Google Git
Sign in
go / go / 8ab2c98972eeec9ed1da79360f69b9d97e9bcc5f / . / src / pkg / exp / eval / expr1.go
blob: 5d0e50000325d675898e29638170ac710e7db73b [file] [log] [blame]
// This file is machine generated by gen.go.
// 6g gen.go && 6l gen.6 && ./6.out >expr1.go
package eval
import (
"big"
"log"
)
/*
* "As" functions. These retrieve evaluator functions from an
* expr, panicking if the requested evaluator has the wrong type.
*/
func (a *expr) asBool() func(*Thread) bool {
return a.eval.(func(*Thread) bool)
}
func (a *expr) asUint() func(*Thread) uint64 {
return a.eval.(func(*Thread) uint64)
}
func (a *expr) asInt() func(*Thread) int64 {
return a.eval.(func(*Thread) int64)
}
func (a *expr) asIdealInt() func() *big.Int {
return a.eval.(func() *big.Int)
}
func (a *expr) asFloat() func(*Thread) float64 {
return a.eval.(func(*Thread) float64)
}
func (a *expr) asIdealFloat() func() *big.Rat {
return a.eval.(func() *big.Rat)
}
func (a *expr) asString() func(*Thread) string {
return a.eval.(func(*Thread) string)
}
func (a *expr) asArray() func(*Thread) ArrayValue {
return a.eval.(func(*Thread) ArrayValue)
}
func (a *expr) asStruct() func(*Thread) StructValue {
return a.eval.(func(*Thread) StructValue)
}
func (a *expr) asPtr() func(*Thread) Value {
return a.eval.(func(*Thread) Value)
}
func (a *expr) asFunc() func(*Thread) Func {
return a.eval.(func(*Thread) Func)
}
func (a *expr) asSlice() func(*Thread) Slice {
return a.eval.(func(*Thread) Slice)
}
func (a *expr) asMap() func(*Thread) Map {
return a.eval.(func(*Thread) Map)
}
func (a *expr) asMulti() func(*Thread) []Value {
return a.eval.(func(*Thread) []Value)
}
func (a *expr) asInterface() func(*Thread) interface{} {
switch sf := a.eval.(type) {
case func(t *Thread) bool:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) uint64:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) int64:
return func(t *Thread) interface{} { return sf(t) }
case func() *big.Int:
return func(*Thread) interface{} { return sf() }
case func(t *Thread) float64:
return func(t *Thread) interface{} { return sf(t) }
case func() *big.Rat:
return func(*Thread) interface{} { return sf() }
case func(t *Thread) string:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) ArrayValue:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) StructValue:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) Value:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) Func:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) Slice:
return func(t *Thread) interface{} { return sf(t) }
case func(t *Thread) Map:
return func(t *Thread) interface{} { return sf(t) }
default:
log.Panicf("unexpected expression node type %T at %v", a.eval, a.pos)
}
panic("fail")
}
/*
* Operator generators.
