github.com/v2fly/tools@v0.100.0/go/internal/gcimporter/bexport.go (about)

     1  // Copyright 2016 The Go Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  // Binary package export.
     6  // This file was derived from $GOROOT/src/cmd/compile/internal/gc/bexport.go;
     7  // see that file for specification of the format.
     8  
     9  package gcimporter
    10  
    11  import (
    12  	"bytes"
    13  	"encoding/binary"
    14  	"fmt"
    15  	"go/ast"
    16  	"go/constant"
    17  	"go/token"
    18  	"go/types"
    19  	"math"
    20  	"math/big"
    21  	"sort"
    22  	"strings"
    23  )
    24  
    25  // If debugFormat is set, each integer and string value is preceded by a marker
    26  // and position information in the encoding. This mechanism permits an importer
    27  // to recognize immediately when it is out of sync. The importer recognizes this
    28  // mode automatically (i.e., it can import export data produced with debugging
    29  // support even if debugFormat is not set at the time of import). This mode will
    30  // lead to massively larger export data (by a factor of 2 to 3) and should only
    31  // be enabled during development and debugging.
    32  //
    33  // NOTE: This flag is the first flag to enable if importing dies because of
    34  // (suspected) format errors, and whenever a change is made to the format.
    35  const debugFormat = false // default: false
    36  
    37  // If trace is set, debugging output is printed to std out.
    38  const trace = false // default: false
    39  
    40  // Current export format version. Increase with each format change.
    41  // Note: The latest binary (non-indexed) export format is at version 6.
    42  //       This exporter is still at level 4, but it doesn't matter since
    43  //       the binary importer can handle older versions just fine.
    44  // 6: package height (CL 105038) -- NOT IMPLEMENTED HERE
    45  // 5: improved position encoding efficiency (issue 20080, CL 41619) -- NOT IMPLEMEMTED HERE
    46  // 4: type name objects support type aliases, uses aliasTag
    47  // 3: Go1.8 encoding (same as version 2, aliasTag defined but never used)
    48  // 2: removed unused bool in ODCL export (compiler only)
    49  // 1: header format change (more regular), export package for _ struct fields
    50  // 0: Go1.7 encoding
    51  const exportVersion = 4
    52  
    53  // trackAllTypes enables cycle tracking for all types, not just named
    54  // types. The existing compiler invariants assume that unnamed types
    55  // that are not completely set up are not used, or else there are spurious
    56  // errors.
    57  // If disabled, only named types are tracked, possibly leading to slightly
    58  // less efficient encoding in rare cases. It also prevents the export of
    59  // some corner-case type declarations (but those are not handled correctly
    60  // with with the textual export format either).
    61  // TODO(gri) enable and remove once issues caused by it are fixed
    62  const trackAllTypes = false
    63  
    64  type exporter struct {
    65  	fset *token.FileSet
    66  	out  bytes.Buffer
    67  
    68  	// object -> index maps, indexed in order of serialization
    69  	strIndex map[string]int
    70  	pkgIndex map[*types.Package]int
    71  	typIndex map[types.Type]int
    72  
    73  	// position encoding
    74  	posInfoFormat bool
    75  	prevFile      string
    76  	prevLine      int
    77  
    78  	// debugging support
    79  	written int // bytes written
    80  	indent  int // for trace
    81  }
    82  
    83  // internalError represents an error generated inside this package.
    84  type internalError string
    85  
    86  func (e internalError) Error() string { return "gcimporter: " + string(e) }
    87  
    88  func internalErrorf(format string, args ...interface{}) error {
    89  	return internalError(fmt.Sprintf(format, args...))
    90  }
    91  
    92  // BExportData returns binary export data for pkg.
    93  // If no file set is provided, position info will be missing.
    94  func BExportData(fset *token.FileSet, pkg *types.Package) (b []byte, err error) {
    95  	defer func() {
    96  		if e := recover(); e != nil {
    97  			if ierr, ok := e.(internalError); ok {
    98  				err = ierr
    99  				return
   100  			}
   101  			// Not an internal error; panic again.
