pkg/bootstrap/src/bootstrap/compile/internal/gc/go.go - platform/prebuilts/go/linux-x86 - Git at Google

 // Do not edit. Bootstrap copy of /tmp/go/src/cmd/compile/internal/gc/go.go

 //line /tmp/go/src/cmd/compile/internal/gc/go.go:1
 // Copyright 2009 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 gc

 import (
 	"bytes"
 	"bootstrap/compile/internal/big"
 	"bootstrap/internal/obj"
 )

 // avoid <ctype.h>

 // The parser's maximum stack size.
 // We have to use a #define macro here since yacc
 // or bison will check for its definition and use
 // a potentially smaller value if it is undefined.
 const (
 	NHUNK           = 50000
 	BUFSIZ          = 8192
 	NSYMB           = 500
 	NHASH           = 1024
 	MAXALIGN        = 7
 	UINF            = 100
 	PRIME1          = 3
 	BADWIDTH        = -1000000000
 	MaxStackVarSize = 10 * 1024 * 1024
 )

 const (
 	// These values are known by runtime.
 	// The MEMx and NOEQx values must run in parallel.  See algtype.
 	AMEM = iota
 	AMEM0
 	AMEM8
 	AMEM16
 	AMEM32
 	AMEM64
 	AMEM128
 	ANOEQ
 	ANOEQ0
 	ANOEQ8
 	ANOEQ16
 	ANOEQ32
 	ANOEQ64
 	ANOEQ128
 	ASTRING
 	AINTER
 	ANILINTER
 	ASLICE
 	AFLOAT32
 	AFLOAT64
 	ACPLX64
 	ACPLX128
 	AUNK = 100
 )

 const (
 	// Maximum size in bits for Mpints before signalling
 	// overflow and also mantissa precision for Mpflts.
 	Mpprec = 512
 	// Turn on for constant arithmetic debugging output.
 	Mpdebug = false
 )

 // Mpint represents an integer constant.
 type Mpint struct {
 	Val  big.Int
 	Ovf  bool // set if Val overflowed compiler limit (sticky)
 	Rune bool // set if syntax indicates default type rune
 }

 // Mpflt represents a floating-point constant.
 type Mpflt struct {
 	Val big.Float
 }

 // Mpcplx represents a complex constant.
 type Mpcplx struct {
 	Real Mpflt
 	Imag Mpflt
 }

 type Val struct {
 	// U contains one of:
 	// bool     bool when n.ValCtype() == CTBOOL
 	// *Mpint   int when n.ValCtype() == CTINT, rune when n.ValCtype() == CTRUNE
 	// *Mpflt   float when n.ValCtype() == CTFLT
 	// *Mpcplx  pair of floats when n.ValCtype() == CTCPLX
 	// string   string when n.ValCtype() == CTSTR
 	// *Nilval  when n.ValCtype() == CTNIL
 	U interface{}
 }

 type NilVal struct{}

 func (v Val) Ctype() int {
 	switch x := v.U.(type) {
 	default:
 		Fatal("unexpected Ctype for %T", v.U)
 		panic("not reached")
 	case nil:
 		return 0
 	case *NilVal:
 		return CTNIL
 	case bool:
 		return CTBOOL
 	case *Mpint:
 		if x.Rune {
 			return CTRUNE
 		}
 		return CTINT
 	case *Mpflt:
 		return CTFLT
 	case *Mpcplx:
 		return CTCPLX
 	case string:
 		return CTSTR
 	}
 }

 type Pkg struct {
 	Name     string // package name
 	Path     string // string literal used in import statement
 	Pathsym  *Sym
 	Prefix   string // escaped path for use in symbol table
 	Imported uint8  // export data of this package was parsed
 	Exported int8   // import line written in export data
 	Direct   int8   // imported directly
 	Safe     bool   // whether the package is marked as safe
 	Syms     map[string]*Sym
 }

 type Sym struct {
 	Lexical   uint16
 	Flags     uint8
 	Link      *Sym
 	Uniqgen   uint32
 	Importdef *Pkg   // where imported definition was found
 	Linkname  string // link name

 	// saved and restored by dcopy
 	Pkg        *Pkg
 	Name       string // variable name
 	Def        *Node  // definition: ONAME OTYPE OPACK or OLITERAL
 	Label      *Label // corresponding label (ephemeral)
 	Block      int32  // blocknumber to catch redeclaration
 	Lastlineno int32  // last declaration for diagnostic
 	Origpkg    *Pkg   // original package for . import
 	Lsym       *obj.LSym
 	Fsym       *Sym // funcsym
 }

 type Type struct {
 	Etype       uint8
 	Nointerface bool
 	Noalg       uint8
 	Chan        uint8
 	Trecur      uint8 // to detect loops
 	Printed     uint8
 	Embedded    uint8 // TFIELD embedded type
 	Siggen      uint8
 	Funarg      uint8 // on TSTRUCT and TFIELD
 	Copyany     uint8
 	Local       bool // created in this file
 	Deferwidth  uint8
 	Broke       uint8 // broken type definition.
 	Isddd       bool  // TFIELD is ... argument
 	Align       uint8
 	Haspointers uint8 // 0 unknown, 1 no, 2 yes

 	Nod    *Node // canonical OTYPE node
 	Orig   *Type // original type (type literal or predefined type)
 	Lineno int

 	// TFUNC
 	Thistuple int
 	Outtuple  int
 	Intuple   int
 	Outnamed  uint8

 	Method  *Type
 	Xmethod *Type

 	Sym    *Sym
 	Vargen int32 // unique name for OTYPE/ONAME

 	Nname  *Node
 	Argwid int64

 	// most nodes
 	Type  *Type // actual type for TFIELD, element type for TARRAY, TCHAN, TMAP, TPTRxx
 	Width int64 // offset in TFIELD, width in all others

 	// TFIELD
 	Down  *Type   // next struct field, also key type in TMAP
 	Outer *Type   // outer struct
 	Note  *string // literal string annotation

 	// TARRAY
 	Bound int64 // negative is dynamic array

 	// TMAP
 	Bucket *Type // internal type representing a hash bucket
 	Hmap   *Type // internal type representing a Hmap (map header object)
 	Hiter  *Type // internal type representing hash iterator state
 	Map    *Type // link from the above 3 internal types back to the map type.

