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move generated code into its own file.

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simplify expr by merging all simple eval functions
into a single eval interface{}.

R=austin
DELTA=1597  (730 added, 780 deleted, 87 changed)
OCL=34182
CL=34198
This commit is contained in:
Russ Cox 2009-09-01 11:51:33 -07:00
parent dd87082ab8
commit 8c7eb44249
4 changed files with 815 additions and 865 deletions
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1
usr/austin/eval/Makefile
View File

@ -10,6 +10,7 @@ GOFILES=\
bridge.go\
compiler.go\
expr.go\
expr1.go\
func.go\
scope.go\
stmt.go\

936
usr/austin/eval/expr.go
View File

File diff suppressed because it is too large Load Diff

723
usr/austin/eval/expr1.go Normal file
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@ -0,0 +1,723 @@
package eval
// generated code
import (
"bignum";
"log";
)
/*
* Operator generators
* Everything below here is MACHINE GENERATED by gen.py genOps
*/
func (a *expr) genConstant(v Value) {
switch _ := a.t.lit().(type) {
case *boolType:
val := v.(BoolValue).Get();
a.eval = func(f *Frame) bool { return val };
case *uintType:
val := v.(UintValue).Get();
a.eval = func(f *Frame) uint64 { return val };
case *intType:
val := v.(IntValue).Get();
a.eval = func(f *Frame) int64 { return val };
case *idealIntType:
val := v.(IdealIntValue).Get();
a.eval = func() *bignum.Integer { return val };
case *floatType:
val := v.(FloatValue).Get();
a.eval = func(f *Frame) float64 { return val };
case *idealFloatType:
val := v.(IdealFloatValue).Get();
a.eval = func() *bignum.Rational { return val };
case *stringType:
val := v.(StringValue).Get();
a.eval = func(f *Frame) string { return val };
case *ArrayType:
val := v.(ArrayValue).Get();
a.eval = func(f *Frame) ArrayValue { return val };
case *StructType:
val := v.(StructValue).Get();
a.eval = func(f *Frame) StructValue { return val };
case *PtrType:
val := v.(PtrValue).Get();
a.eval = func(f *Frame) Value { return val };
case *FuncType:
val := v.(FuncValue).Get();
a.eval = func(f *Frame) Func { return val };
case *SliceType:
val := v.(SliceValue).Get();
a.eval = func(f *Frame) Slice { return val };
case *MapType:
val := v.(MapValue).Get();
a.eval = func(f *Frame) Map { return val };
default:
log.Crashf("unexpected constant type %v at %v", a.t, a.pos);
}
}
func (a *expr) genIdentOp(level int, index int) {
a.evalAddr = func(f *Frame) Value { return f.Get(level, index) };
switch _ := a.t.lit().(type) {
case *boolType:
a.eval = func(f *Frame) bool { return f.Get(level, index).(BoolValue).Get() };
case *uintType:
a.eval = func(f *Frame) uint64 { return f.Get(level, index).(UintValue).Get() };
case *intType:
a.eval = func(f *Frame) int64 { return f.Get(level, index).(IntValue).Get() };
case *floatType:
a.eval = func(f *Frame) float64 { return f.Get(level, index).(FloatValue).Get() };
case *stringType:
a.eval = func(f *Frame) string { return f.Get(level, index).(StringValue).Get() };
case *ArrayType:
a.eval = func(f *Frame) ArrayValue { return f.Get(level, index).(ArrayValue).Get() };
case *StructType:
a.eval = func(f *Frame) StructValue { return f.Get(level, index).(StructValue).Get() };
case *PtrType:
a.eval = func(f *Frame) Value { return f.Get(level, index).(PtrValue).Get() };
case *FuncType:
a.eval = func(f *Frame) Func { return f.Get(level, index).(FuncValue).Get() };
case *SliceType:
a.eval = func(f *Frame) Slice { return f.Get(level, index).(SliceValue).Get() };
case *MapType:
a.eval = func(f *Frame) Map { return f.Get(level, index).(MapValue).Get() };
default:
log.Crashf("unexpected identifier type %v at %v", a.t, a.pos);
}
}
func (a *expr) genFuncCall(call func(f *Frame) []Value) {
a.exec = func(f *Frame) { call(f) };
switch _ := a.t.lit().(type) {
case *boolType:
a.eval = func(f *Frame) bool { return call(f)[0].(BoolValue).Get() };
case *uintType:
a.eval = func(f *Frame) uint64 { return call(f)[0].(UintValue).Get() };
case *intType:
a.eval = func(f *Frame) int64 { return call(f)[0].(IntValue).Get() };
case *floatType:
a.eval = func(f *Frame) float64 { return call(f)[0].(FloatValue).Get() };
case *stringType:
a.eval = func(f *Frame) string { return call(f)[0].(StringValue).Get() };
case *ArrayType:
a.eval = func(f *Frame) ArrayValue { return call(f)[0].(ArrayValue).Get() };