   102  			panic(e)
   103  		}
   104  	}()
   105  
   106  	p := exporter{
   107  		fset:          fset,
   108  		strIndex:      map[string]int{"": 0}, // empty string is mapped to 0
   109  		pkgIndex:      make(map[*types.Package]int),
   110  		typIndex:      make(map[types.Type]int),
   111  		posInfoFormat: true, // TODO(gri) might become a flag, eventually
   112  	}
   113  
   114  	// write version info
   115  	// The version string must start with "version %d" where %d is the version
   116  	// number. Additional debugging information may follow after a blank; that
   117  	// text is ignored by the importer.
   118  	p.rawStringln(fmt.Sprintf("version %d", exportVersion))
   119  	var debug string
   120  	if debugFormat {
   121  		debug = "debug"
   122  	}
   123  	p.rawStringln(debug) // cannot use p.bool since it's affected by debugFormat; also want to see this clearly
   124  	p.bool(trackAllTypes)
   125  	p.bool(p.posInfoFormat)
   126  
   127  	// --- generic export data ---
   128  
   129  	// populate type map with predeclared "known" types
   130  	for index, typ := range predeclared() {
   131  		p.typIndex[typ] = index
   132  	}
   133  	if len(p.typIndex) != len(predeclared()) {
   134  		return nil, internalError("duplicate entries in type map?")
   135  	}
   136  
   137  	// write package data
   138  	p.pkg(pkg, true)
   139  	if trace {
   140  		p.tracef("\n")
   141  	}
   142  
   143  	// write objects
   144  	objcount := 0
   145  	scope := pkg.Scope()
   146  	for _, name := range scope.Names() {
   147  		if !ast.IsExported(name) {
   148  			continue
   149  		}
   150  		if trace {
   151  			p.tracef("\n")
   152  		}
   153  		p.obj(scope.Lookup(name))
   154  		objcount++
   155  	}
   156  
   157  	// indicate end of list
   158  	if trace {
   159  		p.tracef("\n")
   160  	}
   161  	p.tag(endTag)
   162  
   163  	// for self-verification only (redundant)
   164  	p.int(objcount)
   165  
   166  	if trace {
   167  		p.tracef("\n")
   168  	}
   169  
   170  	// --- end of export data ---
   171  
   172  	return p.out.Bytes(), nil
   173  }
   174  
   175  func (p *exporter) pkg(pkg *types.Package, emptypath bool) {
   176  	if pkg == nil {
   177  		panic(internalError("unexpected nil pkg"))
   178  	}
   179  
   180  	// if we saw the package before, write its index (>= 0)
   181  	if i, ok := p.pkgIndex[pkg]; ok {
   182  		p.index('P', i)
   183  		return
   184  	}
   185  
   186  	// otherwise, remember the package, write the package tag (< 0) and package data
   187  	if trace {
   188  		p.tracef("P%d = { ", len(p.pkgIndex))
   189  		defer p.tracef("} ")
   190  	}
   191  	p.pkgIndex[pkg] = len(p.pkgIndex)
   192  
   193  	p.tag(packageTag)
   194  	p.string(pkg.Name())
   195  	if emptypath {
   196  		p.string("")
   197  	} else {
   198  		p.string(pkg.Path())
   199  	}
   200  }
   201  
   202  func (p *exporter) obj(obj types.Object) {
   203  	switch obj := obj.(type) {
   204  	case *types.Const:
   205  		p.tag(constTag)
   206  		p.pos(obj)
   207  		p.qualifiedName(obj)
   208  		p.typ(obj.Type())
   209  		p.value(obj.Val())
   210  
   211  	case *types.TypeName:
   212  		if obj.IsAlias() {
   213  			p.tag(aliasTag)
   214  			p.pos(obj)
   215  			p.qualifiedName(obj)
   216  		} else {
   217  			p.tag(typeTag)
   218  		}
   219  		p.typ(obj.Type())
   220  
   221  	case *types.Var:
   222  		p.tag(varTag)
   223  		p.pos(obj)
   224  		p.qualifiedName(obj)
   225  		p.typ(obj.Type())
   226  
   227  	case *types.Func:
   228  		p.tag(funcTag)
   229  		p.pos(obj)
   230  		p.qualifiedName(obj)
   231  		sig := obj.Type().(*types.Signature)
   232  		p.paramList(sig.Params(), sig.Variadic())
   233  		p.paramList(sig.Results(), false)
   234  
   235  	default:
   236  		panic(internalErrorf("unexpected object %v (%T)", obj, obj))
   237  	}
   238  }
   239  
   240  func (p *exporter) pos(obj types.Object) {
   241  	if !p.posInfoFormat {
   242  		return
   243  	}
   244  
   245  	file, line := p.fileLine(obj)
   246  	if file == p.prevFile {
   247  		// common case: write line delta
   248  		// delta == 0 means different file or no line change
   249  		delta := line - p.prevLine
   250  		p.int(delta)
   251  		if delta == 0 {
   252  			p.int(-1) // -1 means no file change
   253  		}
   254  	} else {
   255  		// different file
   256  		p.int(0)
   257  		// Encode filename as length of common prefix with previous
   258  		// filename, followed by (possibly empty) suffix. Filenames
   259  		// frequently share path prefixes, so this can save a lot
   260  		// of space and make export data size less dependent on file
   261  		// path length. The suffix is unlikely to be empty because
   262  		// file names tend to end in ".go".
