src/cmd/internal/goobj2/funcinfo.go - go - Git at Google

 // 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.

 package goobj2

 import (
 	"bytes"
 	"encoding/binary"
 )

 // FuncInfo is serialized as a symbol (aux symbol). The symbol data is
 // the binary encoding of the struct below.
 //
 // TODO: make each pcdata a separate symbol?
 type FuncInfo struct {
 	NoSplit uint8
 	Flags   uint8

 	Args   uint32
 	Locals uint32

 	Pcsp        uint32
 	Pcfile      uint32
 	Pcline      uint32
 	Pcinline    uint32
 	Pcdata      []uint32
 	PcdataEnd   uint32
 	Funcdataoff []uint32
 	File        []SymRef // TODO: just use string?

 	// TODO: InlTree
 }

 const (
 	FuncFlagLeaf = 1 << iota
 	FuncFlagCFunc
 	FuncFlagReflectMethod
 	FuncFlagShared // This is really silly
 	FuncFlagTopFrame
 )

 func (a *FuncInfo) Write(w *bytes.Buffer) {
 	w.WriteByte(a.NoSplit)
 	w.WriteByte(a.Flags)

 	var b [4]byte
 	writeUint32 := func(x uint32) {
 		binary.LittleEndian.PutUint32(b[:], x)
 		w.Write(b[:])
 	}

 	writeUint32(a.Args)
 	writeUint32(a.Locals)

 	writeUint32(a.Pcsp)
 	writeUint32(a.Pcfile)
 	writeUint32(a.Pcline)
 	writeUint32(a.Pcinline)
 	writeUint32(uint32(len(a.Pcdata)))
 	for _, x := range a.Pcdata {
 		writeUint32(x)
 	}
 	writeUint32(a.PcdataEnd)
 	writeUint32(uint32(len(a.Funcdataoff)))
 	for _, x := range a.Funcdataoff {
 		writeUint32(x)
 	}
 	writeUint32(uint32(len(a.File)))
 	for _, f := range a.File {
 		writeUint32(f.PkgIdx)
 		writeUint32(f.SymIdx)
 	}

 	// TODO: InlTree
 }

 func (a *FuncInfo) Read(b []byte) {
 	a.NoSplit = b[0]
 	a.Flags = b[1]
 	b = b[2:]

 	readUint32 := func() uint32 {
 		x := binary.LittleEndian.Uint32(b)
 		b = b[4:]
 		return x
 	}

 	a.Args = readUint32()
 	a.Locals = readUint32()

 	a.Pcsp = readUint32()
 	a.Pcfile = readUint32()
 	a.Pcline = readUint32()
 	a.Pcinline = readUint32()
 	pcdatalen := readUint32()
 	a.Pcdata = make([]uint32, pcdatalen)
 	for i := range a.Pcdata {
 		a.Pcdata[i] = readUint32()
 	}
 	a.PcdataEnd = readUint32()
 	funcdataofflen := readUint32()
 	a.Funcdataoff = make([]uint32, funcdataofflen)
 	for i := range a.Funcdataoff {
 		a.Funcdataoff[i] = readUint32()
 	}
 	filelen := readUint32()
 	a.File = make([]SymRef, filelen)
 	for i := range a.File {
 		a.File[i] = SymRef{readUint32(), readUint32()}
 	}

 	// TODO: InlTree
 }
	// 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.

	package goobj2

	import (
	"bytes"
	"encoding/binary"
	)

	// FuncInfo is serialized as a symbol (aux symbol). The symbol data is
	// the binary encoding of the struct below.
	//
	// TODO: make each pcdata a separate symbol?
	type FuncInfo struct {
	NoSplit uint8
	Flags uint8

	Args uint32
	Locals uint32

	Pcsp uint32
	Pcfile uint32
	Pcline uint32
	Pcinline uint32
	Pcdata []uint32
	PcdataEnd uint32
	Funcdataoff []uint32
	File []SymRef // TODO: just use string?

	// TODO: InlTree
	}

	const (
	FuncFlagLeaf = 1 << iota
	FuncFlagCFunc
	FuncFlagReflectMethod
	FuncFlagShared // This is really silly
	FuncFlagTopFrame
	)

	func (a FuncInfo) Write(w bytes.Buffer) {
	w.WriteByte(a.NoSplit)
	w.WriteByte(a.Flags)

	var b [4]byte
	writeUint32 := func(x uint32) {
	binary.LittleEndian.PutUint32(b[:], x)
	w.Write(b[:])
	}

	writeUint32(a.Args)
	writeUint32(a.Locals)

	writeUint32(a.Pcsp)
	writeUint32(a.Pcfile)
	writeUint32(a.Pcline)
	writeUint32(a.Pcinline)
	writeUint32(uint32(len(a.Pcdata)))
	for _, x := range a.Pcdata {
	writeUint32(x)
	}
	writeUint32(a.PcdataEnd)
	writeUint32(uint32(len(a.Funcdataoff)))
	for _, x := range a.Funcdataoff {
	writeUint32(x)
	}
	writeUint32(uint32(len(a.File)))
	for _, f := range a.File {
	writeUint32(f.PkgIdx)
	writeUint32(f.SymIdx)
	}

	// TODO: InlTree
	}

	func (a *FuncInfo) Read(b []byte) {
	a.NoSplit = b[0]
	a.Flags = b[1]
	b = b[2:]

	readUint32 := func() uint32 {
	x := binary.LittleEndian.Uint32(b)
	b = b[4:]
	return x
	}

	a.Args = readUint32()
	a.Locals = readUint32()

	a.Pcsp = readUint32()
	a.Pcfile = readUint32()
	a.Pcline = readUint32()
	a.Pcinline = readUint32()
	pcdatalen := readUint32()
	a.Pcdata = make([]uint32, pcdatalen)
	for i := range a.Pcdata {
	a.Pcdata[i] = readUint32()
	}
	a.PcdataEnd = readUint32()
	funcdataofflen := readUint32()
	a.Funcdataoff = make([]uint32, funcdataofflen)
	for i := range a.Funcdataoff {
	a.Funcdataoff[i] = readUint32()
	}
	filelen := readUint32()
	a.File = make([]SymRef, filelen)
	for i := range a.File {
	a.File[i] = SymRef{readUint32(), readUint32()}
	}

	// TODO: InlTree
	}