 	Maplineno   int32 // first use of TFORW as map key
 	Embedlineno int32 // first use of TFORW as embedded type

 	// for TFORW, where to copy the eventual value to
 	Copyto *NodeList

 	Lastfn *Node // for usefield
 }

 type Label struct {
 	Used uint8
 	Sym  *Sym
 	Def  *Node
 	Use  *NodeList
 	Link *Label

 	// for use during gen
 	Gotopc   *obj.Prog // pointer to unresolved gotos
 	Labelpc  *obj.Prog // pointer to code
 	Breakpc  *obj.Prog // pointer to code
 	Continpc *obj.Prog // pointer to code
 }

 type InitEntry struct {
 	Xoffset int64 // struct, array only
 	Expr    *Node // bytes of run-time computed expressions
 }

 type InitPlan struct {
 	Lit  int64
 	Zero int64
 	Expr int64
 	E    []InitEntry
 }

 const (
 	SymExport   = 1 << 0 // to be exported
 	SymPackage  = 1 << 1
 	SymExported = 1 << 2 // already written out by export
 	SymUniq     = 1 << 3
 	SymSiggen   = 1 << 4
 	SymAsm      = 1 << 5
 	SymAlgGen   = 1 << 6
 )

 var dclstack *Sym

 type Iter struct {
 	Done  int
 	Tfunc *Type
 	T     *Type
 }

 const (
 	Txxx = iota

 	TINT8
 	TUINT8
 	TINT16
 	TUINT16
 	TINT32
 	TUINT32
 	TINT64
 	TUINT64
 	TINT
 	TUINT
 	TUINTPTR

 	TCOMPLEX64
 	TCOMPLEX128

 	TFLOAT32
 	TFLOAT64

 	TBOOL

 	TPTR32
 	TPTR64

 	TFUNC
 	TARRAY
 	T_old_DARRAY
 	TSTRUCT
 	TCHAN
 	TMAP
 	TINTER
 	TFORW
 	TFIELD
 	TANY
 	TSTRING
 	TUNSAFEPTR

 	// pseudo-types for literals
 	TIDEAL
 	TNIL
 	TBLANK

 	// pseudo-type for frame layout
 	TFUNCARGS
 	TCHANARGS
 	TINTERMETH

 	NTYPE
 )

 const (
 	CTxxx = iota

 	CTINT
 	CTRUNE
 	CTFLT
 	CTCPLX
 	CTSTR
 	CTBOOL
 	CTNIL
 )

 const (
 	/* types of channel */
 	/* must match ../../pkg/nreflect/type.go:/Chandir */
 	Cxxx  = 0
 	Crecv = 1 << 0
 	Csend = 1 << 1
 	Cboth = Crecv | Csend
 )

 // declaration context
 const (
 	Pxxx      = uint8(iota)
 	PEXTERN   // global variable
 	PAUTO     // local variables
 	PPARAM    // input arguments
 	PPARAMOUT // output results
 	PPARAMREF // closure variable reference
 	PFUNC     // global function

 	PDISCARD // discard during parse of duplicate import

 	PHEAP = uint8(1 << 7) // an extra bit to identify an escaped variable
 )

 const (
 	Etop      = 1 << 1 // evaluated at statement level
 	Erv       = 1 << 2 // evaluated in value context
 	Etype     = 1 << 3
 	Ecall     = 1 << 4  // call-only expressions are ok
 	Efnstruct = 1 << 5  // multivalue function returns are ok
 	Eiota     = 1 << 6  // iota is ok
 	Easgn     = 1 << 7  // assigning to expression
 	Eindir    = 1 << 8  // indirecting through expression
 	Eaddr     = 1 << 9  // taking address of expression
 	Eproc     = 1 << 10 // inside a go statement
 	Ecomplit  = 1 << 11 // type in composite literal
 )

 type Typedef struct {
 	Name   string
 	Etype  int
 	Sameas int
 }

 type Sig struct {
 	name   string
 	pkg    *Pkg
 	isym   *Sym
 	tsym   *Sym
 	type_  *Type
 	mtype  *Type
 	offset int32
 	link   *Sig
 }

 type Io struct {
 	infile     string
 	bin        *obj.Biobuf
 	nlsemi     int
 	eofnl      int
 	last       int
 	peekc      int
 	peekc1     int    // second peekc for ...
 	cp         string // used for content when bin==nil
 	importsafe bool
 }

 type Dlist struct {
 	field *Type
 }

 type Idir struct {
 	link *Idir
 	dir  string
 }

 /*
  * argument passing to/from
  * smagic and umagic
  */
 type Magic struct {
 	W   int // input for both - width
 	S   int // output for both - shift
 	Bad int // output for both - unexpected failure

 	// magic multiplier for signed literal divisors
 	Sd int64 // input - literal divisor
 	Sm int64 // output - multiplier

 	// magic multiplier for unsigned literal divisors
 	Ud uint64 // input - literal divisor
 	Um uint64 // output - multiplier
 	Ua int    // output - adder
 }

