src/reflect/export_test.go - go - Git at Google

 // Copyright 2012 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 reflect

 import (
 	"internal/abi"
 	"internal/goarch"
 	"sync"
 	"unsafe"
 )

 // MakeRO returns a copy of v with the read-only flag set.
 func MakeRO(v Value) Value {
 	v.flag |= flagStickyRO
 	return v
 }

 // IsRO reports whether v's read-only flag is set.
 func IsRO(v Value) bool {
 	return v.flag&flagStickyRO != 0
 }

 var CallGC = &callGC

 // FuncLayout calls funcLayout and returns a subset of the results for testing.
 //
 // Bitmaps like stack, gc, inReg, and outReg are expanded such that each bit
 // takes up one byte, so that writing out test cases is a little clearer.
 // If ptrs is false, gc will be nil.
 func FuncLayout(t Type, rcvr Type) (frametype Type, argSize, retOffset uintptr, stack, gc, inReg, outReg []byte, ptrs bool) {
 	var ft *abi.Type
 	var abid abiDesc
 	if rcvr != nil {
 		ft, _, abid = funcLayout((*funcType)(unsafe.Pointer(t.common())), rcvr.common())
 	} else {
 		ft, _, abid = funcLayout((*funcType)(unsafe.Pointer(t.(*rtype))), nil)
 	}
 	// Extract size information.
 	argSize = abid.stackCallArgsSize
 	retOffset = abid.retOffset
 	frametype = toType(ft)

 	// Expand stack pointer bitmap into byte-map.
 	for i := uint32(0); i < abid.stackPtrs.n; i++ {
 		stack = append(stack, abid.stackPtrs.data[i/8]>>(i%8)&1)
 	}

 	// Expand register pointer bitmaps into byte-maps.
 	bool2byte := func(b bool) byte {
 		if b {
 			return 1
 		}
 		return 0
 	}
 	for i := 0; i < intArgRegs; i++ {
 		inReg = append(inReg, bool2byte(abid.inRegPtrs.Get(i)))
 		outReg = append(outReg, bool2byte(abid.outRegPtrs.Get(i)))
 	}
 	if ft.Kind_&abi.KindGCProg != 0 {
 		panic("can't handle gc programs")
 	}

 	// Expand frame type's GC bitmap into byte-map.
 	ptrs = ft.Pointers()
 	if ptrs {
 		nptrs := ft.PtrBytes / goarch.PtrSize
 		gcdata := ft.GcSlice(0, (nptrs+7)/8)
 		for i := uintptr(0); i < nptrs; i++ {
 			gc = append(gc, gcdata[i/8]>>(i%8)&1)
 		}
 	}
 	return
 }

 func TypeLinks() []string {
 	var r []string
 	sections, offset := typelinks()
 	for i, offs := range offset {
 		rodata := sections[i]
 		for _, off := range offs {
 			typ := (*rtype)(resolveTypeOff(rodata, off))
 			r = append(r, typ.String())
 		}
 	}
 	return r
 }

 var GCBits = gcbits

 func gcbits(any) []byte // provided by runtime

 func MapBucketOf(x, y Type) Type {
 	return toType(bucketOf(x.common(), y.common()))
 }

 func CachedBucketOf(m Type) Type {
 	t := m.(*rtype)
 	if Kind(t.t.Kind_&abi.KindMask) != Map {
 		panic("not map")
 	}
 	tt := (*mapType)(unsafe.Pointer(t))
 	return toType(tt.Bucket)
 }

 type EmbedWithUnexpMeth struct{}

 func (EmbedWithUnexpMeth) f() {}

 type pinUnexpMeth interface {
 	f()
 }

 var pinUnexpMethI = pinUnexpMeth(EmbedWithUnexpMeth{})

 func FirstMethodNameBytes(t Type) *byte {
 	_ = pinUnexpMethI

 	ut := t.uncommon()
 	if ut == nil {
 		panic("type has no methods")
 	}
 	m := ut.Methods()[0]
 	mname := t.(*rtype).nameOff(m.Name)
 	if *mname.DataChecked(0, "name flag field")&(1<<2) == 0 {
 		panic("method name does not have pkgPath *string")
 	}
 	return mname.Bytes
 }

 type OtherPkgFields struct {
 	OtherExported   int
 	otherUnexported int
 }

 func IsExported(t Type) bool {
 	typ := t.(*rtype)
 	n := typ.nameOff(typ.t.Str)
 	return n.IsExported()
 }

 func ResolveReflectName(s string) {
 	resolveReflectName(newName(s, "", false, false))
 }

 type Buffer struct {
 	buf []byte
 }

 func clearLayoutCache() {
 	layoutCache = sync.Map{}
 }

 func SetArgRegs(ints, floats int, floatSize uintptr) (oldInts, oldFloats int, oldFloatSize uintptr) {
 	oldInts = intArgRegs
 	oldFloats = floatArgRegs
 	oldFloatSize = floatRegSize
 	intArgRegs = ints
 	floatArgRegs = floats
 	floatRegSize = floatSize
 	clearLayoutCache()
 	return
 }

 var MethodValueCallCodePtr = methodValueCallCodePtr

 var InternalIsZero = isZero

 var IsRegularMemory = isRegularMemory
	// Copyright 2012 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 reflect

	import (
	"internal/abi"
	"internal/goarch"
	"sync"
	"unsafe"
	)