   263  		n := commonPrefixLen(p.prevFile, file)
   264  		p.int(n)           // n >= 0
   265  		p.string(file[n:]) // write suffix only
   266  		p.prevFile = file
   267  		p.int(line)
   268  	}
   269  	p.prevLine = line
   270  }
   271  
   272  func (p *exporter) fileLine(obj types.Object) (file string, line int) {
   273  	if p.fset != nil {
   274  		pos := p.fset.Position(obj.Pos())
   275  		file = pos.Filename
   276  		line = pos.Line
   277  	}
   278  	return
   279  }
   280  
   281  func commonPrefixLen(a, b string) int {
   282  	if len(a) > len(b) {
   283  		a, b = b, a
   284  	}
   285  	// len(a) <= len(b)
   286  	i := 0
   287  	for i < len(a) && a[i] == b[i] {
   288  		i++
   289  	}
   290  	return i
   291  }
   292  
   293  func (p *exporter) qualifiedName(obj types.Object) {
   294  	p.string(obj.Name())
   295  	p.pkg(obj.Pkg(), false)
   296  }
   297  
   298  func (p *exporter) typ(t types.Type) {
   299  	if t == nil {
   300  		panic(internalError("nil type"))
   301  	}
   302  
   303  	// Possible optimization: Anonymous pointer types *T where
   304  	// T is a named type are common. We could canonicalize all
   305  	// such types *T to a single type PT = *T. This would lead
   306  	// to at most one *T entry in typIndex, and all future *T's
   307  	// would be encoded as the respective index directly. Would
   308  	// save 1 byte (pointerTag) per *T and reduce the typIndex
   309  	// size (at the cost of a canonicalization map). We can do
   310  	// this later, without encoding format change.
   311  
   312  	// if we saw the type before, write its index (>= 0)
   313  	if i, ok := p.typIndex[t]; ok {
   314  		p.index('T', i)
   315  		return
   316  	}
   317  
   318  	// otherwise, remember the type, write the type tag (< 0) and type data
   319  	if trackAllTypes {
   320  		if trace {
   321  			p.tracef("T%d = {>\n", len(p.typIndex))
   322  			defer p.tracef("<\n} ")
   323  		}
   324  		p.typIndex[t] = len(p.typIndex)
   325  	}
   326  
   327  	switch t := t.(type) {
   328  	case *types.Named:
   329  		if !trackAllTypes {
   330  			// if we don't track all types, track named types now
   331  			p.typIndex[t] = len(p.typIndex)
   332  		}
   333  
   334  		p.tag(namedTag)
   335  		p.pos(t.Obj())
   336  		p.qualifiedName(t.Obj())
   337  		p.typ(t.Underlying())
   338  		if !types.IsInterface(t) {
   339  			p.assocMethods(t)
   340  		}
   341  
   342  	case *types.Array:
   343  		p.tag(arrayTag)
   344  		p.int64(t.Len())
   345  		p.typ(t.Elem())
   346  
   347  	case *types.Slice:
   348  		p.tag(sliceTag)
   349  		p.typ(t.Elem())
   350  
   351  	case *dddSlice:
   352  		p.tag(dddTag)
   353  		p.typ(t.elem)
   354  
   355  	case *types.Struct:
   356  		p.tag(structTag)
   357  		p.fieldList(t)
   358  
   359  	case *types.Pointer:
   360  		p.tag(pointerTag)
   361  		p.typ(t.Elem())
   362  
   363  	case *types.Signature:
   364  		p.tag(signatureTag)
   365  		p.paramList(t.Params(), t.Variadic())
   366  		p.paramList(t.Results(), false)
   367  
   368  	case *types.Interface:
   369  		p.tag(interfaceTag)
   370  		p.iface(t)
   371  
   372  	case *types.Map:
   373  		p.tag(mapTag)
   374  		p.typ(t.Key())
   375  		p.typ(t.Elem())
   376  
   377  	case *types.Chan:
   378  		p.tag(chanTag)
   379  		p.int(int(3 - t.Dir())) // hack
   380  		p.typ(t.Elem())
   381  
   382  	default:
   383  		panic(internalErrorf("unexpected type %T: %s", t, t))
   384  	}
   385  }
   386  
   387  func (p *exporter) assocMethods(named *types.Named) {
   388  	// Sort methods (for determinism).