 /*
  * note this is the runtime representation
  * of the compilers arrays.
  *
  * typedef	struct
  * {				// must not move anything
  *	uchar	array[8];	// pointer to data
  *	uchar	nel[4];		// number of elements
  *	uchar	cap[4];		// allocated number of elements
  * } Array;
  */
 var Array_array int // runtime offsetof(Array,array) - same for String

 var Array_nel int // runtime offsetof(Array,nel) - same for String

 var Array_cap int // runtime offsetof(Array,cap)

 var sizeof_Array int // runtime sizeof(Array)

 /*
  * note this is the runtime representation
  * of the compilers strings.
  *
  * typedef	struct
  * {				// must not move anything
  *	uchar	array[8];	// pointer to data
  *	uchar	nel[4];		// number of elements
  * } String;
  */
 var sizeof_String int // runtime sizeof(String)

 var dotlist [10]Dlist // size is max depth of embeddeds

 var curio Io

 var pushedio Io

 var lexlineno int32

 var lineno int32

 var prevlineno int32

 var pragcgobuf string

 var infile string

 var outfile string

 var bout *obj.Biobuf

 var nerrors int

 var nsavederrors int

 var nsyntaxerrors int

 var decldepth int32

 var safemode int

 var nolocalimports int

 var lexbuf bytes.Buffer
 var strbuf bytes.Buffer

 var litbuf string

 var Debug [256]int

 var debugstr string

 var Debug_checknil int
 var Debug_typeassert int

 var importmyname *Sym // my name for package

 var localpkg *Pkg // package being compiled

 var importpkg *Pkg // package being imported

 var structpkg *Pkg // package that declared struct, during import

 var builtinpkg *Pkg // fake package for builtins

 var gostringpkg *Pkg // fake pkg for Go strings

 var itabpkg *Pkg // fake pkg for itab cache

 var Runtimepkg *Pkg // package runtime

 var racepkg *Pkg // package runtime/race

 var typepkg *Pkg // fake package for runtime type info (headers)

 var typelinkpkg *Pkg // fake package for runtime type info (data)

 var weaktypepkg *Pkg // weak references to runtime type info

 var unsafepkg *Pkg // package unsafe

 var trackpkg *Pkg // fake package for field tracking

 var Tptr int // either TPTR32 or TPTR64

 var myimportpath string

 var idirs *Idir

 var localimport string

 var asmhdr string

 var Types [NTYPE]*Type

 var idealstring *Type

 var idealbool *Type

 var bytetype *Type

 var runetype *Type

 var errortype *Type

 var Simtype [NTYPE]uint8

 var (
 	Isptr     [NTYPE]bool
 	isforw    [NTYPE]bool
 	Isint     [NTYPE]bool
 	Isfloat   [NTYPE]bool
 	Iscomplex [NTYPE]bool
 	Issigned  [NTYPE]bool
 	issimple  [NTYPE]bool
 )

 var (
 	okforeq    [NTYPE]bool
 	okforadd   [NTYPE]bool
 	okforand   [NTYPE]bool
 	okfornone  [NTYPE]bool
 	okforcmp   [NTYPE]bool
 	okforbool  [NTYPE]bool
 	okforcap   [NTYPE]bool
 	okforlen   [NTYPE]bool
 	okforarith [NTYPE]bool
 	okforconst [NTYPE]bool
 )

 var (
 	okfor [OEND][]bool
 	iscmp [OEND]bool
 )

 var Minintval [NTYPE]*Mpint

 var Maxintval [NTYPE]*Mpint

 var minfltval [NTYPE]*Mpflt

 var maxfltval [NTYPE]*Mpflt

 var xtop *NodeList

 var externdcl *NodeList

 var exportlist *NodeList

 var importlist *NodeList // imported functions and methods with inlinable bodies

 var funcsyms *NodeList

 var dclcontext uint8 // PEXTERN/PAUTO

 var incannedimport int

 var statuniqgen int // name generator for static temps

 var loophack int

 var iota_ int32

 var lastconst *NodeList

 var lasttype *Node

 var Maxarg int64

 var Stksize int64 // stack size for current frame

 var stkptrsize int64 // prefix of stack containing pointers

 var blockgen int32 // max block number

 var block int32 // current block number

 var Hasdefer int // flag that curfn has defer statetment

 var Curfn *Node

 var Widthptr int

 var Widthint int

 var Widthreg int

 var typesw *Node

 var nblank *Node

 var hunk string

 var nhunk int32

 var thunk int32

 var Funcdepth int32

 var typecheckok int

 var compiling_runtime int

 var compiling_wrappers int

 var use_writebarrier int

 var pure_go int

 var flag_installsuffix string

 var flag_race int

 var flag_largemodel int

 // Pending annotations for next func declaration.
 var (
 	noescape       bool
 	nosplit        bool
 	nowritebarrier bool
 	systemstack    bool
 	norace         bool
 )

 var debuglive int

 var Ctxt *obj.Link

 var nointerface bool

 var writearchive int

 var bstdout obj.Biobuf

 var Nacl bool

 var continpc *obj.Prog

 var breakpc *obj.Prog

 var Pc *obj.Prog

 var nodfp *Node

 var Disable_checknil int

 var zerosize int64

 type Flow struct {
 	Prog   *obj.Prog // actual instruction
 	P1     *Flow     // predecessors of this instruction: p1,
 	P2     *Flow     // and then p2 linked though p2link.
 	P2link *Flow
 	S1     *Flow // successors of this instruction (at most two: s1 and s2).
 	S2     *Flow
 	Link   *Flow // next instruction in function code

