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types_uint.go
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/
types_uint.go
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package wypes
import "encoding/binary"
// UInt8 wraps uint8, 8-bit unsigned integer.
type UInt8 uint8
const uInt8Size = 1
// Unwrap returns the wrapped value.
func (v UInt8) Unwrap() uint8 {
return uint8(v)
}
// ValueTypes implements [Value] interface.
func (UInt8) ValueTypes() []ValueType {
return []ValueType{ValueTypeI32}
}
// Lift implements [Lift] interface.
func (UInt8) Lift(s *Store) UInt8 {
return UInt8(s.Stack.Pop())
}
// Lower implements [Lower] interface.
func (v UInt8) Lower(s *Store) {
s.Stack.Push(Raw(v))
}
// MemoryLift implements [MemoryLift] interface.
func (UInt8) MemoryLift(s *Store, offset uint32) (UInt8, uint32) {
raw, ok := s.Memory.Read(offset, uInt8Size)
if !ok {
s.Error = ErrMemRead
return UInt8(0), 0
}
return UInt8(raw[0]), uInt8Size
}
// MemoryLower implements [MemoryLower] interface.
func (v UInt8) MemoryLower(s *Store, offset uint32) (length uint32) {
ok := s.Memory.Write(offset, []byte{byte(v)})
if !ok {
s.Error = ErrMemWrite
return 0
}
return uInt8Size
}
// UInt16 wraps uint16, 16-bit unsigned integer.
type UInt16 uint16
const uInt16Size = 2
// Unwrap returns the wrapped value.
func (v UInt16) Unwrap() uint16 {
return uint16(v)
}
// ValueTypes implements [Value] interface.
func (UInt16) ValueTypes() []ValueType {
return []ValueType{ValueTypeI32}
}
// Lift implements [Lift] interface.
func (UInt16) Lift(s *Store) UInt16 {
return UInt16(s.Stack.Pop())
}
// Lower implements [Lower] interface.
func (v UInt16) Lower(s *Store) {
s.Stack.Push(Raw(v))
}
// MemoryLift implements [MemoryLift] interface.
func (UInt16) MemoryLift(s *Store, offset uint32) (UInt16, uint32) {
raw, ok := s.Memory.Read(offset, uInt16Size)
if !ok {
s.Error = ErrMemRead
return UInt16(0), 0
}
return UInt16(binary.LittleEndian.Uint16(raw)), uInt16Size
}
// MemoryLower implements [MemoryLower] interface.
func (v UInt16) MemoryLower(s *Store, offset uint32) (length uint32) {
data := make([]byte, uInt16Size)
binary.LittleEndian.PutUint16(data, uint16(v))
ok := s.Memory.Write(offset, data)
if !ok {
s.Error = ErrMemWrite
return 0
}
return uInt16Size
}
// UInt32 wraps uint32, 32-bit unsigned integer.
type UInt32 uint32
const uInt32Size = 4
// Unwrap returns the wrapped value.
func (v UInt32) Unwrap() uint32 {
return uint32(v)
}
// ValueTypes implements [Value] interface.
func (UInt32) ValueTypes() []ValueType {
return []ValueType{ValueTypeI32}
}
// Lift implements [Lift] interface.
func (UInt32) Lift(s *Store) UInt32 {
return UInt32(s.Stack.Pop())
}
// Lower implements [Lower] interface.
func (v UInt32) Lower(s *Store) {
s.Stack.Push(Raw(v))
}
// MemoryLift implements [MemoryLift] interface.
func (UInt32) MemoryLift(s *Store, offset uint32) (UInt32, uint32) {
raw, ok := s.Memory.Read(offset, uInt32Size)
if !ok {
s.Error = ErrMemRead
return UInt32(0), 0
}
return UInt32(binary.LittleEndian.Uint32(raw)), uInt32Size
}
// MemoryLower implements [MemoryLower] interface.
func (v UInt32) MemoryLower(s *Store, offset uint32) (length uint32) {
data := make([]byte, uInt32Size)
binary.LittleEndian.PutUint32(data, uint32(v))
ok := s.Memory.Write(offset, data)
if !ok {
s.Error = ErrMemWrite
return 0
}
return uInt32Size
}
// UInt64 wraps uint64, 64-bit unsigned integer.