*/
func (a *expr) genConstant(v Value) {
switch a.t.lit().(type) {
case *boolType:
a.eval = func(t *Thread) bool { return v.(BoolValue).Get(t) }
case *uintType:
a.eval = func(t *Thread) uint64 { return v.(UintValue).Get(t) }
case *intType:
a.eval = func(t *Thread) int64 { return v.(IntValue).Get(t) }
case *idealIntType:
val := v.(IdealIntValue).Get()
a.eval = func() *big.Int { return val }
case *floatType:
a.eval = func(t *Thread) float64 { return v.(FloatValue).Get(t) }
case *idealFloatType:
val := v.(IdealFloatValue).Get()
a.eval = func() *big.Rat { return val }
case *stringType:
a.eval = func(t *Thread) string { return v.(StringValue).Get(t) }
case *ArrayType:
a.eval = func(t *Thread) ArrayValue { return v.(ArrayValue).Get(t) }
case *StructType:
a.eval = func(t *Thread) StructValue { return v.(StructValue).Get(t) }
case *PtrType:
a.eval = func(t *Thread) Value { return v.(PtrValue).Get(t) }
case *FuncType:
a.eval = func(t *Thread) Func { return v.(FuncValue).Get(t) }
case *SliceType:
a.eval = func(t *Thread) Slice { return v.(SliceValue).Get(t) }
case *MapType:
a.eval = func(t *Thread) Map { return v.(MapValue).Get(t) }
default:
log.Panicf("unexpected constant type %v at %v", a.t, a.pos)
}
}
func (a *expr) genIdentOp(level, index int) {
a.evalAddr = func(t *Thread) Value { return t.f.Get(level, index) }
switch a.t.lit().(type) {
case *boolType:
a.eval = func(t *Thread) bool { return t.f.Get(level, index).(BoolValue).Get(t) }
case *uintType:
a.eval = func(t *Thread) uint64 { return t.f.Get(level, index).(UintValue).Get(t) }
case *intType:
a.eval = func(t *Thread) int64 { return t.f.Get(level, index).(IntValue).Get(t) }
case *floatType:
a.eval = func(t *Thread) float64 { return t.f.Get(level, index).(FloatValue).Get(t) }
case *stringType:
a.eval = func(t *Thread) string { return t.f.Get(level, index).(StringValue).Get(t) }
case *ArrayType:
a.eval = func(t *Thread) ArrayValue { return t.f.Get(level, index).(ArrayValue).Get(t) }
case *StructType:
a.eval = func(t *Thread) StructValue { return t.f.Get(level, index).(StructValue).Get(t) }
case *PtrType:
a.eval = func(t *Thread) Value { return t.f.Get(level, index).(PtrValue).Get(t) }
case *FuncType:
a.eval = func(t *Thread) Func { return t.f.Get(level, index).(FuncValue).Get(t) }
case *SliceType:
a.eval = func(t *Thread) Slice { return t.f.Get(level, index).(SliceValue).Get(t) }
case *MapType:
a.eval = func(t *Thread) Map { return t.f.Get(level, index).(MapValue).Get(t) }
default:
log.Panicf("unexpected identifier type %v at %v", a.t, a.pos)
}
}
func (a *expr) genFuncCall(call func(t *Thread) []Value) {
a.exec = func(t *Thread) { call(t) }
switch a.t.lit().(type) {
case *boolType:
a.eval = func(t *Thread) bool { return call(t)[0].(BoolValue).Get(t) }
case *uintType:
a.eval = func(t *Thread) uint64 { return call(t)[0].(UintValue).Get(t) }
case *intType:
a.eval = func(t *Thread) int64 { return call(t)[0].(IntValue).Get(t) }
case *floatType:
a.eval = func(t *Thread) float64 { return call(t)[0].(FloatValue).Get(t) }
case *stringType:
a.eval = func(t *Thread) string { return call(t)[0].(StringValue).Get(t) }
case *ArrayType:
a.eval = func(t *Thread) ArrayValue { return call(t)[0].(ArrayValue).Get(t) }
case *StructType:
a.eval = func(t *Thread) StructValue { return call(t)[0].(StructValue).Get(t) }
case *PtrType:
a.eval = func(t *Thread) Value { return call(t)[0].(PtrValue).Get(t) }
case *FuncType:
a.eval = func(t *Thread) Func { return call(t)[0].(FuncValue).Get(t) }
case *SliceType:
a.eval = func(t *Thread) Slice { return call(t)[0].(SliceValue).Get(t) }
case *MapType:
a.eval = func(t *Thread) Map { return call(t)[0].(MapValue).Get(t) }
case *MultiType:
a.eval = func(t *Thread) []Value { return call(t) }
default:
log.Panicf("unexpected result type %v at %v", a.t, a.pos)
}
}
func (a *expr) genValue(vf func(*Thread) Value) {
a.evalAddr = vf
switch a.t.lit().(type) {
case *boolType:
a.eval = func(t *Thread) bool { return vf(t).(BoolValue).Get(t) }
case *uintType:
a.eval = func(t *Thread) uint64 { return vf(t).(UintValue).Get(t) }
case *intType:
a.eval = func(t *Thread) int64 { return vf(t).(IntValue).Get(t) }
case *floatType:
a.eval = func(t *Thread) float64 { return vf(t).(FloatValue).Get(t) }
case *stringType:
a.eval = func(t *Thread) string { return vf(t).(StringValue).Get(t) }
case *ArrayType:
a.eval = func(t *Thread) ArrayValue { return vf(t).(ArrayValue).Get(t) }
case *StructType:
a.eval = func(t *Thread) StructValue { return vf(t).(StructValue).Get(t) }
case *PtrType:
a.eval = func(t *Thread) Value { return vf(t).(PtrValue).Get(t) }
case *FuncType:
a.eval = func(t *Thread) Func { return vf(t).(FuncValue).Get(t) }
case *SliceType:
a.eval = func(t *Thread) Slice { return vf(t).(SliceValue).Get(t) }
case *MapType:
a.eval = func(t *Thread) Map { return vf(t).(MapValue).Get(t) }
default:
log.Panicf("unexpected result type %v at %v", a.t, a.pos)
}
}
func (a *expr) genUnaryOpNeg(v *expr) {
switch a.t.lit().(type) {
case *uintType:
vf := v.asUint()
a.eval = func(t *Thread) uint64 { v := vf(t); return -v }
case *intType:
vf := v.asInt()
a.eval = func(t *Thread) int64 { v := vf(t); return -v }
case *idealIntType:
val := v.asIdealInt()()
val.Neg(val)
a.eval = func() *big.Int { return val }
case *floatType:
vf := v.asFloat()