 	Active int32 // usable by client

 	Id     int32  // sequence number in flow graph
 	Rpo    int32  // reverse post ordering
 	Loop   uint16 // x5 for every loop
 	Refset uint8  // diagnostic generated

 	Data interface{} // for use by client
 }

 type Graph struct {
 	Start *Flow
 	Num   int

 	// After calling flowrpo, rpo lists the flow nodes in reverse postorder,
 	// and each non-dead Flow node f has g->rpo[f->rpo] == f.
 	Rpo []*Flow
 }

 /*
  *	interface to back end
  */

 const (
 	// Pseudo-op, like TEXT, GLOBL, TYPE, PCDATA, FUNCDATA.
 	Pseudo = 1 << 1

 	// There's nothing to say about the instruction,
 	// but it's still okay to see.
 	OK = 1 << 2

 	// Size of right-side write, or right-side read if no write.
 	SizeB = 1 << 3
 	SizeW = 1 << 4
 	SizeL = 1 << 5
 	SizeQ = 1 << 6
 	SizeF = 1 << 7
 	SizeD = 1 << 8

 	// Left side (Prog.from): address taken, read, write.
 	LeftAddr  = 1 << 9
 	LeftRead  = 1 << 10
 	LeftWrite = 1 << 11

 	// Register in middle (Prog.reg); only ever read. (arm, ppc64)
 	RegRead    = 1 << 12
 	CanRegRead = 1 << 13

 	// Right side (Prog.to): address taken, read, write.
 	RightAddr  = 1 << 14
 	RightRead  = 1 << 15
 	RightWrite = 1 << 16

 	// Instruction kinds
 	Move  = 1 << 17 // straight move
 	Conv  = 1 << 18 // size conversion
 	Cjmp  = 1 << 19 // conditional jump
 	Break = 1 << 20 // breaks control flow (no fallthrough)
 	Call  = 1 << 21 // function call
 	Jump  = 1 << 22 // jump
 	Skip  = 1 << 23 // data instruction

 	// Set, use, or kill of carry bit.
 	// Kill means we never look at the carry bit after this kind of instruction.
 	SetCarry  = 1 << 24
 	UseCarry  = 1 << 25
 	KillCarry = 1 << 26

 	// Special cases for register use. (amd64, 386)
 	ShiftCX  = 1 << 27 // possible shift by CX
 	ImulAXDX = 1 << 28 // possible multiply into DX:AX

 	// Instruction updates whichever of from/to is type D_OREG. (ppc64)
 	PostInc = 1 << 29
 )

 type Arch struct {
 	Thechar      int
 	Thestring    string
 	Thelinkarch  *obj.LinkArch
 	Typedefs     []Typedef
 	REGSP        int
 	REGCTXT      int
 	REGCALLX     int // BX
 	REGCALLX2    int // AX
 	REGRETURN    int // AX
 	REGMIN       int
 	REGMAX       int
 	REGZERO      int // architectural zero register, if available
 	FREGMIN      int
 	FREGMAX      int
 	MAXWIDTH     int64
 	ReservedRegs []int

 	AddIndex     func(*Node, int64, *Node) bool // optional
 	Betypeinit   func()
 	Bgen_float   func(*Node, bool, int, *obj.Prog) // optional
 	Cgen64       func(*Node, *Node)                // only on 32-bit systems
 	Cgenindex    func(*Node, *Node, bool) *obj.Prog
 	Cgen_bmul    func(int, *Node, *Node, *Node) bool
 	Cgen_float   func(*Node, *Node) // optional
 	Cgen_hmul    func(*Node, *Node, *Node)
 	Cgen_shift   func(int, bool, *Node, *Node, *Node)
 	Clearfat     func(*Node)
 	Cmp64        func(*Node, *Node, int, int, *obj.Prog) // only on 32-bit systems
 	Defframe     func(*obj.Prog)
 	Dodiv        func(int, *Node, *Node, *Node)
 	Excise       func(*Flow)
 	Expandchecks func(*obj.Prog)
 	Getg         func(*Node)
 	Gins         func(int, *Node, *Node) *obj.Prog

 	// Ginscmp generates code comparing n1 to n2 and jumping away if op is satisfied.
 	// The returned prog should be Patch'ed with the jump target.
 	// If op is not satisfied, code falls through to the next emitted instruction.
 	// Likely is the branch prediction hint: +1 for likely, -1 for unlikely, 0 for no opinion.
 	//
 	// Ginscmp must be able to handle all kinds of arguments for n1 and n2,
 	// not just simple registers, although it can assume that there are no
 	// function calls needed during the evaluation, and on 32-bit systems
 	// the values are guaranteed not to be 64-bit values, so no in-memory
 	// temporaries are necessary.
 	Ginscmp func(op int, t *Type, n1, n2 *Node, likely int) *obj.Prog

 	// Ginsboolval inserts instructions to convert the result
 	// of a just-completed comparison to a boolean value.
 	// The first argument is the conditional jump instruction
 	// corresponding to the desired value.
 	// The second argument is the destination.
 	// If not present, Ginsboolval will be emulated with jumps.
 	Ginsboolval func(int, *Node)

