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[dev.typeparams] cmd/compile: fix export/import of constants with typeparam type

A constant will have a TYPEPARAM type if it appears in a place where it
must match that typeparam type (e.g. in a binary operation with a
variable of that typeparam type). If so, then we must write out its
actual constant kind as well, so its constant val can be read in
properly during import.

Fixed some export/import tests which were casting some untyped constants
to avoid this problem.

Change-Id: I285ad8f1c8febbe526769c96e6b27acbd23050f0
Reviewed-on: https://go-review.googlesource.com/c/go/+/324189
Run-TryBot: Dan Scales <danscales@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Keith Randall <khr@golang.org>
Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
This commit is contained in:
Dan Scales 2021-06-02 00:03:25 -07:00
parent 6b1cdeaef3
commit 97cb0113a3
5 changed files with 65 additions and 22 deletions

View File

@ -1061,26 +1061,50 @@ func constTypeOf(typ *types.Type) constant.Kind {
}
func (w *exportWriter) value(typ *types.Type, v constant.Value) {
ir.AssertValidTypeForConst(typ, v)
w.typ(typ)
var kind constant.Kind
var valType *types.Type
// Each type has only one admissible constant representation,
// so we could type switch directly on v.U here. However,
// switching on the type increases symmetry with import logic
// and provides a useful consistency check.
if typ.Kind() == types.TTYPEPARAM {
// A constant will have a TYPEPARAM type if it appears in a place
// where it must match that typeparam type (e.g. in a binary
// operation with a variable of that typeparam type). If so, then
// we must write out its actual constant kind as well, so its
// constant val can be read in properly during import.
kind = v.Kind()
w.int64(int64(kind))
switch constTypeOf(typ) {
switch kind {
case constant.Int:
valType = types.Types[types.TINT64]
case constant.Float:
valType = types.Types[types.TFLOAT64]
case constant.Complex:
valType = types.Types[types.TCOMPLEX128]
}
} else {
ir.AssertValidTypeForConst(typ, v)
kind = constTypeOf(typ)
valType = typ
}
// Each type has only one admissible constant representation, so we could
// type switch directly on v.Kind() here. However, switching on the type
// (in the non-typeparam case) increases symmetry with import logic and
// provides a useful consistency check.
switch kind {
case constant.Bool:
w.bool(constant.BoolVal(v))
case constant.String:
w.string(constant.StringVal(v))
case constant.Int:
w.mpint(v, typ)
w.mpint(v, valType)
case constant.Float:
w.mpfloat(v, typ)
w.mpfloat(v, valType)
case constant.Complex:
w.mpfloat(constant.Real(v), typ)
w.mpfloat(constant.Imag(v), typ)
w.mpfloat(constant.Real(v), valType)
w.mpfloat(constant.Imag(v), valType)
}
}

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@ -400,19 +400,39 @@ func (r *importReader) doDecl(sym *types.Sym) *ir.Name {
}
func (p *importReader) value(typ *types.Type) constant.Value {
switch constTypeOf(typ) {
var kind constant.Kind
var valType *types.Type
if typ.Kind() == types.TTYPEPARAM {
// If a constant had a typeparam type, then we wrote out its
// actual constant kind as well.
kind = constant.Kind(p.int64())
switch kind {
case constant.Int:
valType = types.Types[types.TINT64]
case constant.Float:
valType = types.Types[types.TFLOAT64]
case constant.Complex:
valType = types.Types[types.TCOMPLEX128]
}
} else {
kind = constTypeOf(typ)
valType = typ
}
switch kind {
case constant.Bool:
return constant.MakeBool(p.bool())
case constant.String:
return constant.MakeString(p.string())
case constant.Int:
var i big.Int
p.mpint(&i, typ)
p.mpint(&i, valType)
return constant.Make(&i)
case constant.Float:
return p.float(typ)
return p.float(valType)
case constant.Complex:
return makeComplex(p.float(typ), p.float(typ))
return makeComplex(p.float(valType), p.float(valType))
}
base.Fatalf("unexpected value type: %v", typ)

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@ -9,10 +9,10 @@ package main
import "fmt"
func fact[T interface { type int, int64, float64 }](n T) T {
if n == T(1) {
return T(1)
if n == 1 {
return 1
}
return n * fact(n - T(1))
return n * fact(n - 1)
}
func main() {

View File

@ -5,8 +5,8 @@
package a
func Fact[T interface { type int, int64, float64 }](n T) T {
if n == T(1) {
return T(1)
if n == 1 {
return 1
}
return n * Fact(n - T(1))
return n * Fact(n - 1)
}

View File

@ -42,11 +42,10 @@ type ListNum[T OrderedNum] struct {
const Clip = 5
// clippedLargest returns the largest in the list of OrderNums, but a max of 5.
// TODO(danscales): fix export/import of an untype constant with typeparam type
func (l *ListNum[T]) ClippedLargest() T {
var max T
for p := l; p != nil; p = p.Next {
if p.Val > max && p.Val < T(Clip) {
if p.Val > max && p.Val < Clip {
max = p.Val
}
}