   389  	var methods []*types.Func
   390  	for i := 0; i < named.NumMethods(); i++ {
   391  		methods = append(methods, named.Method(i))
   392  	}
   393  	sort.Sort(methodsByName(methods))
   394  
   395  	p.int(len(methods))
   396  
   397  	if trace && methods != nil {
   398  		p.tracef("associated methods {>\n")
   399  	}
   400  
   401  	for i, m := range methods {
   402  		if trace && i > 0 {
   403  			p.tracef("\n")
   404  		}
   405  
   406  		p.pos(m)
   407  		name := m.Name()
   408  		p.string(name)
   409  		if !exported(name) {
   410  			p.pkg(m.Pkg(), false)
   411  		}
   412  
   413  		sig := m.Type().(*types.Signature)
   414  		p.paramList(types.NewTuple(sig.Recv()), false)
   415  		p.paramList(sig.Params(), sig.Variadic())
   416  		p.paramList(sig.Results(), false)
   417  		p.int(0) // dummy value for go:nointerface pragma - ignored by importer
   418  	}
   419  
   420  	if trace && methods != nil {
   421  		p.tracef("<\n} ")
   422  	}
   423  }
   424  
   425  type methodsByName []*types.Func
   426  
   427  func (x methodsByName) Len() int           { return len(x) }
   428  func (x methodsByName) Swap(i, j int)      { x[i], x[j] = x[j], x[i] }
   429  func (x methodsByName) Less(i, j int) bool { return x[i].Name() < x[j].Name() }
   430  
   431  func (p *exporter) fieldList(t *types.Struct) {
   432  	if trace && t.NumFields() > 0 {
   433  		p.tracef("fields {>\n")
   434  		defer p.tracef("<\n} ")
   435  	}
   436  
   437  	p.int(t.NumFields())
   438  	for i := 0; i < t.NumFields(); i++ {
   439  		if trace && i > 0 {
   440  			p.tracef("\n")
   441  		}
   442  		p.field(t.Field(i))
   443  		p.string(t.Tag(i))
   444  	}
   445  }
   446  
   447  func (p *exporter) field(f *types.Var) {
   448  	if !f.IsField() {
   449  		panic(internalError("field expected"))
   450  	}
   451  
   452  	p.pos(f)
   453  	p.fieldName(f)
   454  	p.typ(f.Type())
   455  }
   456  
   457  func (p *exporter) iface(t *types.Interface) {
   458  	// TODO(gri): enable importer to load embedded interfaces,
   459  	// then emit Embeddeds and ExplicitMethods separately here.
   460  	p.int(0)
   461  
   462  	n := t.NumMethods()
   463  	if trace && n > 0 {
   464  		p.tracef("methods {>\n")
   465  		defer p.tracef("<\n} ")
   466  	}
   467  	p.int(n)
   468  	for i := 0; i < n; i++ {
   469  		if trace && i > 0 {
   470  			p.tracef("\n")
   471  		}
   472  		p.method(t.Method(i))
   473  	}
   474  }
   475  
   476  func (p *exporter) method(m *types.Func) {
   477  	sig := m.Type().(*types.Signature)
   478  	if sig.Recv() == nil {
   479  		panic(internalError("method expected"))
   480  	}
   481  
   482  	p.pos(m)
   483  	p.string(m.Name())
   484  	if m.Name() != "_" && !ast.IsExported(m.Name()) {
   485  		p.pkg(m.Pkg(), false)
   486  	}
   487  
   488  	// interface method; no need to encode receiver.