case *StructType:
a.eval = func(f *Frame) StructValue { return call(f)[0].(StructValue).Get() };
case *PtrType:
a.eval = func(f *Frame) Value { return call(f)[0].(PtrValue).Get() };
case *FuncType:
a.eval = func(f *Frame) Func { return call(f)[0].(FuncValue).Get() };
case *SliceType:
a.eval = func(f *Frame) Slice { return call(f)[0].(SliceValue).Get() };
case *MapType:
a.eval = func(f *Frame) Map { return call(f)[0].(MapValue).Get() };
case *MultiType:
a.eval = func(f *Frame) []Value { return call(f) };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genValue(vf func(*Frame) Value) {
a.evalAddr = vf;
switch _ := a.t.lit().(type) {
case *boolType:
a.eval = func(f *Frame) bool { return vf(f).(BoolValue).Get() };
case *uintType:
a.eval = func(f *Frame) uint64 { return vf(f).(UintValue).Get() };
case *intType:
a.eval = func(f *Frame) int64 { return vf(f).(IntValue).Get() };
case *floatType:
a.eval = func(f *Frame) float64 { return vf(f).(FloatValue).Get() };
case *stringType:
a.eval = func(f *Frame) string { return vf(f).(StringValue).Get() };
case *ArrayType:
a.eval = func(f *Frame) ArrayValue { return vf(f).(ArrayValue).Get() };
case *StructType:
a.eval = func(f *Frame) StructValue { return vf(f).(StructValue).Get() };
case *PtrType:
a.eval = func(f *Frame) Value { return vf(f).(PtrValue).Get() };
case *FuncType:
a.eval = func(f *Frame) Func { return vf(f).(FuncValue).Get() };
case *SliceType:
a.eval = func(f *Frame) Slice { return vf(f).(SliceValue).Get() };
case *MapType:
a.eval = func(f *Frame) Map { return vf(f).(MapValue).Get() };
default:
log.Crashf("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(f *Frame) uint64 { return -vf(f) };
case *intType:
vf := v.asInt();
a.eval = func(f *Frame) int64 { return -vf(f) };
case *idealIntType:
vf := v.asIdealInt();
val := vf().Neg();
a.eval = func() *bignum.Integer { return val };
case *floatType:
vf := v.asFloat();
a.eval = func(f *Frame) float64 { return -vf(f) };
case *idealFloatType:
vf := v.asIdealFloat();
val := vf().Neg();
a.eval = func() *bignum.Rational { return val };
default:
log.Crashf("unexpected result 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(f *Frame) bool { return !vf(f) };
default:
log.Crashf("unexpected result 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(f *Frame) uint64 { return ^vf(f) };
case *intType:
vf := v.asInt();
a.eval = func(f *Frame) int64 { return ^vf(f) };
case *idealIntType:
vf := v.asIdealInt();
val := vf().Neg().Sub(bignum.Int(1));
a.eval = func() *bignum.Integer { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpAdd(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) + rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) + rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Add(rf());
a.eval = func() *bignum.Integer { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) float64 { return lf(f) + rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Add(rf());
a.eval = func() *bignum.Rational { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) string { return lf(f) + rf(f) };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpSub(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) - rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) - rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Sub(rf());
a.eval = func() *bignum.Integer { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) float64 { return lf(f) - rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Sub(rf());
a.eval = func() *bignum.Rational { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpMul(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) * rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) * rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Mul(rf());
a.eval = func() *bignum.Integer { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) float64 { return lf(f) * rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Mul(rf());
a.eval = func() *bignum.Rational { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpQuo(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { l, r := lf(f), rf(f); if r == 0 { Abort(DivByZero{}) }; return l / r };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { l, r := lf(f), rf(f); if r == 0 { Abort(DivByZero{}) }; return l / r };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Quo(rf());