type UInt64 uint64
const uInt64Size = 8
// Unwrap returns the wrapped value.
func (v UInt64) Unwrap() uint64 {
return uint64(v)
}
// ValueTypes implements [Value] interface.
func (UInt64) ValueTypes() []ValueType {
return []ValueType{ValueTypeI64}
}
// Lift implements [Lift] interface.
func (UInt64) Lift(s *Store) UInt64 {
return UInt64(s.Stack.Pop())
}
// Lower implements [Lower] interface.
func (v UInt64) Lower(s *Store) {
s.Stack.Push(Raw(v))
}
// MemoryLift implements [MemoryLift] interface.
func (UInt64) MemoryLift(s *Store, offset uint32) (UInt64, uint32) {
raw, ok := s.Memory.Read(offset, uInt64Size)
if !ok {
s.Error = ErrMemRead
return UInt64(0), 0
}
return UInt64(binary.LittleEndian.Uint64(raw)), uInt64Size
}
// MemoryLower implements [MemoryLower] interface.
func (v UInt64) MemoryLower(s *Store, offset uint32) (length uint32) {
data := make([]byte, uInt64Size)
binary.LittleEndian.PutUint64(data, uint64(v))
ok := s.Memory.Write(offset, data)
if !ok {
s.Error = ErrMemWrite
return 0
}
return uInt64Size
}
// UInt wraps uint, 32-bit unsigned integer.
type UInt uint
const uIntSize = 8
// Unwrap returns the wrapped value.
func (v UInt) Unwrap() uint {
return uint(v)
}
// ValueTypes implements [Value] interface.
func (UInt) ValueTypes() []ValueType {
return []ValueType{ValueTypeI64}
}
// Lift implements [Lift] interface.
func (UInt) Lift(s *Store) UInt {
return UInt(s.Stack.Pop())
}
// Lower implements [Lower] interface.
func (v UInt) Lower(s *Store) {
s.Stack.Push(Raw(v))
}
// MemoryLift implements [Reader] interface.
func (UInt) MemoryLift(s *Store, offset uint32) (UInt, uint32) {
raw, ok := s.Memory.Read(offset, uIntSize)
if !ok {
s.Error = ErrMemRead
return UInt(0), 0
}
return UInt(binary.LittleEndian.Uint64(raw)), uIntSize
}
// MemoryLower implements [MemoryLower] interface.
func (v UInt) MemoryLower(s *Store, offset uint32) (length uint32) {
data := make([]byte, uIntSize)
binary.LittleEndian.PutUint64(data, uint64(v))
ok := s.Memory.Write(offset, data)
if !ok {
s.Error = ErrMemWrite
return 0
}
return uIntSize
}
// UIntPtr wraps uintptr, pointer-sized unsigned integer.
type UIntPtr uintptr
const uIntPtrSize = 8
// Unwrap returns the wrapped value.
func (v UIntPtr) Unwrap() uintptr {
return uintptr(v)
}
// ValueTypes implements [Value] interface.
func (UIntPtr) ValueTypes() []ValueType {
return []ValueType{ValueTypeI64}
}
// Lift implements [Lift] interface.
func (UIntPtr) Lift(s *Store) UIntPtr {
return UIntPtr(s.Stack.Pop())
}
// Lower implements [Lower] interface.
func (v UIntPtr) Lower(s *Store) {
s.Stack.Push(Raw(v))
}
// MemoryLift implements [MemoryLift] interface.
func (UIntPtr) MemoryLift(s *Store, offset uint32) (UIntPtr, uint32) {
raw, ok := s.Memory.Read(offset, uIntPtrSize)
if !ok {
s.Error = ErrMemRead
return UIntPtr(0), 0
}
return UIntPtr(binary.LittleEndian.Uint64(raw)), uIntPtrSize
}
// MemoryLower implements [MemoryLower] interface.
func (v UIntPtr) MemoryLower(s *Store, offset uint32) (length uint32) {
data := make([]byte, uIntPtrSize)
binary.LittleEndian.PutUint64(data, uint64(v))
ok := s.Memory.Write(offset, data)
if !ok {
s.Error = ErrMemWrite
return 0
}
return uIntPtrSize
}
// Rune is an alias for [UInt32].
type Rune = UInt32
// Byte is an alias for [UInt8].
type Byte = UInt8