   489  	p.paramList(sig.Params(), sig.Variadic())
   490  	p.paramList(sig.Results(), false)
   491  }
   492  
   493  func (p *exporter) fieldName(f *types.Var) {
   494  	name := f.Name()
   495  
   496  	if f.Anonymous() {
   497  		// anonymous field - we distinguish between 3 cases:
   498  		// 1) field name matches base type name and is exported
   499  		// 2) field name matches base type name and is not exported
   500  		// 3) field name doesn't match base type name (alias name)
   501  		bname := basetypeName(f.Type())
   502  		if name == bname {
   503  			if ast.IsExported(name) {
   504  				name = "" // 1) we don't need to know the field name or package
   505  			} else {
   506  				name = "?" // 2) use unexported name "?" to force package export
   507  			}
   508  		} else {
   509  			// 3) indicate alias and export name as is
   510  			// (this requires an extra "@" but this is a rare case)
   511  			p.string("@")
   512  		}
   513  	}
   514  
   515  	p.string(name)
   516  	if name != "" && !ast.IsExported(name) {
   517  		p.pkg(f.Pkg(), false)
   518  	}
   519  }
   520  
   521  func basetypeName(typ types.Type) string {
   522  	switch typ := deref(typ).(type) {
   523  	case *types.Basic:
   524  		return typ.Name()
   525  	case *types.Named:
   526  		return typ.Obj().Name()
   527  	default:
   528  		return "" // unnamed type
   529  	}
   530  }
   531  
   532  func (p *exporter) paramList(params *types.Tuple, variadic bool) {
   533  	// use negative length to indicate unnamed parameters
   534  	// (look at the first parameter only since either all
   535  	// names are present or all are absent)
   536  	n := params.Len()
   537  	if n > 0 && params.At(0).Name() == "" {
   538  		n = -n
   539  	}
   540  	p.int(n)
   541  	for i := 0; i < params.Len(); i++ {
   542  		q := params.At(i)
   543  		t := q.Type()
   544  		if variadic && i == params.Len()-1 {
   545  			t = &dddSlice{t.(*types.Slice).Elem()}
   546  		}
   547  		p.typ(t)
   548  		if n > 0 {
   549  			name := q.Name()
   550  			p.string(name)
   551  			if name != "_" {
   552  				p.pkg(q.Pkg(), false)
   553  			}
   554  		}
   555  		p.string("") // no compiler-specific info
   556  	}
   557  }
   558  
   559  func (p *exporter) value(x constant.Value) {
   560  	if trace {
   561  		p.tracef("= ")
   562  	}
   563  
   564  	switch x.Kind() {
   565  	case constant.Bool:
   566  		tag := falseTag
   567  		if constant.BoolVal(x) {
   568  			tag = trueTag
   569  		}
   570  		p.tag(tag)
   571  
   572  	case constant.Int:
   573  		if v, exact := constant.Int64Val(x); exact {
   574  			// common case: x fits into an int64 - use compact encoding
   575  			p.tag(int64Tag)
   576  			p.int64(v)
   577  			return
   578  		}
   579  		// uncommon case: large x - use float encoding
   580  		// (powers of 2 will be encoded efficiently with exponent)
   581  		p.tag(floatTag)
   582  		p.float(constant.ToFloat(x))
   583  
   584  	case constant.Float:
   585  		p.tag(floatTag)
   586  		p.float(x)
   587  
   588  	case constant.Complex:
   589  		p.tag(complexTag)
   590  		p.float(constant.Real(x))
   591  		p.float(constant.Imag(x))
   592  
   593  	case constant.String:
   594  		p.tag(stringTag)
   595  		p.string(constant.StringVal(x))
   596  
   597  	case constant.Unknown:
   598  		// package contains type errors
   599  		p.tag(unknownTag)
   600  
   601  	default:
   602  		panic(internalErrorf("unexpected value %v (%T)", x, x))
   603  	}
   604  }
   605  
   606  func (p *exporter) float(x constant.Value) {
   607  	if x.Kind() != constant.Float {
   608  		panic(internalErrorf("unexpected constant %v, want float", x))
   609  	}
   610  	// extract sign (there is no -0)
   611  	sign := constant.Sign(x)
   612  	if sign == 0 {
   613  		// x == 0
   614  		p.int(0)
   615  		return
   616  	}
   617  	// x != 0
   618  
   619  	var f big.Float
   620  	if v, exact := constant.Float64Val(x); exact {
   621  		// float64
   622  		f.SetFloat64(v)
   623  	} else if num, denom := constant.Num(x), constant.Denom(x); num.Kind() == constant.Int {
   624  		// TODO(gri): add big.Rat accessor to constant.Value.