 	Ginscon      func(int, int64, *Node)
 	Ginsnop      func()
 	Gmove        func(*Node, *Node)
 	Igenindex    func(*Node, *Node, bool) *obj.Prog
 	Linkarchinit func()
 	Peep         func(*obj.Prog)
 	Proginfo     func(*obj.Prog) // fills in Prog.Info
 	Regtyp       func(*obj.Addr) bool
 	Sameaddr     func(*obj.Addr, *obj.Addr) bool
 	Smallindir   func(*obj.Addr, *obj.Addr) bool
 	Stackaddr    func(*obj.Addr) bool
 	Blockcopy    func(*Node, *Node, int64, int64, int64)
 	Sudoaddable  func(int, *Node, *obj.Addr) bool
 	Sudoclean    func()
 	Excludedregs func() uint64
 	RtoB         func(int) uint64
 	FtoB         func(int) uint64
 	BtoR         func(uint64) int
 	BtoF         func(uint64) int
 	Optoas       func(int, *Type) int
 	Doregbits    func(int) uint64
 	Regnames     func(*int) []string
 	Use387       bool // should 8g use 387 FP instructions instead of sse2.
 }

 var pcloc int32

 var Thearch Arch

 var Newproc *Node

 var Deferproc *Node

 var Deferreturn *Node

 var Panicindex *Node

 var panicslice *Node

 var throwreturn *Node
	// Do not edit. Bootstrap copy of /tmp/go/src/cmd/compile/internal/gc/go.go

	//line /tmp/go/src/cmd/compile/internal/gc/go.go:1
	// Copyright 2009 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 gc

	import (
	"bytes"
	"bootstrap/compile/internal/big"
	"bootstrap/internal/obj"
	)

	// avoid <ctype.h>

	// The parser's maximum stack size.
	// We have to use a #define macro here since yacc
	// or bison will check for its definition and use
	// a potentially smaller value if it is undefined.
	const (
	NHUNK = 50000
	BUFSIZ = 8192
	NSYMB = 500
	NHASH = 1024
	MAXALIGN = 7
	UINF = 100
	PRIME1 = 3
	BADWIDTH = -1000000000
	MaxStackVarSize = 10 * 1024 * 1024
	)

	const (
	// These values are known by runtime.
	// The MEMx and NOEQx values must run in parallel. See algtype.
	AMEM = iota
	AMEM0
	AMEM8
	AMEM16
	AMEM32
	AMEM64
	AMEM128
	ANOEQ
	ANOEQ0
	ANOEQ8
	ANOEQ16
	ANOEQ32
	ANOEQ64
	ANOEQ128
	ASTRING
	AINTER
	ANILINTER
	ASLICE
	AFLOAT32
	AFLOAT64
	ACPLX64
	ACPLX128
	AUNK = 100
	)

	const (
	// Maximum size in bits for Mpints before signalling
	// overflow and also mantissa precision for Mpflts.
	Mpprec = 512
	// Turn on for constant arithmetic debugging output.
	Mpdebug = false
	)

	// Mpint represents an integer constant.
	type Mpint struct {
	Val big.Int
	Ovf bool // set if Val overflowed compiler limit (sticky)
	Rune bool // set if syntax indicates default type rune
	}

	// Mpflt represents a floating-point constant.
	type Mpflt struct {
	Val big.Float
	}

	// Mpcplx represents a complex constant.
	type Mpcplx struct {
	Real Mpflt
	Imag Mpflt
	}

	type Val struct {
	// U contains one of:
	// bool bool when n.ValCtype() == CTBOOL
	// *Mpint int when n.ValCtype() == CTINT, rune when n.ValCtype() == CTRUNE
	// *Mpflt float when n.ValCtype() == CTFLT
	// *Mpcplx pair of floats when n.ValCtype() == CTCPLX
	// string string when n.ValCtype() == CTSTR
	// *Nilval when n.ValCtype() == CTNIL
	U interface{}
	}

	type NilVal struct{}

	func (v Val) Ctype() int {
	switch x := v.U.(type) {
	default:
	Fatal("unexpected Ctype for %T", v.U)
	panic("not reached")
	case nil:
	return 0
	case *NilVal:
	return CTNIL
	case bool:
	return CTBOOL
	case *Mpint:
	if x.Rune {
	return CTRUNE
	}
	return CTINT
	case *Mpflt:
	return CTFLT
	case *Mpcplx:
	return CTCPLX
	case string:
	return CTSTR
	}
	}

	type Pkg struct {
	Name string // package name
	Path string // string literal used in import statement
	Pathsym *Sym
	Prefix string // escaped path for use in symbol table
	Imported uint8 // export data of this package was parsed
	Exported int8 // import line written in export data
	Direct int8 // imported directly
	Safe bool // whether the package is marked as safe
	Syms map[string]*Sym
	}

	type Sym struct {
	Lexical uint16
	Flags uint8
	Link *Sym
	Uniqgen uint32
	Importdef *Pkg // where imported definition was found
	Linkname string // link name

	// saved and restored by dcopy
	Pkg *Pkg
	Name string // variable name
	Def *Node // definition: ONAME OTYPE OPACK or OLITERAL
	Label *Label // corresponding label (ephemeral)
	Block int32 // blocknumber to catch redeclaration
	Lastlineno int32 // last declaration for diagnostic
	Origpkg *Pkg // original package for . import
	Lsym *obj.LSym
	Fsym *Sym // funcsym
	}

	type Type struct {
	Etype uint8
	Nointerface bool
	Noalg uint8
	Chan uint8
	Trecur uint8 // to detect loops
	Printed uint8
	Embedded uint8 // TFIELD embedded type
	Siggen uint8
	Funarg uint8 // on TSTRUCT and TFIELD
	Copyany uint8
	Local bool // created in this file
	Deferwidth uint8
	Broke uint8 // broken type definition.
	Isddd bool // TFIELD is ... argument
	Align uint8
	Haspointers uint8 // 0 unknown, 1 no, 2 yes

