cmd/compile: fix unified IR shapifying recursive instantiated types

Shape-based stenciling in unified IR is done by converting type argument to its underlying type. So it agressively check that type argument is not a TFORW. However, for recursive instantiated type argument, it may still be a TFORW when shapifying happens. Thus the assertion failed, causing the compiler crashing. To fix it, just allow fully instantiated type when shapifying. Fixes #54512 Fixes #54722 Change-Id: I527e3fd696388c8a37454e738f0324f0c2ec16cb Reviewed-on: https://go-review.googlesource.com/c/go/+/426335 TryBot-Result: Gopher Robot <gobot@golang.org> Auto-Submit: Cuong Manh Le <cuong.manhle.vn@gmail.com> Run-TryBot: Cuong Manh Le <cuong.manhle.vn@gmail.com> Reviewed-by: Heschi Kreinick <heschi@google.com> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2024-11-11 18:21:40 -07:00 · 2022-08-29 17:25:32 +07:00 · 2022-08-29 17:25:32 +07:00 · ddc93a536f
commit ddc93a536f
parent c22865fcfa
5 changed files with 67 additions and 22 deletions
--- a/src/cmd/compile/internal/base/debug.go
+++ b/src/cmd/compile/internal/base/debug.go
@ -35,6 +35,7 @@ type DebugFlags struct {
 	PCTab                string `help:"print named pc-value table\nOne of: pctospadj, pctofile, pctoline, pctoinline, pctopcdata"`
 	Panic                int    `help:"show all compiler panics"`
 	Reshape              int    `help:"print information about expression reshaping"`
+	Shapify              int    `help:"print information about shaping recursive types"`
 	Slice                int    `help:"print information about slice compilation"`
 	SoftFloat            int    `help:"force compiler to emit soft-float code"`
 	SyncFrames           int    `help:"how many writer stack frames to include at sync points in unified export data"`
--- a/src/cmd/compile/internal/noder/reader.go
+++ b/src/cmd/compile/internal/noder/reader.go
@ -817,7 +817,22 @@ func (dict *readerDict) mangle(sym *types.Sym) *types.Sym {
 // If basic is true, then the type argument is used to instantiate a
 // type parameter whose constraint is a basic interface.
 func shapify(targ *types.Type, basic bool) *types.Type {
-	base.Assertf(targ.Kind() != types.TFORW, "%v is missing its underlying type", targ)
+	if targ.Kind() == types.TFORW {
+		if targ.IsFullyInstantiated() {
+			// For recursive instantiated type argument, it may  still be a TFORW
+			// when shapifying happens. If we don't have targ's underlying type,
+			// shapify won't work. The worst case is we end up not reusing code
+			// optimally in some tricky cases.
+			if base.Debug.Shapify != 0 {
+				base.Warn("skipping shaping of recursive type %v", targ)
+			}
+			if targ.HasShape() {
+				return targ
+			}
+		} else {
+			base.Fatalf("%v is missing its underlying type", targ)
+		}
+	}

 	// When a pointer type is used to instantiate a type parameter
 	// constrained by a basic interface, we know the pointer's element
--- a/test/fixedbugs/issue54722.go
+++ b/test/fixedbugs/issue54722.go
@ -0,0 +1,15 @@
+// compile
+
+// Copyright 2022 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+package p
+
+type G[T any] struct {
+	h H[G[T]]
+}
+
+type H[T any] struct{}
+
+var x G[int]
--- a/test/fixedbugs/issue54722b.go
+++ b/test/fixedbugs/issue54722b.go
@ -0,0 +1,30 @@
+// compile
+
+// Copyright 2022 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+package p
+
+type value[V comparable] struct {
+	node  *node[value[V]]
+	value V
+}
+
+type node[V comparable] struct {
+	index    *index[V]
+	children map[string]*node[V]
+}
+
+type index[V comparable] struct {
+	arrays []array[V]
+}
+
+type array[V comparable] struct {
+	valueMap map[int]V
+}
+
+var x value[int]
+var y value[*Column]
+
+type Column struct{ column int }
--- a/test/typeparam/nested.go
+++ b/test/typeparam/nested.go
@ -104,27 +104,11 @@ func main() {
 	F[V]()
 	F[W]()

-	// TODO(go.dev/issue/54512): Restore these tests. They currently
-	// cause problems for shaping with unified IR.
-	//
-	// For example, instantiating X[int] requires instantiating shape
-	// type X[shapify(int)] == X[go.shape.int]. In turn, this requires
-	// instantiating U[shapify(X[go.shape.int])]. But we're still in the
-	// process of constructing X[go.shape.int], so we don't yet know its
-	// underlying type.
-	//
-	// Notably, this is a consequence of unified IR writing out type
-	// declarations with a reference to the full RHS expression (i.e.,
-	// U[X[A]]) rather than its underlying type (i.e., int), which is
-	// necessary to support //go:notinheap. Once go.dev/issue/46731 is
-	// implemented and unified IR is updated, I expect this will just
-	// work.
-	//
-	// type X[A any] U[X[A]]
-	//
-	// F[X[int]]()
-	// F[X[Int]]()
-	// F[X[GlobalInt]]()
+	type X[A any] U[X[A]]
+
+	F[X[int]]()
+	F[X[Int]]()
+	F[X[GlobalInt]]()

 	for j, tj := range tests {
 		for i, ti := range tests[:j+1] {