   625  		r := valueToRat(num)
   626  		f.SetRat(r.Quo(r, valueToRat(denom)))
   627  	} else {
   628  		// Value too large to represent as a fraction => inaccessible.
   629  		// TODO(gri): add big.Float accessor to constant.Value.
   630  		f.SetFloat64(math.MaxFloat64) // FIXME
   631  	}
   632  
   633  	// extract exponent such that 0.5 <= m < 1.0
   634  	var m big.Float
   635  	exp := f.MantExp(&m)
   636  
   637  	// extract mantissa as *big.Int
   638  	// - set exponent large enough so mant satisfies mant.IsInt()
   639  	// - get *big.Int from mant
   640  	m.SetMantExp(&m, int(m.MinPrec()))
   641  	mant, acc := m.Int(nil)
   642  	if acc != big.Exact {
   643  		panic(internalError("internal error"))
   644  	}
   645  
   646  	p.int(sign)
   647  	p.int(exp)
   648  	p.string(string(mant.Bytes()))
   649  }
   650  
   651  func valueToRat(x constant.Value) *big.Rat {
   652  	// Convert little-endian to big-endian.
   653  	// I can't believe this is necessary.
   654  	bytes := constant.Bytes(x)
   655  	for i := 0; i < len(bytes)/2; i++ {
   656  		bytes[i], bytes[len(bytes)-1-i] = bytes[len(bytes)-1-i], bytes[i]
   657  	}
   658  	return new(big.Rat).SetInt(new(big.Int).SetBytes(bytes))
   659  }
   660  
   661  func (p *exporter) bool(b bool) bool {
   662  	if trace {
   663  		p.tracef("[")
   664  		defer p.tracef("= %v] ", b)
   665  	}
   666  
   667  	x := 0
   668  	if b {
   669  		x = 1
   670  	}
   671  	p.int(x)
   672  	return b
   673  }
   674  
   675  // ----------------------------------------------------------------------------
   676  // Low-level encoders
   677  
   678  func (p *exporter) index(marker byte, index int) {
   679  	if index < 0 {
   680  		panic(internalError("invalid index < 0"))
   681  	}
   682  	if debugFormat {
   683  		p.marker('t')
   684  	}
   685  	if trace {
   686  		p.tracef("%c%d ", marker, index)
   687  	}
   688  	p.rawInt64(int64(index))
   689  }
   690  
   691  func (p *exporter) tag(tag int) {
   692  	if tag >= 0 {
   693  		panic(internalError("invalid tag >= 0"))
   694  	}
   695  	if debugFormat {
   696  		p.marker('t')
   697  	}
   698  	if trace {
   699  		p.tracef("%s ", tagString[-tag])
   700  	}
   701  	p.rawInt64(int64(tag))
   702  }
   703  
   704  func (p *exporter) int(x int) {
   705  	p.int64(int64(x))
   706  }
   707  
   708  func (p *exporter) int64(x int64) {
   709  	if debugFormat {
   710  		p.marker('i')
   711  	}
   712  	if trace {
   713  		p.tracef("%d ", x)
   714  	}
   715  	p.rawInt64(x)
   716  }
   717  
   718  func (p *exporter) string(s string) {
   719  	if debugFormat {
   720  		p.marker('s')
   721  	}
   722  	if trace {
   723  		p.tracef("%q ", s)
   724  	}
   725  	// if we saw the string before, write its index (>= 0)
   726  	// (the empty string is mapped to 0)
   727  	if i, ok := p.strIndex[s]; ok {
   728  		p.rawInt64(int64(i))
   729  		return
   730  	}
   731  	// otherwise, remember string and write its negative length and bytes
   732  	p.strIndex[s] = len(p.strIndex)
   733  	p.rawInt64(-int64(len(s)))
   734  	for i := 0; i < len(s); i++ {
   735  		p.rawByte(s[i])
   736  	}
   737  }
   738  
   739  // marker emits a marker byte and position information which makes
   740  // it easy for a reader to detect if it is "out of sync". Used for
   741  // debugFormat format only.
