src/internal/coverage/stringtab/stringtab.go - platform/prebuilts/go/darwin-x86 - Git at Google

 // Copyright 2022 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package stringtab

 import (
 	"fmt"
 	"internal/coverage/slicereader"
 	"internal/coverage/uleb128"
 	"io"
 )

 // This package implements string table writer and reader utilities,
 // for use in emitting and reading/decoding coverage meta-data and
 // counter-data files.

 // Writer implements a string table writing utility.
 type Writer struct {
 	stab   map[string]uint32
 	strs   []string
 	tmp    []byte
 	frozen bool
 }

 // InitWriter initializes a stringtab.Writer.
 func (stw *Writer) InitWriter() {
 	stw.stab = make(map[string]uint32)
 	stw.tmp = make([]byte, 64)
 }

 // Nentries returns the number of strings interned so far.
 func (stw *Writer) Nentries() uint32 {
 	return uint32(len(stw.strs))
 }

 // Lookup looks up string 's' in the writer's table, adding
 // a new entry if need be, and returning an index into the table.
 func (stw *Writer) Lookup(s string) uint32 {
 	if idx, ok := stw.stab[s]; ok {
 		return idx
 	}
 	if stw.frozen {
 		panic("internal error: string table previously frozen")
 	}
 	idx := uint32(len(stw.strs))
 	stw.stab[s] = idx
 	stw.strs = append(stw.strs, s)
 	return idx
 }

 // Size computes the memory in bytes needed for the serialized
 // version of a stringtab.Writer.
 func (stw *Writer) Size() uint32 {
 	rval := uint32(0)
 	stw.tmp = stw.tmp[:0]
 	stw.tmp = uleb128.AppendUleb128(stw.tmp, uint(len(stw.strs)))
 	rval += uint32(len(stw.tmp))
 	for _, s := range stw.strs {
 		stw.tmp = stw.tmp[:0]
 		slen := uint(len(s))
 		stw.tmp = uleb128.AppendUleb128(stw.tmp, slen)
 		rval += uint32(len(stw.tmp)) + uint32(slen)
 	}
 	return rval
 }

 // Write writes the string table in serialized form to the specified
 // io.Writer.
 func (stw *Writer) Write(w io.Writer) error {
 	wr128 := func(v uint) error {
 		stw.tmp = stw.tmp[:0]
 		stw.tmp = uleb128.AppendUleb128(stw.tmp, v)
 		if nw, err := w.Write(stw.tmp); err != nil {
 			return fmt.Errorf("writing string table: %v", err)
 		} else if nw != len(stw.tmp) {
 			return fmt.Errorf("short write emitting stringtab uleb")
 		}
 		return nil
 	}
 	if err := wr128(uint(len(stw.strs))); err != nil {
 		return err
 	}
 	for _, s := range stw.strs {
 		if err := wr128(uint(len(s))); err != nil {
 			return err
 		}
 		if nw, err := w.Write([]byte(s)); err != nil {
 			return fmt.Errorf("writing string table: %v", err)
 		} else if nw != len([]byte(s)) {
 			return fmt.Errorf("short write emitting stringtab")
 		}
 	}
 	return nil
 }

 // Freeze sends a signal to the writer that no more additions are
 // allowed, only lookups of existing strings (if a lookup triggers
 // addition, a panic will result). Useful as a mechanism for
 // "finalizing" a string table prior to writing it out.
 func (stw *Writer) Freeze() {
 	stw.frozen = true
 }

 // Reader is a helper for reading a string table previously
 // serialized by a Writer.Write call.
 type Reader struct {
 	r    *slicereader.Reader
 	strs []string
 }

 // NewReader creates a stringtab.Reader to read the contents
 // of a string table from 'r'.
 func NewReader(r *slicereader.Reader) *Reader {
 	str := &Reader{
 		r: r,
 	}
 	return str
 }

 // Read reads/decodes a string table using the reader provided.
 func (str *Reader) Read() {
 	numEntries := int(str.r.ReadULEB128())
 	str.strs = make([]string, 0, numEntries)
 	for idx := 0; idx < numEntries; idx++ {
 		slen := str.r.ReadULEB128()
 		str.strs = append(str.strs, str.r.ReadString(int64(slen)))
 	}
 }

 // Entries returns the number of decoded entries in a string table.
 func (str *Reader) Entries() int {
 	return len(str.strs)
 }

 // Get returns string 'idx' within the string table.
 func (str *Reader) Get(idx uint32) string {
 	return str.strs[idx]
 }
	// Copyright 2022 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package stringtab

	import (
	"fmt"
	"internal/coverage/slicereader"
	"internal/coverage/uleb128"
	"io"
	)

	// This package implements string table writer and reader utilities,
	// for use in emitting and reading/decoding coverage meta-data and
	// counter-data files.

