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cmd/compile/internal/types2: split out function instantiation from index expr

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Also, factor out recording of type/value information after
evaluating an expression into an operand, so that we can
use it when handling instantiation expressions manually.

Change-Id: I6776e6cc243558079d6a203f2fe0a6ae0ecc33de
Reviewed-on: https://go-review.googlesource.com/c/go/+/308371
Trust: Robert Griesemer <gri@golang.org>
Run-TryBot: Robert Griesemer <gri@golang.org>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Robert Findley <rfindley@google.com>
This commit is contained in:
Robert Griesemer 2021-04-07 18:27:08 -07:00
parent 36c5f902f9
commit a6d95b4508
4 changed files with 91 additions and 76 deletions
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89
src/cmd/compile/internal/types2/call.go
View file

@ -12,7 +12,7 @@ import (
"unicode" "unicode"
) )
// funcInst type-checks a function instantiaton inst and returns the result in x. // funcInst type-checks a function instantiation inst and returns the result in x.
// The operand x must be the evaluation of inst.X and its type must be a signature. // The operand x must be the evaluation of inst.X and its type must be a signature.
func (check *Checker) funcInst(x *operand, inst *syntax.IndexExpr) { func (check *Checker) funcInst(x *operand, inst *syntax.IndexExpr) {
xlist := unpackExpr(inst.Index) xlist := unpackExpr(inst.Index)
@ -66,8 +66,16 @@ func (check *Checker) funcInst(x *operand, inst *syntax.IndexExpr) {
x.expr = inst x.expr = inst
} }
func (check *Checker) call(x *operand, call *syntax.CallExpr) exprKind { func (check *Checker) callExpr(x *operand, call *syntax.CallExpr) exprKind {
check.exprOrType(x, call.Fun) if iexpr, _ := call.Fun.(*syntax.IndexExpr); iexpr != nil {
if check.indexExpr(x, iexpr) {
check.funcInst(x, iexpr)
}
x.expr = iexpr
check.record(x)
} else {
check.exprOrType(x, call.Fun)
}
switch x.mode { switch x.mode {
case invalid: case invalid:
@ -116,49 +124,48 @@ func (check *Checker) call(x *operand, call *syntax.CallExpr) exprKind {
check.hasCallOrRecv = true check.hasCallOrRecv = true
} }
return predeclaredFuncs[id].kind return predeclaredFuncs[id].kind
}
default: // ordinary function/method call
// function/method call cgocall := x.mode == cgofunc
cgocall := x.mode == cgofunc
sig := asSignature(x.typ) sig := asSignature(x.typ)
if sig == nil { if sig == nil {
check.errorf(x, invalidOp+"cannot call non-function %s", x) check.errorf(x, invalidOp+"cannot call non-function %s", x)
x.mode = invalid x.mode = invalid
x.expr = call
return statement
}
// evaluate arguments
args, _ := check.exprList(call.ArgList, false)
sig = check.arguments(call, sig, args)
// determine result
switch sig.results.Len() {
case 0:
x.mode = novalue
case 1:
if cgocall {
x.mode = commaerr
} else {
x.mode = value
}
x.typ = sig.results.vars[0].typ // unpack tuple
default:
x.mode = value
x.typ = sig.results
}
x.expr = call x.expr = call
check.hasCallOrRecv = true
// if type inference failed, a parametrized result must be invalidated
// (operands cannot have a parametrized type)
if x.mode == value && len(sig.tparams) > 0 && isParameterized(sig.tparams, x.typ) {
x.mode = invalid
}
return statement return statement
} }
// evaluate arguments
args, _ := check.exprList(call.ArgList, false)
sig = check.arguments(call, sig, args)
// determine result
switch sig.results.Len() {
case 0:
x.mode = novalue
case 1:
if cgocall {
x.mode = commaerr
} else {
x.mode = value
}
x.typ = sig.results.vars[0].typ // unpack tuple
default:
x.mode = value
x.typ = sig.results
}
x.expr = call
check.hasCallOrRecv = true
// if type inference failed, a parametrized result must be invalidated
// (operands cannot have a parametrized type)
if x.mode == value && len(sig.tparams) > 0 && isParameterized(sig.tparams, x.typ) {
x.mode = invalid
}
return statement
} }
func (check *Checker) exprList(elist []syntax.Expr, allowCommaOk bool) (xlist []*operand, commaOk bool) { func (check *Checker) exprList(elist []syntax.Expr, allowCommaOk bool) (xlist []*operand, commaOk bool) {