a.eval = func(t *Thread) float64 { v := vf(t); return -v }
case *idealFloatType:
val := v.asIdealFloat()()
val.Neg(val)
a.eval = func() *big.Rat { return val }
default:
log.Panicf("unexpected type %v at %v", a.t, a.pos)
}
}
func (a *expr) genUnaryOpNot(v *expr) {
switch a.t.lit().(type) {
case *boolType:
vf := v.asBool()
a.eval = func(t *Thread) bool { v := vf(t); return !v }
default:
log.Panicf("unexpected type %v at %v", a.t, a.pos)
}
}
func (a *expr) genUnaryOpXor(v *expr) {
switch a.t.lit().(type) {
case *uintType:
vf := v.asUint()
a.eval = func(t *Thread) uint64 { v := vf(t); return ^v }
case *intType:
vf := v.asInt()
a.eval = func(t *Thread) int64 { v := vf(t); return ^v }
case *idealIntType:
val := v.asIdealInt()()
val.Not(val)
a.eval = func() *big.Int { return val }
default:
log.Panicf("unexpected type %v at %v", a.t, a.pos)
}
}
func (a *expr) genBinOpLogAnd(l, r *expr) {
lf := l.asBool()
rf := r.asBool()
a.eval = func(t *Thread) bool { return lf(t) && rf(t) }
}
func (a *expr) genBinOpLogOr(l, r *expr) {
lf := l.asBool()
rf := r.asBool()
a.eval = func(t *Thread) bool { return lf(t) || rf(t) }
}
func (a *expr) genBinOpAdd(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l + r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l + r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l + r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l + r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l + r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l + r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l + r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l + r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l + r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l + r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Add(l, r)
a.eval = func() *big.Int { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
switch t.Bits {
case 32:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
ret = l + r
return float64(float32(ret))
}
case 64:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
ret = l + r
return float64(float64(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Add(l, r)
a.eval = func() *big.Rat { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) string {
l, r := lf(t), rf(t)
return l + r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpSub(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l - r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l - r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l - r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l - r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l - r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l - r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l - r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l - r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l - r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l - r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Sub(l, r)
a.eval = func() *big.Int { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
switch t.Bits {
case 32:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
ret = l - r
return float64(float32(ret))
}
case 64:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
ret = l - r
return float64(float64(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Sub(l, r)
a.eval = func() *big.Rat { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpMul(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l * r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l * r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l * r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l * r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l * r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l * r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l * r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l * r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l * r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l * r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Mul(l, r)
a.eval = func() *big.Int { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
switch t.Bits {
case 32:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
ret = l * r
return float64(float32(ret))
}
case 64:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
ret = l * r
return float64(float64(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Mul(l, r)
a.eval = func() *big.Rat { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpQuo(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Quo(l, r)
a.eval = func() *big.Int { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
switch t.Bits {
case 32:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return float64(float32(ret))
}
case 64:
a.eval = func(t *Thread) float64 {
l, r := lf(t), rf(t)
var ret float64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l / r
return float64(float64(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Quo(l, r)
a.eval = func() *big.Rat { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpRem(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
if r == 0 {
t.Abort(DivByZeroError{})
}
ret = l % r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Rem(l, r)
