src/cmd/compile/internal/gc/init.go - go - Git at Google

 // 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

 //	case OADD:
 //		if(n->right->op == OLITERAL) {
 //			v = n->right->vconst;
 //			naddr(n->left, a, canemitcode);
 //		} else
 //		if(n->left->op == OLITERAL) {
 //			v = n->left->vconst;
 //			naddr(n->right, a, canemitcode);
 //		} else
 //			goto bad;
 //		a->offset += v;
 //		break;

 // a function named init is a special case.
 // it is called by the initialization before
 // main is run. to make it unique within a
 // package and also uncallable, the name,
 // normally "pkg.init", is altered to "pkg.init.1".

 var renameinit_initgen int

 func renameinit() *Sym {
 	renameinit_initgen++
 	return LookupN("init.", renameinit_initgen)
 }

 // hand-craft the following initialization code
 //      var initdone· uint8                             (1)
 //      func init() {                                   (2)
 //              if initdone· > 1 {                      (3)
 //                      return                          (3a)
 //              }
 //              if initdone· == 1 {                     (4)
 //                      throw()                         (4a)
 //              }
 //              initdone· = 1                           (5)
 //              // over all matching imported symbols
 //                      <pkg>.init()                    (6)
 //              { <init stmts> }                        (7)
 //              init.<n>() // if any                    (8)
 //              initdone· = 2                           (9)
 //              return                                  (10)
 //      }
 func anyinit(n []*Node) bool {
 	// are there any interesting init statements
 	for _, ln := range n {
 		switch ln.Op {
 		case ODCLFUNC, ODCLCONST, ODCLTYPE, OEMPTY:
 			break

 		case OAS, OASWB:
 			if isblank(ln.Left) && candiscard(ln.Right) {
 				break
 			}
 			fallthrough
 		default:
 			return true
 		}
 	}

 	// is this main
 	if localpkg.Name == "main" {
 		return true
 	}

 	// is there an explicit init function
 	s := Lookup("init.1")

 	if s.Def != nil {
 		return true
 	}

 	// are there any imported init functions
 	for _, s := range initSyms {
 		if s.Def != nil {
 			return true
 		}
 	}

 	// then none
 	return false
 }

 func fninit(n []*Node) {
 	if Debug['A'] != 0 {
 		// sys.go or unsafe.go during compiler build
 		return
 	}

 	nf := initfix(n)
 	if !anyinit(nf) {
 		return
 	}

 	var r []*Node

 	// (1)
 	gatevar := newname(Lookup("initdone·"))
 	addvar(gatevar, Types[TUINT8], PEXTERN)

 	// (2)
 	Maxarg = 0

 	fn := Nod(ODCLFUNC, nil, nil)
 	initsym := Lookup("init")
 	fn.Func.Nname = newname(initsym)
 	fn.Func.Nname.Name.Defn = fn
 	fn.Func.Nname.Name.Param.Ntype = Nod(OTFUNC, nil, nil)
 	declare(fn.Func.Nname, PFUNC)
 	funchdr(fn)

 	// (3)
 	a := Nod(OIF, nil, nil)
 	a.Left = Nod(OGT, gatevar, Nodintconst(1))
 	a.Likely = 1
 	r = append(r, a)
 	// (3a)
 	a.Nbody.Set1(Nod(ORETURN, nil, nil))

 	// (4)
 	b := Nod(OIF, nil, nil)
 	b.Left = Nod(OEQ, gatevar, Nodintconst(1))
 	// this actually isn't likely, but code layout is better
 	// like this: no JMP needed after the call.
 	b.Likely = 1
 	r = append(r, b)
 	// (4a)
 	b.Nbody.Set1(Nod(OCALL, syslook("throwinit"), nil))

 	// (5)
 	a = Nod(OAS, gatevar, Nodintconst(1))

 	r = append(r, a)

 	// (6)
 	for _, s := range initSyms {
 		if s.Def != nil && s != initsym {
 			// could check that it is fn of no args/returns
 			a = Nod(OCALL, s.Def, nil)
 			r = append(r, a)
 		}
 	}

 	// (7)
 	r = append(r, nf...)