   742  func (p *exporter) marker(m byte) {
   743  	p.rawByte(m)
   744  	// Enable this for help tracking down the location
   745  	// of an incorrect marker when running in debugFormat.
   746  	if false && trace {
   747  		p.tracef("#%d ", p.written)
   748  	}
   749  	p.rawInt64(int64(p.written))
   750  }
   751  
   752  // rawInt64 should only be used by low-level encoders.
   753  func (p *exporter) rawInt64(x int64) {
   754  	var tmp [binary.MaxVarintLen64]byte
   755  	n := binary.PutVarint(tmp[:], x)
   756  	for i := 0; i < n; i++ {
   757  		p.rawByte(tmp[i])
   758  	}
   759  }
   760  
   761  // rawStringln should only be used to emit the initial version string.
   762  func (p *exporter) rawStringln(s string) {
   763  	for i := 0; i < len(s); i++ {
   764  		p.rawByte(s[i])
   765  	}
   766  	p.rawByte('\n')
   767  }
   768  
   769  // rawByte is the bottleneck interface to write to p.out.
   770  // rawByte escapes b as follows (any encoding does that
   771  // hides '$'):
   772  //
   773  //	'$'  => '|' 'S'
   774  //	'|'  => '|' '|'
   775  //
   776  // Necessary so other tools can find the end of the
   777  // export data by searching for "$$".
   778  // rawByte should only be used by low-level encoders.
   779  func (p *exporter) rawByte(b byte) {
   780  	switch b {
   781  	case '$':
   782  		// write '$' as '|' 'S'
   783  		b = 'S'
   784  		fallthrough
   785  	case '|':
   786  		// write '|' as '|' '|'
   787  		p.out.WriteByte('|')
   788  		p.written++
   789  	}
   790  	p.out.WriteByte(b)
   791  	p.written++
   792  }
   793  
   794  // tracef is like fmt.Printf but it rewrites the format string
   795  // to take care of indentation.
   796  func (p *exporter) tracef(format string, args ...interface{}) {
   797  	if strings.ContainsAny(format, "<>\n") {
   798  		var buf bytes.Buffer
   799  		for i := 0; i < len(format); i++ {
   800  			// no need to deal with runes
   801  			ch := format[i]
   802  			switch ch {
   803  			case '>':
   804  				p.indent++
   805  				continue
   806  			case '<':
   807  				p.indent--
   808  				continue
   809  			}
   810  			buf.WriteByte(ch)
   811  			if ch == '\n' {
   812  				for j := p.indent; j > 0; j-- {
   813  					buf.WriteString(".  ")
   814  				}
   815  			}
   816  		}
   817  		format = buf.String()
   818  	}
   819  	fmt.Printf(format, args...)
   820  }
   821  
   822  // Debugging support.
   823  // (tagString is only used when tracing is enabled)
   824  var tagString = [...]string{
   825  	// Packages
   826  	-packageTag: "package",
   827  
   828  	// Types
   829  	-namedTag:     "named type",
   830  	-arrayTag:     "array",
   831  	-sliceTag:     "slice",
   832  	-dddTag:       "ddd",
   833  	-structTag:    "struct",
   834  	-pointerTag:   "pointer",
   835  	-signatureTag: "signature",
   836  	-interfaceTag: "interface",
   837  	-mapTag:       "map",
   838  	-chanTag:      "chan",
   839  
   840  	// Values
   841  	-falseTag:    "false",
   842  	-trueTag:     "true",
   843  	-int64Tag:    "int64",
   844  	-floatTag:    "float",
   845  	-fractionTag: "fraction",
   846  	-complexTag:  "complex",
   847  	-stringTag:   "string",
   848  	-unknownTag:  "unknown",
   849  
   850  	// Type aliases
   851  	-aliasTag: "alias",
   852  }