	Nod *Node // canonical OTYPE node
	Orig *Type // original type (type literal or predefined type)
	Lineno int

	// TFUNC
	Thistuple int
	Outtuple int
	Intuple int
	Outnamed uint8

	Method *Type
	Xmethod *Type

	Sym *Sym
	Vargen int32 // unique name for OTYPE/ONAME

	Nname *Node
	Argwid int64

	// most nodes
	Type *Type // actual type for TFIELD, element type for TARRAY, TCHAN, TMAP, TPTRxx
	Width int64 // offset in TFIELD, width in all others

	// TFIELD
	Down *Type // next struct field, also key type in TMAP
	Outer *Type // outer struct
	Note *string // literal string annotation

	// TARRAY
	Bound int64 // negative is dynamic array

	// TMAP
	Bucket *Type // internal type representing a hash bucket
	Hmap *Type // internal type representing a Hmap (map header object)
	Hiter *Type // internal type representing hash iterator state
	Map *Type // link from the above 3 internal types back to the map type.

	Maplineno int32 // first use of TFORW as map key
	Embedlineno int32 // first use of TFORW as embedded type

	// for TFORW, where to copy the eventual value to
	Copyto *NodeList

	Lastfn *Node // for usefield
	}

	type Label struct {
	Used uint8
	Sym *Sym
	Def *Node
	Use *NodeList
	Link *Label

	// for use during gen
	Gotopc *obj.Prog // pointer to unresolved gotos
	Labelpc *obj.Prog // pointer to code
	Breakpc *obj.Prog // pointer to code
	Continpc *obj.Prog // pointer to code
	}

	type InitEntry struct {
	Xoffset int64 // struct, array only
	Expr *Node // bytes of run-time computed expressions
	}

	type InitPlan struct {
	Lit int64
	Zero int64
	Expr int64
	E []InitEntry
	}

	const (
	SymExport = 1 << 0 // to be exported
	SymPackage = 1 << 1
	SymExported = 1 << 2 // already written out by export
	SymUniq = 1 << 3
	SymSiggen = 1 << 4
	SymAsm = 1 << 5
	SymAlgGen = 1 << 6
	)

	var dclstack *Sym

	type Iter struct {
	Done int
	Tfunc *Type
	T *Type
	}

	const (
	Txxx = iota

	TINT8
	TUINT8
	TINT16
	TUINT16
	TINT32
	TUINT32
	TINT64
	TUINT64
	TINT
	TUINT
	TUINTPTR

	TCOMPLEX64
	TCOMPLEX128

	TFLOAT32
	TFLOAT64

	TBOOL

	TPTR32
	TPTR64

	TFUNC
	TARRAY
	T_old_DARRAY
	TSTRUCT
	TCHAN
	TMAP
	TINTER
	TFORW
	TFIELD
	TANY
	TSTRING
	TUNSAFEPTR

	// pseudo-types for literals
	TIDEAL
	TNIL
	TBLANK

	// pseudo-type for frame layout
	TFUNCARGS
	TCHANARGS
	TINTERMETH

	NTYPE
	)

	const (
	CTxxx = iota

	CTINT
	CTRUNE
	CTFLT
	CTCPLX
	CTSTR
	CTBOOL
	CTNIL
	)

	const (
	/* types of channel */
	/* must match ../../pkg/nreflect/type.go:/Chandir */
	Cxxx = 0
	Crecv = 1 << 0
	Csend = 1 << 1
	Cboth = Crecv \| Csend
	)

	// declaration context
	const (
	Pxxx = uint8(iota)
	PEXTERN // global variable
	PAUTO // local variables
	PPARAM // input arguments
	PPARAMOUT // output results
	PPARAMREF // closure variable reference
	PFUNC // global function

	PDISCARD // discard during parse of duplicate import

	PHEAP = uint8(1 << 7) // an extra bit to identify an escaped variable
	)

	const (
	Etop = 1 << 1 // evaluated at statement level
	Erv = 1 << 2 // evaluated in value context
	Etype = 1 << 3
	Ecall = 1 << 4 // call-only expressions are ok
	Efnstruct = 1 << 5 // multivalue function returns are ok
	Eiota = 1 << 6 // iota is ok
	Easgn = 1 << 7 // assigning to expression
	Eindir = 1 << 8 // indirecting through expression
	Eaddr = 1 << 9 // taking address of expression
	Eproc = 1 << 10 // inside a go statement
	Ecomplit = 1 << 11 // type in composite literal
	)

	type Typedef struct {
	Name string
	Etype int
	Sameas int
	}

	type Sig struct {
	name string
	pkg *Pkg
	isym *Sym
	tsym *Sym
	type_ *Type
	mtype *Type
	offset int32
	link *Sig
	}

	type Io struct {
	infile string
	bin *obj.Biobuf
	nlsemi int
	eofnl int
	last int
	peekc int
	peekc1 int // second peekc for ...
	cp string // used for content when bin==nil
	importsafe bool
	}

	type Dlist struct {
	field *Type
	}

	type Idir struct {
	link *Idir
	dir string
	}

	/*
	* argument passing to/from
	* smagic and umagic
	*/
	type Magic struct {
	W int // input for both - width
	S int // output for both - shift
	Bad int // output for both - unexpected failure

	// magic multiplier for signed literal divisors
	Sd int64 // input - literal divisor
	Sm int64 // output - multiplier

	// magic multiplier for unsigned literal divisors
	Ud uint64 // input - literal divisor
	Um uint64 // output - multiplier
	Ua int // output - adder
	}

