src/cmd/compile/internal/typebits/typebits.go - go - Git at Google

 // Copyright 2013 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 typebits

 import (
 	"cmd/compile/internal/base"
 	"cmd/compile/internal/bitvec"
 	"cmd/compile/internal/types"
 )

 // NOTE: The bitmap for a specific type t could be cached in t after
 // the first run and then simply copied into bv at the correct offset
 // on future calls with the same type t.
 func Set(t *types.Type, off int64, bv bitvec.BitVec) {
 	if uint8(t.Alignment()) > 0 && off&int64(uint8(t.Alignment())-1) != 0 {
 		base.Fatalf("typebits.Set: invalid initial alignment: type %v has alignment %d, but offset is %v", t, uint8(t.Alignment()), off)
 	}
 	if !t.HasPointers() {
 		// Note: this case ensures that pointers to go:notinheap types
 		// are not considered pointers by garbage collection and stack copying.
 		return
 	}

 	switch t.Kind() {
 	case types.TPTR, types.TUNSAFEPTR, types.TFUNC, types.TCHAN, types.TMAP:
 		if off&int64(types.PtrSize-1) != 0 {
 			base.Fatalf("typebits.Set: invalid alignment, %v", t)
 		}
 		bv.Set(int32(off / int64(types.PtrSize))) // pointer

 	case types.TSTRING:
 		// struct { byte *str; intgo len; }
 		if off&int64(types.PtrSize-1) != 0 {
 			base.Fatalf("typebits.Set: invalid alignment, %v", t)
 		}
 		bv.Set(int32(off / int64(types.PtrSize))) //pointer in first slot

 	case types.TINTER:
 		// struct { Itab *tab;	void *data; }
 		// or, when isnilinter(t)==true:
 		// struct { Type *type; void *data; }
 		if off&int64(types.PtrSize-1) != 0 {
 			base.Fatalf("typebits.Set: invalid alignment, %v", t)
 		}
 		// The first word of an interface is a pointer, but we don't
 		// treat it as such.
 		// 1. If it is a non-empty interface, the pointer points to an itab
 		//    which is always in persistentalloc space.
 		// 2. If it is an empty interface, the pointer points to a _type.
 		//   a. If it is a compile-time-allocated type, it points into
 		//      the read-only data section.
 		//   b. If it is a reflect-allocated type, it points into the Go heap.
 		//      Reflect is responsible for keeping a reference to
 		//      the underlying type so it won't be GCd.
 		// If we ever have a moving GC, we need to change this for 2b (as
 		// well as scan itabs to update their itab._type fields).
 		bv.Set(int32(off/int64(types.PtrSize) + 1)) // pointer in second slot

 	case types.TSLICE:
 		// struct { byte *array; uintgo len; uintgo cap; }
 		if off&int64(types.PtrSize-1) != 0 {
 			base.Fatalf("typebits.Set: invalid TARRAY alignment, %v", t)
 		}
 		bv.Set(int32(off / int64(types.PtrSize))) // pointer in first slot (BitsPointer)

 	case types.TARRAY:
 		elt := t.Elem()
 		if elt.Size() == 0 {
 			// Short-circuit for #20739.
 			break
 		}
 		for i := int64(0); i < t.NumElem(); i++ {
 			Set(elt, off, bv)
 			off += elt.Size()
 		}

 	case types.TSTRUCT:
 		for _, f := range t.Fields().Slice() {
 			Set(f.Type, off+f.Offset, bv)
 		}

 	default:
 		base.Fatalf("typebits.Set: unexpected type, %v", t)
 	}
 }
	// Copyright 2013 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 typebits

	import (
	"cmd/compile/internal/base"
	"cmd/compile/internal/bitvec"
	"cmd/compile/internal/types"
	)

	// NOTE: The bitmap for a specific type t could be cached in t after
	// the first run and then simply copied into bv at the correct offset
	// on future calls with the same type t.
	func Set(t *types.Type, off int64, bv bitvec.BitVec) {
	if uint8(t.Alignment()) > 0 && off&int64(uint8(t.Alignment())-1) != 0 {
	base.Fatalf("typebits.Set: invalid initial alignment: type %v has alignment %d, but offset is %v", t, uint8(t.Alignment()), off)
	}
	if !t.HasPointers() {
	// Note: this case ensures that pointers to go:notinheap types
	// are not considered pointers by garbage collection and stack copying.
	return
	}

	switch t.Kind() {
	case types.TPTR, types.TUNSAFEPTR, types.TFUNC, types.TCHAN, types.TMAP:
	if off&int64(types.PtrSize-1) != 0 {
	base.Fatalf("typebits.Set: invalid alignment, %v", t)
	}
	bv.Set(int32(off / int64(types.PtrSize))) // pointer

	case types.TSTRING:
	// struct { byte *str; intgo len; }
	if off&int64(types.PtrSize-1) != 0 {
	base.Fatalf("typebits.Set: invalid alignment, %v", t)
	}
	bv.Set(int32(off / int64(types.PtrSize))) //pointer in first slot

	case types.TINTER:
	// struct { Itab tab; void data; }
	// or, when isnilinter(t)==true:
	// struct { Type type; void data; }
	if off&int64(types.PtrSize-1) != 0 {
	base.Fatalf("typebits.Set: invalid alignment, %v", t)
	}
	// The first word of an interface is a pointer, but we don't
	// treat it as such.
	// 1. If it is a non-empty interface, the pointer points to an itab
	// which is always in persistentalloc space.
	// 2. If it is an empty interface, the pointer points to a _type.
	// a. If it is a compile-time-allocated type, it points into
	// the read-only data section.
	// b. If it is a reflect-allocated type, it points into the Go heap.
	// Reflect is responsible for keeping a reference to
	// the underlying type so it won't be GCd.
	// If we ever have a moving GC, we need to change this for 2b (as
	// well as scan itabs to update their itab._type fields).
	bv.Set(int32(off/int64(types.PtrSize) + 1)) // pointer in second slot

	case types.TSLICE:
	// struct { byte *array; uintgo len; uintgo cap; }
	if off&int64(types.PtrSize-1) != 0 {
	base.Fatalf("typebits.Set: invalid TARRAY alignment, %v", t)
	}
	bv.Set(int32(off / int64(types.PtrSize))) // pointer in first slot (BitsPointer)

	case types.TARRAY:
	elt := t.Elem()
	if elt.Size() == 0 {
	// Short-circuit for #20739.
	break
	}
	for i := int64(0); i < t.NumElem(); i++ {
	Set(elt, off, bv)
	off += elt.Size()
	}

	case types.TSTRUCT:
	for _, f := range t.Fields().Slice() {
	Set(f.Type, off+f.Offset, bv)
	}

	default:
	base.Fatalf("typebits.Set: unexpected type, %v", t)
	}
	}