 	// (8)
 	// could check that it is fn of no args/returns
 	for i := 1; ; i++ {
 		s := LookupN("init.", i)
 		if s.Def == nil {
 			break
 		}
 		a = Nod(OCALL, s.Def, nil)
 		r = append(r, a)
 	}

 	// (9)
 	a = Nod(OAS, gatevar, Nodintconst(2))

 	r = append(r, a)

 	// (10)
 	a = Nod(ORETURN, nil, nil)

 	r = append(r, a)
 	exportsym(fn.Func.Nname)

 	fn.Nbody.Set(r)
 	funcbody(fn)

 	Curfn = fn
 	fn = typecheck(fn, Etop)
 	typecheckslice(r, Etop)
 	Curfn = nil
 	funccompile(fn)
 }
	// 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

	// case OADD:
	// if(n->right->op == OLITERAL) {
	// v = n->right->vconst;
	// naddr(n->left, a, canemitcode);
	// } else
	// if(n->left->op == OLITERAL) {
	// v = n->left->vconst;
	// naddr(n->right, a, canemitcode);
	// } else
	// goto bad;
	// a->offset += v;
	// break;

	// a function named init is a special case.
	// it is called by the initialization before
	// main is run. to make it unique within a
	// package and also uncallable, the name,
	// normally "pkg.init", is altered to "pkg.init.1".

	var renameinit_initgen int

	func renameinit() *Sym {
	renameinit_initgen++
	return LookupN("init.", renameinit_initgen)
	}

	// hand-craft the following initialization code
	// var initdone· uint8 (1)
	// func init() { (2)
	// if initdone· > 1 { (3)
	// return (3a)
	// }
	// if initdone· == 1 { (4)
	// throw() (4a)
	// }
	// initdone· = 1 (5)
	// // over all matching imported symbols
	// <pkg>.init() (6)
	// { <init stmts> } (7)
	// init.<n>() // if any (8)
	// initdone· = 2 (9)
	// return (10)
	// }
	func anyinit(n []*Node) bool {
	// are there any interesting init statements
	for _, ln := range n {
	switch ln.Op {
	case ODCLFUNC, ODCLCONST, ODCLTYPE, OEMPTY:
	break

	case OAS, OASWB:
	if isblank(ln.Left) && candiscard(ln.Right) {
	break
	}
	fallthrough
	default:
	return true
	}
	}

	// is this main
	if localpkg.Name == "main" {
	return true
	}

	// is there an explicit init function
	s := Lookup("init.1")

	if s.Def != nil {
	return true
	}

	// are there any imported init functions
	for _, s := range initSyms {
	if s.Def != nil {
	return true
	}
	}

	// then none
	return false
	}

	func fninit(n []*Node) {
	if Debug['A'] != 0 {
	// sys.go or unsafe.go during compiler build
	return
	}

	nf := initfix(n)
	if !anyinit(nf) {
	return
	}

	var r []*Node

	// (1)
	gatevar := newname(Lookup("initdone·"))
	addvar(gatevar, Types[TUINT8], PEXTERN)

	// (2)
	Maxarg = 0

	fn := Nod(ODCLFUNC, nil, nil)
	initsym := Lookup("init")
	fn.Func.Nname = newname(initsym)
	fn.Func.Nname.Name.Defn = fn
	fn.Func.Nname.Name.Param.Ntype = Nod(OTFUNC, nil, nil)
	declare(fn.Func.Nname, PFUNC)
	funchdr(fn)

	// (3)
	a := Nod(OIF, nil, nil)
	a.Left = Nod(OGT, gatevar, Nodintconst(1))
	a.Likely = 1
	r = append(r, a)
	// (3a)
	a.Nbody.Set1(Nod(ORETURN, nil, nil))

	// (4)
	b := Nod(OIF, nil, nil)
	b.Left = Nod(OEQ, gatevar, Nodintconst(1))
	// this actually isn't likely, but code layout is better
	// like this: no JMP needed after the call.
	b.Likely = 1
	r = append(r, b)
	// (4a)
	b.Nbody.Set1(Nod(OCALL, syslook("throwinit"), nil))

	// (5)
	a = Nod(OAS, gatevar, Nodintconst(1))

	r = append(r, a)

	// (6)
	for _, s := range initSyms {
	if s.Def != nil && s != initsym {
	// could check that it is fn of no args/returns
	a = Nod(OCALL, s.Def, nil)
	r = append(r, a)
	}
	}

	// (7)
	r = append(r, nf...)

	// (8)
	// could check that it is fn of no args/returns
	for i := 1; ; i++ {
	s := LookupN("init.", i)
	if s.Def == nil {
	break
	}
	a = Nod(OCALL, s.Def, nil)
	r = append(r, a)
	}

	// (9)
	a = Nod(OAS, gatevar, Nodintconst(2))

	r = append(r, a)

	// (10)
	a = Nod(ORETURN, nil, nil)

	r = append(r, a)
	exportsym(fn.Func.Nname)

	fn.Nbody.Set(r)
	funcbody(fn)

	Curfn = fn
	fn = typecheck(fn, Etop)
	typecheckslice(r, Etop)
	Curfn = nil
	funccompile(fn)
	}