	/*
	* note this is the runtime representation
	* of the compilers arrays.
	*
	* typedef struct
	* { // must not move anything
	* uchar array[8]; // pointer to data
	* uchar nel[4]; // number of elements
	* uchar cap[4]; // allocated number of elements
	* } Array;
	*/
	var Array_array int // runtime offsetof(Array,array) - same for String

	var Array_nel int // runtime offsetof(Array,nel) - same for String

	var Array_cap int // runtime offsetof(Array,cap)

	var sizeof_Array int // runtime sizeof(Array)

	/*
	* note this is the runtime representation
	* of the compilers strings.
	*
	* typedef struct
	* { // must not move anything
	* uchar array[8]; // pointer to data
	* uchar nel[4]; // number of elements
	* } String;
	*/
	var sizeof_String int // runtime sizeof(String)

	var dotlist [10]Dlist // size is max depth of embeddeds

	var curio Io

	var pushedio Io

	var lexlineno int32

	var lineno int32

	var prevlineno int32

	var pragcgobuf string

	var infile string

	var outfile string

	var bout *obj.Biobuf

	var nerrors int

	var nsavederrors int

	var nsyntaxerrors int

	var decldepth int32

	var safemode int

	var nolocalimports int

	var lexbuf bytes.Buffer
	var strbuf bytes.Buffer

	var litbuf string

	var Debug [256]int

	var debugstr string

	var Debug_checknil int
	var Debug_typeassert int

	var importmyname *Sym // my name for package

	var localpkg *Pkg // package being compiled

	var importpkg *Pkg // package being imported

	var structpkg *Pkg // package that declared struct, during import

	var builtinpkg *Pkg // fake package for builtins

	var gostringpkg *Pkg // fake pkg for Go strings

	var itabpkg *Pkg // fake pkg for itab cache

	var Runtimepkg *Pkg // package runtime

	var racepkg *Pkg // package runtime/race

	var typepkg *Pkg // fake package for runtime type info (headers)

	var typelinkpkg *Pkg // fake package for runtime type info (data)

	var weaktypepkg *Pkg // weak references to runtime type info

	var unsafepkg *Pkg // package unsafe

	var trackpkg *Pkg // fake package for field tracking

	var Tptr int // either TPTR32 or TPTR64

	var myimportpath string

	var idirs *Idir

	var localimport string

	var asmhdr string

	var Types [NTYPE]*Type

	var idealstring *Type

	var idealbool *Type

	var bytetype *Type

	var runetype *Type

	var errortype *Type

	var Simtype [NTYPE]uint8

	var (
	Isptr [NTYPE]bool
	isforw [NTYPE]bool
	Isint [NTYPE]bool
	Isfloat [NTYPE]bool
	Iscomplex [NTYPE]bool
	Issigned [NTYPE]bool
	issimple [NTYPE]bool
	)

	var (
	okforeq [NTYPE]bool
	okforadd [NTYPE]bool
	okforand [NTYPE]bool
	okfornone [NTYPE]bool
	okforcmp [NTYPE]bool
	okforbool [NTYPE]bool
	okforcap [NTYPE]bool
	okforlen [NTYPE]bool
	okforarith [NTYPE]bool
	okforconst [NTYPE]bool
	)

	var (
	okfor [OEND][]bool
	iscmp [OEND]bool
	)

	var Minintval [NTYPE]*Mpint

	var Maxintval [NTYPE]*Mpint

	var minfltval [NTYPE]*Mpflt

	var maxfltval [NTYPE]*Mpflt

	var xtop *NodeList

	var externdcl *NodeList

	var exportlist *NodeList

	var importlist *NodeList // imported functions and methods with inlinable bodies

	var funcsyms *NodeList

	var dclcontext uint8 // PEXTERN/PAUTO

	var incannedimport int

	var statuniqgen int // name generator for static temps

	var loophack int

	var iota_ int32

	var lastconst *NodeList

	var lasttype *Node

	var Maxarg int64

	var Stksize int64 // stack size for current frame

	var stkptrsize int64 // prefix of stack containing pointers

	var blockgen int32 // max block number

	var block int32 // current block number

	var Hasdefer int // flag that curfn has defer statetment

	var Curfn *Node

	var Widthptr int

	var Widthint int

	var Widthreg int

	var typesw *Node

	var nblank *Node

	var hunk string

	var nhunk int32

	var thunk int32

	var Funcdepth int32

	var typecheckok int

	var compiling_runtime int

	var compiling_wrappers int

	var use_writebarrier int

	var pure_go int

	var flag_installsuffix string

	var flag_race int

	var flag_largemodel int

	// Pending annotations for next func declaration.
	var (
	noescape bool
	nosplit bool
	nowritebarrier bool
	systemstack bool
	norace bool
	)

	var debuglive int

	var Ctxt *obj.Link

	var nointerface bool

	var writearchive int

	var bstdout obj.Biobuf

	var Nacl bool

	var continpc *obj.Prog

	var breakpc *obj.Prog

	var Pc *obj.Prog

	var nodfp *Node

	var Disable_checknil int

	var zerosize int64

	type Flow struct {
	Prog *obj.Prog // actual instruction
	P1 *Flow // predecessors of this instruction: p1,
	P2 *Flow // and then p2 linked though p2link.
	P2link *Flow
	S1 *Flow // successors of this instruction (at most two: s1 and s2).
	S2 *Flow
	Link *Flow // next instruction in function code

	Active int32 // usable by client

	Id int32 // sequence number in flow graph
	Rpo int32 // reverse post ordering
	Loop uint16 // x5 for every loop
	Refset uint8 // diagnostic generated