a.eval = func() *bignum.Integer { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) float64 { l, r := lf(f), rf(f); if r == 0 { Abort(DivByZero{}) }; return l / r };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Quo(rf());
a.eval = func() *bignum.Rational { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpRem(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { l, r := lf(f), rf(f); if r == 0 { Abort(DivByZero{}) }; return l % r };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { l, r := lf(f), rf(f); if r == 0 { Abort(DivByZero{}) }; return l % r };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Rem(rf());
a.eval = func() *bignum.Integer { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpAnd(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) & rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) & rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().And(rf());
a.eval = func() *bignum.Integer { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpOr(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) | rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) | rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Or(rf());
a.eval = func() *bignum.Integer { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpXor(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) ^ rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) ^ rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Xor(rf());
a.eval = func() *bignum.Integer { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpAndNot(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) &^ rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) int64 { return lf(f) &^ rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().AndNot(rf());
a.eval = func() *bignum.Integer { return val };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpShl(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) << rf(f) };
case *intType:
lf := l.asInt();
rf := r.asUint();
a.eval = func(f *Frame) int64 { return lf(f) << rf(f) };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpShr(l, r *expr) {
switch _ := a.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) uint64 { return lf(f) >> rf(f) };
case *intType:
lf := l.asInt();
rf := r.asUint();
a.eval = func(f *Frame) int64 { return lf(f) >> rf(f) };
default:
log.Crashf("unexpected result type %v at %v", a.t, a.pos);
}
}
func (a *expr) genBinOpLss(l, r *expr) {
switch _ := l.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) bool { return lf(f) < rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) bool { return lf(f) < rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Cmp(rf()) < 0;
a.eval = func(f *Frame) bool { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) bool { return lf(f) < rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Cmp(rf()) < 0;
a.eval = func(f *Frame) bool { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) bool { return lf(f) < rf(f) };
default:
log.Crashf("unexpected left operand type %v at %v", l.t, a.pos);
}
}
func (a *expr) genBinOpGtr(l, r *expr) {
switch _ := l.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) bool { return lf(f) > rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) bool { return lf(f) > rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Cmp(rf()) > 0;
a.eval = func(f *Frame) bool { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) bool { return lf(f) > rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Cmp(rf()) > 0;
a.eval = func(f *Frame) bool { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) bool { return lf(f) > rf(f) };
default:
log.Crashf("unexpected left operand type %v at %v", l.t, a.pos);
}
}
func (a *expr) genBinOpLeq(l, r *expr) {
switch _ := l.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) bool { return lf(f) <= rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) bool { return lf(f) <= rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Cmp(rf()) <= 0;
a.eval = func(f *Frame) bool { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) bool { return lf(f) <= rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Cmp(rf()) <= 0;
a.eval = func(f *Frame) bool { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) bool { return lf(f) <= rf(f) };
default:
log.Crashf("unexpected left operand type %v at %v", l.t, a.pos);
}
}
func (a *expr) genBinOpGeq(l, r *expr) {
switch _ := l.t.lit().(type) {
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) bool { return lf(f) >= rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) bool { return lf(f) >= rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Cmp(rf()) >= 0;
a.eval = func(f *Frame) bool { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) bool { return lf(f) >= rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Cmp(rf()) >= 0;
a.eval = func(f *Frame) bool { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) bool { return lf(f) >= rf(f) };
default:
log.Crashf("unexpected left operand type %v at %v", l.t, a.pos);
}
}
func (a *expr) genBinOpEql(l, r *expr) {
switch _ := l.t.lit().(type) {
case *boolType:
lf := l.asBool();
rf := r.asBool();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Cmp(rf()) == 0;
a.eval = func(f *Frame) bool { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Cmp(rf()) == 0;
a.eval = func(f *Frame) bool { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *PtrType:
lf := l.asPtr();
rf := r.asPtr();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *FuncType:
lf := l.asFunc();
rf := r.asFunc();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
case *MapType:
lf := l.asMap();
rf := r.asMap();
a.eval = func(f *Frame) bool { return lf(f) == rf(f) };
default:
log.Crashf("unexpected left operand type %v at %v", l.t, a.pos);
}
}
func (a *expr) genBinOpNeq(l, r *expr) {
switch _ := l.t.lit().(type) {
case *boolType:
lf := l.asBool();
rf := r.asBool();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *uintType:
lf := l.asUint();
rf := r.asUint();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *intType:
lf := l.asInt();
rf := r.asInt();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *idealIntType:
lf := l.asIdealInt();
rf := r.asIdealInt();
val := lf().Cmp(rf()) != 0;
a.eval = func(f *Frame) bool { return val };
case *floatType:
lf := l.asFloat();
rf := r.asFloat();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *idealFloatType:
lf := l.asIdealFloat();
rf := r.asIdealFloat();
val := lf().Cmp(rf()) != 0;
a.eval = func(f *Frame) bool { return val };
case *stringType:
lf := l.asString();
rf := r.asString();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *PtrType:
lf := l.asPtr();
rf := r.asPtr();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *FuncType:
lf := l.asFunc();
rf := r.asFunc();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
case *MapType:
lf := l.asMap();
rf := r.asMap();
a.eval = func(f *Frame) bool { return lf(f) != rf(f) };
default:
log.Crashf("unexpected left operand type %v at %v", l.t, a.pos);
}
}
func genAssign(lt Type, r *expr) (func(lv Value, f *Frame)) {
switch _ := lt.lit().(type) {
case *boolType:
rf := r.asBool();
return func(lv Value, f *Frame) { lv.(BoolValue).Set(rf(f)) };
case *uintType:
rf := r.asUint();
return func(lv Value, f *Frame) { lv.(UintValue).Set(rf(f)) };
case *intType:
rf := r.asInt();
return func(lv Value, f *Frame) { lv.(IntValue).Set(rf(f)) };
case *floatType:
rf := r.asFloat();
return func(lv Value, f *Frame) { lv.(FloatValue).Set(rf(f)) };
case *stringType:
rf := r.asString();
return func(lv Value, f *Frame) { lv.(StringValue).Set(rf(f)) };
case *ArrayType:
rf := r.asArray();
return func(lv Value, f *Frame) { lv.Assign(rf(f)) };
case *StructType:
rf := r.asStruct();
return func(lv Value, f *Frame) { lv.Assign(rf(f)) };
case *PtrType:
rf := r.asPtr();
return func(lv Value, f *Frame) { lv.(PtrValue).Set(rf(f)) };
case *FuncType:
rf := r.asFunc();
return func(lv Value, f *Frame) { lv.(FuncValue).Set(rf(f)) };
case *SliceType:
rf := r.asSlice();
return func(lv Value, f *Frame) { lv.(SliceValue).Set(rf(f)) };
case *MapType:
rf := r.asMap();
return func(lv Value, f *Frame) { lv.(MapValue).Set(rf(f)) };
default:
log.Crashf("unexpected left operand type %v at %v", lt, r.pos);
}
panic();
}

2
usr/austin/eval/stmt.go
View File

@ -458,7 +458,7 @@ func (a *stmtCompiler) compileIncDecStmt(s *ast.IncDecStmt) {
one := l.newExpr(IdealIntType, "constant");
one.pos = s.Pos();
one.evalIdealInt = func() *bignum.Integer { return bignum.Int(1) };
one.eval = func() *bignum.Integer { return bignum.Int(1) };
binop := l.compileBinaryExpr(op, l, one);
if binop == nil {