	// MakeRO returns a copy of v with the read-only flag set.
	func MakeRO(v Value) Value {
	v.flag \|= flagStickyRO
	return v
	}

	// IsRO reports whether v's read-only flag is set.
	func IsRO(v Value) bool {
	return v.flag&flagStickyRO != 0
	}

	var CallGC = &callGC

	// FuncLayout calls funcLayout and returns a subset of the results for testing.
	//
	// Bitmaps like stack, gc, inReg, and outReg are expanded such that each bit
	// takes up one byte, so that writing out test cases is a little clearer.
	// If ptrs is false, gc will be nil.
	func FuncLayout(t Type, rcvr Type) (frametype Type, argSize, retOffset uintptr, stack, gc, inReg, outReg []byte, ptrs bool) {
	var ft *abi.Type
	var abid abiDesc
	if rcvr != nil {
	ft, _, abid = funcLayout((*funcType)(unsafe.Pointer(t.common())), rcvr.common())
	} else {
	ft, _, abid = funcLayout((funcType)(unsafe.Pointer(t.(rtype))), nil)
	}
	// Extract size information.
	argSize = abid.stackCallArgsSize
	retOffset = abid.retOffset
	frametype = toType(ft)

	// Expand stack pointer bitmap into byte-map.
	for i := uint32(0); i < abid.stackPtrs.n; i++ {
	stack = append(stack, abid.stackPtrs.data[i/8]>>(i%8)&1)
	}

	// Expand register pointer bitmaps into byte-maps.
	bool2byte := func(b bool) byte {
	if b {
	return 1
	}
	return 0
	}
	for i := 0; i < intArgRegs; i++ {
	inReg = append(inReg, bool2byte(abid.inRegPtrs.Get(i)))
	outReg = append(outReg, bool2byte(abid.outRegPtrs.Get(i)))
	}
	if ft.Kind_&abi.KindGCProg != 0 {
	panic("can't handle gc programs")
	}

	// Expand frame type's GC bitmap into byte-map.
	ptrs = ft.Pointers()
	if ptrs {
	nptrs := ft.PtrBytes / goarch.PtrSize
	gcdata := ft.GcSlice(0, (nptrs+7)/8)
	for i := uintptr(0); i < nptrs; i++ {
	gc = append(gc, gcdata[i/8]>>(i%8)&1)
	}
	}
	return
	}

	func TypeLinks() []string {
	var r []string
	sections, offset := typelinks()
	for i, offs := range offset {
	rodata := sections[i]
	for _, off := range offs {
	typ := (*rtype)(resolveTypeOff(rodata, off))
	r = append(r, typ.String())
	}
	}
	return r
	}

	var GCBits = gcbits

	func gcbits(any) []byte // provided by runtime

	func MapBucketOf(x, y Type) Type {
	return toType(bucketOf(x.common(), y.common()))
	}

	func CachedBucketOf(m Type) Type {
	t := m.(*rtype)
	if Kind(t.t.Kind_&abi.KindMask) != Map {
	panic("not map")
	}
	tt := (*mapType)(unsafe.Pointer(t))
	return toType(tt.Bucket)
	}

	type EmbedWithUnexpMeth struct{}

	func (EmbedWithUnexpMeth) f() {}

	type pinUnexpMeth interface {
	f()
	}

	var pinUnexpMethI = pinUnexpMeth(EmbedWithUnexpMeth{})

	func FirstMethodNameBytes(t Type) *byte {
	_ = pinUnexpMethI

	ut := t.uncommon()
	if ut == nil {
	panic("type has no methods")
	}
	m := ut.Methods()[0]
	mname := t.(*rtype).nameOff(m.Name)
	if *mname.DataChecked(0, "name flag field")&(1<<2) == 0 {
	panic("method name does not have pkgPath *string")
	}
	return mname.Bytes
	}

	type OtherPkgFields struct {
	OtherExported int
	otherUnexported int
	}

	func IsExported(t Type) bool {
	typ := t.(*rtype)
	n := typ.nameOff(typ.t.Str)
	return n.IsExported()
	}

	func ResolveReflectName(s string) {
	resolveReflectName(newName(s, "", false, false))
	}

	type Buffer struct {
	buf []byte
	}

	func clearLayoutCache() {
	layoutCache = sync.Map{}
	}

	func SetArgRegs(ints, floats int, floatSize uintptr) (oldInts, oldFloats int, oldFloatSize uintptr) {
	oldInts = intArgRegs
	oldFloats = floatArgRegs
	oldFloatSize = floatRegSize
	intArgRegs = ints
	floatArgRegs = floats
	floatRegSize = floatSize
	clearLayoutCache()
	return
	}

	var MethodValueCallCodePtr = methodValueCallCodePtr

	var InternalIsZero = isZero

	var IsRegularMemory = isRegularMemory