	Data interface{} // for use by client
	}

	type Graph struct {
	Start *Flow
	Num int

	// After calling flowrpo, rpo lists the flow nodes in reverse postorder,
	// and each non-dead Flow node f has g->rpo[f->rpo] == f.
	Rpo []*Flow
	}

	/*
	* interface to back end
	*/

	const (
	// Pseudo-op, like TEXT, GLOBL, TYPE, PCDATA, FUNCDATA.
	Pseudo = 1 << 1

	// There's nothing to say about the instruction,
	// but it's still okay to see.
	OK = 1 << 2

	// Size of right-side write, or right-side read if no write.
	SizeB = 1 << 3
	SizeW = 1 << 4
	SizeL = 1 << 5
	SizeQ = 1 << 6
	SizeF = 1 << 7
	SizeD = 1 << 8

	// Left side (Prog.from): address taken, read, write.
	LeftAddr = 1 << 9
	LeftRead = 1 << 10
	LeftWrite = 1 << 11

	// Register in middle (Prog.reg); only ever read. (arm, ppc64)
	RegRead = 1 << 12
	CanRegRead = 1 << 13

	// Right side (Prog.to): address taken, read, write.
	RightAddr = 1 << 14
	RightRead = 1 << 15
	RightWrite = 1 << 16

	// Instruction kinds
	Move = 1 << 17 // straight move
	Conv = 1 << 18 // size conversion
	Cjmp = 1 << 19 // conditional jump
	Break = 1 << 20 // breaks control flow (no fallthrough)
	Call = 1 << 21 // function call
	Jump = 1 << 22 // jump
	Skip = 1 << 23 // data instruction

	// Set, use, or kill of carry bit.
	// Kill means we never look at the carry bit after this kind of instruction.
	SetCarry = 1 << 24
	UseCarry = 1 << 25
	KillCarry = 1 << 26

	// Special cases for register use. (amd64, 386)
	ShiftCX = 1 << 27 // possible shift by CX
	ImulAXDX = 1 << 28 // possible multiply into DX:AX

	// Instruction updates whichever of from/to is type D_OREG. (ppc64)
	PostInc = 1 << 29
	)

	type Arch struct {
	Thechar int
	Thestring string
	Thelinkarch *obj.LinkArch
	Typedefs []Typedef
	REGSP int
	REGCTXT int
	REGCALLX int // BX
	REGCALLX2 int // AX
	REGRETURN int // AX
	REGMIN int
	REGMAX int
	REGZERO int // architectural zero register, if available
	FREGMIN int
	FREGMAX int
	MAXWIDTH int64
	ReservedRegs []int

	AddIndex func(Node, int64, Node) bool // optional
	Betypeinit func()
	Bgen_float func(Node, bool, int, obj.Prog) // optional
	Cgen64 func(Node, Node) // only on 32-bit systems
	Cgenindex func(Node, Node, bool) *obj.Prog
	Cgen_bmul func(int, Node, Node, *Node) bool
	Cgen_float func(Node, Node) // optional
	Cgen_hmul func(Node, Node, *Node)
	Cgen_shift func(int, bool, Node, Node, *Node)
	Clearfat func(*Node)
	Cmp64 func(Node, Node, int, int, *obj.Prog) // only on 32-bit systems
	Defframe func(*obj.Prog)
	Dodiv func(int, Node, Node, *Node)
	Excise func(*Flow)
	Expandchecks func(*obj.Prog)
	Getg func(*Node)
	Gins func(int, Node, Node) *obj.Prog

	// Ginscmp generates code comparing n1 to n2 and jumping away if op is satisfied.
	// The returned prog should be Patch'ed with the jump target.
	// If op is not satisfied, code falls through to the next emitted instruction.
	// Likely is the branch prediction hint: +1 for likely, -1 for unlikely, 0 for no opinion.
	//
	// Ginscmp must be able to handle all kinds of arguments for n1 and n2,
	// not just simple registers, although it can assume that there are no
	// function calls needed during the evaluation, and on 32-bit systems
	// the values are guaranteed not to be 64-bit values, so no in-memory
	// temporaries are necessary.
	Ginscmp func(op int, t Type, n1, n2 Node, likely int) *obj.Prog

	// Ginsboolval inserts instructions to convert the result
	// of a just-completed comparison to a boolean value.
	// The first argument is the conditional jump instruction
	// corresponding to the desired value.
	// The second argument is the destination.
	// If not present, Ginsboolval will be emulated with jumps.
	Ginsboolval func(int, *Node)

	Ginscon func(int, int64, *Node)
	Ginsnop func()
	Gmove func(Node, Node)
	Igenindex func(Node, Node, bool) *obj.Prog
	Linkarchinit func()
	Peep func(*obj.Prog)
	Proginfo func(*obj.Prog) // fills in Prog.Info
	Regtyp func(*obj.Addr) bool
	Sameaddr func(obj.Addr, obj.Addr) bool
	Smallindir func(obj.Addr, obj.Addr) bool
	Stackaddr func(*obj.Addr) bool
	Blockcopy func(Node, Node, int64, int64, int64)
	Sudoaddable func(int, Node, obj.Addr) bool
	Sudoclean func()
	Excludedregs func() uint64
	RtoB func(int) uint64
	FtoB func(int) uint64
	BtoR func(uint64) int
	BtoF func(uint64) int
	Optoas func(int, *Type) int
	Doregbits func(int) uint64
	Regnames func(*int) []string
	Use387 bool // should 8g use 387 FP instructions instead of sse2.
	}

	var pcloc int32

	var Thearch Arch

	var Newproc *Node

	var Deferproc *Node

	var Deferreturn *Node

	var Panicindex *Node

	var panicslice *Node

	var throwreturn *Node