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go/types, types2: prevent unification from recursing endlessly

This is a stop gap solution to avoid panics due to stack overflow
during type unification. While this doesn't address the underlying
issues (for which we are still investigating the correct approach),
it prevents a panic during compilation and reports a (possibly not
quite correct) error message.

If the programs are correct in the first place, manually providing
the desired type arguments is a viable work-around, resulting in
code that will continue to work even when the issues here are fixed
satisfactorily.

For #48619.
For #48656.

Change-Id: I13bb14552b38b4170b5a1b820e3172d88ff656ec
Reviewed-on: https://go-review.googlesource.com/c/go/+/377954
Trust: Robert Griesemer <gri@golang.org>
Run-TryBot: Robert Griesemer <gri@golang.org>
Reviewed-by: Robert Findley <rfindley@google.com>
This commit is contained in:
Robert Griesemer 2022-01-11 20:55:56 -08:00
parent 68b3d36ff4
commit deb45802a4
6 changed files with 76 additions and 30 deletions

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@ -2,23 +2,26 @@
// Use of this source code is governed by a BSD-style // Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file. // license that can be found in the LICENSE file.
// This issue has been re-opened. // This issue is still open:
// - the error messages could be better or are incorrect
// - unification fails due to stack overflow that is caught
package p package p
func f[P any](a, _ P) { func f[P any](a, _ P) {
// var x int var x int
// f(a, x /* ERROR type int of x does not match P */) // TODO(gri) these error messages, while correct, could be better
// f(x, a /* ERROR type P of a does not match inferred type int for P */) f(a, x /* ERROR type int of x does not match P */)
f(x, a /* ERROR type P of a does not match inferred type int for P */)
} }
func g[P any](a, b P) { func g[P any](a, b P) {
// g(a, b) g(a, b)
// g(&a, &b) // TODO(gri) these error messages are incorrect because the code is valid
// g([]P{}, []P{}) g(&a, & /* ERROR type \*P of &b does not match inferred type \*P for P */ b)
} g([]P{}, [ /* ERROR type \[\]P of \[\]P{} does not match inferred type \[\]P for P */ ]P{})
func h[P any](a, b P) { // work-around: provide type argument explicitly
// h(&a, &b) g[*P](&a, &b)
// h([]P{a}, []P{b}) g[[]P]([]P{}, []P{})
} }

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@ -2,11 +2,14 @@
// Use of this source code is governed by a BSD-style // Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file. // license that can be found in the LICENSE file.
// This issue is still open. // This issue is still open:
// - the error messages are unclear
// - unification fails due to stack overflow that is caught
package p package p
func f[P *Q, Q any](p P, q Q) { func f[P *Q, Q any](P, Q) {
// _ = f[P] // TODO(gri) these error messages are unclear
// _ = f[/* ERROR cannot infer P */ *P] _ = f[ /* ERROR P does not match \*Q */ P]
_ = f[ /* ERROR cannot infer P */ *P]
} }

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@ -33,6 +33,10 @@ import (
// by setting up one of them (using init) and then assigning its value // by setting up one of them (using init) and then assigning its value
// to the other. // to the other.
// Upper limit for recursion depth. Used to catch infinite recursions
// due to implementation issues (e.g., see issues #48619, #48656).
const unificationDepthLimit = 50
// A unifier maintains the current type parameters for x and y // A unifier maintains the current type parameters for x and y
// and the respective types inferred for each type parameter. // and the respective types inferred for each type parameter.
// A unifier is created by calling newUnifier. // A unifier is created by calling newUnifier.
@ -40,6 +44,7 @@ type unifier struct {
exact bool exact bool
x, y tparamsList // x and y must initialized via tparamsList.init x, y tparamsList // x and y must initialized via tparamsList.init
types []Type // inferred types, shared by x and y types []Type // inferred types, shared by x and y
depth int // recursion depth during unification
} }
// newUnifier returns a new unifier. // newUnifier returns a new unifier.
@ -237,6 +242,18 @@ func (u *unifier) nifyEq(x, y Type, p *ifacePair) bool {
// code the corresponding changes should be made here. // code the corresponding changes should be made here.
// Must not be called directly from outside the unifier. // Must not be called directly from outside the unifier.
func (u *unifier) nify(x, y Type, p *ifacePair) bool { func (u *unifier) nify(x, y Type, p *ifacePair) bool {
// Stop gap for cases where unification fails.
if u.depth >= unificationDepthLimit {
if debug {
panic("unification reached recursion depth limit")
}
return false
}
u.depth++
defer func() {
u.depth--
}()
if !u.exact { if !u.exact {
// If exact unification is known to fail because we attempt to // If exact unification is known to fail because we attempt to
// match a type name against an unnamed type literal, consider // match a type name against an unnamed type literal, consider

