary.ReadVarint(&r.declReader)
	if err != nil {
	errorf("readVarint: %v", err)
	}
	return n
	}

	func (r *importReader) uint64() uint64 {
	n, err := binary.ReadUvarint(&r.declReader)
	if err != nil {
	errorf("readUvarint: %v", err)
	}
	return n
	}

	func (r *importReader) byte() byte {
	x, err := r.declReader.ReadByte()
	if err != nil {
	errorf("declReader.ReadByte: %v", err)
	}
	return x
	}