27
src/cmd/compile/internal/types2/check.go
View file

@ -307,6 +307,33 @@ func (check *Checker) processDelayed(top int) {
check.delayed = check.delayed[:top] check.delayed = check.delayed[:top]
} }
func (check *Checker) record(x *operand) {
// convert x into a user-friendly set of values
// TODO(gri) this code can be simplified
var typ Type
var val constant.Value
switch x.mode {
case invalid:
typ = Typ[Invalid]
case novalue:
typ = (*Tuple)(nil)
case constant_:
typ = x.typ
val = x.val
default:
typ = x.typ
}
assert(x.expr != nil && typ != nil)
if isUntyped(typ) {
// delay type and value recording until we know the type
// or until the end of type checking
check.rememberUntyped(x.expr, false, x.mode, typ.(*Basic), val)
} else {
check.recordTypeAndValue(x.expr, x.mode, typ, val)
}
}
func (check *Checker) recordUntyped() { func (check *Checker) recordUntyped() {
if !debug && check.Types == nil { if !debug && check.Types == nil {
return // nothing to do return // nothing to do

32
src/cmd/compile/internal/types2/expr.go
View file

@ -1068,31 +1068,7 @@ func (check *Checker) rawExpr(x *operand, e syntax.Expr, hint Type) exprKind {
} }
kind := check.exprInternal(x, e, hint) kind := check.exprInternal(x, e, hint)
check.record(x)
// convert x into a user-friendly set of values
// TODO(gri) this code can be simplified
var typ Type
var val constant.Value
switch x.mode {
case invalid:
typ = Typ[Invalid]
case novalue:
typ = (*Tuple)(nil)
case constant_:
typ = x.typ
val = x.val
default:
typ = x.typ
}
assert(x.expr != nil && typ != nil)
if isUntyped(typ) {
// delay type and value recording until we know the type
// or until the end of type checking
check.rememberUntyped(x.expr, false, x.mode, typ.(*Basic), val)
} else {
check.recordTypeAndValue(e, x.mode, typ, val)
}
return kind return kind
} }
@ -1387,7 +1363,9 @@ func (check *Checker) exprInternal(x *operand, e syntax.Expr, hint Type) exprKin
check.selector(x, e) check.selector(x, e)
case *syntax.IndexExpr: case *syntax.IndexExpr:
check.indexExpr(x, e) if check.indexExpr(x, e) {
check.funcInst(x, e)
}
if x.mode == invalid { if x.mode == invalid {
goto Error goto Error
} }
@ -1428,7 +1406,7 @@ func (check *Checker) exprInternal(x *operand, e syntax.Expr, hint Type) exprKin
goto Error goto Error
case *syntax.CallExpr: case *syntax.CallExpr:
return check.call(x, e) return check.callExpr(x, e)
// case *syntax.UnaryExpr: // case *syntax.UnaryExpr:
// check.expr(x, e.X) // check.expr(x, e.X)

19
src/cmd/compile/internal/types2/index.go
View file

@ -11,14 +11,18 @@ import (
"go/constant" "go/constant"
) )
func (check *Checker) indexExpr(x *operand, e *syntax.IndexExpr) { // If e is a valid function instantiation, indexExpr returns true.
// In that case x represents the uninstantiated function value and
// it is the caller's responsibility to instantiate the function.
func (check *Checker) indexExpr(x *operand, e *syntax.IndexExpr) (isFuncInst bool) {
check.exprOrType(x, e.X) check.exprOrType(x, e.X)
if x.mode == invalid {
switch x.mode {
case invalid:
check.use(e.Index) check.use(e.Index)
return return
}
if x.mode == typexpr { case typexpr:
// type instantiation // type instantiation
x.mode = invalid x.mode = invalid
x.typ = check.varType(e) x.typ = check.varType(e)
@ -26,13 +30,11 @@ func (check *Checker) indexExpr(x *operand, e *syntax.IndexExpr) {
x.mode = typexpr x.mode = typexpr
} }
return return
}
if x.mode == value { case value:
if sig := asSignature(x.typ); sig != nil && len(sig.tparams) > 0 { if sig := asSignature(x.typ); sig != nil && len(sig.tparams) > 0 {
// function instantiation // function instantiation
check.funcInst(x, e) return true
return
} }
} }
@ -194,6 +196,7 @@ func (check *Checker) indexExpr(x *operand, e *syntax.IndexExpr) {
} }
check.index(index, length) check.index(index, length)
return
} }
func (check *Checker) sliceExpr(x *operand, e *syntax.SliceExpr) { func (check *Checker) sliceExpr(x *operand, e *syntax.SliceExpr) {