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@ -2,23 +2,26 @@
// Use of this source code is governed by a BSD-style // Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file. // license that can be found in the LICENSE file.
// This issue has been re-opened. // This issue is still open:
// - the error messages could be better or are incorrect
// - unification fails due to stack overflow that is caught
package p package p
func f[P any](a, _ P) { func f[P any](a, _ P) {
// var x int var x int
// f(a, x /* ERROR type int of x does not match P */) // TODO(gri) these error messages, while correct, could be better
// f(x, a /* ERROR type P of a does not match inferred type int for P */) f(a, x /* ERROR type int of x does not match P */)
f(x, a /* ERROR type P of a does not match inferred type int for P */)
} }
func g[P any](a, b P) { func g[P any](a, b P) {
// g(a, b) g(a, b)
// g(&a, &b) // TODO(gri) these error messages are incorrect because the code is valid
// g([]P{}, []P{}) g(&a, & /* ERROR type \*P of &b does not match inferred type \*P for P */ b)
} g([]P{}, [ /* ERROR type \[\]P of \(\[\]P literal\) does not match inferred type \[\]P for P */ ]P{})
func h[P any](a, b P) { // work-around: provide type argument explicitly
// h(&a, &b) g[*P](&a, &b)
// h([]P{a}, []P{b}) g[[]P]([]P{}, []P{})
} }

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@ -2,11 +2,14 @@
// Use of this source code is governed by a BSD-style // Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file. // license that can be found in the LICENSE file.
// This issue is still open. // This issue is still open:
// - the error messages are unclear
// - unification fails due to stack overflow that is caught
package p package p
func f[P interface{*Q}, Q any](p P, q Q) { func f[P *Q, Q any](P, Q) {
// _ = f[P] // TODO(gri) these error messages are unclear
// _ = f[/* ERROR cannot infer P */ *P] _ = f /* ERROR P does not match \*Q */ [P]
_ = f /* ERROR cannot infer P */ [*P]
} }

View File

@ -33,6 +33,10 @@ import (
// by setting up one of them (using init) and then assigning its value // by setting up one of them (using init) and then assigning its value
// to the other. // to the other.
// Upper limit for recursion depth. Used to catch infinite recursions
// due to implementation issues (e.g., see issues #48619, #48656).
const unificationDepthLimit = 50
// A unifier maintains the current type parameters for x and y // A unifier maintains the current type parameters for x and y
// and the respective types inferred for each type parameter. // and the respective types inferred for each type parameter.
// A unifier is created by calling newUnifier. // A unifier is created by calling newUnifier.
@ -40,6 +44,7 @@ type unifier struct {
exact bool exact bool
x, y tparamsList // x and y must initialized via tparamsList.init x, y tparamsList // x and y must initialized via tparamsList.init
types []Type // inferred types, shared by x and y types []Type // inferred types, shared by x and y
depth int // recursion depth during unification
} }
// newUnifier returns a new unifier. // newUnifier returns a new unifier.
@ -237,6 +242,18 @@ func (u *unifier) nifyEq(x, y Type, p *ifacePair) bool {
// code the corresponding changes should be made here. // code the corresponding changes should be made here.
// Must not be called directly from outside the unifier. // Must not be called directly from outside the unifier.
func (u *unifier) nify(x, y Type, p *ifacePair) bool { func (u *unifier) nify(x, y Type, p *ifacePair) bool {
// Stop gap for cases where unification fails.
if u.depth >= unificationDepthLimit {
if debug {
panic("unification reached recursion depth limit")
}
return false
}
u.depth++
defer func() {
u.depth--
}()
if !u.exact { if !u.exact {
// If exact unification is known to fail because we attempt to // If exact unification is known to fail because we attempt to
// match a type name against an unnamed type literal, consider // match a type name against an unnamed type literal, consider