a.eval = func() *big.Int { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpAnd(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l & r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l & r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l & r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l & r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l & r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l & r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l & r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l & r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l & r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l & r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.And(l, r)
a.eval = func() *big.Int { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpOr(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l | r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l | r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l | r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l | r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l | r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l | r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l | r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l | r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l | r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l | r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Or(l, r)
a.eval = func() *big.Int { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpXor(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l ^ r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l ^ r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l ^ r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l ^ r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l ^ r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l ^ r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l ^ r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l ^ r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l ^ r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l ^ r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Xor(l, r)
a.eval = func() *big.Int { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpAndNot(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l &^ r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l &^ r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l &^ r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l &^ r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l &^ r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asInt()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l &^ r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l &^ r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l &^ r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l &^ r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l &^ r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.AndNot(l, r)
a.eval = func() *big.Int { return val }
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpShl(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l << r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l << r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l << r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l << r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l << r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l << r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l << r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l << r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l << r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l << r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpShr(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l >> r
return uint64(uint8(ret))
}
case 16:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l >> r
return uint64(uint16(ret))
}
case 32:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l >> r
return uint64(uint32(ret))
}
case 64:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l >> r
return uint64(uint64(ret))
}
case 0:
a.eval = func(t *Thread) uint64 {
l, r := lf(t), rf(t)
var ret uint64
ret = l >> r
return uint64(uint(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
case *intType:
lf := l.asInt()
rf := r.asUint()
switch t.Bits {
case 8:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l >> r
return int64(int8(ret))
}
case 16:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l >> r
return int64(int16(ret))
}
case 32:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l >> r
return int64(int32(ret))
}
case 64:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l >> r
return int64(int64(ret))
}
case 0:
a.eval = func(t *Thread) int64 {
l, r := lf(t), rf(t)
var ret int64
ret = l >> r
return int64(int(ret))
}
default:
log.Panicf("unexpected size %d in type %v at %v", t.Bits, t, a.pos)
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpLss(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l < r
}
case *intType:
lf := l.asInt()
rf := r.asInt()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l < r
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Cmp(r) < 0
a.eval = func(t *Thread) bool { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l < r