	// Writer implements a string table writing utility.
	type Writer struct {
	stab map[string]uint32
	strs []string
	tmp []byte
	frozen bool
	}

	// InitWriter initializes a stringtab.Writer.
	func (stw *Writer) InitWriter() {
	stw.stab = make(map[string]uint32)
	stw.tmp = make([]byte, 64)
	}

	// Nentries returns the number of strings interned so far.
	func (stw *Writer) Nentries() uint32 {
	return uint32(len(stw.strs))
	}

	// Lookup looks up string 's' in the writer's table, adding
	// a new entry if need be, and returning an index into the table.
	func (stw *Writer) Lookup(s string) uint32 {
	if idx, ok := stw.stab[s]; ok {
	return idx
	}
	if stw.frozen {
	panic("internal error: string table previously frozen")
	}
	idx := uint32(len(stw.strs))
	stw.stab[s] = idx
	stw.strs = append(stw.strs, s)
	return idx
	}

	// Size computes the memory in bytes needed for the serialized
	// version of a stringtab.Writer.
	func (stw *Writer) Size() uint32 {
	rval := uint32(0)
	stw.tmp = stw.tmp[:0]
	stw.tmp = uleb128.AppendUleb128(stw.tmp, uint(len(stw.strs)))
	rval += uint32(len(stw.tmp))
	for _, s := range stw.strs {
	stw.tmp = stw.tmp[:0]
	slen := uint(len(s))
	stw.tmp = uleb128.AppendUleb128(stw.tmp, slen)
	rval += uint32(len(stw.tmp)) + uint32(slen)
	}
	return rval
	}

	// Write writes the string table in serialized form to the specified
	// io.Writer.
	func (stw *Writer) Write(w io.Writer) error {
	wr128 := func(v uint) error {
	stw.tmp = stw.tmp[:0]
	stw.tmp = uleb128.AppendUleb128(stw.tmp, v)
	if nw, err := w.Write(stw.tmp); err != nil {
	return fmt.Errorf("writing string table: %v", err)
	} else if nw != len(stw.tmp) {
	return fmt.Errorf("short write emitting stringtab uleb")
	}
	return nil
	}
	if err := wr128(uint(len(stw.strs))); err != nil {
	return err
	}
	for _, s := range stw.strs {
	if err := wr128(uint(len(s))); err != nil {
	return err
	}
	if nw, err := w.Write([]byte(s)); err != nil {
	return fmt.Errorf("writing string table: %v", err)
	} else if nw != len([]byte(s)) {
	return fmt.Errorf("short write emitting stringtab")
	}
	}
	return nil
	}

	// Freeze sends a signal to the writer that no more additions are
	// allowed, only lookups of existing strings (if a lookup triggers
	// addition, a panic will result). Useful as a mechanism for
	// "finalizing" a string table prior to writing it out.
	func (stw *Writer) Freeze() {
	stw.frozen = true
	}

	// Reader is a helper for reading a string table previously
	// serialized by a Writer.Write call.
	type Reader struct {
	r *slicereader.Reader
	strs []string
	}

	// NewReader creates a stringtab.Reader to read the contents
	// of a string table from 'r'.
	func NewReader(r slicereader.Reader) Reader {
	str := &Reader{
	r: r,
	}
	return str
	}

	// Read reads/decodes a string table using the reader provided.
	func (str *Reader) Read() {
	numEntries := int(str.r.ReadULEB128())
	str.strs = make([]string, 0, numEntries)
	for idx := 0; idx < numEntries; idx++ {
	slen := str.r.ReadULEB128()
	str.strs = append(str.strs, str.r.ReadString(int64(slen)))
	}
	}

	// Entries returns the number of decoded entries in a string table.
	func (str *Reader) Entries() int {
	return len(str.strs)
	}

	// Get returns string 'idx' within the string table.
	func (str *Reader) Get(idx uint32) string {
	return str.strs[idx]
	}