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go/test/fixedbugs/notinheap2.go

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cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
// errorcheck -+
// Copyright 2016 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.
// Test walk errors for not-in-heap.
//go:build cgo
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
package p
import "runtime/cgo"
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
type nih struct {
_ cgo.Incomplete
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
next *nih
}
// Global variables are okay.
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
var x nih
// Stack variables are not okay.
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
func f() {
var y nih // ERROR "nih is incomplete \(or unallocatable\); stack allocation disallowed"
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
x = y
}
// Heap allocation is not okay.
var y *nih
var y2 *struct{ x nih }
var y3 *[1]nih
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
var z []nih
var w []nih
var n int
var sink interface{}
type embed1 struct { // implicitly notinheap
x nih
}
type embed2 [1]nih // implicitly notinheap
type embed3 struct { // implicitly notinheap
x [1]nih
}
// Type aliases inherit the go:notinheap-ness of the type they alias.
type nihAlias = nih
type embedAlias1 struct { // implicitly notinheap
x nihAlias
}
type embedAlias2 [1]nihAlias // implicitly notinheap
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
func g() {
y = new(nih) // ERROR "can't be allocated in Go"
y2 = new(struct{ x nih }) // ERROR "can't be allocated in Go"
y3 = new([1]nih) // ERROR "can't be allocated in Go"
z = make([]nih, 1) // ERROR "can't be allocated in Go"
z = append(z, x) // ERROR "can't be allocated in Go"
sink = new(embed1) // ERROR "can't be allocated in Go"
sink = new(embed2) // ERROR "can't be allocated in Go"
sink = new(embed3) // ERROR "can't be allocated in Go"
sink = new(embedAlias1) // ERROR "can't be allocated in Go"
sink = new(embedAlias2) // ERROR "can't be allocated in Go"
// Test for special case of OMAKESLICECOPY
x := make([]nih, n) // ERROR "can't be allocated in Go"
copy(x, z)
z = x
cmd/compile: add go:notinheap type pragma This adds a //go:notinheap pragma for declarations of types that must not be heap allocated. We ensure these rules by disallowing new(T), make([]T), append([]T), or implicit allocation of T, by disallowing conversions to notinheap types, and by propagating notinheap to any struct or array that contains notinheap elements. The utility of this pragma is that we can eliminate write barriers for writes to pointers to go:notinheap types, since the write barrier is guaranteed to be a no-op. This will let us mark several scheduler and memory allocator structures as go:notinheap, which will let us disallow write barriers in the scheduler and memory allocator much more thoroughly and also eliminate some problematic hybrid write barriers. This also makes go:nowritebarrierrec and go:yeswritebarrierrec much more powerful. Currently we use go:nowritebarrier all over the place, but it's almost never what you actually want: when write barriers are illegal, they're typically illegal for a whole dynamic scope. Partly this is because go:nowritebarrier has been around longer, but it's also because go:nowritebarrierrec couldn't be used in situations that had no-op write barriers or where some nested scope did allow write barriers. go:notinheap eliminates many no-op write barriers and go:yeswritebarrierrec makes it possible to opt back in to write barriers, so these two changes will let us use go:nowritebarrierrec far more liberally. This updates #13386, which is about controlling pointers from non-GC'd memory to GC'd memory. That would require some additional pragma (or pragmas), but could build on this pragma. Change-Id: I6314f8f4181535dd166887c9ec239977b54940bd Reviewed-on: https://go-review.googlesource.com/30939 Reviewed-by: Keith Randall <khr@golang.org> Reviewed-by: Matthew Dempsky <mdempsky@google.com>
2016-10-11 20:53:27 -06:00
}
// Writes don't produce write barriers.
var p *nih
//go:nowritebarrier
func h() {
y.next = p.next
}