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Cmp(r) < 0
a.eval = func(t *Thread) bool { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l < r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpGtr(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l > r
}
case *intType:
lf := l.asInt()
rf := r.asInt()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l > r
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Cmp(r) > 0
a.eval = func(t *Thread) bool { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l > r
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Cmp(r) > 0
a.eval = func(t *Thread) bool { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l > r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpLeq(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l <= r
}
case *intType:
lf := l.asInt()
rf := r.asInt()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l <= r
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Cmp(r) <= 0
a.eval = func(t *Thread) bool { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l <= r
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Cmp(r) <= 0
a.eval = func(t *Thread) bool { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l <= r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpGeq(l, r *expr) {
switch t := l.t.lit().(type) {
case *uintType:
lf := l.asUint()
rf := r.asUint()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l >= r
}
case *intType:
lf := l.asInt()
rf := r.asInt()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l >= r
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Cmp(r) >= 0
a.eval = func(t *Thread) bool { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l >= r
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Cmp(r) >= 0
a.eval = func(t *Thread) bool { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l >= r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpEql(l, r *expr) {
switch t := l.t.lit().(type) {
case *boolType:
lf := l.asBool()
rf := r.asBool()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *uintType:
lf := l.asUint()
rf := r.asUint()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *intType:
lf := l.asInt()
rf := r.asInt()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Cmp(r) == 0
a.eval = func(t *Thread) bool { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Cmp(r) == 0
a.eval = func(t *Thread) bool { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *PtrType:
lf := l.asPtr()
rf := r.asPtr()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *FuncType:
lf := l.asFunc()
rf := r.asFunc()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
case *MapType:
lf := l.asMap()
rf := r.asMap()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l == r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func (a *expr) genBinOpNeq(l, r *expr) {
switch t := l.t.lit().(type) {
case *boolType:
lf := l.asBool()
rf := r.asBool()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *uintType:
lf := l.asUint()
rf := r.asUint()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *intType:
lf := l.asInt()
rf := r.asInt()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *idealIntType:
l := l.asIdealInt()()
r := r.asIdealInt()()
val := l.Cmp(r) != 0
a.eval = func(t *Thread) bool { return val }
case *floatType:
lf := l.asFloat()
rf := r.asFloat()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *idealFloatType:
l := l.asIdealFloat()()
r := r.asIdealFloat()()
val := l.Cmp(r) != 0
a.eval = func(t *Thread) bool { return val }
case *stringType:
lf := l.asString()
rf := r.asString()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *PtrType:
lf := l.asPtr()
rf := r.asPtr()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *FuncType:
lf := l.asFunc()
rf := r.asFunc()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
case *MapType:
lf := l.asMap()
rf := r.asMap()
a.eval = func(t *Thread) bool {
l, r := lf(t), rf(t)
return l != r
}
default:
log.Panicf("unexpected type %v at %v", l.t, a.pos)
}
}
func genAssign(lt Type, r *expr) func(lv Value, t *Thread) {
switch lt.lit().(type) {
case *boolType:
rf := r.asBool()
return func(lv Value, t *Thread) { lv.(BoolValue).Set(t, rf(t)) }
case *uintType:
rf := r.asUint()
return func(lv Value, t *Thread) { lv.(UintValue).Set(t, rf(t)) }
case *intType:
rf := r.asInt()
return func(lv Value, t *Thread) { lv.(IntValue).Set(t, rf(t)) }
case *floatType:
rf := r.asFloat()
return func(lv Value, t *Thread) { lv.(FloatValue).Set(t, rf(t)) }
case *stringType:
rf := r.asString()
return func(lv Value, t *Thread) { lv.(StringValue).Set(t, rf(t)) }
case *ArrayType:
rf := r.asArray()
return func(lv Value, t *Thread) { lv.Assign(t, rf(t)) }
case *StructType:
rf := r.asStruct()
return func(lv Value, t *Thread) { lv.Assign(t, rf(t)) }
case *PtrType:
rf := r.asPtr()
return func(lv Value, t *Thread) { lv.(PtrValue).Set(t, rf(t)) }
case *FuncType:
rf := r.asFunc()
return func(lv Value, t *Thread) { lv.(FuncValue).Set(t, rf(t)) }
case *SliceType:
rf := r.asSlice()
return func(lv Value, t *Thread) { lv.(SliceValue).Set(t, rf(t)) }
case *MapType:
rf := r.asMap()
return func(lv Value, t *Thread) { lv.(MapValue).Set(t, rf(t)) }
default:
log.Panicf("unexpected left operand type %v at %v", lt, r.pos)
}
panic("fail")
}